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mains-frequency-counter-stm32/cube/User/Src/counter.c

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#include <stdint.h>
#include <string.h>
#include <tim.h>
#include <counter.h>
#include <show.h>
#include <logger.h>
#include <PontCoopScheduler.h>
#include <wizHelper.h>
#include <config.h>
#include <socket.h>
#include <sinkStruct.h>
#include <sha256.h>
#include <eeprom.h>
const uint32_t COUNTER_FREQUENCY = 1.0e6;
// 100: 2 digits behind decimal point
// 1000: 3 digits behind decimal point
const uint32_t PRECISION = 1000;
volatile static uint32_t mainsCntSum = 0;
volatile static uint32_t mainsCntCnt = 0;
static t_seconds *seconds;
static t_deviceStats *deviceStats;
#define NUM_OF_MINUTE_BUFFERS 2
t_minuteBuffer minuteBuffers[NUM_OF_MINUTE_BUFFERS];
bool minuteBufferReady[NUM_OF_MINUTE_BUFFERS];
uint8_t activeMinuteBuffer;
static t_configBlock *config;
extern uint8_t SINK_SOCK;
const uint16_t SINK_PORT = 20169;
int8_t counterSendMinuteBuffer(t_minuteBuffer *minuteBuffer) {
uint8_t sinkAddr[4];
if (! wizDnsQuery(config->sinkServer, sinkAddr)) {
coloredMsg(LOG_BLUE, "csmb, failed to resolve sink server name");
return -1;
} else {
coloredMsg(LOG_BLUE, "csmb, sink server at %d.%d.%d.%d", sinkAddr[0], sinkAddr[1], sinkAddr[2], sinkAddr[3]);
}
socket(SINK_SOCK, Sn_MR_UDP, SINK_PORT, 0);
uint8_t sockState = getSn_SR(SINK_SOCK);
if (sockState == SOCK_UDP) {
sendto(SINK_SOCK, minuteBuffer->b, sizeof(minuteBuffer->b), sinkAddr, SINK_PORT);
coloredMsg(LOG_BLUE, "csmb, sent");
} else {
coloredMsg(LOG_BLUE, "csmb, socket in unexpected state: %d", sockState);
return -2;
}
close(SINK_SOCK);
return 1;
}
void counterMinuteTick(void *handle) {
for (uint8_t minuteBufferIdx = 0; minuteBufferIdx < NUM_OF_MINUTE_BUFFERS; minuteBufferIdx++) {
t_minuteBuffer *minuteBuffer = &(minuteBuffers[minuteBufferIdx]);
if (minuteBufferReady[minuteBufferIdx] == 1) {
coloredMsg(LOG_BLUE, "cmt, buffer %d is done, handle it", minuteBufferIdx);
minuteBuffer->s.totalRunningHours = deviceStats->totalRunningHours;
minuteBuffer->s.totalPowercycles = deviceStats->totalPowercycles;
minuteBuffer->s.totalWatchdogResets = deviceStats->totalWatchdogResets;
memset(minuteBuffer->s.deviceId, 0, sizeof(minuteBuffer->s.deviceId));
strcpy(minuteBuffer->s.deviceId, config->deviceId);
memcpy(minuteBuffer->s.hash, config->sharedSecret, SHA256_BLOCK_SIZE);
SHA256_CTX ctx;
sha256_init(&ctx);
sha256_update(&ctx, minuteBuffer->b, sizeof(minuteBuffer->b));
sha256_final(&ctx, minuteBuffer->s.hash);
coloredMsg(LOG_BLUE, "cmt, hash, 1. half is %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x",
minuteBuffer->s.hash[0],
minuteBuffer->s.hash[1],
minuteBuffer->s.hash[2],
minuteBuffer->s.hash[3],
minuteBuffer->s.hash[4],
minuteBuffer->s.hash[5],
minuteBuffer->s.hash[6],
minuteBuffer->s.hash[7],
minuteBuffer->s.hash[8],
minuteBuffer->s.hash[9],
minuteBuffer->s.hash[10],
minuteBuffer->s.hash[11],
minuteBuffer->s.hash[12],
