void W5500Initialze(void)
{
unsigned char temp;
unsigned char W5500FifoSize[2][8] = {{2,2,2,2,2,2,2,2,},{2,2,2,2,2,2,2,2}};
W5500DeSelect();
/* spi function register */
reg_wizchip_spi_cbfunc(W5500ReadByte, W5500WriteByte);
/* CS function register */
reg_wizchip_cs_cbfunc(W5500Select,W5500DeSelect);
if(ctlwizchip(CW_INIT_WIZCHIP,(void*)W5500FifoSize) == -1)
{
printf("W5500 initialized fail.\r\n");
}
do{//check phy status.
if(ctlwizchip(CW_GET_PHYLINK,(void*)&temp) == -1){
printf("Unknown PHY link status.\r\n");
}
}while(temp == PHY_LINK_OFF);
}
/*---------------------------------------------------------------------------*/
bool HALW5500_IsLinkUp(void)
{
uint8_t state;
ctlwizchip(CW_GET_PHYLINK, (void*) &state);
//DEBUG("HALW5500_ Link is %u\n", state);
return state == PHY_LINK_ON;
}
void W5500_Init()
{
uint8_t memsize[2][8] = { { 2, 2, 2, 2, 2, 2, 2, 2 }, { 2, 2, 2, 2, 2, 2, 2, 2 } };
Chip_GPIO_SetPinState(LPC_GPIO, 0, 2, true); // SSEL(CS)
Chip_GPIO_SetPinState(LPC_GPIO, 0, 22, false); // N_RESET
delay_cnt(1000);
Chip_GPIO_SetPinState(LPC_GPIO, 0, 22, true); // N_RESET
reg_wizchip_cs_cbfunc(wizchip_select, wizchip_deselect);
reg_wizchip_spi_cbfunc(wizchip_read, wizchip_write);
reg_wizchip_spiburst_cbfunc(wizchip_readburst, wizchip_writeburst);
/* wizchip initialize*/
if (ctlwizchip(CW_INIT_WIZCHIP, (void*) memsize) == -1) {
//printf("WIZCHIP Initialized fail.\r\n");
while (1);
}
/* For Delay */
delay_cnt(10000);
setRCR(3);
}
/*JSON{ "type":"staticmethod",
"class" : "WIZnet", "name" : "connect",
"generate" : "jswrap_wiznet_connect",
"description" : "Initialise the WIZnet module and return an Ethernet object",
"params" : [ ],
"return" : ["JsVar", "An Ethernet Object"], "return_object":"Ethernet"
}*/
JsVar *jswrap_wiznet_connect() {
JsVar *ethObj = jspNewObject(0, "Ethernet");
// SPI config
JshSPIInfo inf;
jshSPIInitInfo(&inf);
inf.pinSCK = ETH_CLK_PIN;
inf.pinMISO = ETH_MISO_PIN;
inf.pinMOSI = ETH_MOSI_PIN;
inf.baudRate = 1000000;
inf.spiMode = SPIF_SPI_MODE_0;
jshSPISetup(ETH_SPI, &inf);
// CS Configuration
jshSetPinStateIsManual(ETH_CS_PIN, false);
jshPinOutput(ETH_CS_PIN, 1); // de-assert CS
// Wiznet
reg_wizchip_cs_cbfunc(wizchip_select, wizchip_deselect);
reg_wizchip_spi_cbfunc(wizchip_read, wizchip_write);
/* wizchip initialize*/
uint8_t tmp;
uint8_t memsize[2][8] = { {2,2,2,2,2,2,2,2},{2,2,2,2,2,2,2,2}};
if(ctlwizchip(CW_INIT_WIZCHIP,(void*)memsize) == -1)
{
jsiConsolePrint("WIZCHIP Initialized fail.\r\n");
return 0;
}
/* PHY link status check */
do {
if(ctlwizchip(CW_GET_PHYLINK, (void*)&tmp) == -1) {
jsiConsolePrint("Unknown PHY Link status.\r\n");
return 0;
}
} while (tmp == PHY_LINK_OFF);
JsNetwork net;
networkCreate(&net, JSNETWORKTYPE_W5500);
networkFree(&net);
networkState = NETWORKSTATE_ONLINE;
return ethObj;
}
/*---------------------------------------------------------------------------*/
bool HALW5500_Init(uint8_t *mac)
{
DEBUG("HALW5500: MAC ");
for (uint8_t i = 0; i <= 5; i++)
DEBUG("%02X", mac[i]);
DEBUG("\n");
memset(&netInfo, 0, sizeof(netInfo));
memcpy(netInfo.mac, mac, 6);
HAL_EthReset();
reg_wizchip_cs_cbfunc(HAL_EthCS0, HAL_EthCS1);
reg_wizchip_spi_cbfunc(HALW5500_Read, HALW5500_Write);
uint8_t memsize[2][8] = {{2, 2, 2, 2, 2, 2, 2, 2}, {2, 2, 2, 2, 2, 2, 2, 2}};
return ctlwizchip(CW_INIT_WIZCHIP, (void*) memsize) >= 0;
}
static void s2e_sockestablished_process(uint8_t sock)
{
uint8_t tmp;
struct __network_info *net = (struct __network_info *)get_S2E_Packet_pointer()->network_info;
if(reconn_flag)
reconn_flag = reconn_time = 0;
switch(net->working_mode) {
case TCP_MIXED_MODE:
case TCP_SERVER_MODE:
if(auth_flag) {
auth_process(sock);
return;
}
case TCP_CLIENT_MODE:
if((inactive_flag == 0) && net->inactivity)
inactive_flag = 1;
else if(inactive_flag == 2) {
inactive_flag = 0;
disconnect(sock);
}
if(keepsend_flag == 0)
{
keepsend_flag = 1;
}
else if(keepsend_flag == 2)
{
