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MDIO added

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MDIO Folder Added
This commit is contained in:
James YS Kim
2018-05-28 17:05:15 +09:00
parent 2166370f1d
commit 1c6b068fa0
19 changed files with 1947 additions and 1469 deletions
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482
Ethernet/wizchip_conf.c
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@ -1,3 +1,16 @@
/*******************************************************************************************************************************************************
* Copyright <20><>I 2016 <WIZnet Co.,Ltd.>
* Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the <20><><EFBFBD><EFBFBD>Software<72><65><EFBFBD><EFBFBD>),
* to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
* THE SOFTWARE IS PROVIDED <20><><EFBFBD><EFBFBD>AS IS<49><53><EFBFBD><EFBFBD>, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*********************************************************************************************************************************************************/
//****************************************************************************/
//!
//! \file wizchip_conf.c
@ -5,12 +18,8 @@
//! \version 1.0.1
//! \date 2013/10/21
//! \par Revision history
//! <2015/02/05> Notice
//! The version history is not updated after this point.
//! Download the latest version directly from GitHub. Please visit the our GitHub repository for ioLibrary.
//! >> https://github.com/Wiznet/ioLibrary_Driver
//! <2014/05/01> V1.0.1 Refer to M20140501
//! 1. Explicit type casting in wizchip_bus_readdata() & wizchip_bus_writedata()
//! 1. Explicit type casting in wizchip_bus_readbyte() & wizchip_bus_writebyte()
// Issued by Mathias ClauBen.
//! uint32_t type converts into ptrdiff_t first. And then recoverting it into uint8_t*
//! For remove the warning when pointer type size is not 32bit.
@ -53,133 +62,80 @@
//
#include "wizchip_conf.h"
/////////////
//M20150401 : Remove ; in the default callback function such as wizchip_cris_enter(), wizchip_cs_select() and etc.
/////////////
#include "W7500x_wztoe.h"
/**
* @brief Default function to enable interrupt.
* @note This function help not to access wrong address. If you do not describe this function or register any functions,
* null function is called.
*/
//void wizchip_cris_enter(void) {};
void wizchip_cris_enter(void) {}
void wizchip_cris_enter(void) {};
/**
* @brief Default function to disable interrupt.
* @note This function help not to access wrong address. If you do not describe this function or register any functions,
* null function is called.
*/
//void wizchip_cris_exit(void) {};
void wizchip_cris_exit(void) {}
void wizchip_cris_exit(void) {};
/**
* @brief Default function to select chip.
* @note This function help not to access wrong address. If you do not describe this function or register any functions,
* null function is called.
*/
//void wizchip_cs_select(void) {};
void wizchip_cs_select(void) {}
void wizchip_cs_select(void) {};
/**
* @brief Default function to deselect chip.
* @note This function help not to access wrong address. If you do not describe this function or register any functions,
* null function is called.
*/
//void wizchip_cs_deselect(void) {};
void wizchip_cs_deselect(void) {}
void wizchip_cs_deselect(void) {};
/**
* @brief Default function to read in direct or indirect interface.
* @note This function help not to access wrong address. If you do not describe this function or register any functions,
* null function is called.
*/
//M20150601 : Rename the function for integrating with W5300
//uint8_t wizchip_bus_readbyte(uint32_t AddrSel) { return * ((volatile uint8_t *)((ptrdiff_t) AddrSel)); }
iodata_t wizchip_bus_readdata(uint32_t AddrSel) { return * ((volatile iodata_t *)((ptrdiff_t) AddrSel)); }
//M20140501 : Explict pointer type casting
//uint8_t wizchip_bus_readbyte(uint32_t AddrSel) { return * ((volatile uint8_t *) AddrSel); };
uint8_t wizchip_bus_readbyte(uint32_t AddrSel) { return * ((volatile uint8_t *)((ptrdiff_t) AddrSel)); };
/**
* @brief Default function to write in direct or indirect interface.
* @note This function help not to access wrong address. If you do not describe this function or register any functions,
* null function is called.