minuteBuffer->s.hash[13],
minuteBuffer->s.hash[14],
minuteBuffer->s.hash[15]
);
coloredMsg(LOG_BLUE, "cmt, hash, 2. half is %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x",
minuteBuffer->s.hash[16],
minuteBuffer->s.hash[17],
minuteBuffer->s.hash[18],
minuteBuffer->s.hash[19],
minuteBuffer->s.hash[20],
minuteBuffer->s.hash[21],
minuteBuffer->s.hash[22],
minuteBuffer->s.hash[23],
minuteBuffer->s.hash[24],
minuteBuffer->s.hash[25],
minuteBuffer->s.hash[26],
minuteBuffer->s.hash[27],
minuteBuffer->s.hash[28],
minuteBuffer->s.hash[29],
minuteBuffer->s.hash[30],
minuteBuffer->s.hash[31]
);
int8_t res = counterSendMinuteBuffer(minuteBuffer);
if (res == 1) {
coloredMsg(LOG_BLUE, "cmt, successfully sent");
minuteBufferReady[minuteBufferIdx] = false;
} else {
coloredMsg(LOG_BLUE, "cmt, not successfully sent, try again");
schAdd(counterMinuteTick, NULL, 1000, 0);
}
}
}
}
void counterSecondTick(void *handle) {
static uint8_t bufferIdx = 0;
uint32_t tmpSum = 0;
uint32_t tmpCnt = 0;
HAL_NVIC_DisableIRQ(TIM1_CC_IRQn);
tmpSum = mainsCntSum;
mainsCntSum = 0;
tmpCnt = mainsCntCnt;
mainsCntCnt = 0;
HAL_NVIC_EnableIRQ(TIM1_CC_IRQn);
uint32_t cnt = tmpSum / tmpCnt;
uint32_t freq = PRECISION * COUNTER_FREQUENCY / cnt;
coloredMsg(LOG_GREEN, "cst, Freq: %lu", freq);
coloredMsg(LOG_GREEN, "cst, Tick: %d %lu %lu", seconds->valid, seconds->missedUpdates, seconds->seconds);
if (! seconds->valid) {
coloredMsg(LOG_RED, "cst, time is not yet valid");
} else if (minuteBufferReady[activeMinuteBuffer]) {
coloredMsg(LOG_RED, "cst, minute buffer overrun");
} else {
if (bufferIdx == 0) {
minuteBuffers[activeMinuteBuffer].s.timestamp = seconds->seconds;
}
minuteBuffers[activeMinuteBuffer].s.frequency[bufferIdx] = freq;
coloredMsg(LOG_GREEN, "cst, added to buffer %d, slot %d", activeMinuteBuffer, bufferIdx);
bufferIdx += 1;
if (bufferIdx == SECONDS_PER_MINUTE) {
coloredMsg(LOG_GREEN, "cst, buffer %d is done", activeMinuteBuffer);
minuteBufferReady[activeMinuteBuffer] = true;
activeMinuteBuffer += 1;
bufferIdx = 0;
if (activeMinuteBuffer >= NUM_OF_MINUTE_BUFFERS) {
activeMinuteBuffer = 0;
}
schAdd(counterMinuteTick, NULL, 1000, 0);
}
}
}
void mainsCntsInputCaptureCallback(TIM_HandleTypeDef *htim) {
static uint8_t state = 0;
static uint32_t savedV = 0;
uint32_t v = HAL_TIM_ReadCapturedValue(htim, TIM_CHANNEL_1);
if (state == 0) {
show(DEBUG_2, ON);
savedV = v;
state = 1;
} else if (state == 1) {
show(DEBUG_2, OFF);
uint32_t captured = (savedV < v) ? (v - savedV) : ((htim->Init.Period - savedV) + v);
mainsCntSum += captured;
mainsCntCnt += 1;
state = 0;
} else {
state = 0;
}
}
void counterInit() {
deviceStats = getGlobalDeviceStats();
seconds = wizGetSeconds();
for (uint8_t i = 0; i < NUM_OF_MINUTE_BUFFERS; i++) {
minuteBufferReady[i] = false;
}
activeMinuteBuffer = 0;
config = getConfig();
schAdd(counterSecondTick, NULL, 0, 1000);
HAL_TIM_IC_Start_IT(&mainsCnt, TIM_CHANNEL_1);
}
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