keepsend_flag = 0;
ctlwizchip(CW_GET_PHYLINK, (void*) &tmp);
if(tmp == PHY_LINK_OFF)
{
//disconnect(sock); //TODO
}
}
ether_to_uart(sock);
uart_to_ether(sock);
break;
case UDP_MODE:
close(sock);
break;
default:
break;
}
}
/////////////////////////////////////////////////////////////
// Intialize the network information to be used in WIZCHIP //
/////////////////////////////////////////////////////////////
void network_init(void)
{
uint8_t tmpstr[6];
ctlnetwork(CN_SET_NETINFO, (void*)&gWIZNETINFO);
ctlnetwork(CN_GET_NETINFO, (void*)&gWIZNETINFO);
// Display Network Information
ctlwizchip(CW_GET_ID,(void*)tmpstr);
printf("\r\n=== %s NET CONF ===\r\n",(char*)tmpstr);
printf("MAC: %02X:%02X:%02X:%02X:%02X:%02X\r\n",gWIZNETINFO.mac[0],gWIZNETINFO.mac[1],gWIZNETINFO.mac[2],
gWIZNETINFO.mac[3],gWIZNETINFO.mac[4],gWIZNETINFO.mac[5]);
printf("SIP: %d.%d.%d.%d\r\n", gWIZNETINFO.ip[0],gWIZNETINFO.ip[1],gWIZNETINFO.ip[2],gWIZNETINFO.ip[3]);
printf("GAR: %d.%d.%d.%d\r\n", gWIZNETINFO.gw[0],gWIZNETINFO.gw[1],gWIZNETINFO.gw[2],gWIZNETINFO.gw[3]);
printf("SUB: %d.%d.%d.%d\r\n", gWIZNETINFO.sn[0],gWIZNETINFO.sn[1],gWIZNETINFO.sn[2],gWIZNETINFO.sn[3]);
printf("DNS: %d.%d.%d.%d\r\n", gWIZNETINFO.dns[0],gWIZNETINFO.dns[1],gWIZNETINFO.dns[2],gWIZNETINFO.dns[3]);
printf("======================\r\n");
}
// brief Initialize modules
static void W5500_Init(void){
// Set Tx and Rx buffer size to 2KB
uint8_t buffsize[8] = { 2, 2, 2, 2, 2, 2, 2, 2 };
// Reset module
PMOD_PORT &= ~_BV(RST_W5500); //Set Rst low
_delay_ms(500); //Minimun of 500us, 10ms to be safe
PMOD_PORT |= _BV(RST_W5500); //Set rst high
_delay_ms(1);
// Wizchip initialize
wizchip_init(buffsize, buffsize, 0, 0, cs_sel, cs_desel, 0, 0, spi_rb, spi_wb);
// Wizchip netconf
ctlnetwork(CN_SET_NETINFO, (void*) &gWIZNETINFO);
ctlwizchip(CW_SET_PHYCONF, (void*) &phyConf);
}
static void PHYStatus_Check(void)
{
uint8_t tmp;
static bool LED_status_backup;
LED_status_backup = RGBLED_enable;
do
{
ctlwizchip(CW_GET_PHYLINK, (void*) &tmp);
// Error indicator: LED Green ON when no PHY link detected
if(tmp == PHY_LINK_OFF)
{
RGBLED_enable = false;
Board_LED_Set(2, true);
}
}while(tmp == PHY_LINK_OFF);
RGBLED_enable = LED_status_backup;
}
static void Display_Net_Conf()
{
#ifdef _MAIN_DEBUG_
uint8_t tmpstr[6] = {0,};
#endif
ctlnetwork(CN_GET_NETINFO, (void*) &gWIZNETINFO);
#ifdef _MAIN_DEBUG_
// Display Network Information
ctlwizchip(CW_GET_ID,(void*)tmpstr);
if(gWIZNETINFO.dhcp == NETINFO_DHCP) printf("\r\n===== %s NET CONF : DHCP =====\r\n",(char*)tmpstr);
else printf("\r\n===== %s NET CONF : Static =====\r\n",(char*)tmpstr);
printf(" MAC : %02X:%02X:%02X:%02X:%02X:%02X\r\n", gWIZNETINFO.mac[0], gWIZNETINFO.mac[1], gWIZNETINFO.mac[2], gWIZNETINFO.mac[3], gWIZNETINFO.mac[4], gWIZNETINFO.mac[5]);
printf(" IP : %d.%d.%d.%d\r\n", gWIZNETINFO.ip[0], gWIZNETINFO.ip[1], gWIZNETINFO.ip[2], gWIZNETINFO.ip[3]);
printf(" GW : %d.%d.%d.%d\r\n", gWIZNETINFO.gw[0], gWIZNETINFO.gw[1], gWIZNETINFO.gw[2], gWIZNETINFO.gw[3]);
printf(" SN : %d.%d.%d.%d\r\n", gWIZNETINFO.sn[0], gWIZNETINFO.sn[1], gWIZNETINFO.sn[2], gWIZNETINFO.sn[3]);
printf("=======================================\r\n");
#endif
}
STATIC void wiznet5k_init(void) {
// SPI configuration
SPI_InitTypeDef *init = &wiznet5k_obj.spi->spi->Init;
init->Mode = SPI_MODE_MASTER;
init->Direction = SPI_DIRECTION_2LINES;
init->DataSize = SPI_DATASIZE_8BIT;
init->CLKPolarity = SPI_POLARITY_LOW; // clock is low when idle
init->CLKPhase = SPI_PHASE_1EDGE; // data latched on first edge, which is rising edge for low-idle
init->NSS = SPI_NSS_SOFT;
init->BaudRatePrescaler = SPI_BAUDRATEPRESCALER_2; // clock freq = f_PCLK / this_prescale_value; Wiz820i can do up to 80MHz
init->FirstBit = SPI_FIRSTBIT_MSB;
init->TIMode = SPI_TIMODE_DISABLED;
init->CRCCalculation = SPI_CRCCALCULATION_DISABLED;
init->CRCPolynomial = 7; // unused
spi_init(wiznet5k_obj.spi, false);
