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base: wn:dynamic_dashboard
Branches Tags
wn:main wn:caroutlet wn:ui_redesign wn:api_message_processing_refactoring wn:homekit_integration wn:ui_fix_thermostats wn:groups_and_scenes wn:rules wn:shellies_relays wn:temperature_sensors wn:window_contacts wn:polyfill wn:dynamic_dashboard
wn:0.0.16 wn:0.0.15 wn:0.0.14 wn:0.0.13 wn:0.0.12 wn:0.0.11 wn:0.0.10 wn:0.0.9 wn:0.0.8 wn:0.0.7 wn:0.0.6 wn:0.0.5 wn:0.0.4-configchange wn:0.0.4 wn:0.0.3 wn:0.0.2 wn:0.0.1 wn:works_on_chrome_and_iphone
...
compare: wn:0.0.14
Branches Tags
wn:caroutlet wn:main wn:ui_redesign wn:api_message_processing_refactoring wn:homekit_integration wn:ui_fix_thermostats wn:groups_and_scenes wn:rules wn:shellies_relays wn:temperature_sensors wn:window_contacts wn:polyfill wn:dynamic_dashboard
wn:0.0.16 wn:0.0.15 wn:0.0.14 wn:0.0.13 wn:0.0.12 wn:0.0.11 wn:0.0.10 wn:0.0.9 wn:0.0.8 wn:0.0.7 wn:0.0.6 wn:0.0.5 wn:0.0.4-configchange wn:0.0.4 wn:0.0.3 wn:0.0.2 wn:0.0.1 wn:works_on_chrome_and_iphone

171 Commits
dynamic_da ... 0.0.14

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Wolfgang Hottgenroth
804e9bf742 namespace and config 13
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Wolfgang Hottgenroth
f60d5d03e9 namespace and config 12
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Wolfgang Hottgenroth
eff88e1d2f namespace and config 11 2025-11-21 12:06:28 +01:00
Wolfgang Hottgenroth
d027163087 namespace and config 10
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Wolfgang Hottgenroth
4051ca22a4 namespace and config 9
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Wolfgang Hottgenroth
2608e935b8 namespace and config 8
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Wolfgang Hottgenroth
51f3b4f227 namespace and config 7
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Wolfgang Hottgenroth
006359687f namespace and config 6
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Wolfgang Hottgenroth
f26d304890 namespace and config 5
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2025-11-21 11:44:10 +01:00
Wolfgang Hottgenroth
6feec48ac6 namespace and config 4
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Wolfgang Hottgenroth
ed6ed66a37 namespace and config 3
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Wolfgang Hottgenroth
09498dd0e5 namespace and config 2
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2025-11-21 11:33:58 +01:00
Wolfgang Hottgenroth
41f5e06e30 namespace and config
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2025-11-21 11:23:49 +01:00
Wolfgang Hottgenroth
7769c6066a add ci script 5
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Wolfgang Hottgenroth
5f23e28cc0 add ci script 4
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Wolfgang Hottgenroth
cc083c1055 add ci script 3
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Wolfgang Hottgenroth
37b773143f add ci script 2
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Wolfgang Hottgenroth
27c0990400 add ci script
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2025-11-21 10:51:53 +01:00
Wolfgang Hottgenroth
b150cd895e default to rooms 2025-11-20 22:17:35 +01:00
Wolfgang Hottgenroth
f67831c8bd fix 2025-11-20 22:13:01 +01:00
Wolfgang Hottgenroth
b61e7293ae debug device states 2025-11-20 22:09:21 +01:00
Wolfgang Hottgenroth
a85fd1ccf0 change name 2025-11-20 21:52:21 +01:00
Wolfgang Hottgenroth
19a3dfdd65 drop obsolete files 2025-11-20 21:50:43 +01:00
Wolfgang Hottgenroth
57b4d7d762 drop back button from rooms 2025-11-20 21:41:35 +01:00
Wolfgang Hottgenroth
826d73990b grid fix 16 2025-11-20 21:32:42 +01:00
Wolfgang Hottgenroth
86587402b6 grid fix 15 2025-11-20 21:30:10 +01:00
Wolfgang Hottgenroth
110b903dc8 grid fix 14 2025-11-20 21:27:30 +01:00
Wolfgang Hottgenroth
a8f6ad800d grid fix 13 2025-11-20 21:25:42 +01:00
Wolfgang Hottgenroth
52a50e1cd4 grid fix 12 2025-11-20 21:25:05 +01:00
Wolfgang Hottgenroth
9d7e26677f grid fix 11 2025-11-20 18:33:50 +01:00
Wolfgang Hottgenroth
ebd459bfc1 grid fix 10 2025-11-20 18:29:51 +01:00
Wolfgang Hottgenroth
e49c5affe9 grid fix 9 2025-11-20 18:14:35 +01:00
Wolfgang Hottgenroth
5595cf4f37 grid fix 8 2025-11-20 18:13:55 +01:00
Wolfgang Hottgenroth
f61417a631 grid fix 7 2025-11-19 21:33:52 +01:00
Wolfgang Hottgenroth
6d62732d1d grid fix 6 2025-11-19 21:32:23 +01:00
Wolfgang Hottgenroth
73814df01e grid fix 5 2025-11-19 21:16:48 +01:00
Wolfgang Hottgenroth
4b7ac9b82b grid fix 4 2025-11-19 21:14:50 +01:00
Wolfgang Hottgenroth
850d810cb3 grid fix 3 2025-11-19 21:12:39 +01:00
Wolfgang Hottgenroth
5bdfbacc3c grid fix 2025-11-19 20:36:14 +01:00
Wolfgang Hottgenroth
3d9043b8fa device state setting fix 20 2025-11-19 15:17:55 +01:00
Wolfgang Hottgenroth
1890a83939 device state setting fix 19 2025-11-19 12:55:03 +01:00
Wolfgang Hottgenroth
23edd42fca device state setting fix 18 2025-11-19 12:34:39 +01:00
Wolfgang Hottgenroth
5fbaab3c11 device state setting fix 17 2025-11-19 12:19:51 +01:00
Wolfgang Hottgenroth
2eefbcd44b device state setting fix 16 2025-11-19 12:12:15 +01:00
Wolfgang Hottgenroth
d09caa9d92 device state setting fix 15 2025-11-19 12:09:45 +01:00
Wolfgang Hottgenroth
127b5857c3 device state setting fix 14 2025-11-19 12:02:27 +01:00
Wolfgang Hottgenroth
c2dcb733d8 device state setting fix 12 2025-11-19 11:24:32 +01:00
Wolfgang Hottgenroth
168b2c4b12 device state setting fix 11 2025-11-19 10:58:51 +01:00
Wolfgang Hottgenroth
66872703c1 device state setting fix 10 2025-11-19 10:55:05 +01:00
Wolfgang Hottgenroth
d4b44fa73e device state setting fix 9 2025-11-19 10:49:23 +01:00
Wolfgang Hottgenroth
87a86524d4 device state setting fix 8 2025-11-19 10:44:18 +01:00
Wolfgang Hottgenroth
91fdfde280 device state setting fix 7 2025-11-19 10:41:39 +01:00
Wolfgang Hottgenroth
d138d7bf0a device state setting fix 6 2025-11-19 10:36:45 +01:00
Wolfgang Hottgenroth
8b08ded0c6 device state setting fix 5 2025-11-19 10:31:07 +01:00
Wolfgang Hottgenroth
6a0601742a device state setting fix 4 2025-11-19 10:28:33 +01:00
Wolfgang Hottgenroth
99580f8ff9 device state setting fix 3 2025-11-19 10:20:46 +01:00
Wolfgang Hottgenroth
381f8521d4 device state setting fix 2 2025-11-19 10:16:39 +01:00
Wolfgang Hottgenroth
a382d58601 device state setting fix 2025-11-19 10:11:16 +01:00
Wolfgang Hottgenroth
0ca5ffaca0 device state fix 3 2025-11-19 09:40:47 +01:00
Wolfgang Hottgenroth
ec193a92f8 device state fix 2 2025-11-19 09:38:03 +01:00
Wolfgang Hottgenroth
c473ea341e device state fix 2025-11-19 09:35:27 +01:00
Wolfgang Hottgenroth
0b6b9a01fb refactored 7 2025-11-18 16:05:58 +01:00
Wolfgang Hottgenroth
734ee18e85 refactored 6 2025-11-18 16:03:20 +01:00
Wolfgang Hottgenroth
d9d17d37e5 refactored 5 2025-11-18 14:25:55 +01:00
Wolfgang Hottgenroth
29e2fd441b refactored 4 2025-11-18 14:25:09 +01:00
Wolfgang Hottgenroth
f902f40386 refactored 3 2025-11-18 14:12:08 +01:00
Wolfgang Hottgenroth
6483cf0740 refactored 2 2025-11-18 14:10:22 +01:00
Wolfgang Hottgenroth
2863f5f5a6 refactored 2025-11-18 12:59:14 +01:00
Wolfgang Hottgenroth
3e02decc02 new endpoints 6 2025-11-18 11:02:03 +01:00
Wolfgang Hottgenroth
3e9e388ddd new endpoints 5 2025-11-18 10:55:51 +01:00
Wolfgang Hottgenroth
1f6fe134d5 new endpoints 4 2025-11-18 10:41:24 +01:00
Wolfgang Hottgenroth
05884bb99a new endpoints 3 2025-11-18 10:36:43 +01:00
Wolfgang Hottgenroth
5d08ec970a new endpoints 2 2025-11-18 10:20:10 +01:00
Wolfgang Hottgenroth
732c333966 new endpoints 2025-11-18 09:38:32 +01:00
Wolfgang Hottgenroth
c685e65be5 new ui 14 2025-11-17 22:25:45 +01:00
Wolfgang Hottgenroth
2eb9d323de new ui 13 2025-11-17 22:14:31 +01:00
Wolfgang Hottgenroth
d9d2033dd7 new ui 12 2025-11-17 22:12:15 +01:00
Wolfgang Hottgenroth
04c8cc8577 new ui 11 2025-11-17 22:07:26 +01:00
Wolfgang Hottgenroth
e140227f7a new ui 10 2025-11-17 22:04:59 +01:00
Wolfgang Hottgenroth
cc25a22025 new ui 9 2025-11-17 22:00:56 +01:00
Wolfgang Hottgenroth
af6ab012dd new ui 8 2025-11-17 21:56:09 +01:00
Wolfgang Hottgenroth
a2c2ef7ddd new ui 7 2025-11-17 21:54:40 +01:00
Wolfgang Hottgenroth
ecf31c7f8b new ui 6 2025-11-17 21:52:24 +01:00
Wolfgang Hottgenroth
74d4fea695 new ui 5 2025-11-17 21:42:47 +01:00
Wolfgang Hottgenroth
c38fdab0ad new ui 4 2025-11-17 21:40:00 +01:00
Wolfgang Hottgenroth
094cef0bd7 new ui 3 2025-11-17 21:39:44 +01:00
Wolfgang Hottgenroth
1027b905b5 new ui 2 2025-11-17 21:36:25 +01:00
Wolfgang Hottgenroth
204a70a438 new ui 1 2025-11-17 21:33:15 +01:00
Wolfgang Hottgenroth
3a2702e9aa add stehlampen esszimmer 
2
 2025-11-17 14:51:38 +01:00
Wolfgang Hottgenroth
9e66e16986 add stehlampen esszimmer 2025-11-17 14:46:44 +01:00
Wolfgang Hottgenroth
aaee480e57 seems to work 2025-11-17 11:36:19 +01:00
Wolfgang Hottgenroth
d0b5184270 start script 2025-11-17 10:23:42 +01:00
Wolfgang Hottgenroth
5bf37a19ad homekit bridge initial 2025-11-17 10:18:27 +01:00
Wolfgang Hottgenroth
2e24c259cb fix 4 2025-11-17 08:42:26 +01:00
Wolfgang Hottgenroth
bbf280bdf4 fix 3 2025-11-17 08:39:50 +01:00
Wolfgang Hottgenroth
a7d778b211 fix 2 2025-11-17 08:37:02 +01:00
Wolfgang Hottgenroth
a7d8afc98b fix 2025-11-17 08:10:11 +01:00
Wolfgang Hottgenroth
a4ae8a2f6c slider for thermostats 2025-11-17 08:05:58 +01:00
Wolfgang Hottgenroth
6152385339 fix 8 2025-11-14 15:14:48 +01:00
Wolfgang Hottgenroth
c2b7328219 fix 7 2025-11-14 15:13:37 +01:00
Wolfgang Hottgenroth
99362b346f fix 6 2025-11-14 15:01:49 +01:00
Wolfgang Hottgenroth
77d29c3a42 fix 5 2025-11-14 14:31:03 +01:00
Wolfgang Hottgenroth
ef3b1177d2 fix 4 2025-11-14 14:18:59 +01:00
Wolfgang Hottgenroth
8bbe9c164f fix 3 2025-11-14 14:14:49 +01:00
Wolfgang Hottgenroth
65f8a0c7cb fix 2 2025-11-14 11:34:32 +01:00
Wolfgang Hottgenroth
cbe7e11cf2 fix 2025-11-14 11:30:10 +01:00
Wolfgang Hottgenroth
9bf336fa11 groups and scenes 3 2025-11-13 21:56:13 +01:00
Wolfgang Hottgenroth
b82217a666 groups and scenes 2 2025-11-13 21:54:09 +01:00
Wolfgang Hottgenroth
5851414ba5 groups and scenes initial 2025-11-13 21:29:04 +01:00
Wolfgang Hottgenroth
4c5475e930 favicon 2025-11-13 11:14:43 +01:00
Wolfgang Hottgenroth
b6b441c0ca rules 2 2025-11-11 19:58:06 +01:00
Wolfgang Hottgenroth
d3d96ed3e9 enabled for rules 2025-11-11 17:08:18 +01:00
Wolfgang Hottgenroth
2e2963488b rules initial 2025-11-11 16:38:41 +01:00
Wolfgang Hottgenroth
7928bc596f compose file 2025-11-11 12:40:53 +01:00
Wolfgang Hottgenroth
3874eaed83 compose file added 2025-11-11 12:34:49 +01:00
Wolfgang Hottgenroth
0f43f37823 shellies 2025-11-11 11:39:10 +01:00
Wolfgang Hottgenroth
93e70da97d add spuele 3 2025-11-11 11:11:14 +01:00
Wolfgang Hottgenroth
62d302bf41 add spuele 2 2025-11-11 11:10:31 +01:00
Wolfgang Hottgenroth
3d6130f2c2 add spuele 2025-11-11 11:09:08 +01:00
Wolfgang Hottgenroth
2a8d569bb5 shelly 2025-11-11 11:01:52 +01:00
Wolfgang Hottgenroth
6a5f814cb4 fix in layout, drop test entry 2025-11-11 10:28:27 +01:00
Wolfgang Hottgenroth
cc3c15078c change relays to type relay 2025-11-11 10:24:09 +01:00
Wolfgang Hottgenroth
7772dac000 medusa lampe to relay 2025-11-11 10:12:25 +01:00
Wolfgang Hottgenroth
97ea853483 add type relay 2025-11-11 10:10:22 +01:00
Wolfgang Hottgenroth
86d1933c1f sensoren 2 2025-11-11 09:13:46 +01:00
Wolfgang Hottgenroth
9458381593 sensoren 2025-11-11 09:12:35 +01:00
Wolfgang Hottgenroth
f389115841 kontakte 2025-11-10 21:20:43 +01:00
Wolfgang Hottgenroth
19a6a603d5 window contact first try 2025-11-10 19:41:08 +01:00
Wolfgang Hottgenroth
e728dd58e4 all collapsed at load/refresh 2025-11-10 17:11:50 +01:00
Wolfgang Hottgenroth
6310fedeea zigbee2mqtt thermostat transformation 2025-11-10 17:07:41 +01:00
Wolfgang Hottgenroth
e113616abf fix 2025-11-10 16:58:46 +01:00
Wolfgang Hottgenroth
e8cd34f88f thermostat mode optional 2025-11-10 16:54:09 +01:00
Wolfgang Hottgenroth
1bd175c912 fix 2025-11-10 16:42:15 +01:00
Wolfgang Hottgenroth
cc566c9e73 drop mode from thermostat ui 2025-11-10 16:36:20 +01:00
Wolfgang Hottgenroth
2eb4f3c376 max thermostats added 2025-11-10 16:19:55 +01:00
Wolfgang Hottgenroth
b57ddb1589 MAX transformation added 2025-11-10 16:11:28 +01:00
Wolfgang Hottgenroth
a49d56df60 temperaturschrittweite 1.0 2025-11-10 16:04:44 +01:00
Wolfgang Hottgenroth
5a7b16f7aa mode buttons removed from thermostat 2025-11-10 16:02:23 +01:00
Wolfgang Hottgenroth
e69822719a fix 2025-11-10 12:35:06 +01:00
Wolfgang Hottgenroth
25a6b98d41 alle lampen 2025-11-10 12:28:23 +01:00
Wolfgang Hottgenroth
5f7af7574c sse iphone fix 4 2025-11-09 21:19:06 +01:00
Wolfgang Hottgenroth
0c73e36e82 sse iphone fix 2 2025-11-09 20:12:08 +01:00
Wolfgang Hottgenroth
01b60671db sse iphone fix 1 2025-11-09 20:05:35 +01:00
Wolfgang Hottgenroth
b60fdfced4 refresh 3 2025-11-09 18:52:52 +01:00
Wolfgang Hottgenroth
0cd0c6de41 refresh 2 2025-11-09 18:40:31 +01:00
Wolfgang Hottgenroth
ecf5aebc3c refresh 2025-11-09 18:19:20 +01:00
Wolfgang Hottgenroth
79d87aff6a transformation added 3 2025-11-09 13:31:07 +01:00
Wolfgang Hottgenroth
b1e9b201d1 transformation added 2 2025-11-09 13:26:55 +01:00
Wolfgang Hottgenroth
1eff8a2044 transformation added 2025-11-09 12:59:15 +01:00
Wolfgang Hottgenroth
8fd0921a08 experiment light 1 2025-11-09 12:21:25 +01:00
Wolfgang Hottgenroth
7304a017c2 disable mode of thermostat 2025-11-09 00:12:43 +01:00
Wolfgang Hottgenroth
db6da4815c klappbare Räume 4 2025-11-08 23:40:50 +01:00
Wolfgang Hottgenroth
54f53705c0 klappbare Räume 3 2025-11-08 21:04:51 +01:00
Wolfgang Hottgenroth
f8144496b3 klappbare Räume 2 2025-11-08 18:29:00 +01:00
Wolfgang Hottgenroth
50e7402152 klappbare Räume 2025-11-08 18:27:23 +01:00
Wolfgang Hottgenroth
eb822c0318 fixes 2 2025-11-08 17:48:38 +01:00
Wolfgang Hottgenroth
acb5e0a209 fixes 2025-11-08 17:36:52 +01:00
Wolfgang Hottgenroth
4b196c1278 iphone fix 2025-11-08 16:23:11 +01:00
Wolfgang Hottgenroth
7e04991d64 room cards 2 2025-11-08 16:04:46 +01:00
Wolfgang Hottgenroth
cc3364068a room cards 2025-11-08 16:03:58 +01:00
Wolfgang Hottgenroth
c1cbca39bf cors 2025-11-08 15:59:18 +01:00
Wolfgang Hottgenroth
6271f46019 use correct broker setting 2025-11-08 15:56:03 +01:00
Wolfgang Hottgenroth
6bf8ac3f99 docs 2025-11-06 16:50:23 +01:00
Wolfgang Hottgenroth
b7efae61c4 docs 2025-11-06 13:46:19 +01:00
Wolfgang Hottgenroth
e76cb3dc21 dockerfiles added 2025-11-06 13:39:42 +01:00
Wolfgang Hottgenroth
c004bcee24 simulator 2025-11-06 12:14:39 +01:00
Wolfgang Hottgenroth
723441bd19 drop obsolete simulators 2025-11-06 11:54:48 +01:00
Wolfgang Hottgenroth
e28633cb9a thermostat working 2025-11-06 11:53:35 +01:00
Wolfgang Hottgenroth
cb555a1f67 thermostat 2025-11-05 18:26:36 +01:00
Wolfgang Hottgenroth
478450794f icons 2025-11-05 17:15:33 +01:00
Wolfgang Hottgenroth
0000e81d7a changes 2025-11-04 19:54:31 +01:00
79 changed files with 14731 additions and 614 deletions
Expand all files Collapse all files

3
.gitignore vendored
View File

@@ -61,3 +61,6 @@ Thumbs.db
# Poetry
poetry.lock
apps/homekit/homekit.state

25
.woodpecker/build.yml Normal file
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@@ -0,0 +1,25 @@
matrix:
APP:
- ui
- api
- abstraction
- rules
steps:
build:
image: plugins/kaniko
settings:
repo: ${FORGE_NAME}/${CI_REPO}/${APP}
registry:
from_secret: container_registry
auto_tag: true
username:
from_secret: container_registry_username
password:
from_secret: container_registry_password
dockerfile: apps/${APP}/Dockerfile
when:
event: [push, tag]
ref:
exclude:
- refs/tags/*-configchange

37
.woodpecker/predeploy.yml Normal file
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@@ -0,0 +1,37 @@
steps:
create_namespace:
image: quay.io/wollud1969/k8s-admin-helper:0.3.4
environment:
KUBE_CONFIG_CONTENT:
from_secret: kube_config
NAMESPACE: "homea2"
commands:
- printf "$KUBE_CONFIG_CONTENT" > /tmp/kubeconfig
- export KUBECONFIG=/tmp/kubeconfig
- kubectl create namespace ${NAMESPACE} || echo "Namespace ${NAMESPACE} already exists"
when:
event: [tag]
ref:
exclude:
- refs/tags/*-configchange
apply_configuration:
image: quay.io/wollud1969/k8s-admin-helper:0.3.4
environment:
KUBE_CONFIG_CONTENT:
from_secret: kube_config
NAMESPACE: "homea2"
commands:
- printf "$KUBE_CONFIG_CONTENT" > /tmp/kubeconfig
- export KUBECONFIG=/tmp/kubeconfig
- kubectl create configmap home-automation-config \
--from-file=devices=config/devices.yaml \
--from-file=groups=config/groups.yaml \
--from-file=layout=config/layout.yaml \
--from-file=rules=config/rules.yaml \
--from-file=scenes=config/scenes.yaml \
--namespace=$NAMESPACE \
--dry-run=client -o yaml | kubectl apply -f -
when:
event: [tag]

53
PORTS.md
View File

@@ -1,53 +0,0 @@
# Port Configuration
This document describes the port allocation for the home automation services.
## Port Scan Results (31. Oktober 2025)
### Ports in Use
- **8000**: In use (likely API server)
- **8021**: In use (system service)
- **8080**: In use (system service)
- **8100**: In use (system service)
- **8200**: In use (system service)
- **8770**: In use (system service)
### Free Ports Found
- **8001**: FREE ✓
- **8002**: FREE ✓
- **8003**: FREE ✓
- **8004**: FREE ✓
- **8005**: FREE ✓
## Service Port Allocation
| Service | Port | Purpose |
|---------|------|---------|
| API | 8001 | FastAPI REST API for capabilities and health checks |
| UI | 8002 | FastAPI web interface with Jinja2 templates |
| (Reserved) | 8003 | Available for future services |
| (Reserved) | 8004 | Available for future services |
| (Reserved) | 8005 | Available for future services |
## Access URLs
- **API**: http://localhost:8001
- Health: http://localhost:8001/health
- Spec: http://localhost:8001/spec
- Docs: http://localhost:8001/docs
- **UI**: http://localhost:8002
- Main page: http://localhost:8002/
## Starting Services
```bash
# Start API
poetry run uvicorn apps.api.main:app --reload --port 8001
# Start UI
poetry run uvicorn apps.ui.main:app --reload --port 8002
# Start Abstraction Worker (no port - MQTT client)
poetry run python -m apps.abstraction.main
```

339
README.md
View File

@@ -1,29 +1,63 @@
# Home Automation Monorepo
A Python-based home automation system built with Poetry in a monorepo structure.
A Python-based home automation system built with Poetry in a monorepo structure. Features a microservices architecture with MQTT/Redis messaging, dynamic UI with realtime updates, and flexible device configuration.
## Features
- **Dynamic Dashboard**: Responsive web UI with realtime device status via Server-Sent Events
- **MQTT Integration**: Device communication through MQTT broker with vendor abstraction
- **Realtime Updates**: Live device state updates via Redis Pub/Sub and SSE
- **Flexible Layout**: Configure rooms and device tiles via YAML
- **Multiple Device Support**: Lights with power and brightness control
- **Clean Architecture**: Separation of concerns with API-first design
## Project Structure
```
home-automation/
├── apps/ # Applications
│ ├── api/ # API service
├── abstraction/ # Abstraction layer
│ ├── rules/ # Rules engine
│ └── ui/ # User interface
│ ├── api/ # API Gateway (FastAPI, port 8001)
│ └── main.py # REST API, SSE endpoint, device management
│ ├── abstraction/ # MQTT ↔ Redis Bridge
│ └── main.py # Protocol translation layer
│ ├── rules/ # Rules Engine (planned)
│ └── ui/ # Web Interface (FastAPI, port 8002)
│ ├── main.py # Jinja2 templates, API client
│ ├── api_client.py # HTTP client for API Gateway
│ ├── templates/ # HTML templates
│ │ ├── dashboard.html # Dynamic dashboard
│ │ └── index.html # Legacy static UI
│ └── static/ # CSS and assets
├── packages/ # Shared packages
│ └── home_capabilities/ # Home capabilities library
│ └── home_capabilities/ # Core libraries
│ ├── light.py # Light device models
│ └── layout.py # UI layout models
├── config/ # Configuration files
│ ├── devices.yaml # Device definitions with features
│ └── layout.yaml # UI room/device layout
├── tools/ # Development tools
│ └── sim_test_lampe.py # Multi-device MQTT simulator
├── infra/ # Infrastructure
│ ├── docker-compose.yml
│ └── README.md
├── pyproject.toml # Poetry configuration
├── PORTS.md # Port allocation
└── README.md
```
## Requirements
- Python 3.11+
- Poetry
- Python 3.11+ (tested with 3.14.0)
- Poetry 2.2.1+
- MQTT Broker (e.g., Mosquitto)
- Redis Server
### External Services
This system requires the following external services:
- **MQTT Broker**: `172.16.2.16:1883` (configured in `config/devices.yaml`)
- **Redis Server**: `172.23.1.116:6379/8` (configured in `config/devices.yaml`)
## Setup
@@ -42,8 +76,57 @@ home-automation/
poetry shell
```
4. Configure devices and layout:
- Edit `config/devices.yaml` for device definitions and MQTT/Redis settings
- Edit `config/layout.yaml` for UI room organization
## Configuration
### devices.yaml
Defines available devices with their features and MQTT topics:
```yaml
devices:
- device_id: test_lampe_1
type: light
features:
power: true
brightness: true
topics:
set: "vendor/test_lampe_1/set"
state: "vendor/test_lampe_1/state"
```
### layout.yaml
Organizes devices into rooms for the UI:
```yaml
rooms:
- name: Wohnzimmer
devices:
- device_id: test_lampe_1
title: Stehlampe
icon: "LIGHT"
rank: 10 # Lower rank = higher priority
```
## Development
### Dependencies
Key packages installed:
- **Web Framework**: FastAPI 0.120.3, Uvicorn 0.38.0
- **Data Validation**: Pydantic 2.12.3
- **MQTT**: aiomqtt 2.4.0 (async), paho-mqtt 2.1.0 (sync)
- **Redis**: redis 7.0.1
- **HTTP Client**: httpx 0.28.1
- **Templates**: Jinja2 3.1.6
- **Config**: PyYAML 6.0.3
- **Testing**: beautifulsoup4 4.14.2
### Code Quality Tools
This project uses the following tools configured in `pyproject.toml`:
@@ -65,8 +148,105 @@ poetry run ruff check .
poetry run mypy .
```
### Adding New Devices
1. Add device to `config/devices.yaml`:
```yaml
- device_id: new_device
type: light
features:
power: true
brightness: false
topics:
set: "vendor/new_device/set"
state: "vendor/new_device/state"
```
2. Add device to rooms in `config/layout.yaml`:
```yaml
rooms:
- name: Kitchen
devices:
- device_id: new_device
title: Kitchen Light
icon: "LIGHT"
rank: 5
```
3. Restart API and UI services (they will auto-reload if using `--reload`)
4. Device will appear in dashboard automatically!
### Extending Features
To add new device capabilities:
1. Update Pydantic models in `packages/home_capabilities/`
2. Add feature to `devices.yaml`
3. Extend dashboard template for UI controls
4. Update simulator or create new simulator for testing
## Troubleshooting
### Connection Issues
- **SSE not connecting**: Check API server is running on port 8001
- **Device not responding**: Check MQTT broker connectivity
- **No updates in UI**: Check abstraction layer and Redis connection
### Check Logs
```bash
# API logs
tail -f /tmp/api.log
# Abstraction layer logs
tail -f /tmp/abstraction.log
# UI logs
tail -f /tmp/ui.log
```
### Common Commands
```bash
# Check if services are running
ps aux | grep -E "uvicorn|abstraction"
# Check port usage
lsof -i :8001
lsof -i :8002
# Test MQTT connection
mosquitto_pub -h 172.16.2.16 -t test -m "hello"
```
### Running Applications
#### Quick Start - All Services
Start all services in the background:
```bash
# 1. Start MQTT Abstraction Layer
poetry run python -m apps.abstraction.main > /tmp/abstraction.log 2>&1 &
# 2. Start API Gateway
poetry run uvicorn apps.api.main:app --host 0.0.0.0 --port 8001 > /tmp/api.log 2>&1 &
# 3. Start UI
poetry run uvicorn apps.ui.main:app --host 0.0.0.0 --port 8002 > /tmp/ui.log 2>&1 &
# 4. Start Device Simulator (optional)
poetry run python tools/sim_test_lampe.py &
```
Stop all services:
```bash
pkill -f "uvicorn apps" && pkill -f "apps.abstraction.main" && pkill -f "sim_test_lampe"
```
#### Port Configuration
See `PORTS.md` for detailed port allocation.
@@ -93,7 +273,10 @@ The API will be available at:
Available endpoints:
- `GET /health` - Health check endpoint
- `GET /spec` - Capabilities specification
- `GET /devices` - List all devices with features
- `GET /layout` - Get UI layout configuration
- `POST /devices/{device_id}/set` - Control a device
- `GET /realtime` - Server-Sent Events stream for live updates
#### UI Server
@@ -108,20 +291,142 @@ poetry run python -m apps.ui.main
```
The UI will be available at:
- Main page: http://localhost:8002
- `GET /spec` - Capabilities specification
- **Dynamic Dashboard**: http://localhost:8002/dashboard (or http://localhost:8002)
- Realtime device status via SSE
- Toggle buttons with state reflection
- Brightness sliders for dimmable lights
- Event log for all updates
- Responsive layout from `config/layout.yaml`
- **Legacy Static UI**: http://localhost:8002/index.html
- Fixed layout with test_lampe_1 and test_lampe_2
#### Abstraction Layer
The MQTT-Redis bridge translates between protocols:
```bash
poetry run python -m apps.abstraction.main
```
Functions:
- Subscribes to vendor-specific MQTT topics (`vendor/*/state`)
- Publishes state changes to Redis Pub/Sub (`ui:updates`)
- Enables decoupling of UI from MQTT
#### Device Simulator
Test your setup with the multi-device simulator:
```bash
poetry run python tools/sim_test_lampe.py
```
Simulates:
- `test_lampe_1`: Light with power and brightness control
- `test_lampe_2`: Simple light with power only
- `test_lampe_3`: Simple light with power only
The simulator:
- Subscribes to `vendor/test_lampe_*/set` topics
- Maintains device state (power, brightness)
- Publishes state to `vendor/test_lampe_*/state` (retained)
- Handles graceful shutdown (sets all lights to off)
#### Other Applications
```bash
# Abstraction
poetry run python -m apps.abstraction.main
# Rules
# Rules Engine (planned)
poetry run python -m apps.rules.main
```
# UI
poetry run python -m apps.ui.main
## Architecture
### Message Flow
```
User Action (UI)
→ HTTP POST to API Gateway (/devices/{id}/set)
→ MQTT Publish (home/light/{id}/set)
→ Abstraction Layer receives
→ MQTT Publish (vendor/{id}/set)
→ Device/Simulator receives
→ Device State Update
→ MQTT Publish (vendor/{id}/state, retained)
→ Abstraction Layer receives
→ Redis Pub/Sub (ui:updates)
→ API Gateway /realtime SSE
→ UI Updates (EventSource)
```
### Key Components
1. **API Gateway** (`apps/api/main.py`)
- Single source of truth for configuration
- REST endpoints for device control
- SSE endpoint for realtime updates
- Reads `devices.yaml` and `layout.yaml`
2. **UI** (`apps/ui/main.py`)
- Pure API consumer (no direct file access)
- Fetches devices and layout via HTTP
- Renders dynamic dashboard with Jinja2
- Connects to SSE for live updates
3. **Abstraction Layer** (`apps/abstraction/main.py`)
- Protocol translation (MQTT ↔ Redis)
- Subscribes to vendor topics
- Publishes to Redis for UI updates
4. **Device Simulator** (`tools/sim_test_lampe.py`)
- Emulates physical devices
- Responds to SET commands
- Publishes STATE updates
## Testing
### Manual Testing
1. Start all services (see Quick Start above)
2. Open the dashboard: http://localhost:8002
3. Toggle a light and watch:
- Button changes state (Einschalten ↔ Ausschalten)
- Status updates in realtime
- Event log shows all messages
4. Check MQTT traffic:
```bash
# Subscribe to all topics
mosquitto_sub -h 172.16.2.16 -t '#' -v
# Publish test command
mosquitto_pub -h 172.16.2.16 -t 'vendor/test_lampe_1/set' \
-m '{"power":"on","brightness":75}'
```
5. Check Redis Pub/Sub:
```bash
redis-cli -h 172.23.1.116 -p 6379 -n 8
> SUBSCRIBE ui:updates
```
### API Testing
```bash
# Get all devices
curl http://localhost:8001/devices | python3 -m json.tool
# Get layout
curl http://localhost:8001/layout | python3 -m json.tool
# Control a device
curl -X POST http://localhost:8001/devices/test_lampe_1/set \
-H "Content-Type: application/json" \
-d '{"type":"light","payload":{"power":"on"}}'
# Test SSE stream
curl -N http://localhost:8001/realtime
```
## License

44
apps/abstraction/Dockerfile Normal file
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@@ -0,0 +1,44 @@
# Abstraction Layer Dockerfile
# MQTT ↔ Device Protocol Translation Worker
FROM python:3.14-alpine
# Prevent Python from writing .pyc files and enable unbuffered output
ENV PYTHONDONTWRITEBYTECODE=1 \
PYTHONUNBUFFERED=1 \
MQTT_BROKER=172.16.2.16 \
MQTT_PORT=1883 \
REDIS_HOST=localhost \
REDIS_PORT=6379 \
REDIS_DB=0
# Create non-root user
RUN addgroup -g 10001 -S app && \
adduser -u 10001 -S app -G app
# Set working directory
WORKDIR /app
# Install system dependencies
RUN apk add --no-cache \
gcc \
musl-dev \
linux-headers
# Install Python dependencies
COPY apps/abstraction/requirements.txt /app/requirements.txt
RUN pip install --no-cache-dir -r requirements.txt
# Copy application code
COPY apps/__init__.py /app/apps/__init__.py
COPY apps/abstraction/ /app/apps/abstraction/
COPY packages/ /app/packages/
# Change ownership to app user
RUN chown -R app:app /app
# Switch to non-root user
USER app
# Run application
CMD ["python", "-m", "apps.abstraction.main"]

35
apps/abstraction/README.md
View File

@@ -12,11 +12,46 @@ The abstraction layer is an asyncio-based worker that manages device communicati
## Running
### Local Development
```bash
# Start the abstraction worker
poetry run python -m apps.abstraction.main
```
### Docker Container
#### Build Image
```bash
docker build -t abstraction:dev -f apps/abstraction/Dockerfile .
```
#### Run Container
```bash
docker run --rm \
-v $(pwd)/config:/app/config:ro \
-e MQTT_BROKER=172.23.1.102 \
-e MQTT_PORT=1883 \
-e REDIS_HOST=172.23.1.116 \
-e REDIS_PORT=6379 \
-e REDIS_DB=8 \
abstraction:dev
```
#### Environment Variables
| Variable | Default | Description |
|----------|---------|-------------|
| `MQTT_BROKER` | `172.16.2.16` | MQTT broker hostname/IP |
| `MQTT_PORT` | `1883` | MQTT broker port |
| `REDIS_HOST` | `localhost` | Redis server hostname/IP |
| `REDIS_PORT` | `6379` | Redis server port |
| `REDIS_DB` | `0` | Redis database number |
### What the Worker Does
The worker will:
1. Load configuration from `config/devices.yaml`
2. Connect to MQTT broker (172.16.2.16:1883)

223
apps/abstraction/main.py
View File

@@ -4,16 +4,26 @@ import asyncio
import json
import logging
import os
from datetime import datetime, timezone
from pathlib import Path
from typing import Any
import redis.asyncio as aioredis
import yaml
import socket
import uuid
from aiomqtt import Client
from pydantic import ValidationError
from packages.home_capabilities import LightState, ThermostatState, ContactState, TempHumidityState, RelayState
from apps.abstraction.transformation import (
transform_abstract_to_vendor,
transform_vendor_to_abstract
)
# Configure logging
logging.basicConfig(
level=logging.INFO,
level=logging.DEBUG,
format="%(asctime)s - %(name)s - %(levelname)s - %(message)s"
)
logger = logging.getLogger(__name__)
@@ -32,8 +42,8 @@ def load_config(config_path: Path) -> dict[str, Any]:
logger.warning(f"Config file not found: {config_path}, using defaults")
return {
"mqtt": {
"broker": "172.16.2.16",
"port": 1883,
"broker": os.getenv("MQTT_BROKER", "localhost"),
"port": int(os.getenv("MQTT_PORT", "1883")),
"client_id": "home-automation-abstraction",
"keepalive": 60
},
@@ -79,11 +89,12 @@ def validate_devices(devices: list[dict[str, Any]]) -> None:
if "topics" not in device:
raise ValueError(f"Device {device_id} missing 'topics'")
if "set" not in device["topics"]:
raise ValueError(f"Device {device_id} missing 'topics.set'")
# 'state' topic is required for all devices
if "state" not in device["topics"]:
raise ValueError(f"Device {device_id} missing 'topics.state'")
# 'set' topic is optional (read-only devices like contact sensors don't have it)
# No validation needed for topics.set
# Log loaded devices
device_ids = [d["device_id"] for d in devices]
@@ -121,6 +132,7 @@ async def handle_abstract_set(
mqtt_client: Client,
device_id: str,
device_type: str,
device_technology: str,
vendor_topic: str,
payload: dict[str, Any]
) -> None:
@@ -129,13 +141,53 @@ async def handle_abstract_set(
Args:
mqtt_client: MQTT client instance
device_id: Device identifier
device_type: Device type (e.g., 'light')
device_type: Device type (e.g., 'light', 'thermostat')
device_technology: Technology identifier (e.g., 'zigbee2mqtt')
vendor_topic: Vendor-specific SET topic
payload: Message payload
"""
# Extract actual payload (remove type wrapper if present)
vendor_payload = payload.get("payload", payload)
vendor_message = json.dumps(vendor_payload)
abstract_payload = payload.get("payload", payload)
# Validate payload based on device type
try:
if device_type == "light":
# Validate light SET payload (power and/or brightness)
LightState.model_validate(abstract_payload)
elif device_type == "relay":
# Validate relay SET payload (power only)
RelayState.model_validate(abstract_payload)
elif device_type == "thermostat":
# For thermostat SET: only allow mode and target fields
allowed_set_fields = {"mode", "target"}
invalid_fields = set(abstract_payload.keys()) - allowed_set_fields
if invalid_fields:
logger.warning(
f"Thermostat SET {device_id} contains invalid fields {invalid_fields}, "
f"only {allowed_set_fields} allowed"
)
return
# Validate against ThermostatState (current/battery/window_open are optional)
ThermostatState.model_validate(abstract_payload)
elif device_type in {"contact", "contact_sensor"}:
# Contact sensors are read-only - SET commands should not occur
logger.warning(f"Contact sensor {device_id} received SET command - ignoring (read-only device)")
return
except ValidationError as e:
logger.error(f"Validation failed for {device_type} SET {device_id}: {e}")
return
# Transform abstract payload to vendor-specific format
vendor_payload = transform_abstract_to_vendor(device_type, device_technology, abstract_payload)
# For MAX! thermostats and Shelly relays, vendor_payload is a plain string
# For other devices, it's a dict that needs JSON encoding
if (device_technology == "max" and device_type == "thermostat") or \
(device_technology == "shelly" and device_type == "relay"):
vendor_message = vendor_payload # Already a string
else:
vendor_message = json.dumps(vendor_payload)
logger.info(f"→ vendor SET {device_id}: {vendor_topic}{vendor_message}")
await mqtt_client.publish(vendor_topic, vendor_message, qos=1)
@@ -146,7 +198,8 @@ async def handle_vendor_state(
redis_client: aioredis.Redis,
device_id: str,
device_type: str,
payload: dict[str, Any],
device_technology: str,
payload: str,
redis_channel: str = "ui:updates"
) -> None:
"""Handle vendor STATE message and publish to abstract topic + Redis.
@@ -155,22 +208,50 @@ async def handle_vendor_state(
mqtt_client: MQTT client instance
redis_client: Redis client instance
device_id: Device identifier
device_type: Device type (e.g., 'light')
payload: State payload
device_type: Device type (e.g., 'light', 'thermostat')
device_technology: Technology identifier (e.g., 'zigbee2mqtt')
payload: string Message payload
redis_channel: Redis channel for UI updates
"""
# Transform vendor-specific payload to abstract format
abstract_payload = transform_vendor_to_abstract(device_type, device_technology, payload)
# Validate state payload based on device type
try:
if device_type == "light":
LightState.model_validate(abstract_payload)
elif device_type == "relay":
RelayState.model_validate(abstract_payload)
elif device_type == "thermostat":
# Validate thermostat state: mode, target, current (required), battery, window_open
ThermostatState.model_validate(abstract_payload)
elif device_type in {"contact", "contact_sensor"}:
# Validate contact sensor state
ContactState.model_validate(abstract_payload)
elif device_type in {"temp_humidity", "temp_humidity_sensor"}:
# Validate temperature & humidity sensor state
TempHumidityState.model_validate(abstract_payload)
except ValidationError as e:
logger.error(f"Validation failed for {device_type} STATE {device_id}: {e}")
return
# Normalize device type for topic (use 'contact' for both 'contact' and 'contact_sensor')
topic_type = "contact" if device_type in {"contact", "contact_sensor"} else device_type
topic_type = "temp_humidity" if device_type in {"temp_humidity", "temp_humidity_sensor"} else topic_type
# Publish to abstract state topic (retained)
abstract_topic = f"home/{device_type}/{device_id}/state"
abstract_message = json.dumps(payload)
abstract_topic = f"home/{topic_type}/{device_id}/state"
abstract_message = json.dumps(abstract_payload)
logger.info(f"← abstract STATE {device_id}: {abstract_topic}{abstract_message}")
await mqtt_client.publish(abstract_topic, abstract_message, qos=1, retain=True)
# Publish to Redis for UI updates
# Publish to Redis for UI updates with timestamp
ui_update = {
"type": "state",
"device_id": device_id,
"payload": payload
"payload": abstract_payload,
"ts": datetime.now(timezone.utc).isoformat()
}
redis_message = json.dumps(ui_update)
@@ -186,9 +267,12 @@ async def mqtt_worker(config: dict[str, Any], redis_client: aioredis.Redis) -> N
redis_client: Redis client for UI updates
"""
mqtt_config = config.get("mqtt", {})
broker = mqtt_config.get("broker", "172.16.2.16")
port = mqtt_config.get("port", 1883)
broker = os.getenv("MQTT_BROKER") or mqtt_config.get("broker", "localhost")
port = int(os.getenv("MQTT_PORT", mqtt_config.get("port", 1883)))
client_id = mqtt_config.get("client_id", "home-automation-abstraction")
# Append a short suffix (ENV override possible) so multiple processes don't collide
client_suffix = os.environ.get("MQTT_CLIENT_ID_SUFFIX") or uuid.uuid4().hex[:6]
unique_client_id = f"{client_id}-{client_suffix}"
keepalive = mqtt_config.get("keepalive", 60)
redis_config = config.get("redis", {})
@@ -206,18 +290,26 @@ async def mqtt_worker(config: dict[str, Any], redis_client: aioredis.Redis) -> N
async with Client(
hostname=broker,
port=port,
identifier=client_id,
keepalive=keepalive
identifier=unique_client_id,
keepalive=keepalive,
timeout=10.0 # Add explicit timeout for operations
) as client:
logger.info(f"Connected to MQTT broker as {client_id}")
logger.info(f"Connected to MQTT broker as {unique_client_id}")
# Subscribe to abstract SET topics for all devices
# Subscribe to topics for all devices
for device in devices.values():
abstract_set_topic = f"home/{device['type']}/{device['device_id']}/set"
await client.subscribe(abstract_set_topic)
logger.info(f"Subscribed to abstract SET: {abstract_set_topic}")
device_id = device['device_id']
device_type = device['type']
# Subscribe to vendor STATE topics
# Subscribe to abstract SET topic only if device has a SET topic (not read-only)
if "set" in device["topics"]:
abstract_set_topic = f"home/{device_type}/{device_id}/set"
await client.subscribe(abstract_set_topic)
logger.info(f"Subscribed to abstract SET: {abstract_set_topic}")
else:
logger.info(f"Skipping SET subscription for read-only device: {device_id}")
# Subscribe to vendor STATE topics (all devices have state)
vendor_state_topic = device["topics"]["state"]
await client.subscribe(vendor_state_topic)
logger.info(f"Subscribed to vendor STATE: {vendor_state_topic}")
@@ -225,44 +317,59 @@ async def mqtt_worker(config: dict[str, Any], redis_client: aioredis.Redis) -> N
# Reset retry delay on successful connection
retry_delay = 1
# Track last activity for connection health
last_activity = asyncio.get_event_loop().time()
connection_timeout = keepalive * 2 # 2x keepalive as timeout
# Process messages
async for message in client.messages:
topic = str(message.topic)
payload_str = message.payload.decode()
try:
payload = json.loads(payload_str)
except json.JSONDecodeError:
logger.warning(f"Invalid JSON on {topic}: {payload_str}")
continue
# Check if this is an abstract SET message
if topic.startswith("home/") and topic.endswith("/set"):
# Extract device_type and device_id from topic
parts = topic.split("/")
if len(parts) == 4: # home/<type>/<id>/set
device_type = parts[1]
device_id = parts[2]
if device_id in devices:
device = devices[device_id]
vendor_topic = device["topics"]["set"]
await handle_abstract_set(
client, device_id, device_type, vendor_topic, payload
)
# Check if this is a vendor STATE message
else:
# Find device by vendor state topic
for device_id, device in devices.items():
if topic == device["topics"]["state"]:
await handle_vendor_state(
client, redis_client, device_id, device["type"], payload, redis_channel
)
break
last_activity = asyncio.get_event_loop().time()
topic = str(message.topic)
payload_str = message.payload.decode()
retain = getattr(message, 'retain', None)
logger.debug(f"MQTT message received on ({retain=}) {topic}: {payload_str}")
# Check if this is an abstract SET message
if topic.startswith("home/") and topic.endswith("/set"):
payload = json.loads(payload_str)
# Extract device_type and device_id from topic
parts = topic.split("/")
if len(parts) == 4: # home/<type>/<id>/set
device_type = parts[1]
device_id = parts[2]
if device_id in devices:
device = devices[device_id]
vendor_topic = device["topics"]["set"]
device_technology = device.get("technology", "unknown")
await handle_abstract_set(
client, device_id, device_type, device_technology, vendor_topic, payload
)
# Check if this is a vendor STATE message
else:
# Find device by vendor state topic for other technologies
for device_id, device in devices.items():
if topic == device["topics"]["state"]:
device_technology = device.get("technology", "unknown")
await handle_vendor_state(
client, redis_client, device_id, device["type"],
device_technology, payload_str, redis_channel
)
break
except json.JSONDecodeError:
logger.error(f"Failed to decode JSON payload on topic {topic}: {payload_str}")
except asyncio.CancelledError:
logger.info("MQTT worker cancelled")
raise
except Exception as e:
import traceback
logger.error(f"MQTT error: {e}")
logger.debug(f"Traceback: {traceback.format_exc()}")
logger.info(f"Reconnecting in {retry_delay}s...")
await asyncio.sleep(retry_delay)
retry_delay = min(retry_delay * 2, max_retry_delay)

5
apps/abstraction/requirements.txt Normal file
View File

@@ -0,0 +1,5 @@
pydantic>=2
aiomqtt==2.0.1
redis==5.0.1
pyyaml==6.0.1
tenacity==8.2.3

577
apps/abstraction/transformation.py Normal file
View File

@@ -0,0 +1,577 @@
"""Payload transformation functions for vendor-specific device communication.
This module implements a registry-pattern for vendor-specific transformations:
- Each (device_type, technology, direction) tuple maps to a specific handler function
- Handlers transform payloads between abstract and vendor-specific formats
- Unknown combinations fall back to pass-through (no transformation)
"""
import logging
import json
from typing import Any, Callable
logger = logging.getLogger(__name__)
# ============================================================================
# HANDLER FUNCTIONS: simulator technology
# ============================================================================
def _transform_light_simulator_to_vendor(payload: dict[str, Any]) -> dict[str, Any]:
"""Transform abstract light payload to simulator format.
Simulator uses same format as abstract protocol (no transformation needed).
"""
return payload
def _transform_light_simulator_to_abstract(payload: str) -> dict[str, Any]:
"""Transform simulator light payload to abstract format.
Simulator uses same format as abstract protocol (no transformation needed).
"""
payload = json.loads(payload)
return payload
def _transform_thermostat_simulator_to_vendor(payload: dict[str, Any]) -> dict[str, Any]:
"""Transform abstract thermostat payload to simulator format.
Simulator uses same format as abstract protocol (no transformation needed).
"""
return payload
def _transform_thermostat_simulator_to_abstract(payload: str) -> dict[str, Any]:
"""Transform simulator thermostat payload to abstract format.
Simulator uses same format as abstract protocol (no transformation needed).
"""
payload = json.loads(payload)
return payload
# ============================================================================
# HANDLER FUNCTIONS: zigbee2mqtt technology
# ============================================================================
def _transform_light_zigbee2mqtt_to_vendor(payload: dict[str, Any]) -> dict[str, Any]:
"""Transform abstract light payload to zigbee2mqtt format.
Transformations:
- power: 'on'/'off' -> state: 'ON'/'OFF'
- brightness: 0-100 -> brightness: 0-254
Example:
- Abstract: {'power': 'on', 'brightness': 100}
- zigbee2mqtt: {'state': 'ON', 'brightness': 254}
"""
vendor_payload = payload.copy()
# Transform power -> state with uppercase values
if "power" in vendor_payload:
power_value = vendor_payload.pop("power")
vendor_payload["state"] = power_value.upper() if isinstance(power_value, str) else power_value
# Transform brightness: 0-100 (%) -> 0-254 (zigbee2mqtt range)
if "brightness" in vendor_payload:
abstract_brightness = vendor_payload["brightness"]
if isinstance(abstract_brightness, (int, float)):
# Convert percentage (0-100) to zigbee2mqtt range (0-254)
vendor_payload["brightness"] = round(abstract_brightness * 254 / 100)
return vendor_payload
def _transform_light_zigbee2mqtt_to_abstract(payload: str) -> dict[str, Any]:
"""Transform zigbee2mqtt light payload to abstract format.
Transformations:
- state: 'ON'/'OFF' -> power: 'on'/'off'
- brightness: 0-254 -> brightness: 0-100
Example:
- zigbee2mqtt: {'state': 'ON', 'brightness': 254}
- Abstract: {'power': 'on', 'brightness': 100}
"""
abstract_payload = json.loads(payload)
# Transform state -> power with lowercase values
if "state" in abstract_payload:
state_value = abstract_payload.pop("state")
abstract_payload["power"] = state_value.lower() if isinstance(state_value, str) else state_value
# Transform brightness: 0-254 (zigbee2mqtt range) -> 0-100 (%)
if "brightness" in abstract_payload:
vendor_brightness = abstract_payload["brightness"]
if isinstance(vendor_brightness, (int, float)):
# Convert zigbee2mqtt range (0-254) to percentage (0-100)
abstract_payload["brightness"] = round(vendor_brightness * 100 / 254)
return abstract_payload
def _transform_thermostat_zigbee2mqtt_to_vendor(payload: dict[str, Any]) -> dict[str, Any]:
"""Transform abstract thermostat payload to zigbee2mqtt format.
Transformations:
- target -> current_heating_setpoint (as string)
- mode is ignored (zigbee2mqtt thermostats use system_mode in state only)
Example:
- Abstract: {'target': 22.0}
- zigbee2mqtt: {'current_heating_setpoint': '22.0'}
"""
vendor_payload = {}
if "target" in payload:
# zigbee2mqtt expects current_heating_setpoint as string
vendor_payload["current_heating_setpoint"] = str(payload["target"])
return vendor_payload
def _transform_thermostat_zigbee2mqtt_to_abstract(payload: str) -> dict[str, Any]:
"""Transform zigbee2mqtt thermostat payload to abstract format.
Transformations:
- current_heating_setpoint -> target (as float)
- local_temperature -> current (as float)
- system_mode -> mode
Example:
- zigbee2mqtt: {'current_heating_setpoint': 15, 'local_temperature': 23, 'system_mode': 'heat'}
- Abstract: {'target': 15.0, 'current': 23.0, 'mode': 'heat'}
"""
payload = json.loads(payload)
abstract_payload = {}
# Extract target temperature
if "current_heating_setpoint" in payload:
setpoint = payload["current_heating_setpoint"]
abstract_payload["target"] = float(setpoint)
# Extract current temperature
if "local_temperature" in payload:
current = payload["local_temperature"]
abstract_payload["current"] = float(current)
# Extract mode
if "system_mode" in payload:
abstract_payload["mode"] = payload["system_mode"]
return abstract_payload
# ============================================================================
# HANDLER FUNCTIONS: contact_sensor - zigbee2mqtt technology
# ============================================================================
def _transform_contact_sensor_zigbee2mqtt_to_vendor(payload: dict[str, Any]) -> dict[str, Any]:
"""Transform abstract contact sensor payload to zigbee2mqtt format.
Contact sensors are read-only, so this should not be called for SET commands.
Returns payload as-is for compatibility.
"""
logger.warning("Contact sensors are read-only - SET commands should not be used")
return payload
def _transform_contact_sensor_zigbee2mqtt_to_abstract(payload: str) -> dict[str, Any]:
"""Transform zigbee2mqtt contact sensor payload to abstract format.
Transformations:
- contact: bool -> "open" | "closed"
- zigbee2mqtt semantics: False = OPEN, True = CLOSED (inverted!)
- battery: pass through (already 0-100)
- linkquality: pass through
- device_temperature: pass through (if present)
- voltage: pass through (if present)
Example:
- zigbee2mqtt: {"contact": false, "battery": 100, "linkquality": 87}
- Abstract: {"contact": "open", "battery": 100, "linkquality": 87}
"""
payload = json.loads(payload)
abstract_payload = {}
# Transform contact state (inverted logic!)
if "contact" in payload:
contact_bool = payload["contact"]
# zigbee2mqtt: False = OPEN, True = CLOSED
abstract_payload["contact"] = "closed" if contact_bool else "open"
# Pass through optional fields
if "battery" in payload:
abstract_payload["battery"] = payload["battery"]
if "linkquality" in payload:
abstract_payload["linkquality"] = payload["linkquality"]
if "device_temperature" in payload:
abstract_payload["device_temperature"] = payload["device_temperature"]
if "voltage" in payload:
abstract_payload["voltage"] = payload["voltage"]
return abstract_payload
# ============================================================================
# HANDLER FUNCTIONS: contact_sensor - max technology (Homegear MAX!)
# ============================================================================
def _transform_contact_sensor_max_to_vendor(payload: dict[str, Any]) -> dict[str, Any]:
"""Transform abstract contact sensor payload to MAX! format.
Contact sensors are read-only, so this should not be called for SET commands.
Returns payload as-is for compatibility.
"""
logger.warning("Contact sensors are read-only - SET commands should not be used")
return payload
def _transform_contact_sensor_max_to_abstract(payload: str) -> dict[str, Any]:
"""Transform MAX! (Homegear) contact sensor payload to abstract format.
MAX! sends "true"/"false" (string or bool) on STATE topic.
Transformations:
- "true" or True -> "open" (window/door open)
- "false" or False -> "closed" (window/door closed)
Example:
- MAX!: "true" or True
- Abstract: {"contact": "open"}
"""
try:
contact_value = payload.strip().lower() == "true"
# MAX! semantics: True = OPEN, False = CLOSED
return {
"contact": "open" if contact_value else "closed"
}
except (ValueError, TypeError) as e:
logger.error(f"MAX! contact sensor failed to parse: {payload}, error: {e}")
return {
"contact": "closed" # Default to closed on error
}
# ============================================================================
# HANDLER FUNCTIONS: temp_humidity_sensor - zigbee2mqtt technology
# ============================================================================
def _transform_temp_humidity_sensor_zigbee2mqtt_to_vendor(payload: dict[str, Any]) -> dict[str, Any]:
"""Transform abstract temp/humidity sensor payload to zigbee2mqtt format.
Temp/humidity sensors are read-only, so this should not be called for SET commands.
Returns payload as-is for compatibility.
"""
return payload
def _transform_temp_humidity_sensor_zigbee2mqtt_to_abstract(payload: str) -> dict[str, Any]:
"""Transform zigbee2mqtt temp/humidity sensor payload to abstract format.
Passthrough - zigbee2mqtt provides temperature, humidity, battery, linkquality directly.
"""
payload = json.loads(payload)
return payload
# ============================================================================
# HANDLER FUNCTIONS: temp_humidity_sensor - MAX! technology
# ============================================================================
def _transform_temp_humidity_sensor_max_to_vendor(payload: str) -> dict[str, Any]:
"""Transform abstract temp/humidity sensor payload to MAX! format.
Temp/humidity sensors are read-only, so this should not be called for SET commands.
Returns payload as-is for compatibility.
"""
payload = json.loads(payload)
return payload
def _transform_temp_humidity_sensor_max_to_abstract(payload: str) -> dict[str, Any]:
"""Transform MAX! temp/humidity sensor payload to abstract format.
Passthrough - MAX! provides temperature, humidity, battery directly.
"""
payload = json.loads(payload)
return payload
# ============================================================================
# HANDLER FUNCTIONS: relay - zigbee2mqtt technology
# ============================================================================
def _transform_relay_zigbee2mqtt_to_vendor(payload: dict[str, Any]) -> dict[str, Any]:
"""Transform abstract relay payload to zigbee2mqtt format.
Relay only has power on/off, same transformation as light.
- power: 'on'/'off' -> state: 'ON'/'OFF'
"""
vendor_payload = payload.copy()
if "power" in vendor_payload:
power_value = vendor_payload.pop("power")
vendor_payload["state"] = power_value.upper() if isinstance(power_value, str) else power_value
return vendor_payload
def _transform_relay_zigbee2mqtt_to_abstract(payload: str) -> dict[str, Any]:
"""Transform zigbee2mqtt relay payload to abstract format.
Relay only has power on/off, same transformation as light.
- state: 'ON'/'OFF' -> power: 'on'/'off'
"""
payload = json.loads(payload)
abstract_payload = payload.copy()
if "state" in abstract_payload:
state_value = abstract_payload.pop("state")
abstract_payload["power"] = state_value.lower() if isinstance(state_value, str) else state_value
return abstract_payload
# ============================================================================
# HANDLER FUNCTIONS: relay - shelly technology
# ============================================================================
def _transform_relay_shelly_to_vendor(payload: dict[str, Any]) -> str:
"""Transform abstract relay payload to Shelly format.
Shelly expects plain text 'on' or 'off' (not JSON).
- power: 'on'/'off' -> 'on'/'off' (plain string)
Example:
- Abstract: {'power': 'on'}
- Shelly: 'on'
"""
power = payload.get("power", "off")
return power
def _transform_relay_shelly_to_abstract(payload: str) -> dict[str, Any]:
"""Transform Shelly relay payload to abstract format.
Shelly sends plain text 'on' or 'off' (not JSON).
- 'on'/'off' -> power: 'on'/'off'
Example:
- Shelly: 'on'
- Abstract: {'power': 'on'}
"""
return {"power": payload.strip()}
# ============================================================================
# HANDLER FUNCTIONS: max technology (Homegear MAX!)
# ============================================================================
def _transform_thermostat_max_to_vendor(payload: dict[str, Any]) -> str:
"""Transform abstract thermostat payload to MAX! (Homegear) format.
MAX! expects only the integer temperature value (no JSON).
Transformations:
- Extract 'target' temperature from payload
- Convert float to integer (MAX! only accepts integers)
- Return as plain string value
Example:
- Abstract: {'mode': 'heat', 'target': 22.5}
- MAX!: "22"
Note: MAX! ignores mode - it's always in heating mode
"""
if "target" not in payload:
logger.warning(f"MAX! thermostat payload missing 'target': {payload}")
return "21" # Default fallback
target_temp = payload["target"]
# Convert to integer (MAX! protocol requirement)
if isinstance(target_temp, (int, float)):
int_temp = int(round(target_temp))
return str(int_temp)
logger.warning(f"MAX! invalid target temperature type: {type(target_temp)}, value: {target_temp}")
return "21"
def _transform_thermostat_max_to_abstract(payload: str) -> dict[str, Any]:
"""Transform MAX! (Homegear) thermostat payload to abstract format.
MAX! sends only the integer temperature value (no JSON).
Transformations:
- Parse plain string/int value
- Convert to float for abstract protocol
- Wrap in abstract payload structure with mode='heat'
Example:
- MAX!: "22" or 22
- Abstract: {'target': 22.0, 'mode': 'heat'}
Note: MAX! doesn't send current temperature via SET_TEMPERATURE topic
"""
# Handle both string and numeric input
target_temp = float(payload.strip())
return {
"target": target_temp,
"mode": "heat" # MAX! is always in heating mode
}
# ============================================================================
# REGISTRY: Maps (device_type, technology, direction) -> handler function
# ============================================================================
TransformHandler = Callable[[dict[str, Any]], dict[str, Any]]
TRANSFORM_HANDLERS: dict[tuple[str, str, str], TransformHandler] = {
# Light transformations
("light", "simulator", "to_vendor"): _transform_light_simulator_to_vendor,
("light", "simulator", "to_abstract"): _transform_light_simulator_to_abstract,
("light", "zigbee2mqtt", "to_vendor"): _transform_light_zigbee2mqtt_to_vendor,
("light", "zigbee2mqtt", "to_abstract"): _transform_light_zigbee2mqtt_to_abstract,
# Thermostat transformations
("thermostat", "simulator", "to_vendor"): _transform_thermostat_simulator_to_vendor,
("thermostat", "simulator", "to_abstract"): _transform_thermostat_simulator_to_abstract,
("thermostat", "zigbee2mqtt", "to_vendor"): _transform_thermostat_zigbee2mqtt_to_vendor,
("thermostat", "zigbee2mqtt", "to_abstract"): _transform_thermostat_zigbee2mqtt_to_abstract,
("thermostat", "max", "to_vendor"): _transform_thermostat_max_to_vendor,
("thermostat", "max", "to_abstract"): _transform_thermostat_max_to_abstract,
# Contact sensor transformations (support both 'contact' and 'contact_sensor' types)
("contact_sensor", "zigbee2mqtt", "to_vendor"): _transform_contact_sensor_zigbee2mqtt_to_vendor,
("contact_sensor", "zigbee2mqtt", "to_abstract"): _transform_contact_sensor_zigbee2mqtt_to_abstract,
("contact_sensor", "max", "to_vendor"): _transform_contact_sensor_max_to_vendor,
("contact_sensor", "max", "to_abstract"): _transform_contact_sensor_max_to_abstract,
("contact", "zigbee2mqtt", "to_vendor"): _transform_contact_sensor_zigbee2mqtt_to_vendor,
("contact", "zigbee2mqtt", "to_abstract"): _transform_contact_sensor_zigbee2mqtt_to_abstract,
("contact", "max", "to_vendor"): _transform_contact_sensor_max_to_vendor,
("contact", "max", "to_abstract"): _transform_contact_sensor_max_to_abstract,
# Temperature & humidity sensor transformations (support both type aliases)
("temp_humidity_sensor", "zigbee2mqtt", "to_vendor"): _transform_temp_humidity_sensor_zigbee2mqtt_to_vendor,
("temp_humidity_sensor", "zigbee2mqtt", "to_abstract"): _transform_temp_humidity_sensor_zigbee2mqtt_to_abstract,
("temp_humidity_sensor", "max", "to_vendor"): _transform_temp_humidity_sensor_max_to_vendor,
("temp_humidity_sensor", "max", "to_abstract"): _transform_temp_humidity_sensor_max_to_abstract,
("temp_humidity", "zigbee2mqtt", "to_vendor"): _transform_temp_humidity_sensor_zigbee2mqtt_to_vendor,
("temp_humidity", "zigbee2mqtt", "to_abstract"): _transform_temp_humidity_sensor_zigbee2mqtt_to_abstract,
("temp_humidity", "max", "to_vendor"): _transform_temp_humidity_sensor_max_to_vendor,
("temp_humidity", "max", "to_abstract"): _transform_temp_humidity_sensor_max_to_abstract,
# Relay transformations
("relay", "zigbee2mqtt", "to_vendor"): _transform_relay_zigbee2mqtt_to_vendor,
("relay", "zigbee2mqtt", "to_abstract"): _transform_relay_zigbee2mqtt_to_abstract,
("relay", "shelly", "to_vendor"): _transform_relay_shelly_to_vendor,
("relay", "shelly", "to_abstract"): _transform_relay_shelly_to_abstract,
}
def _get_transform_handler(
device_type: str,
device_technology: str,
direction: str
) -> TransformHandler:
"""Get transformation handler for given device type, technology and direction.
Args:
device_type: Type of device (e.g., "light", "thermostat")
device_technology: Technology/vendor (e.g., "simulator", "zigbee2mqtt")
direction: Transformation direction ("to_vendor" or "to_abstract")
Returns:
Handler function for transformation, or pass-through if not found
"""
key = (device_type, device_technology, direction)
handler = TRANSFORM_HANDLERS.get(key)
if handler is None:
logger.warning(
f"No transformation handler for {key}, using pass-through. "
f"Available: {list(TRANSFORM_HANDLERS.keys())}"
)
return lambda payload: payload # Pass-through fallback
return handler
# ============================================================================
# PUBLIC API: Main transformation functions
# ============================================================================
def transform_abstract_to_vendor(
device_type: str,
device_technology: str,
abstract_payload: dict[str, Any]
) -> dict[str, Any]:
"""Transform abstract payload to vendor-specific format.
Args:
device_type: Type of device (e.g., "light", "thermostat")
device_technology: Technology/vendor (e.g., "simulator", "zigbee2mqtt")
abstract_payload: Payload in abstract home protocol format
Returns:
Payload in vendor-specific format
"""
logger.debug(
f"transform_abstract_to_vendor IN: type={device_type}, tech={device_technology}, "
f"payload={abstract_payload}"
)
handler = _get_transform_handler(device_type, device_technology, "to_vendor")
vendor_payload = handler(abstract_payload)
logger.debug(
f"transform_abstract_to_vendor OUT: type={device_type}, tech={device_technology}, "
f"payload={vendor_payload}"
)
return vendor_payload
def transform_vendor_to_abstract(
device_type: str,
device_technology: str,
vendor_payload: str
) -> dict[str, Any]:
"""Transform vendor-specific payload to abstract format.
Args:
device_type: Type of device (e.g., "light", "thermostat")
device_technology: Technology/vendor (e.g., "simulator", "zigbee2mqtt")
vendor_payload: Payload in vendor-specific format
Returns:
Payload in abstract home protocol format
"""
logger.debug(
f"transform_vendor_to_abstract IN: type={device_type}, tech={device_technology}, "
f"payload={vendor_payload}"
)
handler = _get_transform_handler(device_type, device_technology, "to_abstract")
abstract_payload = handler(vendor_payload)
logger.debug(
f"transform_vendor_to_abstract OUT: type={device_type}, tech={device_technology}, "
f"payload={abstract_payload}"
)
return abstract_payload

48
apps/api/Dockerfile Normal file
View File

@@ -0,0 +1,48 @@
# API Service Dockerfile
# FastAPI + Redis + MQTT Gateway
FROM python:3.14-alpine
# Prevent Python from writing .pyc files and enable unbuffered output
ENV PYTHONDONTWRITEBYTECODE=1 \
PYTHONUNBUFFERED=1 \
MQTT_BROKER=172.16.2.16 \
MQTT_PORT=1883 \
REDIS_HOST=localhost \
REDIS_PORT=6379 \
REDIS_DB=0 \
REDIS_CHANNEL=ui:updates
# Create non-root user
RUN addgroup -g 10001 -S app && \
adduser -u 10001 -S app -G app
# Set working directory
WORKDIR /app
# Install system dependencies
RUN apk add --no-cache \
gcc \
musl-dev \
linux-headers
# Install Python dependencies
COPY apps/api/requirements.txt /app/requirements.txt
RUN pip install --no-cache-dir -r requirements.txt
# Copy application code
COPY apps/__init__.py /app/apps/__init__.py
COPY apps/api/ /app/apps/api/
COPY packages/ /app/packages/
# Change ownership to app user
RUN chown -R app:app /app
# Switch to non-root user
USER app
# Expose port
EXPOSE 8001
# Run application
CMD ["python", "-m", "uvicorn", "apps.api.main:app", "--host", "0.0.0.0", "--port", "8001"]

52
apps/api/README.md
View File

@@ -20,7 +20,7 @@ poetry run uvicorn apps.api.main:app --reload
### Production Mode
```bash
poetry run uvicorn apps.api.main:app --host 0.0.0.0 --port 8000
poetry run uvicorn apps.api.main:app --host 0.0.0.0 --port 8001
```
### Using Python directly
@@ -29,6 +29,56 @@ poetry run uvicorn apps.api.main:app --host 0.0.0.0 --port 8000
poetry run python -m apps.api.main
```
### Docker Container
#### Build Image
```bash
docker build -t api:dev -f apps/api/Dockerfile .
```
#### Run Container
```bash
docker run --rm -p 8001:8001 \
-v $(pwd)/config:/app/config:ro \
-e MQTT_BROKER=172.23.1.102 \
-e MQTT_PORT=1883 \
-e REDIS_HOST=172.23.1.116 \
-e REDIS_PORT=6379 \
-e REDIS_DB=8 \
-e REDIS_CHANNEL=ui:updates \
api:dev
```
**Mit Docker Network (empfohlen für Linux):**
```bash
docker network create home-automation
docker run --rm -p 8001:8001 \
--network home-automation \
--name api \
-v $(pwd)/config:/app/config:ro \
-e MQTT_BROKER=172.16.2.16 \
-e REDIS_HOST=172.23.1.116 \
-e REDIS_DB=8 \
api:dev
```
**Hinweise:**
- **Linux**: Port wird auf `0.0.0.0:8001` gebunden (von überall erreichbar)
- **macOS/finch**: Port wird auf `127.0.0.1:8001` gebunden (nur localhost)
#### Environment Variables
| Variable | Default | Description |
|----------|---------|-------------|
| `MQTT_BROKER` | `172.16.2.16` | MQTT broker hostname/IP |
| `MQTT_PORT` | `1883` | MQTT broker port |
| `REDIS_HOST` | `localhost` | Redis server hostname/IP |
| `REDIS_PORT` | `6379` | Redis server port |
| `REDIS_DB` | `0` | Redis database number |
| `REDIS_CHANNEL` | `ui:updates` | Redis pub/sub channel |
## API Endpoints
### `GET /health`