*/
//M20150601 : Rename the function for integrating with W5300
//void wizchip_bus_writebyte(uint32_t AddrSel, uint8_t wb) { *((volatile uint8_t*)((ptrdiff_t)AddrSel)) = wb; }
void wizchip_bus_writedata(uint32_t AddrSel, iodata_t wb) { *((volatile iodata_t*)((ptrdiff_t)AddrSel)) = wb; }
//M20140501 : Explict pointer type casting
//void wizchip_bus_writebyte(uint32_t AddrSel, uint8_t wb) { *((volatile uint8_t*) AddrSel) = wb; };
void wizchip_bus_writebyte(uint32_t AddrSel, uint8_t wb) { *((volatile uint8_t*)((ptrdiff_t)AddrSel)) = wb; };
/**
* @brief Default function to read in SPI interface.
* @note This function help not to access wrong address. If you do not describe this function or register any functions,
* null function is called.
*/
//uint8_t wizchip_spi_readbyte(void) {return 0;};
uint8_t wizchip_spi_readbyte(void) {return 0;}
uint8_t wizchip_spi_readbyte(void) {return 0;};
/**
* @brief Default function to write in SPI interface.
* @note This function help not to access wrong address. If you do not describe this function or register any functions,
* null function is called.
*/
//void wizchip_spi_writebyte(uint8_t wb) {};
void wizchip_spi_writebyte(uint8_t wb) {}
/**
* @brief Default function to burst read in SPI interface.
* @note This function help not to access wrong address. If you do not describe this function or register any functions,
* null function is called.
*/
//void wizchip_spi_readburst(uint8_t* pBuf, uint16_t len) {};
void wizchip_spi_readburst(uint8_t* pBuf, uint16_t len) {}
/**
* @brief Default function to burst write in SPI interface.
* @note This function help not to access wrong address. If you do not describe this function or register any functions,
* null function is called.
*/
//void wizchip_spi_writeburst(uint8_t* pBuf, uint16_t len) {};
void wizchip_spi_writeburst(uint8_t* pBuf, uint16_t len) {}
void wizchip_spi_writebyte(uint8_t wb) {};
/**
* @\ref _WIZCHIP instance
*/
//
//M20150401 : For a compiler didnot support a member of structure
// Replace the assignment of struct members with the assingment of array
//
/*
_WIZCHIP WIZCHIP =
{
.id = _WIZCHIP_ID_,
.if_mode = _WIZCHIP_IO_MODE_,
.CRIS._enter = wizchip_cris_enter,
.CRIS._exit = wizchip_cris_exit,
.CS._select = wizchip_cs_select,
.CS._deselect = wizchip_cs_deselect,
.IF.BUS._read_byte = wizchip_bus_readbyte,
.IF.BUS._write_byte = wizchip_bus_writebyte
// .IF.SPI._read_byte = wizchip_spi_readbyte,
// .IF.SPI._write_byte = wizchip_spi_writebyte
};
*/
_WIZCHIP WIZCHIP =
{
_WIZCHIP_IO_MODE_,
_WIZCHIP_ID_ ,
_WIZCHIP_ID_,
wizchip_cris_enter,
wizchip_cris_exit,
wizchip_cs_select,