mp_hal_pin_output(wiznet5k_obj.cs);
mp_hal_pin_output(wiznet5k_obj.rst);
// Reset the chip
mp_hal_pin_low(wiznet5k_obj.rst);
mp_hal_delay_ms(1); // datasheet says 2us
mp_hal_pin_high(wiznet5k_obj.rst);
mp_hal_delay_ms(150); // datasheet says 150ms
// Set physical interface callbacks
reg_wizchip_cris_cbfunc(wiz_cris_enter, wiz_cris_exit);
reg_wizchip_cs_cbfunc(wiz_cs_select, wiz_cs_deselect);
reg_wizchip_spi_cbfunc(wiz_spi_read, wiz_spi_write);
// Configure 16k buffers for fast MACRAW
uint8_t sn_size[16] = {16, 0, 0, 0, 0, 0, 0, 0, 16, 0, 0, 0, 0, 0, 0, 0};
ctlwizchip(CW_INIT_WIZCHIP, sn_size);
// Seems we need a small delay after init
mp_hal_delay_ms(250);
// Hook the Wiznet into lwIP
wiznet5k_lwip_init(&wiznet5k_obj);
}
/*
*System initialize
*/
uint8_t wizSystemInit(void)
{
uint8_t W5500SockBufSize[2][8] = {{2,2,2,2,2,2,2,2,},{2,2,2,2,2,2,2,2}};
uint32_t tickStart;
/* spi function register */
reg_wizchip_spi_cbfunc(W5500ReadByte, W5500WriteByte);
/* CS function register */
reg_wizchip_cs_cbfunc(W5500Select, W5500DeSelect);
/* Critical section */
reg_wizchip_cris_cbfunc(spiMutexEnter,spiMutexExit);
//W5500Select();
if(ctlwizchip(CW_INIT_WIZCHIP,(void*)W5500SockBufSize) == -1)
{
#if WIZSYSTEM_DEBUG == 1
printf("W5500 initialized fail.\r\n");
#endif
return -1;
}
/*Set network information by default*/
wizchip_setnetinfo(&NetInfo);
tickStart = HAL_GetTick();
do{//check phy status.
randomKey++;
if((HAL_GetTick() - tickStart) > NETINFO_LINK_TIMEOUT)
{
#if WIZSYSTEM_DEBUG == 1
printf("Ethernet Link timeout.\r\n");
#endif
return -1;
}
}while(!isLinked());
return 1;
}
/**
* @brief Main routine for W5500 EVB firmware
* @return Function should not exit.
*/
int main(void) {
#if defined (__USE_LPCOPEN)
#if !defined(NO_BOARD_LIB)
// Read clock settings and update SystemCoreClock variable
SystemCoreClockUpdate();
// Set up and initialize all required blocks and
// functions related to the board hardware
Board_Init();
#endif
#endif
bool run_user_applications = false;
int32_t ret;
/* Network Initialization */
SPI_Init();
W5500_Init();
Net_Conf();
/* Enable and setup SysTick Timer at a periodic rate */
SysTick_Config(SystemCoreClock / TICKRATE_HZ1);
/* Enable and setup 32-bit Timer 0 */
Timer32_0_Init(TICKRATE_HZ2);
/* PHY Status check enable */
PHYStatus_check_enable = true;
#ifdef _MAIN_DEBUG_
uint8_t tmpstr[6] = {0,};
ctlwizchip(CW_GET_ID,(void*)tmpstr);
printf("\r\n=======================================\r\n");
printf(" WIZnet %s EVB - DHCP client v%d.%.2d\r\n", tmpstr, VER_H, VER_L);
printf("=======================================\r\n");
//Display_Net_Conf(); // handled by dhcp_run function
#endif
/* DHCP client Initialization */
if(gWIZNETINFO.dhcp == NETINFO_DHCP)
{
DHCP_init(SOCK_DHCP, gDATABUF);
// if you want different action instead default ip assign, update, conflict.
// if cbfunc == 0, act as default.
reg_dhcp_cbfunc(my_ip_assign, my_ip_assign, my_ip_conflict);
run_user_applications = false; // flag for running user's code
}
else
{
// Static
#ifdef _MAIN_DEBUG_
Display_Net_Conf();
#endif
run_user_applications = true; // flag for running user's code
}
/* Main loop ***************************************/
while(1)
{
/* PHY Status checker: Check every 'SEC_PHYSTATUS_CHECK' seconds */
if(PHYStatus_check_flag)
{
PHYStatus_check_flag = false;
PHYStatus_Check();
}
/* DHCP */
/* DHCP IP allocation and check the DHCP lease time (for IP renewal) */
if(gWIZNETINFO.dhcp == NETINFO_DHCP)
{
switch(DHCP_run())
{
case DHCP_IP_ASSIGN:
case DHCP_IP_CHANGED:
/* If this block empty, act with default_ip_assign & default_ip_update */
//
// This example calls my_ip_assign in the two case.
//
// Add to ...
//
break;
case DHCP_IP_LEASED:
//
// TODO: insert user's code here
run_user_applications = true;
//
break;
case DHCP_FAILED:
/* ===== Example pseudo code ===== */
// The below code can be replaced your code or omitted.