444
apps/api/main.py
View File

@@ -1,5 +1,3 @@
"""API main entry point."""
import asyncio
import json
import logging
@@ -15,10 +13,47 @@ from fastapi.middleware.cors import CORSMiddleware
from fastapi.responses import StreamingResponse
from pydantic import BaseModel, ValidationError
from packages.home_capabilities import CAP_VERSION, LightState
from packages.home_capabilities import (
LIGHT_VERSION,
THERMOSTAT_VERSION,
CONTACT_SENSOR_VERSION,
TEMP_HUMIDITY_SENSOR_VERSION,
RELAY_VERSION,
LightState,
ThermostatState,
ContactState,
TempHumidityState,
RelayState,
load_layout,
)
# Import resolvers (must be before router imports to avoid circular dependency)
from apps.api.resolvers import (
DeviceDTO,
resolve_group_devices,
resolve_scene_step_devices,
load_device_rooms,
get_room,
clear_room_cache,
)
logging.basicConfig(
level=logging.DEBUG,
format="%(asctime)s - %(name)s - %(levelname)s - %(message)s"
)
logger = logging.getLogger(__name__)
# ============================================================================
# STATE CACHES
# ============================================================================
# In-memory cache for last known device states
# Will be populated from Redis pub/sub messages
device_states: dict[str, dict[str, Any]] = {}
# Background task reference
background_task: asyncio.Task | None = None
app = FastAPI(
title="Home Automation API",
description="API for home automation system",
@@ -30,6 +65,7 @@ app.add_middleware(
CORSMiddleware,
allow_origins=[
"http://localhost:8002",
"http://172.19.1.11:8002",
"http://127.0.0.1:8002",
],
allow_credentials=True,
@@ -37,6 +73,55 @@ app.add_middleware(
allow_headers=["*"],
)
@app.get("/devices/{device_id}/layout")
async def get_device_layout(device_id: str):
"""Gibt die layout-spezifischen Informationen für ein einzelnes Gerät zurück."""
layout = load_layout()
for room in layout.rooms:
for device in room.devices:
if device.device_id == device_id:
return {
"device_id": device_id,
"room": room.name,
"title": device.title,
"icon": device.icon,
"rank": device.rank,
}
raise HTTPException(status_code=404, detail="Device layout not found")
@app.get("/devices/{device_id}/state")
async def get_device_state(device_id: str):
try:
logger.debug(f"Fetching state for device {device_id}")
state = device_states[device_id]
return state
except KeyError:
raise HTTPException(status_code=404, detail="Device state not found")
# --- Minimal-invasive: Einzelgerät-Layout-Endpunkt ---
@app.get("/devices/{device_id}/layout")
async def get_device_layout(device_id: str):
"""Gibt die layout-spezifischen Informationen für ein einzelnes Gerät zurück."""
layout = load_layout()
for room in layout.get("rooms", []):
for device in room.get("devices", []):
if device.get("device_id") == device_id:
# Rückgabe: Layout-Infos + Raumname
return {
"device_id": device_id,
"room": room.get("name"),
"title": device.get("title"),
"icon": device.get("icon"),
"rank": device.get("rank"),
}
raise HTTPException(status_code=404, detail="Device layout not found")
@app.on_event("startup")
async def startup_event():
"""Include routers after app is initialized to avoid circular imports."""
from apps.api.routes.groups_scenes import router as groups_scenes_router
app.include_router(groups_scenes_router, prefix="")
@app.get("/health")
async def health() -> dict[str, str]:
@@ -48,6 +133,77 @@ async def health() -> dict[str, str]:
return {"status": "ok"}
async def redis_state_listener():
"""Background task that listens to Redis pub/sub and updates state cache."""
redis_client = None
pubsub = None
try:
redis_url, redis_channel = get_redis_settings()
logger.info(f"Starting Redis state listener for channel {redis_channel}")
redis_client = await aioredis.from_url(redis_url, decode_responses=True)
pubsub = redis_client.pubsub()
await pubsub.subscribe(redis_channel)
logger.info("Redis state listener connected")
while True:
try:
message = await asyncio.wait_for(
pubsub.get_message(ignore_subscribe_messages=True),
timeout=1.0
)
if message and message["type"] == "message":
data = message["data"]
try:
state_data = json.loads(data)
if state_data.get("type") == "state" and state_data.get("device_id"):
device_id = state_data["device_id"]
payload = state_data.get("payload", {})
device_states[device_id] = payload
logger.debug(f"Updated state cache for {device_id}: {payload}")
except Exception as e:
logger.warning(f"Failed to parse state data: {e}")
except asyncio.TimeoutError:
pass # No message, continue
except asyncio.CancelledError:
logger.info("Redis state listener cancelled")
raise
except Exception as e:
logger.error(f"Redis state listener error: {e}")
finally:
if pubsub:
await pubsub.unsubscribe(redis_channel)
await pubsub.close()
if redis_client:
await redis_client.close()
@app.on_event("startup")
async def startup_event():
"""Start background tasks on application startup."""
global background_task
background_task = asyncio.create_task(redis_state_listener())
logger.info("Started background Redis state listener")
@app.on_event("shutdown")
async def shutdown_event():
"""Clean up background tasks on application shutdown."""
global background_task
if background_task:
background_task.cancel()
try:
await background_task
except asyncio.CancelledError:
pass
logger.info("Stopped background Redis state listener")
@app.get("/spec")
async def spec() -> dict[str, dict[str, str]]:
"""Capability specification endpoint.
@@ -57,7 +213,11 @@ async def spec() -> dict[str, dict[str, str]]:
"""
return {
"capabilities": {
"light": CAP_VERSION
"light": LIGHT_VERSION,
"thermostat": THERMOSTAT_VERSION,
"contact": CONTACT_SENSOR_VERSION,
"temp_humidity": TEMP_HUMIDITY_SENSOR_VERSION,
"relay": RELAY_VERSION
}
}
@@ -103,20 +263,81 @@ def load_devices() -> list[dict[str, Any]]:
def get_mqtt_settings() -> tuple[str, int]:
"""Get MQTT broker settings from environment.
Supports both MQTT_BROKER and MQTT_HOST for compatibility.
Returns:
tuple: (host, port)
"""
host = os.environ.get("MQTT_HOST", "172.16.2.16")
host = os.environ.get("MQTT_BROKER") or os.environ.get("MQTT_HOST", "172.16.2.16")
port = int(os.environ.get("MQTT_PORT", "1883"))
return host, port
# ============================================================================
# MQTT PUBLISH
# ============================================================================
async def publish_abstract_set(device_type: str, device_id: str, payload: dict[str, Any]) -> None:
"""
Publish an abstract set command via MQTT.
This function encapsulates MQTT publishing logic so that group/scene
execution doesn't need to know MQTT topic details.
Topic format: home/{device_type}/{device_id}/set
Message format: {"type": device_type, "payload": payload}
Args:
device_type: Device type (light, thermostat, relay, etc.)
device_id: Device identifier
payload: Command payload (e.g., {"power": "on", "brightness": 50})
Example:
>>> await publish_abstract_set("light", "kueche_deckenlampe", {"power": "on", "brightness": 35})
# Publishes to: home/light/kueche_deckenlampe/set
# Message: {"type": "light", "payload": {"power": "on", "brightness": 35}}
"""
mqtt_host, mqtt_port = get_mqtt_settings()
topic = f"home/{device_type}/{device_id}/set"
message = {
"type": device_type,
"payload": payload
}
try:
async with Client(hostname=mqtt_host, port=mqtt_port) as client:
await client.publish(
topic=topic,
payload=json.dumps(message),
qos=1
)
logger.info(f"Published to {topic}: {message}")
except Exception as e:
logger.error(f"Failed to publish to {topic}: {e}")
raise
def get_redis_settings() -> tuple[str, str]:
"""Get Redis settings from configuration.
Prioritizes environment variables over config file:
- REDIS_HOST, REDIS_PORT, REDIS_DB → redis://host:port/db
- REDIS_CHANNEL → pub/sub channel name
Returns:
tuple: (url, channel)
"""
# Check environment variables first
redis_host = os.getenv("REDIS_HOST")
redis_port = os.getenv("REDIS_PORT", "6379")
redis_db = os.getenv("REDIS_DB", "0")
redis_channel = os.getenv("REDIS_CHANNEL", "ui:updates")
if redis_host:
url = f"redis://{redis_host}:{redis_port}/{redis_db}"
return url, redis_channel
# Fallback to config file
config_path = Path(__file__).parent.parent.parent / "config" / "devices.yaml"
if config_path.exists():
@@ -144,6 +365,32 @@ async def publish_mqtt(topic: str, payload: dict[str, Any]) -> None:
await client.publish(topic, message, qos=1)
@app.get("/devices/states")
async def get_device_states() -> dict[str, dict[str, Any]]:
"""Get current states of all devices from in-memory cache.
Returns:
dict: Dictionary mapping device_id to state payload
"""
logger.debug("Fetching all device states")
return device_states
@app.get("/devices/{device_id}")
async def get_device(device_id: str) -> DeviceInfo:
logger.debug(f"Fetching info for device {device_id}")
devices = load_devices()
device = next((d for d in devices if d["device_id"] == device_id), None)
if not device:
raise HTTPException(status_code=404, detail="Device not found")
return DeviceInfo(
device_id=device["device_id"],
type=device["type"],
name=device.get("name", device["device_id"]),
features=device.get("features", {})
)
@app.get("/devices")
async def get_devices() -> list[DeviceInfo]:
"""Get list of available devices.
@@ -151,6 +398,7 @@ async def get_devices() -> list[DeviceInfo]:
Returns:
list: List of device information including features
"""
logger.debug("Fetching list of devices")
devices = load_devices()
return [
DeviceInfo(
@@ -163,6 +411,7 @@ async def get_devices() -> list[DeviceInfo]:
]
@app.get("/layout")
async def get_layout() -> dict[str, Any]:
"""Get UI layout configuration.
@@ -170,8 +419,6 @@ async def get_layout() -> dict[str, Any]:
Returns:
dict: Layout configuration with rooms and device tiles
"""
from packages.home_capabilities import load_layout
try:
layout = load_layout()
@@ -200,6 +447,23 @@ async def get_layout() -> dict[str, Any]:
return {"rooms": []}
@app.get("/devices/{device_id}/room")
async def get_device_room(device_id: str) -> dict[str, str | None]:
"""Get the room name for a specific device.
Args:
device_id: Device identifier
Returns:
dict: {"device_id": str, "room": str | null}
"""
room = get_room(device_id)
return {
"device_id": device_id,
"room": room
}
@app.post("/devices/{device_id}/set", status_code=status.HTTP_202_ACCEPTED)
async def set_device(device_id: str, request: SetDeviceRequest) -> dict[str, str]:
"""Set device state.
@@ -224,6 +488,13 @@ async def set_device(device_id: str, request: SetDeviceRequest) -> dict[str, str
detail=f"Device {device_id} not found"
)
# Check if device is read-only (contact sensors, etc.)
if "topics" in device and "set" not in device["topics"]:
raise HTTPException(
status_code=status.HTTP_405_METHOD_NOT_ALLOWED,
detail="Device is read-only"
)
# Validate payload based on device type
if request.type == "light":
try:
@@ -233,6 +504,42 @@ async def set_device(device_id: str, request: SetDeviceRequest) -> dict[str, str
status_code=status.HTTP_422_UNPROCESSABLE_ENTITY,
detail=f"Invalid payload for light: {e}"
)
elif request.type == "relay":
try:
RelayState(**request.payload)
except ValidationError as e:
raise HTTPException(
status_code=status.HTTP_422_UNPROCESSABLE_ENTITY,
detail=f"Invalid payload for relay: {e}"
)
elif request.type == "thermostat":
try:
# For thermostat SET: only allow mode and target
allowed_set_fields = {"mode", "target"}
invalid_fields = set(request.payload.keys()) - allowed_set_fields
if invalid_fields:
raise HTTPException(
status_code=status.HTTP_422_UNPROCESSABLE_ENTITY,
detail=f"Thermostat SET only allows {allowed_set_fields}, got invalid fields: {invalid_fields}"
)
ThermostatState(**request.payload)
except ValidationError as e:
raise HTTPException(
status_code=status.HTTP_422_UNPROCESSABLE_ENTITY,
detail=f"Invalid payload for thermostat: {e}"
)
elif request.type in {"contact", "contact_sensor"}:
# Contact sensors are read-only
raise HTTPException(
status_code=status.HTTP_405_METHOD_NOT_ALLOWED,
detail="Contact sensors are read-only devices"
)
elif request.type in {"temp_humidity", "temp_humidity_sensor"}:
# Temperature & humidity sensors are read-only
raise HTTPException(
status_code=status.HTTP_405_METHOD_NOT_ALLOWED,
detail="Temperature & humidity sensors are read-only devices"
)
else:
raise HTTPException(
status_code=status.HTTP_422_UNPROCESSABLE_ENTITY,
@@ -252,7 +559,13 @@ async def set_device(device_id: str, request: SetDeviceRequest) -> dict[str, str
async def event_generator(request: Request) -> AsyncGenerator[str, None]:
"""Generate SSE events from Redis Pub/Sub.
"""Generate SSE events from Redis Pub/Sub with Safari compatibility.
Safari-compatible features:
- Immediate retry hint on connection
- Regular heartbeats every 15s (comment-only, no data)
- Proper flushing after each yield
- Graceful disconnect handling
Args:
request: FastAPI request object for disconnect detection
@@ -260,70 +573,125 @@ async def event_generator(request: Request) -> AsyncGenerator[str, None]:
Yields:
str: SSE formatted event strings
"""
redis_url, redis_channel = get_redis_settings()
redis_client = await aioredis.from_url(redis_url, decode_responses=True)
pubsub = redis_client.pubsub()
redis_client = None
pubsub = None
try:
await pubsub.subscribe(redis_channel)
# Send retry hint immediately for EventSource reconnect behavior
yield "retry: 2500\n\n"
# Create heartbeat task
# Try to connect to Redis
redis_url, redis_channel = get_redis_settings()
try:
redis_client = await aioredis.from_url(redis_url, decode_responses=True)
pubsub = redis_client.pubsub()
await pubsub.subscribe(redis_channel)
logger.info(f"SSE client connected, subscribed to {redis_channel}")
except Exception as e:
logger.warning(f"Redis unavailable, running in heartbeat-only mode: {e}")
redis_client = None
pubsub = None
# Heartbeat tracking
last_heartbeat = asyncio.get_event_loop().time()
heartbeat_interval = 15 # Safari-friendly: shorter interval
while True:
# Check if client disconnected
if await request.is_disconnected():
logger.info("SSE client disconnected")
break
# Get message with timeout for heartbeat
try:
message = await asyncio.wait_for(
pubsub.get_message(ignore_subscribe_messages=True),
timeout=1.0
)
if message and message["type"] == "message":
# Send data event
data = message["data"]
yield f"event: message\ndata: {data}\n\n"
last_heartbeat = asyncio.get_event_loop().time()
except asyncio.TimeoutError:
pass
# Try to get message from Redis (if available)
if pubsub:
try:
message = await asyncio.wait_for(
pubsub.get_message(ignore_subscribe_messages=True),
timeout=0.1
)
if message and message["type"] == "message":
data = message["data"]
logger.debug(f"Sending SSE message: {data[:100]}...")
# Update in-memory cache with latest state
try:
state_data = json.loads(data)
if state_data.get("type") == "state" and state_data.get("device_id"):
device_states[state_data["device_id"]] = state_data.get("payload", {})
except Exception as e:
logger.warning(f"Failed to parse state data for cache: {e}")
yield f"event: message\ndata: {data}\n\n"
last_heartbeat = asyncio.get_event_loop().time()
continue # Skip sleep, check for more messages immediately
except asyncio.TimeoutError:
pass # No message, continue to heartbeat check
except Exception as e:
logger.error(f"Redis error: {e}")
# Continue with heartbeats even if Redis fails
# Send heartbeat every 25 seconds
# Sleep briefly to avoid busy loop
await asyncio.sleep(0.1)
# Send heartbeat if interval elapsed
current_time = asyncio.get_event_loop().time()
if current_time - last_heartbeat >= 25:
yield "event: ping\ndata: heartbeat\n\n"
if current_time - last_heartbeat >= heartbeat_interval:
# Comment-style ping (Safari-compatible, no event type)
yield ": ping\n\n"
last_heartbeat = current_time
except asyncio.CancelledError:
logger.info("SSE connection cancelled by client")
raise
except Exception as e:
logger.error(f"SSE error: {e}")
raise
finally:
await pubsub.unsubscribe(redis_channel)
await pubsub.close()
await redis_client.close()
# Cleanup Redis connection
if pubsub:
try:
await pubsub.unsubscribe(redis_channel)
await pubsub.aclose()
except Exception as e:
logger.error(f"Error closing pubsub: {e}")
if redis_client:
try:
await redis_client.aclose()
except Exception as e:
logger.error(f"Error closing redis: {e}")
logger.info("SSE connection closed")
@app.get("/realtime")
async def realtime_events(request: Request) -> StreamingResponse:
"""Server-Sent Events endpoint for real-time updates.
Safari-compatible SSE implementation:
- Immediate retry hint (2.5s reconnect delay)
- Heartbeat every 15s using comment syntax ": ping"
- Proper Cache-Control headers
- No buffering (nginx compatibility)
- Graceful Redis fallback (heartbeat-only mode)
Args:
request: FastAPI request object
Returns:
StreamingResponse: SSE stream of Redis messages
StreamingResponse: SSE stream with Redis messages and heartbeats
"""
return StreamingResponse(
event_generator(request),
media_type="text/event-stream",
headers={
"Cache-Control": "no-cache",
"Cache-Control": "no-cache, no-transform",
"Connection": "keep-alive",
"X-Accel-Buffering": "no", # Disable nginx buffering
}
)
return {"message": f"Command sent to {device_id}"}
def main() -> None:

6
apps/api/requirements.txt Normal file
View File

@@ -0,0 +1,6 @@
fastapi==0.104.1
uvicorn[standard]==0.24.0
pydantic>=2
redis==5.0.1
aiomqtt==2.0.1
pyyaml==6.0.1

286
apps/api/resolvers.py Normal file
View File

@@ -0,0 +1,286 @@
"""Group and scene resolution logic."""
import logging
from pathlib import Path
from typing import Any, TypedDict
from packages.home_capabilities import (
GroupConfig,
GroupsConfigRoot,
SceneStep,
get_group_by_id,
load_layout,
)
logger = logging.getLogger(__name__)
# ============================================================================
# TYPE DEFINITIONS
# ============================================================================
class DeviceDTO(TypedDict, total=False):
"""Device Data Transfer Object.
Represents a device as returned by /devices endpoint or load_devices().
Required fields:
device_id: Unique device identifier
type: Device type (light, thermostat, relay, etc.)
Optional fields:
name: Human-readable device name
features: Device capabilities (power, brightness, etc.)
technology: MQTT, zigbee2mqtt, simulator, etc.
topics: MQTT topic configuration
metadata: Additional device information
"""
device_id: str
type: str
name: str
features: dict[str, Any]
technology: str
topics: dict[str, str]
metadata: dict[str, Any]
# ============================================================================
# DEVICE-ROOM MAPPING
# ============================================================================
# Global cache for device -> room mapping
_device_room_cache: dict[str, str] = {}
def load_device_rooms(path: str | Path | None = None) -> dict[str, str]:
"""
Load device-to-room mapping from layout configuration.
This function extracts a mapping of device_id -> room_name from the layout.yaml
file, which is useful for resolving selectors like {room: "Küche"}.
Args:
path: Optional path to layout.yaml. If None, uses default path
(config/layout.yaml relative to workspace root)
Returns:
Dictionary mapping device_id to room_name. Returns empty dict if:
- layout.yaml doesn't exist
- layout.yaml is malformed
- layout.yaml is empty
Example:
>>> mapping = load_device_rooms()
>>> mapping['kueche_lampe1']
'Küche'
"""
global _device_room_cache
try:
# Load the layout using existing function
layout = load_layout(path)
# Build device -> room mapping
device_rooms: dict[str, str] = {}
for room in layout.rooms:
for device in room.devices:
device_rooms[device.device_id] = room.name
# Update global cache
_device_room_cache = device_rooms.copy()
logger.info(f"Loaded device-room mapping: {len(device_rooms)} devices")
return device_rooms
except (FileNotFoundError, ValueError, Exception) as e:
logger.warning(f"Failed to load device-room mapping: {e}")
logger.warning("Returning empty device-room mapping")
_device_room_cache = {}
return {}
def get_room(device_id: str) -> str | None:
"""
Get the room name for a given device ID.
This function uses the cached device-room mapping loaded by load_device_rooms().
If the cache is empty, it will attempt to load it first.
Args:
device_id: The device identifier to lookup
Returns:
Room name if device is found, None otherwise
Example:
>>> get_room('kueche_lampe1')
'Küche'
>>> get_room('nonexistent_device')
None
"""
# Check if cache is populated
if not _device_room_cache:
logger.debug("Device-room cache empty, loading from layout...")
# Load mapping (this updates the global _device_room_cache)
load_device_rooms()
# Access the cache after potential reload
return _device_room_cache.get(device_id)
def clear_room_cache() -> None:
"""
Clear the cached device-room mapping.
This is useful for testing or when the layout configuration has changed
and needs to be reloaded.
"""
_device_room_cache.clear()
logger.debug("Cleared device-room cache")
# ============================================================================
# GROUP & SCENE RESOLUTION
# ============================================================================
def resolve_group_devices(
group: GroupConfig,
devices: list[DeviceDTO],
device_rooms: dict[str, str]
) -> list[DeviceDTO]:
"""
Resolve devices for a group based on device_ids or selector.
Args:
group: Group configuration with device_ids or selector
devices: List of all available devices
device_rooms: Mapping of device_id -> room_name
Returns:
List of devices matching the group criteria (no duplicates)
Example:
>>> # Group with explicit device_ids
>>> group = GroupConfig(id="test", name="Test", device_ids=["lamp1", "lamp2"])
>>> resolve_group_devices(group, all_devices, {})
[{"device_id": "lamp1", ...}, {"device_id": "lamp2", ...}]
>>> # Group with selector (all lights in kitchen)
>>> group = GroupConfig(
... id="kitchen_lights",
... name="Kitchen Lights",
... selector=GroupSelector(type="light", room="Küche")
... )
>>> resolve_group_devices(group, all_devices, device_rooms)
[{"device_id": "kueche_deckenlampe", ...}, ...]
"""
# Case 1: Explicit device_ids
if group.device_ids:
device_id_set = set(group.device_ids)
return [d for d in devices if d["device_id"] in device_id_set]
# Case 2: Selector-based filtering
if group.selector:
filtered = []
for device in devices:
# Filter by type (required in selector)
if device["type"] != group.selector.type:
continue
# Filter by room (optional)
if group.selector.room:
device_room = device_rooms.get(device["device_id"])
if device_room != group.selector.room:
continue
# Filter by tags (optional, future feature)
# if group.selector.tags:
# device_tags = device.get("metadata", {}).get("tags", [])
# if not any(tag in device_tags for tag in group.selector.tags):
# continue
filtered.append(device)
return filtered
# No device_ids and no selector → empty list
return []
def resolve_scene_step_devices(
step: SceneStep,
groups_config: GroupsConfigRoot,
devices: list[DeviceDTO],
device_rooms: dict[str, str]
) -> list[DeviceDTO]:
"""
Resolve devices for a scene step based on group_id or selector.
Args:
step: Scene step with group_id or selector
groups_config: Groups configuration for group lookup
devices: List of all available devices
device_rooms: Mapping of device_id -> room_name
Returns:
List of devices matching the step criteria
Raises:
ValueError: If group_id is specified but group not found
Example:
>>> # Step with group_id
>>> step = SceneStep(group_id="kitchen_lights", action={...})
>>> resolve_scene_step_devices(step, groups_cfg, all_devices, device_rooms)
[{"device_id": "kueche_deckenlampe", ...}, ...]
>>> # Step with selector
>>> step = SceneStep(
... selector=SceneSelector(type="light", room="Küche"),
... action={...}
... )
>>> resolve_scene_step_devices(step, groups_cfg, all_devices, device_rooms)
[{"device_id": "kueche_deckenlampe", ...}, ...]
"""
# Case 1: Group reference
if step.group_id:
# Look up the group
group = get_group_by_id(groups_config, step.group_id)
if not group:
raise ValueError(
f"Scene step references unknown group_id: '{step.group_id}'. "
f"Available groups: {[g.id for g in groups_config.groups]}"
)
# Resolve the group's devices
return resolve_group_devices(group, devices, device_rooms)
# Case 2: Direct selector
if step.selector:
filtered = []
for device in devices:
# Filter by type (optional in scene selector)
if step.selector.type and device["type"] != step.selector.type:
continue
# Filter by room (optional)
if step.selector.room:
device_room = device_rooms.get(device["device_id"])
if device_room != step.selector.room:
continue
# Filter by tags (optional, future feature)
# if step.selector.tags:
# device_tags = device.get("metadata", {}).get("tags", [])
# if not any(tag in device_tags for tag in step.selector.tags):
# continue
filtered.append(device)
return filtered
# Should not reach here due to SceneStep validation (must have group_id or selector)
return []

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"""API routes package."""

454
apps/api/routes/groups_scenes.py Normal file
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"""Groups and Scenes API routes."""
import asyncio
import logging
from pathlib import Path
from typing import Any
from fastapi import APIRouter, HTTPException, status
from pydantic import BaseModel
from packages.home_capabilities import (
GroupConfig,
GroupsConfigRoot,
SceneConfig,
ScenesConfigRoot,
get_group_by_id,
get_scene_by_id,
load_groups,
load_scenes,
)
# Import from parent modules
import sys
sys.path.insert(0, str(Path(__file__).parent.parent))
from resolvers import (
DeviceDTO,
resolve_group_devices,
resolve_scene_step_devices,
load_device_rooms,
)
from main import load_devices, publish_abstract_set
logger = logging.getLogger(__name__)
router = APIRouter()
# ============================================================================
# REQUEST/RESPONSE MODELS
# ============================================================================
class GroupResponse(BaseModel):
"""Response model for a group."""
id: str
name: str
device_count: int
devices: list[str]
selector: dict[str, Any] | None = None
capabilities: dict[str, bool]
class GroupSetRequest(BaseModel):
"""Request to set state for all devices in a group."""
action: dict[str, Any] # e.g., {"type": "light", "payload": {"power": "on", "brightness": 50}}
class SceneResponse(BaseModel):
"""Response model for a scene."""
id: str
name: str
steps: int
class SceneRunRequest(BaseModel):
"""Request to execute a scene (currently empty, future: override params)."""
pass
class SceneExecutionResponse(BaseModel):
"""Response after scene execution."""
scene_id: str
scene_name: str
steps_executed: int
devices_affected: int
execution_plan: list[dict[str, Any]]
# ============================================================================
# GROUPS ENDPOINTS
# ============================================================================
@router.get("/groups", response_model=list[GroupResponse], tags=["groups"])
async def list_groups() -> list[GroupResponse]:
"""
List all available groups.
Returns:
list[GroupResponse]: List of groups with their devices
"""
try:
# Load configuration
groups_config = load_groups(Path(__file__).parent.parent.parent.parent / "config" / "groups.yaml")
devices = load_devices()
device_rooms = load_device_rooms()
# Build response for each group
response = []
for group in groups_config.groups:
# Resolve devices for this group
resolved_devices = resolve_group_devices(group, devices, device_rooms)
device_ids = [d["device_id"] for d in resolved_devices]
# Convert selector to dict if present
selector_dict = None
if group.selector:
selector_dict = {
"type": group.selector.type,
"room": group.selector.room,
"tags": group.selector.tags,
}
response.append(GroupResponse(
id=group.id,
name=group.name,
device_count=len(device_ids),
devices=device_ids,
selector=selector_dict,
capabilities=group.capabilities,
))
return response
except Exception as e:
logger.error(f"Error loading groups: {e}")
raise HTTPException(
status_code=status.HTTP_500_INTERNAL_SERVER_ERROR,
detail=f"Failed to load groups: {str(e)}"
)
@router.get("/groups/{group_id}", response_model=GroupResponse, tags=["groups"])
async def get_group(group_id: str) -> GroupResponse:
"""
Get details for a specific group.
Args:
group_id: Group identifier
Returns:
GroupResponse: Group details with resolved devices
"""
try:
# Load configuration
groups_config = load_groups(Path(__file__).parent.parent.parent.parent / "config" / "groups.yaml")
devices = load_devices()
device_rooms = load_device_rooms()
# Find the group
group = get_group_by_id(groups_config, group_id)
if not group:
available_groups = [g.id for g in groups_config.groups]
raise HTTPException(
status_code=status.HTTP_404_NOT_FOUND,
detail=f"Group '{group_id}' not found. Available groups: {available_groups}"
)
# Resolve devices
resolved_devices = resolve_group_devices(group, devices, device_rooms)
device_ids = [d["device_id"] for d in resolved_devices]
# Convert selector to dict if present
selector_dict = None
if group.selector:
selector_dict = {
"type": group.selector.type,
"room": group.selector.room,
"tags": group.selector.tags,
}
return GroupResponse(
id=group.id,
name=group.name,
device_count=len(device_ids),
devices=device_ids,
selector=selector_dict,
capabilities=group.capabilities,
)
except HTTPException:
raise
except Exception as e:
logger.error(f"Error getting group {group_id}: {e}")
raise HTTPException(
status_code=status.HTTP_500_INTERNAL_SERVER_ERROR,
detail=f"Failed to get group: {str(e)}"
)
@router.post("/groups/{group_id}/set", status_code=status.HTTP_202_ACCEPTED, tags=["groups"])
async def set_group(group_id: str, request: GroupSetRequest) -> dict[str, Any]:
"""
Set state for all devices in a group.
This endpoint resolves the group to its devices and would send
the action to each device. Currently returns execution plan.
Args:
group_id: Group identifier
request: Action to apply to all devices in the group
Returns:
dict: Execution plan (devices and actions to be executed)
"""
try:
# Load configuration
groups_config = load_groups(Path(__file__).parent.parent.parent.parent / "config" / "groups.yaml")
devices = load_devices()
device_rooms = load_device_rooms()
# Find the group
group = get_group_by_id(groups_config, group_id)
if not group:
available_groups = [g.id for g in groups_config.groups]
raise HTTPException(
status_code=status.HTTP_404_NOT_FOUND,
detail=f"Group '{group_id}' not found. Available groups: {available_groups}"
)
# Resolve devices
resolved_devices = resolve_group_devices(group, devices, device_rooms)
if not resolved_devices:
logger.warning(f"Group '{group_id}' resolved to 0 devices")
# Execute actions via MQTT
execution_plan = []
for device in resolved_devices:
device_type = device["type"]
device_id = device["device_id"]
payload = request.action.get("payload", {})
# Publish MQTT command
try:
await publish_abstract_set(device_type, device_id, payload)
execution_plan.append({
"device_id": device_id,
"device_type": device_type,
"action": request.action,
"status": "published"
})
except Exception as e:
logger.error(f"Failed to publish to {device_id}: {e}")
execution_plan.append({
"device_id": device_id,
"device_type": device_type,
"action": request.action,
"status": "failed",
"error": str(e)
})
return {
"group_id": group_id,
"group_name": group.name,
"devices_affected": len(resolved_devices),
"execution_plan": execution_plan,
"status": "executed"
}
except HTTPException:
raise
except Exception as e:
logger.error(f"Error setting group {group_id}: {e}")
raise HTTPException(
status_code=status.HTTP_500_INTERNAL_SERVER_ERROR,
detail=f"Failed to set group: {str(e)}"
)
# ============================================================================
# SCENES ENDPOINTS
# ============================================================================
@router.get("/scenes", response_model=list[SceneResponse], tags=["scenes"])
async def list_scenes() -> list[SceneResponse]:
"""
List all available scenes.
Returns:
list[SceneResponse]: List of scenes
"""
try:
# Load configuration
scenes_config = load_scenes(Path(__file__).parent.parent.parent.parent / "config" / "scenes.yaml")
# Build response for each scene
response = []
for scene in scenes_config.scenes:
response.append(SceneResponse(
id=scene.id,
name=scene.name,
steps=len(scene.steps),
))
return response
except Exception as e:
logger.error(f"Error loading scenes: {e}")
raise HTTPException(
status_code=status.HTTP_500_INTERNAL_SERVER_ERROR,
detail=f"Failed to load scenes: {str(e)}"
)
@router.get("/scenes/{scene_id}", response_model=SceneResponse, tags=["scenes"])
async def get_scene(scene_id: str) -> SceneResponse:
"""
Get details for a specific scene.
Args:
scene_id: Scene identifier
Returns:
SceneResponse: Scene details
"""
try:
# Load configuration
scenes_config = load_scenes(Path(__file__).parent.parent.parent.parent / "config" / "scenes.yaml")
# Find the scene
scene = get_scene_by_id(scenes_config, scene_id)
if not scene:
available_scenes = [s.id for s in scenes_config.scenes]
raise HTTPException(
status_code=status.HTTP_404_NOT_FOUND,
detail=f"Scene '{scene_id}' not found. Available scenes: {available_scenes}"
)
return SceneResponse(
id=scene.id,
name=scene.name,
steps=len(scene.steps),
)
except HTTPException:
raise
except Exception as e:
logger.error(f"Error getting scene {scene_id}: {e}")
raise HTTPException(
status_code=status.HTTP_500_INTERNAL_SERVER_ERROR,
detail=f"Failed to get scene: {str(e)}"
)
@router.post("/scenes/{scene_id}/run", response_model=SceneExecutionResponse, tags=["scenes"])
async def run_scene(scene_id: str, request: SceneRunRequest | None = None) -> SceneExecutionResponse:
"""
Execute a scene.
This endpoint resolves each step in the scene to its target devices
and would execute the actions. Currently returns execution plan.
Args:
scene_id: Scene identifier
request: Optional execution parameters (reserved for future use)
Returns:
SceneExecutionResponse: Execution plan and summary
"""
try:
# Load configuration
scenes_config = load_scenes(Path(__file__).parent.parent.parent.parent / "config" / "scenes.yaml")
groups_config = load_groups(Path(__file__).parent.parent.parent.parent / "config" / "groups.yaml")
devices = load_devices()
device_rooms = load_device_rooms()
# Find the scene
scene = get_scene_by_id(scenes_config, scene_id)
if not scene:
available_scenes = [s.id for s in scenes_config.scenes]
raise HTTPException(
status_code=status.HTTP_404_NOT_FOUND,
detail=f"Scene '{scene_id}' not found. Available scenes: {available_scenes}"
)
# Execute scene steps
execution_plan = []
total_devices = 0
for i, step in enumerate(scene.steps, 1):
# Resolve devices for this step
resolved_devices = resolve_scene_step_devices(step, groups_config, devices, device_rooms)
total_devices += len(resolved_devices)
# Extract action payload
action_payload = step.action.get("payload", {})
# Execute for each device
step_executions = []
for device in resolved_devices:
device_type = device["type"]
device_id = device["device_id"]
try:
await publish_abstract_set(device_type, device_id, action_payload)
step_executions.append({
"device_id": device_id,
"status": "published"
})
except Exception as e:
logger.error(f"Failed to publish to {device_id} in step {i}: {e}")
step_executions.append({
"device_id": device_id,
"status": "failed",
"error": str(e)
})
# Build step info
step_info = {
"step": i,
"devices_affected": len(resolved_devices),
"device_ids": [d["device_id"] for d in resolved_devices],
"action": step.action,
"executions": step_executions,
}
# Add targeting info
if step.group_id:
step_info["target"] = {"type": "group_id", "value": step.group_id}
elif step.selector:
step_info["target"] = {
"type": "selector",
"selector_type": step.selector.type,
"room": step.selector.room,
}
if step.delay_ms:
step_info["delay_ms"] = step.delay_ms
# Apply delay before next step
await asyncio.sleep(step.delay_ms / 1000.0)
execution_plan.append(step_info)
return SceneExecutionResponse(
scene_id=scene.id,
scene_name=scene.name,
steps_executed=len(scene.steps),
devices_affected=total_devices,
execution_plan=execution_plan,
)
except HTTPException:
raise
except ValueError as e:
# Handle unknown group_id in scene step
raise HTTPException(
status_code=status.HTTP_400_BAD_REQUEST,
detail=str(e)
)
except Exception as e:
logger.error(f"Error running scene {scene_id}: {e}")
raise HTTPException(
status_code=status.HTTP_500_INTERNAL_SERVER_ERROR,
detail=f"Failed to run scene: {str(e)}"
)

465
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# HomeKit Bridge
HomeKit Accessory Protocol (HAP) Bridge für das Home Automation System.
## Überblick
Diese HomeKit-Bridge ermöglicht die Steuerung aller Geräte über Apple HomeKit / Home-App auf iPhone/iPad/Mac.
**Architektur:**
- Läuft auf Raspberry Pi im lokalen Netzwerk
- Kommuniziert ausschließlich über REST-API (kein direkter MQTT/Redis-Zugriff)
- Verwendet [HAP-Python](https://github.com/ikalchev/HAP-python) für HomeKit-Protokoll
- Unterstützt Echtzeit-Updates über Server-Sent Events (SSE)
## Implementierungsanleitung für Copilot
<details>
<summary>Copilot-Aufgabe: Implementiere die HomeKit-Bridge (HAP-Python) für unser System</summary>
### Kontext
- Wir verwenden HAP-Python als HomeKit-Bridge.
- Die Bridge läuft auf einem Raspberry Pi im gleichen LAN wie die iPhones.
- Die Bridge kommuniziert AUSSCHLIESSLICH über die REST-API mit dem restlichen System (KEIN direkter MQTT-/Redis-Zugriff).
- Geräte- und Raum-Infos kommen aus:
- `GET /devices`
- `GET /layout`
und werden über `device_id` gejoint.
- Die Abbildung von abstrakten Gerätetypen/Features auf HomeKit-Services/Characteristics steht in der Datei `apps/homekit/homekit_mapping.md` (Markdown-Tabelle). Bitte orientiere dich daran.
### Ziel
Implementiere eine lauffähige HomeKit-Bridge in `apps/homekit`, die:
- beim Start Geräte & Räume über die API lädt,
- daraus anhand der Mapping-Tabelle HomeKit-Accessories erzeugt,
- Zustandsänderungen über einen Realtime-Endpoint der API empfängt und in HomeKit spiegeln kann,
- Set-Kommandos aus HomeKit (z.B. Licht an/aus, Helligkeit, Zieltemperatur) per `POST /devices/{id}/set` an die API sendet,
- saubere Start-/Stop-Logs ausgibt,
- einfache Test-/Startanweisungen für den Raspberry Pi und die Home-App (iPhone) in Kommentaren dokumentiert.
### WICHTIG
- Bitte benutze HAP-Python (pyhap).
- Keine direkte MQTT- oder Redis-Kommunikation in der Bridge.
- Nutze HTTP(S) zur API (z.B. mit requests oder httpx; gerne sync, HAP-Python ist selbst eventloop-orientiert).
- Nutze die Mapping-Tabelle in `apps/homekit/homekit_mapping.md` als Leitlinie für die Accessory-Typen.
### Paketstruktur
```
apps/homekit/
├── __init__.py
├── main.py # Einstiegspunkt
├── api_client.py # REST-Client zur API
├── device_registry.py # Join /devices + /layout → internes Device-Modell
├── accessories/
│ ├── base.py # gemeinsame Basisklasse/n für Accessories
│ ├── light.py # Light-Accessories
│ ├── thermostat.py
│ ├── contact.py
│ ├── sensor.py # temp_humidity etc.
│ └── cover.py # optional, Rollladen
└── tests/ # rudimentäre Tests/Checks
```
## Teil 1: Internes Gerätemodell / Device-Registry
### 1.1 Erstelle in `apps/homekit/device_registry.py`:
**Dataklasse/Model Device:**
- `device_id: str`
- `type: str` - "light","thermostat","outlet","contact","temp_humidity","cover",...
- `name: str` - Kurzname aus `GET /devices.name`
- `friendly_name: str` - title aus `GET /layout` (fallback name)
- `room: str | None` - Raumname aus layout
- `features: dict[str, bool]`
- `read_only: bool` - heuristisch: Sensor-/Kontakt-Typen sind read_only
**Klasse DeviceRegistry mit Funktionen:**
- `def load_from_api(api: ApiClient) -> DeviceRegistry`:
- ruft `GET /devices` und `GET /layout` auf,
- joint über `device_id`,
- erstellt Device-Instanzen.
- `get_all(): list[Device]`
- `get_by_id(device_id: str) -> Device | None`
**Akzeptanz:**
- `load_from_api` funktioniert mit der bestehenden Struktur von `/devices` und `/layout`:
- `/devices` liefert mindestens `{device_id, type, name, features}`
- `/layout` liefert eine Struktur, aus der `device_id → room + title` ableitbar ist
- Der Join über `device_id` klappt; fehlende Layout-Einträge werden toleriert
## Teil 2: API-Client
### 2.1 Erstelle in `apps/homekit/api_client.py`:
**Klasse ApiClient mit:**
- `__init__(self, base_url: str, token: str | None = None, timeout: int = 5)`
- **Methoden:**
- `get_devices() -> list[dict]`: GET /devices
- `get_layout() -> dict`: GET /layout
- `get_device_state(device_id: str) -> dict`: GET /devices/{id}/state
- `post_device_set(device_id: str, type: str, payload: dict) -> None`: POST /devices/{id}/set
- `stream_realtime() -> Iterator[dict]`:
- GET /realtime als SSE, yield jedes Event als dict:
`{"type":"state","device_id":...,"payload":{...},"ts":...}`
**Auth:**
- Wenn ein API-Token via ENV `HOMEKIT_API_TOKEN` gesetzt ist, nutze HTTP-Header:
`Authorization: Bearer <token>`
**Akzeptanz:**
- ApiClient ist robust:
- bei Netzwerkfehlern gibt es sinnvolle Exceptions/Logs,
- `stream_realtime` behandelt Reconnect (z.B. einfache Endlosschleife mit Backoff).
- Es werden keine MQTT-Details verwendet, nur HTTP.
## Teil 3: HomeKit-Accessory-Klassen (HAP-Python)
### 3.1 Erstelle in `apps/homekit/accessories/base.py`:
**Basisklasse BaseDeviceAccessory(Accessory) mit:**
- Referenz auf Device (aus DeviceRegistry)
- Referenz auf ApiClient
- Methoden zum:
- Registrieren von HAP-Characteristics und Set-Handlern
- Aktualisieren von Characteristics bei eingehenden Events
- Logging
### 3.2 Erstelle spezifische Accessory-Klassen basierend auf homekit_mapping.md:
**LightAccessories (`apps/homekit/accessories/light.py`):**
- On/Off (nur power)
- Dimmable (power + brightness)
- Color (power + brightness + color_hsb)
**ThermostatAccessory:**
- CurrentTemperature, TargetTemperature, Mode (so weit in Mapping definiert)
**ContactAccessory:**
- ContactSensorState (open/closed)
**TempHumidityAccessory:**
- TemperatureSensor (CurrentTemperature)
- HumiditySensor (CurrentRelativeHumidity)
**OutletAccessory:**
- On/Off
**CoverAccessory (optional):**
- WindowCovering mit CurrentPosition/TargetPosition
**Die Mapping-Tabelle in `homekit_mapping.md` ist die normative Referenz:**
- Bitte lies die Tabelle und mappe `abstract_type + Features → passende Accessory-Klasse und Characteristics`
- Wo die Tabelle `Status=TODO/REVIEW` hat:
- Implementiere nur das, was eindeutig ist,
- lasse TODO-Kommentare an den entsprechenden Stellen im Code.
**Akzeptanz:**
- Für die abstrakten Typen, die bereits in `devices.yaml` und Mapping-Tabelle klar definiert sind (z.B. light, thermostat, contact, temp_humidity), existieren passende Accessory-Klassen.
- Set-Operationen erzeugen korrekte Payloads für `POST /devices/{id}/set`:
- Light: `{"type":"light","payload":{"power":"on"/"off", "brightness":..., "hue":..., "sat":...}}`
- Thermostat: `{"type":"thermostat","payload":{"target":...}}`
- Contact: read_only → keine Set-Handler
- Temp/Humidity: read_only → keine Set-Handler
## Teil 4: Bridge-Setup mit HAP-Python
### 4.1 Implementiere in `apps/homekit/main.py`:
**env-Konfiguration:**
- `HOMEKIT_NAME` (default: "Home Automation Bridge")
- `HOMEKIT_PIN` (z.B. "031-45-154")
- `HOMEKIT_PORT` (default 51826)
- `API_BASE` (z.B. "http://api:8001" oder extern)
- `HOMEKIT_API_TOKEN` (optional)
**Funktion `build_bridge(driver, api_client: ApiClient) -> Bridge`:**
- DeviceRegistry via `load_from_api(api_client)` laden.
- Für jedes Device anhand Mapping-Tabelle die passende Accessory-Klasse instanziieren.
- Einen Bridge-Accessory (`pyhap.accessory.Bridge`) erstellen.
- Alle Device-Accessories der Bridge hinzufügen.
**Realtime-Event-Loop:**
- In einem Hintergrund-Thread oder ThreadPool:
- `api_client.stream_realtime()` iterieren,
- für jedes Event `device_id → Accessory` finden,
- Characteristics updaten.
- Thread wird beim Shutdown sauber beendet.
**`main()`:**
- Logging einrichten.
- ApiClient erstellen.
- `AccessoryDriver(port=HOMEKIT_PORT, persist_file="homekit.state")` erstellen.
- Bridge via `build_bridge(driver, api_client)` bauen.
- Bridge dem Driver hinzufügen.
- Realtime-Thread starten.
- `driver.start()` aufrufen.
- Auf KeyboardInterrupt reagieren und sauber stoppen.
**Akzeptanz:**
- Beim Start loggt die Bridge:
- Anzahl Devices,
- auf welchem Port sie als HomeKit-Bridge lauscht,
- welches API_BASE verwendet wird.
- Die Datei `homekit.state` wird im Arbeitsverzeichnis bzw. einem konfigurierbaren Ordner abgelegt (um Pairing-Info persistent zu halten).
- Die Bridge übersteht API-Neustarts (Realtime-Loop reconnectet) und Netzwerkflaps.
## Teil 5: Tests & Testanweisungen
### 5.1 Lege in `apps/homekit/tests/` einfache Tests/Checks an:
**Unit-Tests (pytest), soweit ohne echtes HomeKit möglich:**
- Test für `DeviceRegistry.load_from_api()` mit Mock-Antworten aus `/devices` und `/layout`:
- Korrekte Join-Logik,
- Korrekte room/friendly_name-Zuordnung.
- Test für set-Payload-Erzeugung pro Accessory:
- z.B. LightAccessory: On=True → POST /devices/{id}/set wird mit korrektem Payload aufgerufen (über Mock ApiClient).
### Allgemein
- Nutze möglichst sinnvolle Typannotationen und Docstrings.
- Hinterlasse TODO-Kommentare an Stellen, wo die Mapping-Tabelle explizit Status=TODO/REVIEW hat.
- Ändere KEINE bestehenden API-Endpunkte; verlasse dich nur auf deren aktuelles Verhalten (GET /devices, GET /layout, /realtime, POST /devices/{id}/set).
## Installation & Setup
### Voraussetzungen
- Python 3.9+
- Raspberry Pi im gleichen LAN wie iPhone/iPad
- API-Server erreichbar (z.B. `http://api:8001`)
### Installation
```bash
cd apps/homekit
pip install -r requirements.txt
```
### Umgebungsvariablen
Erstelle eine `.env` Datei oder setze folgende Variablen:
```bash
export API_BASE="http://YOUR_API_IP:8001"
export HOMEKIT_API_TOKEN="your-token-if-needed" # optional
export HOMEKIT_PIN="031-45-154"
export HOMEKIT_NAME="Home Automation Bridge"
export HOMEKIT_PORT="51826"
export HOMEKIT_PERSIST_FILE="homekit.state"
```
## Start
```bash
python -m apps.homekit.main
```
**Erwartete Logs:**
```
Loading devices from API...
Loaded X devices from API
Bridge built with Y accessories
HomeKit Bridge started on port 51826
Starting realtime event loop...
```
## Pairing mit iPhone (Home-App)
1. **Voraussetzungen:**
- iPhone im gleichen WLAN wie Raspberry Pi
- Bridge läuft und zeigt "started on port 51826"
2. **Home-App öffnen:**
- Öffne die Home-App auf dem iPhone
- Tippe auf "+" → "Gerät hinzufügen"
- Wähle "Weitere Optionen..." oder "Code fehlt oder kann nicht gescannt werden"
3. **Bridge auswählen:**
- Die Bridge sollte in der Nähe-Liste erscheinen (z.B. "Home Automation Bridge")
- Tippe auf die Bridge
4. **PIN eingeben:**
- Gib den PIN ein: `031-45-154` (oder dein `HOMEKIT_PIN`)
- Format: `XXX-XX-XXX`
5. **Konfiguration abschließen:**
- Geräte werden geladen
- Räume werden automatisch aus `layout.yaml` übernommen
- Geräte können nun über Home-App gesteuert werden
## Funktionstests
### Test 1: Licht einschalten
**Aktion:** Lampe in Home-App antippen (On)
**Erwartung:**
- API-Log zeigt: `POST /devices/{id}/set` mit `{"type":"light","payload":{"power":"on"}}`
- Physische Lampe oder Simulator schaltet ein
### Test 2: Helligkeit ändern (dimmbare Lampe)
**Aktion:** Helligkeits-Slider bewegen (z.B. 75%)
**Erwartung:**
- `POST /devices/{id}/set` mit `brightness` ca. 75
- Lampe dimmt entsprechend
### Test 3: Farbe ändern (Farblampe)
**Aktion:** Farbe in Home-App wählen
**Erwartung:**
- `POST /devices/{id}/set` mit `hue`/`sat` Werten
- Lampe wechselt Farbe
### Test 4: Thermostat Zieltemperatur
**Aktion:** Zieltemperatur auf 22°C setzen
**Erwartung:**
- `POST /devices/{id}/set` mit `target=22`
- `CurrentTemperature` wird über `/realtime` aktualisiert
### Test 5: Kontaktsensor (read-only)
**Aktion:** Fenster physisch öffnen/schließen
**Erwartung:**
- `/realtime` sendet Event
- Home-App zeigt "Offen" oder "Geschlossen"
### Test 6: Temperatur-/Feuchtigkeitssensor
**Aktion:** Werte ändern sich (z.B. Heizung an)
**Erwartung:**
- `/realtime` Events aktualisieren Werte
- Home-App zeigt aktuelle Temperatur/Luftfeuchtigkeit
## Troubleshooting
### Bridge erscheint nicht in Home-App
- **Netzwerk prüfen:** iPhone und RPi im gleichen Subnet?
- **Firewall prüfen:** Port 51826 muss erreichbar sein
- **Logs prüfen:** Fehler beim Start?
- **mDNS/Bonjour:** Funktioniert Bonjour im Netzwerk?
### Geräte reagieren nicht
- **API-Logs prüfen:** Kommen POST-Requests an?
- **Realtime-Verbindung:** Läuft `/realtime` Event-Loop? (Log-Meldungen)
- **API-Endpoints testen:** Manuell mit `curl` testen
### Pairing schlägt fehl
- **State-Datei löschen:** `rm homekit.state` und Bridge neu starten
- **PIN-Format prüfen:** Muss `XXX-XX-XXX` Format haben
- **Alte Pairings löschen:** In Home-App unter "Home-Einstellungen" → "HomeKit-Geräte zurücksetzen"
### Realtime-Updates funktionieren nicht
- **SSE-Verbindung prüfen:** Logs zeigen "Starting realtime event loop..."?
- **API-Endpoint testen:** `curl -N http://api:8001/realtime`
- **Firewall/Proxy:** Blockiert etwas SSE-Streams?
## Docker Deployment
### Dockerfile
```dockerfile
FROM python:3.11-slim
WORKDIR /app
COPY requirements.txt .
RUN pip install --no-cache-dir -r requirements.txt
COPY . .
CMD ["python", "-m", "apps.homekit.main"]
```
### docker-compose.yml
```yaml
services:
homekit:
build: ./apps/homekit
environment:
- API_BASE=http://api:8001
- HOMEKIT_PIN=031-45-154
- HOMEKIT_NAME=Home Automation Bridge
ports:
- "51826:51826"
volumes:
- ./data/homekit:/data
network_mode: "host" # Wichtig für mDNS/Bonjour Discovery
restart: unless-stopped
```
**Wichtig:** `network_mode: "host"` ist erforderlich für mDNS/Bonjour Discovery, damit die Bridge im lokalen Netzwerk gefunden werden kann.
## Architektur
```
┌─────────────┐
│ iPhone/ │
│ Home-App │
└──────┬──────┘
│ HomeKit (HAP)
│ Port 51826
┌──────▼──────────────────┐
│ HomeKit Bridge │
│ (HAP-Python) │
│ - Device Registry │
│ - Accessory Mapping │
│ - SSE Event Loop │
└──────┬──────────────────┘
│ HTTP REST API
│ (GET /devices, POST /set, SSE /realtime)
┌──────▼──────────────────┐
│ API Server │
│ (FastAPI) │
└──────┬──────────────────┘
│ MQTT
┌──────▼──────────────────┐
│ Abstraction Layer │
│ (Zigbee2MQTT, MAX!) │
└─────────────────────────┘
```
## Weitere Dokumentation
- **API-Mapping:** Siehe `homekit_mapping.md` für Device-Type → HomeKit-Service Mapping
- **API-Dokumentation:** Siehe API-Server README für Endpoint-Dokumentation
- **HAP-Python Docs:** https://github.com/ikalchev/HAP-python
## Entwicklung
### Tests ausführen
```bash
pytest apps/homekit/tests/
```
### Logs
Die Bridge gibt detaillierte Logs aus:
- `INFO`: Normale Betriebsmeldungen (Start, Device-Anzahl, etc.)
- `DEBUG`: Detaillierte State-Updates und API-Calls
- `ERROR`: Fehler bei API-Kommunikation oder Accessory-Updates
Log-Level über Environment-Variable steuern:
```bash
export LOG_LEVEL=DEBUG
```
## Lizenz
Siehe Hauptprojekt-Lizenz.