wizchip_cs_deselect,
//M20150601 : Rename the function
//wizchip_bus_readbyte,
//wizchip_bus_writebyte
wizchip_bus_readdata,
wizchip_bus_writedata,
wizchip_bus_readbyte,
wizchip_bus_writebyte
// wizchip_spi_readbyte,
// wizchip_spi_writebyte
};
static uint8_t _DNS_[4]; // DNS server ip address
static dhcp_mode _DHCP_; // DHCP mode
@ -211,13 +167,10 @@ void reg_wizchip_cs_cbfunc(void(*cs_sel)(void), void(*cs_desel)(void))
}
}
//M20150515 : For integrating with W5300
//void reg_wizchip_bus_cbfunc(uint8_t(*bus_rb)(uint32_t addr), void (*bus_wb)(uint32_t addr, uint8_t wb))
void reg_wizchip_bus_cbfunc(iodata_t(*bus_rb)(uint32_t addr), void (*bus_wb)(uint32_t addr, iodata_t wb))
void reg_wizchip_bus_cbfunc(uint8_t(*bus_rb)(uint32_t addr), void (*bus_wb)(uint32_t addr, uint8_t wb))
{
while(!(WIZCHIP.if_mode & _WIZCHIP_IO_MODE_BUS_));
//M20150601 : Rename call back function for integrating with W5300
/*
if(!bus_rb || !bus_wb)
{
WIZCHIP.IF.BUS._read_byte = wizchip_bus_readbyte;
@ -228,17 +181,6 @@ void reg_wizchip_bus_cbfunc(iodata_t(*bus_rb)(uint32_t addr), void (*bus_wb)(uin
WIZCHIP.IF.BUS._read_byte = bus_rb;
WIZCHIP.IF.BUS._write_byte = bus_wb;
}
*/
if(!bus_rb || !bus_wb)
{
WIZCHIP.IF.BUS._read_data = wizchip_bus_readdata;
WIZCHIP.IF.BUS._write_data = wizchip_bus_writedata;
}
else
{
WIZCHIP.IF.BUS._read_data = bus_rb;
WIZCHIP.IF.BUS._write_data = bus_wb;
}
}
void reg_wizchip_spi_cbfunc(uint8_t (*spi_rb)(void), void (*spi_wb)(uint8_t wb))
@ -257,28 +199,9 @@ void reg_wizchip_spi_cbfunc(uint8_t (*spi_rb)(void), void (*spi_wb)(uint8_t wb))
}
}
// 20140626 Eric Added for SPI burst operations
void reg_wizchip_spiburst_cbfunc(void (*spi_rb)(uint8_t* pBuf, uint16_t len), void (*spi_wb)(uint8_t* pBuf, uint16_t len))
{
while(!(WIZCHIP.if_mode & _WIZCHIP_IO_MODE_SPI_));
if(!spi_rb || !spi_wb)
{
WIZCHIP.IF.SPI._read_burst = wizchip_spi_readburst;
WIZCHIP.IF.SPI._write_burst = wizchip_spi_writeburst;
}
else
{
WIZCHIP.IF.SPI._read_burst = spi_rb;
WIZCHIP.IF.SPI._write_burst = spi_wb;
}
}
int8_t ctlwizchip(ctlwizchip_type cwtype, void* arg)
{
#if _WIZCHIP_ == W5100S || _WIZCHIP_ == W5200 || _WIZCHIP_ == W5500
uint8_t tmp = 0;
#endif
uint8_t* ptmp[2] = {0,0};
switch(cwtype)
{
@ -304,9 +227,7 @@ int8_t ctlwizchip(ctlwizchip_type cwtype, void* arg)
case CW_GET_INTRMASK:
*((intr_kind*)arg) = wizchip_getinterruptmask();
break;
//M20150601 : This can be supported by W5200, W5500
//#if _WIZCHIP_ > W5100
#if (_WIZCHIP_ == W5200 || _WIZCHIP_ == W5500)
#if _WIZCHIP_ < 5500
case CW_SET_INTRTIME:
setINTLEVEL(*(uint16_t*)arg);
break;
@ -322,7 +243,7 @@ int8_t ctlwizchip(ctlwizchip_type cwtype, void* arg)