// if omitted, retry to process DHCP
my_dhcp_retry++;
if(my_dhcp_retry > MY_MAX_DHCP_RETRY)
{
gWIZNETINFO.dhcp = NETINFO_STATIC;
DHCP_stop(); // if restart, recall DHCP_init()
#ifdef _MAIN_DEBUG_
printf(">> DHCP %d Failed\r\n", my_dhcp_retry);
Net_Conf();
Display_Net_Conf(); // print out static netinfo to serial
#endif
my_dhcp_retry = 0;
}
break;
default:
break;
}
}
// TODO: insert user's code here
if(run_user_applications)
{
// Loopback test : TCP Server
if ((ret = loopback_tcps(SOCK_TCPS, gDATABUF, PORT_TCPS)) < 0) // TCP server loopback test
{
#ifdef _MAIN_DEBUG_
printf("SOCKET ERROR : %ld\r\n", ret);
#endif
}
;
} // End of user's code
} // End of Main loop
return 0;
}
/*
*********************************************************************************************************
* CHECK DHCP STATE
*
* Description: This function checks the state of DHCP.
* Arguments : None.
* Returns : None.
* Note :
*********************************************************************************************************
*/
void check_DHCP_state(uint8_t s, wiz_NetInfo *pWIZNETINFO)
{
uint16_t len, i;
uint8_t type, flag;
uint8_t d_addr[4];
type = 0;
if ((len = getSn_RX_RSR(s)) > 0) {
type = parseDHCPMSG(s, len, pWIZNETINFO);
}
switch ( dhcp_state ) {
case STATE_DHCP_DISCOVER :
if (type == DHCP_OFFER) {
jsiConsolePrintf("> Receive DHCP_OFFER\r\n");
for (i = 0; i < 4; i++) d_addr[i] = 0xff;
send_DHCP_REQUEST(s, Cip, d_addr, pWIZNETINFO);
dhcp_state = STATE_DHCP_REQUEST;
} else check_Timeout(s, pWIZNETINFO);
break;
case STATE_DHCP_REQUEST :
if (type == DHCP_ACK) {
jsiConsolePrintf("> Receive DHCP_ACK\r\n");
if (check_leasedIP(s, pWIZNETINFO)) {
//iinchip_init() - WIZnet chip reset & Delay (10ms);
//Set_network();
ctlwizchip(CW_RESET_WIZCHIP, 0);
ctlnetwork(CN_SET_NETINFO, (void*)&(*pWIZNETINFO));
/*
for (i = 0; i < 12; i++) {
//EEP_Write(EEP_LIP+i, *(uint8_t *)((*pWIZNETINFO).ip+i));
}
*/
next_time = jshGetSystemTime() + DHCP_WAIT_TIME;
retry_count = 0;
dhcp_state = STATE_DHCP_LEASED;
} else {
next_time = jshGetSystemTime() + DHCP_WAIT_TIME1;
retry_count = 0;
//dhcp_state = STATE_DHCP_DISCOVER;
dhcp_state = STATE_DHCP_LEASED;
jsiConsolePrintf("> => Recceived IP is invalid\r\n");
//iinchip_init();
//Set_Default();
//Set_network();
//ctlwizchip(CW_RESET_WIZCHIP, 0);
//set_default_netinfo();
//ctlnetwork(CN_SET_NETINFO, (void*)&(*pWIZNETINFO));
}
} else if (type == DHCP_NAK) {
jsiConsolePrintf("> Receive DHCP_NACK\r\n");
next_time = jshGetSystemTime() + DHCP_WAIT_TIME;
retry_count = 0;
dhcp_state = STATE_DHCP_DISCOVER;
} else check_Timeout(s, pWIZNETINFO);
break;
case STATE_DHCP_LEASED :
if ((lease_time.lVal != 0xffffffff) && ((lease_time.lVal/2) < jshGetSystemTime())) {
jsiConsolePrintf("> Renewal IP address \r\n");
type = 0;
for (i = 0; i < 4; i++) OLD_SIP[i] = (*pWIZNETINFO).ip[i];
for (i = 0; i < 4; i++) d_addr[i] = DHCP_SIP[i];
DHCP_XID++;
send_DHCP_REQUEST(s, (*pWIZNETINFO).ip, d_addr, pWIZNETINFO);
dhcp_state = STATE_DHCP_REREQUEST;
next_time = jshGetSystemTime() + DHCP_WAIT_TIME;
}
break;
case STATE_DHCP_REREQUEST :
if (type == DHCP_ACK) {
retry_count = 0;
flag = 0;
for (i = 0; i < 4; i++) {
if (OLD_SIP[i] != (*pWIZNETINFO).ip[i]) {
flag = 1;
break;
}
}
// change to new IP address
if (flag) {
//iinchip_init();
//Set_network();
ctlwizchip(CW_RESET_WIZCHIP, 0);
ctlnetwork(CN_SET_NETINFO, (void*)&(*pWIZNETINFO));
}
next_time = jshGetSystemTime() + DHCP_WAIT_TIME;
dhcp_state = STATE_DHCP_LEASED;
} else if (type == DHCP_NAK) {
next_time = jshGetSystemTime() + DHCP_WAIT_TIME;
retry_count = 0;
dhcp_state = STATE_DHCP_DISCOVER;
// jsiConsolePrintf("state : STATE_DHCP_DISCOVER\r\n");
} else check_Timeout(s, pWIZNETINFO);
break;
case STATE_DHCP_RELEASE :
break;
default :
break;
}
}
int main(void) {
uint8_t ret = 0;
//int32_t loopback_ret;
#if defined (__USE_LPCOPEN)
#if !defined(NO_BOARD_LIB)
// Read clock settings and update SystemCoreClock variable
SystemCoreClockUpdate();
// Set up and initialize all required blocks and
// functions related to the board hardware