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"""
HomeKit Accessories Package
This package contains HomeKit accessory implementations for different device types.
"""

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"""
Contact Sensor Accessory Implementation for HomeKit
Implements contact sensor (window/door sensors):
- ContactSensorState (read-only): 0=Detected, 1=Not Detected
"""
from pyhap.accessory import Accessory
from pyhap.const import CATEGORY_SENSOR
class ContactAccessory(Accessory):
"""Contact sensor for doors and windows."""
category = CATEGORY_SENSOR
def __init__(self, driver, device, api_client, display_name=None, *args, **kwargs):
"""
Initialize the contact sensor accessory.
Args:
driver: HAP driver instance
device: Device object from DeviceRegistry
api_client: ApiClient for sending commands
display_name: Optional display name (defaults to device.friendly_name)
"""
name = display_name or device.friendly_name or device.name
super().__init__(driver, name, *args, **kwargs)
self.device = device
self.api_client = api_client
# Add ContactSensor service
self.contact_service = self.add_preload_service('ContactSensor')
# Get ContactSensorState characteristic
self.contact_state_char = self.contact_service.get_characteristic('ContactSensorState')
# Initialize with "not detected" (closed)
self.contact_state_char.set_value(1)
def update_state(self, state_payload):
"""Update state from API event."""
if "contact" in state_payload:
# API sends: "open" or "closed"
# HomeKit: 0=Contact Detected (closed), 1=Contact Not Detected (open)
is_open = state_payload["contact"] == "open"
homekit_state = 1 if is_open else 0
self.contact_state_char.set_value(homekit_state)

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"""
Light Accessory Implementations for HomeKit
Implements different light types:
- OnOffLightAccessory: Simple on/off light
- DimmableLightAccessory: Light with brightness control
- ColorLightAccessory: RGB light with full color control
"""
from pyhap.accessory import Accessory
from pyhap.const import CATEGORY_LIGHTBULB
class OnOffLightAccessory(Accessory):
"""Simple On/Off Light without dimming or color."""
category = CATEGORY_LIGHTBULB
def __init__(self, driver, device, api_client, display_name=None, *args, **kwargs):
"""
Initialize the light accessory.
Args:
driver: HAP driver instance
device: Device object from DeviceRegistry
api_client: ApiClient for sending commands
display_name: Optional display name (defaults to device.friendly_name)
"""
name = display_name or device.friendly_name or device.name
super().__init__(driver, name, *args, **kwargs)
self.device = device
self.api_client = api_client
# Add Lightbulb service with On characteristic
self.lightbulb_service = self.add_preload_service('Lightbulb')
# Get the On characteristic and set callback
self.on_char = self.lightbulb_service.get_characteristic('On')
self.on_char.setter_callback = self.set_on
def set_on(self, value):
"""Called when HomeKit wants to turn light on/off."""
power_state = "on" if value else "off"
payload = {
"type": "light",
"payload": {"power": power_state}
}
self.api_client.post_device_set(self.device.device_id, payload["type"], payload["payload"])
def update_state(self, state_payload):
"""Update state from API event."""
if "power" in state_payload:
is_on = state_payload["power"] == "on"
self.on_char.set_value(is_on)
class DimmableLightAccessory(OnOffLightAccessory):
"""Dimmable Light with brightness control."""
def __init__(self, driver, device, api_client, display_name=None, *args, **kwargs):
# Don't call super().__init__() yet - we need to set up service first
name = display_name or device.friendly_name or device.name
Accessory.__init__(self, driver, name, *args, **kwargs)
self.device = device
self.api_client = api_client
self.category = CATEGORY_LIGHTBULB
# Create Lightbulb service with all characteristics at once
from pyhap.loader import Loader
loader = Loader()
# Create the service
lightbulb_service = loader.get_service('Lightbulb')
# Add On characteristic
on_char = lightbulb_service.get_characteristic('On')
on_char.setter_callback = self.set_on
self.on_char = on_char
# Add Brightness characteristic
brightness_char = loader.get_char('Brightness')
brightness_char.set_value(0)
brightness_char.setter_callback = self.set_brightness
lightbulb_service.add_characteristic(brightness_char)
self.brightness_char = brightness_char
# Now add the complete service to the accessory
self.add_service(lightbulb_service)
self.lightbulb_service = lightbulb_service
def set_brightness(self, value):
"""Called when HomeKit wants to change brightness."""
payload = {
"type": "light",
"payload": {"brightness": int(value)}
}
self.api_client.post_device_set(self.device.device_id, payload["type"], payload["payload"])
def update_state(self, state_payload):
"""Update state from API event."""
super().update_state(state_payload)
if "brightness" in state_payload:
self.brightness_char.set_value(state_payload["brightness"])
class ColorLightAccessory(DimmableLightAccessory):
"""RGB Light with full color control."""
def __init__(self, driver, device, api_client, display_name=None, *args, **kwargs):
# Don't call super().__init__() - build everything from scratch
name = display_name or device.friendly_name or device.name
Accessory.__init__(self, driver, name, *args, **kwargs)
self.device = device
self.api_client = api_client
self.category = CATEGORY_LIGHTBULB
# Create Lightbulb service with all characteristics at once
from pyhap.loader import Loader
loader = Loader()
# Create the service
lightbulb_service = loader.get_service('Lightbulb')
# Add On characteristic
on_char = lightbulb_service.get_characteristic('On')
on_char.setter_callback = self.set_on
self.on_char = on_char
# Add Brightness characteristic
brightness_char = loader.get_char('Brightness')
brightness_char.set_value(0)
brightness_char.setter_callback = self.set_brightness
lightbulb_service.add_characteristic(brightness_char)
self.brightness_char = brightness_char
# Add Hue characteristic
hue_char = loader.get_char('Hue')
hue_char.set_value(0)
hue_char.setter_callback = self.set_hue
lightbulb_service.add_characteristic(hue_char)
self.hue_char = hue_char
# Add Saturation characteristic
saturation_char = loader.get_char('Saturation')
saturation_char.set_value(0)
saturation_char.setter_callback = self.set_saturation
lightbulb_service.add_characteristic(saturation_char)
self.saturation_char = saturation_char
# Now add the complete service to the accessory
self.add_service(lightbulb_service)
self.lightbulb_service = lightbulb_service
def set_hue(self, value):
"""Called when HomeKit wants to change hue."""
payload = {
"type": "light",
"payload": {"hue": int(value)}
}
self.api_client.post_device_set(self.device.device_id, payload["type"], payload["payload"])
def set_saturation(self, value):
"""Called when HomeKit wants to change saturation."""
payload = {
"type": "light",
"payload": {"sat": int(value)}
}
self.api_client.post_device_set(self.device.device_id, payload["type"], payload["payload"])
def update_state(self, state_payload):
"""Update state from API event."""
super().update_state(state_payload)
if "hue" in state_payload:
self.hue_char.set_value(state_payload["hue"])
if "sat" in state_payload:
self.saturation_char.set_value(state_payload["sat"])

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"""
Outlet/Relay Accessory Implementation for HomeKit
Implements simple relay/outlet (on/off switch):
- On (read/write)
- OutletInUse (always true)
"""
from pyhap.accessory import Accessory
from pyhap.const import CATEGORY_OUTLET
class OutletAccessory(Accessory):
"""Relay/Outlet for simple on/off control."""
category = CATEGORY_OUTLET
def __init__(self, driver, device, api_client, display_name=None, *args, **kwargs):
"""
Initialize the outlet accessory.
Args:
driver: HAP driver instance
device: Device object from DeviceRegistry
api_client: ApiClient for sending commands
display_name: Optional display name (defaults to device.friendly_name)
"""
name = display_name or device.friendly_name or device.name
super().__init__(driver, name, *args, **kwargs)
self.device = device
self.api_client = api_client
# Add Outlet service
self.outlet_service = self.add_preload_service('Outlet')
# Get On characteristic and set callback
self.on_char = self.outlet_service.get_characteristic('On')
self.on_char.setter_callback = self.set_on
# OutletInUse is always true (relay is always functional)
self.in_use_char = self.outlet_service.get_characteristic('OutletInUse')
self.in_use_char.set_value(True)
def set_on(self, value):
"""Called when HomeKit wants to turn outlet on/off."""
power_state = "on" if value else "off"
payload = {
"type": "relay",
"payload": {"power": power_state}
}
self.api_client.post_device_set(self.device.device_id, payload["type"], payload["payload"])
def update_state(self, state_payload):
"""Update state from API event."""
if "power" in state_payload:
is_on = state_payload["power"] == "on"
self.on_char.set_value(is_on)

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"""
Temperature & Humidity Sensor Accessory Implementation for HomeKit
Implements combined temperature and humidity sensor:
- CurrentTemperature (read-only)
- CurrentRelativeHumidity (read-only)
"""
from pyhap.accessory import Accessory
from pyhap.const import CATEGORY_SENSOR
class TempHumidityAccessory(Accessory):
"""Combined temperature and humidity sensor."""
category = CATEGORY_SENSOR
def __init__(self, driver, device, api_client, display_name=None, *args, **kwargs):
"""
Initialize the temp/humidity sensor accessory.
Args:
driver: HAP driver instance
device: Device object from DeviceRegistry
api_client: ApiClient for sending commands
display_name: Optional display name (defaults to device.friendly_name)
"""
name = display_name or device.friendly_name or device.name
super().__init__(driver, name, *args, **kwargs)
self.device = device
self.api_client = api_client
# Add TemperatureSensor service
self.temp_service = self.add_preload_service('TemperatureSensor')
self.current_temp_char = self.temp_service.get_characteristic('CurrentTemperature')
# Add HumiditySensor service
self.humidity_service = self.add_preload_service('HumiditySensor')
self.current_humidity_char = self.humidity_service.get_characteristic('CurrentRelativeHumidity')
def update_state(self, state_payload):
"""Update state from API event."""
if "temperature" in state_payload:
self.current_temp_char.set_value(float(state_payload["temperature"]))
if "humidity" in state_payload:
self.current_humidity_char.set_value(float(state_payload["humidity"]))

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"""
Thermostat Accessory Implementation for HomeKit
Implements thermostat control according to homekit_mapping.md:
- CurrentTemperature (read-only)
- TargetTemperature (read/write)
- CurrentHeatingCoolingState (fixed: 1 = heating)
- TargetHeatingCoolingState (fixed: 3 = auto)
"""
from pyhap.accessory import Accessory
from pyhap.const import CATEGORY_THERMOSTAT
class ThermostatAccessory(Accessory):
"""Thermostat with temperature control."""
category = CATEGORY_THERMOSTAT
def __init__(self, driver, device, api_client, display_name=None, *args, **kwargs):
"""
Initialize the thermostat accessory.
Args:
driver: HAP driver instance
device: Device object from DeviceRegistry
api_client: ApiClient for sending commands
display_name: Optional display name (defaults to device.friendly_name)
"""
name = display_name or device.friendly_name or device.name
super().__init__(driver, name, *args, **kwargs)
self.device = device
self.api_client = api_client
# Add Thermostat service
self.thermostat_service = self.add_preload_service('Thermostat')
# Get characteristics
self.current_temp_char = self.thermostat_service.get_characteristic('CurrentTemperature')
self.target_temp_char = self.thermostat_service.get_characteristic('TargetTemperature')
self.current_heating_cooling_char = self.thermostat_service.get_characteristic('CurrentHeatingCoolingState')
self.target_heating_cooling_char = self.thermostat_service.get_characteristic('TargetHeatingCoolingState')
# Set callback for target temperature
self.target_temp_char.setter_callback = self.set_target_temperature
# Set fixed heating/cooling states (mode is always "auto")
# CurrentHeatingCoolingState: 0=Off, 1=Heat, 2=Cool
self.current_heating_cooling_char.set_value(1) # Always heating
# TargetHeatingCoolingState: 0=Off, 1=Heat, 2=Cool, 3=Auto
self.target_heating_cooling_char.set_value(3) # Always auto
# Set temperature range (5-30°C as per UI)
self.target_temp_char.properties['minValue'] = 5
self.target_temp_char.properties['maxValue'] = 30
self.target_temp_char.properties['minStep'] = 0.5
def set_target_temperature(self, value):
"""Called when HomeKit wants to change target temperature."""
payload = {
"type": "thermostat",
"payload": {"target": float(value)}
}
self.api_client.post_device_set(self.device.device_id, payload["type"], payload["payload"])
def update_state(self, state_payload):
"""Update state from API event."""
if "current" in state_payload:
self.current_temp_char.set_value(float(state_payload["current"]))
if "target" in state_payload:
self.target_temp_char.set_value(float(state_payload["target"]))

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"""
API Client for HomeKit Bridge
Handles all HTTP communication with the REST API backend.
"""
import logging
from typing import Dict, List, Iterator, Optional
import httpx
import json
import time
logger = logging.getLogger(__name__)
class ApiClient:
"""HTTP client for communicating with the home automation API."""
def __init__(self, base_url: str, token: Optional[str] = None, timeout: int = 5):
"""
Initialize API client.
Args:
base_url: Base URL of the API (e.g., "http://192.168.1.100:8001")
token: Optional API token for authentication
timeout: Request timeout in seconds
"""
self.base_url = base_url.rstrip('/')
self.timeout = timeout
self.headers = {}
if token:
self.headers['Authorization'] = f'Bearer {token}'
def get_devices(self) -> List[Dict]:
"""
Get list of all devices.
Returns:
List of device dictionaries
"""
try:
response = httpx.get(
f'{self.base_url}/devices',
headers=self.headers,
timeout=self.timeout
)
response.raise_for_status()
return response.json()
except Exception as e:
logger.error(f"Failed to get devices: {e}")
raise
def get_layout(self) -> Dict:
"""
Get layout information (rooms and device assignments).
Returns:
Layout dictionary with room structure
"""
try:
response = httpx.get(
f'{self.base_url}/layout',
headers=self.headers,
timeout=self.timeout
)
response.raise_for_status()
return response.json()
except Exception as e:
logger.error(f"Failed to get layout: {e}")
raise
def get_device_state(self, device_id: str) -> Dict:
"""
Get current state of a specific device.
Args:
device_id: Device identifier
Returns:
Device state dictionary
"""
try:
response = httpx.get(
f'{self.base_url}/devices/{device_id}/state',
headers=self.headers,
timeout=self.timeout
)
response.raise_for_status()
return response.json()
except Exception as e:
logger.error(f"Failed to get state for {device_id}: {e}")
raise
def post_device_set(self, device_id: str, device_type: str, payload: Dict) -> None:
"""
Send command to a device.
Args:
device_id: Device identifier
device_type: Device type (e.g., "light", "thermostat")
payload: Command payload (e.g., {"power": "on", "brightness": 75})
"""
try:
data = {
"type": device_type,
"payload": payload
}
response = httpx.post(
f'{self.base_url}/devices/{device_id}/set',
headers=self.headers,
json=data,
timeout=self.timeout
)
response.raise_for_status()
logger.debug(f"Set {device_id}: {payload}")
except Exception as e:
logger.error(f"Failed to set {device_id}: {e}")
raise
def stream_realtime(self, reconnect_delay: int = 5) -> Iterator[Dict]:
"""
Stream real-time events from the API using Server-Sent Events (SSE).
Automatically reconnects on connection loss.
Args:
reconnect_delay: Seconds to wait before reconnecting
Yields:
Event dictionaries: {"type": "state", "device_id": "...", "payload": {...}, "ts": ...}
"""
while True:
try:
logger.info("Connecting to realtime event stream...")
with httpx.stream(
'GET',
f'{self.base_url}/realtime',
headers=self.headers,
timeout=None # No timeout for streaming
) as response:
response.raise_for_status()
logger.info("Connected to realtime event stream")
for line in response.iter_lines():
if line.startswith('data: '):
data_str = line[6:] # Remove 'data: ' prefix
try:
event = json.loads(data_str)
yield event
except json.JSONDecodeError as e:
logger.warning(f"Failed to parse SSE event: {e}")
except httpx.HTTPError as e:
logger.error(f"Realtime stream error: {e}")
logger.info(f"Reconnecting in {reconnect_delay} seconds...")
time.sleep(reconnect_delay)
except Exception as e:
logger.error(f"Unexpected error in realtime stream: {e}")
logger.info(f"Reconnecting in {reconnect_delay} seconds...")
time.sleep(reconnect_delay)

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"""
Device Registry for HomeKit Bridge
Loads devices from API and joins with layout information.
"""
import logging
from typing import Dict, List, Optional
from dataclasses import dataclass
logger = logging.getLogger(__name__)
@dataclass
class Device:
"""Represents a device with combined info from /devices and /layout."""
device_id: str
type: str # "light", "thermostat", "relay", "contact", "temp_humidity", "cover"
name: str # Short name from /devices
friendly_name: str # Display title from /layout (fallback to name)
room: Optional[str] # Room name from layout
features: Dict[str, bool] # Feature flags (e.g., {"power": true, "brightness": true})
read_only: bool # True for sensors that don't accept commands
class DeviceRegistry:
"""Registry of all devices loaded from the API."""
def __init__(self, devices: List[Device]):
"""
Initialize registry with devices.
Args:
devices: List of Device objects
"""
self._devices = devices
self._by_id = {d.device_id: d for d in devices}
@classmethod
def load_from_api(cls, api_client) -> 'DeviceRegistry':
"""
Load devices from API and join with layout information.
Args:
api_client: ApiClient instance
Returns:
DeviceRegistry with all devices
"""
# Get devices and layout
devices_data = api_client.get_devices()
layout_data = api_client.get_layout()
# Build lookup: device_id -> (room_name, title)
layout_map = {}
if isinstance(layout_data, dict) and 'rooms' in layout_data:
rooms_list = layout_data['rooms']
if isinstance(rooms_list, list):
for room in rooms_list:
if isinstance(room, dict):
room_name = room.get('name', 'Unknown')
devices_in_room = room.get('devices', [])
for device_info in devices_in_room:
if isinstance(device_info, dict):
device_id = device_info.get('device_id')
title = device_info.get('title', '')
if device_id:
layout_map[device_id] = (room_name, title)
# Create Device objects
devices = []
for dev_data in devices_data:
device_id = dev_data.get('device_id')
if not device_id:
logger.warning(f"Device without device_id: {dev_data}")
continue
# Get layout info
room_name, title = layout_map.get(device_id, (None, ''))
# Determine if read-only (sensors don't accept set commands)
device_type = dev_data.get('type', '')
read_only = device_type in ['contact', 'temp_humidity', 'motion', 'smoke']
device = Device(
device_id=device_id,
type=device_type,
name=dev_data.get('name', device_id),
friendly_name=title or dev_data.get('name', device_id),
room=room_name,
features=dev_data.get('features', {}),
read_only=read_only
)
devices.append(device)
logger.info(f"Loaded {len(devices)} devices from API")
return cls(devices)
def get_all(self) -> List[Device]:
"""Get all devices."""
return self._devices.copy()
def get_by_id(self, device_id: str) -> Optional[Device]:
"""
Get device by ID.
Args:
device_id: Device identifier
Returns:
Device or None if not found
"""
return self._by_id.get(device_id)
def get_by_type(self, device_type: str) -> List[Device]:
"""
Get all devices of a specific type.
Args:
device_type: Device type (e.g., "light", "thermostat")
Returns:
List of matching devices
"""
return [d for d in self._devices if d.type == device_type]
def get_by_room(self, room: str) -> List[Device]:
"""
Get all devices in a specific room.
Args:
room: Room name
Returns:
List of devices in the room
"""
return [d for d in self._devices if d.room == room]

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<!--
Copilot-Aufgabe: HomeKit-Accessory-Mapping-Tabelle aus bestehender Implementierung ableiten
Ziel:
Erstelle eine Mapping-Tabelle, die beschreibt, wie unsere abstrakten Gerätetypen
(type/Features aus devices.yaml, apps/abstraction und apps/api) auf HomeKit-Accessories
und Characteristics (HAP-Python) abgebildet werden sollen.
Die Tabelle soll:
- sich an der bestehenden Implementierung und Konfiguration orientieren:
- devices.yaml (Typen, Features)
- apps/abstraction (Capabilities, Payload-Strukturen, Topics)
- apps/api (DTOs, /devices-Response, /devices/{id}/set, /realtime-Events)
- für jeden bekannten Gerätetyp (z.B. light, thermostat, outlet, contact, temp_humidity, cover, switch)
festhalten:
- Abstract Type (type)
- Relevante Features (Features-Flags, z.B. power, brightness, color_hsb, target, current, contact, humidity)
- HomeKit Service (z.B. LightBulb, Thermostat, Outlet, ContactSensor, TemperatureSensor, HumiditySensor, WindowCovering)
- HomeKit Characteristics (z.B. On, Brightness, Hue, Saturation, CurrentTemperature, TargetTemperature, ContactSensorState, CurrentPosition, TargetPosition)
- State-Mapping (abstraktes payload → HomeKit-Characteristics)
- Set-Mapping (HomeKit-Characteristics → HTTP POST /devices/{id}/set Payload)
- Status (OK / REVIEW / TODO)
Vorgehen für Copilot:
1. Analysiere die bestehenden Typen und Features:
- devices.yaml → "type" und "features" pro Gerät
- apps/abstraction → Capabilities, State-/Set-Modelle (z.B. light@1.2.0, thermostat, contact, temp_humidity)
- apps/api:
- Response-Modell von GET /devices (device_id, type, name, features)
- Struktur von GET /devices/{id}/state (payload-Felder je Typ)
- Struktur der Events in /realtime (payload-Felder je Typ)
- Body von POST /devices/{id}/set (type, payload)
2. Lege aufgrund dieser Analyse alle aktuell verwendeten abstrakten Typen an, z.B.:
- light (mit power, brightness, color_hsb)
- thermostat (mit current, target, mode)
- outlet
- contact
- temp_humidity
- ggf. cover, switch, etc., falls vorhanden
3. Erstelle eine Tabelle in Markdown mit folgenden Spalten:
| Abstract Type | Features (aus devices.yaml) | HomeKit Service | HomeKit Characteristics | State-Mapping (payload → HK) | Set-Mapping (HK → payload) | Status |
|---------------|-----------------------------|-----------------|-------------------------|------------------------------|----------------------------|--------|
Beispiele für Inhalte:
- Abstract Type: `light`
- Features: `power, brightness, color_hsb`
- HomeKit Service: `LightBulb`
- HomeKit Characteristics: `On, Brightness, Hue, Saturation`
- State-Mapping: `payload.power -> On; payload.brightness -> Brightness; payload.hue -> Hue; payload.sat -> Saturation`
- Set-Mapping: `On -> {"type":"light","payload":{"power":"on"/"off"}} ...`
- Status: `OK` wenn Mapping klar, `REVIEW` wenn du unsicher bist, `TODO` wenn Informationen fehlen
4. Nutze vorhandene Informationen aus dem Code:
- Wenn ein Gerätetyp in apps/abstraction bereits ein klares State-/Set-Modell hat, übernimm das in State-/Set-Mapping.
- Wenn bestimmte Features noch nicht im Code genutzt werden, markiere die entsprechenden Mapping-Zeilen mit Status=TODO.
- Falls unklar ist, welcher HomeKit-Service für einen Typ am besten passt, mache einen Vorschlag und setze Status=REVIEW.
5. Markiere explizit, wo man später noch eingreifen muss:
- In der Spalte "Status" mit `REVIEW` oder `TODO`.
- Optional zusätzliche kurze Kommentare unter der Tabelle wie:
- `<!-- TODO: RGBW-Unterstützung prüfen -->`
- `<!-- REVIEW: Soll temp_humidity als zwei Accessories oder kombiniert abgebildet werden? -->`
Akzeptanz-Kriterien:
- Es existiert am Ende dieses Dokuments eine Markdown-Tabelle mit mindestens allen abstrakten Gerätetypen, die aktuell in devices.yaml / apps/abstraction / apps/api verwendet werden.
- Für jeden Typ sind HomeKit Service und Characteristics ausgefüllt oder mit Status=REVIEW/TODO markiert.
- State-/Set-Mapping ist für alle bereits gut verstandenen Typen (z.B. einfache Lichter, Thermostate, Kontakte, Temp/Humidity-Sensoren) konkret beschrieben.
- Stellen, an denen die aktuelle Implementierung keine klaren Informationen liefert, sind sichtbar mit Status=REVIEW oder TODO gekennzeichnet.
- Copilot ändert an keiner anderen Stelle des Codes etwas, sondern erzeugt nur diese Tabelle/Dokumentation.
-->
# HomeKit-Accessory-Mapping-Tabelle
Dieses Dokument beschreibt das Mapping zwischen unseren abstrakten Gerätetypen (aus `devices.yaml`, `apps/abstraction` und `apps/api`) und HomeKit-Accessories/Characteristics (HAP-Python).
## Mapping-Tabelle
| Abstract Type | Features (aus devices.yaml) | HomeKit Service | HomeKit Characteristics | State-Mapping (payload → HK) | Set-Mapping (HK → payload) | Status |
|---------------|-----------------------------|-----------------|-------------------------|------------------------------|----------------------------|--------|
| `light` | `power, brightness, color_hsb` | `LightBulb` | `On, Brightness, Hue, Saturation` | `payload.power -> On (true/false)`<br>`payload.brightness -> Brightness (0-100)`<br>`payload.hue -> Hue (0-360)`<br>`payload.sat -> Saturation (0-100)` | `On -> {"type":"light","payload":{"power":"on"/"off"}}`<br>`Brightness -> {"type":"light","payload":{"brightness":0-100}}`<br>`Hue/Saturation -> {"type":"light","payload":{"hue":0-360,"sat":0-100}}` | OK |
| `light` | `power, brightness` | `LightBulb` | `On, Brightness` | `payload.power -> On (true/false)`<br>`payload.brightness -> Brightness (0-100)` | `On -> {"type":"light","payload":{"power":"on"/"off"}}`<br>`Brightness -> {"type":"light","payload":{"brightness":0-100}}` | OK |
| `light` | `power` | `LightBulb` | `On` | `payload.power -> On (true/false)` | `On -> {"type":"light","payload":{"power":"on"/"off"}}` | OK |
| `thermostat` | `current, target` | `Thermostat` | `CurrentTemperature, TargetTemperature, CurrentHeatingCoolingState, TargetHeatingCoolingState` | `payload.current -> CurrentTemperature (°C)`<br>`payload.target -> TargetTemperature (°C)`<br>`CurrentHeatingCoolingState -> 1 (heat, fest)`<br>`TargetHeatingCoolingState -> 3 (auto, fest)` | `TargetTemperature -> {"type":"thermostat","payload":{"target":temp}}`<br>**Hinweis:** Mode ist immer "auto", keine Mode-Änderung über HomeKit | OK |
| `relay` | `power` | `Outlet` | `On, OutletInUse` | `payload.power -> On (true/false)`<br>`payload.power -> OutletInUse (true/false)` | `On -> {"type":"relay","payload":{"power":"on"/"off"}}` | OK |
| `contact` | `contact` | `ContactSensor` | `ContactSensorState` | `payload.contact -> ContactSensorState (0=detected, 1=not detected)` | N/A (read-only sensor) | OK |
| `temp_humidity` | `temperature, humidity` | `TemperatureSensor` + `HumiditySensor` | `CurrentTemperature, CurrentRelativeHumidity` | `payload.temperature -> CurrentTemperature (°C)`<br>`payload.humidity -> CurrentRelativeHumidity (%)` | N/A (read-only sensors) | REVIEW |
| `cover` | `position, tilt` | `WindowCovering` | `CurrentPosition, TargetPosition, CurrentHorizontalTiltAngle, TargetHorizontalTiltAngle` | `payload.position -> CurrentPosition (0-100)`<br>`payload.tilt -> CurrentHorizontalTiltAngle (-90 to 90)` | `TargetPosition -> {"type":"cover","payload":{"position":0-100}}`<br>`TargetHorizontalTiltAngle -> {"type":"cover","payload":{"tilt":-90 to 90}}` | TODO |
| `switch` | `power` | `Switch` | `On` | `payload.power -> On (true/false)` | `On -> {"type":"switch","payload":{"power":"on"/"off"}}` | OK |
## Offene Punkte und Kommentare
<!-- OK: thermostat - Verwendet nur Mode "auto" (TargetHeatingCoolingState=3, CurrentHeatingCoolingState=1). Keine Mode-Änderung über HomeKit möglich. -->
<!-- REVIEW: temp_humidity - Soll als ein kombiniertes Accessory oder zwei separate Accessories (TemperatureSensor + HumiditySensor) abgebildet werden? HAP-Python erlaubt beides -->
<!-- TODO: cover - Position/Tilt-Mapping validieren. Sind die Wertebereiche korrekt? Gibt es zusätzliche Features wie PositionState (opening/closing/stopped)? -->
<!-- TODO: RGBW-Unterstützung - Prüfen, ob separate ColorTemperature-Characteristic für Warmweiß/Kaltweiß benötigt wird -->
<!-- TODO: Prüfen, ob weitere Gerätetypen in devices.yaml existieren (z.B. motion, door, lock, fan, etc.) und diese ergänzen -->
## Hinweise zur Implementierung
- **State-Updates**: Alle State-Änderungen von MQTT/API werden auf entsprechende HomeKit-Characteristics gemappt und via `set_value()` aktualisiert
- **Set-Befehle**: HomeKit-Charakteristik-Änderungen werden in HTTP POST-Requests an `/devices/{id}/set` umgewandelt
- **Read-only Sensors**: Sensoren (contact, temp_humidity) unterstützen nur State-Updates, keine Set-Befehle
- **Bidirektionales Mapping**: Änderungen müssen in beide Richtungen synchronisiert werden (HomeKit ↔ Abstraction Layer)

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"""
HomeKit Bridge Main Module
Implementiert eine HAP-Python Bridge, die Geräte über die REST-API lädt
und über HomeKit verfügbar macht.
Für detaillierte Implementierungsanweisungen, Tests und Deployment-Informationen
siehe README.md in diesem Verzeichnis.
"""
import os
import logging
import signal
import sys
import threading
from typing import Optional
from pyhap.accessory_driver import AccessoryDriver
from pyhap.accessory import Bridge
from .accessories.light import (
OnOffLightAccessory,
DimmableLightAccessory,
ColorLightAccessory,
)
from .accessories.thermostat import ThermostatAccessory
from .accessories.contact import ContactAccessory
from .accessories.sensor import TempHumidityAccessory
from .accessories.outlet import OutletAccessory
from .api_client import ApiClient
from .device_registry import DeviceRegistry
# Configure logging
logging.basicConfig(
level=logging.INFO,
format='%(asctime)s - %(name)s - %(levelname)s - %(message)s'
)
logger = logging.getLogger(__name__)
# Environment configuration
HOMEKIT_NAME = os.getenv("HOMEKIT_NAME", "Home Automation Bridge")
HOMEKIT_PIN = os.getenv("HOMEKIT_PIN", "031-45-154")
HOMEKIT_PORT = int(os.getenv("HOMEKIT_PORT", "51826"))
API_BASE = os.getenv("API_BASE", "http://api:8001")
HOMEKIT_API_TOKEN = os.getenv("HOMEKIT_API_TOKEN")
PERSIST_FILE = os.getenv("HOMEKIT_PERSIST_FILE", "homekit.state")
def build_bridge(driver: AccessoryDriver, api_client: ApiClient) -> Bridge:
"""
Build the HomeKit Bridge with all device accessories.
Args:
driver: HAP-Python AccessoryDriver
api_client: API client for communication with backend
Returns:
Bridge accessory with all device accessories attached
"""
logger.info("Loading devices from API...")
registry = DeviceRegistry.load_from_api(api_client)
devices = registry.get_all()
logger.info(f"Loaded {len(devices)} devices from API")
# Create bridge
bridge = Bridge(driver, HOMEKIT_NAME)
accessory_map = {} # device_id -> Accessory instance
for device in devices:
try:
accessory = create_accessory_for_device(device, api_client, driver)
if accessory:
# Set room information in the accessory (HomeKit will use this for suggestions)
if device.room:
# Store room info for potential future use
accessory._room_name = device.room
bridge.add_accessory(accessory)
accessory_map[device.device_id] = accessory
logger.info(f"Added accessory: {device.friendly_name} ({device.type}) in room: {device.room or 'Unknown'}")
else:
logger.warning(f"No accessory mapping for device: {device.name} ({device.type})")
except Exception as e:
logger.error(f"Failed to create accessory for {device.name}: {e}", exc_info=True)
# Store accessory_map on bridge for realtime updates
bridge._accessory_map = accessory_map
logger.info(f"Bridge built with {len(accessory_map)} accessories")
return bridge
def get_accessory_name(device) -> str:
"""
Build accessory name including room information.
Args:
device: Device object from DeviceRegistry
Returns:
Name string like "Device Name (Room)" or just "Device Name" if no room
"""
base_name = device.friendly_name or device.name
if device.room:
return f"{base_name} ({device.room})"
return base_name
def create_accessory_for_device(device, api_client: ApiClient, driver: AccessoryDriver):
"""
Create appropriate HomeKit accessory based on device type and features.
Maps device types to HomeKit accessories according to homekit_mapping.md.
"""
device_type = device.type
features = device.features
display_name = get_accessory_name(device)
# Light accessories
if device_type == "light":
if features.get("color_hsb"):
return ColorLightAccessory(driver, device, api_client, display_name=display_name)
elif features.get("brightness"):
return DimmableLightAccessory(driver, device, api_client, display_name=display_name)
else:
return OnOffLightAccessory(driver, device, api_client, display_name=display_name)
# Thermostat
elif device_type == "thermostat":
return ThermostatAccessory(driver, device, api_client, display_name=display_name)
# Contact sensor
elif device_type == "contact":
return ContactAccessory(driver, device, api_client, display_name=display_name)
# Temperature/Humidity sensor
elif device_type == "temp_humidity_sensor":
return TempHumidityAccessory(driver, device, api_client, display_name=display_name)
# Relay/Outlet
elif device_type == "relay":
return OutletAccessory(driver, device, api_client, display_name=display_name)
# Cover/Blinds (optional)
elif device_type == "cover":
# TODO: Implement CoverAccessory based on homekit_mapping.md
logger.warning(f"Cover accessory not yet implemented for {device.name}")
return None
# TODO: Add more device types as needed (lock, motion, etc.)
return None
def realtime_event_loop(api_client: ApiClient, bridge: Bridge, stop_event: threading.Event):
"""
Background thread that listens to realtime events and updates accessories.
Args:
api_client: API client
bridge: HomeKit bridge with accessories
stop_event: Threading event to signal shutdown
"""
logger.info("Starting realtime event loop...")
while not stop_event.is_set():
try:
for event in api_client.stream_realtime():
if stop_event.is_set():
break
# Handle state update events
if event.get("type") == "state":
device_id = event.get("device_id")
payload = event.get("payload", {})
# Find corresponding accessory
accessory = bridge._accessory_map.get(device_id)
if accessory and hasattr(accessory, 'update_state'):
try:
accessory.update_state(payload)
logger.debug(f"Updated state for {device_id}: {payload}")
except Exception as e:
logger.error(f"Error updating accessory {device_id}: {e}")
except Exception as e:
if not stop_event.is_set():
logger.error(f"Realtime stream error: {e}. Reconnecting in 5s...")
stop_event.wait(5) # Backoff before reconnect
logger.info("Realtime event loop stopped")
def main():
logger.info("=" * 60)
logger.info(f"Starting HomeKit Bridge: {HOMEKIT_NAME}")
logger.info(f"API Base: {API_BASE}")
logger.info(f"HomeKit Port: {HOMEKIT_PORT}")
logger.info(f"PIN: {HOMEKIT_PIN}")
logger.info("=" * 60)
# Create API client
api_client = ApiClient(
base_url=API_BASE,
token=HOMEKIT_API_TOKEN,
timeout=10
)
# Test API connectivity
try:
devices = api_client.get_devices()
logger.info(f"API connectivity OK - {len(devices)} devices available")
except Exception as e:
logger.error(f"Failed to connect to API at {API_BASE}: {e}")
logger.error("Please check API_BASE and network connectivity")
sys.exit(1)
# Create AccessoryDriver
driver = AccessoryDriver(
port=HOMEKIT_PORT,
persist_file=PERSIST_FILE
)
# Build bridge with all accessories
try:
bridge = build_bridge(driver, api_client)
except Exception as e:
logger.error(f"Failed to build bridge: {e}", exc_info=True)
sys.exit(1)
# Add bridge to driver
driver.add_accessory(accessory=bridge)
# Setup realtime event thread
stop_event = threading.Event()
realtime_thread = threading.Thread(
target=realtime_event_loop,
args=(api_client, bridge, stop_event),
daemon=True
)
# Signal handlers for graceful shutdown
def signal_handler(sig, frame):
logger.info("Received shutdown signal, stopping...")
stop_event.set()
driver.stop()
signal.signal(signal.SIGINT, signal_handler)
signal.signal(signal.SIGTERM, signal_handler)
# Start realtime thread
realtime_thread.start()
# Start the bridge
logger.info(f"HomeKit Bridge started on port {HOMEKIT_PORT}")
logger.info(f"Pair with PIN: {HOMEKIT_PIN}")
logger.info("Press Ctrl+C to stop")
try:
driver.start()
except KeyboardInterrupt:
logger.info("KeyboardInterrupt received")
finally:
logger.info("Stopping bridge...")
stop_event.set()
realtime_thread.join(timeout=5)
logger.info("Bridge stopped")
if __name__ == "__main__":
main()

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apps/homekit/requirements.txt Normal file
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# HomeKit Bridge Dependencies
# HAP-Python - HomeKit Accessory Protocol implementation
HAP-python>=4.9.0
# HTTP client for API communication (REST API only - no MQTT)
httpx>=0.24.0
# Utilities
python-dotenv>=1.0.0 # For .env file support
pydantic>=2.0.0 # For data validation (shared with main app)
# Logging and monitoring (optional)
# sentry-sdk>=1.0.0 # Optional: Error tracking

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apps/homekit/start_bridge.sh Executable file
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#!/bin/bash
# HomeKit Bridge Startup Script
# This script sets up the virtual environment, installs dependencies, and starts the bridge
set -e # Exit on error
# Determine script directory (apps/homekit)
SCRIPT_DIR="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
# Navigate to workspace root (two levels up from apps/homekit)
WORKSPACE_ROOT="$(cd "$SCRIPT_DIR/../.." && pwd)"
cd "$WORKSPACE_ROOT"
echo "🏠 HomeKit Bridge Startup"
echo "========================="
echo " Working dir: $WORKSPACE_ROOT"
echo ""
# Virtual environment path
VENV_DIR="$SCRIPT_DIR/venv"
# Check if virtual environment exists
if [ ! -d "$VENV_DIR" ]; then
echo "📦 Virtual environment not found. Creating..."
# Try to use Python 3.12 or 3.13 (3.14 has compatibility issues with HAP-Python)
if command -v python3.13 &> /dev/null; then
PYTHON_CMD=python3.13
elif command -v python3.12 &> /dev/null; then
PYTHON_CMD=python3.12
elif command -v python3.11 &> /dev/null; then
PYTHON_CMD=python3.11
else
PYTHON_CMD=python3
echo "⚠️ Warning: Using default python3. HAP-Python may not work with Python 3.14+"
fi
echo " Using: $PYTHON_CMD"
$PYTHON_CMD -m venv "$VENV_DIR"
echo "✅ Virtual environment created at $VENV_DIR"
fi
# Activate virtual environment
echo "🔧 Activating virtual environment..."
source "$VENV_DIR/bin/activate"
# Install/update dependencies
echo "📥 Installing dependencies from requirements.txt..."
pip install --upgrade pip -q
pip install -r "$SCRIPT_DIR/requirements.txt" -q
echo "✅ Dependencies installed"
# Set environment variables (with defaults)
export HOMEKIT_NAME="${HOMEKIT_NAME:-Home Automation Bridge}"
export HOMEKIT_PIN="${HOMEKIT_PIN:-031-45-154}"
export HOMEKIT_PORT="${HOMEKIT_PORT:-51826}"
export API_BASE="${API_BASE:-http://172.19.1.11:8001}"
export HOMEKIT_API_TOKEN="${HOMEKIT_API_TOKEN:-}"
export HOMEKIT_PERSIST_FILE="${HOMEKIT_PERSIST_FILE:-$SCRIPT_DIR/homekit.state}"
# Display configuration
echo ""
echo "⚙️ Configuration:"
echo " Bridge Name: $HOMEKIT_NAME"
echo " Bridge PIN: $HOMEKIT_PIN"
echo " Bridge Port: $HOMEKIT_PORT"
echo " API Base URL: $API_BASE"
echo " Persist File: $HOMEKIT_PERSIST_FILE"
echo ""
# Start the bridge
echo "🚀 Starting HomeKit Bridge..."
echo " (Press Ctrl+C to stop)"
echo ""
# Run the bridge from workspace root with correct module path
python -m apps.homekit.main

53
apps/rules/Dockerfile Normal file
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# Rules Engine Dockerfile
# Event-driven automation rules processor with MQTT and Redis
FROM python:3.14-alpine
# Prevent Python from writing .pyc files and enable unbuffered output
ENV PYTHONDONTWRITEBYTECODE=1 \
PYTHONUNBUFFERED=1 \
RULES_CONFIG=config/rules.yaml \
MQTT_BROKER=172.16.2.16 \
MQTT_PORT=1883 \
REDIS_HOST=localhost \
REDIS_PORT=6379 \
REDIS_DB=8 \
LOG_LEVEL=INFO
# Create non-root user
RUN addgroup -g 10001 -S app && \
adduser -u 10001 -S app -G app
# Set working directory
WORKDIR /app
# Install system dependencies
RUN apk add --no-cache \
gcc \
musl-dev \
linux-headers
# Install Python dependencies
COPY apps/rules/requirements.txt /app/requirements.txt
RUN pip install --no-cache-dir -r requirements.txt
# Copy application code
COPY apps/__init__.py /app/apps/
COPY apps/rules/ /app/apps/rules/
COPY packages/ /app/packages/
COPY config/ /app/config/
# Change ownership to non-root user
RUN chown -R app:app /app
# Switch to non-root user
USER app
# Expose no ports (MQTT/Redis client only)
# Health check (check if process is running)
HEALTHCHECK --interval=30s --timeout=10s --start-period=5s --retries=3 \
CMD pgrep -f "apps.rules.main" || exit 1
# Run the rules engine
CMD ["python", "-m", "apps.rules.main"]

15
apps/rules/impl/__init__.py Normal file
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"""
Rule Implementations Package
This package contains all rule implementation modules.
Naming Convention:
- Module name: snake_case matching the rule type name
Example: window_setback.py for type 'window_setback@1.0'
- Class name: PascalCase + 'Rule' suffix
Example: WindowSetbackRule
The rule engine uses load_rule() from rule_interface to dynamically
import modules from this package based on the 'type' field in rules.yaml.
"""

256
apps/rules/impl/window_setback.py Normal file
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"""
Example Rule Implementation: Window Setback
Demonstrates how to implement a Rule using the rule_interface.
This rule lowers thermostat temperature when a window is opened.
"""
from typing import Any
from pydantic import BaseModel, Field, ValidationError
from apps.rules.rule_interface import Rule, RuleDescriptor, RuleContext
class WindowSetbackObjects(BaseModel):
"""Object structure for window setback rule"""
contacts: list[str] = Field(..., min_length=1, description="Contact sensors to monitor")
thermostats: list[str] = Field(..., min_length=1, description="Thermostats to control")
class WindowSetbackRule(Rule):
"""
Window setback automation rule.
When a window/door contact opens, set thermostats to eco temperature.
When closed for a minimum duration, restore previous target temperature.
Configuration:
objects:
contacts: List of contact sensor device IDs to monitor (required, min 1)
thermostats: List of thermostat device IDs to control (required, min 1)
params:
eco_target: Temperature to set when window opens (default: 16.0)
open_min_secs: Minimum seconds window must be open before triggering (default: 20)
close_min_secs: Minimum seconds window must be closed before restoring (default: 20)
previous_target_ttl_secs: How long to remember previous temperature (default: 86400)
State storage (Redis keys):
rule:{rule_id}:contact:{device_id}:state -> "open" | "closed"
rule:{rule_id}:contact:{device_id}:ts -> ISO timestamp of last change
rule:{rule_id}:thermo:{device_id}:current_target -> Current target temp (updated on every STATE)
rule:{rule_id}:thermo:{device_id}:previous -> Previous target temp (saved on window open, deleted on restore)
Logic:
1. Thermostat STATE events → update current_target in Redis
2. Window opens → copy current_target to previous, then set to eco_target
3. Window closes → restore from previous, then delete previous key
"""
def __init__(self):
super().__init__()
self._validated_objects: dict[str, WindowSetbackObjects] = {}
async def setup(self, desc: RuleDescriptor, ctx: RuleContext) -> None:
"""Validate objects structure during setup"""
try:
validated = WindowSetbackObjects(**desc.objects)
self._validated_objects[desc.id] = validated
ctx.logger.info(
f"Rule {desc.id} validated: {len(validated.contacts)} contacts, "
f"{len(validated.thermostats)} thermostats"
)
except ValidationError as e:
raise ValueError(
f"Invalid objects configuration for rule {desc.id}: {e}"
) from e
def get_subscriptions(self, desc: RuleDescriptor) -> list[str]:
"""
Return MQTT topics to subscribe to.
Subscribe to:
- Contact sensor state changes (to detect window open/close)
- Thermostat state changes (to track current target temperature)
"""
topics = []
# Subscribe to contact sensors
contacts = desc.objects.get('contacts', [])
for contact_id in contacts:
topics.append(f"home/contact/{contact_id}/state")
# Subscribe to thermostats to track their current target temperature
thermostats = desc.objects.get('thermostats', [])
for thermo_id in thermostats:
topics.append(f"home/thermostat/{thermo_id}/state")
return topics
async def on_event(
self,
evt: dict[str, Any],
desc: RuleDescriptor,
ctx: RuleContext
) -> None:
"""
Process contact sensor or thermostat state changes.
Logic:
1. If contact opened → remember current thermostat targets, set to eco
2. If contact closed for min_secs → restore previous targets
3. If thermostat target changed → update stored previous value
"""
device_id = evt['device_id']
cap = evt['cap']
payload = evt['payload']
# Only process events for devices in our objects
target_contacts = desc.objects.get('contacts', [])
target_thermostats = desc.objects.get('thermostats', [])
if cap == 'contact' and device_id in target_contacts:
await self._handle_contact_event(evt, desc, ctx)
elif cap == 'thermostat' and device_id in target_thermostats:
await self._handle_thermostat_event(evt, desc, ctx)
async def _handle_contact_event(
self,
evt: dict[str, Any],
desc: RuleDescriptor,
ctx: RuleContext
) -> None:
"""Handle contact sensor state change."""
device_id = evt['device_id']
contact_state = evt['payload'].get('contact') # "open" or "closed"
event_ts = evt.get('ts', ctx.now().isoformat())
if not contact_state:
ctx.logger.warning(f"Contact event missing 'contact' field: {evt}")
return
# Store current state and timestamp
state_key = f"rule:{desc.id}:contact:{device_id}:state"
ts_key = f"rule:{desc.id}:contact:{device_id}:ts"
await ctx.redis.set(state_key, contact_state)
await ctx.redis.set(ts_key, event_ts)
if contact_state == 'open':
await self._on_window_opened(desc, ctx)
elif contact_state == 'closed':
await self._on_window_closed(desc, ctx)
async def _on_window_opened(self, desc: RuleDescriptor, ctx: RuleContext) -> None:
"""
Window opened - save current temperatures, then set thermostats to eco.
Important: We must save the current target BEFORE setting to eco,
otherwise we'll save the eco temperature instead of the original.
"""
eco_target = desc.params.get('eco_target', 16.0)
target_thermostats = desc.objects.get('thermostats', [])
ttl_secs = desc.params.get('previous_target_ttl_secs', 86400)
ctx.logger.info(
f"Rule {desc.id}: Window opened, setting {len(target_thermostats)} "
f"thermostats to eco temperature {eco_target}°C"
)
# FIRST: Save current target temperatures as "previous" (before we change them!)
for thermo_id in target_thermostats:
current_key = f"rule:{desc.id}:thermo:{thermo_id}:current_target"
current_temp_str = await ctx.redis.get(current_key)
if current_temp_str:
# Save current as previous (with TTL)
prev_key = f"rule:{desc.id}:thermo:{thermo_id}:previous"
await ctx.redis.set(prev_key, current_temp_str, ttl_secs=ttl_secs)
ctx.logger.debug(
f"Saved previous target for {thermo_id}: {current_temp_str}°C"
)
else:
ctx.logger.warning(
f"No current target found for {thermo_id}, cannot save previous"
)
# THEN: Set all thermostats to eco temperature
for thermo_id in target_thermostats:
try:
await ctx.mqtt.publish_set_thermostat(thermo_id, eco_target)
ctx.logger.debug(f"Set {thermo_id} to {eco_target}°C")
except Exception as e:
ctx.logger.error(f"Failed to set {thermo_id}: {e}")
async def _on_window_closed(self, desc: RuleDescriptor, ctx: RuleContext) -> None:
"""
Window closed - restore previous temperatures.
Note: This is simplified. A production implementation would check
close_min_secs and use a timer/scheduler.
"""
target_thermostats = desc.objects.get('thermostats', [])
ctx.logger.info(
f"Rule {desc.id}: Window closed, restoring {len(target_thermostats)} "
f"thermostats to previous temperatures"
)
# Restore previous temperatures
for thermo_id in target_thermostats:
prev_key = f"rule:{desc.id}:thermo:{thermo_id}:previous"
prev_temp_str = await ctx.redis.get(prev_key)
if prev_temp_str:
try:
prev_temp = float(prev_temp_str)
await ctx.mqtt.publish_set_thermostat(thermo_id, prev_temp)
ctx.logger.debug(f"Restored {thermo_id} to {prev_temp}°C")
# Delete the previous key after restoring
await ctx.redis.delete(prev_key)
except Exception as e:
ctx.logger.error(f"Failed to restore {thermo_id}: {e}")
else:
ctx.logger.warning(
f"No previous target found for {thermo_id}, cannot restore"
)
async def _handle_thermostat_event(
self,
evt: dict[str, Any],
desc: RuleDescriptor,
ctx: RuleContext
) -> None:
"""
Handle thermostat state change - track current target temperature.
This keeps a record of the thermostat's current target, so we can
save it as "previous" when a window opens.
Important: We store in "current_target", NOT "previous". The "previous"
key is only written when a window opens, to avoid race conditions.
"""
device_id = evt['device_id']
payload = evt['payload']
current_target = payload.get('target')
if current_target is None:
return # No target in this state update
# Store current target (always update, even if it's the eco temperature)
current_key = f"rule:{desc.id}:thermo:{device_id}:current_target"
ttl_secs = desc.params.get('previous_target_ttl_secs', 86400)
await ctx.redis.set(current_key, str(current_target), ttl_secs=ttl_secs)
ctx.logger.debug(
f"Rule {desc.id}: Updated current target for {device_id}: {current_target}°C"
)
# Rule registry - maps rule type to implementation class
RULE_IMPLEMENTATIONS = {
'window_setback@1.0': WindowSetbackRule,
}

411
apps/rules/main.py
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@@ -1,83 +1,374 @@
"""Rules main entry point."""
"""
Rules Engine
Loads rules configuration, subscribes to MQTT events, and dispatches events
to registered rule implementations.
"""
import asyncio
import logging
import os
import signal
import sys
import time
from typing import NoReturn
from datetime import datetime
from typing import Any
from apscheduler.schedulers.background import BackgroundScheduler
from apps.rules.rules_config import load_rules_config
from apps.rules.rule_interface import (
RuleDescriptor,
RuleContext,
MQTTClient,
RedisState,
load_rule
)
# Configure logging
logging.basicConfig(
level=logging.INFO,
level=logging.DEBUG,
format="%(asctime)s - %(name)s - %(levelname)s - %(message)s"
)
logger = logging.getLogger(__name__)
# Global scheduler instance
scheduler: BackgroundScheduler | None = None
def rule_tick() -> None:
"""Example job that runs every minute.
This is a placeholder for actual rule evaluation logic.
class RuleEngine:
"""
logger.info("Rule tick")
def shutdown_handler(signum: int, frame: object) -> NoReturn:
"""Handle shutdown signals gracefully.
Args:
signum: Signal number
frame: Current stack frame
Rule engine that loads rules, subscribes to MQTT events,
and dispatches them to registered rule implementations.
"""
logger.info(f"Received signal {signum}, shutting down...")
if scheduler:
scheduler.shutdown(wait=True)
logger.info("Scheduler stopped")
sys.exit(0)
def __init__(
self,
rules_config_path: str,
mqtt_broker: str,
mqtt_port: int,
redis_url: str
):
"""
Initialize rule engine.
Args:
rules_config_path: Path to rules.yaml
mqtt_broker: MQTT broker hostname/IP
mqtt_port: MQTT broker port
redis_url: Redis connection URL
"""
self.rules_config_path = rules_config_path
self.mqtt_broker = mqtt_broker
self.mqtt_port = mqtt_port
self.redis_url = redis_url
# Will be initialized in setup()
self.rule_descriptors: list[RuleDescriptor] = []
self.rules: dict[str, Any] = {} # rule_id -> Rule instance
self.mqtt_client: MQTTClient | None = None
self.redis_state: RedisState | None = None
self.context: RuleContext | None = None
self._mqtt_topics: list[str] = [] # Topics to subscribe to
# For graceful shutdown
self._shutdown_event = asyncio.Event()
async def setup(self) -> None:
"""
Load configuration and instantiate rules.
Raises:
ImportError: If rule implementation not found
ValueError: If configuration is invalid
"""
logger.info(f"Loading rules configuration from {self.rules_config_path}")
# Load rules configuration
config = load_rules_config(self.rules_config_path)
self.rule_descriptors = config.rules
logger.info(f"Loaded {len(self.rule_descriptors)} rule(s) from configuration")
# Instantiate each rule
for desc in self.rule_descriptors:
if not desc.enabled:
logger.info(f" - {desc.id} (type: {desc.type}) [DISABLED]")
continue
try:
rule_instance = load_rule(desc)
self.rules[desc.id] = rule_instance
logger.info(f" - {desc.id} (type: {desc.type})")
except Exception as e:
logger.error(f"Failed to load rule {desc.id} (type: {desc.type}): {e}")
raise
enabled_count = len(self.rules)
total_count = len(self.rule_descriptors)
disabled_count = total_count - enabled_count
logger.info(f"Successfully loaded {enabled_count} rule implementation(s) ({disabled_count} disabled)")
# Call setup on each rule for validation
for rule_id, rule_instance in self.rules.items():
desc = next((d for d in self.rule_descriptors if d.id == rule_id), None)
if desc:
try:
ctx = RuleContext(
logger=logger,
mqtt_publisher=self.mqtt_client,
redis_state=self.redis_state
)
await rule_instance.setup(desc, ctx)
except Exception as e:
logger.error(f"Failed to setup rule {rule_id}: {e}")
raise
# Collect MQTT subscriptions from all enabled rules
all_topics = set()
for rule_id, rule_instance in self.rules.items():
desc = next((d for d in self.rule_descriptors if d.id == rule_id), None)
if desc:
try:
topics = rule_instance.get_subscriptions(desc)
all_topics.update(topics)
logger.debug(f"Rule {rule_id} subscribes to {len(topics)} topic(s)")
except Exception as e:
logger.error(f"Failed to get subscriptions for rule {rule_id}: {e}")
raise
logger.info(f"Total MQTT subscriptions needed: {len(all_topics)}")
# Create unique client ID to avoid conflicts
import uuid
import os
client_id_base = "rule_engine"
client_suffix = os.environ.get("MQTT_CLIENT_ID_SUFFIX") or uuid.uuid4().hex[:6]
unique_client_id = f"{client_id_base}-{client_suffix}"
# Initialize MQTT client
self.mqtt_client = MQTTClient(
broker=self.mqtt_broker,
port=self.mqtt_port,
client_id=unique_client_id
)
self.mqtt_client.set_logger(logger)
# Store topics for connection
self._mqtt_topics = list(all_topics)
# Initialize Redis state
self.redis_state = RedisState(self.redis_url)
# Create MQTT publisher wrapper for RuleContext
from apps.rules.rule_interface import MQTTPublisher
mqtt_publisher = MQTTPublisher(mqtt_client=self.mqtt_client)
# Create rule context
self.context = RuleContext(
logger=logger,
mqtt_publisher=mqtt_publisher,
redis_state=self.redis_state,
now_fn=datetime.now
)
def _filter_rules_for_event(self, event: dict[str, Any]) -> list[tuple[str, RuleDescriptor]]:
"""
Filter rules that should receive this event.
Rules match if the event's device_id is in the rule's objects.
Args:
event: Normalized MQTT event
Returns:
List of (rule_id, descriptor) tuples that should process this event
"""
matching_rules = []
device_id = event.get('device_id')
cap = event.get('cap')
if not device_id or not cap:
return matching_rules
logger.debug(f"Filtering for cap={cap}, device_id={device_id}")
# Only check enabled rules (rules in self.rules dict)
for rule_id, rule_instance in self.rules.items():
desc = next((d for d in self.rule_descriptors if d.id == rule_id), None)
if not desc:
continue
objects = desc.objects
# Check if this device is in the rule's objects
matched = False
if cap == 'contact' and objects.get('contacts'):
logger.debug(f"Rule {rule_id}: checking contacts {objects.get('contacts')}")
if device_id in objects.get('contacts', []):
matched = True
elif cap == 'thermostat' and objects.get('thermostats'):
logger.debug(f"Rule {rule_id}: checking thermostats {objects.get('thermostats')}")
if device_id in objects.get('thermostats', []):
matched = True
elif cap == 'light' and objects.get('lights'):
logger.debug(f"Rule {rule_id}: checking lights {objects.get('lights')}")
if device_id in objects.get('lights', []):
matched = True
elif cap == 'relay' and objects.get('relays'):
logger.debug(f"Rule {rule_id}: checking relays {objects.get('relays')}")
if device_id in objects.get('relays', []):
matched = True
if matched:
matching_rules.append((rule_id, desc))
return matching_rules
async def _dispatch_event(self, event: dict[str, Any]) -> None:
"""
Dispatch event to matching rules.
Calls rule.on_event() for each matching rule sequentially
to preserve order and avoid race conditions.
Args:
event: Normalized MQTT event
"""
# Debug logging
logger.debug(f"Received event: {event}")
matching_rules = self._filter_rules_for_event(event)
if not matching_rules:
# No rules interested in this event
logger.debug(f"No matching rules for {event.get('cap')}/{event.get('device_id')}")
return
logger.info(
f"Event {event['cap']}/{event['device_id']}: "
f"{len(matching_rules)} matching rule(s)"
)
# Process rules sequentially to preserve order
for rule_id, desc in matching_rules:
rule = self.rules.get(rule_id)
if not rule:
logger.warning(f"Rule instance not found for {rule_id}")
continue
try:
await rule.on_event(event, desc, self.context)
except Exception as e:
logger.error(
f"Error in rule {rule_id} processing event "
f"{event['cap']}/{event['device_id']}: {e}",
exc_info=True
)
# Continue with other rules
async def run(self) -> None:
"""
Main event loop - subscribe to MQTT and process events.
Runs until shutdown signal received.
"""
logger.info("Starting event processing loop")
try:
async for event in self.mqtt_client.connect(topics=self._mqtt_topics):
# Check for shutdown
if self._shutdown_event.is_set():
logger.info("Shutdown signal received, stopping event loop")
break
# Dispatch event to matching rules
await self._dispatch_event(event)
except asyncio.CancelledError:
logger.info("Event loop cancelled")
raise
except Exception as e:
logger.error(f"Fatal error in event loop: {e}", exc_info=True)
raise
async def shutdown(self) -> None:
"""Graceful shutdown - close connections."""
logger.info("Shutting down rule engine...")
self._shutdown_event.set()
if self.redis_state:
await self.redis_state.close()
logger.info("Redis connection closed")
logger.info("Shutdown complete")
async def main_async() -> None:
"""Async main function."""
# Read configuration from environment
rules_config = os.getenv('RULES_CONFIG', 'config/rules.yaml')
mqtt_broker = os.getenv('MQTT_BROKER', '172.16.2.16')
mqtt_port = int(os.getenv('MQTT_PORT', '1883'))
redis_host = os.getenv('REDIS_HOST', '172.23.1.116')
redis_port = int(os.getenv('REDIS_PORT', '6379'))
redis_db = int(os.getenv('REDIS_DB', '8'))
redis_url = f'redis://{redis_host}:{redis_port}/{redis_db}'
logger.info("=" * 60)
logger.info("Rules Engine Starting")
logger.info("=" * 60)
logger.info(f"Config: {rules_config}")
logger.info(f"MQTT: {mqtt_broker}:{mqtt_port}")
logger.info(f"Redis: {redis_url}")
logger.info("=" * 60)
# Initialize engine
engine = RuleEngine(
rules_config_path=rules_config,
mqtt_broker=mqtt_broker,
mqtt_port=mqtt_port,
redis_url=redis_url
)
# Load rules
try:
await engine.setup()
except Exception as e:
logger.error(f"Failed to setup engine: {e}", exc_info=True)
sys.exit(1)
# Setup signal handlers for graceful shutdown
loop = asyncio.get_running_loop()
main_task = None
def signal_handler():
logger.info("Received shutdown signal")
engine._shutdown_event.set()
if main_task and not main_task.done():
main_task.cancel()
for sig in (signal.SIGTERM, signal.SIGINT):
loop.add_signal_handler(sig, signal_handler)
# Run engine
try:
main_task = asyncio.create_task(engine.run())
await main_task
except asyncio.CancelledError:
logger.info("Main task cancelled")
finally:
await engine.shutdown()
def main() -> None:
"""Run the rules application."""
global scheduler
logger.info("Rules engine starting...")
# Register signal handlers
signal.signal(signal.SIGINT, shutdown_handler)
signal.signal(signal.SIGTERM, shutdown_handler)
# Initialize scheduler
scheduler = BackgroundScheduler()
# Add example job - runs every minute
scheduler.add_job(
rule_tick,
'interval',
minutes=1,
id='rule_tick',
name='Rule Tick Job'
)
# Start scheduler
scheduler.start()
logger.info("Scheduler started with rule_tick job (every 1 minute)")
# Run initial tick immediately
rule_tick()
# Keep the application running
"""Entry point for rule engine."""
try:
while True:
time.sleep(1)
asyncio.run(main_async())
except KeyboardInterrupt:
logger.info("KeyboardInterrupt received, shutting down...")
scheduler.shutdown(wait=True)
logger.info("Scheduler stopped")
logger.info("Keyboard interrupt received")
except Exception as e:
logger.error(f"Fatal error: {e}", exc_info=True)
sys.exit(1)
if __name__ == "__main__":

5
apps/rules/requirements.txt Normal file
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# Rules Engine Dependencies
pydantic>=2.0
redis>=5.0.1
aiomqtt>=2.0.1
pyyaml>=6.0.1