((uint8_t*)arg)[4] = WIZCHIP.id[4];
((uint8_t*)arg)[5] = 0;
break;
#if _WIZCHIP_ == W5100S || _WIZCHIP_ == W5500
#if _WIZCHIP_ == 5500
case CW_RESET_PHY:
wizphy_reset();
break;
@ -337,7 +258,6 @@ int8_t ctlwizchip(ctlwizchip_type cwtype, void* arg)
case CW_SET_PHYPOWMODE:
return wizphy_setphypmode(*(uint8_t*)arg);
#endif
#if _WIZCHIP_ == W5100S || _WIZCHIP_ == W5200 || _WIZCHIP_ == W5500
case CW_GET_PHYPOWMODE:
tmp = wizphy_getphypmode();
if((int8_t)tmp == -1) return -1;
@ -348,7 +268,6 @@ int8_t ctlwizchip(ctlwizchip_type cwtype, void* arg)
if((int8_t)tmp == -1) return -1;
*(uint8_t*)arg = tmp;
break;
#endif
default:
return -1;
}
@ -388,21 +307,10 @@ void wizchip_sw_reset(void)
{
uint8_t gw[4], sn[4], sip[4];
uint8_t mac[6];
//A20150601
#if _WIZCHIP_IO_MODE_ == _WIZCHIP_IO_MODE_BUS_INDIR_
uint16_t mr = (uint16_t)getMR();
setMR(mr | MR_IND);
#endif
//
getSHAR(mac);
getGAR(gw); getSUBR(sn); getSIPR(sip);
setMR(MR_RST);
getMR(); // for delay
//A2015051 : For indirect bus mode
#if _WIZCHIP_IO_MODE_ == _WIZCHIP_IO_MODE_BUS_INDIR_
setMR(mr | MR_IND);
#endif
//
setSHAR(mac);
setGAR(gw);
setSUBR(sn);
@ -411,77 +319,26 @@ void wizchip_sw_reset(void)
int8_t wizchip_init(uint8_t* txsize, uint8_t* rxsize)
{
int8_t i,j;
int8_t i;
int8_t tmp = 0;
wizchip_sw_reset();
if(txsize)
{
tmp = 0;
//M20150601 : For integrating with W5300
#if _WIZCHIP_ == W5300
for(i = 0 ; i < _WIZCHIP_SOCK_NUM_; i++)
{
if(txsize[i] >= 64) return -1; //No use 64KB even if W5300 support max 64KB memory allocation
tmp += txsize[i];
if(tmp > 128) return -1;
}
if(tmp % 8) return -1;
#else
for(i = 0 ; i < _WIZCHIP_SOCK_NUM_; i++)
{
tmp += txsize[i];
#if _WIZCHIP_ < W5200 //2016.10.28 peter add condition for w5100 and w5100s
if(tmp > 8) return -1;
#else
if(tmp > 16) return -1;
#endif
}
for(i = 0 ; i < _WIZCHIP_SOCK_NUM_; i++)
{
#if _WIZCHIP_ < W5200 //2016.10.28 peter add condition for w5100 and w5100s
j = 0;
while(txsize[i] >> j != 1){j++;}
setSn_TXBUF_SIZE(i, j);
#else
setSn_TXBUF_SIZE(i, txsize[i]);
#endif
}
#endif
for(i = 0 ; i < _WIZCHIP_SOCK_NUM_; i++)
tmp += txsize[i];
if(tmp > 16) return -1;
for(i = 0 ; i < _WIZCHIP_SOCK_NUM_; i++)
setSn_TXBUF_SIZE(i, txsize[i]);
}
if(rxsize)
{
tmp = 0;
#if _WIZCHIP_ == W5300
for(i = 0 ; i < _WIZCHIP_SOCK_NUM_; i++)
{
if(rxsize[i] >= 64) return -1; //No use 64KB even if W5300 support max 64KB memory allocation
tmp += rxsize[i];
if(tmp > 128) return -1;
}
if(tmp % 8) return -1;
#else
for(i = 0 ; i < _WIZCHIP_SOCK_NUM_; i++)
{
tmp += rxsize[i];
#if _WIZCHIP_ < W5200 //2016.10.28 peter add condition for w5100 and w5100s
if(tmp > 8) return -1;
#else
if(tmp > 16) return -1;