Board_Init();
// Set the LED to the state of "On"
Board_LED_Set(0, true);
//Board_LED_Set(1, true);
//Board_LED_Set(2, true);
#endif
#endif
SPI_Init();
W5500_Init();
Net_Conf(gWIZNETINFO);
#ifdef _MAIN_DEBUG_
uint8_t tmpstr[6] = {0,};
ctlwizchip(CW_GET_ID,(void*)tmpstr);
/*
printf("\r\n=======================================\r\n");
printf(" WIZnet %s EVB Demos v%d.%.2d\r\n", tmpstr, VER_H, VER_L);
printf("=======================================\r\n");
printf(">> W5500 based FTP Client Example\r\n");
printf("=======================================\r\n");
*/
Display_Net_Conf(); // Print out the network information to serial terminal
#endif
/* Enable and setup SysTick Timer at a periodic rate */
SysTick_Config(SystemCoreClock / TICKRATE_HZ1);
/* Initialize buttons on the W5500 EVB board */
Board_Buttons_Init();
g_sdcard_done = 0;
#if defined(F_APP_FTPC)
ftpc_init(gWIZNETINFO.ip);
#endif
ret = flash_mount();
if(ret > 0)
{
display_SDcard_Info(ret);
}
while(1) {
/* Button: SW1 */
if(Check_Buttons_Pressed() == BUTTONS_BUTTON1)
{
printf("\r\n########## SW1 was pressed.\r\n");
printf("########## Data flash flag was cleared.\r\n");
printf("########## Please reset a target.\r\n");
release_factory_flag();
}
#if defined(F_APP_FTPC)
ftpc_run(gFTPBUF);
#endif
/* Loopback Test: TCP Server and UDP */
// Test for Ethernet data transfer validation
{
//loopback_tcps(SOCK_TCPS, gDATABUF, PORT_TCPS);
//loopback_udps(SOCK_UDPS, gDATABUF, PORT_UDPS);
//loopback_ret = loopback_tcpc(SOCK_TCPS, gDATABUF, destip, destport);
//if(loopback_ret < 0) printf("loopback ret: %ld\r\n", loopback_ret); // TCP Socket Error code
}
}
return 0 ;
}
/*JSON{
"type" : "staticmethod",
"class" : "WIZnet",
"name" : "connect",
"generate" : "jswrap_wiznet_connect",
"params" : [
["spi", "JsVar", "Device to use for SPI (or undefined to use the default)"],
["cs", "pin", "The pin to use for Chip Select"]
],
"return" : ["JsVar","An Ethernet Object"],
"return_object" : "Ethernet"
}
Initialise the WIZnet module and return an Ethernet object
*/
JsVar *jswrap_wiznet_connect(JsVar *spi, Pin cs) {
IOEventFlags spiDevice;
if (spi) {
spiDevice = jsiGetDeviceFromClass(spi);
if (!DEVICE_IS_SPI(spiDevice)) {
jsExceptionHere(JSET_ERROR, "Expecting SPI device, got %q", spi);
return 0;
}
} else {
// SPI config
JshSPIInfo inf;
jshSPIInitInfo(&inf);
inf.pinSCK = ETH_CLK_PIN;
inf.pinMISO = ETH_MISO_PIN;
inf.pinMOSI = ETH_MOSI_PIN;
inf.baudRate = 1000000;
inf.spiMode = SPIF_SPI_MODE_0;
jshSPISetup(ETH_SPI, &inf);
spiDevice = ETH_SPI;
}
if (!jshIsPinValid(cs))
cs = ETH_CS_PIN;
JsNetwork net;
networkCreate(&net, JSNETWORKTYPE_W5500);
net.data.device = spiDevice;
net.data.pinCS = cs;
networkSet(&net);
JsVar *ethObj = jspNewObject(0, "Ethernet");
// CS Configuration
jshSetPinStateIsManual(net.data.pinCS, false);
jshPinOutput(net.data.pinCS, 1); // de-assert CS
// Initialise WIZnet functions
reg_wizchip_cs_cbfunc(wizchip_select, wizchip_deselect);
reg_wizchip_spi_cbfunc(wizchip_read, wizchip_write);
/* wizchip initialize*/
uint8_t tmp;
uint8_t memsize[2][8] = { {2,2,2,2,2,2,2,2}, {2,2,2,2,2,2,2,2}};
if(ctlwizchip(CW_INIT_WIZCHIP,(void*)memsize) == -1)
{
jsiConsolePrint("WIZnet Initialize failed.\r\n");
networkFree(&net);
return 0;
}
#if _WIZCHIP_ == 5500
/* PHY link status check - W5100 doesn't have this */
do {
if(ctlwizchip(CW_GET_PHYLINK, (void*)&tmp) == -1) {
jsiConsolePrint("Unknown PHY Link status.\r\n");
networkFree(&net);
return 0;
}
} while (tmp == PHY_LINK_OFF);
#endif
networkFree(&net);
networkState = NETWORKSTATE_ONLINE;
return ethObj;
}
/**
* @brief Main program
* @param None
* @retval None
*/
int main()
{
//uint8_t tx_size[8] = { 2, 2, 2, 2, 2, 2, 2, 2 };
//uint8_t rx_size[8] = { 2, 2, 2, 2, 2, 2, 2, 2 };
//uint8_t mac_addr[6] = {0x00, 0x08, 0xDC, 0x11, 0x22, 0x33};
//uint8_t src_addr[4] = {192, 168, 0, 80};
//uint8_t gw_addr[4] = {192, 168, 0, 1};
//uint8_t sub_addr[4] = {255, 255, 255, 0};
//uint8_t dns_server[4] = {8, 8, 8, 8}; // for Example domain name server
//uint8_t tmp[8];
//int ret;