759
apps/rules/rule_interface.py Normal file
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"""
Rule Interface and Context Objects
Provides the core abstractions for implementing automation rules:
- RuleDescriptor: Configuration data for a rule instance
- RedisState: State persistence interface
- RuleContext: Runtime context provided to rules
- Rule: Abstract base class for all rule implementations
"""
from abc import ABC, abstractmethod
from datetime import datetime
from typing import Any, Awaitable, Optional
from pydantic import BaseModel, Field
class RuleDescriptor(BaseModel):
"""
Configuration descriptor for a rule instance.
This is the validated representation of a rule from rules.yaml.
The engine loads these and passes them to rule implementations.
The 'objects' field is intentionally flexible (dict) to allow different
rule types to define their own object structures.
"""
id: str = Field(..., description="Unique identifier for this rule instance")
name: Optional[str] = Field(None, description="Optional human-readable name")
type: str = Field(..., description="Rule type with version (e.g., 'window_setback@1.0')")
enabled: bool = Field(default=True, description="Whether this rule is enabled")
objects: dict[str, Any] = Field(
default_factory=dict,
description="Objects this rule monitors or controls (structure varies by rule type)"
)
params: dict[str, Any] = Field(
default_factory=dict,
description="Rule-specific parameters"
)
class RedisState:
"""
Async Redis-backed state persistence for rules with automatic reconnection.
Provides a simple key-value and hash storage interface for rules to persist
state across restarts. All operations are asynchronous and include retry logic
for robustness against temporary Redis outages.
Key Convention:
- Callers should use keys like: f"rules:{rule_id}:contact:{device_id}"
- This class does NOT enforce key prefixes - caller controls the full key
"""
def __init__(self, url: str, max_retries: int = 3, retry_delay: float = 0.5):
"""
Initialize RedisState with connection URL.
Args:
url: Redis connection URL (e.g., 'redis://172.23.1.116:6379/8')
max_retries: Maximum number of retry attempts for operations (default: 3)
retry_delay: Initial delay between retries in seconds, uses exponential backoff (default: 0.5)
Note:
Connection is lazy - actual connection happens on first operation.
Uses connection pooling with automatic reconnection on failure.
"""
self._url = url
self._max_retries = max_retries
self._retry_delay = retry_delay
self._redis: Optional[Any] = None # redis.asyncio.Redis instance
async def _get_client(self):
"""
Get or create Redis client with connection pool.
Lazy initialization ensures we don't connect until first use.
Uses decode_responses=True for automatic UTF-8 decoding.
"""
if self._redis is None:
import redis.asyncio as aioredis
self._redis = await aioredis.from_url(
self._url,
decode_responses=True, # Automatic UTF-8 decode
encoding='utf-8',
max_connections=10, # Connection pool size
socket_connect_timeout=5,
socket_keepalive=True,
health_check_interval=30 # Auto-check connection health
)
return self._redis
async def _execute_with_retry(self, operation, *args, **kwargs):
"""
Execute Redis operation with exponential backoff retry.
Handles temporary connection failures gracefully by retrying
with exponential backoff. On permanent failure, raises the
original exception.
Args:
operation: Async callable (Redis method)
*args, **kwargs: Arguments to pass to operation
Returns:
Result of the operation
Raises:
Exception: If all retries are exhausted
"""
import asyncio
last_exception = None
for attempt in range(self._max_retries):
try:
client = await self._get_client()
return await operation(client, *args, **kwargs)
except Exception as e:
last_exception = e
if attempt < self._max_retries - 1:
# Exponential backoff: 0.5s, 1s, 2s, ...
delay = self._retry_delay * (2 ** attempt)
await asyncio.sleep(delay)
# Reset client to force reconnection
if self._redis:
try:
await self._redis.close()
except:
pass
self._redis = None
# All retries exhausted
raise last_exception
# JSON helpers for complex data structures
def _dumps(self, obj: Any) -> str:
"""Serialize Python object to JSON string."""
import json
return json.dumps(obj, ensure_ascii=False)
def _loads(self, s: str) -> Any:
"""Deserialize JSON string to Python object."""
import json
return json.loads(s)
async def get(self, key: str) -> Optional[str]:
"""
Get a string value by key.
Args:
key: Redis key (e.g., "rules:my_rule:contact:sensor_1")
Returns:
String value or None if key doesn't exist
Example:
>>> state = RedisState("redis://localhost:6379/0")
>>> await state.set("rules:r1:temp", "22.5")
>>> temp = await state.get("rules:r1:temp")
>>> print(temp) # "22.5"
"""
async def _get(client, k):
return await client.get(k)
return await self._execute_with_retry(_get, key)
async def set(self, key: str, value: str, ttl_secs: Optional[int] = None) -> None:
"""
Set a string value with optional TTL.
Args:
key: Redis key
value: String value to store
ttl_secs: Optional time-to-live in seconds. If None, key persists indefinitely.
Example:
>>> state = RedisState("redis://localhost:6379/0")
>>> # Store with 1 hour TTL
>>> await state.set("rules:r1:previous_temp", "20.0", ttl_secs=3600)
"""
async def _set(client, k, v, ttl):
if ttl is not None:
await client.setex(k, ttl, v)
else:
await client.set(k, v)
await self._execute_with_retry(_set, key, value, ttl_secs)
async def hget(self, key: str, field: str) -> Optional[str]:
"""
Get a hash field value.
Args:
key: Redis hash key
field: Field name within the hash
Returns:
String value or None if field doesn't exist
Example:
>>> state = RedisState("redis://localhost:6379/0")
>>> await state.hset("rules:r1:device_states", "sensor_1", "open")
>>> value = await state.hget("rules:r1:device_states", "sensor_1")
>>> print(value) # "open"
"""
async def _hget(client, k, f):
return await client.hget(k, f)
return await self._execute_with_retry(_hget, key, field)
async def hset(self, key: str, field: str, value: str) -> None:
"""
Set a hash field value.
Args:
key: Redis hash key
field: Field name within the hash
value: String value to store
Example:
>>> state = RedisState("redis://localhost:6379/0")
>>> await state.hset("rules:r1:sensors", "bedroom", "open")
>>> await state.hset("rules:r1:sensors", "kitchen", "closed")
"""
async def _hset(client, k, f, v):
await client.hset(k, f, v)
await self._execute_with_retry(_hset, key, field, value)
async def expire(self, key: str, ttl_secs: int) -> None:
"""
Set or update TTL on an existing key.
Args:
key: Redis key
ttl_secs: Time-to-live in seconds
Example:
>>> state = RedisState("redis://localhost:6379/0")
>>> await state.set("rules:r1:temp", "22.5")
>>> await state.expire("rules:r1:temp", 3600) # Expire in 1 hour
"""
async def _expire(client, k, ttl):
await client.expire(k, ttl)
await self._execute_with_retry(_expire, key, ttl_secs)
async def delete(self, key: str) -> None:
"""
Delete a key from Redis.
Args:
key: Redis key to delete
Example:
>>> state = RedisState("redis://localhost:6379/0")
>>> await state.set("rules:r1:temp", "22.5")
>>> await state.delete("rules:r1:temp")
"""
async def _delete(client, k):
await client.delete(k)
await self._execute_with_retry(_delete, key)
async def close(self) -> None:
"""
Close Redis connection and cleanup resources.
Should be called when shutting down the application.
"""
if self._redis:
await self._redis.close()
self._redis = None
class MQTTClient:
"""
Async MQTT client for rule engine with event normalization and publishing.
Subscribes to device state topics, normalizes events to a consistent format,
and provides high-level publishing methods for device commands.
Event Normalization:
All incoming MQTT messages are parsed into a normalized event structure:
{
"topic": "home/contact/sensor_1/state",
"type": "state",
"cap": "contact", # Capability type (contact, thermostat, light, etc.)
"device_id": "sensor_1",
"payload": {"contact": "open"},
"ts": "2025-11-11T10:30:45.123456"
}
"""
def __init__(
self,
broker: str,
port: int = 1883,
client_id: str = "rule_engine",
reconnect_interval: int = 5,
max_reconnect_delay: int = 300
):
"""
Initialize MQTT client.
Args:
broker: MQTT broker hostname or IP
port: MQTT broker port (default: 1883)
client_id: Unique client ID for this connection
reconnect_interval: Initial reconnect delay in seconds (default: 5)
max_reconnect_delay: Maximum reconnect delay in seconds (default: 300)
"""
self._broker = broker
self._port = port
self._client_id = client_id
self._reconnect_interval = reconnect_interval
self._max_reconnect_delay = max_reconnect_delay
self._client = None
self._logger = None # Set externally
def set_logger(self, logger):
"""Set logger instance for connection status messages."""
self._logger = logger
def _log(self, level: str, msg: str):
"""Internal logging helper."""
if self._logger:
getattr(self._logger, level)(msg)
else:
print(f"[{level.upper()}] {msg}")
async def connect(self, topics: list[str] = None):
"""
Connect to MQTT broker with automatic reconnection.
This method manages the connection and automatically reconnects
with exponential backoff if the connection is lost.
Args:
topics: List of MQTT topics to subscribe to. If None, subscribes to nothing.
"""
import aiomqtt
from aiomqtt import Client
if topics is None:
topics = []
reconnect_delay = self._reconnect_interval
while True:
try:
self._log("info", f"Connecting to MQTT broker {self._broker}:{self._port} (client_id={self._client_id})")
async with Client(
hostname=self._broker,
port=self._port,
identifier=self._client_id,
) as client:
self._client = client
self._log("info", f"Connected to MQTT broker {self._broker}:{self._port}")
# Subscribe to provided topics
if topics:
for topic in topics:
await client.subscribe(topic)
self._log("info", f"Subscribed to {len(topics)} topic(s): {', '.join(topics[:5])}{'...' if len(topics) > 5 else ''}")
# Reset reconnect delay on successful connection
reconnect_delay = self._reconnect_interval
# Process messages - this is a generator that yields messages
async for message in client.messages:
yield self._normalize_event(message)
except aiomqtt.MqttError as e:
self._log("error", f"MQTT connection error: {e}")
self._log("info", f"Reconnecting in {reconnect_delay} seconds...")
import asyncio
await asyncio.sleep(reconnect_delay)
# Exponential backoff
reconnect_delay = min(reconnect_delay * 2, self._max_reconnect_delay)
def _normalize_event(self, message) -> dict[str, Any]:
"""
Normalize MQTT message to standard event format.
Parses topic to extract capability type and device_id,
adds timestamp, and structures payload.
Args:
message: aiomqtt.Message instance
Returns:
Normalized event dictionary
Example:
Topic: home/contact/sensor_bedroom/state
Payload: {"contact": "open"}
Returns:
{
"topic": "home/contact/sensor_bedroom/state",
"type": "state",
"cap": "contact",
"device_id": "sensor_bedroom",
"payload": {"contact": "open"},
"ts": "2025-11-11T10:30:45.123456"
}
"""
from datetime import datetime
import json
topic = str(message.topic)
topic_parts = topic.split('/')
# Parse topic: home/{capability}/{device_id}/state
if len(topic_parts) >= 4 and topic_parts[0] == 'home' and topic_parts[3] == 'state':
cap = topic_parts[1] # contact, thermostat, light, etc.
device_id = topic_parts[2]
else:
# Fallback for unexpected topic format
cap = "unknown"
device_id = topic_parts[-2] if len(topic_parts) >= 2 else "unknown"
# Parse payload
try:
payload = json.loads(message.payload.decode('utf-8'))
except (json.JSONDecodeError, UnicodeDecodeError):
payload = {"raw": message.payload.decode('utf-8', errors='replace')}
# Generate timestamp
ts = datetime.now().isoformat()
return {
"topic": topic,
"type": "state",
"cap": cap,
"device_id": device_id,
"payload": payload,
"ts": ts
}
async def publish_set_thermostat(self, device_id: str, target: float) -> None:
"""
Publish thermostat target temperature command.
Publishes to: home/thermostat/{device_id}/set
QoS: 1 (at least once delivery)
Args:
device_id: Thermostat device identifier
target: Target temperature in degrees Celsius
Example:
>>> mqtt = MQTTClient("172.16.2.16", 1883)
>>> await mqtt.publish_set_thermostat("thermostat_wohnzimmer", 22.5)
Published to: home/thermostat/thermostat_wohnzimmer/set
Payload: {"type":"thermostat","payload":{"target":22.5}}
"""
import json
if self._client is None:
raise RuntimeError("MQTT client not connected. Call connect() first.")
topic = f"home/thermostat/{device_id}/set"
payload = {
"type": "thermostat",
"payload": {
"target": target
}
}
payload_str = json.dumps(payload)
await self._client.publish(
topic,
payload=payload_str.encode('utf-8'),
qos=1 # At least once delivery
)
self._log("debug", f"Published SET to {topic}: {payload_str}")
# Legacy alias for backward compatibility
class MQTTPublisher:
"""
Legacy MQTT publishing interface - DEPRECATED.
Use MQTTClient instead for new code.
This class is kept for backward compatibility with existing documentation.
"""
def __init__(self, mqtt_client):
"""
Initialize MQTT publisher.
Args:
mqtt_client: MQTTClient instance
"""
self._mqtt = mqtt_client
async def publish_set_thermostat(self, device_id: str, target: float) -> None:
"""
Publish a thermostat target temperature command.
Args:
device_id: Thermostat device identifier
target: Target temperature in degrees Celsius
"""
await self._mqtt.publish_set_thermostat(device_id, target)
class RuleContext:
"""
Runtime context provided to rules during event processing.
Contains all external dependencies and utilities a rule needs:
- Logger for diagnostics
- MQTT client for publishing commands
- Redis client for state persistence
- Current timestamp function
"""
def __init__(
self,
logger,
mqtt_publisher: MQTTPublisher,
redis_state: RedisState,
now_fn=None
):
"""
Initialize rule context.
Args:
logger: Logger instance (e.g., logging.Logger)
mqtt_publisher: MQTTPublisher instance for device commands
redis_state: RedisState instance for persistence
now_fn: Optional callable returning current datetime (defaults to datetime.now)
"""
self.logger = logger
self.mqtt = mqtt_publisher
self.redis = redis_state
self._now_fn = now_fn or datetime.now
def now(self) -> datetime:
"""
Get current timestamp.
Returns:
Current datetime (timezone-aware if now_fn provides it)
"""
return self._now_fn()
class Rule(ABC):
"""
Abstract base class for all automation rule implementations.
Rules implement event-driven automation logic. The engine calls on_event()
for each relevant device state change, passing the event data, rule configuration,
and runtime context.
Implementations must be idempotent - processing the same event multiple times
should produce the same result.
Example implementation:
class WindowSetbackRule(Rule):
def get_subscriptions(self, desc: RuleDescriptor) -> list[str]:
# Subscribe to contact sensor state topics
topics = []
for contact_id in desc.objects.contacts or []:
topics.append(f"home/contact/{contact_id}/state")
return topics
async def on_event(self, evt: dict, desc: RuleDescriptor, ctx: RuleContext) -> None:
device_id = evt['device_id']
cap = evt['cap']
if cap == 'contact':
contact_state = evt['payload'].get('contact')
if contact_state == 'open':
# Window opened - set thermostats to eco
for thermo_id in desc.objects.thermostats or []:
eco_temp = desc.params.get('eco_target', 16.0)
await ctx.mqtt.publish_set_thermostat(thermo_id, eco_temp)
"""
@abstractmethod
def get_subscriptions(self, desc: RuleDescriptor) -> list[str]:
"""
Return list of MQTT topics this rule needs to subscribe to.
Called once during rule engine setup. The rule examines its configuration
(desc.objects) and returns the specific state topics it needs to monitor.
Args:
desc: Rule configuration from rules.yaml
Returns:
List of MQTT topic patterns/strings to subscribe to
Example:
For a window setback rule monitoring 2 contacts:
['home/contact/sensor_bedroom/state', 'home/contact/sensor_kitchen/state']
"""
pass
@abstractmethod
async def on_event(
self,
evt: dict[str, Any],
desc: RuleDescriptor,
ctx: RuleContext
) -> None:
"""
Process a device state change event.
This method is called by the rule engine whenever a device state changes
that is relevant to this rule. The implementation should examine the event
and take appropriate actions (e.g., publish MQTT commands, update state).
MUST be idempotent: Processing the same event multiple times should be safe.
Args:
evt: Event dictionary with the following structure:
{
"topic": "home/contact/device_id/state", # MQTT topic
"type": "state", # Message type
"cap": "contact", # Capability type
"device_id": "kontakt_wohnzimmer", # Device identifier
"payload": {"contact": "open"}, # Capability-specific payload
"ts": "2025-11-11T10:30:45.123456" # ISO timestamp
}
desc: Rule configuration from rules.yaml
ctx: Runtime context with logger, MQTT, Redis, and timestamp utilities
Returns:
None
Raises:
Exception: Implementation may raise exceptions for errors.
The engine will log them but continue processing.
"""
pass
# ============================================================================
# Dynamic Rule Loading
# ============================================================================
import importlib
import re
from typing import Type
# Cache for loaded rule classes (per process)
_RULE_CLASS_CACHE: dict[str, Type[Rule]] = {}
def load_rule(desc: RuleDescriptor) -> Rule:
"""
Dynamically load and instantiate a rule based on its type descriptor.
Convention:
- Rule type format: 'name@version' (e.g., 'window_setback@1.0')
- Module path: apps.rules.impl.{name}
- Class name: PascalCase version of name + 'Rule'
Example: 'window_setback''WindowSetbackRule'
Args:
desc: Rule descriptor from rules.yaml
Returns:
Instantiated Rule object
Raises:
ValueError: If type format is invalid
ImportError: If rule module cannot be found
AttributeError: If rule class cannot be found in module
Examples:
>>> desc = RuleDescriptor(
... id="test_rule",
... type="window_setback@1.0",
... targets={},
... params={}
... )
>>> rule = load_rule(desc)
>>> isinstance(rule, Rule)
True
"""
rule_type = desc.type
# Check cache first
if rule_type in _RULE_CLASS_CACHE:
rule_class = _RULE_CLASS_CACHE[rule_type]
return rule_class()
# Parse type: 'name@version'
if '@' not in rule_type:
raise ValueError(
f"Invalid rule type '{rule_type}': must be in format 'name@version' "
f"(e.g., 'window_setback@1.0')"
)
name, version = rule_type.split('@', 1)
# Validate name (alphanumeric and underscores only)
if not re.match(r'^[a-z][a-z0-9_]*$', name):
raise ValueError(
f"Invalid rule name '{name}': must start with lowercase letter "
f"and contain only lowercase letters, numbers, and underscores"
)
# Convert snake_case to PascalCase for class name
# Example: 'window_setback' → 'WindowSetbackRule'
class_name = ''.join(word.capitalize() for word in name.split('_')) + 'Rule'
# Construct module path
module_path = f'apps.rules.impl.{name}'
# Try to import the module
try:
module = importlib.import_module(module_path)
except ImportError as e:
raise ImportError(
f"Cannot load rule type '{rule_type}': module '{module_path}' not found.\n"
f"Hint: Create file 'apps/rules/impl/{name}.py' with class '{class_name}'.\n"
f"Original error: {e}"
) from e
# Try to get the class from the module
try:
rule_class = getattr(module, class_name)
except AttributeError as e:
raise AttributeError(
f"Cannot load rule type '{rule_type}': class '{class_name}' not found in module '{module_path}'.\n"
f"Hint: Define 'class {class_name}(Rule):' in 'apps/rules/impl/{name}.py'.\n"
f"Available classes in module: {[name for name in dir(module) if not name.startswith('_')]}"
) from e
# Validate that it's a Rule subclass
if not issubclass(rule_class, Rule):
raise TypeError(
f"Class '{class_name}' in '{module_path}' is not a subclass of Rule. "
f"Ensure it inherits from apps.rules.rule_interface.Rule"
)
# Cache the class
_RULE_CLASS_CACHE[rule_type] = rule_class
# Instantiate and return
return rule_class()

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apps/rules/rules_config.py Normal file
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"""
Rules Configuration Schema and Loader
Provides Pydantic models for validating rules.yaml configuration.
"""
from pathlib import Path
from typing import Any, Optional
import yaml
from pydantic import BaseModel, Field, field_validator
class Rule(BaseModel):
"""Single rule configuration"""
id: str = Field(..., description="Unique rule identifier")
name: Optional[str] = Field(None, description="Optional human-readable name")
type: str = Field(..., description="Rule type (e.g., 'window_setback@1.0')")
enabled: bool = Field(default=True, description="Whether this rule is enabled")
objects: dict[str, Any] = Field(default_factory=dict, description="Objects this rule monitors or controls")
params: dict[str, Any] = Field(default_factory=dict, description="Rule-specific parameters")
@field_validator('id')
@classmethod
def validate_id(cls, v: str) -> str:
if not v or not v.strip():
raise ValueError("Rule ID cannot be empty")
return v.strip()
@field_validator('type')
@classmethod
def validate_type(cls, v: str) -> str:
if not v or not v.strip():
raise ValueError("Rule type cannot be empty")
if '@' not in v:
raise ValueError(f"Rule type must include version (e.g., 'window_setback@1.0'), got: {v}")
return v.strip()
class RulesConfig(BaseModel):
"""Root configuration object"""
rules: list[Rule] = Field(..., description="List of all rules")
@field_validator('rules')
@classmethod
def validate_unique_ids(cls, rules: list[Rule]) -> list[Rule]:
"""Ensure all rule IDs are unique"""
ids = [rule.id for rule in rules]
duplicates = [id for id in ids if ids.count(id) > 1]
if duplicates:
raise ValueError(f"Duplicate rule IDs found: {set(duplicates)}")
return rules
def load_rules_config(config_path: str | Path = "config/rules.yaml") -> RulesConfig:
"""
Load and validate rules configuration from YAML file.
Args:
config_path: Path to rules.yaml file
Returns:
Validated RulesConfig object
Raises:
FileNotFoundError: If config file doesn't exist
ValueError: If YAML is invalid or validation fails
"""
config_path = Path(config_path)
if not config_path.exists():
raise FileNotFoundError(f"Rules configuration not found: {config_path}")
with open(config_path, 'r', encoding='utf-8') as f:
try:
data = yaml.safe_load(f)
except yaml.YAMLError as e:
raise ValueError(f"Invalid YAML in {config_path}: {e}") from e
if not data:
raise ValueError(f"Empty configuration file: {config_path}")
if 'rules' not in data:
raise ValueError(
f"Missing 'rules:' key in {config_path}. "
"Configuration must start with 'rules:' followed by a list of rule definitions."
)
try:
return RulesConfig(**data)
except Exception as e:
raise ValueError(f"Configuration validation failed: {e}") from e
def get_rule_by_id(config: RulesConfig, rule_id: str) -> Rule | None:
"""Get a specific rule by ID"""
for rule in config.rules:
if rule.id == rule_id:
return rule
return None
def get_rules_by_type(config: RulesConfig, rule_type: str) -> list[Rule]:
"""Get all rules of a specific type"""
return [rule for rule in config.rules if rule.type == rule_type]
if __name__ == "__main__":
# Test configuration loading
try:
config = load_rules_config()
print(f"✅ Loaded {len(config.rules)} rules:")
for rule in config.rules:
name = f" ({rule.name})" if rule.name else ""
enabled = "" if rule.enabled else ""
print(f" [{enabled}] {rule.id}{name}: {rule.type}")
if rule.objects:
obj_summary = ", ".join(f"{k}: {len(v) if isinstance(v, list) else v}"
for k, v in rule.objects.items())
print(f" Objects: {obj_summary}")
except Exception as e:
print(f"❌ Configuration error: {e}")

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apps/simulator/Dockerfile Normal file
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# Simulator Service Dockerfile
# FastAPI Web UI + MQTT Device Simulator
FROM python:3.14-alpine
# Prevent Python from writing .pyc files and enable unbuffered output
ENV PYTHONDONTWRITEBYTECODE=1 \
PYTHONUNBUFFERED=1 \
MQTT_BROKER=172.16.2.16 \
MQTT_PORT=1883 \
SIM_PORT=8010
# Create non-root user
RUN addgroup -g 10001 -S app && \
adduser -u 10001 -S app -G app
# Set working directory
WORKDIR /app
# Install system dependencies
RUN apk add --no-cache \
gcc \
musl-dev \
linux-headers
# Install Python dependencies
COPY apps/simulator/requirements.txt /app/requirements.txt
RUN pip install --no-cache-dir -r requirements.txt
# Copy application code
COPY apps/__init__.py /app/apps/__init__.py
COPY apps/simulator/ /app/apps/simulator/
# Change ownership to app user
RUN chown -R app:app /app
# Switch to non-root user
USER app
# Expose port
EXPOSE 8010
# Run the simulator
CMD ["python", "-m", "uvicorn", "apps.simulator.main:app", "--host", "0.0.0.0", "--port", "8010"]

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apps/simulator/README.md Normal file
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# Device Simulator Web Application
Web-basierte Anwendung zur Simulation von Home-Automation-Geräten mit Echtzeit-Monitoring.
## Features
-**Web-Interface**: Dashboard mit Echtzeit-Anzeige aller Events
-**Server-Sent Events (SSE)**: Live-Updates ohne Polling
-**Funktioniert ohne Browser**: Simulator läuft im Hintergrund
-**Multi-Device Support**: Lights + Thermostats
-**MQTT Integration**: Vollständige Kommunikation über MQTT
-**Statistiken**: Zähler für Events, Commands und States
-**Event-History**: Letzte 50 Events mit Details
## Geräte
### Lights (3 Stück)
- `test_lampe_1` - Dimmbar
- `test_lampe_2` - Einfach
- `test_lampe_3` - Dimmbar
### Thermostats (1 Stück)
- `test_thermo_1` - Auto/Heat/Off Modi, Temperatur-Drift
## Installation
Der Simulator ist bereits Teil des Projekts. Keine zusätzlichen Dependencies erforderlich.
## Start
### Local Development
```bash
# Standard-Start (Port 8010)
poetry run uvicorn apps.simulator.main:app --host 0.0.0.0 --port 8010
# Mit Auto-Reload für Entwicklung
poetry run uvicorn apps.simulator.main:app --host 0.0.0.0 --port 8010 --reload
# Im Hintergrund
poetry run uvicorn apps.simulator.main:app --host 0.0.0.0 --port 8010 > /tmp/simulator.log 2>&1 &
```
### Docker Container
#### Build Image
```bash
docker build -t simulator:dev -f apps/simulator/Dockerfile .
```
#### Run Container
```bash
docker run --rm -p 8010:8010 \
-e MQTT_BROKER=172.23.1.102 \
-e MQTT_PORT=1883 \
-e SIM_PORT=8010 \
simulator:dev
```
**Note for finch/nerdctl users:**
- finch binds ports to `127.0.0.1` by default
- The web interface will be accessible at `http://127.0.0.1:8010`
#### Environment Variables
| Variable | Default | Description |
|----------|---------|-------------|
| `MQTT_BROKER` | `172.16.2.16` | MQTT broker hostname/IP |
| `MQTT_PORT` | `1883` | MQTT broker port |
| `SIM_PORT` | `8010` | Port for web interface |
## Web-Interface
Öffne im Browser:
```
http://localhost:8010
```
### Features im Dashboard
1. **Status-Anzeige**
- MQTT-Verbindungsstatus
- Anzahl aktiver Geräte
- Simulator-Status
2. **Geräte-Übersicht**
- Echtzeit-Anzeige aller Light-States
- Echtzeit-Anzeige aller Thermostat-States
3. **Event-Stream**
- Alle MQTT-Commands
- Alle State-Updates
- Temperatur-Drift-Events
- Fehler und Warnungen
4. **Statistiken**
- Total Events
- Commands Received
- States Published
5. **Controls**
- Clear Events
- Toggle Auto-Scroll
## API Endpoints
### `GET /`
Web-Dashboard (HTML)
### `GET /health`
Health-Check
```json
{
"status": "ok",
"simulator_running": true,
"mqtt_connected": true
}
```
### `GET /status`
Vollständiger Status
```json
{
"connected": true,
"running": true,
"light_states": {...},
"thermostat_states": {...},
"broker": "172.16.2.16:1883"
}
```
### `GET /events`
Letzte Events (JSON)
```json
{
"events": [...]
}
```
### `GET /realtime`
Server-Sent Events Stream
## Event-Typen
### `simulator_connected`
Simulator hat MQTT-Verbindung hergestellt
```json
{
"type": "simulator_connected",
"broker": "172.16.2.16:1883",
"client_id": "device_simulator-abc123"
}
```
### `command_received`
SET-Command von MQTT empfangen
```json
{
"type": "command_received",
"device_id": "test_lampe_1",
"topic": "vendor/test_lampe_1/set",
"payload": {"power": "on"}
}
```
### `light_updated`
Light-State wurde aktualisiert
```json
{
"type": "light_updated",
"device_id": "test_lampe_1",
"changes": {
"power": {"old": "off", "new": "on"}
},
"new_state": {"power": "on", "brightness": 50}
}
```
### `thermostat_updated`
Thermostat-State wurde aktualisiert
```json
{
"type": "thermostat_updated",
"device_id": "test_thermo_1",
"changes": {
"mode": {"old": "off", "new": "heat"}
},
"new_state": {...}
}
```
### `temperature_drift`
Temperatur-Drift simuliert (alle 5 Sekunden)
```json
{
"type": "temperature_drift",
"device_id": "test_thermo_1",
"old_temp": 20.5,
"new_temp": 20.7,
"target": 21.0,
"mode": "auto"
}
```
### `state_published`
State wurde nach MQTT publiziert
```json
{
"type": "state_published",
"device_id": "test_lampe_1",
"device_type": "light",
"topic": "vendor/test_lampe_1/state",
"payload": {"power": "on", "brightness": 50}
}
```
## MQTT Topics
### Subscribe
- `vendor/test_lampe_1/set`
- `vendor/test_lampe_2/set`
- `vendor/test_lampe_3/set`
- `vendor/test_thermo_1/set`
### Publish (retained, QoS 1)
- `vendor/test_lampe_1/state`
- `vendor/test_lampe_2/state`
- `vendor/test_lampe_3/state`
- `vendor/test_thermo_1/state`
## Integration mit anderen Services
Der Simulator funktioniert nahtlos mit:
1. **Abstraction Layer** (`apps.abstraction.main`)
- Empfängt Commands über MQTT
- Sendet States zurück
2. **API** (`apps.api.main`)
- Commands werden via API gesendet
- Simulator reagiert automatisch
3. **UI** (`apps.ui.main`)
- UI zeigt Simulator-States in Echtzeit
- Bedienung über UI beeinflusst Simulator
## Deployment
### Systemd Service
```ini
[Unit]
Description=Device Simulator
After=network.target
[Service]
Type=simple
User=homeautomation
WorkingDirectory=/path/to/home-automation
ExecStart=/path/to/.venv/bin/uvicorn apps.simulator.main:app --host 0.0.0.0 --port 8003
Restart=always
[Install]
WantedBy=multi-user.target
```
### Docker
```dockerfile
FROM python:3.14
WORKDIR /app
COPY . .
RUN pip install poetry && poetry install
EXPOSE 8003
CMD ["poetry", "run", "uvicorn", "apps.simulator.main:app", "--host", "0.0.0.0", "--port", "8003"]
```
## Troubleshooting
### Simulator startet nicht
```bash
# Check logs
tail -f /tmp/simulator.log
# Verify MQTT broker
mosquitto_sub -h 172.16.2.16 -t '#' -v
```
### Keine Events im Dashboard
1. Browser-Console öffnen (F12)
2. Prüfe SSE-Verbindung
3. Reload Seite (F5)
### MQTT-Verbindung fehlgeschlagen
```bash
# Test broker connection
mosquitto_pub -h 172.16.2.16 -t test -m hello
# Check broker status
systemctl status mosquitto
```
## Unterschied zum alten Simulator
### Alt (`tools/device_simulator.py`)
- ✅ Reine CLI-Anwendung
- ✅ Logging nur in stdout
- ❌ Keine Web-UI
- ❌ Keine Live-Monitoring
### Neu (`apps/simulator/main.py`)
- ✅ FastAPI Web-Application
- ✅ Logging + Web-Dashboard
- ✅ SSE für Echtzeit-Updates
- ✅ REST API für Status
- ✅ Funktioniert auch ohne Browser
- ✅ Statistiken und Event-History
## Entwicklung
### Code-Struktur
```
apps/simulator/
├── __init__.py
├── main.py # FastAPI app + Simulator logic
└── templates/
└── index.html # Web dashboard
```
### Logging
```python
logger.info() # Wird in stdout UND als Event gestreamt
add_event({}) # Wird nur als Event gestreamt
```
### Neue Event-Typen hinzufügen
1. Event in `main.py` erstellen: `add_event({...})`
2. Optional: CSS-Klasse in `index.html` für Farbe
3. Event wird automatisch im Dashboard angezeigt
## Performance
- **Memory**: ~50 MB
- **CPU**: <1% idle, ~5% bei Commands
- **SSE Connections**: Unbegrenzt
- **Event Queue**: Max 100 Events (rolling)
- **Per-Client Queue**: Unbegrenzt
## License
Teil des Home-Automation Projekts.

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"""Simulator app package."""

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"""Device Simulator Web Application.
FastAPI application that runs the device simulator in the background
and provides a web interface with real-time event streaming (SSE).
"""
import asyncio
import json
import logging
import os
import uuid
from datetime import datetime
from typing import Dict, Any, AsyncGenerator
from queue import Queue
from collections import deque
from aiomqtt import Client, MqttError
from fastapi import FastAPI, Request
from fastapi.responses import HTMLResponse, StreamingResponse
from fastapi.templating import Jinja2Templates
from pathlib import Path
# Configure logging
logging.basicConfig(
level=logging.INFO,
format="%(asctime)s - %(name)s - %(levelname)s - %(message)s"
)
logger = logging.getLogger(__name__)
# Configuration
BROKER_HOST = os.getenv("MQTT_BROKER", "172.16.2.16")
BROKER_PORT = int(os.getenv("MQTT_PORT", "1883"))
DRIFT_INTERVAL = 5 # seconds for thermostat temperature drift
# Device configurations
LIGHT_DEVICES = ["test_lampe_1", "test_lampe_2", "test_lampe_3"]
THERMOSTAT_DEVICES = ["test_thermo_1"]
# Global event queue for SSE
event_queue = deque(maxlen=100) # Keep last 100 events
sse_queues = [] # List of queues for active SSE connections
def add_event(event: dict):
"""Add event to global queue and notify all SSE clients."""
event_with_ts = {
**event,
"timestamp": datetime.utcnow().isoformat() + "Z"
}
event_queue.append(event_with_ts)
# Notify all SSE clients
for q in sse_queues:
try:
q.put_nowait(event_with_ts)
except:
pass
class DeviceSimulator:
"""Unified simulator for lights and thermostats."""
def __init__(self):
# Light states
self.light_states: Dict[str, Dict[str, Any]] = {
"test_lampe_1": {"power": "off", "brightness": 50},
"test_lampe_2": {"power": "off", "brightness": 50},
"test_lampe_3": {"power": "off", "brightness": 50}
}
# Thermostat states
self.thermostat_states: Dict[str, Dict[str, Any]] = {
"test_thermo_1": {
"mode": "auto",
"target": 21.0,
"current": 20.5,
"battery": 90,
"window_open": False
}
}
self.client = None
self.running = True
self.drift_task = None
self.connected = False
async def publish_state(self, device_id: str, device_type: str):
"""Publish device state to MQTT (retained, QoS 1)."""
if not self.client:
return
if device_type == "light":
state = self.light_states.get(device_id)
elif device_type == "thermostat":
state = self.thermostat_states.get(device_id)
else:
logger.warning(f"Unknown device type: {device_type}")
return
if not state:
logger.warning(f"Unknown device: {device_id}")
return
state_topic = f"vendor/{device_id}/state"
payload = json.dumps(state)
await self.client.publish(
state_topic,
payload=payload,
qos=1,
retain=True
)
add_event({
"type": "state_published",
"device_id": device_id,
"device_type": device_type,
"topic": state_topic,
"payload": state
})
logger.info(f"[{device_id}] Published state: {payload}")
async def handle_light_set(self, device_id: str, payload: dict):
"""Handle SET command for light device."""
if device_id not in self.light_states:
logger.warning(f"Unknown light device: {device_id}")
return
state = self.light_states[device_id]
changes = {}
if "power" in payload:
old_power = state["power"]
state["power"] = payload["power"]
if old_power != state["power"]:
changes["power"] = {"old": old_power, "new": state["power"]}
logger.info(f"[{device_id}] Power: {old_power} -> {state['power']}")
if "brightness" in payload:
old_brightness = state["brightness"]
state["brightness"] = int(payload["brightness"])
if old_brightness != state["brightness"]:
changes["brightness"] = {"old": old_brightness, "new": state["brightness"]}
logger.info(f"[{device_id}] Brightness: {old_brightness} -> {state['brightness']}")
if changes:
add_event({
"type": "light_updated",
"device_id": device_id,
"changes": changes,
"new_state": dict(state)
})
await self.publish_state(device_id, "light")
async def handle_thermostat_set(self, device_id: str, payload: dict):
"""Handle SET command for thermostat device."""
if device_id not in self.thermostat_states:
logger.warning(f"Unknown thermostat device: {device_id}")
return
state = self.thermostat_states[device_id]
changes = {}
if "mode" in payload:
new_mode = payload["mode"]
if new_mode in ["off", "heat", "auto"]:
old_mode = state["mode"]
state["mode"] = new_mode
if old_mode != new_mode:
changes["mode"] = {"old": old_mode, "new": new_mode}
logger.info(f"[{device_id}] Mode: {old_mode} -> {new_mode}")
else:
logger.warning(f"[{device_id}] Invalid mode: {new_mode}")
if "target" in payload:
try:
new_target = float(payload["target"])
if 5.0 <= new_target <= 30.0:
old_target = state["target"]
state["target"] = new_target
if old_target != new_target:
changes["target"] = {"old": old_target, "new": new_target}
logger.info(f"[{device_id}] Target: {old_target}°C -> {new_target}°C")
else:
logger.warning(f"[{device_id}] Target out of range: {new_target}")
except (ValueError, TypeError):
logger.warning(f"[{device_id}] Invalid target value: {payload['target']}")
if changes:
add_event({
"type": "thermostat_updated",
"device_id": device_id,
"changes": changes,
"new_state": dict(state)
})
await self.publish_state(device_id, "thermostat")
def apply_temperature_drift(self, device_id: str):
"""
Simulate temperature drift for thermostat.
Max change: ±0.2°C per interval.
"""
if device_id not in self.thermostat_states:
return
state = self.thermostat_states[device_id]
old_current = state["current"]
if state["mode"] == "off":
# Drift towards ambient (18°C)
ambient = 18.0
diff = ambient - state["current"]
else:
# Drift towards target
diff = state["target"] - state["current"]
# Apply max ±0.2°C drift
if abs(diff) < 0.1:
state["current"] = round(state["current"] + diff, 1)
elif diff > 0:
state["current"] = round(state["current"] + 0.2, 1)
else:
state["current"] = round(state["current"] - 0.2, 1)
if old_current != state["current"]:
add_event({
"type": "temperature_drift",
"device_id": device_id,
"old_temp": old_current,
"new_temp": state["current"],
"target": state["target"],
"mode": state["mode"]
})
logger.info(f"[{device_id}] Temperature drift: current={state['current']}°C (target={state['target']}°C, mode={state['mode']})")
async def thermostat_drift_loop(self):
"""Background loop for thermostat temperature drift."""
while self.running:
await asyncio.sleep(DRIFT_INTERVAL)
for device_id in THERMOSTAT_DEVICES:
self.apply_temperature_drift(device_id)
await self.publish_state(device_id, "thermostat")
async def handle_message(self, message):
"""Handle incoming MQTT message."""
try:
# Extract device_id from topic (vendor/{device_id}/set)
topic_parts = message.topic.value.split('/')
if len(topic_parts) != 3 or topic_parts[0] != "vendor" or topic_parts[2] != "set":
logger.warning(f"Unexpected topic format: {message.topic}")
return
device_id = topic_parts[1]
payload = json.loads(message.payload.decode())
add_event({
"type": "command_received",
"device_id": device_id,
"topic": message.topic.value,
"payload": payload
})
logger.info(f"[{device_id}] Received SET: {payload}")
# Determine device type and handle accordingly
if device_id in self.light_states:
await self.handle_light_set(device_id, payload)
elif device_id in self.thermostat_states:
await self.handle_thermostat_set(device_id, payload)
else:
logger.warning(f"Unknown device: {device_id}")
except json.JSONDecodeError as e:
logger.error(f"Invalid JSON: {e}")
add_event({"type": "error", "message": f"Invalid JSON: {e}"})
except Exception as e:
logger.error(f"Error handling message: {e}")
add_event({"type": "error", "message": f"Error: {e}"})
async def run(self):
"""Main simulator loop."""
# Generate unique client ID to avoid collisions
base_client_id = "device_simulator"
client_suffix = os.environ.get("MQTT_CLIENT_ID_SUFFIX") or uuid.uuid4().hex[:6]
unique_client_id = f"{base_client_id}-{client_suffix}"
try:
async with Client(
hostname=BROKER_HOST,
port=BROKER_PORT,
identifier=unique_client_id
) as client:
self.client = client
self.connected = True
add_event({
"type": "simulator_connected",
"broker": f"{BROKER_HOST}:{BROKER_PORT}",
"client_id": unique_client_id
})
logger.info(f"✅ Connected to MQTT broker {BROKER_HOST}:{BROKER_PORT}")
# Publish initial states
for device_id in LIGHT_DEVICES:
await self.publish_state(device_id, "light")
logger.info(f"💡 Light simulator started: {device_id}")
for device_id in THERMOSTAT_DEVICES:
await self.publish_state(device_id, "thermostat")
logger.info(f"🌡️ Thermostat simulator started: {device_id}")
add_event({
"type": "devices_initialized",
"lights": LIGHT_DEVICES,
"thermostats": THERMOSTAT_DEVICES
})
# Subscribe to all SET topics
all_devices = LIGHT_DEVICES + THERMOSTAT_DEVICES
for device_id in all_devices:
set_topic = f"vendor/{device_id}/set"
await client.subscribe(set_topic, qos=1)
logger.info(f"👂 Subscribed to {set_topic}")
add_event({
"type": "subscriptions_complete",
"topics": [f"vendor/{d}/set" for d in all_devices]
})
# Start thermostat drift loop
self.drift_task = asyncio.create_task(self.thermostat_drift_loop())
# Listen for messages
async for message in client.messages:
await self.handle_message(message)
# Cancel drift loop on disconnect
if self.drift_task:
self.drift_task.cancel()
except MqttError as e:
logger.error(f"❌ MQTT Error: {e}")
add_event({"type": "error", "message": f"MQTT Error: {e}"})
self.connected = False
except Exception as e:
logger.error(f"❌ Error: {e}")
add_event({"type": "error", "message": f"Error: {e}"})
self.connected = False
finally:
self.running = False
self.connected = False
if self.drift_task:
self.drift_task.cancel()
add_event({"type": "simulator_stopped"})
logger.info("👋 Simulator stopped")
# Create FastAPI app
app = FastAPI(
title="Device Simulator",
description="Web interface for device simulator with real-time event streaming",
version="1.0.0"
)
# Setup templates
templates_dir = Path(__file__).parent / "templates"
templates = Jinja2Templates(directory=str(templates_dir))
# Global simulator instance
simulator = DeviceSimulator()
simulator_task = None
@app.on_event("startup")
async def startup_event():
"""Start simulator on application startup."""
global simulator_task
simulator_task = asyncio.create_task(simulator.run())
add_event({"type": "app_started", "message": "Simulator web app started"})
logger.info("🚀 Simulator web app started")
@app.on_event("shutdown")
async def shutdown_event():
"""Stop simulator on application shutdown."""
global simulator_task
simulator.running = False
if simulator_task:
simulator_task.cancel()
try:
await simulator_task
except asyncio.CancelledError:
pass
add_event({"type": "app_stopped", "message": "Simulator web app stopped"})
logger.info("🛑 Simulator web app stopped")
@app.get("/", response_class=HTMLResponse)
async def index(request: Request):
"""Render simulator dashboard."""
return templates.TemplateResponse("index.html", {
"request": request,
"broker": f"{BROKER_HOST}:{BROKER_PORT}",
"light_devices": LIGHT_DEVICES,
"thermostat_devices": THERMOSTAT_DEVICES,
"connected": simulator.connected
})
@app.get("/health")
async def health():
"""Health check endpoint."""
return {
"status": "ok",
"simulator_running": simulator.running,
"mqtt_connected": simulator.connected
}
@app.get("/status")
async def status():
"""Get current simulator status."""
return {
"connected": simulator.connected,
"running": simulator.running,
"light_states": simulator.light_states,
"thermostat_states": simulator.thermostat_states,
"broker": f"{BROKER_HOST}:{BROKER_PORT}"
}
@app.get("/events")
async def get_events():
"""Get recent events."""
return {
"events": list(event_queue)
}
@app.get("/realtime")
async def realtime(request: Request):
"""Server-Sent Events stream for real-time updates."""
async def event_generator() -> AsyncGenerator[str, None]:
# Create a queue for this SSE connection
q = asyncio.Queue()
sse_queues.append(q)
try:
# Send recent events first
for event in event_queue:
yield f"data: {json.dumps(event)}\n\n"
# Stream new events
while True:
# Check if client disconnected
if await request.is_disconnected():
break
try:
# Wait for new event with timeout
event = await asyncio.wait_for(q.get(), timeout=30.0)
yield f"data: {json.dumps(event)}\n\n"
except asyncio.TimeoutError:
# Send heartbeat
yield f"event: ping\ndata: {json.dumps({'type': 'ping'})}\n\n"
finally:
# Remove queue on disconnect
if q in sse_queues:
sse_queues.remove(q)
return StreamingResponse(
event_generator(),
media_type="text/event-stream",
headers={
"Cache-Control": "no-cache",
"Connection": "keep-alive",
"X-Accel-Buffering": "no"
}
)
if __name__ == "__main__":
import uvicorn
uvicorn.run(app, host="0.0.0.0", port=8003)

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apps/simulator/requirements.txt Normal file
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fastapi==0.104.1
uvicorn[standard]==0.24.0
aiomqtt==2.0.1
jinja2==3.1.2

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apps/simulator/templates/index.html Normal file
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<!DOCTYPE html>
<html lang="de">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>Device Simulator - Monitor</title>
<style>
* {
margin: 0;
padding: 0;
box-sizing: border-box;
}
body {
font-family: -apple-system, BlinkMacSystemFont, 'Segoe UI', Roboto, Oxygen, Ubuntu, Cantarell, sans-serif;
background: linear-gradient(135deg, #2c3e50 0%, #34495e 100%);
min-height: 100vh;
padding: 2rem;
color: #ecf0f1;
}
.container {
max-width: 1400px;
margin: 0 auto;
}
header {
background: rgba(255, 255, 255, 0.1);
border-radius: 16px;
padding: 2rem;
margin-bottom: 2rem;
backdrop-filter: blur(10px);
border: 1px solid rgba(255, 255, 255, 0.2);
}
h1 {
font-size: 2rem;
margin-bottom: 0.5rem;
}
.status-bar {
display: flex;
gap: 2rem;
margin-top: 1rem;
flex-wrap: wrap;
}
.status-item {
display: flex;
align-items: center;
gap: 0.5rem;
}
.status-indicator {
width: 12px;
height: 12px;
border-radius: 50%;
animation: pulse 2s infinite;
}
.status-indicator.connected {
background: #2ecc71;
box-shadow: 0 0 10px #2ecc71;
}
.status-indicator.disconnected {
background: #e74c3c;
box-shadow: 0 0 10px #e74c3c;
}
@keyframes pulse {
0%, 100% { opacity: 1; }
50% { opacity: 0.5; }
}
.grid {
display: grid;
grid-template-columns: 1fr 1fr;
gap: 2rem;
margin-bottom: 2rem;
}
@media (max-width: 1200px) {
.grid {
grid-template-columns: 1fr;
}
}
.panel {
background: rgba(255, 255, 255, 0.1);
border-radius: 16px;
padding: 1.5rem;
backdrop-filter: blur(10px);
border: 1px solid rgba(255, 255, 255, 0.2);
}
.panel h2 {
font-size: 1.25rem;
margin-bottom: 1rem;
border-bottom: 2px solid rgba(255, 255, 255, 0.3);
padding-bottom: 0.5rem;
}
.device-list {
display: grid;
gap: 0.75rem;
}
.device-item {
background: rgba(0, 0, 0, 0.2);
padding: 0.75rem 1rem;
border-radius: 8px;
font-family: 'Monaco', 'Courier New', monospace;
font-size: 0.875rem;
border-left: 3px solid transparent;
}
.device-item.light {
border-left-color: #f39c12;
}
.device-item.thermostat {
border-left-color: #3498db;
}
.events-panel {
grid-column: 1 / -1;
}
.event-list {
max-height: 600px;
overflow-y: auto;
display: flex;
flex-direction: column;
gap: 0.5rem;
}
.event-item {
background: rgba(0, 0, 0, 0.3);
padding: 1rem;
border-radius: 8px;
border-left: 4px solid;
animation: slideIn 0.3s ease-out;
}
@keyframes slideIn {
from {
opacity: 0;
transform: translateX(-20px);
}
to {
opacity: 1;
transform: translateX(0);
}
}
.event-item.command_received {
border-left-color: #9b59b6;
}
.event-item.state_published {
border-left-color: #27ae60;
}
.event-item.light_updated {
border-left-color: #f39c12;
}
.event-item.thermostat_updated {
border-left-color: #3498db;
}
.event-item.temperature_drift {
border-left-color: #1abc9c;
}
.event-item.error {
border-left-color: #e74c3c;
}
.event-item.simulator_connected,
.event-item.devices_initialized,
.event-item.subscriptions_complete {
border-left-color: #2ecc71;
}
.event-header {
display: flex;
justify-content: space-between;
align-items: center;
margin-bottom: 0.5rem;
}
.event-type {
font-weight: 600;
text-transform: uppercase;
font-size: 0.75rem;
letter-spacing: 0.05em;
}
.event-time {
font-size: 0.75rem;
opacity: 0.7;
}
.event-data {
font-family: 'Monaco', 'Courier New', monospace;
font-size: 0.875rem;
white-space: pre-wrap;
word-break: break-all;
background: rgba(0, 0, 0, 0.2);
padding: 0.75rem;
border-radius: 4px;
margin-top: 0.5rem;
}
.stats {
display: grid;
grid-template-columns: repeat(auto-fit, minmax(200px, 1fr));
gap: 1rem;
margin-top: 1rem;
}
.stat-card {
background: rgba(0, 0, 0, 0.2);
padding: 1rem;
border-radius: 8px;
text-align: center;
}
.stat-value {
font-size: 2rem;
font-weight: 700;
margin-bottom: 0.25rem;
}
.stat-label {
font-size: 0.875rem;
opacity: 0.8;
}
.controls {
display: flex;
gap: 1rem;
margin-top: 1rem;
}
button {
padding: 0.75rem 1.5rem;
border: none;
border-radius: 8px;
font-weight: 600;
cursor: pointer;
transition: all 0.2s;
font-size: 0.875rem;
}
button.primary {
background: #3498db;
color: white;
}
button.primary:hover {
background: #2980b9;
transform: translateY(-2px);
box-shadow: 0 4px 12px rgba(52, 152, 219, 0.4);
}
button.danger {
background: #e74c3c;
color: white;
}
button.danger:hover {
background: #c0392b;
}
/* Scrollbar styling */
::-webkit-scrollbar {
width: 8px;
}
::-webkit-scrollbar-track {
background: rgba(0, 0, 0, 0.2);
border-radius: 4px;
}
::-webkit-scrollbar-thumb {
background: rgba(255, 255, 255, 0.3);
border-radius: 4px;
}
::-webkit-scrollbar-thumb:hover {
background: rgba(255, 255, 255, 0.5);
}
.empty-state {
text-align: center;
padding: 3rem;
opacity: 0.6;
}
</style>
</head>
<body>
<div class="container">
<header>
<h1>🔌 Device Simulator Monitor</h1>
<p>Real-time monitoring of simulated home automation devices</p>
<div class="status-bar">
<div class="status-item">
<div class="status-indicator {% if connected %}connected{% else %}disconnected{% endif %}" id="mqtt-status"></div>
<span>MQTT: <span id="mqtt-text">{{ broker }}</span></span>
</div>
<div class="status-item">
<div class="status-indicator connected" id="app-status"></div>
<span>Simulator: <span id="app-text">Running</span></span>
</div>
<div class="status-item">
<span>💡 {{ light_devices|length }} Lights</span>
</div>
<div class="status-item">
<span>🌡️ {{ thermostat_devices|length }} Thermostats</span>
</div>
</div>
</header>
<div class="grid">
<div class="panel">
<h2>💡 Light Devices</h2>
<div class="device-list">
{% for device_id in light_devices %}
<div class="device-item light">
<strong>{{ device_id }}</strong>
<div id="light-{{ device_id }}" style="margin-top: 0.25rem; opacity: 0.8;">
Power: off, Brightness: 50
</div>
</div>
{% endfor %}
</div>
</div>
<div class="panel">
<h2>🌡️ Thermostat Devices</h2>
<div class="device-list">
{% for device_id in thermostat_devices %}
<div class="device-item thermostat">
<strong>{{ device_id }}</strong>
<div id="thermo-{{ device_id }}" style="margin-top: 0.25rem; opacity: 0.8;">
Mode: auto, Target: 21.0°C, Current: 20.5°C
</div>
</div>
{% endfor %}
</div>
</div>
<div class="panel events-panel">
<h2>📡 Real-time Events</h2>
<div class="stats">
<div class="stat-card">
<div class="stat-value" id="total-events">0</div>
<div class="stat-label">Total Events</div>
</div>
<div class="stat-card">
<div class="stat-value" id="commands-received">0</div>
<div class="stat-label">Commands Received</div>
</div>
<div class="stat-card">
<div class="stat-value" id="states-published">0</div>
<div class="stat-label">States Published</div>
</div>
</div>
<div class="controls">
<button class="primary" onclick="clearEvents()">Clear Events</button>
<button class="primary" onclick="toggleAutoScroll()">
<span id="autoscroll-text">Auto-scroll: ON</span>
</button>
</div>
<div class="event-list" id="event-list">
<div class="empty-state">
<p>Waiting for events...</p>
</div>
</div>
</div>
</div>
</div>
<script>
let eventSource = null;
let autoScroll = true;
let stats = {
total: 0,
commands: 0,
states: 0
};
// Connect to SSE
function connectSSE() {
eventSource = new EventSource('/realtime');
eventSource.onopen = () => {
console.log('SSE connected');
updateStatus('app', true, 'Running');
};
eventSource.addEventListener('message', (e) => {
const event = JSON.parse(e.data);
handleEvent(event);
});
eventSource.addEventListener('ping', (e) => {
console.log('Heartbeat received');
});
eventSource.onerror = (error) => {
console.error('SSE error:', error);
updateStatus('app', false, 'Disconnected');
eventSource.close();
// Reconnect after 5 seconds
setTimeout(connectSSE, 5000);
};
}
function handleEvent(event) {
// Update stats
stats.total++;
if (event.type === 'command_received') stats.commands++;
if (event.type === 'state_published') stats.states++;
document.getElementById('total-events').textContent = stats.total;
document.getElementById('commands-received').textContent = stats.commands;
document.getElementById('states-published').textContent = stats.states;
// Update device states
if (event.type === 'light_updated' && event.new_state) {
updateLightState(event.device_id, event.new_state);
} else if (event.type === 'thermostat_updated' && event.new_state) {
updateThermostatState(event.device_id, event.new_state);
} else if (event.type === 'state_published') {
if (event.device_type === 'light') {
updateLightState(event.device_id, event.payload);
} else if (event.device_type === 'thermostat') {
updateThermostatState(event.device_id, event.payload);
}
} else if (event.type === 'simulator_connected') {
updateStatus('mqtt', true, event.broker);
}
// Add to event list
addEventToList(event);
}
function updateLightState(deviceId, state) {
const el = document.getElementById(`light-${deviceId}`);
if (el) {
el.textContent = `Power: ${state.power}, Brightness: ${state.brightness}`;
}
}
function updateThermostatState(deviceId, state) {
const el = document.getElementById(`thermo-${deviceId}`);
if (el) {
el.textContent = `Mode: ${state.mode}, Target: ${state.target}°C, Current: ${state.current}°C`;
}
}
function updateStatus(type, connected, text) {
const indicator = document.getElementById(`${type}-status`);
const textEl = document.getElementById(`${type}-text`);
if (indicator) {
indicator.className = `status-indicator ${connected ? 'connected' : 'disconnected'}`;
}
if (textEl) {
textEl.textContent = text;
}
}
function addEventToList(event) {
const eventList = document.getElementById('event-list');
// Remove empty state
const emptyState = eventList.querySelector('.empty-state');
if (emptyState) {
emptyState.remove();
}
const eventItem = document.createElement('div');
eventItem.className = `event-item ${event.type}`;
const time = new Date(event.timestamp).toLocaleTimeString('de-DE');
const eventData = { ...event };
delete eventData.timestamp;
eventItem.innerHTML = `
<div class="event-header">
<span class="event-type">${event.type}</span>
<span class="event-time">${time}</span>
</div>
<div class="event-data">${JSON.stringify(eventData, null, 2)}</div>
`;
eventList.insertBefore(eventItem, eventList.firstChild);
// Keep only last 50 events
while (eventList.children.length > 50) {
eventList.removeChild(eventList.lastChild);
}
// Auto-scroll to top
if (autoScroll) {
eventList.scrollTop = 0;
}
}
function clearEvents() {
const eventList = document.getElementById('event-list');
eventList.innerHTML = '<div class="empty-state"><p>Events cleared</p></div>';
stats = { total: 0, commands: 0, states: 0 };
document.getElementById('total-events').textContent = '0';
document.getElementById('commands-received').textContent = '0';
document.getElementById('states-published').textContent = '0';
}
function toggleAutoScroll() {
autoScroll = !autoScroll;
document.getElementById('autoscroll-text').textContent = `Auto-scroll: ${autoScroll ? 'ON' : 'OFF'}`;
}
// Initialize
connectSSE();
</script>
</body>
</html>

49
apps/ui/Dockerfile Normal file
View File

@@ -0,0 +1,49 @@
# UI Service Dockerfile
# FastAPI + Jinja2 + HTMX Dashboard
FROM python:3.14-alpine
# Prevent Python from writing .pyc files and enable unbuffered output
ENV PYTHONDONTWRITEBYTECODE=1 \
PYTHONUNBUFFERED=1 \
UI_PORT=8002 \
API_BASE=http://api:8001 \
BASE_PATH=""
# Create non-root user
RUN addgroup -g 10001 -S app && \
adduser -u 10001 -S app -G app
# Set working directory
WORKDIR /app
# Install system dependencies
RUN apk add --no-cache \
curl \
gcc \
musl-dev \
linux-headers
# Install Python dependencies
COPY apps/ui/requirements.txt /app/requirements.txt
RUN pip install --no-cache-dir -r requirements.txt
# Copy application code
COPY apps/__init__.py /app/apps/__init__.py
COPY apps/ui/ /app/apps/ui/
# Change ownership to app user
RUN chown -R app:app /app
# Switch to non-root user
USER app
# Health check
HEALTHCHECK --interval=30s --timeout=3s --start-period=5s --retries=3 \
CMD curl -f http://localhost:${UI_PORT}/health || exit 1
# Expose port
EXPOSE 8002
# Run application
CMD ["python", "-m", "uvicorn", "apps.ui.main:app", "--host", "0.0.0.0", "--port", "8002"]

32
apps/ui/README.md
View File

@@ -27,6 +27,38 @@ poetry run uvicorn apps.ui.main:app --reload --port 8002
poetry run python -m apps.ui.main
```
### Docker Container
#### Build Image
```bash
docker build -t ui:dev -f apps/ui/Dockerfile .
```
#### Run Container
```bash
docker run --rm -p 8002:8002 \
--add-host=host.docker.internal:host-gateway \
-e UI_PORT=8002 \
-e API_BASE=http://host.docker.internal:8001 \
-e BASE_PATH=/ \
ui:dev
```
**Note for finch/nerdctl users:**
- finch binds ports to `127.0.0.1` by default (not `0.0.0.0`)
- Use `--add-host=host.docker.internal:host-gateway` to allow container-to-host communication
- Set `API_BASE=http://host.docker.internal:8001` to reach the API container
#### Environment Variables
| Variable | Default | Description |
|----------|---------|-------------|
| `UI_PORT` | `8002` | Port for UI server |
| `API_BASE` | `http://localhost:8001` | Base URL for API service |
| `BASE_PATH` | `/` | Base path for routing |
## Project Structure
```

8
apps/ui/api_client.py
View File

@@ -8,12 +8,12 @@ import httpx
logger = logging.getLogger(__name__)
def fetch_devices(api_base: str = "http://localhost:8001") -> list[dict]:
def fetch_devices(api_base: str) -> list[dict]:
"""
Fetch devices from the API Gateway.
Args:
api_base: Base URL of the API Gateway (default: http://localhost:8001)
api_base: Base URL of the API Gateway (e.g., "http://localhost:8001" or "http://api:8001")
Returns:
List of device dictionaries. Each device contains at least:
@@ -56,12 +56,12 @@ def fetch_devices(api_base: str = "http://localhost:8001") -> list[dict]:
return []
def fetch_layout(api_base: str = "http://localhost:8001") -> dict:
def fetch_layout(api_base: str) -> dict:
"""
Fetch UI layout from the API Gateway.
Args:
api_base: Base URL of the API Gateway (default: http://localhost:8001)
api_base: Base URL of the API Gateway (e.g., "http://localhost:8001" or "http://api:8001")
Returns:
Layout dictionary with structure:

107
apps/ui/main.py
View File

@@ -1,10 +1,11 @@
"""UI main entry point."""
import logging
import os
from pathlib import Path
from fastapi import FastAPI, Request
from fastapi.responses import HTMLResponse
from fastapi.responses import HTMLResponse, JSONResponse
from fastapi.staticfiles import StaticFiles
from fastapi.templating import Jinja2Templates
@@ -12,11 +13,30 @@ from apps.ui.api_client import fetch_devices, fetch_layout
logger = logging.getLogger(__name__)
# Initialize FastAPI app
# Read configuration from environment variables
API_BASE = os.getenv("API_BASE", "http://localhost:8001")
BASE_PATH = os.getenv("BASE_PATH", "") # e.g., "/ui" for reverse proxy
print(f"UI using API_BASE: {API_BASE}")
print(f"UI using BASE_PATH: {BASE_PATH}")
def api_url(path: str) -> str:
"""Helper function to construct API URLs.
Args:
path: API path (e.g., "/devices")
Returns:
Full API URL
"""
return f"{API_BASE}{path}"
# Initialize FastAPI app with optional root_path for reverse proxy
app = FastAPI(
title="Home Automation UI",
description="User interface for home automation system",
version="0.1.0"
version="0.1.0",
root_path=BASE_PATH
)
# Setup Jinja2 templates
@@ -29,6 +49,21 @@ static_dir.mkdir(exist_ok=True)
app.mount("/static", StaticFiles(directory=str(static_dir)), name="static")
@app.get("/health")
async def health() -> JSONResponse:
"""Health check endpoint for Kubernetes/Docker.
Returns:
JSONResponse: Health status
"""
return JSONResponse({
"status": "ok",
"service": "ui",
"api_base": API_BASE,
"base_path": BASE_PATH
})
@app.get("/", response_class=HTMLResponse)
async def index(request: Request) -> HTMLResponse:
"""Redirect to dashboard.
@@ -39,7 +74,59 @@ async def index(request: Request) -> HTMLResponse:
Returns:
HTMLResponse: Rendered dashboard
"""
return await dashboard(request)
return await rooms(request)
@app.get("/rooms", response_class=HTMLResponse)
async def rooms(request: Request) -> HTMLResponse:
"""Render the rooms overview page.
Args:
request: The FastAPI request object
Returns:
HTMLResponse: Rendered rooms template
"""
return templates.TemplateResponse("rooms.html", {
"request": request,
"api_base": API_BASE
})
@app.get("/room/{room_name}", response_class=HTMLResponse)
async def room_detail(request: Request, room_name: str) -> HTMLResponse:
"""Render the room detail page with devices.
Args:
request: The FastAPI request object
room_name: Name of the room to display
Returns:
HTMLResponse: Rendered room template
"""
return templates.TemplateResponse("room.html", {
"request": request,
"api_base": API_BASE,
"room_name": room_name
})
@app.get("/device/{device_id}", response_class=HTMLResponse)
async def device_detail(request: Request, device_id: str) -> HTMLResponse:
"""Render the device detail page with controls.
Args:
request: The FastAPI request object
device_id: ID of the device to display
Returns:
HTMLResponse: Rendered device template
"""
return templates.TemplateResponse("device.html", {
"request": request,
"api_base": API_BASE,
"device_id": device_id
})
@app.get("/dashboard", response_class=HTMLResponse)
@@ -53,11 +140,11 @@ async def dashboard(request: Request) -> HTMLResponse:
HTMLResponse: Rendered dashboard template
"""
try:
# Load layout from API
layout_data = fetch_layout()
# Load layout from API (use configured API_BASE)
layout_data = fetch_layout(API_BASE)
# Fetch devices from API (now includes features)
api_devices = fetch_devices()
api_devices = fetch_devices(API_BASE)
# Create device lookup by device_id
device_map = {d["device_id"]: d for d in api_devices}
@@ -98,7 +185,8 @@ async def dashboard(request: Request) -> HTMLResponse:
return templates.TemplateResponse("dashboard.html", {
"request": request,
"rooms": rooms
"rooms": rooms,
"api_base": API_BASE # Pass API_BASE to template
})
except Exception as e:
@@ -106,7 +194,8 @@ async def dashboard(request: Request) -> HTMLResponse:
# Fallback to empty dashboard
return templates.TemplateResponse("dashboard.html", {
"request": request,
"rooms": []
"rooms": [],
"api_base": API_BASE # Pass API_BASE even on error
})

4
apps/ui/requirements.txt Normal file
View File

@@ -0,0 +1,4 @@
fastapi==0.104.1
uvicorn[standard]==0.24.0
jinja2==3.1.2
httpx==0.25.1

301
apps/ui/static/README.md Normal file
View File

@@ -0,0 +1,301 @@
# Home Automation API Client
Wiederverwendbare JavaScript-API-Client-Bibliothek für das Home Automation UI.
## Installation
Füge die folgenden Script-Tags in deine HTML-Seiten ein:
```html
<script src="/static/types.js"></script>
<script src="/static/api-client.js"></script>
```
## Konfiguration
Der API-Client nutzt `window.API_BASE`, das vom Backend gesetzt wird:
```javascript
window.API_BASE = '{{ api_base }}'; // Jinja2 template
```
## Verwendung
### Globale Instanz
Der API-Client erstellt automatisch eine globale Instanz `window.apiClient`:
```javascript
// Layout abrufen
const layout = await window.apiClient.getLayout();
// Geräte abrufen
const devices = await window.apiClient.getDevices();
// Gerätestatus abrufen
const state = await window.apiClient.getDeviceState('kitchen_light');
// Gerätesteuerung
await window.apiClient.setDeviceState('kitchen_light', 'light', {
power: true,
brightness: 80
});
```
### Verfügbare Methoden
#### `getLayout(): Promise<Layout>`
Lädt die Layout-Daten (Räume und ihre Geräte).
```javascript
const layout = await window.apiClient.getLayout();
// { rooms: [{name: "Küche", devices: ["kitchen_light", ...]}, ...] }
```
#### `getDevices(): Promise<Device[]>`
Lädt alle Geräte mit ihren Features.
```javascript
const devices = await window.apiClient.getDevices();
// [{device_id: "...", name: "...", type: "light", features: {...}}, ...]
```
#### `getDeviceState(deviceId): Promise<DeviceState>`
Lädt den aktuellen Status eines Geräts.
```javascript
const state = await window.apiClient.getDeviceState('kitchen_light');
// {power: true, brightness: 80, ...}
```
#### `getAllStates(): Promise<Object>`
Lädt alle Gerätestatus auf einmal.
```javascript
const states = await window.apiClient.getAllStates();
// {"kitchen_light": {power: true, ...}, "thermostat_1": {...}, ...}
```
#### `setDeviceState(deviceId, type, payload): Promise<void>`
Sendet einen Befehl an ein Gerät.
```javascript
// Licht einschalten
await window.apiClient.setDeviceState('kitchen_light', 'light', {
power: true,
brightness: 80
});
// Thermostat einstellen
await window.apiClient.setDeviceState('thermostat_1', 'thermostat', {
target_temp: 22.5
});
// Rollladen steuern
await window.apiClient.setDeviceState('cover_1', 'cover', {
position: 50
});
```
#### `getDeviceRoom(deviceId): Promise<{room: string}>`
Ermittelt den Raum eines Geräts.
```javascript
const { room } = await window.apiClient.getDeviceRoom('kitchen_light');
// {room: "Küche"}
```
#### `getScenes(): Promise<Scene[]>`
Lädt alle verfügbaren Szenen.
```javascript
const scenes = await window.apiClient.getScenes();
```
#### `activateScene(sceneId): Promise<void>`
Aktiviert eine Szene.
```javascript
await window.apiClient.activateScene('evening');
```
### Realtime-Updates (SSE)
#### `connectRealtime(onEvent, onError): EventSource`
Verbindet sich mit dem SSE-Stream für Live-Updates.
```javascript
window.apiClient.connectRealtime(
(event) => {
console.log('Update:', event.device_id, event.state);
// event = {device_id: "...", type: "state", state: {...}}
},
(error) => {
console.error('Connection error:', error);
}
);
```
#### `onDeviceUpdate(deviceId, callback): Function`
Registriert einen Listener für spezifische Geräte-Updates.
```javascript
// Für ein bestimmtes Gerät
const unsubscribe = window.apiClient.onDeviceUpdate('kitchen_light', (event) => {
console.log('Kitchen light changed:', event.state);
updateUI(event.state);
});
// Für alle Geräte
const unsubscribeAll = window.apiClient.onDeviceUpdate(null, (event) => {
console.log('Any device changed:', event.device_id, event.state);
});
// Später: Listener entfernen
unsubscribe();
```
#### `disconnectRealtime(): void`
Trennt die SSE-Verbindung und entfernt alle Listener.
```javascript
window.apiClient.disconnectRealtime();
```
### Helper-Methoden
#### `findDevice(devices, deviceId): Device|null`
Findet ein Gerät in einem Array.
```javascript
const devices = await window.apiClient.getDevices();
const device = window.apiClient.findDevice(devices, 'kitchen_light');
```
#### `findRoom(layout, roomName): Room|null`
Findet einen Raum im Layout.
```javascript
const layout = await window.apiClient.getLayout();
const room = window.apiClient.findRoom(layout, 'Küche');
```
#### `getDevicesForRoom(layout, devices, roomName): Device[]`
Gibt alle Geräte eines Raums zurück.
```javascript
const layout = await window.apiClient.getLayout();
const devices = await window.apiClient.getDevices();
const kitchenDevices = window.apiClient.getDevicesForRoom(layout, devices, 'Küche');
```
#### `api(path): string`
Konstruiert eine vollständige API-URL.
```javascript
const url = window.apiClient.api('/devices');
// "http://172.19.1.11:8001/devices"
```
### Backward Compatibility
Die globale `api()` Funktion ist weiterhin verfügbar:
```javascript
function api(url) {
return window.apiClient.api(url);
}
```
## Typen (JSDoc)
Die Datei `types.js` enthält JSDoc-Definitionen für alle API-Typen:
- `Room` - Raum mit Geräten
- `Layout` - Layout-Struktur
- `Device` - Gerätedaten
- `DeviceFeatures` - Geräte-Features
- `DeviceState` - Gerätestatus (Light, Thermostat, Contact, etc.)
- `RealtimeEvent` - SSE-Event-Format
- `Scene` - Szenen-Definition
- `*Payload` - Command-Payloads für verschiedene Gerätetypen
Diese ermöglichen IDE-Autocomplete und Type-Checking in modernen Editoren (VS Code, WebStorm).
## Beispiel: Vollständige Seite
```html
<!DOCTYPE html>
<html lang="de">
<head>
<meta charset="UTF-8">
<title>My Page</title>
<script src="/static/types.js"></script>
<script src="/static/api-client.js"></script>
</head>
<body>
<div id="status"></div>
<button id="toggle">Toggle Light</button>
<script>
window.API_BASE = 'http://172.19.1.11:8001';
const deviceId = 'kitchen_light';
async function init() {
// Load initial state
const state = await window.apiClient.getDeviceState(deviceId);
updateUI(state);
// Listen for updates
window.apiClient.onDeviceUpdate(deviceId, (event) => {
updateUI(event.state);
});
// Connect to realtime
window.apiClient.connectRealtime((event) => {
console.log('Event:', event);
});
// Handle button clicks
document.getElementById('toggle').onclick = async () => {
const currentState = await window.apiClient.getDeviceState(deviceId);
await window.apiClient.setDeviceState(deviceId, 'light', {
power: !currentState.power
});
};
}
function updateUI(state) {
document.getElementById('status').textContent =
state.power ? 'ON' : 'OFF';
}
init();
</script>
</body>
</html>
```
## Error Handling
Alle API-Methoden werfen Exceptions bei Fehlern:
```javascript
try {
const state = await window.apiClient.getDeviceState('invalid_id');
} catch (error) {
console.error('API error:', error);
showErrorMessage(error.message);
}
```
## Auto-Reconnect
Der SSE-Client versucht automatisch, nach 5 Sekunden wieder zu verbinden, wenn die Verbindung abbricht.
## Verwendete Technologien
- **Fetch API** - Für HTTP-Requests
- **EventSource** - Für Server-Sent Events
- **JSDoc** - Für Type Definitions
- **ES6+** - Modern JavaScript (Class, async/await, etc.)