#endif
}
for(i = 0 ; i < _WIZCHIP_SOCK_NUM_; i++)
{
#if _WIZCHIP_ < W5200 //2016.10.28 peter add condition for w5100 and w5100s
j = 0;
while(rxsize[i] >> j != 1){j++;}
setSn_RXBUF_SIZE(i, j);
#else
setSn_RXBUF_SIZE(i, txsize[i]);
#endif
}
#endif
tmp += rxsize[i];
if(tmp > 16) return -1;
for(i = 0 ; i < _WIZCHIP_SOCK_NUM_; i++)
setSn_RXBUF_SIZE(i, rxsize[i]);
}
return 0;
}
@ -490,23 +347,20 @@ void wizchip_clrinterrupt(intr_kind intr)
{
uint8_t ir = (uint8_t)intr;
uint8_t sir = (uint8_t)((uint16_t)intr >> 8);
#if _WIZCHIP_ < W5500
#if _WIZCHIP_ < 5500
ir |= (1<<4); // IK_WOL
#endif
#if _WIZCHIP_ == W5200
#if _WIZCHIP_ == 5200
ir |= (1 << 6);
#endif
#if _WIZCHIP_ < W5200
#if _WIZCHIP_ < 5200
sir &= 0x0F;
#endif
#if _WIZCHIP_ <= W5100S
#if _WIZCHIP_ == 5100
ir |= sir;
setIR(ir);
//A20150601 : For integrating with W5300
#elif _WIZCHIP_ == W5300
setIR( ((((uint16_t)ir) << 8) | (((uint16_t)sir) & 0x00FF)) );
#else
setIR(ir);
setSIR(sir);
@ -518,25 +372,18 @@ intr_kind wizchip_getinterrupt(void)
uint8_t ir = 0;
uint8_t sir = 0;
uint16_t ret = 0;
#if _WIZCHIP_ <= W5100S
#if _WIZCHIP_ == 5100
ir = getIR();
sir = ir & 0x0F;
//A20150601 : For integrating with W5300
#elif _WIZCHIP_ == W5300
ret = getIR();
ir = (uint8_t)(ret >> 8);
sir = (uint8_t)ret;
sir = ir 0x0F;
#else
ir = getIR();
sir = getSIR();
#endif
//M20150601 : For Integrating with W5300
//#if _WIZCHIP_ < W5500
#if _WIZCHIP_ < W5200
#if _WIZCHIP_ < 5500
ir &= ~(1<<4); // IK_WOL
#endif
#if _WIZCHIP_ == W5200
#if _WIZCHIP_ == 5200
ir &= ~(1 << 6);
#endif
ret = sir;
@ -548,20 +395,20 @@ void wizchip_setinterruptmask(intr_kind intr)
{
uint8_t imr = (uint8_t)intr;
uint8_t simr = (uint8_t)((uint16_t)intr >> 8);
#if _WIZCHIP_ < W5500
#if _WIZCHIP_ < 5500
imr &= ~(1<<4); // IK_WOL
#endif
#if _WIZCHIP_ == W5200
#if _WIZCHIP_ == 5200
imr &= ~(1 << 6);
#endif
#if _WIZCHIP_ < W5200
#if _WIZCHIP_ < 5200
simr &= 0x0F;
#endif
#if _WIZCHIP_ == 5100
imr |= simr;
setIMR(imr);
//A20150601 : For integrating with W5300
#elif _WIZCHIP_ == W5300
setIMR( ((((uint16_t)imr) << 8) | (((uint16_t)simr) & 0x00FF)) );
#else
setIMR(imr);
setSIMR(simr);
@ -573,23 +420,18 @@ intr_kind wizchip_getinterruptmask(void)
uint8_t imr = 0;
uint8_t simr = 0;
uint16_t ret = 0;
#if _WIZCHIP_ < W5200
#if _WIZCHIP_ == 5100
imr = getIMR();
simr = imr & 0x0F;
//A20150601 : For integrating with W5300
#elif _WIZCHIP_ == W5300
ret = getIMR();
imr = (uint8_t)(ret >> 8);
simr = (uint8_t)ret;
simr = imr 0x0F;
#else
imr = getIMR();
simr = getSIMR();
#endif
#if _WIZCHIP_ < W5500
#if _WIZCHIP_ < 5500
imr &= ~(1<<4); // IK_WOL
#endif
#if _WIZCHIP_ == W5200
#if _WIZCHIP_ == 5200