int i;
#if defined (_MAIN_DEBUG_) && defined (_USE_SDCARD_)
int ret;
#endif
#if defined(F_APP_FTP)
wiz_NetInfo gWIZNETINFO;
#endif
#if defined(F_APP_DHCP) || defined(F_APP_DNS)
S2E_Packet *value = get_S2E_Packet_pointer();
#endif
#if defined(F_APP_DNS)
uint8_t dns_server_ip[4];
#endif
/* External Clock */
CRG_PLL_InputFrequencySelect(CRG_OCLK);
/* Set System init */
SystemInit();
/* UART Init */
UART_StructInit(&UART_InitStructure);
UART_Init(UART_DEBUG,&UART_InitStructure);
/* SysTick_Config */
SysTick_Config((GetSystemClock()/1000));
/* Set WZ_100US Register */
setTIC100US((GetSystemClock()/10000));
//getTIC100US();
//printf(" GetSystemClock: %X, getTIC100US: %X, (%X) \r\n",
// GetSystemClock, getTIC100US(), *(uint32_t *)TIC100US);
LED_Init(LED1);
LED_Init(LED2);
LED_Init(LED3);
LED_Off(LED1);
LED_Off(LED2);
LED_Off(LED3);
g_sdcard_done = 0;
BOOT_Pin_Init();
Board_factory_Init();
EXTI_Configuration();
/* Load Configure Information */
load_S2E_Packet_from_storage();
UART_Configuration();
/* Check MAC Address */
check_mac_address();
Timer0_Configuration();
// ADC initialize
ADC_Init();
#ifdef _MAIN_DEBUG_
uint8_t tmpstr[6] = {0,};
ctlwizchip(CW_GET_ID,(void*)tmpstr);
printf("\r\n============================================\r\n");
printf(" WIZnet %s EVB Demo v%d.%.2d\r\n", tmpstr, VER_H, VER_L);
printf("============================================\r\n");
printf(" WIZwiki Platform based WEBBoot Example\r\n");
printf("============================================\r\n");
#endif
#ifdef __DEF_USED_IC101AG__ //For using IC+101AG
*(volatile uint32_t *)(0x41003068) = 0x64; //TXD0 - set PAD strengh and pull-up
*(volatile uint32_t *)(0x4100306C) = 0x64; //TXD1 - set PAD strengh and pull-up
*(volatile uint32_t *)(0x41003070) = 0x64; //TXD2 - set PAD strengh and pull-up
*(volatile uint32_t *)(0x41003074) = 0x64; //TXD3 - set PAD strengh and pull-up
*(volatile uint32_t *)(0x41003050) = 0x64; //TXE - set PAD strengh and pull-up
#endif
#ifdef __DEF_USED_MDIO__
/* mdio Init */
mdio_init(GPIOB, MDC, MDIO );
/* PHY Link Check via gpio mdio */
while( link() == 0x0 )
{
printf(".");
delay(500);
}
printf("PHY is linked. \r\n");
#else
delay(1000);
delay(1000);
#endif
Mac_Conf();
#if defined(F_APP_DHCP)
if(value->options.dhcp_use) // DHCP
{
uint32_t ret;
uint8_t dhcp_retry = 0;
#ifdef _MAIN_DEBUG_
printf(" - DHCP Client running\r\n");
#endif
DHCP_init(SOCK_DHCP, TX_BUF);
reg_dhcp_cbfunc(w5500_dhcp_assign, w5500_dhcp_assign, w5500_dhcp_conflict);
while(1)
{
ret = DHCP_run();
if(ret == DHCP_IP_LEASED)
{
#ifdef _MAIN_DEBUG_
printf(" - DHCP Success: DHCP Leased time : %ld Sec.\r\n\r\n", getDHCPLeasetime());
#endif
break;
}
else if(ret == DHCP_FAILED)
{
dhcp_retry++;
#ifdef _MAIN_DEBUG_
if(dhcp_retry <= 3) printf(" - DHCP Timeout occurred and retry [%d]\r\n", dhcp_retry);
#endif
}
if(dhcp_retry > 3)
{
#ifdef _MAIN_DEBUG_
printf(" - DHCP Failed\r\n\r\n");
#endif
value->options.dhcp_use = 0;
Net_Conf();
break;
}
do_udp_config(SOCK_CONFIG);
}
}
else // Static
{
Net_Conf();
}
#else
Net_Conf();
#endif
#ifdef _MAIN_DEBUG_
display_Net_Info();
#endif
#if defined(F_APP_ATC)
atc_init(&rxring, &txring);
op_mode = OP_DATA;
#endif
TFTP_init(SOCK_TFTP, socket_buf);
ret = application_update();
printf("[DEBUG] check trigger:%d ret:%d \r\n", get_bootpin_Status(), ret);
if((get_bootpin_Status() == 1) && (ret != TFTP_FAIL)) {
uint32_t tmp;
#if !defined(MULTIFLASH_ENABLE)
tmp = *(volatile uint32_t *)APP_BASE;
#else
tmp = *(volatile uint32_t *)flash.flash_app_base;
#endif
if((tmp & 0xffffffff) != 0xffffffff) {
printf("[DEBUG] application_jump\r\n");
application_jump();
}
}
#ifdef _USE_SDCARD_
// SD card Initialization
ret = mmc_mount();
if(ret <= 0)
{
#ifdef _MAIN_DEBUG_
printf("\r\n - Can't mount SD card: Please Reboot WIZ750WEB Board or Insert SD card\r\n");
#endif
//while(!(ret = mmc_mount()));
}
if(ret > 0)
{
#ifdef _MAIN_DEBUG_
display_SDcard_Info(ret);
#endif
}
#endif
httpServer_init(TX_BUF, RX_BUF, MAX_HTTPSOCK, socknumlist);
#ifdef _USE_WATCHDOG_