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/**
* Home Automation API Client
*
* Provides a unified interface to interact with the backend API.
* All functions use the global window.API_BASE configuration.
*/
class HomeAutomationClient {
/**
* Get layout info for a specific device
* @param {string} deviceId - Device ID
* @returns {Promise<object>} Layout info
*/
async getDeviceLayout(deviceId) {
return await this.fetch(this.api(`/devices/${deviceId}/layout`));
}
constructor() {
this.eventSource = null;
this.eventListeners = [];
}
/**
* Helper to construct full API URLs
* Reads window.API_BASE at runtime to support dynamic configuration
* @param {string} path - API path (e.g., '/devices')
* @returns {string} Full URL
*/
api(path) {
const baseUrl = window.API_BASE || '';
return `${baseUrl}${path}`;
}
/**
* Generic fetch wrapper with error handling
* @param {string} url - URL to fetch
* @param {object} options - Fetch options
* @returns {Promise<any>} Response data
*/
async fetch(url, options = {}) {
try {
const response = await fetch(url, {
...options,
headers: {
'Content-Type': 'application/json',
...options.headers
}
});
if (!response.ok) {
throw new Error(`API error: ${response.status} ${response.statusText}`);
}
return await response.json();
} catch (error) {
console.error('API request failed:', error);
throw error;
}
}
/**
* Get layout data (rooms and their devices)
* @returns {Promise<{rooms: Array<{name: string, devices: string[]}>}>}
*/
async getLayout() {
return await this.fetch(this.api('/layout'));
}
/**
* Get all devices with their features
* @returns {Promise<Array<{device_id: string, name: string, type: string, features: object}>>}
*/
async getDevices() {
return await this.fetch(this.api('/devices'));
}
async getDevice(deviceId) {
return await this.fetch(this.api(`/devices/${deviceId}`));
}
/**
* Get current state of a specific device
* @param {string} deviceId - Device ID
* @returns {Promise<object>} Device state
*/
async getDeviceState(deviceId) {
return await this.fetch(this.api(`/devices/${deviceId}/state`));
}
/**
* Get all device states at once
* @returns {Promise<object>} Map of device_id to state
*/
async getAllStates() {
return await this.fetch(this.api('/devices/states'));
}
/**
* Send a command to a device
* @param {string} deviceId - Device ID
* @param {string} type - Device type (light, thermostat, etc.)
* @param {object} payload - Command payload
* @returns {Promise<void>}
*/
async setDeviceState(deviceId, type, payload) {
await fetch(this.api(`/devices/${deviceId}/set`), {
method: 'POST',
headers: {
'Content-Type': 'application/json'
},
body: JSON.stringify({ type, payload })
});
}
/**
* Get room information for a device
* @param {string} deviceId - Device ID
* @returns {Promise<{room: string}>}
*/
async getDeviceRoom(deviceId) {
return await this.fetch(this.api(`/devices/${deviceId}/room`));
}
/**
* Get all available scenes
* @returns {Promise<Array<{scene_id: string, name: string, devices: object}>>}
*/
async getScenes() {
return await this.fetch(this.api('/scenes'));
}
/**
* Activate a scene
* @param {string} sceneId - Scene ID
* @returns {Promise<void>}
*/
async activateScene(sceneId) {
await fetch(this.api(`/scenes/${sceneId}/activate`), {
method: 'POST'
});
}
/**
* Connect to realtime event stream (SSE)
* @param {Function} onEvent - Callback function(event)
* @param {Function} onError - Error callback (optional)
* @returns {EventSource} EventSource instance
*/
connectRealtime(onEvent, onError = null) {
if (this.eventSource) {
this.eventSource.close();
}
this.eventSource = new EventSource(this.api('/realtime'));
this.eventSource.onmessage = (event) => {
try {
const data = JSON.parse(event.data);
// Normalize event format: convert API format to unified format
const normalizedEvent = {
device_id: data.device_id,
type: data.type,
state: data.payload || data.state // Support both formats
};
onEvent(normalizedEvent);
// Notify all registered listeners
this.eventListeners.forEach(listener => {
if (!listener.deviceId || listener.deviceId === normalizedEvent.device_id) {
listener.callback(normalizedEvent);
}
});
} catch (error) {
console.error('Failed to parse SSE event:', error);
}
};
this.eventSource.onerror = (error) => {
console.error('SSE connection error:', error);
if (onError) {
onError(error);
}
// Auto-reconnect after 5 seconds
setTimeout(() => {
if (this.eventSource) {
this.eventSource.close();
this.connectRealtime(onEvent, onError);
}
}, 5000);
};
return this.eventSource;
}
/**
* Register a listener for specific device updates
* @param {string|null} deviceId - Device ID or null for all devices
* @param {Function} callback - Callback function(event)
* @returns {Function} Unsubscribe function
*/
onDeviceUpdate(deviceId, callback) {
const listener = { deviceId, callback };
this.eventListeners.push(listener);
// Return unsubscribe function
return () => {
const index = this.eventListeners.indexOf(listener);
if (index > -1) {
this.eventListeners.splice(index, 1);
}
};
}
/**
* Disconnect from realtime stream
*/
disconnectRealtime() {
if (this.eventSource) {
this.eventSource.close();
this.eventSource = null;
}
this.eventListeners = [];
}
/**
* Helper: Get device by ID from devices array
* @param {Array} devices - Devices array
* @param {string} deviceId - Device ID to find
* @returns {object|null} Device object or null
*/
findDevice(devices, deviceId) {
return devices.find(d => d.device_id === deviceId) || null;
}
/**
* Helper: Get room by name from layout
* @param {object} layout - Layout object
* @param {string} roomName - Room name to find
* @returns {object|null} Room object or null
*/
findRoom(layout, roomName) {
return layout.rooms.find(r => r.name === roomName) || null;
}
/**
* Helper: Get devices for a specific room
* @param {object} layout - Layout object
* @param {Array} devices - Devices array
* @param {string} roomName - Room name
* @returns {Array} Array of device objects
*/
getDevicesForRoom(layout, devices, roomName) {
const room = this.findRoom(layout, roomName);
if (!room) return [];
const deviceMap = {};
devices.forEach(d => deviceMap[d.device_id] = d);
// Extract device IDs from room.devices (they are objects with device_id property)
const deviceIds = room.devices.map(d => d.device_id || d);
return deviceIds
.map(id => deviceMap[id])
.filter(d => d != null);
}
}
// Create global instance
window.apiClient = new HomeAutomationClient();
/**
* Convenience function for backward compatibility
*/
function api(url) {
return window.apiClient.api(url);
}

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<svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 100 100">
<!-- Roof -->
<path d="M50 10 L90 45 L85 45 L85 50 L15 50 L15 45 L10 45 Z" fill="#667eea" stroke="#4c51bf" stroke-width="2" stroke-linejoin="round"/>
<!-- House body -->
<rect x="15" y="45" width="70" height="45" fill="#764ba2" stroke="#4c51bf" stroke-width="2"/>
<!-- Door -->
<rect x="35" y="60" width="15" height="30" fill="#4c51bf" rx="2"/>
<!-- Window -->
<rect x="60" y="60" width="20" height="15" fill="#fbbf24" stroke="#f59e0b" stroke-width="1"/>
<!-- Window panes -->
<line x1="70" y1="60" x2="70" y2="75" stroke="#f59e0b" stroke-width="1"/>
<line x1="60" y1="67.5" x2="80" y2="67.5" stroke="#f59e0b" stroke-width="1"/>
</svg>
Side by Side

After

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/**
* Type definitions for Home Automation API
*
* These are JSDoc type definitions that provide IDE autocomplete
* and type checking in JavaScript files.
*/
/**
* @typedef {Object} Room
* @property {string} name - Room name (e.g., "Küche", "Wohnzimmer")
* @property {Array<{device_id: string, title: string, icon: string, rank: number}>} devices - Array of device objects in this room
*/
/**
* @typedef {Object} Layout
* @property {Room[]} rooms - Array of rooms with their devices
*/
/**
* @typedef {Object} DeviceFeatures
* @property {boolean} [dimmable] - Light: supports brightness control
* @property {boolean} [color_hsb] - Light: supports HSB color control
* @property {boolean} [color_temp] - Light: supports color temperature
* @property {number} [min_temp] - Thermostat: minimum temperature
* @property {number} [max_temp] - Thermostat: maximum temperature
* @property {number} [step] - Thermostat: temperature step size
*/
/**
* @typedef {Object} Device
* @property {string} device_id - Unique device identifier
* @property {string} name - Human-readable device name
* @property {string} type - Device type: light, thermostat, contact, temp_humidity_sensor, relay, outlet, cover
* @property {DeviceFeatures} features - Device-specific features
*/
/**
* @typedef {Object} LightState
* @property {boolean} power - On/off state
* @property {number} [brightness] - Brightness 0-100 (if dimmable)
* @property {Object} [color_hsb] - HSB color (if color_hsb)
* @property {number} color_hsb.hue - Hue 0-360
* @property {number} color_hsb.saturation - Saturation 0-100
* @property {number} color_hsb.brightness - Brightness 0-100
* @property {number} [color_temp] - Color temperature in mireds (if color_temp)
*/
/**
* @typedef {Object} ThermostatState
* @property {number} current_temp - Current temperature in °C
* @property {number} target_temp - Target temperature in °C
* @property {string} mode - Operating mode: heat, cool, auto, off
*/
/**
* @typedef {Object} ContactState
* @property {boolean} open - true if open, false if closed
*/
/**
* @typedef {Object} TempHumidityState
* @property {number} temperature - Temperature in °C
* @property {number} humidity - Relative humidity 0-100%
*/
/**
* @typedef {Object} RelayState
* @property {boolean} power - On/off state
*/
/**
* @typedef {Object} OutletState
* @property {boolean} power - On/off state
*/
/**
* @typedef {Object} CoverState
* @property {number} position - Position 0-100 (0=closed, 100=open)
* @property {string} state - State: open, closed, opening, closing, stopped
*/
/**
* @typedef {LightState|ThermostatState|ContactState|TempHumidityState|RelayState|OutletState|CoverState} DeviceState
*/
/**
* @typedef {Object} RealtimeEvent
* @property {string} device_id - Device that changed
* @property {string} type - Device type
* @property {DeviceState} state - New device state
*/
/**
* @typedef {Object} Scene
* @property {string} scene_id - Unique scene identifier
* @property {string} name - Human-readable scene name
* @property {Object<string, Object>} devices - Map of device_id to desired state
*/
/**
* @typedef {Object} LightPayload
* @property {boolean} [power] - Turn on/off
* @property {number} [brightness] - Set brightness 0-100
* @property {Object} [color_hsb] - Set HSB color
* @property {number} color_hsb.hue - Hue 0-360
* @property {number} color_hsb.saturation - Saturation 0-100
* @property {number} color_hsb.brightness - Brightness 0-100
*/
/**
* @typedef {Object} ThermostatPayload
* @property {number} [target_temp] - Set target temperature
* @property {string} [mode] - Set mode: heat, cool, auto, off
*/
/**
* @typedef {Object} RelayPayload
* @property {boolean} power - Turn on/off
*/
/**
* @typedef {Object} OutletPayload
* @property {boolean} power - Turn on/off
*/
/**
* @typedef {Object} CoverPayload
* @property {number} [position] - Set position 0-100
* @property {string} [action] - Action: open, close, stop
*/
/**
* Example usage:
*
* // Get layout data
* const layout = await window.apiClient.getLayout();
* // layout is typed as Layout
*
* // Get devices
* const devices = await window.apiClient.getDevices();
* // devices is typed as Device[]
*
* // Get device state
* const state = await window.apiClient.getDeviceState('kitchen_light');
* // state is typed as DeviceState
*
* // Set device state
* await window.apiClient.setDeviceState('kitchen_light', 'light', {
* power: true,
* brightness: 80
* });
*
* // Connect to realtime events
* window.apiClient.connectRealtime((event) => {
* console.log('Device update:', event.device_id, event.state);
* });
*
* // Listen to specific device
* const unsubscribe = window.apiClient.onDeviceUpdate('kitchen_light', (event) => {
* console.log('Kitchen light changed:', event.state);
* });
*
* // Later: cleanup
* unsubscribe();
* window.apiClient.disconnectRealtime();
*/

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<!DOCTYPE html>
<html lang="de">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>Gerät - Home Automation</title>
<style>
* {
margin: 0;
padding: 0;
box-sizing: border-box;
}
body {
font-family: -apple-system, BlinkMacSystemFont, 'Segoe UI', Roboto, Oxygen, Ubuntu, Cantarell, sans-serif;
background: linear-gradient(135deg, #667eea 0%, #764ba2 100%);
min-height: 100vh;
padding: 20px;
}
.container {
max-width: 600px;
margin: 0 auto;
}
.header {
background: rgba(255, 255, 255, 0.95);
border-radius: 12px;
padding: 20px;
margin-bottom: 20px;
box-shadow: 0 2px 8px rgba(0, 0, 0, 0.1);
}
.back-button {
background: none;
border: none;
color: #667eea;
font-size: 16px;
cursor: pointer;
padding: 8px 0;
margin-bottom: 12px;
display: inline-block;
text-decoration: none;
}
.back-button:hover {
text-decoration: underline;
}
.device-icon {
font-size: 48px;
text-align: center;
margin-bottom: 12px;
}
h1 {
color: #333;
font-size: 24px;
margin-bottom: 8px;
text-align: center;
}
.device-meta {
color: #666;
font-size: 14px;
text-align: center;
margin-bottom: 4px;
}
.card {
background: rgba(255, 255, 255, 0.95);
border-radius: 12px;
padding: 20px;
margin-bottom: 16px;
box-shadow: 0 2px 8px rgba(0, 0, 0, 0.1);
}
.card-title {
font-size: 16px;
font-weight: 600;
color: #333;
margin-bottom: 16px;
}
.control-group {
margin-bottom: 20px;
}
.control-group:last-child {
margin-bottom: 0;
}
.control-label {
font-size: 14px;
color: #666;
margin-bottom: 8px;
display: block;
}
.toggle-button {
width: 100%;
padding: 16px;
border: none;
border-radius: 8px;
font-size: 18px;
font-weight: 600;
cursor: pointer;
transition: all 0.2s ease;
}
.toggle-button.on {
background: #34c759;
color: white;
}
.toggle-button.off {
background: #e0e0e0;
color: #666;
}
.toggle-button:active {
transform: scale(0.98);
}
.slider-container {
margin-bottom: 12px;
}
.slider {
width: 100%;
height: 40px;
-webkit-appearance: none;
appearance: none;
background: #e0e0e0;
outline: none;
border-radius: 20px;
padding: 0;
}
.slider::-webkit-slider-thumb {
-webkit-appearance: none;
appearance: none;
width: 32px;
height: 32px;
background: #667eea;
cursor: pointer;
border-radius: 50%;
border: 3px solid white;
box-shadow: 0 2px 8px rgba(0, 0, 0, 0.2);
}
.slider::-moz-range-thumb {
width: 32px;
height: 32px;
background: #667eea;
cursor: pointer;
border-radius: 50%;
border: 3px solid white;
box-shadow: 0 2px 8px rgba(0, 0, 0, 0.2);
}
.slider-value {
text-align: center;
font-size: 24px;
font-weight: 600;
color: #667eea;
margin-top: 8px;
}
.button-group {
display: grid;
grid-template-columns: repeat(3, 1fr);
gap: 12px;
}
.control-button {
padding: 12px;
border: none;
border-radius: 8px;
background: #667eea;
color: white;
font-size: 16px;
font-weight: 600;
cursor: pointer;
transition: all 0.2s ease;
}
.control-button:active {
transform: scale(0.95);
}
.control-button:disabled {
background: #e0e0e0;
color: #999;
cursor: not-allowed;
}
.state-grid {
display: grid;
grid-template-columns: repeat(2, 1fr);
gap: 16px;
}
.state-item {
text-align: center;
}
.state-value {
font-size: 28px;
font-weight: 600;
color: #667eea;
margin-bottom: 4px;
}
.state-label {
font-size: 14px;
color: #666;
}
.state-badge {
display: inline-block;
padding: 8px 20px;
border-radius: 20px;
font-size: 16px;
font-weight: 600;
text-align: center;
}
.state-badge.open {
background: #ff9500;
color: white;
}
.state-badge.closed {
background: #34c759;
color: white;
}
.loading {
text-align: center;
color: white;
font-size: 18px;
padding: 40px;
}
.error {
background: rgba(255, 59, 48, 0.9);
color: white;
padding: 16px;
border-radius: 8px;
text-align: center;
margin-bottom: 20px;
}
.success {
background: rgba(52, 199, 89, 0.9);
color: white;
padding: 12px;
border-radius: 8px;
text-align: center;
margin-top: 12px;
font-size: 14px;
}
.color-picker {
width: 100%;
height: 60px;
border: none;
border-radius: 8px;
cursor: pointer;
}
</style>
</head>
<body>
<div class="container">
<div class="header">
<a href="#" id="back-button" class="back-button">← Zurück</a>
<div class="device-icon" id="device-icon">📱</div>
<h1 id="device-name">Gerät wird geladen...</h1>
<div class="device-meta" id="device-room"></div>
<div class="device-meta" id="device-type"></div>
</div>
<div id="error-container"></div>
<div id="loading" class="loading">Lade Gerät...</div>
<div id="controls-container" style="display: none;"></div>
</div>
<script>
// API configuration from backend
window.API_BASE = '{{ api_base }}';
</script>
<!-- Load API client AFTER API_BASE is set -->
<script src="/static/types.js"></script>
<script src="/static/api-client.js"></script>
<script>
// Get device ID from URL
const pathParts = window.location.pathname.split('/');
const deviceId = pathParts[pathParts.length - 1];
// Device data
let deviceData = null;
let deviceState = {};
let roomName = '';
// Device type icons
const deviceIcons = {
'light': '💡',
'thermostat': '🌡️',
'contact': '🚪',
'temp_humidity_sensor': '🌡️',
'relay': '🔌',
'outlet': '🔌',
'cover': '🪟'
};
async function loadDevice() {
const loading = document.getElementById('loading');
const controlsContainer = document.getElementById('controls-container');
const errorContainer = document.getElementById('error-container');
try {
// Load device info using API client
// NEW: Use new endpoints for device info and layout
deviceData = await window.apiClient.getDevice(deviceId);
console.log("Loaded device data:", deviceData);
deviceState = await window.apiClient.getDeviceState(deviceId);
console.log("Loaded device state:", deviceState);
const layoutInfo = await window.apiClient.getDeviceLayout(deviceId);
console.log("Loaded layout info:", layoutInfo);
roomName = layoutInfo.room;
// Update header
document.getElementById('device-icon').textContent = deviceIcons[deviceData.type] || '📱';
document.getElementById('device-name').textContent = deviceData.name;
document.getElementById('device-room').textContent = roomName || 'Kein Raum';
document.getElementById('device-type').textContent = getTypeLabel(deviceData.type);
// Set back button
document.getElementById('back-button').href = roomName ? `/room/${encodeURIComponent(roomName)}` : '/rooms';
// Render controls
loading.style.display = 'none';
controlsContainer.style.display = 'block';
renderControls(controlsContainer);
// Start SSE
connectRealtime();
} catch (error) {
console.error('Error loading device:', error);
loading.style.display = 'none';
errorContainer.innerHTML = `
<div class="error">
⚠️ Fehler beim Laden: ${error.message}
</div>
`;
}
}
function getTypeLabel(type) {
const labels = {
'light': 'Licht',
'thermostat': 'Thermostat',
'contact': 'Kontaktsensor',
'temp_humidity_sensor': 'Temperatur & Luftfeuchte',
'relay': 'Schalter',
'outlet': 'Steckdose',
'cover': 'Jalousie'
};
return labels[type] || type;
}
function renderControls(container) {
container.innerHTML = '';
switch (deviceData.type) {
case 'light':
renderLightControls(container);
break;
case 'thermostat':
renderThermostatControls(container);
break;
case 'relay':
case 'outlet':
renderOutletControls(container);
break;
case 'contact':
renderContactDisplay(container);
break;
case 'temp_humidity_sensor':
renderTempHumidityDisplay(container);
break;
case 'cover':
renderCoverControls(container);
break;
default:
container.innerHTML = '<div class="card">Keine Steuerung verfügbar</div>';
}
}
function renderLightControls(container) {
const card = document.createElement('div');
card.className = 'card';
card.innerHTML = '<div class="card-title">Steuerung</div>';
// Power toggle
const powerGroup = document.createElement('div');
powerGroup.className = 'control-group';
const powerButton = document.createElement('button');
powerButton.className = 'toggle-button ' + (deviceState.power === 'on' ? 'on' : 'off');
powerButton.textContent = deviceState.power === 'on' ? '💡 An' : '💡 Aus';
powerButton.onclick = () => togglePower();
powerGroup.appendChild(powerButton);
card.appendChild(powerGroup);
// Brightness slider (if supported)
if (deviceData.features?.brightness) {
const brightnessGroup = document.createElement('div');
brightnessGroup.className = 'control-group';
brightnessGroup.innerHTML = `
<label class="control-label">Helligkeit</label>
<div class="slider-container">
<input type="range" class="slider" id="brightness-slider" min="0" max="100" value="${deviceState.brightness || 0}">
<div class="slider-value" id="brightness-value">${deviceState.brightness || 0}%</div>
</div>
`;
card.appendChild(brightnessGroup);
setTimeout(() => {
const slider = document.getElementById('brightness-slider');
const valueDisplay = document.getElementById('brightness-value');
slider.oninput = (e) => {
valueDisplay.textContent = e.target.value + '%';
};
slider.onchange = (e) => {
setBrightness(parseInt(e.target.value));
};
}, 0);
}
// Color picker (if supported)
if (deviceData.features?.color_hsb) {
const colorGroup = document.createElement('div');
colorGroup.className = 'control-group';
colorGroup.innerHTML = `
<label class="control-label">Farbe</label>
<input type="color" class="color-picker" id="color-picker" value="#ffffff">
`;
card.appendChild(colorGroup);
setTimeout(() => {
const picker = document.getElementById('color-picker');
picker.onchange = (e) => {
setColor(e.target.value);
};
}, 0);
}
container.appendChild(card);
}
function renderThermostatControls(container) {
const card = document.createElement('div');
card.className = 'card';
// Current state display
const stateGrid = document.createElement('div');
stateGrid.className = 'state-grid';
stateGrid.innerHTML = `
<div class="state-item">
<div class="state-value" id="current-temp">${deviceState.current?.toFixed(1) || '--'}°C</div>
<div class="state-label">Aktuell</div>
</div>
<div class="state-item">
<div class="state-value" id="target-temp">${deviceState.target?.toFixed(1) || '--'}°C</div>
<div class="state-label">Ziel</div>
</div>
`;
card.appendChild(stateGrid);
// Target temperature slider
const sliderGroup = document.createElement('div');
sliderGroup.className = 'control-group';
sliderGroup.style.marginTop = '20px';
sliderGroup.innerHTML = `
<label class="control-label">Zieltemperatur</label>
<div class="slider-container">
<input type="range" class="slider" id="temp-slider" min="5" max="30" step="0.5" value="${deviceState.target || 21}">
<div class="slider-value" id="temp-value">${deviceState.target?.toFixed(1) || '21.0'}°C</div>
</div>
`;
card.appendChild(sliderGroup);
container.appendChild(card);
setTimeout(() => {
const slider = document.getElementById('temp-slider');
const valueDisplay = document.getElementById('temp-value');
slider.oninput = (e) => {
valueDisplay.textContent = parseFloat(e.target.value).toFixed(1) + '°C';
};
slider.onchange = (e) => {
setTargetTemp(parseFloat(e.target.value));
};
}, 0);
}
function renderOutletControls(container) {
const card = document.createElement('div');
card.className = 'card';
card.innerHTML = '<div class="card-title">Steuerung</div>';
const powerGroup = document.createElement('div');
powerGroup.className = 'control-group';
const powerButton = document.createElement('button');
powerButton.className = 'toggle-button ' + (deviceState.power === 'on' ? 'on' : 'off');
powerButton.textContent = deviceState.power === 'on' ? '🔌 An' : '🔌 Aus';
powerButton.onclick = () => togglePower();
powerGroup.appendChild(powerButton);
card.appendChild(powerGroup);
container.appendChild(card);
}
function renderContactDisplay(container) {
const card = document.createElement('div');
card.className = 'card';
card.innerHTML = '<div class="card-title">Status</div>';
const statusDiv = document.createElement('div');
statusDiv.style.textAlign = 'center';
const isOpen = deviceState.contact === 'open';
statusDiv.innerHTML = `
<div class="state-badge ${isOpen ? 'open' : 'closed'}" id="contact-status">
${isOpen ? 'Offen' : 'Geschlossen'}
</div>
`;
card.appendChild(statusDiv);
container.appendChild(card);
}
function renderTempHumidityDisplay(container) {
const card = document.createElement('div');
card.className = 'card';
card.innerHTML = '<div class="card-title">Messwerte</div>';
const stateGrid = document.createElement('div');
stateGrid.className = 'state-grid';
stateGrid.innerHTML = `
<div class="state-item">
<div class="state-value" id="temperature">${deviceState.temperature?.toFixed(1) || '--'}°C</div>
<div class="state-label">Temperatur</div>
</div>
<div class="state-item">
<div class="state-value" id="humidity">${deviceState.humidity || '--'}%</div>
<div class="state-label">Luftfeuchte</div>
</div>
`;
card.appendChild(stateGrid);
container.appendChild(card);
}
function renderCoverControls(container) {
const card = document.createElement('div');
card.className = 'card';
card.innerHTML = '<div class="card-title">Position</div>';
// Position slider
const sliderGroup = document.createElement('div');
sliderGroup.className = 'control-group';
sliderGroup.innerHTML = `
<div class="slider-container">
<input type="range" class="slider" id="position-slider" min="0" max="100" value="${deviceState.position || 0}">
<div class="slider-value" id="position-value">${deviceState.position || 0}%</div>
</div>
`;
card.appendChild(sliderGroup);
// Control buttons
const buttonGroup = document.createElement('div');
buttonGroup.className = 'button-group';
buttonGroup.style.marginTop = '16px';
buttonGroup.innerHTML = `
<button class="control-button" onclick="setCoverPosition(0)">Auf</button>
<button class="control-button" onclick="stopCover()">Stop</button>
<button class="control-button" onclick="setCoverPosition(100)">Zu</button>
`;
card.appendChild(buttonGroup);
container.appendChild(card);
setTimeout(() => {
const slider = document.getElementById('position-slider');
const valueDisplay = document.getElementById('position-value');
slider.oninput = (e) => {
valueDisplay.textContent = e.target.value + '%';
};
slider.onchange = (e) => {
setCoverPosition(parseInt(e.target.value));
};
}, 0);
}
// Control functions
async function togglePower() {
const newState = deviceState.power === 'on' ? 'off' : 'on';
await sendCommand({
type: deviceData.type,
payload: { power: newState }
});
}
async function setBrightness(value) {
await sendCommand({
type: 'light',
payload: { brightness: value }
});
}
async function setColor(hexColor) {
// Convert hex to HSB
const hsb = hexToHSB(hexColor);
await sendCommand({
type: 'light',
payload: {
hue: Math.round(hsb.h),
sat: Math.round(hsb.s)
}
});
}
async function setTargetTemp(value) {
await sendCommand({
type: 'thermostat',
payload: { target: value }
});
}
async function setCoverPosition(value) {
await sendCommand({
type: 'cover',
payload: { position: value }
});
}
async function stopCover() {
await sendCommand({
type: 'cover',
payload: { action: 'stop' }
});
}
async function sendCommand(payload) {
try {
await window.apiClient.setDeviceState(deviceId, deviceData.type, payload.payload);
showSuccess('Befehl gesendet');
} catch (error) {
console.error('Error sending command:', error);
showError('Fehler beim Senden: ' + error.message);
}
}
function showSuccess(message) {
const container = document.getElementById('controls-container');
const successDiv = document.createElement('div');
successDiv.className = 'success';
successDiv.textContent = '✓ ' + message;
container.appendChild(successDiv);
setTimeout(() => successDiv.remove(), 3000);
}
function showError(message) {
const container = document.getElementById('error-container');
container.innerHTML = `<div class="error">⚠️ ${message}</div>`;
setTimeout(() => container.innerHTML = '', 5000);
}
function hexToHSB(hex) {
const r = parseInt(hex.slice(1, 3), 16) / 255;
const g = parseInt(hex.slice(3, 5), 16) / 255;
const b = parseInt(hex.slice(5, 7), 16) / 255;
const max = Math.max(r, g, b);
const min = Math.min(r, g, b);
const diff = max - min;
let h = 0;
if (diff !== 0) {
if (max === r) h = ((g - b) / diff) % 6;
else if (max === g) h = (b - r) / diff + 2;
else h = (r - g) / diff + 4;
}
h = Math.round(h * 60);
if (h < 0) h += 360;
const s = max === 0 ? 0 : (diff / max) * 100;
return { h, s, b: max * 100 };
}
function connectRealtime() {
try {
// Use API client's realtime connection
window.apiClient.connectRealtime((event) => {
if (event.device_id === deviceId && event.state) {
deviceState = { ...deviceState, ...event.state };
updateUI();
}
}, (error) => {
console.error('SSE connection error:', error);
});
} catch (error) {
console.error('Failed to connect to realtime events:', error);
}
}
function updateUI() {
// Update based on device type
switch (deviceData.type) {
case 'light':
updateLightUI();
break;
case 'thermostat':
updateThermostatUI();
break;
case 'relay':
case 'outlet':
updateOutletUI();
break;
case 'contact':
updateContactUI();
break;
case 'temp_humidity_sensor':
updateTempHumidityUI();
break;
case 'cover':
updateCoverUI();
break;
}
}
function updateLightUI() {
const button = document.querySelector('.toggle-button');
if (button) {
button.className = 'toggle-button ' + (deviceState.power === 'on' ? 'on' : 'off');
button.textContent = deviceState.power === 'on' ? '💡 An' : '💡 Aus';
}
const brightnessSlider = document.getElementById('brightness-slider');
const brightnessValue = document.getElementById('brightness-value');
if (brightnessSlider && deviceState.brightness != null) {
brightnessSlider.value = deviceState.brightness;
brightnessValue.textContent = deviceState.brightness + '%';
}
}
function updateThermostatUI() {
const currentTemp = document.getElementById('current-temp');
const targetTemp = document.getElementById('target-temp');
const tempSlider = document.getElementById('temp-slider');
const tempValue = document.getElementById('temp-value');
if (currentTemp && deviceState.current != null) {
currentTemp.textContent = deviceState.current.toFixed(1) + '°C';
}
if (targetTemp && deviceState.target != null) {
targetTemp.textContent = deviceState.target.toFixed(1) + '°C';
}
if (tempSlider && deviceState.target != null) {
tempSlider.value = deviceState.target;
tempValue.textContent = deviceState.target.toFixed(1) + '°C';
}
}
function updateOutletUI() {
const button = document.querySelector('.toggle-button');
if (button) {
button.className = 'toggle-button ' + (deviceState.power === 'on' ? 'on' : 'off');
button.textContent = deviceState.power === 'on' ? '🔌 An' : '🔌 Aus';
}
}
function updateContactUI() {
const status = document.getElementById('contact-status');
if (status && deviceState.contact) {
const isOpen = deviceState.contact === 'open';
status.className = 'state-badge ' + (isOpen ? 'open' : 'closed');
status.textContent = isOpen ? 'Offen' : 'Geschlossen';
}
}
function updateTempHumidityUI() {
const temperature = document.getElementById('temperature');
const humidity = document.getElementById('humidity');
if (temperature && deviceState.temperature != null) {
temperature.textContent = deviceState.temperature.toFixed(1) + '°C';
}
if (humidity && deviceState.humidity != null) {
humidity.textContent = deviceState.humidity + '%';
}
}
function updateCoverUI() {
const slider = document.getElementById('position-slider');
const value = document.getElementById('position-value');
if (slider && deviceState.position != null) {
slider.value = deviceState.position;
value.textContent = deviceState.position + '%';
}
}
// Cleanup on page unload
window.addEventListener('beforeunload', () => {
window.apiClient.disconnectRealtime();
});
// Load device on page load
document.addEventListener('DOMContentLoaded', loadDevice);
</script>
</body>
</html>

466
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<!DOCTYPE html>
<html lang="de">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>{{ room_name }} - Home Automation</title>
<style>
* {
margin: 0;
padding: 0;
box-sizing: border-box;
}
body {
font-family: -apple-system, BlinkMacSystemFont, 'Segoe UI', Roboto, Oxygen, Ubuntu, Cantarell, sans-serif;
background: linear-gradient(135deg, #667eea 0%, #764ba2 100%);
min-height: 100vh;
padding: 20px;
}
.container {
max-width: 1200px;
margin: 0 auto;
}
h1 {
color: #333;
font-size: 28px;
margin-bottom: 8px;
}
.header {
background: rgba(255, 255, 255, 0.95);
border-radius: 12px;
padding: 20px;
margin-bottom: 20px;
box-shadow: 0 2px 8px rgba(0, 0, 0, 0.1);
}
.back-button {
background: none;
border: none;
color: #667eea;
font-size: 16px;
cursor: pointer;
padding: 8px 0;
margin-bottom: 12px;
display: inline-block;
text-decoration: none;
}
.back-button:hover {
text-decoration: underline;
}
.room-info {
color: #666;
font-size: 14px;
}
.devices-grid {
display: grid;
grid-template-columns: repeat(2, 1fr);
gap: 16px;
margin-bottom: 20px;
}
@media (min-width: 600px) {
.devices-grid {
grid-template-columns: repeat(3, 1fr);
}
}
@media (min-width: 900px) {
.devices-grid {
grid-template-columns: repeat(4, 1fr);
}
}
.device-card {
background: rgba(255, 255, 255, 0.95);
border-radius: 12px;
padding: 16px;
text-align: center;
cursor: pointer;
transition: all 0.2s ease;
box-shadow: 0 2px 8px rgba(0, 0, 0, 0.1);
min-height: 110px;
display: flex;
flex-direction: column;
align-items: center;
justify-content: center;
text-decoration: none;
color: inherit;
width: 100%;
}
.device-card:hover {
transform: translateY(-4px);
box-shadow: 0 4px 16px rgba(0, 0, 0, 0.2);
}
.device-card:active {
transform: translateY(-2px);
}
.device-header {
display: flex;
align-items: center;
gap: 12px;
margin-bottom: 12px;
}
.device-icon {
font-size: 24px;
}
.device-title {
font-size: 14px;
font-weight: 600;
color: #333;
flex: 1;
line-height: 1.3;
}
.device-state {
margin-top: auto;
}
.state-primary {
font-size: 20px;
font-weight: 600;
color: #667eea;
margin-bottom: 4px;
}
.state-secondary {
font-size: 14px;
color: #666;
}
.state-badge {
display: inline-block;
padding: 4px 12px;
border-radius: 12px;
font-size: 13px;
font-weight: 500;
}
.state-badge.on {
background: #34c759;
color: white;
}
.state-badge.off {
background: #e0e0e0;
color: #666;
}
.state-badge.open {
background: #ff9500;
color: white;
}
.state-badge.closed {
background: #34c759;
color: white;
}
.loading {
text-align: center;
color: white;
font-size: 18px;
padding: 40px;
}
.error {
background: rgba(255, 59, 48, 0.9);
color: white;
padding: 16px;
border-radius: 8px;
text-align: center;
margin-bottom: 20px;
}
.no-devices {
background: rgba(255, 255, 255, 0.95);
border-radius: 12px;
padding: 40px;
text-align: center;
color: #666;
}
</style>
</head>
<body>
<div class="container">
<div class="header">
<a href="/rooms" class="back-button">← Zurück zu Räumen</a>
<h1 id="room-name">Raum wird geladen...</h1>
<div class="room-info" id="room-info"></div>
</div>
<div id="error-container"></div>
<div id="loading" class="loading">Lade Geräte...</div>
<div id="devices-grid" class="devices-grid" style="display: none;"></div>
<div id="no-devices" class="no-devices" style="display: none;">
Keine Geräte in diesem Raum gefunden.
</div>
</div>
<script>
// API configuration from backend
window.API_BASE = '{{ api_base }}';
</script>
<!-- Load API client AFTER API_BASE is set -->
<script src="/static/types.js"></script>
<script src="/static/api-client.js"></script>
<script>
// Get room name from URL
const pathParts = window.location.pathname.split('/');
const roomName = decodeURIComponent(pathParts[pathParts.length - 1]);
// Device type to icon mapping
const deviceIcons = {
'light': '💡',
'thermostat': '🌡️',
'contact': '🚪',
'temp_humidity_sensor': '🌡️',
'relay': '💡',
'outlet': '💡',
'cover': '🪟'
};
// Device states
const deviceStates = {};
async function loadRoom() {
const loading = document.getElementById('loading');
const grid = document.getElementById('devices-grid');
const noDevices = document.getElementById('no-devices');
const errorContainer = document.getElementById('error-container');
const roomNameEl = document.getElementById('room-name');
const roomInfoEl = document.getElementById('room-info');
try {
// Load layout and devices using API client
// NEW: Use device layout endpoint for each device in this room
const layoutData = await window.apiClient.getLayout();
const devicesData = await window.apiClient.getDevices();
// Example: For each device in room.devices, you could fetch layout info via
// await window.apiClient.fetch(window.apiClient.api(`/devices/${device_id}/layout`));
console.log('Room name from URL:', roomName);
console.log('Available rooms:', layoutData.rooms.map(r => r.name));
console.log('Total devices:', devicesData.length);
// Find the room using API client helper
const room = window.apiClient.findRoom(layoutData, roomName);
if (!room) {
console.error('Room not found:', roomName);
throw new Error(`Raum "${roomName}" nicht gefunden`);
}
console.log('Found room:', room);
console.log('Room devices:', room.devices);
// Update header
roomNameEl.textContent = room.name;
roomInfoEl.textContent = `${room.devices.length} Gerät${room.devices.length !== 1 ? 'e' : ''}`;
// Create device lookup
const deviceMap = {};
devicesData.forEach(device => {
deviceMap[device.device_id] = device;
});
// Extract device IDs from room devices (they are objects now)
const deviceIds = room.devices.map(d => d.device_id);
console.log('Device IDs from room:', deviceIds);
// Filter devices for this room
const roomDevices = deviceIds
.map(deviceId => deviceMap[deviceId])
.filter(device => device != null);
console.log('Filtered room devices:', roomDevices);
loading.style.display = 'none';
if (roomDevices.length === 0) {
noDevices.style.display = 'block';
return;
}
// Lade nur die States für die Geräte im aktuellen Raum
for (const device of roomDevices) {
try {
deviceStates[device.device_id] = await window.apiClient.getDeviceState(device.device_id);
} catch (err) {
deviceStates[device.device_id] = null;
}
}
console.log('Device states:', deviceStates);
// Render devices
grid.style.display = 'grid';
roomDevices.forEach(device => {
const card = createDeviceCard(device);
grid.appendChild(card);
});
// Start SSE for live updates
connectRealtime();
} catch (error) {
console.error('Error loading room:', error);
loading.style.display = 'none';
errorContainer.innerHTML = `
<div class="error">
⚠️ Fehler beim Laden: ${error.message}
</div>
`;
}
}
function createDeviceCard(device) {
const card = document.createElement('a');
card.className = 'device-card';
card.href = `/device/${device.device_id}`;
card.dataset.deviceId = device.device_id;
const header = document.createElement('div');
header.className = 'device-header';
const icon = document.createElement('div');
icon.className = 'device-icon';
icon.textContent = deviceIcons[device.type] || '📱';
const title = document.createElement('div');
title.className = 'device-title';
title.textContent = device.name;
header.appendChild(icon);
header.appendChild(title);
const stateDiv = document.createElement('div');
stateDiv.className = 'device-state';
updateDeviceCardState(stateDiv, device);
card.appendChild(header);
card.appendChild(stateDiv);
return card;
}
function updateDeviceCardState(stateDiv, device) {
const state = deviceStates[device.device_id];
if (!state) {
stateDiv.innerHTML = '<div class="state-secondary">Status unbekannt</div>';
return;
}
let html = '';
switch (device.type) {
case 'light':
if (state.power) {
const powerState = state.power === 'on';
html = `<span class="state-badge ${powerState ? 'on' : 'off'}">${powerState ? 'An' : 'Aus'}</span>`;
if (powerState && state.brightness != null) {
html += `<div class="state-secondary">${state.brightness}% Helligkeit</div>`;
}
}
break;
case 'thermostat':
if (state.target != null) {
html = `<div class="state-primary">${state.target.toFixed(1)}°C</div>`;
if (state.current != null) {
html += `<div class="state-secondary">Ist: ${state.current}°C</div>`;
}
}
break;
case 'contact':
if (state.contact != null) {
const isOpen = state.contact === 'open';
html = `<span class="state-badge ${isOpen ? 'open' : 'closed'}">${isOpen ? 'Offen' : 'Geschlossen'}</span>`;
}
break;
case 'temp_humidity_sensor':
if (state.temperature != null) {
html = `<div class="state-primary">${state.temperature.toFixed(1)}°C</div>`;
if (state.humidity != null) {
html += `<div class="state-secondary">${state.humidity}% Luftfeuchte</div>`;
}
}
break;
case 'relay':
case 'outlet':
if (state.power) {
const powerState = state.power === 'on';
html = `<span class="state-badge ${powerState ? 'on' : 'off'}">${powerState ? 'An' : 'Aus'}</span>`;
}
break;
case 'cover':
if (state.position != null) {
html = `<div class="state-primary">${state.position}%</div>`;
html += `<div class="state-secondary">Position</div>`;
}
break;
default:
html = '<div class="state-secondary">Kein Status</div>';
}
stateDiv.innerHTML = html;
}
function connectRealtime() {
try {
// Use API client's connectRealtime method
window.apiClient.connectRealtime((event) => {
// Update device state
if (event.device_id && event.state) {
deviceStates[event.device_id] = event.state;
// Update card if visible
const card = document.querySelector(`[data-device-id="${event.device_id}"]`);
if (card) {
const stateDiv = card.querySelector('.device-state');
window.apiClient.getDevices().then(devices => {
const device = window.apiClient.findDevice(devices, event.device_id);
if (device) {
updateDeviceCardState(stateDiv, device);
}
});
}
}
}, (error) => {
console.error('SSE connection error:', error);
});
} catch (error) {
console.error('Failed to connect to realtime events:', error);
}
}
// Cleanup on page unload
window.addEventListener('beforeunload', () => {
window.apiClient.disconnectRealtime();
});
// Load room on page load
document.addEventListener('DOMContentLoaded', loadRoom);
</script>
</body>
</html>

308
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<!DOCTYPE html>
<html lang="de">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>Räume - Home Automation</title>
<style>
* {
margin: 0;
padding: 0;
box-sizing: border-box;
}
body {
font-family: -apple-system, BlinkMacSystemFont, 'Segoe UI', Roboto, Oxygen, Ubuntu, Cantarell, sans-serif;
background: linear-gradient(135deg, #667eea 0%, #764ba2 100%);
min-height: 100vh;
padding: 20px;
}
.container {
max-width: 1200px;
margin: 0 auto;
}
h1 {
color: white;
font-size: 28px;
margin-bottom: 24px;
text-align: center;
}
.rooms-grid {
display: grid;
grid-template-columns: repeat(2, 1fr);
gap: 16px;
margin-bottom: 20px;
}
@media (min-width: 600px) {
.rooms-grid {
grid-template-columns: repeat(3, 1fr);
}
}
@media (min-width: 900px) {
.rooms-grid {
grid-template-columns: repeat(4, 1fr);
}
}
.room-card {
background: rgba(255, 255, 255, 0.95);
border-radius: 12px;
padding: 16px;
text-align: center;
cursor: pointer;
transition: all 0.2s ease;
box-shadow: 0 2px 8px rgba(0, 0, 0, 0.1);
min-height: 110px;
display: flex;
flex-direction: column;
align-items: center;
justify-content: center;
text-decoration: none;
color: inherit;
}
.room-card:hover {
transform: translateY(-4px);
box-shadow: 0 4px 16px rgba(0, 0, 0, 0.2);
}
.room-card:active {
transform: translateY(-2px);
}
.room-icon {
font-size: 32px;
margin-bottom: 8px;
}
.room-name {
font-size: 16px;
font-weight: 600;
color: #333;
margin-bottom: 4px;
}
.room-device-count {
font-size: 14px;
color: #666;
}
.room-stats {
font-size: 12px;
color: #999;
margin-top: 4px;
}
.loading {
text-align: center;
color: white;
font-size: 18px;
padding: 40px;
}
.error {
background: rgba(255, 59, 48, 0.9);
color: white;
padding: 16px;
border-radius: 8px;
text-align: center;
margin-bottom: 20px;
}
.back-button {
position: fixed;
top: 20px;
left: 20px;
background: rgba(255, 255, 255, 0.9);
color: #667eea;
border: none;
padding: 10px 20px;
border-radius: 8px;
font-size: 16px;
cursor: pointer;
text-decoration: none;
display: inline-block;
box-shadow: 0 2px 8px rgba(0, 0, 0, 0.1);
}
.back-button:hover {
background: white;
}
</style>
</head>
<body>
<div class="container">
<h1>🏠 Zuhause</h1>
<div id="error-container"></div>
<div id="loading" class="loading">Lade Räume...</div>
<div id="rooms-grid" class="rooms-grid" style="display: none;"></div>
</div>
<script>
// API configuration from backend
window.API_BASE = '{{ api_base }}';
</script>
<!-- Load API client AFTER API_BASE is set -->
<script src="/static/types.js"></script>
<script src="/static/api-client.js"></script>
<script>
// Room icon mapping
const roomIcons = {
'wohnzimmer': '🛋️',
'küche': '🍳',
'kueche': '🍳',
'schlafzimmer': '🛏️',
'bad': '🚿',
'badezimmer': '🚿',
'bad oben': '🚿',
'bad unten': '🚿',
'flur': '🚪',
'büro': '💼',
'buero': '💼',
'arbeitszimmer': '💼',
'studierzimmer': '📚',
'esszimmer': '🍽️',
'garten': '🌳',
'terrasse': '🌿',
'garage': '🚗',
'keller': '🔧',
'dachboden': '📦',
'kinderzimmer': '🧸',
'patty': '👤',
'wolfgang': '👤',
'default': '🏡'
};
function getRoomIcon(roomName) {
const normalized = roomName.toLowerCase().trim();
return roomIcons[normalized] || roomIcons['default'];
}
async function loadRooms() {
const loading = document.getElementById('loading');
const grid = document.getElementById('rooms-grid');
const errorContainer = document.getElementById('error-container');
try {
// Load layout and devices using API client
// NEW: Use device layout endpoint for each device
// Fallback: load all rooms as before
const layoutData = await window.apiClient.getLayout();
const devicesData = await window.apiClient.getDevices();
// Example: For each device, you could also fetch layout info via
// await window.apiClient.fetch(window.apiClient.api(`/devices/${device_id}/layout`));
// Create device lookup
const deviceMap = {};
devicesData.forEach(device => {
deviceMap[device.device_id] = device;
});
// Render rooms
loading.style.display = 'none';
grid.style.display = 'grid';
layoutData.rooms.forEach(room => {
const card = createRoomCard(room, deviceMap);
grid.appendChild(card);
});
} catch (error) {
console.error('Error loading rooms:', error);
loading.style.display = 'none';
errorContainer.innerHTML = `
<div class="error">
⚠️ Fehler beim Laden der Räume: ${error.message}
</div>
`;
}
}
function createRoomCard(room, deviceMap) {
const card = document.createElement('a');
card.className = 'room-card';
card.href = `/room/${encodeURIComponent(room.name)}`;
const icon = document.createElement('div');
icon.className = 'room-icon';
icon.textContent = getRoomIcon(room.name);
const name = document.createElement('div');
name.className = 'room-name';
name.textContent = room.name;
const deviceCount = document.createElement('div');
deviceCount.className = 'room-device-count';
deviceCount.textContent = `${room.devices.length} Gerät${room.devices.length !== 1 ? 'e' : ''}`;
// Optional: Calculate stats (lights on, windows open, etc.)
const stats = calculateRoomStats(room.devices, deviceMap);
if (stats) {
const statsDiv = document.createElement('div');
statsDiv.className = 'room-stats';
statsDiv.textContent = stats;
card.appendChild(icon);
card.appendChild(name);
card.appendChild(deviceCount);
card.appendChild(statsDiv);
} else {
card.appendChild(icon);
card.appendChild(name);
card.appendChild(deviceCount);
}
return card;
}
function calculateRoomStats(roomDevices, deviceMap) {
// Extract device IDs from room devices (they are objects now)
const deviceIds = roomDevices.map(d => d.device_id || d);
// Count device types
let lights = 0;
let thermostats = 0;
let contacts = 0;
let sensors = 0;
deviceIds.forEach(deviceId => {
const device = deviceMap[deviceId];
if (!device) return;
switch(device.type) {
case 'light':
lights++;
break;
case 'thermostat':
thermostats++;
break;
case 'contact':
contacts++;
break;
case 'temp_humidity_sensor':
sensors++;
break;
}
});
// Build compact stats string
const parts = [];
if (lights > 0) parts.push(`💡${lights}`);
if (thermostats > 0) parts.push(`🌡️${thermostats}`);
if (contacts > 0) parts.push(`🚪${contacts}`);
return parts.length > 0 ? parts.join(' ') : null;
}
// Load rooms on page load
document.addEventListener('DOMContentLoaded', loadRooms);
</script>
</body>
</html>

808
config/devices.yaml
View File

@@ -1,5 +1,4 @@
version: 1
mqtt:
broker: "172.16.2.16"
port: 1883
@@ -7,38 +6,783 @@ mqtt:
username: null
password: null
keepalive: 60
redis:
url: "redis://172.23.1.116:6379/8"
channel: "ui:updates"
devices:
- device_id: test_lampe_1
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
set: "vendor/test_lampe_1/set"
state: "vendor/test_lampe_1/state"
- device_id: test_lampe_2
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
topics:
set: "vendor/test_lampe_2/set"
state: "vendor/test_lampe_2/state"
- device_id: test_lampe_3
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
set: "vendor/test_lampe_3/set"
state: "vendor/test_lampe_3/state"
- device_id: lampe_semeniere_wohnzimmer
name: Semeniere
type: relay
cap_version: "relay@1.0.0"
technology: zigbee2mqtt
features:
power: true
topics:
state: "zigbee2mqtt/0xf0d1b8000015480b"
set: "zigbee2mqtt/0xf0d1b8000015480b/set"
metadata:
friendly_name: "Lampe Semeniere Wohnzimmer"
ieee_address: "0xf0d1b8000015480b"
model: "AC10691"
vendor: "OSRAM"
- device_id: stehlampe_esszimmer_spiegel
name: Stehlampe Spiegel
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0x001788010d06ea09"
set: "zigbee2mqtt/0x001788010d06ea09/set"
- device_id: stehlampe_esszimmer_schrank
name: Stehlampe Schrank
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0x001788010d09176c"
set: "zigbee2mqtt/0x001788010d09176c/set"
- device_id: grosse_lampe_wohnzimmer
name: grosse Lampe
type: relay
cap_version: "relay@1.0.0"
technology: zigbee2mqtt
features:
power: true
topics:
state: "zigbee2mqtt/0xf0d1b80000151aca"
set: "zigbee2mqtt/0xf0d1b80000151aca/set"
metadata:
friendly_name: "grosse Lampe Wohnzimmer"
ieee_address: "0xf0d1b80000151aca"
model: "AC10691"
vendor: "OSRAM"
- device_id: lampe_naehtischchen_wohnzimmer
name: Nähtischchen
type: relay
cap_version: "relay@1.0.0"
technology: zigbee2mqtt
features:
power: true
topics:
state: "zigbee2mqtt/0x842e14fffee560ee"
set: "zigbee2mqtt/0x842e14fffee560ee/set"
metadata:
friendly_name: "Lampe Naehtischchen Wohnzimmer"
ieee_address: "0x842e14fffee560ee"
model: "HG06337"
vendor: "Lidl"
- device_id: kleine_lampe_links_esszimmer
name: kleine Lampe
type: relay
cap_version: "relay@1.0.0"
technology: zigbee2mqtt
features:
power: true
topics:
state: "zigbee2mqtt/0xf0d1b80000153099"
set: "zigbee2mqtt/0xf0d1b80000153099/set"
metadata:
friendly_name: "kleine Lampe links Esszimmer"
ieee_address: "0xf0d1b80000153099"
model: "AC10691"
vendor: "OSRAM"
- device_id: leselampe_esszimmer
name: Leselampe
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0xec1bbdfffe7b84f2"
set: "zigbee2mqtt/0xec1bbdfffe7b84f2/set"
metadata:
friendly_name: "Leselampe Esszimmer"
ieee_address: "0xec1bbdfffe7b84f2"
model: "LED1842G3"
vendor: "IKEA"
- device_id: medusalampe_schlafzimmer
name: Medusa-Lampe
type: relay
cap_version: "relay@1.0.0"
technology: zigbee2mqtt
features:
power: true
topics:
state: "zigbee2mqtt/0xf0d1b80000154c7c"
set: "zigbee2mqtt/0xf0d1b80000154c7c/set"
metadata:
friendly_name: "Medusa-Lampe Schlafzimmer"
ieee_address: "0xf0d1b80000154c7c"
model: "AC10691"
vendor: "OSRAM"
- device_id: sportlicht_am_fernseher_studierzimmer
type: light
name: am Fernseher
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
color_temperature: true
topics:
state: "zigbee2mqtt/0x842e14fffe76a23a"
set: "zigbee2mqtt/0x842e14fffe76a23a/set"
metadata:
friendly_name: "Sportlicht am Fernseher, Studierzimmer"
ieee_address: "0x842e14fffe76a23a"
model: "LED1733G7"
vendor: "IKEA"
- device_id: deckenlampe_schlafzimmer
name: Deckenlampe
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0x0017880108a406a7"
set: "zigbee2mqtt/0x0017880108a406a7/set"
metadata:
friendly_name: "Deckenlampe Schlafzimmer"
ieee_address: "0x0017880108a406a7"
model: "8718699688882"
vendor: "Philips"
- device_id: bettlicht_wolfgang
name: Bettlicht Wolfgang
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0x00178801081570bf"
set: "zigbee2mqtt/0x00178801081570bf/set"
metadata:
friendly_name: "Bettlicht Wolfgang"
ieee_address: "0x00178801081570bf"
model: "9290020399"
vendor: "Philips"
- device_id: bettlicht_patty
name: Bettlicht Patty
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0x0017880108158b32"
set: "zigbee2mqtt/0x0017880108158b32/set"
metadata:
friendly_name: "Bettlicht Patty"
ieee_address: "0x0017880108158b32"
model: "9290020399"
vendor: "Philips"
- device_id: schranklicht_hinten_patty
name: Schranklicht hinten
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0x0017880106e29571"
set: "zigbee2mqtt/0x0017880106e29571/set"
metadata:
friendly_name: "Schranklicht hinten Patty"
ieee_address: "0x0017880106e29571"
model: "8718699673147"
vendor: "Philips"
- device_id: schranklicht_vorne_patty
name: Schranklicht vorne
type: relay
cap_version: "relay@1.0.0"
technology: zigbee2mqtt
features:
power: true
topics:
state: "zigbee2mqtt/0xf0d1b80000154cf5"
set: "zigbee2mqtt/0xf0d1b80000154cf5/set"
metadata:
friendly_name: "Schranklicht vorne Patty"
ieee_address: "0xf0d1b80000154cf5"
model: "AC10691"
vendor: "OSRAM"
- device_id: leselampe_patty
name: Leselampe
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0x001788010600ec9d"
set: "zigbee2mqtt/0x001788010600ec9d/set"
metadata:
friendly_name: "Leselampe Patty"
ieee_address: "0x001788010600ec9d"
model: "8718699673147"
vendor: "Philips"
- device_id: deckenlampe_esszimmer
name: Deckenlampe
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0x0017880108a03e45"
set: "zigbee2mqtt/0x0017880108a03e45/set"
metadata:
friendly_name: "Deckenlampe Esszimmer"
ieee_address: "0x0017880108a03e45"
model: "929002241201"
vendor: "Philips"
- device_id: haustuer
name: Haustür-Lampe
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0xec1bbdfffea6a3da"
set: "zigbee2mqtt/0xec1bbdfffea6a3da/set"
metadata:
friendly_name: "Haustür"
ieee_address: "0xec1bbdfffea6a3da"
model: "LED1842G3"
vendor: "IKEA"
- device_id: deckenlampe_flur_oben
name: Deckenlampe oben
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
color_temperature: true
topics:
state: "zigbee2mqtt/0x001788010d2123a7"
set: "zigbee2mqtt/0x001788010d2123a7/set"
metadata:
friendly_name: "Deckenlampe Flur oben"
ieee_address: "0x001788010d2123a7"
model: "929003099001"
vendor: "Philips"
- device_id: kueche_deckenlampe
name: Deckenlampe
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0x001788010d2c40c4"
set: "zigbee2mqtt/0x001788010d2c40c4/set"
metadata:
friendly_name: "Küche Deckenlampe"
ieee_address: "0x001788010d2c40c4"
model: "929002469202"
vendor: "Philips"
- device_id: sportlicht_tisch
name: am Tisch
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0xf0d1b8be2409f31b"
set: "zigbee2mqtt/0xf0d1b8be2409f31b/set"
metadata:
friendly_name: "Sportlicht Tisch"
ieee_address: "0xf0d1b8be2409f31b"
model: "4058075729063"
vendor: "LEDVANCE"
- device_id: sportlicht_regal
name: am Regal
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0xf0d1b8be2409f569"
set: "zigbee2mqtt/0xf0d1b8be2409f569/set"
metadata:
friendly_name: "Sportlicht Regal"
ieee_address: "0xf0d1b8be2409f569"
model: "4058075729063"
vendor: "LEDVANCE"
- device_id: licht_flur_oben_am_spiegel
name: Spiegel
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
color_temperature: true
topics:
state: "zigbee2mqtt/0x842e14fffefe4ba4"
set: "zigbee2mqtt/0x842e14fffefe4ba4/set"
metadata:
friendly_name: "Licht Flur oben am Spiegel"
ieee_address: "0x842e14fffefe4ba4"
model: "LED1732G11"
vendor: "IKEA"
- device_id: experimentlabtest
name: Test Lampe
type: light
cap_version: "light@1.2.0"
technology: zigbee2mqtt
features:
power: true
brightness: true
topics:
state: "zigbee2mqtt/0xf0d1b80000195038"
set: "zigbee2mqtt/0xf0d1b80000195038/set"
metadata:
friendly_name: "ExperimentLabTest"
ieee_address: "0xf0d1b80000195038"
model: "4058075208421"
vendor: "LEDVANCE"
- device_id: thermostat_wolfgang
name: Heizung
type: thermostat
cap_version: "thermostat@1.0.0"
technology: zigbee2mqtt
features:
heating: true
temperature_range:
- 5
- 30
temperature_step: 0.5
topics:
state: "zigbee2mqtt/0x540f57fffe7e3cfe"
set: "zigbee2mqtt/0x540f57fffe7e3cfe/set"
metadata:
friendly_name: "Wolfgang"
ieee_address: "0x540f57fffe7e3cfe"
model: "GS361A-H04"
vendor: "Siterwell"
- device_id: thermostat_kueche
name: Heizung
type: thermostat
cap_version: "thermostat@1.0.0"
technology: zigbee2mqtt
features:
heating: true
temperature_range:
- 5
- 30
temperature_step: 0.5
topics:
state: "zigbee2mqtt/0x94deb8fffe2e5c06"
set: "zigbee2mqtt/0x94deb8fffe2e5c06/set"
metadata:
friendly_name: "Kueche"
ieee_address: "0x94deb8fffe2e5c06"
model: "GS361A-H04"
vendor: "Siterwell"
- device_id: thermostat_schlafzimmer
name: Heizung
type: thermostat
cap_version: "thermostat@1.0.0"
technology: max
features:
mode: true
target: true
current: false
topics:
set: "homegear/instance1/set/42/1/SET_TEMPERATURE"
state: "homegear/instance1/plain/42/1/SET_TEMPERATURE"
metadata:
friendly_name: "Thermostat Schlafzimmer"
location: "Schlafzimmer"
vendor: "eQ-3"
model: "MAX! Thermostat"
peer_id: "42"
channel: "1"
- device_id: thermostat_esszimmer
name: Heizung
type: thermostat
cap_version: "thermostat@1.0.0"
technology: max
features:
mode: true
target: true
current: false
topics:
set: "homegear/instance1/set/45/1/SET_TEMPERATURE"
state: "homegear/instance1/plain/45/1/SET_TEMPERATURE"
metadata:
friendly_name: "Thermostat Esszimmer"
location: "Esszimmer"
vendor: "eQ-3"
model: "MAX! Thermostat"
peer_id: "45"
channel: "1"
- device_id: thermostat_wohnzimmer
name: Heizung
type: thermostat
cap_version: "thermostat@1.0.0"
technology: max
features:
mode: true
target: true
current: false
topics:
set: "homegear/instance1/set/46/1/SET_TEMPERATURE"
state: "homegear/instance1/plain/46/1/SET_TEMPERATURE"
metadata:
friendly_name: "Thermostat Wohnzimmer"
location: "Wohnzimmer"
vendor: "eQ-3"
model: "MAX! Thermostat"
peer_id: "46"
channel: "1"
- device_id: thermostat_patty
name: Heizung
type: thermostat
cap_version: "thermostat@1.0.0"
technology: max
features:
mode: true
target: true
current: false
topics:
set: "homegear/instance1/set/39/1/SET_TEMPERATURE"
state: "homegear/instance1/plain/39/1/SET_TEMPERATURE"
metadata:
friendly_name: "Thermostat Patty"
location: "Arbeitszimmer Patty"
vendor: "eQ-3"
model: "MAX! Thermostat"
peer_id: "39"
channel: "1"
- device_id: thermostat_bad_oben
name: Heizung
type: thermostat
cap_version: "thermostat@1.0.0"
technology: max
features:
mode: true
target: true
current: false
topics:
set: "homegear/instance1/set/41/1/SET_TEMPERATURE"
state: "homegear/instance1/plain/41/1/SET_TEMPERATURE"
metadata:
friendly_name: "Thermostat Bad Oben"
location: "Bad Oben"
vendor: "eQ-3"
model: "MAX! Thermostat"
peer_id: "41"
channel: "1"
- device_id: thermostat_bad_unten
name: Heizung
type: thermostat
cap_version: "thermostat@1.0.0"
technology: max
features:
mode: true
target: true
current: false
topics:
set: "homegear/instance1/set/48/1/SET_TEMPERATURE"
state: "homegear/instance1/plain/48/1/SET_TEMPERATURE"
metadata:
friendly_name: "Thermostat Bad Unten"
location: "Bad Unten"
vendor: "eQ-3"
model: "MAX! Thermostat"
peer_id: "48"
channel: "1"
- device_id: sterne_wohnzimmer
name: Sterne
type: relay
cap_version: "relay@1.0.0"
technology: zigbee2mqtt
features:
power: true
topics:
state: "zigbee2mqtt/0xf0d1b80000155fc2"
set: "zigbee2mqtt/0xf0d1b80000155fc2/set"
metadata:
friendly_name: "Sterne Wohnzimmer"
ieee_address: "0xf0d1b80000155fc2"
model: "AC10691"
vendor: "OSRAM"
- device_id: kontakt_schlafzimmer_strasse
name: Fenster
type: contact
cap_version: contact_sensor@1.0.0
technology: max
topics:
state: homegear/instance1/plain/52/1/STATE
features: {}
- device_id: kontakt_esszimmer_strasse_rechts
type: contact
name: Fenster rechts
cap_version: contact_sensor@1.0.0
technology: max
topics:
state: homegear/instance1/plain/26/1/STATE
features: {}
- device_id: kontakt_esszimmer_strasse_links
name: Fenster links
type: contact
cap_version: contact_sensor@1.0.0
technology: max
topics:
state: homegear/instance1/plain/27/1/STATE
features: {}
- device_id: kontakt_wohnzimmer_garten_rechts
name: Fenster rechts
type: contact
cap_version: contact_sensor@1.0.0
technology: max
topics:
state: homegear/instance1/plain/28/1/STATE
features: {}
- device_id: kontakt_wohnzimmer_garten_links
name: Fenster links
type: contact
cap_version: contact_sensor@1.0.0
technology: max
topics:
state: homegear/instance1/plain/29/1/STATE
features: {}
- device_id: kontakt_kueche_garten_fenster
name: Fenster Garten
type: contact
cap_version: contact_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d008b332785
features: {}
- device_id: kontakt_kueche_garten_tuer
type: contact
name: Terrassentür
cap_version: contact_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d008b332788
features: {}
- device_id: kontakt_kueche_strasse_rechts
name: Fenster Straße rechts
type: contact
cap_version: contact_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d008b151803
features: {}
- device_id: kontakt_kueche_strasse_links
name: Fenster Straße links
type: contact
cap_version: contact_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d008b331d0b
features: {}
- device_id: kontakt_patty_garten_rechts
type: contact
name: Fenster Garten rechts
cap_version: contact_sensor@1.0.0
technology: max
topics:
state: homegear/instance1/plain/18/1/STATE
features: {}
- device_id: kontakt_patty_garten_links
type: contact
name: Fenster Garten links
cap_version: contact_sensor@1.0.0
technology: max
topics:
state: homegear/instance1/plain/22/1/STATE
features: {}
- device_id: kontakt_patty_strasse
type: contact
name: Fenster Straße
cap_version: contact_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d000af457cf
features: {}
- device_id: kontakt_wolfgang_garten
type: contact
name: Fenster
cap_version: contact_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d008b3328da
features: {}
- device_id: kontakt_bad_oben_strasse
type: contact
name: Fenster
cap_version: contact_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d008b333aec
features: {}
- device_id: kontakt_bad_unten_strasse
type: contact
name: Fenster
cap_version: contact_sensor@1.0.0
technology: max
topics:
state: homegear/instance1/plain/44/1/STATE
features: {}
- device_id: sensor_schlafzimmer
type: temp_humidity_sensor
name: Thermometer
cap_version: temp_humidity_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d00043292dc
features: {}
- device_id: sensor_wohnzimmer
type: temp_humidity_sensor
name: Thermometer
cap_version: temp_humidity_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d0008975707
features: {}
- device_id: sensor_kueche
type: temp_humidity_sensor
name: Thermometer
cap_version: temp_humidity_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d00083299bb
features: {}
- device_id: sensor_arbeitszimmer_patty
type: temp_humidity_sensor
name: Thermometer
cap_version: temp_humidity_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d0003f052b7
features: {}
- device_id: sensor_arbeitszimmer_wolfgang
type: temp_humidity_sensor
name: Thermometer
cap_version: temp_humidity_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d000543fb99
features: {}
- device_id: sensor_bad_oben
type: temp_humidity_sensor
name: Thermometer
cap_version: temp_humidity_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d00093e8987
features: {}
- device_id: sensor_bad_unten
type: temp_humidity_sensor
name: Thermometer
cap_version: temp_humidity_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d00093e662a
features: {}
- device_id: sensor_flur
type: temp_humidity_sensor
name: Thermometer
cap_version: temp_humidity_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d000836ccc6
features: {}
- device_id: sensor_waschkueche
type: temp_humidity_sensor
name: Thermometer
cap_version: temp_humidity_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d000449f3bc
features: {}
- device_id: sensor_sportzimmer
type: temp_humidity_sensor
name: Thermometer
cap_version: temp_humidity_sensor@1.0.0
technology: zigbee2mqtt
topics:
state: zigbee2mqtt/0x00158d0009421422
features: {}
- device_id: licht_spuele_kueche
name: Spüle
type: relay
cap_version: "relay@1.0.0"
technology: shelly
features:
power: true
topics:
set: "shellies/LightKitchenSink/relay/0/command"
state: "shellies/LightKitchenSink/relay/0"
- device_id: licht_schrank_esszimmer
name: Schrank
type: relay
cap_version: "relay@1.0.0"
technology: shelly
features:
power: true
topics:
set: "shellies/schrankesszimmer/relay/0/command"
state: "shellies/schrankesszimmer/relay/0"
- device_id: licht_regal_wohnzimmer
type: relay
name: Regal
cap_version: "relay@1.0.0"
technology: shelly
features:
power: true
topics:
set: "shellies/wohnzimmer-regal/relay/0/command"
state: "shellies/wohnzimmer-regal/relay/0"
- device_id: licht_flur_schrank
type: relay
name: Schrank
cap_version: "relay@1.0.0"
technology: shelly
features:
power: true
topics:
set: "shellies/schrankflur/relay/0/command"
state: "shellies/schrankflur/relay/0"
- device_id: licht_terasse
name: Terrasse
type: relay
cap_version: "relay@1.0.0"
technology: shelly
features:
power: true
topics:
set: "shellies/lichtterasse/relay/0/command"
state: "shellies/lichtterasse/relay/0"