imr &= ~(1 << 6); // IK_DEST_UNREACH
#endif
ret = simr;
@ -599,34 +441,34 @@ intr_kind wizchip_getinterruptmask(void)
int8_t wizphy_getphylink(void)
{
int8_t tmp = PHY_LINK_OFF;
#if _WIZCHIP_ == W5100S
if(getPHYSR() & PHYSR_LNK)
tmp = PHY_LINK_ON;
#elif _WIZCHIP_ == W5200
int8_t tmp;
#if _WIZCHIP_ == 5200
if(getPHYSTATUS() & PHYSTATUS_LINK)
tmp = PHY_LINK_ON;
#elif _WIZCHIP_ == W5500
else
tmp = PHY_LINK_OFF;
#elif _WIZCHIP_ == 5500
if(getPHYCFGR() & PHYCFGR_LNK_ON)
tmp = PHY_LINK_ON;
else
tmp = PHY_LINK_OFF;
#else
tmp = -1;
#endif
return tmp;
}
#if _WIZCHIP_ > W5100
#if _WIZCHIP_ > 5100
int8_t wizphy_getphypmode(void)
{
int8_t tmp = 0;
#if _WIZCHIP_ == W5200
#if _WIZCHIP_ == 5200
if(getPHYSTATUS() & PHYSTATUS_POWERDOWN)
tmp = PHY_POWER_DOWN;
else
tmp = PHY_POWER_NORM;
#elif _WIZCHIP_ == 5500
if((getPHYCFGR() & PHYCFGR_OPMDC_ALLA) == PHYCFGR_OPMDC_PDOWN)
if(getPHYCFGR() & PHYCFGR_OPMDC_PDOWN)
tmp = PHY_POWER_DOWN;
else
tmp = PHY_POWER_NORM;
@ -637,95 +479,70 @@ int8_t wizphy_getphypmode(void)
}
#endif
#if _WIZCHIP_ == W5100S
void wizphy_reset(void)
void wizchip_setnetinfo(wiz_NetInfo* pnetinfo)
{
uint16_t tmp = wiz_mdio_read(PHYMDIO_BMCR);
tmp |= BMCR_RESET;
wiz_mdio_write(PHYMDIO_BMCR, tmp);
while(wiz_mdio_read(PHYMDIO_BMCR)&BMCR_RESET){}
setSHAR(pnetinfo->mac);
setGAR(pnetinfo->gw);
setSUBR(pnetinfo->sn);
setSIPR(pnetinfo->ip);
_DNS_[0] = pnetinfo->dns[0];
_DNS_[1] = pnetinfo->dns[1];
_DNS_[2] = pnetinfo->dns[2];
_DNS_[3] = pnetinfo->dns[3];
_DHCP_ = pnetinfo->dhcp;
}
void wizphy_setphyconf(wiz_PhyConf* phyconf)
void wizchip_getnetinfo(wiz_NetInfo* pnetinfo)
{
uint16_t tmp = wiz_mdio_read(PHYMDIO_BMCR);
if(phyconf->mode == PHY_MODE_AUTONEGO)
tmp |= BMCR_AUTONEGO;
else
{
tmp &= ~BMCR_AUTONEGO;
if(phyconf->duplex == PHY_DUPLEX_FULL)
{
tmp |= BMCR_DUP;
}
else
{
tmp &= ~BMCR_DUP;
}
if(phyconf->speed == PHY_SPEED_100)
{
tmp |= BMCR_SPEED;
}
else
{
tmp &= ~BMCR_SPEED;
}
}
wiz_mdio_write(PHYMDIO_BMCR, tmp);
getSHAR(pnetinfo->mac);
getGAR(pnetinfo->gw);
getSUBR(pnetinfo->sn);
getSIPR(pnetinfo->ip);
pnetinfo->dns[0]= _DNS_[0];
pnetinfo->dns[1]= _DNS_[1];
pnetinfo->dns[2]= _DNS_[2];
pnetinfo->dns[3]= _DNS_[3];
pnetinfo->dhcp = _DHCP_;
}
void wizphy_getphyconf(wiz_PhyConf* phyconf)
int8_t wizchip_setnetmode(netmode_type netmode)
{
uint16_t tmp = 0;
tmp = wiz_mdio_read(PHYMDIO_BMCR);
phyconf->by = PHY_CONFBY_SW;
if(tmp & BMCR_AUTONEGO)
{
phyconf->mode = PHY_MODE_AUTONEGO;
}
else
{
phyconf->mode = PHY_MODE_MANUAL;
if(tmp&BMCR_DUP) phyconf->duplex = PHY_DUPLEX_FULL;
else phyconf->duplex = PHY_DUPLEX_HALF;
if(tmp&BMCR_SPEED) phyconf->speed = PHY_SPEED_100;