reg_httpServer_cbfunc(NVIC_SystemReset, IWDG_ReloadCounter); // Callback: STM32 MCU Reset / WDT Reset (IWDG)
#else
reg_httpServer_cbfunc(NVIC_SystemReset, NULL); // Callback: STM32 MCU Reset
#endif
IO_status_init();
#if defined(F_APP_FTP)
ctlnetwork(CN_GET_NETINFO, (void*) &gWIZNETINFO);
ftpd_init(gWIZNETINFO.ip); // Added by James for FTP
#endif
#ifdef _USE_WATCHDOG_
// IWDG Initialization: STM32 Independent WatchDog
IWDG_Configureation();
#endif
while (1) {
#ifdef _USE_WATCHDOG_
IWDG_ReloadCounter(); // Feed IWDG
#endif
#if defined(F_APP_ATC)
atc_run();
#endif
if(g_op_mode == NORMAL_MODE) {
do_udp_config(SOCK_CONFIG);
} else {
if(TFTP_run() != TFTP_PROGRESS)
g_op_mode = NORMAL_MODE;
}
#if defined(F_APP_DHCP)
if(value->options.dhcp_use)
DHCP_run();
#endif
for(i = 0; i < MAX_HTTPSOCK; i++) httpServer_run(i); // HTTP server handler
#if defined(F_APP_FTP)
ftpd_run(FTP_DBUF);
#endif
#ifdef _USE_WATCHDOG_
IWDG_ReloadCounter(); // Feed IWDG
#endif
}
return 0;
}
/**
* @brief Main program
* @param None
* @retval None
*/
int main()
{
//uint8_t tx_size[8] = { 2, 2, 2, 2, 2, 2, 2, 2 };
//uint8_t rx_size[8] = { 2, 2, 2, 2, 2, 2, 2, 2 };
uint8_t mac_addr[6] = {0x00, 0x08, 0xDC, 0x11, 0x22, 0x34};
uint8_t src_addr[4] = {192, 168, 0, 80};
uint8_t gw_addr[4] = {192, 168, 0, 1};
uint8_t sub_addr[4] = {255, 255, 255, 0};
//uint8_t dns_server[4] = {8, 8, 8, 8}; // for Example domain name server
uint8_t tmp[8];
#if LOOPBACK_MODE == LOOPBACK_MAIN_NOBLOCK
int ret;
uint8_t sn;
#if defined(TEST_TCPC)
int32_t loopback_ret;
struct sockaddr_in sa;
uint32_t s_addr;
#endif
#endif
// For TCP client loopback examples; destination network info
//uint8_t destip[4] = {192, 168, 0, 2};
//uint16_t destport = 5000;
//int32_t loopback_ret;
/* External Clock */
CRG_PLL_InputFrequencySelect(CRG_OCLK);
/* Set Systme init */
SystemInit();
/* UART Init */
UART_StructInit(&UART_InitStructure);
UART_Init(UART1,&UART_InitStructure);
/* SysTick_Config */
SysTick_Config((GetSystemClock()/1000));
/* Set WZ_100US Register */
setTIC100US((GetSystemClock()/10000));
//getTIC100US();
//printf(" GetSystemClock: %X, getTIC100US: %X, (%X) \r\n",
// GetSystemClock, getTIC100US(), *(uint32_t *)TIC100US);
#ifdef _MAIN_DEBUG_
uint8_t tmpstr[6] = {0,};
ctlwizchip(CW_GET_ID,(void*)tmpstr);
printf("\r\n============================================\r\n");
printf(" WIZnet %s EVB Demo v%d.%.2d\r\n", tmpstr, VER_H, VER_L);
printf("============================================\r\n");
printf(" WIZwiki Platform based Loopback Example\r\n");
printf("============================================\r\n");
#endif
#ifdef __DEF_USED_IC101AG__ //For using IC+101AG
*(volatile uint32_t *)(0x41003068) = 0x64; //TXD0 - set PAD strengh and pull-up
*(volatile uint32_t *)(0x4100306C) = 0x64; //TXD1 - set PAD strengh and pull-up
*(volatile uint32_t *)(0x41003070) = 0x64; //TXD2 - set PAD strengh and pull-up
*(volatile uint32_t *)(0x41003074) = 0x64; //TXD3 - set PAD strengh and pull-up
*(volatile uint32_t *)(0x41003050) = 0x64; //TXE - set PAD strengh and pull-up
#endif
#ifdef __DEF_USED_MDIO__
/* mdio Init */
mdio_init(GPIOB, MDC, MDIO );
/* PHY Link Check via gpio mdio */
while( link() == 0x0 )
{
printf(".");
delay(500);
}
printf("PHY is linked. \r\n");
#else
delay(1000);
delay(1000);
#endif
/* Network Configuration */
setSHAR(mac_addr);
setSIPR(src_addr);
setGAR(gw_addr);
setSUBR(sub_addr);
getSHAR(tmp);
printf("MAC ADDRESS : %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\r\n",tmp[0],tmp[1],tmp[2],tmp[3],tmp[4],tmp[5]);
getSIPR(tmp);
printf("IP ADDRESS : %.3d.%.3d.%.3d.%.3d\r\n",tmp[0],tmp[1],tmp[2],tmp[3]);
getGAR(tmp);
printf("GW ADDRESS : %.3d.%.3d.%.3d.%.3d\r\n",tmp[0],tmp[1],tmp[2],tmp[3]);
getSUBR(tmp);
printf("SN MASK: %.3d.%.3d.%.3d.%.3d\r\n",tmp[0],tmp[1],tmp[2],tmp[3]);
/* Set Network Configuration */
//wizchip_init(tx_size, rx_size);
#if LOOPBACK_MODE == LOOPBACK_MAIN_NOBLOCK
#if defined(TEST_TCPS) || defined(TEST_TCPC)
ret = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP);
#elif defined(TEST_UDPS)
ret = socket(AF_INET, SOCK_STREAM, IPPROTO_UDP);