36
config/groups.yaml Normal file
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@@ -0,0 +1,36 @@
version: 1
groups:
- id: "kueche_lichter"
name: "Küche alle Lampen"
selector:
type: "light"
room: "Küche"
capabilities:
power: true
brightness: true
- id: "alles_lichter"
name: "Alle Lichter"
selector:
type: "light"
capabilities:
power: true
- id: "schlafzimmer_lichter"
name: "Schlafzimmer alle Lampen"
selector:
type: "light"
room: "Schlafzimmer"
capabilities:
power: true
brightness: true
- id: "schlafzimmer_schlummer_licht"
name: "Schlafzimmer Schlummerlicht"
device_ids:
- bettlicht_patty
- bettlicht_wolfgang
- medusalampe_schlafzimmer
capabilities:
power: true
brightness: true

303
config/layout.yaml
View File

@@ -1,25 +1,282 @@
# UI Layout Configuration
# Defines rooms and device tiles for the home automation UI
rooms:
- name: Wohnzimmer
devices:
- device_id: test_lampe_2
title: Deckenlampe
icon: "💡"
rank: 5
- device_id: test_lampe_1
title: Stehlampe
icon: "<22>"
rank: 10
- name: Schlafzimmer
devices:
- device_id: test_lampe_3
title: Nachttischlampe
icon: "🛏️"
rank: 10
- name: Schlafzimmer
devices:
- device_id: bettlicht_patty
title: Bettlicht Patty
icon: 🛏️
rank: 10
- device_id: bettlicht_wolfgang
title: Bettlicht Wolfgang
icon: 🛏️
rank: 20
- device_id: deckenlampe_schlafzimmer
title: Deckenlampe Schlafzimmer
icon: 💡
rank: 30
- device_id: medusalampe_schlafzimmer
title: Medusa-Lampe Schlafzimmer
icon: 💡
rank: 40
- device_id: thermostat_schlafzimmer
title: Thermostat Schlafzimmer
icon: 🌡️
rank: 45
- device_id: kontakt_schlafzimmer_strasse
title: Kontakt Straße
icon: 🪟
rank: 46
- device_id: sensor_schlafzimmer
title: Temperatur & Luftfeuchte
icon: 🌡️
rank: 47
- name: Esszimmer
devices:
- device_id: deckenlampe_esszimmer
title: Deckenlampe Esszimmer
icon: 💡
rank: 50
- device_id: leselampe_esszimmer
title: Leselampe Esszimmer
icon: 💡
rank: 60
# - device_id: standlampe_esszimmer
# title: Standlampe Esszimmer
# icon: 💡
# rank: 70
- device_id: kleine_lampe_links_esszimmer
title: kleine Lampe links Esszimmer
icon: 💡
rank: 80
- device_id: stehlampe_esszimmer_spiegel
title: Stehlampe Esszimmer Spiegel
icon: 💡
rank: 81
- device_id: stehlampe_esszimmer_schrank
title: Stehlampe Esszimmer Schrank
icon: 💡
rank: 82
# - device_id: kleine_lampe_rechts_esszimmer
# title: kleine Lampe rechts Esszimmer
# icon: 💡
# rank: 90
- device_id: licht_schrank_esszimmer
title: Schranklicht Esszimmer
icon: 💡
rank: 92
- device_id: thermostat_esszimmer
title: Thermostat Esszimmer
icon: 🌡️
rank: 95
- device_id: kontakt_esszimmer_strasse_rechts
title: Kontakt Straße rechtsFtest
icon: 🪟
rank: 96
- device_id: kontakt_esszimmer_strasse_links
title: Kontakt Straße links
icon: 🪟
rank: 97
- name: Wohnzimmer
devices:
- device_id: lampe_naehtischchen_wohnzimmer
title: Lampe Naehtischchen Wohnzimmer
icon: 💡
rank: 100
- device_id: lampe_semeniere_wohnzimmer
title: Lampe Semeniere Wohnzimmer
icon: 💡
rank: 110
- device_id: sterne_wohnzimmer
title: Sterne Wohnzimmer
icon: 💡
rank: 120
- device_id: grosse_lampe_wohnzimmer
title: grosse Lampe Wohnzimmer
icon: 💡
rank: 130
- device_id: licht_regal_wohnzimmer
title: Regallicht Wohnzimmer
icon: 💡
rank: 132
- device_id: thermostat_wohnzimmer
title: Thermostat Wohnzimmer
icon: 🌡️
rank: 135
- device_id: kontakt_wohnzimmer_garten_rechts
title: Kontakt Garten rechts
icon: 🪟
rank: 136
- device_id: kontakt_wohnzimmer_garten_links
title: Kontakt Garten links
icon: 🪟
rank: 137
- device_id: sensor_wohnzimmer
title: Temperatur & Luftfeuchte
icon: 🌡️
rank: 138
- name: Küche
devices:
- device_id: kueche_deckenlampe
title: Küche Deckenlampe
icon: 💡
rank: 140
- device_id: licht_spuele_kueche
title: Küche Spüle
icon: 💡
rank: 142
- device_id: thermostat_kueche
title: Kueche
icon: 🌡️
rank: 150
- device_id: kontakt_kueche_garten_fenster
title: Kontakt Garten Fenster
icon: 🪟
rank: 151
- device_id: kontakt_kueche_garten_tuer
title: Kontakt Garten Tür
icon: 🪟
rank: 152
- device_id: kontakt_kueche_strasse_rechts
title: Kontakt Straße rechts
icon: 🪟
rank: 153
- device_id: kontakt_kueche_strasse_links
title: Kontakt Straße links
icon: 🪟
rank: 154
- device_id: sensor_kueche
title: Temperatur & Luftfeuchte
icon: 🌡️
rank: 155
- name: Arbeitszimmer Patty
devices:
- device_id: leselampe_patty
title: Leselampe Patty
icon: 💡
rank: 160
- device_id: schranklicht_hinten_patty
title: Schranklicht hinten Patty
icon: 💡
rank: 170
- device_id: schranklicht_vorne_patty
title: Schranklicht vorne Patty
icon: 💡
rank: 180
- device_id: thermostat_patty
title: Thermostat Patty
icon: 🌡️
rank: 185
- device_id: kontakt_patty_garten_rechts
title: Kontakt Garten rechts
icon: 🪟
rank: 186
- device_id: kontakt_patty_garten_links
title: Kontakt Garten links
icon: 🪟
rank: 187
- device_id: kontakt_patty_strasse
title: Kontakt Straße
icon: 🪟
rank: 188
- device_id: sensor_arbeitszimmer_patty
title: Temperatur & Luftfeuchte
icon: 🌡️
rank: 189
- name: Arbeitszimmer Wolfgang
devices:
- device_id: thermostat_wolfgang
title: Wolfgang
icon: 🌡️
rank: 190
- device_id: experimentlabtest
title: ExperimentLabTest
icon: 💡
rank: 200
- device_id: kontakt_wolfgang_garten
title: Kontakt Garten
icon: 🪟
rank: 201
- device_id: sensor_arbeitszimmer_wolfgang
title: Temperatur & Luftfeuchte
icon: 🌡️
rank: 202
- name: Flur
devices:
- device_id: deckenlampe_flur_oben
title: Deckenlampe Flur oben
icon: 💡
rank: 210
- device_id: haustuer
title: Haustür
icon: 💡
rank: 220
- device_id: licht_flur_schrank
title: Schranklicht Flur
icon: 💡
rank: 222
- device_id: licht_flur_oben_am_spiegel
title: Licht Flur oben am Spiegel
icon: 💡
rank: 230
- device_id: sensor_flur
title: Temperatur & Luftfeuchte
icon: 🌡️
rank: 235
- name: Sportzimmer
devices:
- device_id: sportlicht_regal
title: Sportlicht Regal
icon: 🏃
rank: 240
- device_id: sportlicht_tisch
title: Sportlicht Tisch
icon: 🏃
rank: 250
- device_id: sportlicht_am_fernseher_studierzimmer
title: Sportlicht am Fernseher, Studierzimmer
icon: 🏃
rank: 260
- device_id: sensor_sportzimmer
title: Temperatur & Luftfeuchte
icon: 🌡️
rank: 265
- name: Bad Oben
devices:
- device_id: thermostat_bad_oben
title: Thermostat Bad Oben
icon: 🌡️
rank: 270
- device_id: kontakt_bad_oben_strasse
title: Kontakt Straße
icon: 🪟
rank: 271
- device_id: sensor_bad_oben
title: Temperatur & Luftfeuchte
icon: 🌡️
rank: 272
- name: Bad Unten
devices:
- device_id: thermostat_bad_unten
title: Thermostat Bad Unten
icon: 🌡️
rank: 280
- device_id: kontakt_bad_unten_strasse
title: Kontakt Straße
icon: 🪟
rank: 281
- device_id: sensor_bad_unten
title: Temperatur & Luftfeuchte
icon: 🌡️
rank: 282
- name: Waschküche
devices:
- device_id: sensor_waschkueche
title: Temperatur & Luftfeuchte
icon: 🌡️
rank: 290
- name: Outdoor
devices:
- device_id: licht_terasse
title: Licht Terasse
icon: 💡
rank: 290

94
config/rules.yaml Normal file
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# Rules Configuration
# Auto-generated from devices.yaml
rules:
- id: window_setback_esszimmer
enabled: false
name: Fensterabsenkung Esszimmer
type: window_setback@1.0
objects:
contacts:
- kontakt_esszimmer_strasse_links
- kontakt_esszimmer_strasse_rechts
thermostats:
- thermostat_esszimmer
params:
eco_target: 16.0
open_min_secs: 20
close_min_secs: 20
previous_target_ttl_secs: 86400
- id: window_setback_kueche
enabled: false
name: Fensterabsenkung Küche
type: window_setback@1.0
objects:
contacts:
- kontakt_kueche_garten_fenster
- kontakt_kueche_garten_tuer
- kontakt_kueche_strasse_links
- kontakt_kueche_strasse_rechts
thermostats:
- thermostat_kueche
params:
eco_target: 16.0
open_min_secs: 20
close_min_secs: 20
previous_target_ttl_secs: 86400
- id: window_setback_patty
enabled: false
name: Fensterabsenkung Arbeitszimmer Patty
type: window_setback@1.0
objects:
contacts:
- kontakt_patty_garten_links
- kontakt_patty_garten_rechts
- kontakt_patty_strasse
thermostats:
- thermostat_patty
params:
eco_target: 16.0
open_min_secs: 20
close_min_secs: 20
previous_target_ttl_secs: 86400
- id: window_setback_schlafzimmer
enabled: false
name: Fensterabsenkung Schlafzimmer
type: window_setback@1.0
objects:
contacts:
- kontakt_schlafzimmer_strasse
thermostats:
- thermostat_schlafzimmer
params:
eco_target: 16.0
open_min_secs: 20
close_min_secs: 20
previous_target_ttl_secs: 86400
- id: window_setback_wohnzimmer
enabled: false
name: Fensterabsenkung Wohnzimmer
type: window_setback@1.0
objects:
contacts:
- kontakt_wohnzimmer_garten_links
- kontakt_wohnzimmer_garten_rechts
thermostats:
- thermostat_wohnzimmer
params:
eco_target: 16.0
open_min_secs: 20
close_min_secs: 20
previous_target_ttl_secs: 86400
- id: window_setback_wolfgang
enabled: true
name: Fensterabsenkung Arbeitszimmer Wolfgang
type: window_setback@1.0
objects:
contacts:
- kontakt_wolfgang_garten
thermostats:
- thermostat_wolfgang
params:
eco_target: 16.0
open_min_secs: 20
close_min_secs: 20

24
config/scenes.yaml Normal file
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@@ -0,0 +1,24 @@
version: 1
scenes:
- id: "alles_aus"
name: "Alles aus"
steps:
- selector: { type: "light" }
action:
type: "light"
payload: { power: "off" }
- selector: { type: "relay" }
action:
type: "relay"
payload: { power: "off" }
- id: "kueche_gemuetlich"
name: "Küche gemütlich"
steps:
- group_id: "kueche_lichter"
action:
type: "light"
payload:
power: "on"
brightness: 35

25
debug/2025-11-18-01-MQTT_message_received_on.log Normal file
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@@ -0,0 +1,25 @@
abstraction | 2025-11-18 12:04:42,875 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/42/1/SET_TEMPERATURE: 21
abstraction | 2025-11-18 12:04:42,914 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/45/1/SET_TEMPERATURE: 15
abstraction | 2025-11-18 12:04:42,950 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/46/1/SET_TEMPERATURE: 15
abstraction | 2025-11-18 12:04:42,987 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/39/1/SET_TEMPERATURE: 22
abstraction | 2025-11-18 12:04:43,029 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/41/1/SET_TEMPERATURE: 20
abstraction | 2025-11-18 12:04:43,071 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/48/1/SET_TEMPERATURE: 21
abstraction | 2025-11-18 12:04:43,108 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/52/1/STATE: false
abstraction | 2025-11-18 12:04:43,145 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/26/1/STATE: false
abstraction | 2025-11-18 12:04:43,182 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/27/1/STATE: false
abstraction | 2025-11-18 12:04:43,219 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/28/1/STATE: false
abstraction | 2025-11-18 12:04:43,256 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/29/1/STATE: false
abstraction | 2025-11-18 12:04:43,292 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/18/1/STATE: false
abstraction | 2025-11-18 12:04:43,331 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/22/1/STATE: false
abstraction | 2025-11-18 12:04:43,368 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/44/1/STATE: false
abstraction | 2025-11-18 12:04:48,498 - __main__ - DEBUG - MQTT message received on shellies/schrankesszimmer/relay/0: off
abstraction | 2025-11-18 12:04:52,989 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d0003f052b7: {"battery":100,"humidity":55.04,"linkquality":83,"power_outage_count":38416,"pressure":1002.6,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:53,024 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d0003f052b7: {"battery":100,"humidity":54.82,"linkquality":83,"power_outage_count":38416,"pressure":1002.6,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:53,061 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d0003f052b7: {"battery":100,"humidity":54.82,"linkquality":83,"power_outage_count":38416,"pressure":1002.4,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:05:03,058 - __main__ - DEBUG - MQTT message received on shellies/lichtterasse/relay/0: off
abstraction | 2025-11-18 12:05:08,209 - __main__ - DEBUG - MQTT message received on shellies/wohnzimmer-regal/relay/0: off
abstraction | 2025-11-18 12:05:10,881 - __main__ - DEBUG - MQTT message received on shellies/LightKitchenSink/relay/0: on
abstraction | 2025-11-18 12:05:12,622 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d00083299bb: {"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.9,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,656 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d00083299bb: {"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.9,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,690 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d00083299bb: {"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.7,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:18,507 - __main__ - DEBUG - MQTT message received on shellies/schrankesszimmer/relay/0: off

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abstraction | 2025-11-18 12:04:40,901 - asyncio - DEBUG - Using selector: EpollSelector
abstraction | 2025-11-18 12:04:40,952 - __main__ - INFO - Loaded configuration from /app/config/devices.yaml
abstraction | 2025-11-18 12:04:40,953 - __main__ - INFO - Loaded 64 device(s): lampe_semeniere_wohnzimmer, stehlampe_esszimmer_spiegel, stehlampe_esszimmer_schrank, grosse_lampe_wohnzimmer, lampe_naehtischchen_wohnzimmer, kleine_lampe_rechts_esszimmer, kleine_lampe_links_esszimmer, leselampe_esszimmer, medusalampe_schlafzimmer, sportlicht_am_fernseher_studierzimmer, deckenlampe_schlafzimmer, bettlicht_wolfgang, bettlicht_patty, schranklicht_hinten_patty, schranklicht_vorne_patty, leselampe_patty, deckenlampe_esszimmer, standlampe_esszimmer, haustuer, deckenlampe_flur_oben, kueche_deckenlampe, sportlicht_tisch, sportlicht_regal, licht_flur_oben_am_spiegel, experimentlabtest, thermostat_wolfgang, thermostat_kueche, thermostat_schlafzimmer, thermostat_esszimmer, thermostat_wohnzimmer, thermostat_patty, thermostat_bad_oben, thermostat_bad_unten, sterne_wohnzimmer, kontakt_schlafzimmer_strasse, kontakt_esszimmer_strasse_rechts, kontakt_esszimmer_strasse_links, kontakt_wohnzimmer_garten_rechts, kontakt_wohnzimmer_garten_links, kontakt_kueche_garten_fenster, kontakt_kueche_garten_tuer, kontakt_kueche_strasse_rechts, kontakt_kueche_strasse_links, kontakt_patty_garten_rechts, kontakt_patty_garten_links, kontakt_patty_strasse, kontakt_wolfgang_garten, kontakt_bad_oben_strasse, kontakt_bad_unten_strasse, sensor_schlafzimmer, sensor_wohnzimmer, sensor_kueche, sensor_arbeitszimmer_patty, sensor_arbeitszimmer_wolfgang, sensor_bad_oben, sensor_bad_unten, sensor_flur, sensor_waschkueche, sensor_sportzimmer, licht_spuele_kueche, licht_schrank_esszimmer, licht_regal_wohnzimmer, licht_flur_schrank, licht_terasse
abstraction | 2025-11-18 12:04:40,953 - __main__ - INFO - Loaded 64 device(s) from configuration
abstraction | 2025-11-18 12:04:41,003 - __main__ - INFO - Connected to Redis: redis://172.23.1.116:6379/8
abstraction | 2025-11-18 12:04:41,003 - __main__ - INFO - Abstraction worker started
abstraction | 2025-11-18 12:04:41,003 - __main__ - INFO - Connecting to MQTT broker: 172.23.1.102:1883
abstraction | 2025-11-18 12:04:41,053 - __main__ - INFO - Connected to MQTT broker as home-automation-abstraction-b39304
abstraction | 2025-11-18 12:04:41,072 - __main__ - INFO - Subscribed to abstract SET: home/relay/lampe_semeniere_wohnzimmer/set
abstraction | 2025-11-18 12:04:41,091 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b8000015480b
abstraction | 2025-11-18 12:04:41,107 - __main__ - INFO - Subscribed to abstract SET: home/light/stehlampe_esszimmer_spiegel/set
abstraction | 2025-11-18 12:04:41,125 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d06ea09
abstraction | 2025-11-18 12:04:41,141 - __main__ - INFO - Subscribed to abstract SET: home/light/stehlampe_esszimmer_schrank/set
abstraction | 2025-11-18 12:04:41,159 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d09176c
abstraction | 2025-11-18 12:04:41,176 - __main__ - INFO - Subscribed to abstract SET: home/relay/grosse_lampe_wohnzimmer/set
abstraction | 2025-11-18 12:04:41,192 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000151aca
abstraction | 2025-11-18 12:04:41,209 - __main__ - INFO - Subscribed to abstract SET: home/relay/lampe_naehtischchen_wohnzimmer/set
abstraction | 2025-11-18 12:04:41,225 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x842e14fffee560ee
abstraction | 2025-11-18 12:04:41,242 - __main__ - INFO - Subscribed to abstract SET: home/relay/kleine_lampe_rechts_esszimmer/set
abstraction | 2025-11-18 12:04:41,259 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000156645
abstraction | 2025-11-18 12:04:41,276 - __main__ - INFO - Subscribed to abstract SET: home/relay/kleine_lampe_links_esszimmer/set
abstraction | 2025-11-18 12:04:41,293 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000153099
abstraction | 2025-11-18 12:04:41,310 - __main__ - INFO - Subscribed to abstract SET: home/light/leselampe_esszimmer/set
abstraction | 2025-11-18 12:04:41,327 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xec1bbdfffe7b84f2
abstraction | 2025-11-18 12:04:41,344 - __main__ - INFO - Subscribed to abstract SET: home/relay/medusalampe_schlafzimmer/set
abstraction | 2025-11-18 12:04:41,361 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000154c7c
abstraction | 2025-11-18 12:04:41,378 - __main__ - INFO - Subscribed to abstract SET: home/light/sportlicht_am_fernseher_studierzimmer/set
abstraction | 2025-11-18 12:04:41,395 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x842e14fffe76a23a
abstraction | 2025-11-18 12:04:41,415 - __main__ - INFO - Subscribed to abstract SET: home/light/deckenlampe_schlafzimmer/set
abstraction | 2025-11-18 12:04:41,432 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880108a406a7
abstraction | 2025-11-18 12:04:41,449 - __main__ - INFO - Subscribed to abstract SET: home/light/bettlicht_wolfgang/set
abstraction | 2025-11-18 12:04:41,466 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00178801081570bf
abstraction | 2025-11-18 12:04:41,484 - __main__ - INFO - Subscribed to abstract SET: home/light/bettlicht_patty/set
abstraction | 2025-11-18 12:04:41,500 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880108158b32
abstraction | 2025-11-18 12:04:41,518 - __main__ - INFO - Subscribed to abstract SET: home/light/schranklicht_hinten_patty/set
abstraction | 2025-11-18 12:04:41,535 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880106e29571
abstraction | 2025-11-18 12:04:41,552 - __main__ - INFO - Subscribed to abstract SET: home/relay/schranklicht_vorne_patty/set
abstraction | 2025-11-18 12:04:41,569 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000154cf5
abstraction | 2025-11-18 12:04:41,586 - __main__ - INFO - Subscribed to abstract SET: home/light/leselampe_patty/set
abstraction | 2025-11-18 12:04:41,603 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010600ec9d
abstraction | 2025-11-18 12:04:41,620 - __main__ - INFO - Subscribed to abstract SET: home/light/deckenlampe_esszimmer/set
abstraction | 2025-11-18 12:04:41,637 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880108a03e45
abstraction | 2025-11-18 12:04:41,655 - __main__ - INFO - Subscribed to abstract SET: home/light/standlampe_esszimmer/set
abstraction | 2025-11-18 12:04:41,674 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xbc33acfffe21f547
abstraction | 2025-11-18 12:04:41,692 - __main__ - INFO - Subscribed to abstract SET: home/light/haustuer/set
abstraction | 2025-11-18 12:04:41,711 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xec1bbdfffea6a3da
abstraction | 2025-11-18 12:04:41,728 - __main__ - INFO - Subscribed to abstract SET: home/light/deckenlampe_flur_oben/set
abstraction | 2025-11-18 12:04:41,746 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d2123a7
abstraction | 2025-11-18 12:04:41,764 - __main__ - INFO - Subscribed to abstract SET: home/light/kueche_deckenlampe/set
abstraction | 2025-11-18 12:04:41,781 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d2c40c4
abstraction | 2025-11-18 12:04:41,798 - __main__ - INFO - Subscribed to abstract SET: home/light/sportlicht_tisch/set
abstraction | 2025-11-18 12:04:41,814 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b8be2409f31b
abstraction | 2025-11-18 12:04:41,831 - __main__ - INFO - Subscribed to abstract SET: home/light/sportlicht_regal/set
abstraction | 2025-11-18 12:04:41,848 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b8be2409f569
abstraction | 2025-11-18 12:04:41,865 - __main__ - INFO - Subscribed to abstract SET: home/light/licht_flur_oben_am_spiegel/set
abstraction | 2025-11-18 12:04:41,883 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x842e14fffefe4ba4
abstraction | 2025-11-18 12:04:41,899 - __main__ - INFO - Subscribed to abstract SET: home/light/experimentlabtest/set
abstraction | 2025-11-18 12:04:41,918 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000195038
abstraction | 2025-11-18 12:04:41,936 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_wolfgang/set
abstraction | 2025-11-18 12:04:41,955 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x540f57fffe7e3cfe
abstraction | 2025-11-18 12:04:41,974 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_kueche/set
abstraction | 2025-11-18 12:04:41,991 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x94deb8fffe2e5c06
abstraction | 2025-11-18 12:04:42,008 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_schlafzimmer/set
abstraction | 2025-11-18 12:04:42,025 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/42/1/SET_TEMPERATURE
abstraction | 2025-11-18 12:04:42,042 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_esszimmer/set
abstraction | 2025-11-18 12:04:42,059 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/45/1/SET_TEMPERATURE
abstraction | 2025-11-18 12:04:42,080 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_wohnzimmer/set
abstraction | 2025-11-18 12:04:42,097 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/46/1/SET_TEMPERATURE
abstraction | 2025-11-18 12:04:42,114 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_patty/set
abstraction | 2025-11-18 12:04:42,131 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/39/1/SET_TEMPERATURE
abstraction | 2025-11-18 12:04:42,150 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_bad_oben/set
abstraction | 2025-11-18 12:04:42,171 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/41/1/SET_TEMPERATURE
abstraction | 2025-11-18 12:04:42,189 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_bad_unten/set
abstraction | 2025-11-18 12:04:42,207 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/48/1/SET_TEMPERATURE
abstraction | 2025-11-18 12:04:42,224 - __main__ - INFO - Subscribed to abstract SET: home/relay/sterne_wohnzimmer/set
abstraction | 2025-11-18 12:04:42,240 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000155fc2
abstraction | 2025-11-18 12:04:42,240 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_schlafzimmer_strasse
abstraction | 2025-11-18 12:04:42,258 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/52/1/STATE
abstraction | 2025-11-18 12:04:42,258 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_esszimmer_strasse_rechts
abstraction | 2025-11-18 12:04:42,275 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/26/1/STATE
abstraction | 2025-11-18 12:04:42,275 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_esszimmer_strasse_links
abstraction | 2025-11-18 12:04:42,293 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/27/1/STATE
abstraction | 2025-11-18 12:04:42,293 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_wohnzimmer_garten_rechts
abstraction | 2025-11-18 12:04:42,313 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/28/1/STATE
abstraction | 2025-11-18 12:04:42,313 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_wohnzimmer_garten_links
abstraction | 2025-11-18 12:04:42,331 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/29/1/STATE
abstraction | 2025-11-18 12:04:42,331 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_garten_fenster
abstraction | 2025-11-18 12:04:42,351 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b332785
abstraction | 2025-11-18 12:04:42,351 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_garten_tuer
abstraction | 2025-11-18 12:04:42,371 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b332788
abstraction | 2025-11-18 12:04:42,371 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_strasse_rechts
abstraction | 2025-11-18 12:04:42,390 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b151803
abstraction | 2025-11-18 12:04:42,390 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_strasse_links
abstraction | 2025-11-18 12:04:42,408 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b331d0b
abstraction | 2025-11-18 12:04:42,408 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_patty_garten_rechts
abstraction | 2025-11-18 12:04:42,424 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/18/1/STATE
abstraction | 2025-11-18 12:04:42,424 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_patty_garten_links
abstraction | 2025-11-18 12:04:42,441 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/22/1/STATE
abstraction | 2025-11-18 12:04:42,441 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_patty_strasse
abstraction | 2025-11-18 12:04:42,462 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000af457cf
abstraction | 2025-11-18 12:04:42,462 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_wolfgang_garten
abstraction | 2025-11-18 12:04:42,479 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b3328da
abstraction | 2025-11-18 12:04:42,480 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_bad_oben_strasse
abstraction | 2025-11-18 12:04:42,496 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b333aec
abstraction | 2025-11-18 12:04:42,496 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_bad_unten_strasse
abstraction | 2025-11-18 12:04:42,513 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/44/1/STATE
abstraction | 2025-11-18 12:04:42,513 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_schlafzimmer
abstraction | 2025-11-18 12:04:42,532 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00043292dc
abstraction | 2025-11-18 12:04:42,532 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_wohnzimmer
abstraction | 2025-11-18 12:04:42,552 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d0008975707
abstraction | 2025-11-18 12:04:42,552 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_kueche
abstraction | 2025-11-18 12:04:42,571 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00083299bb
abstraction | 2025-11-18 12:04:42,571 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_arbeitszimmer_patty
abstraction | 2025-11-18 12:04:42,589 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d0003f052b7
abstraction | 2025-11-18 12:04:42,589 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_arbeitszimmer_wolfgang
abstraction | 2025-11-18 12:04:42,608 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000543fb99
abstraction | 2025-11-18 12:04:42,608 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_bad_oben
abstraction | 2025-11-18 12:04:42,625 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00093e8987
abstraction | 2025-11-18 12:04:42,625 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_bad_unten
abstraction | 2025-11-18 12:04:42,645 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00093e662a
abstraction | 2025-11-18 12:04:42,645 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_flur
abstraction | 2025-11-18 12:04:42,664 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000836ccc6
abstraction | 2025-11-18 12:04:42,664 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_waschkueche
abstraction | 2025-11-18 12:04:42,682 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000449f3bc
abstraction | 2025-11-18 12:04:42,682 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_sportzimmer
abstraction | 2025-11-18 12:04:42,699 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d0009421422
abstraction | 2025-11-18 12:04:42,716 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_spuele_kueche/set
abstraction | 2025-11-18 12:04:42,734 - __main__ - INFO - Subscribed to vendor STATE: shellies/LightKitchenSink/relay/0
abstraction | 2025-11-18 12:04:42,751 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_schrank_esszimmer/set
abstraction | 2025-11-18 12:04:42,770 - __main__ - INFO - Subscribed to vendor STATE: shellies/schrankesszimmer/relay/0
abstraction | 2025-11-18 12:04:42,790 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_regal_wohnzimmer/set
abstraction | 2025-11-18 12:04:42,807 - __main__ - INFO - Subscribed to vendor STATE: shellies/wohnzimmer-regal/relay/0
abstraction | 2025-11-18 12:04:42,823 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_flur_schrank/set
abstraction | 2025-11-18 12:04:42,841 - __main__ - INFO - Subscribed to vendor STATE: shellies/schrankflur/relay/0
abstraction | 2025-11-18 12:04:42,858 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_terasse/set
abstraction | 2025-11-18 12:04:42,875 - __main__ - INFO - Subscribed to vendor STATE: shellies/lichtterasse/relay/0
abstraction | 2025-11-18 12:04:42,875 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/42/1/SET_TEMPERATURE: 21
abstraction | 2025-11-18 12:04:42,875 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=21
abstraction | 2025-11-18 12:04:42,876 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 21.0, 'mode': 'heat'}
abstraction | 2025-11-18 12:04:42,876 - __main__ - INFO - ← abstract STATE thermostat_schlafzimmer: home/thermostat/thermostat_schlafzimmer/state → {"target": 21.0, "mode": "heat"}
abstraction | 2025-11-18 12:04:42,897 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_schlafzimmer", "payload": {"target": 21.0, "mode": "heat"}, "ts": "2025-11-18T12:04:42.897310+00:00"}
abstraction | 2025-11-18 12:04:42,914 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/45/1/SET_TEMPERATURE: 15
abstraction | 2025-11-18 12:04:42,914 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=15
abstraction | 2025-11-18 12:04:42,914 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 15.0, 'mode': 'heat'}
abstraction | 2025-11-18 12:04:42,914 - __main__ - INFO - ← abstract STATE thermostat_esszimmer: home/thermostat/thermostat_esszimmer/state → {"target": 15.0, "mode": "heat"}
abstraction | 2025-11-18 12:04:42,934 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_esszimmer", "payload": {"target": 15.0, "mode": "heat"}, "ts": "2025-11-18T12:04:42.934255+00:00"}
abstraction | 2025-11-18 12:04:42,950 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/46/1/SET_TEMPERATURE: 15
abstraction | 2025-11-18 12:04:42,950 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=15
abstraction | 2025-11-18 12:04:42,950 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 15.0, 'mode': 'heat'}
abstraction | 2025-11-18 12:04:42,951 - __main__ - INFO - ← abstract STATE thermostat_wohnzimmer: home/thermostat/thermostat_wohnzimmer/state → {"target": 15.0, "mode": "heat"}
abstraction | 2025-11-18 12:04:42,970 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_wohnzimmer", "payload": {"target": 15.0, "mode": "heat"}, "ts": "2025-11-18T12:04:42.970936+00:00"}
abstraction | 2025-11-18 12:04:42,987 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/39/1/SET_TEMPERATURE: 22
abstraction | 2025-11-18 12:04:42,988 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=22
abstraction | 2025-11-18 12:04:42,988 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 22.0, 'mode': 'heat'}
abstraction | 2025-11-18 12:04:42,988 - __main__ - INFO - ← abstract STATE thermostat_patty: home/thermostat/thermostat_patty/state → {"target": 22.0, "mode": "heat"}
abstraction | 2025-11-18 12:04:43,009 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_patty", "payload": {"target": 22.0, "mode": "heat"}, "ts": "2025-11-18T12:04:43.009673+00:00"}
abstraction | 2025-11-18 12:04:43,029 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/41/1/SET_TEMPERATURE: 20
abstraction | 2025-11-18 12:04:43,029 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=20
abstraction | 2025-11-18 12:04:43,029 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 20.0, 'mode': 'heat'}
abstraction | 2025-11-18 12:04:43,029 - __main__ - INFO - ← abstract STATE thermostat_bad_oben: home/thermostat/thermostat_bad_oben/state → {"target": 20.0, "mode": "heat"}
abstraction | 2025-11-18 12:04:43,053 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_bad_oben", "payload": {"target": 20.0, "mode": "heat"}, "ts": "2025-11-18T12:04:43.053895+00:00"}
abstraction | 2025-11-18 12:04:43,071 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/48/1/SET_TEMPERATURE: 21
abstraction | 2025-11-18 12:04:43,071 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=21
abstraction | 2025-11-18 12:04:43,071 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 21.0, 'mode': 'heat'}
abstraction | 2025-11-18 12:04:43,072 - __main__ - INFO - ← abstract STATE thermostat_bad_unten: home/thermostat/thermostat_bad_unten/state → {"target": 21.0, "mode": "heat"}
abstraction | 2025-11-18 12:04:43,092 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_bad_unten", "payload": {"target": 21.0, "mode": "heat"}, "ts": "2025-11-18T12:04:43.092210+00:00"}
abstraction | 2025-11-18 12:04:43,108 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/52/1/STATE: false
abstraction | 2025-11-18 12:04:43,108 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,108 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,109 - __main__ - INFO - ← abstract STATE kontakt_schlafzimmer_strasse: home/contact/kontakt_schlafzimmer_strasse/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,128 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_schlafzimmer_strasse", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.128506+00:00"}
abstraction | 2025-11-18 12:04:43,145 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/26/1/STATE: false
abstraction | 2025-11-18 12:04:43,145 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,145 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,146 - __main__ - INFO - ← abstract STATE kontakt_esszimmer_strasse_rechts: home/contact/kontakt_esszimmer_strasse_rechts/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,165 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_esszimmer_strasse_rechts", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.165958+00:00"}
abstraction | 2025-11-18 12:04:43,182 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/27/1/STATE: false
abstraction | 2025-11-18 12:04:43,182 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,183 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,183 - __main__ - INFO - ← abstract STATE kontakt_esszimmer_strasse_links: home/contact/kontakt_esszimmer_strasse_links/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,202 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_esszimmer_strasse_links", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.202580+00:00"}
abstraction | 2025-11-18 12:04:43,219 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/28/1/STATE: false
abstraction | 2025-11-18 12:04:43,219 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,219 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,220 - __main__ - INFO - ← abstract STATE kontakt_wohnzimmer_garten_rechts: home/contact/kontakt_wohnzimmer_garten_rechts/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,239 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_wohnzimmer_garten_rechts", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.239653+00:00"}
abstraction | 2025-11-18 12:04:43,256 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/29/1/STATE: false
abstraction | 2025-11-18 12:04:43,256 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,256 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,257 - __main__ - INFO - ← abstract STATE kontakt_wohnzimmer_garten_links: home/contact/kontakt_wohnzimmer_garten_links/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,275 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_wohnzimmer_garten_links", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.275832+00:00"}
abstraction | 2025-11-18 12:04:43,292 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/18/1/STATE: false
abstraction | 2025-11-18 12:04:43,292 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,292 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,293 - __main__ - INFO - ← abstract STATE kontakt_patty_garten_rechts: home/contact/kontakt_patty_garten_rechts/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,314 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_patty_garten_rechts", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.314579+00:00"}
abstraction | 2025-11-18 12:04:43,331 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/22/1/STATE: false
abstraction | 2025-11-18 12:04:43,331 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,331 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,332 - __main__ - INFO - ← abstract STATE kontakt_patty_garten_links: home/contact/kontakt_patty_garten_links/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,351 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_patty_garten_links", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.351704+00:00"}
abstraction | 2025-11-18 12:04:43,368 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/44/1/STATE: false
abstraction | 2025-11-18 12:04:43,368 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,368 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,369 - __main__ - INFO - ← abstract STATE kontakt_bad_unten_strasse: home/contact/kontakt_bad_unten_strasse/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,388 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_bad_unten_strasse", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.388390+00:00"}
abstraction | 2025-11-18 12:04:48,498 - __main__ - DEBUG - MQTT message received on shellies/schrankesszimmer/relay/0: off
abstraction | 2025-11-18 12:04:48,498 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 12:04:48,498 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 12:04:48,498 - __main__ - INFO - ← abstract STATE licht_schrank_esszimmer: home/relay/licht_schrank_esszimmer/state → {"power": "off"}
abstraction | 2025-11-18 12:04:48,518 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_schrank_esszimmer", "payload": {"power": "off"}, "ts": "2025-11-18T12:04:48.518525+00:00"}
abstraction | 2025-11-18 12:04:52,989 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d0003f052b7: {"battery":100,"humidity":55.04,"linkquality":83,"power_outage_count":38416,"pressure":1002.6,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:52,989 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={"battery":100,"humidity":55.04,"linkquality":83,"power_outage_count":38416,"pressure":1002.6,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:52,989 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 55.04, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1002.6, 'temperature': 22.13, 'voltage': 3015}
abstraction | 2025-11-18 12:04:52,989 - __main__ - INFO - ← abstract STATE sensor_arbeitszimmer_patty: home/temp_humidity/sensor_arbeitszimmer_patty/state → {"battery": 100, "humidity": 55.04, "linkquality": 83, "power_outage_count": 38416, "pressure": 1002.6, "temperature": 22.13, "voltage": 3015}
abstraction | 2025-11-18 12:04:53,009 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_arbeitszimmer_patty", "payload": {"battery": 100, "humidity": 55.04, "linkquality": 83, "power_outage_count": 38416, "pressure": 1002.6, "temperature": 22.13, "voltage": 3015}, "ts": "2025-11-18T12:04:53.009776+00:00"}
abstraction | 2025-11-18 12:04:53,024 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d0003f052b7: {"battery":100,"humidity":54.82,"linkquality":83,"power_outage_count":38416,"pressure":1002.6,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:53,025 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={"battery":100,"humidity":54.82,"linkquality":83,"power_outage_count":38416,"pressure":1002.6,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:53,025 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.82, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1002.6, 'temperature': 22.13, 'voltage': 3015}
abstraction | 2025-11-18 12:04:53,025 - __main__ - INFO - ← abstract STATE sensor_arbeitszimmer_patty: home/temp_humidity/sensor_arbeitszimmer_patty/state → {"battery": 100, "humidity": 54.82, "linkquality": 83, "power_outage_count": 38416, "pressure": 1002.6, "temperature": 22.13, "voltage": 3015}
abstraction | 2025-11-18 12:04:53,044 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_arbeitszimmer_patty", "payload": {"battery": 100, "humidity": 54.82, "linkquality": 83, "power_outage_count": 38416, "pressure": 1002.6, "temperature": 22.13, "voltage": 3015}, "ts": "2025-11-18T12:04:53.044379+00:00"}
abstraction | 2025-11-18 12:04:53,061 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d0003f052b7: {"battery":100,"humidity":54.82,"linkquality":83,"power_outage_count":38416,"pressure":1002.4,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:53,061 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={"battery":100,"humidity":54.82,"linkquality":83,"power_outage_count":38416,"pressure":1002.4,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:53,061 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.82, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1002.4, 'temperature': 22.13, 'voltage': 3015}
abstraction | 2025-11-18 12:04:53,061 - __main__ - INFO - ← abstract STATE sensor_arbeitszimmer_patty: home/temp_humidity/sensor_arbeitszimmer_patty/state → {"battery": 100, "humidity": 54.82, "linkquality": 83, "power_outage_count": 38416, "pressure": 1002.4, "temperature": 22.13, "voltage": 3015}
abstraction | 2025-11-18 12:04:53,084 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_arbeitszimmer_patty", "payload": {"battery": 100, "humidity": 54.82, "linkquality": 83, "power_outage_count": 38416, "pressure": 1002.4, "temperature": 22.13, "voltage": 3015}, "ts": "2025-11-18T12:04:53.083988+00:00"}
abstraction | 2025-11-18 12:05:03,058 - __main__ - DEBUG - MQTT message received on shellies/lichtterasse/relay/0: off
abstraction | 2025-11-18 12:05:03,058 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 12:05:03,058 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 12:05:03,058 - __main__ - INFO - ← abstract STATE licht_terasse: home/relay/licht_terasse/state → {"power": "off"}
abstraction | 2025-11-18 12:05:03,075 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_terasse", "payload": {"power": "off"}, "ts": "2025-11-18T12:05:03.075262+00:00"}
abstraction | 2025-11-18 12:05:08,209 - __main__ - DEBUG - MQTT message received on shellies/wohnzimmer-regal/relay/0: off
abstraction | 2025-11-18 12:05:08,210 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 12:05:08,210 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 12:05:08,210 - __main__ - INFO - ← abstract STATE licht_regal_wohnzimmer: home/relay/licht_regal_wohnzimmer/state → {"power": "off"}
abstraction | 2025-11-18 12:05:08,228 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_regal_wohnzimmer", "payload": {"power": "off"}, "ts": "2025-11-18T12:05:08.228758+00:00"}
abstraction | 2025-11-18 12:05:10,881 - __main__ - DEBUG - MQTT message received on shellies/LightKitchenSink/relay/0: on
abstraction | 2025-11-18 12:05:10,881 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=on
abstraction | 2025-11-18 12:05:10,881 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'on'}
abstraction | 2025-11-18 12:05:10,881 - __main__ - INFO - ← abstract STATE licht_spuele_kueche: home/relay/licht_spuele_kueche/state → {"power": "on"}
abstraction | 2025-11-18 12:05:10,899 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_spuele_kueche", "payload": {"power": "on"}, "ts": "2025-11-18T12:05:10.899207+00:00"}
abstraction | 2025-11-18 12:05:12,622 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d00083299bb: {"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.9,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,622 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.9,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,622 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 63, 'humidity': 47.69, 'linkquality': 87, 'power_outage_count': 4906, 'pressure': 1009.9, 'temperature': 19.74, 'voltage': 2945}
abstraction | 2025-11-18 12:05:12,622 - __main__ - INFO - ← abstract STATE sensor_kueche: home/temp_humidity/sensor_kueche/state → {"battery": 63, "humidity": 47.69, "linkquality": 87, "power_outage_count": 4906, "pressure": 1009.9, "temperature": 19.74, "voltage": 2945}
abstraction | 2025-11-18 12:05:12,640 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_kueche", "payload": {"battery": 63, "humidity": 47.69, "linkquality": 87, "power_outage_count": 4906, "pressure": 1009.9, "temperature": 19.74, "voltage": 2945}, "ts": "2025-11-18T12:05:12.640129+00:00"}
abstraction | 2025-11-18 12:05:12,656 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d00083299bb: {"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.9,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,656 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.9,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,656 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 63, 'humidity': 47.69, 'linkquality': 87, 'power_outage_count': 4906, 'pressure': 1009.9, 'temperature': 19.74, 'voltage': 2945}
abstraction | 2025-11-18 12:05:12,657 - __main__ - INFO - ← abstract STATE sensor_kueche: home/temp_humidity/sensor_kueche/state → {"battery": 63, "humidity": 47.69, "linkquality": 87, "power_outage_count": 4906, "pressure": 1009.9, "temperature": 19.74, "voltage": 2945}
abstraction | 2025-11-18 12:05:12,674 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_kueche", "payload": {"battery": 63, "humidity": 47.69, "linkquality": 87, "power_outage_count": 4906, "pressure": 1009.9, "temperature": 19.74, "voltage": 2945}, "ts": "2025-11-18T12:05:12.674372+00:00"}
abstraction | 2025-11-18 12:05:12,690 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d00083299bb: {"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.7,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,690 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.7,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,690 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 63, 'humidity': 47.69, 'linkquality': 87, 'power_outage_count': 4906, 'pressure': 1009.7, 'temperature': 19.74, 'voltage': 2945}
abstraction | 2025-11-18 12:05:12,690 - __main__ - INFO - ← abstract STATE sensor_kueche: home/temp_humidity/sensor_kueche/state → {"battery": 63, "humidity": 47.69, "linkquality": 87, "power_outage_count": 4906, "pressure": 1009.7, "temperature": 19.74, "voltage": 2945}
abstraction | 2025-11-18 12:05:12,708 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_kueche", "payload": {"battery": 63, "humidity": 47.69, "linkquality": 87, "power_outage_count": 4906, "pressure": 1009.7, "temperature": 19.74, "voltage": 2945}, "ts": "2025-11-18T12:05:12.708715+00:00"}
abstraction | 2025-11-18 12:05:18,507 - __main__ - DEBUG - MQTT message received on shellies/schrankesszimmer/relay/0: off
abstraction | 2025-11-18 12:05:18,508 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 12:05:18,508 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 12:05:18,508 - __main__ - INFO - ← abstract STATE licht_schrank_esszimmer: home/relay/licht_schrank_esszimmer/state → {"power": "off"}
abstraction | 2025-11-18 12:05:18,526 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_schrank_esszimmer", "payload": {"power": "off"}, "ts": "2025-11-18T12:05:18.525971+00:00"}