else phyconf->speed = PHY_SPEED_10;
}
uint8_t tmp = 0;
#if _WIZCHIP_ != 5500
if(netmode & ~(NM_WAKEONLAN | NM_PPPOE | NM_PINGBLOCK)) return -1;
#else
if(netmode & ~(NM_WAKEONLAN | NM_PPPOE | NM_PINGBLOCK | NM_FORCEARP)) return -1;
#endif
tmp = getMR();
tmp |= (uint8_t)netmode;
setMR(tmp);
return 0;
}
int8_t wizphy_setphypmode(uint8_t pmode)
netmode_type wizchip_getnetmode(void)
{
uint16_t tmp = 0;
tmp = wiz_mdio_read(PHYMDIO_BMCR);
if( pmode == PHY_POWER_DOWN)
{
tmp |= BMCR_PWDN;
}
else
{
tmp &= ~BMCR_PWDN;
}
wiz_mdio_write(PHYMDIO_BMCR, tmp);
tmp = wiz_mdio_read(PHYMDIO_BMCR);
if( pmode == PHY_POWER_DOWN)
{
if(tmp & BMCR_PWDN) return 0;
}
else
{
if((tmp & BMCR_PWDN) != BMCR_PWDN) return 0;
}
return -1;
return (netmode_type) getMR();
}
#endif
#if _WIZCHIP_ == W5500
void wizchip_settimeout(wiz_NetTimeout* nettime)
{
if(nettime->retry_cnt) setRCR(nettime->retry_cnt);
setRTR(nettime->time_100us);
}
void wizchip_gettimeout(wiz_NetTimeout* nettime)
{
nettime->retry_cnt = getRCR();
nettime->time_100us = getRTR();
}
#if _WIZCHIP_ == 5500
void wizphy_reset(void)
{
uint8_t tmp = getPHYCFGR();
tmp &= PHYCFGR_RST;
setPHYCFGR(tmp);
tmp = getPHYCFGR();
tmp = getPHYCFGR();
tmp |= ~PHYCFGR_RST;
setPHYCFGR(tmp);
}
@ -798,7 +615,6 @@ void wizphy_getphyconf(wiz_PhyConf* phyconf)
break;
}
}
void wizphy_getphystat(wiz_PhyConf* phyconf)
{
uint8_t tmp = getPHYCFGR();
@ -831,61 +647,3 @@ int8_t wizphy_setphypmode(uint8_t pmode)
}
#endif
void wizchip_setnetinfo(wiz_NetInfo* pnetinfo)
{
int i,j,k;
setSHAR(pnetinfo->mac);
setGAR(pnetinfo->gw);
setSUBR(pnetinfo->sn);
setSIPR(pnetinfo->ip);
_DNS_[0] = pnetinfo->dns[0];
_DNS_[1] = pnetinfo->dns[1];
_DNS_[2] = pnetinfo->dns[2];
_DNS_[3] = pnetinfo->dns[3];
_DHCP_ = pnetinfo->dhcp;
}
void wizchip_getnetinfo(wiz_NetInfo* pnetinfo)
{
getSHAR(pnetinfo->mac);
getGAR(pnetinfo->gw);
getSUBR(pnetinfo->sn);
getSIPR(pnetinfo->ip);
pnetinfo->dns[0]= _DNS_[0];
pnetinfo->dns[1]= _DNS_[1];
pnetinfo->dns[2]= _DNS_[2];
pnetinfo->dns[3]= _DNS_[3];
pnetinfo->dhcp = _DHCP_;
}
int8_t wizchip_setnetmode(netmode_type netmode)
{
uint8_t tmp = 0;
#if _WIZCHIP_ != W5500
if(netmode & ~(NM_WAKEONLAN | NM_PPPOE | NM_PINGBLOCK)) return -1;
#else
if(netmode & ~(NM_WAKEONLAN | NM_PPPOE | NM_PINGBLOCK | NM_FORCEARP)) return -1;
#endif
tmp = getMR();
tmp |= (uint8_t)netmode;
setMR(tmp);
return 0;
}
netmode_type wizchip_getnetmode(void)
{
return (netmode_type) getMR();
}
void wizchip_settimeout(wiz_NetTimeout* nettime)
{
setRCR(nettime->retry_cnt);
setRTR(nettime->time_100us);
}
void wizchip_gettimeout(wiz_NetTimeout* nettime)
{
nettime->retry_cnt = getRCR();
nettime->time_100us = getRTR();
}