#endif
#if defined(TEST_TCPC)
memset(&sa, 0, sizeof(sa));
sa.sin_len = (uint16_t)sizeof(sa);
sa.sin_family = AF_INET;
sa.sin_port = htons(destport);
s_addr = (((((destip[0] << 8) | destip[1]) << 8) | destip[2]) << 8) | destip[3];
sa.sin_addr.s_addr = htonl(s_addr);
#endif
if(ret == -1)
{
#ifdef _LOOPBACK_DEBUG_
printf("%d:Socket Error\r\n", ret);
#endif
return ret;
}
sn = ret;
#endif
while(1)
{
/* Loopback Test: TCP Server and UDP */
#if LOOPBACK_MODE == LOOPBACK_MAIN_NOBLOCK
#if defined(TEST_TCPS)
loopback_tcps_bsd(sn, gDATABUF, TEST_PORT);
#elif defined(TEST_UDPS)
loopback_udps_bsd(sn, gDATABUF, TEST_PORT);
#elif defined(TEST_TCPC)
loopback_ret = loopback_tcpc_bsd(sn, gDATABUF, (struct sockaddr*)&sa);
if(loopback_ret < 0) printf("loopback ret: %ld\r\n", loopback_ret); // TCP Socket Error code
#endif
#elif LOOPBACK_MODE == LOOPBACK_MAIN_SAMPLE
#if defined(TEST_TCPS)
loopback_tcps_bsd(test_buf);
#elif defined(TEST_TCPC)
loopback_tcpc_bsd(test_buf);
#endif
#endif
}
}
/**
* @brief Main program
* @param None
* @retval None
*/
int main()
{
//uint8_t tx_size[8] = { 2, 2, 2, 2, 2, 2, 2, 2 };
//uint8_t rx_size[8] = { 2, 2, 2, 2, 2, 2, 2, 2 };
//uint8_t mac_addr[6] = {0x00, 0x08, 0xDC, 0x11, 0x22, 0x33};
//uint8_t src_addr[4] = {192, 168, 0, 80};
//uint8_t gw_addr[4] = {192, 168, 0, 1};
//uint8_t sub_addr[4] = {255, 255, 255, 0};
//uint8_t dns_server[4] = {8, 8, 8, 8}; // for Example domain name server
//uint8_t tmp[8];
//int ret;
/* External Clock */
CRG_PLL_InputFrequencySelect(CRG_OCLK);
/* Set System init */
SystemInit();
/* UART Init */
UART_StructInit(&UART_InitStructure);
UART_Init(UART_DEBUG,&UART_InitStructure);
/* SysTick_Config */
SysTick_Config((GetSystemClock()/1000));
/* Set WZ_100US Register */
setTIC100US((GetSystemClock()/10000));
//getTIC100US();
//printf(" GetSystemClock: %X, getTIC100US: %X, (%X) \r\n",
// GetSystemClock, getTIC100US(), *(uint32_t *)TIC100US);
LED_Init(LED1);
LED_Init(LED2);
LED_On(LED1);
LED_Off(LED2);
BOOT_Pin_Init();
/* Load Configure Information */
load_S2E_Packet_from_storage();
UART_Configuration();
/* Check MAC Address */
check_mac_address();
Timer0_Configuration();
#ifdef _MAIN_DEBUG_
uint8_t tmpstr[6] = {0,};
ctlwizchip(CW_GET_ID,(void*)tmpstr);
printf("\r\n============================================\r\n");
printf(" WIZnet %s EVB Demo v%d.%.2d\r\n", tmpstr, VER_H, VER_L);
printf("============================================\r\n");
printf(" WIZwiki Platform based TFTP App Example\r\n");
printf("============================================\r\n");
#endif
#ifdef __DEF_USED_IC101AG__ //For using IC+101AG
*(volatile uint32_t *)(0x41003068) = 0x64; //TXD0 - set PAD strengh and pull-up
*(volatile uint32_t *)(0x4100306C) = 0x64; //TXD1 - set PAD strengh and pull-up
*(volatile uint32_t *)(0x41003070) = 0x64; //TXD2 - set PAD strengh and pull-up
*(volatile uint32_t *)(0x41003074) = 0x64; //TXD3 - set PAD strengh and pull-up
*(volatile uint32_t *)(0x41003050) = 0x64; //TXE - set PAD strengh and pull-up
#endif
#ifdef __DEF_USED_MDIO__
/* mdio Init */
mdio_init(GPIOB, MDC, MDIO );
/* PHY Link Check via gpio mdio */
while( link() == 0x0 )
{
printf(".");
delay(500);
}
printf("PHY is linked. \r\n");
#else
delay(1000);
delay(1000);
#endif
#if 0
/* Network Configuration */
setSHAR(mac_addr);
setSIPR(src_addr);
setGAR(gw_addr);
setSUBR(sub_addr);
getSHAR(tmp);
printf("MAC ADDRESS : %.2X:%.2X:%.2X:%.2X:%.2X:%.2X\r\n",tmp[0],tmp[1],tmp[2],tmp[3],tmp[4],tmp[5]);
getSIPR(tmp);
printf("IP ADDRESS : %.3d.%.3d.%.3d.%.3d\r\n",tmp[0],tmp[1],tmp[2],tmp[3]);
getGAR(tmp);
printf("GW ADDRESS : %.3d.%.3d.%.3d.%.3d\r\n",tmp[0],tmp[1],tmp[2],tmp[3]);
getSUBR(tmp);
printf("SN MASK: %.3d.%.3d.%.3d.%.3d\r\n",tmp[0],tmp[1],tmp[2],tmp[3]);
/* Set Network Configuration */
//wizchip_init(tx_size, rx_size);
#else
Net_Conf();
#endif
//TFTP_init(SOCK_TFTP, socket_buf);
while (1) {
if(g_op_mode == NORMAL_MODE) {
do_udp_config(SOCK_CONFIG);
} else {
if(TFTP_run() != TFTP_PROGRESS)
g_op_mode = NORMAL_MODE;
}
}
return 0;
}