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rules | 2025-11-18 12:04:40,835 - asyncio - DEBUG - Using selector: EpollSelector
rules | 2025-11-18 12:04:40,835 - __main__ - INFO - ============================================================
rules | 2025-11-18 12:04:40,835 - __main__ - INFO - Rules Engine Starting
rules | 2025-11-18 12:04:40,835 - __main__ - INFO - ============================================================
rules | 2025-11-18 12:04:40,835 - __main__ - INFO - Config: /app/config/rules.yaml
rules | 2025-11-18 12:04:40,835 - __main__ - INFO - MQTT: 172.23.1.102:1883
rules | 2025-11-18 12:04:40,835 - __main__ - INFO - Redis: redis://172.23.1.116:6379/8
rules | 2025-11-18 12:04:40,836 - __main__ - INFO - ============================================================
rules | 2025-11-18 12:04:40,836 - __main__ - INFO - Loading rules configuration from /app/config/rules.yaml
rules | 2025-11-18 12:04:40,841 - __main__ - INFO - Loaded 6 rule(s) from configuration
rules | 2025-11-18 12:04:40,841 - __main__ - INFO - - window_setback_esszimmer (type: window_setback@1.0) [DISABLED]
rules | 2025-11-18 12:04:40,842 - __main__ - INFO - - window_setback_kueche (type: window_setback@1.0) [DISABLED]
rules | 2025-11-18 12:04:40,842 - __main__ - INFO - - window_setback_patty (type: window_setback@1.0) [DISABLED]
rules | 2025-11-18 12:04:40,842 - __main__ - INFO - - window_setback_schlafzimmer (type: window_setback@1.0) [DISABLED]
rules | 2025-11-18 12:04:40,842 - __main__ - INFO - - window_setback_wohnzimmer (type: window_setback@1.0) [DISABLED]
rules | 2025-11-18 12:04:40,846 - __main__ - INFO - - window_setback_wolfgang (type: window_setback@1.0)
rules | 2025-11-18 12:04:40,846 - __main__ - INFO - Successfully loaded 1 rule implementation(s) (5 disabled)
rules | 2025-11-18 12:04:40,846 - __main__ - INFO - Rule window_setback_wolfgang validated: 1 contacts, 1 thermostats
rules | 2025-11-18 12:04:40,846 - __main__ - DEBUG - Rule window_setback_wolfgang subscribes to 2 topic(s)
rules | 2025-11-18 12:04:40,847 - __main__ - INFO - Total MQTT subscriptions needed: 2
rules | 2025-11-18 12:04:40,847 - __main__ - INFO - Starting event processing loop
abstraction | 2025-11-18 12:04:40,901 - asyncio - DEBUG - Using selector: EpollSelector
abstraction | 2025-11-18 12:04:40,952 - __main__ - INFO - Loaded configuration from /app/config/devices.yaml
abstraction | 2025-11-18 12:04:40,953 - __main__ - INFO - Loaded 64 device(s): lampe_semeniere_wohnzimmer, stehlampe_esszimmer_spiegel, stehlampe_esszimmer_schrank, grosse_lampe_wohnzimmer, lampe_naehtischchen_wohnzimmer, kleine_lampe_rechts_esszimmer, kleine_lampe_links_esszimmer, leselampe_esszimmer, medusalampe_schlafzimmer, sportlicht_am_fernseher_studierzimmer, deckenlampe_schlafzimmer, bettlicht_wolfgang, bettlicht_patty, schranklicht_hinten_patty, schranklicht_vorne_patty, leselampe_patty, deckenlampe_esszimmer, standlampe_esszimmer, haustuer, deckenlampe_flur_oben, kueche_deckenlampe, sportlicht_tisch, sportlicht_regal, licht_flur_oben_am_spiegel, experimentlabtest, thermostat_wolfgang, thermostat_kueche, thermostat_schlafzimmer, thermostat_esszimmer, thermostat_wohnzimmer, thermostat_patty, thermostat_bad_oben, thermostat_bad_unten, sterne_wohnzimmer, kontakt_schlafzimmer_strasse, kontakt_esszimmer_strasse_rechts, kontakt_esszimmer_strasse_links, kontakt_wohnzimmer_garten_rechts, kontakt_wohnzimmer_garten_links, kontakt_kueche_garten_fenster, kontakt_kueche_garten_tuer, kontakt_kueche_strasse_rechts, kontakt_kueche_strasse_links, kontakt_patty_garten_rechts, kontakt_patty_garten_links, kontakt_patty_strasse, kontakt_wolfgang_garten, kontakt_bad_oben_strasse, kontakt_bad_unten_strasse, sensor_schlafzimmer, sensor_wohnzimmer, sensor_kueche, sensor_arbeitszimmer_patty, sensor_arbeitszimmer_wolfgang, sensor_bad_oben, sensor_bad_unten, sensor_flur, sensor_waschkueche, sensor_sportzimmer, licht_spuele_kueche, licht_schrank_esszimmer, licht_regal_wohnzimmer, licht_flur_schrank, licht_terasse
abstraction | 2025-11-18 12:04:40,953 - __main__ - INFO - Loaded 64 device(s) from configuration
rules | 2025-11-18 12:04:40,999 - __main__ - INFO - Connecting to MQTT broker 172.23.1.102:1883 (client_id=rule_engine-0d8cce)
abstraction | 2025-11-18 12:04:41,003 - __main__ - INFO - Connected to Redis: redis://172.23.1.116:6379/8
abstraction | 2025-11-18 12:04:41,003 - __main__ - INFO - Abstraction worker started
abstraction | 2025-11-18 12:04:41,003 - __main__ - INFO - Connecting to MQTT broker: 172.23.1.102:1883
rules | 2025-11-18 12:04:41,051 - __main__ - INFO - Connected to MQTT broker 172.23.1.102:1883
abstraction | 2025-11-18 12:04:41,053 - __main__ - INFO - Connected to MQTT broker as home-automation-abstraction-b39304
abstraction | 2025-11-18 12:04:41,072 - __main__ - INFO - Subscribed to abstract SET: home/relay/lampe_semeniere_wohnzimmer/set
rules | 2025-11-18 12:04:41,084 - __main__ - INFO - Subscribed to 2 topic(s): home/thermostat/thermostat_wolfgang/state, home/contact/kontakt_wolfgang_garten/state
rules | 2025-11-18 12:04:41,085 - __main__ - DEBUG - Received event: {'topic': 'home/thermostat/thermostat_wolfgang/state', 'type': 'state', 'cap': 'thermostat', 'device_id': 'thermostat_wolfgang', 'payload': {'target': 23.0, 'current': 23.5, 'mode': 'heat'}, 'ts': '2025-11-18T12:04:41.085220'}
abstraction | 2025-11-18 12:04:41,091 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b8000015480b
rules | 2025-11-18 12:04:41,085 - __main__ - DEBUG - Filtering for cap=thermostat, device_id=thermostat_wolfgang
rules | 2025-11-18 12:04:41,085 - __main__ - DEBUG - Rule window_setback_wolfgang: checking thermostats ['thermostat_wolfgang']
rules | 2025-11-18 12:04:41,086 - __main__ - INFO - Event thermostat/thermostat_wolfgang: 1 matching rule(s)
abstraction | 2025-11-18 12:04:41,107 - __main__ - INFO - Subscribed to abstract SET: home/light/stehlampe_esszimmer_spiegel/set
abstraction | 2025-11-18 12:04:41,125 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d06ea09
abstraction | 2025-11-18 12:04:41,141 - __main__ - INFO - Subscribed to abstract SET: home/light/stehlampe_esszimmer_schrank/set
abstraction | 2025-11-18 12:04:41,159 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d09176c
abstraction | 2025-11-18 12:04:41,176 - __main__ - INFO - Subscribed to abstract SET: home/relay/grosse_lampe_wohnzimmer/set
abstraction | 2025-11-18 12:04:41,192 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000151aca
rules | 2025-11-18 12:04:41,197 - __main__ - DEBUG - Rule window_setback_wolfgang: Updated current target for thermostat_wolfgang: 23.0°C
rules | 2025-11-18 12:04:41,197 - __main__ - DEBUG - Received event: {'topic': 'home/contact/kontakt_wolfgang_garten/state', 'type': 'state', 'cap': 'contact', 'device_id': 'kontakt_wolfgang_garten', 'payload': {'contact': 'closed', 'battery': 100, 'linkquality': 32, 'device_temperature': 28, 'voltage': 3025}, 'ts': '2025-11-18T12:04:41.197402'}
rules | 2025-11-18 12:04:41,198 - __main__ - DEBUG - Filtering for cap=contact, device_id=kontakt_wolfgang_garten
rules | 2025-11-18 12:04:41,198 - __main__ - DEBUG - Rule window_setback_wolfgang: checking contacts ['kontakt_wolfgang_garten']
rules | 2025-11-18 12:04:41,199 - __main__ - INFO - Event contact/kontakt_wolfgang_garten: 1 matching rule(s)
abstraction | 2025-11-18 12:04:41,209 - __main__ - INFO - Subscribed to abstract SET: home/relay/lampe_naehtischchen_wohnzimmer/set
abstraction | 2025-11-18 12:04:41,225 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x842e14fffee560ee
rules | 2025-11-18 12:04:41,233 - __main__ - INFO - Rule window_setback_wolfgang: Window closed, restoring 1 thermostats to previous temperatures
abstraction | 2025-11-18 12:04:41,242 - __main__ - INFO - Subscribed to abstract SET: home/relay/kleine_lampe_rechts_esszimmer/set
rules | 2025-11-18 12:04:41,250 - __main__ - WARNING - No previous target found for thermostat_wolfgang, cannot restore
abstraction | 2025-11-18 12:04:41,259 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000156645
abstraction | 2025-11-18 12:04:41,276 - __main__ - INFO - Subscribed to abstract SET: home/relay/kleine_lampe_links_esszimmer/set
abstraction | 2025-11-18 12:04:41,293 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000153099
abstraction | 2025-11-18 12:04:41,310 - __main__ - INFO - Subscribed to abstract SET: home/light/leselampe_esszimmer/set
abstraction | 2025-11-18 12:04:41,327 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xec1bbdfffe7b84f2
abstraction | 2025-11-18 12:04:41,344 - __main__ - INFO - Subscribed to abstract SET: home/relay/medusalampe_schlafzimmer/set
abstraction | 2025-11-18 12:04:41,361 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000154c7c
abstraction | 2025-11-18 12:04:41,378 - __main__ - INFO - Subscribed to abstract SET: home/light/sportlicht_am_fernseher_studierzimmer/set
abstraction | 2025-11-18 12:04:41,395 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x842e14fffe76a23a
abstraction | 2025-11-18 12:04:41,415 - __main__ - INFO - Subscribed to abstract SET: home/light/deckenlampe_schlafzimmer/set
abstraction | 2025-11-18 12:04:41,432 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880108a406a7
abstraction | 2025-11-18 12:04:41,449 - __main__ - INFO - Subscribed to abstract SET: home/light/bettlicht_wolfgang/set
api | INFO: Started server process [1]
api | INFO: Waiting for application startup.
abstraction | 2025-11-18 12:04:41,466 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00178801081570bf
abstraction | 2025-11-18 12:04:41,484 - __main__ - INFO - Subscribed to abstract SET: home/light/bettlicht_patty/set
api | INFO: Application startup complete.
abstraction | 2025-11-18 12:04:41,500 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880108158b32
api | INFO: Uvicorn running on http://0.0.0.0:8001 (Press CTRL+C to quit)
abstraction | 2025-11-18 12:04:41,518 - __main__ - INFO - Subscribed to abstract SET: home/light/schranklicht_hinten_patty/set
abstraction | 2025-11-18 12:04:41,535 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880106e29571
abstraction | 2025-11-18 12:04:41,552 - __main__ - INFO - Subscribed to abstract SET: home/relay/schranklicht_vorne_patty/set
abstraction | 2025-11-18 12:04:41,569 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000154cf5
abstraction | 2025-11-18 12:04:41,586 - __main__ - INFO - Subscribed to abstract SET: home/light/leselampe_patty/set
abstraction | 2025-11-18 12:04:41,603 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010600ec9d
abstraction | 2025-11-18 12:04:41,620 - __main__ - INFO - Subscribed to abstract SET: home/light/deckenlampe_esszimmer/set
abstraction | 2025-11-18 12:04:41,637 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880108a03e45
abstraction | 2025-11-18 12:04:41,655 - __main__ - INFO - Subscribed to abstract SET: home/light/standlampe_esszimmer/set
ui | UI using API_BASE: http://172.19.1.11:8001
ui | UI using BASE_PATH: /
ui | INFO: Started server process [1]
ui | INFO: Waiting for application startup.
ui | INFO: Application startup complete.
abstraction | 2025-11-18 12:04:41,674 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xbc33acfffe21f547
ui | INFO: Uvicorn running on http://0.0.0.0:8002 (Press CTRL+C to quit)
abstraction | 2025-11-18 12:04:41,692 - __main__ - INFO - Subscribed to abstract SET: home/light/haustuer/set
abstraction | 2025-11-18 12:04:41,711 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xec1bbdfffea6a3da
abstraction | 2025-11-18 12:04:41,728 - __main__ - INFO - Subscribed to abstract SET: home/light/deckenlampe_flur_oben/set
abstraction | 2025-11-18 12:04:41,746 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d2123a7
abstraction | 2025-11-18 12:04:41,764 - __main__ - INFO - Subscribed to abstract SET: home/light/kueche_deckenlampe/set
abstraction | 2025-11-18 12:04:41,781 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d2c40c4
abstraction | 2025-11-18 12:04:41,798 - __main__ - INFO - Subscribed to abstract SET: home/light/sportlicht_tisch/set
abstraction | 2025-11-18 12:04:41,814 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b8be2409f31b
abstraction | 2025-11-18 12:04:41,831 - __main__ - INFO - Subscribed to abstract SET: home/light/sportlicht_regal/set
abstraction | 2025-11-18 12:04:41,848 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b8be2409f569
abstraction | 2025-11-18 12:04:41,865 - __main__ - INFO - Subscribed to abstract SET: home/light/licht_flur_oben_am_spiegel/set
abstraction | 2025-11-18 12:04:41,883 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x842e14fffefe4ba4
abstraction | 2025-11-18 12:04:41,899 - __main__ - INFO - Subscribed to abstract SET: home/light/experimentlabtest/set
abstraction | 2025-11-18 12:04:41,918 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000195038
abstraction | 2025-11-18 12:04:41,936 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_wolfgang/set
abstraction | 2025-11-18 12:04:41,955 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x540f57fffe7e3cfe
abstraction | 2025-11-18 12:04:41,974 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_kueche/set
abstraction | 2025-11-18 12:04:41,991 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x94deb8fffe2e5c06
abstraction | 2025-11-18 12:04:42,008 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_schlafzimmer/set
abstraction | 2025-11-18 12:04:42,025 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/42/1/SET_TEMPERATURE
abstraction | 2025-11-18 12:04:42,042 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_esszimmer/set
abstraction | 2025-11-18 12:04:42,059 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/45/1/SET_TEMPERATURE
abstraction | 2025-11-18 12:04:42,080 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_wohnzimmer/set
abstraction | 2025-11-18 12:04:42,097 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/46/1/SET_TEMPERATURE
abstraction | 2025-11-18 12:04:42,114 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_patty/set
abstraction | 2025-11-18 12:04:42,131 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/39/1/SET_TEMPERATURE
abstraction | 2025-11-18 12:04:42,150 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_bad_oben/set
abstraction | 2025-11-18 12:04:42,171 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/41/1/SET_TEMPERATURE
abstraction | 2025-11-18 12:04:42,189 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_bad_unten/set
abstraction | 2025-11-18 12:04:42,207 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/48/1/SET_TEMPERATURE
abstraction | 2025-11-18 12:04:42,224 - __main__ - INFO - Subscribed to abstract SET: home/relay/sterne_wohnzimmer/set
abstraction | 2025-11-18 12:04:42,240 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000155fc2
abstraction | 2025-11-18 12:04:42,240 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_schlafzimmer_strasse
abstraction | 2025-11-18 12:04:42,258 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/52/1/STATE
abstraction | 2025-11-18 12:04:42,258 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_esszimmer_strasse_rechts
abstraction | 2025-11-18 12:04:42,275 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/26/1/STATE
abstraction | 2025-11-18 12:04:42,275 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_esszimmer_strasse_links
abstraction | 2025-11-18 12:04:42,293 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/27/1/STATE
abstraction | 2025-11-18 12:04:42,293 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_wohnzimmer_garten_rechts
abstraction | 2025-11-18 12:04:42,313 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/28/1/STATE
abstraction | 2025-11-18 12:04:42,313 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_wohnzimmer_garten_links
abstraction | 2025-11-18 12:04:42,331 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/29/1/STATE
abstraction | 2025-11-18 12:04:42,331 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_garten_fenster
abstraction | 2025-11-18 12:04:42,351 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b332785
abstraction | 2025-11-18 12:04:42,351 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_garten_tuer
abstraction | 2025-11-18 12:04:42,371 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b332788
abstraction | 2025-11-18 12:04:42,371 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_strasse_rechts
abstraction | 2025-11-18 12:04:42,390 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b151803
abstraction | 2025-11-18 12:04:42,390 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_strasse_links
abstraction | 2025-11-18 12:04:42,408 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b331d0b
abstraction | 2025-11-18 12:04:42,408 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_patty_garten_rechts
abstraction | 2025-11-18 12:04:42,424 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/18/1/STATE
abstraction | 2025-11-18 12:04:42,424 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_patty_garten_links
abstraction | 2025-11-18 12:04:42,441 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/22/1/STATE
abstraction | 2025-11-18 12:04:42,441 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_patty_strasse
abstraction | 2025-11-18 12:04:42,462 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000af457cf
abstraction | 2025-11-18 12:04:42,462 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_wolfgang_garten
abstraction | 2025-11-18 12:04:42,479 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b3328da
abstraction | 2025-11-18 12:04:42,480 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_bad_oben_strasse
abstraction | 2025-11-18 12:04:42,496 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b333aec
abstraction | 2025-11-18 12:04:42,496 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_bad_unten_strasse
abstraction | 2025-11-18 12:04:42,513 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/44/1/STATE
abstraction | 2025-11-18 12:04:42,513 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_schlafzimmer
abstraction | 2025-11-18 12:04:42,532 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00043292dc
abstraction | 2025-11-18 12:04:42,532 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_wohnzimmer
abstraction | 2025-11-18 12:04:42,552 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d0008975707
abstraction | 2025-11-18 12:04:42,552 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_kueche
abstraction | 2025-11-18 12:04:42,571 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00083299bb
abstraction | 2025-11-18 12:04:42,571 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_arbeitszimmer_patty
abstraction | 2025-11-18 12:04:42,589 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d0003f052b7
abstraction | 2025-11-18 12:04:42,589 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_arbeitszimmer_wolfgang
abstraction | 2025-11-18 12:04:42,608 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000543fb99
abstraction | 2025-11-18 12:04:42,608 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_bad_oben
abstraction | 2025-11-18 12:04:42,625 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00093e8987
abstraction | 2025-11-18 12:04:42,625 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_bad_unten
abstraction | 2025-11-18 12:04:42,645 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00093e662a
abstraction | 2025-11-18 12:04:42,645 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_flur
abstraction | 2025-11-18 12:04:42,664 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000836ccc6
abstraction | 2025-11-18 12:04:42,664 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_waschkueche
abstraction | 2025-11-18 12:04:42,682 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000449f3bc
abstraction | 2025-11-18 12:04:42,682 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_sportzimmer
abstraction | 2025-11-18 12:04:42,699 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d0009421422
abstraction | 2025-11-18 12:04:42,716 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_spuele_kueche/set
abstraction | 2025-11-18 12:04:42,734 - __main__ - INFO - Subscribed to vendor STATE: shellies/LightKitchenSink/relay/0
abstraction | 2025-11-18 12:04:42,751 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_schrank_esszimmer/set
abstraction | 2025-11-18 12:04:42,770 - __main__ - INFO - Subscribed to vendor STATE: shellies/schrankesszimmer/relay/0
abstraction | 2025-11-18 12:04:42,790 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_regal_wohnzimmer/set
abstraction | 2025-11-18 12:04:42,807 - __main__ - INFO - Subscribed to vendor STATE: shellies/wohnzimmer-regal/relay/0
abstraction | 2025-11-18 12:04:42,823 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_flur_schrank/set
abstraction | 2025-11-18 12:04:42,841 - __main__ - INFO - Subscribed to vendor STATE: shellies/schrankflur/relay/0
abstraction | 2025-11-18 12:04:42,858 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_terasse/set
abstraction | 2025-11-18 12:04:42,875 - __main__ - INFO - Subscribed to vendor STATE: shellies/lichtterasse/relay/0
abstraction | 2025-11-18 12:04:42,875 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/42/1/SET_TEMPERATURE: 21
abstraction | 2025-11-18 12:04:42,875 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=21
abstraction | 2025-11-18 12:04:42,876 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 21.0, 'mode': 'heat'}
abstraction | 2025-11-18 12:04:42,876 - __main__ - INFO - ← abstract STATE thermostat_schlafzimmer: home/thermostat/thermostat_schlafzimmer/state → {"target": 21.0, "mode": "heat"}
abstraction | 2025-11-18 12:04:42,897 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_schlafzimmer", "payload": {"target": 21.0, "mode": "heat"}, "ts": "2025-11-18T12:04:42.897310+00:00"}
abstraction | 2025-11-18 12:04:42,914 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/45/1/SET_TEMPERATURE: 15
abstraction | 2025-11-18 12:04:42,914 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=15
abstraction | 2025-11-18 12:04:42,914 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 15.0, 'mode': 'heat'}
abstraction | 2025-11-18 12:04:42,914 - __main__ - INFO - ← abstract STATE thermostat_esszimmer: home/thermostat/thermostat_esszimmer/state → {"target": 15.0, "mode": "heat"}
abstraction | 2025-11-18 12:04:42,934 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_esszimmer", "payload": {"target": 15.0, "mode": "heat"}, "ts": "2025-11-18T12:04:42.934255+00:00"}
abstraction | 2025-11-18 12:04:42,950 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/46/1/SET_TEMPERATURE: 15
abstraction | 2025-11-18 12:04:42,950 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=15
abstraction | 2025-11-18 12:04:42,950 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 15.0, 'mode': 'heat'}
abstraction | 2025-11-18 12:04:42,951 - __main__ - INFO - ← abstract STATE thermostat_wohnzimmer: home/thermostat/thermostat_wohnzimmer/state → {"target": 15.0, "mode": "heat"}
abstraction | 2025-11-18 12:04:42,970 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_wohnzimmer", "payload": {"target": 15.0, "mode": "heat"}, "ts": "2025-11-18T12:04:42.970936+00:00"}
abstraction | 2025-11-18 12:04:42,987 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/39/1/SET_TEMPERATURE: 22
abstraction | 2025-11-18 12:04:42,988 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=22
abstraction | 2025-11-18 12:04:42,988 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 22.0, 'mode': 'heat'}
abstraction | 2025-11-18 12:04:42,988 - __main__ - INFO - ← abstract STATE thermostat_patty: home/thermostat/thermostat_patty/state → {"target": 22.0, "mode": "heat"}
abstraction | 2025-11-18 12:04:43,009 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_patty", "payload": {"target": 22.0, "mode": "heat"}, "ts": "2025-11-18T12:04:43.009673+00:00"}
abstraction | 2025-11-18 12:04:43,029 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/41/1/SET_TEMPERATURE: 20
abstraction | 2025-11-18 12:04:43,029 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=20
abstraction | 2025-11-18 12:04:43,029 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 20.0, 'mode': 'heat'}
abstraction | 2025-11-18 12:04:43,029 - __main__ - INFO - ← abstract STATE thermostat_bad_oben: home/thermostat/thermostat_bad_oben/state → {"target": 20.0, "mode": "heat"}
abstraction | 2025-11-18 12:04:43,053 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_bad_oben", "payload": {"target": 20.0, "mode": "heat"}, "ts": "2025-11-18T12:04:43.053895+00:00"}
abstraction | 2025-11-18 12:04:43,071 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/48/1/SET_TEMPERATURE: 21
abstraction | 2025-11-18 12:04:43,071 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=21
abstraction | 2025-11-18 12:04:43,071 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 21.0, 'mode': 'heat'}
abstraction | 2025-11-18 12:04:43,072 - __main__ - INFO - ← abstract STATE thermostat_bad_unten: home/thermostat/thermostat_bad_unten/state → {"target": 21.0, "mode": "heat"}
abstraction | 2025-11-18 12:04:43,092 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_bad_unten", "payload": {"target": 21.0, "mode": "heat"}, "ts": "2025-11-18T12:04:43.092210+00:00"}
abstraction | 2025-11-18 12:04:43,108 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/52/1/STATE: false
abstraction | 2025-11-18 12:04:43,108 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,108 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,109 - __main__ - INFO - ← abstract STATE kontakt_schlafzimmer_strasse: home/contact/kontakt_schlafzimmer_strasse/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,128 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_schlafzimmer_strasse", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.128506+00:00"}
abstraction | 2025-11-18 12:04:43,145 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/26/1/STATE: false
abstraction | 2025-11-18 12:04:43,145 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,145 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,146 - __main__ - INFO - ← abstract STATE kontakt_esszimmer_strasse_rechts: home/contact/kontakt_esszimmer_strasse_rechts/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,165 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_esszimmer_strasse_rechts", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.165958+00:00"}
abstraction | 2025-11-18 12:04:43,182 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/27/1/STATE: false
abstraction | 2025-11-18 12:04:43,182 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,183 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,183 - __main__ - INFO - ← abstract STATE kontakt_esszimmer_strasse_links: home/contact/kontakt_esszimmer_strasse_links/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,202 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_esszimmer_strasse_links", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.202580+00:00"}
abstraction | 2025-11-18 12:04:43,219 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/28/1/STATE: false
abstraction | 2025-11-18 12:04:43,219 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,219 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,220 - __main__ - INFO - ← abstract STATE kontakt_wohnzimmer_garten_rechts: home/contact/kontakt_wohnzimmer_garten_rechts/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,239 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_wohnzimmer_garten_rechts", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.239653+00:00"}
abstraction | 2025-11-18 12:04:43,256 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/29/1/STATE: false
abstraction | 2025-11-18 12:04:43,256 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,256 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,257 - __main__ - INFO - ← abstract STATE kontakt_wohnzimmer_garten_links: home/contact/kontakt_wohnzimmer_garten_links/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,275 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_wohnzimmer_garten_links", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.275832+00:00"}
abstraction | 2025-11-18 12:04:43,292 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/18/1/STATE: false
abstraction | 2025-11-18 12:04:43,292 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,292 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,293 - __main__ - INFO - ← abstract STATE kontakt_patty_garten_rechts: home/contact/kontakt_patty_garten_rechts/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,314 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_patty_garten_rechts", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.314579+00:00"}
abstraction | 2025-11-18 12:04:43,331 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/22/1/STATE: false
abstraction | 2025-11-18 12:04:43,331 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,331 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,332 - __main__ - INFO - ← abstract STATE kontakt_patty_garten_links: home/contact/kontakt_patty_garten_links/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,351 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_patty_garten_links", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.351704+00:00"}
abstraction | 2025-11-18 12:04:43,368 - __main__ - DEBUG - MQTT message received on homegear/instance1/plain/44/1/STATE: false
abstraction | 2025-11-18 12:04:43,368 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 12:04:43,368 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 12:04:43,369 - __main__ - INFO - ← abstract STATE kontakt_bad_unten_strasse: home/contact/kontakt_bad_unten_strasse/state → {"contact": "closed"}
abstraction | 2025-11-18 12:04:43,388 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_bad_unten_strasse", "payload": {"contact": "closed"}, "ts": "2025-11-18T12:04:43.388390+00:00"}
api | INFO: 172.16.3.98:60163 - "GET /realtime HTTP/1.1" 200 OK
ui | INFO: 127.0.0.1:35036 - "GET /health HTTP/1.1" 200 OK
api | INFO: 172.16.3.98:60172 - "GET /realtime HTTP/1.1" 200 OK
abstraction | 2025-11-18 12:04:48,498 - __main__ - DEBUG - MQTT message received on shellies/schrankesszimmer/relay/0: off
abstraction | 2025-11-18 12:04:48,498 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 12:04:48,498 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 12:04:48,498 - __main__ - INFO - ← abstract STATE licht_schrank_esszimmer: home/relay/licht_schrank_esszimmer/state → {"power": "off"}
abstraction | 2025-11-18 12:04:48,518 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_schrank_esszimmer", "payload": {"power": "off"}, "ts": "2025-11-18T12:04:48.518525+00:00"}
api | INFO: 172.16.3.98:60187 - "GET /realtime HTTP/1.1" 200 OK
abstraction | 2025-11-18 12:04:52,989 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d0003f052b7: {"battery":100,"humidity":55.04,"linkquality":83,"power_outage_count":38416,"pressure":1002.6,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:52,989 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={"battery":100,"humidity":55.04,"linkquality":83,"power_outage_count":38416,"pressure":1002.6,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:52,989 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 55.04, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1002.6, 'temperature': 22.13, 'voltage': 3015}
abstraction | 2025-11-18 12:04:52,989 - __main__ - INFO - ← abstract STATE sensor_arbeitszimmer_patty: home/temp_humidity/sensor_arbeitszimmer_patty/state → {"battery": 100, "humidity": 55.04, "linkquality": 83, "power_outage_count": 38416, "pressure": 1002.6, "temperature": 22.13, "voltage": 3015}
abstraction | 2025-11-18 12:04:53,009 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_arbeitszimmer_patty", "payload": {"battery": 100, "humidity": 55.04, "linkquality": 83, "power_outage_count": 38416, "pressure": 1002.6, "temperature": 22.13, "voltage": 3015}, "ts": "2025-11-18T12:04:53.009776+00:00"}
abstraction | 2025-11-18 12:04:53,024 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d0003f052b7: {"battery":100,"humidity":54.82,"linkquality":83,"power_outage_count":38416,"pressure":1002.6,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:53,025 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={"battery":100,"humidity":54.82,"linkquality":83,"power_outage_count":38416,"pressure":1002.6,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:53,025 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.82, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1002.6, 'temperature': 22.13, 'voltage': 3015}
abstraction | 2025-11-18 12:04:53,025 - __main__ - INFO - ← abstract STATE sensor_arbeitszimmer_patty: home/temp_humidity/sensor_arbeitszimmer_patty/state → {"battery": 100, "humidity": 54.82, "linkquality": 83, "power_outage_count": 38416, "pressure": 1002.6, "temperature": 22.13, "voltage": 3015}
abstraction | 2025-11-18 12:04:53,044 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_arbeitszimmer_patty", "payload": {"battery": 100, "humidity": 54.82, "linkquality": 83, "power_outage_count": 38416, "pressure": 1002.6, "temperature": 22.13, "voltage": 3015}, "ts": "2025-11-18T12:04:53.044379+00:00"}
abstraction | 2025-11-18 12:04:53,061 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d0003f052b7: {"battery":100,"humidity":54.82,"linkquality":83,"power_outage_count":38416,"pressure":1002.4,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:53,061 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={"battery":100,"humidity":54.82,"linkquality":83,"power_outage_count":38416,"pressure":1002.4,"temperature":22.13,"voltage":3015}
abstraction | 2025-11-18 12:04:53,061 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.82, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1002.4, 'temperature': 22.13, 'voltage': 3015}
abstraction | 2025-11-18 12:04:53,061 - __main__ - INFO - ← abstract STATE sensor_arbeitszimmer_patty: home/temp_humidity/sensor_arbeitszimmer_patty/state → {"battery": 100, "humidity": 54.82, "linkquality": 83, "power_outage_count": 38416, "pressure": 1002.4, "temperature": 22.13, "voltage": 3015}
abstraction | 2025-11-18 12:04:53,084 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_arbeitszimmer_patty", "payload": {"battery": 100, "humidity": 54.82, "linkquality": 83, "power_outage_count": 38416, "pressure": 1002.4, "temperature": 22.13, "voltage": 3015}, "ts": "2025-11-18T12:04:53.083988+00:00"}
abstraction | 2025-11-18 12:05:03,058 - __main__ - DEBUG - MQTT message received on shellies/lichtterasse/relay/0: off
abstraction | 2025-11-18 12:05:03,058 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 12:05:03,058 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 12:05:03,058 - __main__ - INFO - ← abstract STATE licht_terasse: home/relay/licht_terasse/state → {"power": "off"}
abstraction | 2025-11-18 12:05:03,075 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_terasse", "payload": {"power": "off"}, "ts": "2025-11-18T12:05:03.075262+00:00"}
abstraction | 2025-11-18 12:05:08,209 - __main__ - DEBUG - MQTT message received on shellies/wohnzimmer-regal/relay/0: off
abstraction | 2025-11-18 12:05:08,210 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 12:05:08,210 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 12:05:08,210 - __main__ - INFO - ← abstract STATE licht_regal_wohnzimmer: home/relay/licht_regal_wohnzimmer/state → {"power": "off"}
abstraction | 2025-11-18 12:05:08,228 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_regal_wohnzimmer", "payload": {"power": "off"}, "ts": "2025-11-18T12:05:08.228758+00:00"}
abstraction | 2025-11-18 12:05:10,881 - __main__ - DEBUG - MQTT message received on shellies/LightKitchenSink/relay/0: on
abstraction | 2025-11-18 12:05:10,881 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=on
abstraction | 2025-11-18 12:05:10,881 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'on'}
abstraction | 2025-11-18 12:05:10,881 - __main__ - INFO - ← abstract STATE licht_spuele_kueche: home/relay/licht_spuele_kueche/state → {"power": "on"}
abstraction | 2025-11-18 12:05:10,899 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_spuele_kueche", "payload": {"power": "on"}, "ts": "2025-11-18T12:05:10.899207+00:00"}
abstraction | 2025-11-18 12:05:12,622 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d00083299bb: {"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.9,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,622 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.9,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,622 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 63, 'humidity': 47.69, 'linkquality': 87, 'power_outage_count': 4906, 'pressure': 1009.9, 'temperature': 19.74, 'voltage': 2945}
abstraction | 2025-11-18 12:05:12,622 - __main__ - INFO - ← abstract STATE sensor_kueche: home/temp_humidity/sensor_kueche/state → {"battery": 63, "humidity": 47.69, "linkquality": 87, "power_outage_count": 4906, "pressure": 1009.9, "temperature": 19.74, "voltage": 2945}
abstraction | 2025-11-18 12:05:12,640 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_kueche", "payload": {"battery": 63, "humidity": 47.69, "linkquality": 87, "power_outage_count": 4906, "pressure": 1009.9, "temperature": 19.74, "voltage": 2945}, "ts": "2025-11-18T12:05:12.640129+00:00"}
abstraction | 2025-11-18 12:05:12,656 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d00083299bb: {"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.9,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,656 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.9,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,656 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 63, 'humidity': 47.69, 'linkquality': 87, 'power_outage_count': 4906, 'pressure': 1009.9, 'temperature': 19.74, 'voltage': 2945}
abstraction | 2025-11-18 12:05:12,657 - __main__ - INFO - ← abstract STATE sensor_kueche: home/temp_humidity/sensor_kueche/state → {"battery": 63, "humidity": 47.69, "linkquality": 87, "power_outage_count": 4906, "pressure": 1009.9, "temperature": 19.74, "voltage": 2945}
abstraction | 2025-11-18 12:05:12,674 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_kueche", "payload": {"battery": 63, "humidity": 47.69, "linkquality": 87, "power_outage_count": 4906, "pressure": 1009.9, "temperature": 19.74, "voltage": 2945}, "ts": "2025-11-18T12:05:12.674372+00:00"}
abstraction | 2025-11-18 12:05:12,690 - __main__ - DEBUG - MQTT message received on zigbee2mqtt/0x00158d00083299bb: {"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.7,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,690 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={"battery":63,"humidity":47.69,"linkquality":87,"power_outage_count":4906,"pressure":1009.7,"temperature":19.74,"voltage":2945}
abstraction | 2025-11-18 12:05:12,690 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 63, 'humidity': 47.69, 'linkquality': 87, 'power_outage_count': 4906, 'pressure': 1009.7, 'temperature': 19.74, 'voltage': 2945}
abstraction | 2025-11-18 12:05:12,690 - __main__ - INFO - ← abstract STATE sensor_kueche: home/temp_humidity/sensor_kueche/state → {"battery": 63, "humidity": 47.69, "linkquality": 87, "power_outage_count": 4906, "pressure": 1009.7, "temperature": 19.74, "voltage": 2945}
abstraction | 2025-11-18 12:05:12,708 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_kueche", "payload": {"battery": 63, "humidity": 47.69, "linkquality": 87, "power_outage_count": 4906, "pressure": 1009.7, "temperature": 19.74, "voltage": 2945}, "ts": "2025-11-18T12:05:12.708715+00:00"}
ui | INFO: 127.0.0.1:35638 - "GET /health HTTP/1.1" 200 OK
abstraction | 2025-11-18 12:05:18,507 - __main__ - DEBUG - MQTT message received on shellies/schrankesszimmer/relay/0: off
abstraction | 2025-11-18 12:05:18,508 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 12:05:18,508 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 12:05:18,508 - __main__ - INFO - ← abstract STATE licht_schrank_esszimmer: home/relay/licht_schrank_esszimmer/state → {"power": "off"}
abstraction | 2025-11-18 12:05:18,526 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_schrank_esszimmer", "payload": {"power": "off"}, "ts": "2025-11-18T12:05:18.525971+00:00"}

268
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abstraction | 2025-11-18 10:23:59,179 - asyncio - DEBUG - Using selector: EpollSelector
abstraction | 2025-11-18 10:23:59,240 - __main__ - INFO - Loaded configuration from /app/config/devices.yaml
abstraction | 2025-11-18 10:23:59,240 - __main__ - INFO - Loaded 64 device(s): lampe_semeniere_wohnzimmer, stehlampe_esszimmer_spiegel, stehlampe_esszimmer_schrank, grosse_lampe_wohnzimmer, lampe_naehtischchen_wohnzimmer, kleine_lampe_rechts_esszimmer, kleine_lampe_links_esszimmer, leselampe_esszimmer, medusalampe_schlafzimmer, sportlicht_am_fernseher_studierzimmer, deckenlampe_schlafzimmer, bettlicht_wolfgang, bettlicht_patty, schranklicht_hinten_patty, schranklicht_vorne_patty, leselampe_patty, deckenlampe_esszimmer, standlampe_esszimmer, haustuer, deckenlampe_flur_oben, kueche_deckenlampe, sportlicht_tisch, sportlicht_regal, licht_flur_oben_am_spiegel, experimentlabtest, thermostat_wolfgang, thermostat_kueche, thermostat_schlafzimmer, thermostat_esszimmer, thermostat_wohnzimmer, thermostat_patty, thermostat_bad_oben, thermostat_bad_unten, sterne_wohnzimmer, kontakt_schlafzimmer_strasse, kontakt_esszimmer_strasse_rechts, kontakt_esszimmer_strasse_links, kontakt_wohnzimmer_garten_rechts, kontakt_wohnzimmer_garten_links, kontakt_kueche_garten_fenster, kontakt_kueche_garten_tuer, kontakt_kueche_strasse_rechts, kontakt_kueche_strasse_links, kontakt_patty_garten_rechts, kontakt_patty_garten_links, kontakt_patty_strasse, kontakt_wolfgang_garten, kontakt_bad_oben_strasse, kontakt_bad_unten_strasse, sensor_schlafzimmer, sensor_wohnzimmer, sensor_kueche, sensor_arbeitszimmer_patty, sensor_arbeitszimmer_wolfgang, sensor_bad_oben, sensor_bad_unten, sensor_flur, sensor_waschkueche, sensor_sportzimmer, licht_spuele_kueche, licht_schrank_esszimmer, licht_regal_wohnzimmer, licht_flur_schrank, licht_terasse
abstraction | 2025-11-18 10:23:59,241 - __main__ - INFO - Loaded 64 device(s) from configuration
abstraction | 2025-11-18 10:23:59,292 - __main__ - INFO - Connected to Redis: redis://172.23.1.116:6379/8
abstraction | 2025-11-18 10:23:59,292 - __main__ - INFO - Abstraction worker started
abstraction | 2025-11-18 10:23:59,293 - __main__ - INFO - Connecting to MQTT broker: 172.23.1.102:1883
abstraction | 2025-11-18 10:23:59,341 - __main__ - INFO - Connected to MQTT broker as home-automation-abstraction-2cfdfa
abstraction | 2025-11-18 10:23:59,359 - __main__ - INFO - Subscribed to abstract SET: home/relay/lampe_semeniere_wohnzimmer/set
abstraction | 2025-11-18 10:23:59,377 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b8000015480b
abstraction | 2025-11-18 10:23:59,394 - __main__ - INFO - Subscribed to abstract SET: home/light/stehlampe_esszimmer_spiegel/set
abstraction | 2025-11-18 10:23:59,411 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d06ea09
abstraction | 2025-11-18 10:23:59,428 - __main__ - INFO - Subscribed to abstract SET: home/light/stehlampe_esszimmer_schrank/set
abstraction | 2025-11-18 10:23:59,444 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d09176c
abstraction | 2025-11-18 10:23:59,460 - __main__ - INFO - Subscribed to abstract SET: home/relay/grosse_lampe_wohnzimmer/set
abstraction | 2025-11-18 10:23:59,477 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000151aca
abstraction | 2025-11-18 10:23:59,493 - __main__ - INFO - Subscribed to abstract SET: home/relay/lampe_naehtischchen_wohnzimmer/set
abstraction | 2025-11-18 10:23:59,510 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x842e14fffee560ee
abstraction | 2025-11-18 10:23:59,526 - __main__ - INFO - Subscribed to abstract SET: home/relay/kleine_lampe_rechts_esszimmer/set
abstraction | 2025-11-18 10:23:59,543 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000156645
abstraction | 2025-11-18 10:23:59,560 - __main__ - INFO - Subscribed to abstract SET: home/relay/kleine_lampe_links_esszimmer/set
abstraction | 2025-11-18 10:23:59,578 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000153099
abstraction | 2025-11-18 10:23:59,595 - __main__ - INFO - Subscribed to abstract SET: home/light/leselampe_esszimmer/set
abstraction | 2025-11-18 10:23:59,612 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xec1bbdfffe7b84f2
abstraction | 2025-11-18 10:23:59,630 - __main__ - INFO - Subscribed to abstract SET: home/relay/medusalampe_schlafzimmer/set
abstraction | 2025-11-18 10:23:59,647 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000154c7c
abstraction | 2025-11-18 10:23:59,665 - __main__ - INFO - Subscribed to abstract SET: home/light/sportlicht_am_fernseher_studierzimmer/set
abstraction | 2025-11-18 10:23:59,682 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x842e14fffe76a23a
abstraction | 2025-11-18 10:23:59,700 - __main__ - INFO - Subscribed to abstract SET: home/light/deckenlampe_schlafzimmer/set
abstraction | 2025-11-18 10:23:59,717 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880108a406a7
abstraction | 2025-11-18 10:23:59,735 - __main__ - INFO - Subscribed to abstract SET: home/light/bettlicht_wolfgang/set
abstraction | 2025-11-18 10:23:59,753 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00178801081570bf
abstraction | 2025-11-18 10:23:59,770 - __main__ - INFO - Subscribed to abstract SET: home/light/bettlicht_patty/set
abstraction | 2025-11-18 10:23:59,788 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880108158b32
abstraction | 2025-11-18 10:23:59,807 - __main__ - INFO - Subscribed to abstract SET: home/light/schranklicht_hinten_patty/set
abstraction | 2025-11-18 10:23:59,825 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880106e29571
abstraction | 2025-11-18 10:23:59,844 - __main__ - INFO - Subscribed to abstract SET: home/relay/schranklicht_vorne_patty/set
abstraction | 2025-11-18 10:23:59,862 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000154cf5
abstraction | 2025-11-18 10:23:59,881 - __main__ - INFO - Subscribed to abstract SET: home/light/leselampe_patty/set
abstraction | 2025-11-18 10:23:59,901 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010600ec9d
abstraction | 2025-11-18 10:23:59,920 - __main__ - INFO - Subscribed to abstract SET: home/light/deckenlampe_esszimmer/set
abstraction | 2025-11-18 10:23:59,940 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880108a03e45
abstraction | 2025-11-18 10:23:59,959 - __main__ - INFO - Subscribed to abstract SET: home/light/standlampe_esszimmer/set
abstraction | 2025-11-18 10:23:59,979 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xbc33acfffe21f547
abstraction | 2025-11-18 10:23:59,999 - __main__ - INFO - Subscribed to abstract SET: home/light/haustuer/set
abstraction | 2025-11-18 10:24:00,016 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xec1bbdfffea6a3da
abstraction | 2025-11-18 10:24:00,034 - __main__ - INFO - Subscribed to abstract SET: home/light/deckenlampe_flur_oben/set
abstraction | 2025-11-18 10:24:00,053 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d2123a7
abstraction | 2025-11-18 10:24:00,072 - __main__ - INFO - Subscribed to abstract SET: home/light/kueche_deckenlampe/set
abstraction | 2025-11-18 10:24:00,090 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d2c40c4
abstraction | 2025-11-18 10:24:00,108 - __main__ - INFO - Subscribed to abstract SET: home/light/sportlicht_tisch/set
abstraction | 2025-11-18 10:24:00,127 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b8be2409f31b
abstraction | 2025-11-18 10:24:00,145 - __main__ - INFO - Subscribed to abstract SET: home/light/sportlicht_regal/set
abstraction | 2025-11-18 10:24:00,163 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b8be2409f569
abstraction | 2025-11-18 10:24:00,183 - __main__ - INFO - Subscribed to abstract SET: home/light/licht_flur_oben_am_spiegel/set
abstraction | 2025-11-18 10:24:00,201 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x842e14fffefe4ba4
abstraction | 2025-11-18 10:24:00,218 - __main__ - INFO - Subscribed to abstract SET: home/light/experimentlabtest/set
abstraction | 2025-11-18 10:24:00,237 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000195038
abstraction | 2025-11-18 10:24:00,255 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_wolfgang/set
abstraction | 2025-11-18 10:24:00,271 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x540f57fffe7e3cfe
abstraction | 2025-11-18 10:24:00,292 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_kueche/set
abstraction | 2025-11-18 10:24:00,313 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x94deb8fffe2e5c06
abstraction | 2025-11-18 10:24:00,334 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_schlafzimmer/set
abstraction | 2025-11-18 10:24:00,356 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/42/1/SET_TEMPERATURE
abstraction | 2025-11-18 10:24:00,377 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_esszimmer/set
abstraction | 2025-11-18 10:24:00,398 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/45/1/SET_TEMPERATURE
abstraction | 2025-11-18 10:24:00,420 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_wohnzimmer/set
abstraction | 2025-11-18 10:24:00,440 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/46/1/SET_TEMPERATURE
abstraction | 2025-11-18 10:24:00,457 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_patty/set
abstraction | 2025-11-18 10:24:00,475 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/39/1/SET_TEMPERATURE
abstraction | 2025-11-18 10:24:00,493 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_bad_oben/set
abstraction | 2025-11-18 10:24:00,509 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/41/1/SET_TEMPERATURE
abstraction | 2025-11-18 10:24:00,530 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_bad_unten/set
abstraction | 2025-11-18 10:24:00,551 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/48/1/SET_TEMPERATURE
abstraction | 2025-11-18 10:24:00,572 - __main__ - INFO - Subscribed to abstract SET: home/relay/sterne_wohnzimmer/set
abstraction | 2025-11-18 10:24:00,593 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000155fc2
abstraction | 2025-11-18 10:24:00,593 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_schlafzimmer_strasse
abstraction | 2025-11-18 10:24:00,614 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/52/1/STATE
abstraction | 2025-11-18 10:24:00,614 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_esszimmer_strasse_rechts
abstraction | 2025-11-18 10:24:00,630 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/26/1/STATE
abstraction | 2025-11-18 10:24:00,630 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_esszimmer_strasse_links
abstraction | 2025-11-18 10:24:00,647 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/27/1/STATE
abstraction | 2025-11-18 10:24:00,647 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_wohnzimmer_garten_rechts
abstraction | 2025-11-18 10:24:00,668 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/28/1/STATE
abstraction | 2025-11-18 10:24:00,668 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_wohnzimmer_garten_links
abstraction | 2025-11-18 10:24:00,691 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/29/1/STATE
abstraction | 2025-11-18 10:24:00,691 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_garten_fenster
abstraction | 2025-11-18 10:24:00,708 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b332785
abstraction | 2025-11-18 10:24:00,708 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_garten_tuer
abstraction | 2025-11-18 10:24:00,728 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b332788
abstraction | 2025-11-18 10:24:00,728 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_strasse_rechts
abstraction | 2025-11-18 10:24:00,747 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b151803
abstraction | 2025-11-18 10:24:00,747 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_strasse_links
abstraction | 2025-11-18 10:24:00,767 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b331d0b
abstraction | 2025-11-18 10:24:00,767 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_patty_garten_rechts
abstraction | 2025-11-18 10:24:00,784 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/18/1/STATE
abstraction | 2025-11-18 10:24:00,784 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_patty_garten_links
abstraction | 2025-11-18 10:24:00,802 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/22/1/STATE
abstraction | 2025-11-18 10:24:00,802 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_patty_strasse
abstraction | 2025-11-18 10:24:00,821 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000af457cf
abstraction | 2025-11-18 10:24:00,821 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_wolfgang_garten
abstraction | 2025-11-18 10:24:00,838 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b3328da
abstraction | 2025-11-18 10:24:00,838 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_bad_oben_strasse
abstraction | 2025-11-18 10:24:00,855 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b333aec
abstraction | 2025-11-18 10:24:00,855 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_bad_unten_strasse
abstraction | 2025-11-18 10:24:00,872 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/44/1/STATE
abstraction | 2025-11-18 10:24:00,872 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_schlafzimmer
abstraction | 2025-11-18 10:24:00,891 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00043292dc
abstraction | 2025-11-18 10:24:00,891 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_wohnzimmer
abstraction | 2025-11-18 10:24:00,907 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d0008975707
abstraction | 2025-11-18 10:24:00,907 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_kueche
abstraction | 2025-11-18 10:24:00,925 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00083299bb
abstraction | 2025-11-18 10:24:00,925 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_arbeitszimmer_patty
abstraction | 2025-11-18 10:24:00,947 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d0003f052b7
abstraction | 2025-11-18 10:24:00,947 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_arbeitszimmer_wolfgang
abstraction | 2025-11-18 10:24:00,969 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000543fb99
abstraction | 2025-11-18 10:24:00,969 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_bad_oben
abstraction | 2025-11-18 10:24:00,986 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00093e8987
abstraction | 2025-11-18 10:24:00,986 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_bad_unten
abstraction | 2025-11-18 10:24:01,004 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00093e662a
abstraction | 2025-11-18 10:24:01,004 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_flur
abstraction | 2025-11-18 10:24:01,022 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000836ccc6
abstraction | 2025-11-18 10:24:01,022 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_waschkueche
abstraction | 2025-11-18 10:24:01,038 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000449f3bc
abstraction | 2025-11-18 10:24:01,038 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_sportzimmer
abstraction | 2025-11-18 10:24:01,058 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d0009421422
abstraction | 2025-11-18 10:24:01,074 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_spuele_kueche/set
abstraction | 2025-11-18 10:24:01,090 - __main__ - INFO - Subscribed to vendor STATE: shellies/LightKitchenSink/relay/0
abstraction | 2025-11-18 10:24:01,107 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_schrank_esszimmer/set
abstraction | 2025-11-18 10:24:01,122 - __main__ - INFO - Subscribed to vendor STATE: shellies/schrankesszimmer/relay/0
abstraction | 2025-11-18 10:24:01,139 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_regal_wohnzimmer/set
abstraction | 2025-11-18 10:24:01,155 - __main__ - INFO - Subscribed to vendor STATE: shellies/wohnzimmer-regal/relay/0
abstraction | 2025-11-18 10:24:01,172 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_flur_schrank/set
abstraction | 2025-11-18 10:24:01,189 - __main__ - INFO - Subscribed to vendor STATE: shellies/schrankflur/relay/0
abstraction | 2025-11-18 10:24:01,205 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_terasse/set
abstraction | 2025-11-18 10:24:01,222 - __main__ - INFO - Subscribed to vendor STATE: shellies/lichtterasse/relay/0
abstraction | 2025-11-18 10:24:01,222 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=21
abstraction | 2025-11-18 10:24:01,222 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 21.0, 'mode': 'heat'}
abstraction | 2025-11-18 10:24:01,222 - __main__ - INFO - ← abstract STATE thermostat_schlafzimmer: home/thermostat/thermostat_schlafzimmer/state → {"target": 21.0, "mode": "heat"}
abstraction | 2025-11-18 10:24:01,243 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_schlafzimmer", "payload": {"target": 21.0, "mode": "heat"}, "ts": "2025-11-18T10:24:01.243641+00:00"}
abstraction | 2025-11-18 10:24:01,260 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=15
abstraction | 2025-11-18 10:24:01,260 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 15.0, 'mode': 'heat'}
abstraction | 2025-11-18 10:24:01,260 - __main__ - INFO - ← abstract STATE thermostat_esszimmer: home/thermostat/thermostat_esszimmer/state → {"target": 15.0, "mode": "heat"}
abstraction | 2025-11-18 10:24:01,280 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_esszimmer", "payload": {"target": 15.0, "mode": "heat"}, "ts": "2025-11-18T10:24:01.280285+00:00"}
abstraction | 2025-11-18 10:24:01,296 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=15
abstraction | 2025-11-18 10:24:01,296 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 15.0, 'mode': 'heat'}
abstraction | 2025-11-18 10:24:01,296 - __main__ - INFO - ← abstract STATE thermostat_wohnzimmer: home/thermostat/thermostat_wohnzimmer/state → {"target": 15.0, "mode": "heat"}
abstraction | 2025-11-18 10:24:01,317 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_wohnzimmer", "payload": {"target": 15.0, "mode": "heat"}, "ts": "2025-11-18T10:24:01.317708+00:00"}
abstraction | 2025-11-18 10:24:01,334 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=22
abstraction | 2025-11-18 10:24:01,334 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 22.0, 'mode': 'heat'}
abstraction | 2025-11-18 10:24:01,334 - __main__ - INFO - ← abstract STATE thermostat_patty: home/thermostat/thermostat_patty/state → {"target": 22.0, "mode": "heat"}
abstraction | 2025-11-18 10:24:01,357 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_patty", "payload": {"target": 22.0, "mode": "heat"}, "ts": "2025-11-18T10:24:01.357082+00:00"}
abstraction | 2025-11-18 10:24:01,373 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=20
abstraction | 2025-11-18 10:24:01,373 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 20.0, 'mode': 'heat'}
abstraction | 2025-11-18 10:24:01,373 - __main__ - INFO - ← abstract STATE thermostat_bad_oben: home/thermostat/thermostat_bad_oben/state → {"target": 20.0, "mode": "heat"}
abstraction | 2025-11-18 10:24:01,395 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_bad_oben", "payload": {"target": 20.0, "mode": "heat"}, "ts": "2025-11-18T10:24:01.395470+00:00"}
abstraction | 2025-11-18 10:24:01,411 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=5
abstraction | 2025-11-18 10:24:01,411 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 5.0, 'mode': 'heat'}
abstraction | 2025-11-18 10:24:01,411 - __main__ - INFO - ← abstract STATE thermostat_bad_unten: home/thermostat/thermostat_bad_unten/state → {"target": 5.0, "mode": "heat"}
abstraction | 2025-11-18 10:24:01,431 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_bad_unten", "payload": {"target": 5.0, "mode": "heat"}, "ts": "2025-11-18T10:24:01.431068+00:00"}
abstraction | 2025-11-18 10:24:01,448 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,448 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,449 - __main__ - INFO - ← abstract STATE kontakt_schlafzimmer_strasse: home/contact/kontakt_schlafzimmer_strasse/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,472 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_schlafzimmer_strasse", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.472456+00:00"}
abstraction | 2025-11-18 10:24:01,491 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,491 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,491 - __main__ - INFO - ← abstract STATE kontakt_esszimmer_strasse_rechts: home/contact/kontakt_esszimmer_strasse_rechts/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,733 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_esszimmer_strasse_rechts", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.733873+00:00"}
abstraction | 2025-11-18 10:24:01,750 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,750 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,750 - __main__ - INFO - ← abstract STATE kontakt_esszimmer_strasse_links: home/contact/kontakt_esszimmer_strasse_links/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,771 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_esszimmer_strasse_links", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.771380+00:00"}
abstraction | 2025-11-18 10:24:01,788 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,788 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,788 - __main__ - INFO - ← abstract STATE kontakt_wohnzimmer_garten_rechts: home/contact/kontakt_wohnzimmer_garten_rechts/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,808 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_wohnzimmer_garten_rechts", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.808516+00:00"}
abstraction | 2025-11-18 10:24:01,825 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,825 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,825 - __main__ - INFO - ← abstract STATE kontakt_wohnzimmer_garten_links: home/contact/kontakt_wohnzimmer_garten_links/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,844 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_wohnzimmer_garten_links", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.844046+00:00"}
abstraction | 2025-11-18 10:24:01,860 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,861 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,861 - __main__ - INFO - ← abstract STATE kontakt_patty_garten_rechts: home/contact/kontakt_patty_garten_rechts/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,881 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_patty_garten_rechts", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.881922+00:00"}
abstraction | 2025-11-18 10:24:01,898 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,898 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,898 - __main__ - INFO - ← abstract STATE kontakt_patty_garten_links: home/contact/kontakt_patty_garten_links/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,922 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_patty_garten_links", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.922254+00:00"}
abstraction | 2025-11-18 10:24:01,940 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=true
abstraction | 2025-11-18 10:24:01,940 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'open'}
abstraction | 2025-11-18 10:24:01,940 - __main__ - INFO - ← abstract STATE kontakt_bad_unten_strasse: home/contact/kontakt_bad_unten_strasse/state → {"contact": "open"}
abstraction | 2025-11-18 10:24:01,959 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_bad_unten_strasse", "payload": {"contact": "open"}, "ts": "2025-11-18T10:24:01.959678+00:00"}
abstraction | 2025-11-18 10:24:02,354 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:24:02,354 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:24:02,354 - __main__ - INFO - ← abstract STATE licht_terasse: home/relay/licht_terasse/state → {"power": "off"}
abstraction | 2025-11-18 10:24:02,373 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_terasse", "payload": {"power": "off"}, "ts": "2025-11-18T10:24:02.373461+00:00"}
abstraction | 2025-11-18 10:24:07,440 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:24:07,440 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:24:07,441 - __main__ - INFO - ← abstract STATE licht_regal_wohnzimmer: home/relay/licht_regal_wohnzimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:24:07,459 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_regal_wohnzimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:24:07.459082+00:00"}
abstraction | 2025-11-18 10:24:08,817 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.37, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1004.2, 'temperature': 22.16, 'voltage': 3015}
abstraction | 2025-11-18 10:24:08,817 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.37, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1004.2, 'temperature': 22.16, 'voltage': 3015}
abstraction | 2025-11-18 10:24:08,817 - __main__ - INFO - ← abstract STATE sensor_arbeitszimmer_patty: home/temp_humidity/sensor_arbeitszimmer_patty/state → {"battery": 100, "humidity": 54.37, "linkquality": 83, "power_outage_count": 38416, "pressure": 1004.2, "temperature": 22.16, "voltage": 3015}
abstraction | 2025-11-18 10:24:08,835 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_arbeitszimmer_patty", "payload": {"battery": 100, "humidity": 54.37, "linkquality": 83, "power_outage_count": 38416, "pressure": 1004.2, "temperature": 22.16, "voltage": 3015}, "ts": "2025-11-18T10:24:08.835488+00:00"}
abstraction | 2025-11-18 10:24:08,852 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.22, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1004.2, 'temperature': 22.16, 'voltage': 3015}
abstraction | 2025-11-18 10:24:08,852 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.22, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1004.2, 'temperature': 22.16, 'voltage': 3015}
abstraction | 2025-11-18 10:24:08,852 - __main__ - INFO - ← abstract STATE sensor_arbeitszimmer_patty: home/temp_humidity/sensor_arbeitszimmer_patty/state → {"battery": 100, "humidity": 54.22, "linkquality": 83, "power_outage_count": 38416, "pressure": 1004.2, "temperature": 22.16, "voltage": 3015}
abstraction | 2025-11-18 10:24:08,870 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_arbeitszimmer_patty", "payload": {"battery": 100, "humidity": 54.22, "linkquality": 83, "power_outage_count": 38416, "pressure": 1004.2, "temperature": 22.16, "voltage": 3015}, "ts": "2025-11-18T10:24:08.870674+00:00"}
abstraction | 2025-11-18 10:24:08,887 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.22, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1003.9, 'temperature': 22.16, 'voltage': 3015}
abstraction | 2025-11-18 10:24:08,887 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.22, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1003.9, 'temperature': 22.16, 'voltage': 3015}
abstraction | 2025-11-18 10:24:08,887 - __main__ - INFO - ← abstract STATE sensor_arbeitszimmer_patty: home/temp_humidity/sensor_arbeitszimmer_patty/state → {"battery": 100, "humidity": 54.22, "linkquality": 83, "power_outage_count": 38416, "pressure": 1003.9, "temperature": 22.16, "voltage": 3015}
abstraction | 2025-11-18 10:24:08,907 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_arbeitszimmer_patty", "payload": {"battery": 100, "humidity": 54.22, "linkquality": 83, "power_outage_count": 38416, "pressure": 1003.9, "temperature": 22.16, "voltage": 3015}, "ts": "2025-11-18T10:24:08.907729+00:00"}
abstraction | 2025-11-18 10:24:10,178 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=on
abstraction | 2025-11-18 10:24:10,178 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'on'}
abstraction | 2025-11-18 10:24:10,178 - __main__ - INFO - ← abstract STATE licht_spuele_kueche: home/relay/licht_spuele_kueche/state → {"power": "on"}
abstraction | 2025-11-18 10:24:10,196 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_spuele_kueche", "payload": {"power": "on"}, "ts": "2025-11-18T10:24:10.196762+00:00"}
abstraction | 2025-11-18 10:24:17,815 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:24:17,815 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:24:17,815 - __main__ - INFO - ← abstract STATE licht_schrank_esszimmer: home/relay/licht_schrank_esszimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:24:17,834 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_schrank_esszimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:24:17.834042+00:00"}
abstraction | 2025-11-18 10:24:32,370 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:24:32,370 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:24:32,370 - __main__ - INFO - ← abstract STATE licht_terasse: home/relay/licht_terasse/state → {"power": "off"}
abstraction | 2025-11-18 10:24:32,405 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_terasse", "payload": {"power": "off"}, "ts": "2025-11-18T10:24:32.405754+00:00"}
abstraction | 2025-11-18 10:24:37,447 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:24:37,447 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:24:37,447 - __main__ - INFO - ← abstract STATE licht_regal_wohnzimmer: home/relay/licht_regal_wohnzimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:24:37,465 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_regal_wohnzimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:24:37.465220+00:00"}
abstraction | 2025-11-18 10:24:40,188 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=on
abstraction | 2025-11-18 10:24:40,189 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'on'}
abstraction | 2025-11-18 10:24:40,189 - __main__ - INFO - ← abstract STATE licht_spuele_kueche: home/relay/licht_spuele_kueche/state → {"power": "on"}
abstraction | 2025-11-18 10:24:40,207 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_spuele_kueche", "payload": {"power": "on"}, "ts": "2025-11-18T10:24:40.207222+00:00"}
abstraction | 2025-11-18 10:24:47,833 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:24:47,833 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:24:47,833 - __main__ - INFO - ← abstract STATE licht_schrank_esszimmer: home/relay/licht_schrank_esszimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:24:47,868 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_schrank_esszimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:24:47.868787+00:00"}
abstraction | 2025-11-18 10:25:02,363 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:25:02,363 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:25:02,363 - __main__ - INFO - ← abstract STATE licht_terasse: home/relay/licht_terasse/state → {"power": "off"}
abstraction | 2025-11-18 10:25:02,381 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_terasse", "payload": {"power": "off"}, "ts": "2025-11-18T10:25:02.381792+00:00"}
abstraction | 2025-11-18 10:25:07,447 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:25:07,448 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:25:07,448 - __main__ - INFO - ← abstract STATE licht_regal_wohnzimmer: home/relay/licht_regal_wohnzimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:25:07,465 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_regal_wohnzimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:25:07.465566+00:00"}
abstraction | 2025-11-18 10:25:10,185 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=on
abstraction | 2025-11-18 10:25:10,185 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'on'}
abstraction | 2025-11-18 10:25:10,185 - __main__ - INFO - ← abstract STATE licht_spuele_kueche: home/relay/licht_spuele_kueche/state → {"power": "on"}
abstraction | 2025-11-18 10:25:10,202 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_spuele_kueche", "payload": {"power": "on"}, "ts": "2025-11-18T10:25:10.202372+00:00"}
abstraction | 2025-11-18 10:25:17,820 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:25:17,820 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:25:17,820 - __main__ - INFO - ← abstract STATE licht_schrank_esszimmer: home/relay/licht_schrank_esszimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:25:17,838 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_schrank_esszimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:25:17.838140+00:00"}
abstraction | 2025-11-18 10:25:32,361 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:25:32,361 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:25:32,361 - __main__ - INFO - ← abstract STATE licht_terasse: home/relay/licht_terasse/state → {"power": "off"}
abstraction | 2025-11-18 10:25:32,379 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_terasse", "payload": {"power": "off"}, "ts": "2025-11-18T10:25:32.379286+00:00"}
abstraction | 2025-11-18 10:25:37,455 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:25:37,455 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:25:37,455 - __main__ - INFO - ← abstract STATE licht_regal_wohnzimmer: home/relay/licht_regal_wohnzimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:25:37,473 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_regal_wohnzimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:25:37.473171+00:00"}
abstraction | 2025-11-18 10:25:40,193 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=on
abstraction | 2025-11-18 10:25:40,194 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'on'}
abstraction | 2025-11-18 10:25:40,194 - __main__ - INFO - ← abstract STATE licht_spuele_kueche: home/relay/licht_spuele_kueche/state → {"power": "on"}
abstraction | 2025-11-18 10:25:40,211 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_spuele_kueche", "payload": {"power": "on"}, "ts": "2025-11-18T10:25:40.211493+00:00"}
abstraction | 2025-11-18 10:25:47,821 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:25:47,821 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:25:47,821 - __main__ - INFO - ← abstract STATE licht_schrank_esszimmer: home/relay/licht_schrank_esszimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:25:47,838 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_schrank_esszimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:25:47.838508+00:00"}

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✔ home-automation-abstraction Built 0.0s
✔ home-automation-api Built 0.0s
✔ home-automation-rules Built 0.0s
✔ home-automation-ui Built 0.0s
Attaching to abstraction, api, rules, ui
abstraction | 2025-11-18 10:23:59,179 - asyncio - DEBUG - Using selector: EpollSelector
rules | 2025-11-18 10:23:59,207 - asyncio - DEBUG - Using selector: EpollSelector
rules | 2025-11-18 10:23:59,208 - __main__ - INFO - ============================================================
rules | 2025-11-18 10:23:59,208 - __main__ - INFO - Rules Engine Starting
rules | 2025-11-18 10:23:59,209 - __main__ - INFO - ============================================================
rules | 2025-11-18 10:23:59,209 - __main__ - INFO - Config: /app/config/rules.yaml
rules | 2025-11-18 10:23:59,210 - __main__ - INFO - MQTT: 172.23.1.102:1883
rules | 2025-11-18 10:23:59,210 - __main__ - INFO - Redis: redis://172.23.1.116:6379/8
rules | 2025-11-18 10:23:59,210 - __main__ - INFO - ============================================================
rules | 2025-11-18 10:23:59,211 - __main__ - INFO - Loading rules configuration from /app/config/rules.yaml
rules | 2025-11-18 10:23:59,217 - __main__ - INFO - Loaded 6 rule(s) from configuration
rules | 2025-11-18 10:23:59,218 - __main__ - INFO - - window_setback_esszimmer (type: window_setback@1.0) [DISABLED]
rules | 2025-11-18 10:23:59,218 - __main__ - INFO - - window_setback_kueche (type: window_setback@1.0) [DISABLED]
rules | 2025-11-18 10:23:59,219 - __main__ - INFO - - window_setback_patty (type: window_setback@1.0) [DISABLED]
rules | 2025-11-18 10:23:59,219 - __main__ - INFO - - window_setback_schlafzimmer (type: window_setback@1.0) [DISABLED]
rules | 2025-11-18 10:23:59,220 - __main__ - INFO - - window_setback_wohnzimmer (type: window_setback@1.0) [DISABLED]
rules | 2025-11-18 10:23:59,225 - __main__ - INFO - - window_setback_wolfgang (type: window_setback@1.0)
rules | 2025-11-18 10:23:59,225 - __main__ - INFO - Successfully loaded 1 rule implementation(s) (5 disabled)
rules | 2025-11-18 10:23:59,226 - __main__ - INFO - Rule window_setback_wolfgang validated: 1 contacts, 1 thermostats
rules | 2025-11-18 10:23:59,226 - __main__ - DEBUG - Rule window_setback_wolfgang subscribes to 2 topic(s)
rules | 2025-11-18 10:23:59,227 - __main__ - INFO - Total MQTT subscriptions needed: 2
rules | 2025-11-18 10:23:59,227 - __main__ - INFO - Starting event processing loop
abstraction | 2025-11-18 10:23:59,240 - __main__ - INFO - Loaded configuration from /app/config/devices.yaml
abstraction | 2025-11-18 10:23:59,240 - __main__ - INFO - Loaded 64 device(s): lampe_semeniere_wohnzimmer, stehlampe_esszimmer_spiegel, stehlampe_esszimmer_schrank, grosse_lampe_wohnzimmer, lampe_naehtischchen_wohnzimmer, kleine_lampe_rechts_esszimmer, kleine_lampe_links_esszimmer, leselampe_esszimmer, medusalampe_schlafzimmer, sportlicht_am_fernseher_studierzimmer, deckenlampe_schlafzimmer, bettlicht_wolfgang, bettlicht_patty, schranklicht_hinten_patty, schranklicht_vorne_patty, leselampe_patty, deckenlampe_esszimmer, standlampe_esszimmer, haustuer, deckenlampe_flur_oben, kueche_deckenlampe, sportlicht_tisch, sportlicht_regal, licht_flur_oben_am_spiegel, experimentlabtest, thermostat_wolfgang, thermostat_kueche, thermostat_schlafzimmer, thermostat_esszimmer, thermostat_wohnzimmer, thermostat_patty, thermostat_bad_oben, thermostat_bad_unten, sterne_wohnzimmer, kontakt_schlafzimmer_strasse, kontakt_esszimmer_strasse_rechts, kontakt_esszimmer_strasse_links, kontakt_wohnzimmer_garten_rechts, kontakt_wohnzimmer_garten_links, kontakt_kueche_garten_fenster, kontakt_kueche_garten_tuer, kontakt_kueche_strasse_rechts, kontakt_kueche_strasse_links, kontakt_patty_garten_rechts, kontakt_patty_garten_links, kontakt_patty_strasse, kontakt_wolfgang_garten, kontakt_bad_oben_strasse, kontakt_bad_unten_strasse, sensor_schlafzimmer, sensor_wohnzimmer, sensor_kueche, sensor_arbeitszimmer_patty, sensor_arbeitszimmer_wolfgang, sensor_bad_oben, sensor_bad_unten, sensor_flur, sensor_waschkueche, sensor_sportzimmer, licht_spuele_kueche, licht_schrank_esszimmer, licht_regal_wohnzimmer, licht_flur_schrank, licht_terasse
abstraction | 2025-11-18 10:23:59,241 - __main__ - INFO - Loaded 64 device(s) from configuration
abstraction | 2025-11-18 10:23:59,292 - __main__ - INFO - Connected to Redis: redis://172.23.1.116:6379/8
abstraction | 2025-11-18 10:23:59,292 - __main__ - INFO - Abstraction worker started
abstraction | 2025-11-18 10:23:59,293 - __main__ - INFO - Connecting to MQTT broker: 172.23.1.102:1883
abstraction | 2025-11-18 10:23:59,341 - __main__ - INFO - Connected to MQTT broker as home-automation-abstraction-2cfdfa
abstraction | 2025-11-18 10:23:59,359 - __main__ - INFO - Subscribed to abstract SET: home/relay/lampe_semeniere_wohnzimmer/set
abstraction | 2025-11-18 10:23:59,377 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b8000015480b
rules | 2025-11-18 10:23:59,378 - __main__ - INFO - Connecting to MQTT broker 172.23.1.102:1883 (client_id=rule_engine-782522)
abstraction | 2025-11-18 10:23:59,394 - __main__ - INFO - Subscribed to abstract SET: home/light/stehlampe_esszimmer_spiegel/set
abstraction | 2025-11-18 10:23:59,411 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d06ea09
abstraction | 2025-11-18 10:23:59,428 - __main__ - INFO - Subscribed to abstract SET: home/light/stehlampe_esszimmer_schrank/set
rules | 2025-11-18 10:23:59,431 - __main__ - INFO - Connected to MQTT broker 172.23.1.102:1883
abstraction | 2025-11-18 10:23:59,444 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d09176c
abstraction | 2025-11-18 10:23:59,460 - __main__ - INFO - Subscribed to abstract SET: home/relay/grosse_lampe_wohnzimmer/set
rules | 2025-11-18 10:23:59,466 - __main__ - INFO - Subscribed to 2 topic(s): home/thermostat/thermostat_wolfgang/state, home/contact/kontakt_wolfgang_garten/state
rules | 2025-11-18 10:23:59,467 - __main__ - DEBUG - Received event: {'topic': 'home/thermostat/thermostat_wolfgang/state', 'type': 'state', 'cap': 'thermostat', 'device_id': 'thermostat_wolfgang', 'payload': {'target': 23.0, 'current': 22.5, 'mode': 'heat'}, 'ts': '2025-11-18T10:23:59.467177'}
rules | 2025-11-18 10:23:59,467 - __main__ - DEBUG - Filtering for cap=thermostat, device_id=thermostat_wolfgang
rules | 2025-11-18 10:23:59,468 - __main__ - DEBUG - Rule window_setback_wolfgang: checking thermostats ['thermostat_wolfgang']
rules | 2025-11-18 10:23:59,468 - __main__ - INFO - Event thermostat/thermostat_wolfgang: 1 matching rule(s)
abstraction | 2025-11-18 10:23:59,477 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000151aca
abstraction | 2025-11-18 10:23:59,493 - __main__ - INFO - Subscribed to abstract SET: home/relay/lampe_naehtischchen_wohnzimmer/set
abstraction | 2025-11-18 10:23:59,510 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x842e14fffee560ee
abstraction | 2025-11-18 10:23:59,526 - __main__ - INFO - Subscribed to abstract SET: home/relay/kleine_lampe_rechts_esszimmer/set
abstraction | 2025-11-18 10:23:59,543 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000156645
abstraction | 2025-11-18 10:23:59,560 - __main__ - INFO - Subscribed to abstract SET: home/relay/kleine_lampe_links_esszimmer/set
rules | 2025-11-18 10:23:59,572 - __main__ - DEBUG - Rule window_setback_wolfgang: Updated current target for thermostat_wolfgang: 23.0°C
rules | 2025-11-18 10:23:59,573 - __main__ - DEBUG - Received event: {'topic': 'home/contact/kontakt_wolfgang_garten/state', 'type': 'state', 'cap': 'contact', 'device_id': 'kontakt_wolfgang_garten', 'payload': {'contact': 'closed', 'battery': 100, 'linkquality': 32, 'device_temperature': 26, 'voltage': 3025}, 'ts': '2025-11-18T10:23:59.573073'}
rules | 2025-11-18 10:23:59,573 - __main__ - DEBUG - Filtering for cap=contact, device_id=kontakt_wolfgang_garten
rules | 2025-11-18 10:23:59,573 - __main__ - DEBUG - Rule window_setback_wolfgang: checking contacts ['kontakt_wolfgang_garten']
rules | 2025-11-18 10:23:59,574 - __main__ - INFO - Event contact/kontakt_wolfgang_garten: 1 matching rule(s)
abstraction | 2025-11-18 10:23:59,578 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000153099
abstraction | 2025-11-18 10:23:59,595 - __main__ - INFO - Subscribed to abstract SET: home/light/leselampe_esszimmer/set
rules | 2025-11-18 10:23:59,610 - __main__ - INFO - Rule window_setback_wolfgang: Window closed, restoring 1 thermostats to previous temperatures
abstraction | 2025-11-18 10:23:59,612 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xec1bbdfffe7b84f2
rules | 2025-11-18 10:23:59,627 - __main__ - WARNING - No previous target found for thermostat_wolfgang, cannot restore
abstraction | 2025-11-18 10:23:59,630 - __main__ - INFO - Subscribed to abstract SET: home/relay/medusalampe_schlafzimmer/set
abstraction | 2025-11-18 10:23:59,647 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000154c7c
abstraction | 2025-11-18 10:23:59,665 - __main__ - INFO - Subscribed to abstract SET: home/light/sportlicht_am_fernseher_studierzimmer/set
abstraction | 2025-11-18 10:23:59,682 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x842e14fffe76a23a
abstraction | 2025-11-18 10:23:59,700 - __main__ - INFO - Subscribed to abstract SET: home/light/deckenlampe_schlafzimmer/set
abstraction | 2025-11-18 10:23:59,717 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880108a406a7
api | INFO: Started server process [1]
api | INFO: Waiting for application startup.
abstraction | 2025-11-18 10:23:59,735 - __main__ - INFO - Subscribed to abstract SET: home/light/bettlicht_wolfgang/set
api | INFO: Application startup complete.
abstraction | 2025-11-18 10:23:59,753 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00178801081570bf
api | INFO: Uvicorn running on http://0.0.0.0:8001 (Press CTRL+C to quit)
abstraction | 2025-11-18 10:23:59,770 - __main__ - INFO - Subscribed to abstract SET: home/light/bettlicht_patty/set
abstraction | 2025-11-18 10:23:59,788 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880108158b32
abstraction | 2025-11-18 10:23:59,807 - __main__ - INFO - Subscribed to abstract SET: home/light/schranklicht_hinten_patty/set
abstraction | 2025-11-18 10:23:59,825 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880106e29571
abstraction | 2025-11-18 10:23:59,844 - __main__ - INFO - Subscribed to abstract SET: home/relay/schranklicht_vorne_patty/set
abstraction | 2025-11-18 10:23:59,862 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000154cf5
abstraction | 2025-11-18 10:23:59,881 - __main__ - INFO - Subscribed to abstract SET: home/light/leselampe_patty/set
abstraction | 2025-11-18 10:23:59,901 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010600ec9d
abstraction | 2025-11-18 10:23:59,920 - __main__ - INFO - Subscribed to abstract SET: home/light/deckenlampe_esszimmer/set
abstraction | 2025-11-18 10:23:59,940 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x0017880108a03e45
abstraction | 2025-11-18 10:23:59,959 - __main__ - INFO - Subscribed to abstract SET: home/light/standlampe_esszimmer/set
abstraction | 2025-11-18 10:23:59,979 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xbc33acfffe21f547
ui | UI using API_BASE: http://172.19.1.11:8001
ui | UI using BASE_PATH: /
ui | INFO: Started server process [1]
ui | INFO: Waiting for application startup.
ui | INFO: Application startup complete.
abstraction | 2025-11-18 10:23:59,999 - __main__ - INFO - Subscribed to abstract SET: home/light/haustuer/set
ui | INFO: Uvicorn running on http://0.0.0.0:8002 (Press CTRL+C to quit)
abstraction | 2025-11-18 10:24:00,016 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xec1bbdfffea6a3da
abstraction | 2025-11-18 10:24:00,034 - __main__ - INFO - Subscribed to abstract SET: home/light/deckenlampe_flur_oben/set
abstraction | 2025-11-18 10:24:00,053 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d2123a7
abstraction | 2025-11-18 10:24:00,072 - __main__ - INFO - Subscribed to abstract SET: home/light/kueche_deckenlampe/set
abstraction | 2025-11-18 10:24:00,090 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x001788010d2c40c4
abstraction | 2025-11-18 10:24:00,108 - __main__ - INFO - Subscribed to abstract SET: home/light/sportlicht_tisch/set
abstraction | 2025-11-18 10:24:00,127 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b8be2409f31b
abstraction | 2025-11-18 10:24:00,145 - __main__ - INFO - Subscribed to abstract SET: home/light/sportlicht_regal/set
abstraction | 2025-11-18 10:24:00,163 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b8be2409f569
abstraction | 2025-11-18 10:24:00,183 - __main__ - INFO - Subscribed to abstract SET: home/light/licht_flur_oben_am_spiegel/set
abstraction | 2025-11-18 10:24:00,201 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x842e14fffefe4ba4
abstraction | 2025-11-18 10:24:00,218 - __main__ - INFO - Subscribed to abstract SET: home/light/experimentlabtest/set
abstraction | 2025-11-18 10:24:00,237 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000195038
abstraction | 2025-11-18 10:24:00,255 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_wolfgang/set
abstraction | 2025-11-18 10:24:00,271 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x540f57fffe7e3cfe
abstraction | 2025-11-18 10:24:00,292 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_kueche/set
abstraction | 2025-11-18 10:24:00,313 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x94deb8fffe2e5c06
abstraction | 2025-11-18 10:24:00,334 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_schlafzimmer/set
abstraction | 2025-11-18 10:24:00,356 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/42/1/SET_TEMPERATURE
abstraction | 2025-11-18 10:24:00,377 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_esszimmer/set
abstraction | 2025-11-18 10:24:00,398 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/45/1/SET_TEMPERATURE
abstraction | 2025-11-18 10:24:00,420 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_wohnzimmer/set
abstraction | 2025-11-18 10:24:00,440 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/46/1/SET_TEMPERATURE
abstraction | 2025-11-18 10:24:00,457 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_patty/set
abstraction | 2025-11-18 10:24:00,475 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/39/1/SET_TEMPERATURE
abstraction | 2025-11-18 10:24:00,493 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_bad_oben/set
abstraction | 2025-11-18 10:24:00,509 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/41/1/SET_TEMPERATURE
abstraction | 2025-11-18 10:24:00,530 - __main__ - INFO - Subscribed to abstract SET: home/thermostat/thermostat_bad_unten/set
abstraction | 2025-11-18 10:24:00,551 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/48/1/SET_TEMPERATURE
abstraction | 2025-11-18 10:24:00,572 - __main__ - INFO - Subscribed to abstract SET: home/relay/sterne_wohnzimmer/set
abstraction | 2025-11-18 10:24:00,593 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0xf0d1b80000155fc2
abstraction | 2025-11-18 10:24:00,593 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_schlafzimmer_strasse
abstraction | 2025-11-18 10:24:00,614 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/52/1/STATE
abstraction | 2025-11-18 10:24:00,614 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_esszimmer_strasse_rechts
abstraction | 2025-11-18 10:24:00,630 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/26/1/STATE
abstraction | 2025-11-18 10:24:00,630 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_esszimmer_strasse_links
abstraction | 2025-11-18 10:24:00,647 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/27/1/STATE
abstraction | 2025-11-18 10:24:00,647 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_wohnzimmer_garten_rechts
abstraction | 2025-11-18 10:24:00,668 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/28/1/STATE
abstraction | 2025-11-18 10:24:00,668 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_wohnzimmer_garten_links
abstraction | 2025-11-18 10:24:00,691 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/29/1/STATE
abstraction | 2025-11-18 10:24:00,691 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_garten_fenster
abstraction | 2025-11-18 10:24:00,708 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b332785
abstraction | 2025-11-18 10:24:00,708 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_garten_tuer
abstraction | 2025-11-18 10:24:00,728 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b332788
abstraction | 2025-11-18 10:24:00,728 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_strasse_rechts
abstraction | 2025-11-18 10:24:00,747 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b151803
abstraction | 2025-11-18 10:24:00,747 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_kueche_strasse_links
abstraction | 2025-11-18 10:24:00,767 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b331d0b
abstraction | 2025-11-18 10:24:00,767 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_patty_garten_rechts
abstraction | 2025-11-18 10:24:00,784 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/18/1/STATE
abstraction | 2025-11-18 10:24:00,784 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_patty_garten_links
abstraction | 2025-11-18 10:24:00,802 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/22/1/STATE
abstraction | 2025-11-18 10:24:00,802 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_patty_strasse
abstraction | 2025-11-18 10:24:00,821 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000af457cf
abstraction | 2025-11-18 10:24:00,821 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_wolfgang_garten
abstraction | 2025-11-18 10:24:00,838 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b3328da
abstraction | 2025-11-18 10:24:00,838 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_bad_oben_strasse
abstraction | 2025-11-18 10:24:00,855 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d008b333aec
abstraction | 2025-11-18 10:24:00,855 - __main__ - INFO - Skipping SET subscription for read-only device: kontakt_bad_unten_strasse
api | INFO: 172.16.3.98:51428 - "GET /realtime HTTP/1.1" 200 OK
abstraction | 2025-11-18 10:24:00,872 - __main__ - INFO - Subscribed to vendor STATE: homegear/instance1/plain/44/1/STATE
abstraction | 2025-11-18 10:24:00,872 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_schlafzimmer
abstraction | 2025-11-18 10:24:00,891 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00043292dc
abstraction | 2025-11-18 10:24:00,891 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_wohnzimmer
api | INFO: 172.16.3.98:51429 - "GET /realtime HTTP/1.1" 200 OK
abstraction | 2025-11-18 10:24:00,907 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d0008975707
abstraction | 2025-11-18 10:24:00,907 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_kueche
abstraction | 2025-11-18 10:24:00,925 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00083299bb
abstraction | 2025-11-18 10:24:00,925 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_arbeitszimmer_patty
abstraction | 2025-11-18 10:24:00,947 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d0003f052b7
abstraction | 2025-11-18 10:24:00,947 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_arbeitszimmer_wolfgang
abstraction | 2025-11-18 10:24:00,969 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000543fb99
abstraction | 2025-11-18 10:24:00,969 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_bad_oben
abstraction | 2025-11-18 10:24:00,986 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00093e8987
abstraction | 2025-11-18 10:24:00,986 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_bad_unten
abstraction | 2025-11-18 10:24:01,004 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d00093e662a
abstraction | 2025-11-18 10:24:01,004 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_flur
abstraction | 2025-11-18 10:24:01,022 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000836ccc6
abstraction | 2025-11-18 10:24:01,022 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_waschkueche
abstraction | 2025-11-18 10:24:01,038 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d000449f3bc
abstraction | 2025-11-18 10:24:01,038 - __main__ - INFO - Skipping SET subscription for read-only device: sensor_sportzimmer
abstraction | 2025-11-18 10:24:01,058 - __main__ - INFO - Subscribed to vendor STATE: zigbee2mqtt/0x00158d0009421422
abstraction | 2025-11-18 10:24:01,074 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_spuele_kueche/set
abstraction | 2025-11-18 10:24:01,090 - __main__ - INFO - Subscribed to vendor STATE: shellies/LightKitchenSink/relay/0
abstraction | 2025-11-18 10:24:01,107 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_schrank_esszimmer/set
abstraction | 2025-11-18 10:24:01,122 - __main__ - INFO - Subscribed to vendor STATE: shellies/schrankesszimmer/relay/0
abstraction | 2025-11-18 10:24:01,139 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_regal_wohnzimmer/set
abstraction | 2025-11-18 10:24:01,155 - __main__ - INFO - Subscribed to vendor STATE: shellies/wohnzimmer-regal/relay/0
abstraction | 2025-11-18 10:24:01,172 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_flur_schrank/set
abstraction | 2025-11-18 10:24:01,189 - __main__ - INFO - Subscribed to vendor STATE: shellies/schrankflur/relay/0
abstraction | 2025-11-18 10:24:01,205 - __main__ - INFO - Subscribed to abstract SET: home/relay/licht_terasse/set
abstraction | 2025-11-18 10:24:01,222 - __main__ - INFO - Subscribed to vendor STATE: shellies/lichtterasse/relay/0
abstraction | 2025-11-18 10:24:01,222 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=21
abstraction | 2025-11-18 10:24:01,222 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 21.0, 'mode': 'heat'}
abstraction | 2025-11-18 10:24:01,222 - __main__ - INFO - ← abstract STATE thermostat_schlafzimmer: home/thermostat/thermostat_schlafzimmer/state → {"target": 21.0, "mode": "heat"}
abstraction | 2025-11-18 10:24:01,243 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_schlafzimmer", "payload": {"target": 21.0, "mode": "heat"}, "ts": "2025-11-18T10:24:01.243641+00:00"}
abstraction | 2025-11-18 10:24:01,260 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=15
abstraction | 2025-11-18 10:24:01,260 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 15.0, 'mode': 'heat'}
abstraction | 2025-11-18 10:24:01,260 - __main__ - INFO - ← abstract STATE thermostat_esszimmer: home/thermostat/thermostat_esszimmer/state → {"target": 15.0, "mode": "heat"}
abstraction | 2025-11-18 10:24:01,280 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_esszimmer", "payload": {"target": 15.0, "mode": "heat"}, "ts": "2025-11-18T10:24:01.280285+00:00"}
abstraction | 2025-11-18 10:24:01,296 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=15
abstraction | 2025-11-18 10:24:01,296 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 15.0, 'mode': 'heat'}
abstraction | 2025-11-18 10:24:01,296 - __main__ - INFO - ← abstract STATE thermostat_wohnzimmer: home/thermostat/thermostat_wohnzimmer/state → {"target": 15.0, "mode": "heat"}
abstraction | 2025-11-18 10:24:01,317 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_wohnzimmer", "payload": {"target": 15.0, "mode": "heat"}, "ts": "2025-11-18T10:24:01.317708+00:00"}
abstraction | 2025-11-18 10:24:01,334 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=22
abstraction | 2025-11-18 10:24:01,334 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 22.0, 'mode': 'heat'}
abstraction | 2025-11-18 10:24:01,334 - __main__ - INFO - ← abstract STATE thermostat_patty: home/thermostat/thermostat_patty/state → {"target": 22.0, "mode": "heat"}
abstraction | 2025-11-18 10:24:01,357 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_patty", "payload": {"target": 22.0, "mode": "heat"}, "ts": "2025-11-18T10:24:01.357082+00:00"}
abstraction | 2025-11-18 10:24:01,373 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=20
abstraction | 2025-11-18 10:24:01,373 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 20.0, 'mode': 'heat'}
abstraction | 2025-11-18 10:24:01,373 - __main__ - INFO - ← abstract STATE thermostat_bad_oben: home/thermostat/thermostat_bad_oben/state → {"target": 20.0, "mode": "heat"}
abstraction | 2025-11-18 10:24:01,395 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_bad_oben", "payload": {"target": 20.0, "mode": "heat"}, "ts": "2025-11-18T10:24:01.395470+00:00"}
abstraction | 2025-11-18 10:24:01,411 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=thermostat, tech=max, payload=5
abstraction | 2025-11-18 10:24:01,411 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=thermostat, tech=max, payload={'target': 5.0, 'mode': 'heat'}
abstraction | 2025-11-18 10:24:01,411 - __main__ - INFO - ← abstract STATE thermostat_bad_unten: home/thermostat/thermostat_bad_unten/state → {"target": 5.0, "mode": "heat"}
abstraction | 2025-11-18 10:24:01,431 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "thermostat_bad_unten", "payload": {"target": 5.0, "mode": "heat"}, "ts": "2025-11-18T10:24:01.431068+00:00"}
abstraction | 2025-11-18 10:24:01,448 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,448 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,449 - __main__ - INFO - ← abstract STATE kontakt_schlafzimmer_strasse: home/contact/kontakt_schlafzimmer_strasse/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,472 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_schlafzimmer_strasse", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.472456+00:00"}
abstraction | 2025-11-18 10:24:01,491 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,491 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,491 - __main__ - INFO - ← abstract STATE kontakt_esszimmer_strasse_rechts: home/contact/kontakt_esszimmer_strasse_rechts/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,733 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_esszimmer_strasse_rechts", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.733873+00:00"}
abstraction | 2025-11-18 10:24:01,750 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,750 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,750 - __main__ - INFO - ← abstract STATE kontakt_esszimmer_strasse_links: home/contact/kontakt_esszimmer_strasse_links/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,771 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_esszimmer_strasse_links", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.771380+00:00"}
abstraction | 2025-11-18 10:24:01,788 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,788 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,788 - __main__ - INFO - ← abstract STATE kontakt_wohnzimmer_garten_rechts: home/contact/kontakt_wohnzimmer_garten_rechts/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,808 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_wohnzimmer_garten_rechts", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.808516+00:00"}
abstraction | 2025-11-18 10:24:01,825 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,825 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,825 - __main__ - INFO - ← abstract STATE kontakt_wohnzimmer_garten_links: home/contact/kontakt_wohnzimmer_garten_links/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,844 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_wohnzimmer_garten_links", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.844046+00:00"}
abstraction | 2025-11-18 10:24:01,860 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,861 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,861 - __main__ - INFO - ← abstract STATE kontakt_patty_garten_rechts: home/contact/kontakt_patty_garten_rechts/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,881 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_patty_garten_rechts", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.881922+00:00"}
abstraction | 2025-11-18 10:24:01,898 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=false
abstraction | 2025-11-18 10:24:01,898 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'closed'}
abstraction | 2025-11-18 10:24:01,898 - __main__ - INFO - ← abstract STATE kontakt_patty_garten_links: home/contact/kontakt_patty_garten_links/state → {"contact": "closed"}
abstraction | 2025-11-18 10:24:01,922 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_patty_garten_links", "payload": {"contact": "closed"}, "ts": "2025-11-18T10:24:01.922254+00:00"}
abstraction | 2025-11-18 10:24:01,940 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=contact, tech=max, payload=true
abstraction | 2025-11-18 10:24:01,940 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=contact, tech=max, payload={'contact': 'open'}
abstraction | 2025-11-18 10:24:01,940 - __main__ - INFO - ← abstract STATE kontakt_bad_unten_strasse: home/contact/kontakt_bad_unten_strasse/state → {"contact": "open"}
abstraction | 2025-11-18 10:24:01,959 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "kontakt_bad_unten_strasse", "payload": {"contact": "open"}, "ts": "2025-11-18T10:24:01.959678+00:00"}
abstraction | 2025-11-18 10:24:02,354 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:24:02,354 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:24:02,354 - __main__ - INFO - ← abstract STATE licht_terasse: home/relay/licht_terasse/state → {"power": "off"}
abstraction | 2025-11-18 10:24:02,373 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_terasse", "payload": {"power": "off"}, "ts": "2025-11-18T10:24:02.373461+00:00"}
ui | INFO: 127.0.0.1:49192 - "GET /health HTTP/1.1" 200 OK
api | INFO: 172.16.3.98:51450 - "GET /realtime HTTP/1.1" 200 OK
abstraction | 2025-11-18 10:24:07,440 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:24:07,440 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:24:07,441 - __main__ - INFO - ← abstract STATE licht_regal_wohnzimmer: home/relay/licht_regal_wohnzimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:24:07,459 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_regal_wohnzimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:24:07.459082+00:00"}
abstraction | 2025-11-18 10:24:08,817 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.37, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1004.2, 'temperature': 22.16, 'voltage': 3015}
abstraction | 2025-11-18 10:24:08,817 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.37, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1004.2, 'temperature': 22.16, 'voltage': 3015}
abstraction | 2025-11-18 10:24:08,817 - __main__ - INFO - ← abstract STATE sensor_arbeitszimmer_patty: home/temp_humidity/sensor_arbeitszimmer_patty/state → {"battery": 100, "humidity": 54.37, "linkquality": 83, "power_outage_count": 38416, "pressure": 1004.2, "temperature": 22.16, "voltage": 3015}
abstraction | 2025-11-18 10:24:08,835 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_arbeitszimmer_patty", "payload": {"battery": 100, "humidity": 54.37, "linkquality": 83, "power_outage_count": 38416, "pressure": 1004.2, "temperature": 22.16, "voltage": 3015}, "ts": "2025-11-18T10:24:08.835488+00:00"}
abstraction | 2025-11-18 10:24:08,852 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.22, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1004.2, 'temperature': 22.16, 'voltage': 3015}
abstraction | 2025-11-18 10:24:08,852 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.22, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1004.2, 'temperature': 22.16, 'voltage': 3015}
abstraction | 2025-11-18 10:24:08,852 - __main__ - INFO - ← abstract STATE sensor_arbeitszimmer_patty: home/temp_humidity/sensor_arbeitszimmer_patty/state → {"battery": 100, "humidity": 54.22, "linkquality": 83, "power_outage_count": 38416, "pressure": 1004.2, "temperature": 22.16, "voltage": 3015}
abstraction | 2025-11-18 10:24:08,870 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_arbeitszimmer_patty", "payload": {"battery": 100, "humidity": 54.22, "linkquality": 83, "power_outage_count": 38416, "pressure": 1004.2, "temperature": 22.16, "voltage": 3015}, "ts": "2025-11-18T10:24:08.870674+00:00"}
abstraction | 2025-11-18 10:24:08,887 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.22, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1003.9, 'temperature': 22.16, 'voltage': 3015}
abstraction | 2025-11-18 10:24:08,887 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=temp_humidity_sensor, tech=zigbee2mqtt, payload={'battery': 100, 'humidity': 54.22, 'linkquality': 83, 'power_outage_count': 38416, 'pressure': 1003.9, 'temperature': 22.16, 'voltage': 3015}
abstraction | 2025-11-18 10:24:08,887 - __main__ - INFO - ← abstract STATE sensor_arbeitszimmer_patty: home/temp_humidity/sensor_arbeitszimmer_patty/state → {"battery": 100, "humidity": 54.22, "linkquality": 83, "power_outage_count": 38416, "pressure": 1003.9, "temperature": 22.16, "voltage": 3015}
abstraction | 2025-11-18 10:24:08,907 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "sensor_arbeitszimmer_patty", "payload": {"battery": 100, "humidity": 54.22, "linkquality": 83, "power_outage_count": 38416, "pressure": 1003.9, "temperature": 22.16, "voltage": 3015}, "ts": "2025-11-18T10:24:08.907729+00:00"}
abstraction | 2025-11-18 10:24:10,178 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=on
abstraction | 2025-11-18 10:24:10,178 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'on'}
abstraction | 2025-11-18 10:24:10,178 - __main__ - INFO - ← abstract STATE licht_spuele_kueche: home/relay/licht_spuele_kueche/state → {"power": "on"}
abstraction | 2025-11-18 10:24:10,196 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_spuele_kueche", "payload": {"power": "on"}, "ts": "2025-11-18T10:24:10.196762+00:00"}
abstraction | 2025-11-18 10:24:17,815 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:24:17,815 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:24:17,815 - __main__ - INFO - ← abstract STATE licht_schrank_esszimmer: home/relay/licht_schrank_esszimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:24:17,834 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_schrank_esszimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:24:17.834042+00:00"}
abstraction | 2025-11-18 10:24:32,370 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:24:32,370 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:24:32,370 - __main__ - INFO - ← abstract STATE licht_terasse: home/relay/licht_terasse/state → {"power": "off"}
abstraction | 2025-11-18 10:24:32,405 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_terasse", "payload": {"power": "off"}, "ts": "2025-11-18T10:24:32.405754+00:00"}
ui | INFO: 127.0.0.1:39276 - "GET /health HTTP/1.1" 200 OK
abstraction | 2025-11-18 10:24:37,447 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:24:37,447 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:24:37,447 - __main__ - INFO - ← abstract STATE licht_regal_wohnzimmer: home/relay/licht_regal_wohnzimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:24:37,465 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_regal_wohnzimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:24:37.465220+00:00"}
abstraction | 2025-11-18 10:24:40,188 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=on
abstraction | 2025-11-18 10:24:40,189 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'on'}
abstraction | 2025-11-18 10:24:40,189 - __main__ - INFO - ← abstract STATE licht_spuele_kueche: home/relay/licht_spuele_kueche/state → {"power": "on"}
abstraction | 2025-11-18 10:24:40,207 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_spuele_kueche", "payload": {"power": "on"}, "ts": "2025-11-18T10:24:40.207222+00:00"}
abstraction | 2025-11-18 10:24:47,833 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:24:47,833 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:24:47,833 - __main__ - INFO - ← abstract STATE licht_schrank_esszimmer: home/relay/licht_schrank_esszimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:24:47,868 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_schrank_esszimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:24:47.868787+00:00"}
abstraction | 2025-11-18 10:25:02,363 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:25:02,363 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:25:02,363 - __main__ - INFO - ← abstract STATE licht_terasse: home/relay/licht_terasse/state → {"power": "off"}
abstraction | 2025-11-18 10:25:02,381 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_terasse", "payload": {"power": "off"}, "ts": "2025-11-18T10:25:02.381792+00:00"}
ui | INFO: 127.0.0.1:37108 - "GET /health HTTP/1.1" 200 OK
abstraction | 2025-11-18 10:25:07,447 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:25:07,448 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:25:07,448 - __main__ - INFO - ← abstract STATE licht_regal_wohnzimmer: home/relay/licht_regal_wohnzimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:25:07,465 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_regal_wohnzimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:25:07.465566+00:00"}
abstraction | 2025-11-18 10:25:10,185 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=on
abstraction | 2025-11-18 10:25:10,185 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'on'}
abstraction | 2025-11-18 10:25:10,185 - __main__ - INFO - ← abstract STATE licht_spuele_kueche: home/relay/licht_spuele_kueche/state → {"power": "on"}
abstraction | 2025-11-18 10:25:10,202 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_spuele_kueche", "payload": {"power": "on"}, "ts": "2025-11-18T10:25:10.202372+00:00"}
abstraction | 2025-11-18 10:25:17,820 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:25:17,820 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:25:17,820 - __main__ - INFO - ← abstract STATE licht_schrank_esszimmer: home/relay/licht_schrank_esszimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:25:17,838 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_schrank_esszimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:25:17.838140+00:00"}
api | INFO: 172.16.3.98:51763 - "GET /docs HTTP/1.1" 200 OK
api | /usr/local/lib/python3.14/site-packages/fastapi/openapi/utils.py:207: UserWarning: Duplicate Operation ID get_device_layout_devices__device_id__layout_get for function get_device_layout at /app/apps/api/main.py
api | warnings.warn(message, stacklevel=1)
api | /usr/local/lib/python3.14/site-packages/fastapi/openapi/utils.py:207: UserWarning: Duplicate Operation ID get_device_state_devices__device_id__state_get for function get_device_state at /app/apps/api/main.py
api | warnings.warn(message, stacklevel=1)
api | INFO: 172.16.3.98:51763 - "GET /openapi.json HTTP/1.1" 200 OK
api | INFO: 172.16.3.98:51763 - "GET /devices/states HTTP/1.1" 200 OK
abstraction | 2025-11-18 10:25:32,361 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:25:32,361 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:25:32,361 - __main__ - INFO - ← abstract STATE licht_terasse: home/relay/licht_terasse/state → {"power": "off"}
abstraction | 2025-11-18 10:25:32,379 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_terasse", "payload": {"power": "off"}, "ts": "2025-11-18T10:25:32.379286+00:00"}
ui | INFO: 127.0.0.1:41510 - "GET /health HTTP/1.1" 200 OK
abstraction | 2025-11-18 10:25:37,455 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:25:37,455 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:25:37,455 - __main__ - INFO - ← abstract STATE licht_regal_wohnzimmer: home/relay/licht_regal_wohnzimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:25:37,473 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_regal_wohnzimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:25:37.473171+00:00"}
abstraction | 2025-11-18 10:25:40,193 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=on
abstraction | 2025-11-18 10:25:40,194 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'on'}
abstraction | 2025-11-18 10:25:40,194 - __main__ - INFO - ← abstract STATE licht_spuele_kueche: home/relay/licht_spuele_kueche/state → {"power": "on"}
abstraction | 2025-11-18 10:25:40,211 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_spuele_kueche", "payload": {"power": "on"}, "ts": "2025-11-18T10:25:40.211493+00:00"}
abstraction | 2025-11-18 10:25:47,821 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract IN: type=relay, tech=shelly, payload=off
abstraction | 2025-11-18 10:25:47,821 - apps.abstraction.transformation - DEBUG - transform_vendor_to_abstract OUT: type=relay, tech=shelly, payload={'power': 'off'}
abstraction | 2025-11-18 10:25:47,821 - __main__ - INFO - ← abstract STATE licht_schrank_esszimmer: home/relay/licht_schrank_esszimmer/state → {"power": "off"}
abstraction | 2025-11-18 10:25:47,838 - __main__ - INFO - ← Redis PUBLISH ui:updates → {"type": "state", "device_id": "licht_schrank_esszimmer", "payload": {"power": "off"}, "ts": "2025-11-18T10:25:47.838508+00:00"}

60
docker-compose.yaml Normal file
View File

@@ -0,0 +1,60 @@
x-environment: &default-env
MQTT_BROKER: "172.23.1.102"
MQTT_PORT: 1883
REDIS_HOST: "172.23.1.116"
REDIS_PORT: 6379
REDIS_DB: 8
services:
ui:
build:
context: .
dockerfile: apps/ui/Dockerfile
container_name: ui
environment:
UI_PORT: 8002
API_BASE: "http://172.19.1.11:8001"
BASE_PATH: "/"
ports:
- "8002:8002"
depends_on:
- api
api:
build:
context: .
dockerfile: apps/api/Dockerfile
container_name: api
environment:
<<: *default-env
REDIS_CHANNEL: "ui:updates"
volumes:
- ./config:/app/config:ro
ports:
- "8001:8001"
depends_on:
- abstraction
abstraction:
build:
context: .
dockerfile: apps/abstraction/Dockerfile
container_name: abstraction
environment:
<<: *default-env
volumes:
- ./config:/app/config:ro
rules:
build:
context: .
dockerfile: apps/rules/Dockerfile
container_name: rules
environment:
<<: *default-env
RULES_CONFIG: "/app/config/rules.yaml"
volumes:
- ./config:/app/config:ro
depends_on:
- abstraction

23
infra/README.md
View File

@@ -1,23 +0,0 @@
# Infrastructure
This directory contains infrastructure-related files for the home automation project.
## Files
- `docker-compose.yml`: Docker Compose configuration for running services
## Usage
```bash
# Start services
docker-compose up -d
# Stop services
docker-compose down
```
## TODO
- Add service definitions to docker-compose.yml
- Add deployment configurations
- Add monitoring and logging setup

15
infra/docker-compose.yml
View File

@@ -1,15 +0,0 @@
version: '3.8'
services:
# Placeholder for future services
# Example:
# api:
# build:
# context: ..
# dockerfile: apps/api/Dockerfile
# ports:
# - "8000:8000"
placeholder:
image: alpine:latest
command: echo "Docker Compose placeholder - add your services here"

59
packages/home_capabilities/__init__.py
View File

@@ -1,6 +1,59 @@
"""Home capabilities package."""
from packages.home_capabilities.light import CAP_VERSION, LightState
from packages.home_capabilities.layout import DeviceTile, Room, UiLayout, load_layout
from packages.home_capabilities.light import CAP_VERSION as LIGHT_VERSION
from packages.home_capabilities.light import LightState
from packages.home_capabilities.thermostat import CAP_VERSION as THERMOSTAT_VERSION
from packages.home_capabilities.thermostat import ThermostatState
from packages.home_capabilities.contact_sensor import CAP_VERSION as CONTACT_SENSOR_VERSION
from packages.home_capabilities.contact_sensor import ContactState
from packages.home_capabilities.temp_humidity_sensor import CAP_VERSION as TEMP_HUMIDITY_SENSOR_VERSION
from packages.home_capabilities.temp_humidity_sensor import TempHumidityState
from packages.home_capabilities.relay import CAP_VERSION as RELAY_VERSION
from packages.home_capabilities.relay import RelayState
from packages.home_capabilities.layout import (
DeviceTile,
Room,
UiLayout,
load_layout,
)
from packages.home_capabilities.groups_scenes import (
GroupConfig,
GroupsConfigRoot,
GroupSelector,
SceneConfig,
ScenesConfigRoot,
SceneSelector,
SceneStep,
get_group_by_id,
get_scene_by_id,
load_groups,
load_scenes,
)
__all__ = ["LightState", "CAP_VERSION", "DeviceTile", "Room", "UiLayout", "load_layout"]
__all__ = [
"LightState",
"LIGHT_VERSION",
"ThermostatState",
"THERMOSTAT_VERSION",
"ContactState",
"CONTACT_SENSOR_VERSION",
"TempHumidityState",
"TEMP_HUMIDITY_SENSOR_VERSION",
"RelayState",
"RELAY_VERSION",
"DeviceTile",
"Room",
"UiLayout",
"load_layout",
"GroupConfig",
"GroupsConfigRoot",
"GroupSelector",
"SceneConfig",
"ScenesConfigRoot",
"SceneSelector",
"SceneStep",
"get_group_by_id",
"get_scene_by_id",
"load_groups",
"load_scenes",
]

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"""Contact Sensor Capability - Fensterkontakt (read-only).
This module defines the ContactState model for door/window contact sensors.
These sensors report their open/closed state and are read-only devices.
Capability Version: contact_sensor@1.0.0
"""
from datetime import datetime
from typing import Annotated, Literal
from pydantic import BaseModel, Field, field_validator
# Capability metadata
CAP_VERSION = "contact_sensor@1.0.0"
DISPLAY_NAME = "Contact Sensor"
class ContactState(BaseModel):
"""State model for contact sensors (door/window sensors).
Contact sensors are read-only devices that report whether a door or window
is open or closed. They typically also report battery level and signal quality.
Attributes:
contact: Current state of the contact ("open" or "closed")
battery: Battery level percentage (0-100), optional
linkquality: MQTT link quality indicator, optional
device_temperature: Internal device temperature in °C, optional
voltage: Battery voltage in mV, optional
ts: Timestamp of the state reading, optional
Examples:
>>> ContactState(contact="open")
ContactState(contact='open', battery=None, ...)
>>> ContactState(contact="closed", battery=95, linkquality=87)
ContactState(contact='closed', battery=95, linkquality=87, ...)
"""
contact: Literal["open", "closed"] = Field(
...,
description="Contact state: 'open' for open door/window, 'closed' for closed"
)
battery: Annotated[int, Field(ge=0, le=100)] | None = Field(
None,
description="Battery level in percent (0-100)"
)
linkquality: int | None = Field(
None,
description="Link quality indicator (typically 0-255)"
)
device_temperature: float | None = Field(
None,
description="Internal device temperature in degrees Celsius"
)
voltage: int | None = Field(
None,
description="Battery voltage in millivolts"
)
ts: datetime | None = Field(
None,
description="Timestamp of the state reading"
)
@staticmethod
def normalize_bool(is_open: bool) -> "ContactState":
"""Convert boolean to ContactState.
Helper method to convert a boolean value to a ContactState instance.
Useful when integrating with systems that use True/False for contact state.
Args:
is_open: True if contact is open, False if closed
Returns:
ContactState instance with appropriate contact value
Examples:
>>> ContactState.normalize_bool(True)
ContactState(contact='open', ...)
>>> ContactState.normalize_bool(False)
ContactState(contact='closed', ...)
"""
return ContactState(contact="open" if is_open else "closed")
# Public API
__all__ = ["ContactState", "CAP_VERSION", "DISPLAY_NAME"]

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"""
Configuration models and loaders for groups and scenes.
This module provides Pydantic models for validating groups.yaml and scenes.yaml,
along with loader functions that parse YAML files into typed configuration objects.
"""
from pathlib import Path
from typing import Any
import yaml
from pydantic import BaseModel, Field, field_validator, model_validator
# ============================================================================
# GROUP MODELS
# ============================================================================
class GroupSelector(BaseModel):
"""Selector for automatically adding devices to a group."""
type: str = Field(..., description="Device type (e.g., 'light', 'thermostat')")
room: str | None = Field(None, description="Filter by room name")
tags: list[str] | None = Field(None, description="Filter by device tags")
class GroupConfig(BaseModel):
"""Configuration for a device group."""
id: str = Field(..., description="Unique group identifier")
name: str = Field(..., description="Human-readable group name")
selector: GroupSelector | None = Field(None, description="Auto-select devices by criteria")
device_ids: list[str] = Field(default_factory=list, description="Explicit device IDs")
capabilities: dict[str, bool] = Field(
default_factory=dict,
description="Supported capabilities (e.g., {'brightness': True})"
)
class GroupsConfigRoot(BaseModel):
"""Root configuration for groups.yaml."""
version: int = Field(..., description="Configuration schema version")
groups: list[GroupConfig] = Field(default_factory=list, description="List of groups")
@field_validator('groups')
@classmethod
def validate_unique_ids(cls, groups: list[GroupConfig]) -> list[GroupConfig]:
"""Ensure all group IDs are unique."""
ids = [g.id for g in groups]
duplicates = [id for id in ids if ids.count(id) > 1]
if duplicates:
raise ValueError(f"Duplicate group IDs found: {set(duplicates)}")
return groups
# ============================================================================
# SCENE MODELS
# ============================================================================
class SceneSelector(BaseModel):
"""Selector for targeting devices in a scene step."""
type: str | None = Field(None, description="Device type (e.g., 'light', 'outlet')")
room: str | None = Field(None, description="Filter by room name")
tags: list[str] | None = Field(None, description="Filter by device tags")
class SceneStep(BaseModel):
"""A single step in a scene execution."""
selector: SceneSelector | None = Field(None, description="Select devices by criteria")
group_id: str | None = Field(None, description="Target a specific group")
action: dict[str, Any] = Field(..., description="Action to execute (type + payload)")
delay_ms: int | None = Field(None, description="Delay before next step (milliseconds)")
@model_validator(mode='after')
def validate_selector_or_group(self) -> 'SceneStep':
"""Ensure either selector OR group_id is specified, but not both."""
has_selector = self.selector is not None
has_group = self.group_id is not None
if not has_selector and not has_group:
raise ValueError("SceneStep must have either 'selector' or 'group_id'")
if has_selector and has_group:
raise ValueError("SceneStep cannot have both 'selector' and 'group_id'")
return self
class SceneConfig(BaseModel):
"""Configuration for a scene."""
id: str = Field(..., description="Unique scene identifier")
name: str = Field(..., description="Human-readable scene name")
steps: list[SceneStep] = Field(..., description="Ordered list of actions")
class ScenesConfigRoot(BaseModel):
"""Root configuration for scenes.yaml."""
version: int = Field(..., description="Configuration schema version")
scenes: list[SceneConfig] = Field(default_factory=list, description="List of scenes")
@field_validator('scenes')
@classmethod
def validate_unique_ids(cls, scenes: list[SceneConfig]) -> list[SceneConfig]:
"""Ensure all scene IDs are unique."""
ids = [s.id for s in scenes]
duplicates = [id for id in ids if ids.count(id) > 1]
if duplicates:
raise ValueError(f"Duplicate scene IDs found: {set(duplicates)}")
return scenes
# ============================================================================
# LOADER FUNCTIONS
# ============================================================================
def load_groups(path: Path | str) -> GroupsConfigRoot:
"""
Load and validate groups configuration from YAML file.
Args:
path: Path to groups.yaml file
Returns:
Validated GroupsConfigRoot object
Raises:
FileNotFoundError: If config file doesn't exist
ValidationError: If configuration is invalid
ValueError: If duplicate group IDs are found or YAML is empty
"""
path = Path(path)
if not path.exists():
raise FileNotFoundError(f"Groups config file not found: {path}")
with open(path, 'r', encoding='utf-8') as f:
data = yaml.safe_load(f)
if data is None:
raise ValueError(f"Groups config file is empty: {path}")
return GroupsConfigRoot.model_validate(data)
def load_scenes(path: Path | str) -> ScenesConfigRoot:
"""
Load and validate scenes configuration from YAML file.
Args:
path: Path to scenes.yaml file
Returns:
Validated ScenesConfigRoot object
Raises:
FileNotFoundError: If config file doesn't exist
ValidationError: If configuration is invalid
ValueError: If duplicate scene IDs, invalid steps, or empty YAML are found
"""
path = Path(path)
if not path.exists():
raise FileNotFoundError(f"Scenes config file not found: {path}")
with open(path, 'r', encoding='utf-8') as f:
data = yaml.safe_load(f)
if data is None:
raise ValueError(f"Scenes config file is empty: {path}")
return ScenesConfigRoot.model_validate(data)
# ============================================================================
# CONVENIENCE FUNCTIONS
# ============================================================================
def get_group_by_id(config: GroupsConfigRoot, group_id: str) -> GroupConfig | None:
"""Find a group by its ID."""
for group in config.groups:
if group.id == group_id:
return group
return None
def get_scene_by_id(config: ScenesConfigRoot, scene_id: str) -> SceneConfig | None:
"""Find a scene by its ID."""
for scene in config.scenes:
if scene.id == scene_id:
return scene
return None
# ============================================================================
# EXAMPLE USAGE
# ============================================================================
if __name__ == "__main__":
from pathlib import Path
# Example: Load groups configuration
try:
groups_path = Path(__file__).parent.parent / "config" / "groups.yaml"
groups = load_groups(groups_path)
print(f"✓ Loaded {len(groups.groups)} groups (version {groups.version})")
for group in groups.groups:
print(f" - {group.id}: {group.name}")
if group.selector:
print(f" Selector: type={group.selector.type}, room={group.selector.room}")
if group.device_ids:
print(f" Devices: {', '.join(group.device_ids)}")
except Exception as e:
print(f"✗ Error loading groups: {e}")
print()
# Example: Load scenes configuration
try:
scenes_path = Path(__file__).parent.parent / "config" / "scenes.yaml"
scenes = load_scenes(scenes_path)
print(f"✓ Loaded {len(scenes.scenes)} scenes (version {scenes.version})")
for scene in scenes.scenes:
print(f" - {scene.id}: {scene.name} ({len(scene.steps)} steps)")
for i, step in enumerate(scene.steps, 1):
if step.selector:
print(f" Step {i}: selector type={step.selector.type}")
elif step.group_id:
print(f" Step {i}: group_id={step.group_id}")
print(f" Action: {step.action}")
except Exception as e:
print(f"✗ Error loading scenes: {e}")

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"""
Relay capability model.
A relay is essentially a simple on/off switch, like a light with only power control.
"""
from pydantic import BaseModel, Field
from typing import Literal
# Capability version
CAP_VERSION = "relay@1.0.0"
DISPLAY_NAME = "Relay"
class RelayState(BaseModel):
"""State model for relay devices (on/off only)"""
power: Literal["on", "off"] = Field(..., description="Power state: on or off")
class RelaySetPayload(BaseModel):
"""Payload for setting relay state"""
power: Literal["on", "off"] = Field(..., description="Desired power state: on or off")

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"""
Temperature & Humidity Sensor Capability - temp_humidity_sensor@1.0.0
Read-only sensor for temperature and humidity measurements.
"""
from datetime import datetime
from typing import Annotated
from pydantic import BaseModel, Field
class TempHumidityState(BaseModel):
"""
State model for temperature & humidity sensors.
Required fields:
- temperature: Temperature in degrees Celsius
- humidity: Relative humidity in percent
Optional fields:
- battery: Battery level 0-100%
- linkquality: Signal quality indicator
- voltage: Battery voltage in mV
- ts: Timestamp of measurement
"""
temperature: float = Field(..., description="Temperature in degrees Celsius")
humidity: float = Field(..., description="Relative humidity in percent (0-100)")
battery: Annotated[int, Field(ge=0, le=100)] | None = None
linkquality: int | None = None
voltage: int | None = None
ts: datetime | None = None
# Capability metadata
CAP_VERSION = "temp_humidity_sensor@1.0.0"
DISPLAY_NAME = "Temperature & Humidity Sensor"

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"""
Thermostat Capability Model
Pydantic v2 model for thermostat device state and commands.
"""
from decimal import Decimal
from typing import Literal
from pydantic import BaseModel, Field
CAP_VERSION = "thermostat@2.0.0"
class ThermostatState(BaseModel):
"""
Thermostat state model with validation.
Attributes:
mode: Operating mode (off, heat, auto) - optional for SET commands
target: Target temperature in °C [5.0..30.0]
current: Current temperature in °C (optional in SET, required in STATE)
battery: Battery level 0-100% (optional)
window_open: Window open detection (optional)
"""
mode: Literal["off", "heat", "auto"] | None = Field(
None,
description="Operating mode of the thermostat (optional for SET commands)"
)
target: float | Decimal = Field(
...,
ge=5.0,
le=30.0,
description="Target temperature in degrees Celsius"
)
current: float | Decimal | None = Field(
None,
ge=0.0,
description="Current measured temperature in degrees Celsius"
)
battery: int | None = Field(
None,
ge=0,
le=100,
description="Battery level percentage"
)
window_open: bool | None = Field(
None,
description="Window open detection status"
)
model_config = {
"json_schema_extra": {
"examples": [
{
"mode": "heat",
"target": 21.0,
"current": 20.2,
"battery": 85,
"window_open": False
},
{
"mode": "auto",
"target": 22.5
},
{
"mode": "off",
"target": 5.0,
"current": 18.0
}
]
}
}

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# Device Simulator
Unified MQTT device simulator für das Home Automation System.
## Übersicht
Dieser Simulator ersetzt die einzelnen Simulatoren (`sim_test_lampe.py`, `sim_thermo.py`) und vereint alle Device-Typen in einer einzigen Anwendung.
## Unterstützte Geräte
### Lampen (3 Geräte)
- `test_lampe_1` - Mit Power und Brightness
- `test_lampe_2` - Mit Power und Brightness
- `test_lampe_3` - Mit Power und Brightness
**Features:**
- `power`: "on" oder "off"
- `brightness`: 0-100
### Thermostaten (1 Gerät)
- `test_thermo_1` - Vollständiger Thermostat mit Temperatur-Simulation
**Features:**
- `mode`: "off", "heat", oder "auto"
- `target`: Soll-Temperatur (5.0-30.0°C)
- `current`: Ist-Temperatur (wird simuliert)
- `battery`: Batteriestand (90%)
- `window_open`: Fensterstatus (false)
**Temperatur-Simulation:**
- Alle 5 Sekunden wird die Ist-Temperatur angepasst
- **HEAT/AUTO Mode**: Drift zu `target` (+0.2°C pro Intervall)
- **OFF Mode**: Drift zu Ambient-Temperatur 18°C (-0.2°C pro Intervall)
## MQTT-Konfiguration
- **Broker**: 172.16.2.16:1883 (konfigurierbar via ENV)
- **QoS**: 1 für alle Publishes
- **Retained**: Ja für alle State-Messages
- **Client ID**: device_simulator
### Topics
Für jedes Gerät:
- Subscribe: `vendor/{device_id}/set` (QoS 1)
- Publish: `vendor/{device_id}/state` (QoS 1, retained)
## Verwendung
### Starten
```bash
poetry run python tools/device_simulator.py
```
Oder im Hintergrund:
```bash
poetry run python tools/device_simulator.py > /tmp/simulator.log 2>&1 &
```
### Umgebungsvariablen
```bash
export MQTT_BROKER="172.16.2.16" # MQTT Broker Host
export MQTT_PORT="1883" # MQTT Broker Port
```
## Testen
Ein umfassendes Test-Skript ist verfügbar:
```bash
./tools/test_device_simulator.sh
```
Das Test-Skript:
1. Stoppt alle laufenden Services
2. Startet Abstraction Layer, API und Simulator
3. Testet alle Lampen-Operationen
4. Testet alle Thermostat-Operationen
5. Verifiziert MQTT State Messages
6. Zeigt Simulator-Logs
## Beispiele
### Lampe einschalten
```bash
curl -X POST http://localhost:8001/devices/test_lampe_1/set \
-H "Content-Type: application/json" \
-d '{"type":"light","payload":{"power":"on"}}'
```
### Helligkeit setzen
```bash
curl -X POST http://localhost:8001/devices/test_lampe_1/set \
-H "Content-Type: application/json" \
-d '{"type":"light","payload":{"brightness":75}}'
```
### Thermostat Mode setzen
```bash
curl -X POST http://localhost:8001/devices/test_thermo_1/set \
-H "Content-Type: application/json" \
-d '{"type":"thermostat","payload":{"mode":"heat","target":22.5}}'
```
### State abfragen via MQTT
```bash
# Lampe
mosquitto_sub -h 172.16.2.16 -t 'vendor/test_lampe_1/state' -C 1
# Thermostat
mosquitto_sub -h 172.16.2.16 -t 'vendor/test_thermo_1/state' -C 1
```
## Architektur
```
Browser/API
↓ POST /devices/{id}/set
API Server (Port 8001)
↓ MQTT: home/{type}/{id}/set
Abstraction Layer
↓ MQTT: vendor/{id}/set
Device Simulator
↓ MQTT: vendor/{id}/state (retained)
Abstraction Layer
↓ MQTT: home/{type}/{id}/state (retained)
↓ Redis Pub/Sub: ui:updates
UI / Dashboard
```
## Logs
Der Simulator loggt alle Aktivitäten:
- Startup und MQTT-Verbindung
- Empfangene SET-Commands
- State-Änderungen
- Temperature-Drift (Thermostaten)
- Publizierte State-Messages
Log-Level: INFO
## Troubleshooting
### Simulator startet nicht
```bash
# Prüfe ob Port bereits belegt
lsof -ti:1883
# Prüfe MQTT Broker
mosquitto_sub -h 172.16.2.16 -t '#' -C 1
```
### Keine State-Updates
```bash
# Prüfe Simulator-Log
tail -f /tmp/simulator.log
# Prüfe MQTT Topics
mosquitto_sub -h 172.16.2.16 -t 'vendor/#' -v
```
### API antwortet nicht
```bash
# Prüfe ob API läuft
curl http://localhost:8001/devices
# Prüfe API-Log
tail -f /tmp/api.log
```
## Integration
Der Simulator integriert sich nahtlos in das Home Automation System:
1. **Abstraction Layer** empfängt Commands und sendet sie an Simulator
2. **Simulator** reagiert und publiziert neuen State
3. **Abstraction Layer** empfängt State und publiziert zu Redis
4. **UI** empfängt Updates via SSE und aktualisiert Dashboard
Alle Komponenten arbeiten vollständig asynchron über MQTT.

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#!/usr/bin/env python3
"""
Unified Device Simulator for Home Automation.
Simulates multiple device types:
- Lights (test_lampe_1, test_lampe_2, test_lampe_3)
- Thermostats (test_thermo_1)
Each device:
- Subscribes to vendor/{device_id}/set
- Maintains local state
- Publishes state changes to vendor/{device_id}/state (retained, QoS 1)
- Thermostats simulate temperature drift every 5 seconds
"""
import asyncio
import json
import logging
import os
import signal
import sys
import uuid
from datetime import datetime
from typing import Dict, Any
from aiomqtt import Client, MqttError
# Configure logging
logging.basicConfig(
level=logging.INFO,
format="%(asctime)s - %(name)s - %(levelname)s - %(message)s"
)
logger = logging.getLogger(__name__)
# Configuration
BROKER_HOST = os.getenv("MQTT_BROKER", "172.16.2.16")
BROKER_PORT = int(os.getenv("MQTT_PORT", "1883"))
DRIFT_INTERVAL = 5 # seconds for thermostat temperature drift
# Device configurations
LIGHT_DEVICES = ["test_lampe_1", "test_lampe_2", "test_lampe_3"]
THERMOSTAT_DEVICES = ["test_thermo_1"]
class DeviceSimulator:
"""Unified simulator for lights and thermostats."""
def __init__(self):
# Light states
self.light_states: Dict[str, Dict[str, Any]] = {
"test_lampe_1": {"power": "off", "brightness": 50},
"test_lampe_2": {"power": "off", "brightness": 50},
"test_lampe_3": {"power": "off", "brightness": 50}
}
# Thermostat states
self.thermostat_states: Dict[str, Dict[str, Any]] = {
"test_thermo_1": {
"mode": "auto",
"target": 21.0,
"current": 20.5,
"battery": 90,
"window_open": False
}
}
self.client = None
self.running = True
self.drift_task = None
async def publish_state(self, device_id: str, device_type: str):
"""Publish device state to MQTT (retained, QoS 1)."""
if not self.client:
return
if device_type == "light":
state = self.light_states.get(device_id)
elif device_type == "thermostat":
state = self.thermostat_states.get(device_id)
else:
logger.warning(f"Unknown device type: {device_type}")
return
if not state:
logger.warning(f"Unknown device: {device_id}")
return
state_topic = f"vendor/{device_id}/state"
payload = json.dumps(state)
await self.client.publish(
state_topic,
payload=payload,
qos=1,
retain=True
)
logger.info(f"[{device_id}] Published state: {payload}")
async def handle_light_set(self, device_id: str, payload: dict):
"""Handle SET command for light device."""
if device_id not in self.light_states:
logger.warning(f"Unknown light device: {device_id}")
return
state = self.light_states[device_id]
updated = False
if "power" in payload:
old_power = state["power"]
state["power"] = payload["power"]
if old_power != state["power"]:
updated = True
logger.info(f"[{device_id}] Power: {old_power} -> {state['power']}")
if "brightness" in payload:
old_brightness = state["brightness"]
state["brightness"] = int(payload["brightness"])
if old_brightness != state["brightness"]:
updated = True
logger.info(f"[{device_id}] Brightness: {old_brightness} -> {state['brightness']}")
if updated:
await self.publish_state(device_id, "light")
async def handle_thermostat_set(self, device_id: str, payload: dict):
"""Handle SET command for thermostat device."""
if device_id not in self.thermostat_states:
logger.warning(f"Unknown thermostat device: {device_id}")
return
state = self.thermostat_states[device_id]
updated = False
if "mode" in payload:
new_mode = payload["mode"]
if new_mode in ["off", "heat", "auto"]:
old_mode = state["mode"]
state["mode"] = new_mode
if old_mode != new_mode:
updated = True
logger.info(f"[{device_id}] Mode: {old_mode} -> {new_mode}")
else:
logger.warning(f"[{device_id}] Invalid mode: {new_mode}")
if "target" in payload:
try:
new_target = float(payload["target"])
if 5.0 <= new_target <= 30.0:
old_target = state["target"]
state["target"] = new_target
if old_target != new_target:
updated = True
logger.info(f"[{device_id}] Target: {old_target}°C -> {new_target}°C")
else:
logger.warning(f"[{device_id}] Target out of range: {new_target}")
except (ValueError, TypeError):
logger.warning(f"[{device_id}] Invalid target value: {payload['target']}")
if updated:
await self.publish_state(device_id, "thermostat")
def apply_temperature_drift(self, device_id: str):
"""
Simulate temperature drift for thermostat.
Max change: ±0.2°C per interval.
"""
if device_id not in self.thermostat_states:
return
state = self.thermostat_states[device_id]
if state["mode"] == "off":
# Drift towards ambient (18°C)
ambient = 18.0
diff = ambient - state["current"]
else:
# Drift towards target
diff = state["target"] - state["current"]
# Apply max ±0.2°C drift
if abs(diff) < 0.1:
state["current"] = round(state["current"] + diff, 1)
elif diff > 0:
state["current"] = round(state["current"] + 0.2, 1)
else:
state["current"] = round(state["current"] - 0.2, 1)
logger.info(f"[{device_id}] Temperature drift: current={state['current']}°C (target={state['target']}°C, mode={state['mode']})")
async def thermostat_drift_loop(self):
"""Background loop for thermostat temperature drift."""
while self.running:
await asyncio.sleep(DRIFT_INTERVAL)
for device_id in THERMOSTAT_DEVICES:
self.apply_temperature_drift(device_id)
await self.publish_state(device_id, "thermostat")
async def handle_message(self, message):
"""Handle incoming MQTT message."""
try:
# Extract device_id from topic (vendor/{device_id}/set)
topic_parts = message.topic.value.split('/')
if len(topic_parts) != 3 or topic_parts[0] != "vendor" or topic_parts[2] != "set":
logger.warning(f"Unexpected topic format: {message.topic}")
return
device_id = topic_parts[1]
payload = json.loads(message.payload.decode())
logger.info(f"[{device_id}] Received SET: {payload}")
# Determine device type and handle accordingly
if device_id in self.light_states:
await self.handle_light_set(device_id, payload)
elif device_id in self.thermostat_states:
await self.handle_thermostat_set(device_id, payload)
else:
logger.warning(f"Unknown device: {device_id}")
except json.JSONDecodeError as e:
logger.error(f"Invalid JSON: {e}")
except Exception as e:
logger.error(f"Error handling message: {e}")
async def run(self):
"""Main simulator loop."""
# Generate unique client ID to avoid collisions
base_client_id = "device_simulator"
client_suffix = os.environ.get("MQTT_CLIENT_ID_SUFFIX") or uuid.uuid4().hex[:6]
unique_client_id = f"{base_client_id}-{client_suffix}"
try:
async with Client(
hostname=BROKER_HOST,
port=BROKER_PORT,
identifier=unique_client_id
) as client:
self.client = client
logger.info(f"✅ Connected to MQTT broker {BROKER_HOST}:{BROKER_PORT}")
# Publish initial states
for device_id in LIGHT_DEVICES:
await self.publish_state(device_id, "light")
logger.info(f"💡 Light simulator started: {device_id}")
for device_id in THERMOSTAT_DEVICES:
await self.publish_state(device_id, "thermostat")
logger.info(f"🌡️ Thermostat simulator started: {device_id}")
# Subscribe to all SET topics
all_devices = LIGHT_DEVICES + THERMOSTAT_DEVICES
for device_id in all_devices:
set_topic = f"vendor/{device_id}/set"
await client.subscribe(set_topic, qos=1)
logger.info(f"👂 Subscribed to {set_topic}")
# Start thermostat drift loop
self.drift_task = asyncio.create_task(self.thermostat_drift_loop())
# Listen for messages
async for message in client.messages:
await self.handle_message(message)
# Cancel drift loop on disconnect
if self.drift_task:
self.drift_task.cancel()
except MqttError as e:
logger.error(f"❌ MQTT Error: {e}")
except KeyboardInterrupt:
logger.info("⚠️ Interrupted by user")
finally:
self.running = False
if self.drift_task:
self.drift_task.cancel()
logger.info("👋 Simulator stopped")
async def main():
"""Entry point."""
simulator = DeviceSimulator()
await simulator.run()
if __name__ == "__main__":
try:
asyncio.run(main())
except KeyboardInterrupt:
print("\n👋 Simulator terminated")
sys.exit(0)

215
tools/sim_test_lampe.py
View File

@@ -1,215 +0,0 @@
#!/usr/bin/env python3
"""MQTT Simulator for multiple test_lampe devices.
This simulator acts as virtual light devices that:
- Subscribe to vendor/test_lampe_*/set
- Maintain local state for each device
- Publish state changes to vendor/test_lampe_*/state (retained)
"""
import json
import logging
import os
import signal
import sys
import time
import paho.mqtt.client as mqtt
# Configure logging
logging.basicConfig(
level=logging.INFO,
format="%(asctime)s - %(name)s - %(levelname)s - %(message)s"
)
logger = logging.getLogger(__name__)
# Configuration
BROKER_HOST = os.environ.get("MQTT_HOST", "172.16.2.16")
BROKER_PORT = int(os.environ.get("MQTT_PORT", "1883"))
# Devices to simulate
DEVICES = ["test_lampe_1", "test_lampe_2", "test_lampe_3"]
# Device states (one per device)
device_states = {
"test_lampe_1": {
"power": "off",
"brightness": 50
},
"test_lampe_2": {
"power": "off",
"brightness": 50
},
"test_lampe_3": {
"power": "off",
"brightness": 50
}
}
# Global client for signal handler
client_global = None
def on_connect(client, userdata, flags, rc, properties=None):
"""Callback when connected to MQTT broker.
Args:
client: MQTT client instance
userdata: User data
flags: Connection flags
rc: Connection result code
properties: Connection properties (MQTT v5)
"""
if rc == 0:
logger.info(f"Connected to MQTT broker {BROKER_HOST}:{BROKER_PORT}")
# Subscribe to SET topics for all devices
for device_id in DEVICES:
set_topic = f"vendor/{device_id}/set"
client.subscribe(set_topic, qos=1)
logger.info(f"Subscribed to {set_topic}")
# Publish initial states (retained)
for device_id in DEVICES:
publish_state(client, device_id)
logger.info(f"Simulator started for {device_id}, initial state: {device_states[device_id]}")
else:
logger.error(f"Connection failed with code {rc}")
def on_message(client, userdata, msg):
"""Callback when message received on subscribed topic.
Args:
client: MQTT client instance
userdata: User data
msg: MQTT message
"""
# Extract device_id from topic (vendor/test_lampe_X/set)
topic_parts = msg.topic.split('/')
if len(topic_parts) != 3 or topic_parts[0] != "vendor" or topic_parts[2] != "set":
logger.warning(f"Unexpected topic format: {msg.topic}")
return
device_id = topic_parts[1]
if device_id not in device_states:
logger.warning(f"Unknown device: {device_id}")
return
try:
payload = json.loads(msg.payload.decode())
logger.info(f"[{device_id}] Received SET command: {payload}")
# Update device state
updated = False
device_state = device_states[device_id]
if "power" in payload:
old_power = device_state["power"]
device_state["power"] = payload["power"]
if old_power != device_state["power"]:
updated = True
logger.info(f"[{device_id}] Power changed: {old_power} -> {device_state['power']}")
if "brightness" in payload:
old_brightness = device_state["brightness"]
device_state["brightness"] = int(payload["brightness"])
if old_brightness != device_state["brightness"]:
updated = True
logger.info(f"[{device_id}] Brightness changed: {old_brightness} -> {device_state['brightness']}")
# Publish updated state if changed
if updated:
publish_state(client, device_id)
logger.info(f"[{device_id}] Published new state: {device_state}")
except json.JSONDecodeError as e:
logger.error(f"[{device_id}] Invalid JSON in message: {e}")
except Exception as e:
logger.error(f"[{device_id}] Error processing message: {e}")
def publish_state(client, device_id):
"""Publish current device state to STATE topic.
Args:
client: MQTT client instance
device_id: Device identifier
"""
device_state = device_states[device_id]
state_topic = f"vendor/{device_id}/state"
state_json = json.dumps(device_state)
result = client.publish(state_topic, state_json, qos=1, retain=True)
if result.rc == mqtt.MQTT_ERR_SUCCESS:
logger.debug(f"[{device_id}] Published state to {state_topic}: {state_json}")
else:
logger.error(f"[{device_id}] Failed to publish state: {result.rc}")
def signal_handler(sig, frame):
"""Handle shutdown signals gracefully.
Args:
sig: Signal number
frame: Current stack frame
"""
logger.info(f"Received signal {sig}, shutting down...")
if client_global:
# Publish offline state for all devices before disconnecting
for device_id in DEVICES:
offline_state = device_states[device_id].copy()
offline_state["power"] = "off"
state_topic = f"vendor/{device_id}/state"
client_global.publish(state_topic, json.dumps(offline_state), qos=1, retain=True)
logger.info(f"[{device_id}] Published offline state")
client_global.disconnect()
client_global.loop_stop()
sys.exit(0)
def main():
"""Main entry point for the simulator."""
global client_global
# Setup signal handlers
signal.signal(signal.SIGINT, signal_handler)
signal.signal(signal.SIGTERM, signal_handler)
# Create MQTT client
client = mqtt.Client(
client_id="simulator-test-lampes",
protocol=mqtt.MQTTv5,
callback_api_version=mqtt.CallbackAPIVersion.VERSION2
)
client_global = client
# Set callbacks
client.on_connect = on_connect
client.on_message = on_message
# Connect to broker
logger.info(f"Connecting to MQTT broker {BROKER_HOST}:{BROKER_PORT}...")
try:
client.connect(BROKER_HOST, BROKER_PORT, keepalive=60)
# Start network loop
client.loop_forever()
except KeyboardInterrupt:
logger.info("Interrupted by user")
except Exception as e:
logger.error(f"Error: {e}")
finally:
if client.is_connected():
client.disconnect()
client.loop_stop()
if __name__ == "__main__":
main()

154
tools/test_device_simulator.sh Executable file
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@@ -0,0 +1,154 @@
#!/bin/bash
# Test script for device_simulator.py
set -e # Exit on error
echo "=== Device Simulator Test Suite ==="
echo ""
# 1. Stop all running services
echo "1. Stoppe alle laufenden Services..."
pkill -f "device_simulator" 2>/dev/null || true
pkill -f "uvicorn apps" 2>/dev/null || true
pkill -f "apps.abstraction" 2>/dev/null || true
sleep 2
echo " ✓ Services gestoppt"
echo ""
# 2. Start services
echo "2. Starte Services..."
poetry run python -m apps.abstraction.main > /tmp/abstraction.log 2>&1 &
ABSTRACTION_PID=$!
echo " Abstraction Layer gestartet (PID: $ABSTRACTION_PID)"
sleep 2
poetry run uvicorn apps.api.main:app --host 0.0.0.0 --port 8001 > /tmp/api.log 2>&1 &
API_PID=$!
echo " API Server gestartet (PID: $API_PID)"
sleep 2
poetry run python tools/device_simulator.py > /tmp/simulator.log 2>&1 &
SIM_PID=$!
echo " Device Simulator gestartet (PID: $SIM_PID)"
sleep 2
echo " ✓ Alle Services laufen"
echo ""
# 3. Test API reachability
echo "3. Teste API Erreichbarkeit..."
if timeout 3 curl -s http://localhost:8001/devices > /dev/null; then
echo " ✓ API antwortet"
else
echo " ✗ API antwortet nicht!"
echo " API Log:"
tail -10 /tmp/api.log
exit 1
fi
echo ""
# 4. Test Light Operations
echo "4. Teste Lampen-Operationen..."
# 4.1 Power On
echo " 4.1 Lampe einschalten (test_lampe_1)..."
RESPONSE=$(timeout 3 curl -s -X POST http://localhost:8001/devices/test_lampe_1/set \
-H "Content-Type: application/json" \
-d '{"type":"light","payload":{"power":"on"}}')
echo " Response: $RESPONSE"
sleep 1
# 4.2 Check state via MQTT
echo " 4.2 Prüfe State via MQTT..."
STATE=$(timeout 2 mosquitto_sub -h 172.16.2.16 -t 'vendor/test_lampe_1/state' -C 1)
echo " State: $STATE"
if echo "$STATE" | grep -q '"power": "on"'; then
echo " ✓ Power ist ON"
else
echo " ✗ Power nicht ON!"
fi
# 4.3 Brightness
echo " 4.3 Helligkeit setzen (75%)..."
RESPONSE=$(timeout 3 curl -s -X POST http://localhost:8001/devices/test_lampe_1/set \
-H "Content-Type: application/json" \
-d '{"type":"light","payload":{"brightness":75}}')
echo " Response: $RESPONSE"
sleep 1
STATE=$(timeout 2 mosquitto_sub -h 172.16.2.16 -t 'vendor/test_lampe_1/state' -C 1)
echo " State: $STATE"
if echo "$STATE" | grep -q '"brightness": 75'; then
echo " ✓ Brightness ist 75"
else
echo " ✗ Brightness nicht 75!"
fi
echo ""
# 5. Test Thermostat Operations
echo "5. Teste Thermostat-Operationen..."
# 5.1 Set mode and target
echo " 5.1 Setze Mode HEAT und Target 22.5°C..."
RESPONSE=$(timeout 3 curl -s -X POST http://localhost:8001/devices/test_thermo_1/set \
-H "Content-Type: application/json" \
-d '{"type":"thermostat","payload":{"mode":"heat","target":22.5}}')
echo " Response: $RESPONSE"
sleep 1
STATE=$(timeout 2 mosquitto_sub -h 172.16.2.16 -t 'vendor/test_thermo_1/state' -C 1)
echo " State: $STATE"
if echo "$STATE" | grep -q '"mode": "heat"' && echo "$STATE" | grep -q '"target": 22.5'; then
echo " ✓ Mode ist HEAT, Target ist 22.5"
else
echo " ✗ Mode oder Target nicht korrekt!"
fi
# 5.2 Wait for temperature drift
echo " 5.2 Warte 6 Sekunden auf Temperature Drift..."
sleep 6
STATE=$(timeout 2 mosquitto_sub -h 172.16.2.16 -t 'vendor/test_thermo_1/state' -C 1)
echo " State: $STATE"
CURRENT=$(echo "$STATE" | grep -o '"current": [0-9.]*' | grep -o '[0-9.]*$')
echo " Current Temperature: ${CURRENT}°C"
if [ -n "$CURRENT" ]; then
echo " ✓ Temperature drift funktioniert"
else
echo " ✗ Temperature drift nicht sichtbar!"
fi
# 5.3 Set mode OFF
echo " 5.3 Setze Mode OFF..."
RESPONSE=$(timeout 3 curl -s -X POST http://localhost:8001/devices/test_thermo_1/set \
-H "Content-Type: application/json" \
-d '{"type":"thermostat","payload":{"mode":"off","target":22.5}}')
echo " Response: $RESPONSE"
sleep 1
STATE=$(timeout 2 mosquitto_sub -h 172.16.2.16 -t 'vendor/test_thermo_1/state' -C 1)
if echo "$STATE" | grep -q '"mode": "off"'; then
echo " ✓ Mode ist OFF"
else
echo " ✗ Mode nicht OFF!"
fi
echo ""
# 6. Check simulator log
echo "6. Simulator Log (letzte 20 Zeilen)..."
tail -20 /tmp/simulator.log
echo ""
# 7. Summary
echo "=== Test Summary ==="
echo "✓ Alle Tests abgeschlossen"
echo ""
echo "Laufende Prozesse:"
echo " Abstraction: PID $ABSTRACTION_PID"
echo " API: PID $API_PID"
echo " Simulator: PID $SIM_PID"
echo ""
echo "Logs verfügbar in:"
echo " /tmp/abstraction.log"
echo " /tmp/api.log"
echo " /tmp/simulator.log"