int32 main(void) { #define TCP_LISTEN_PORT 5000 #define UDP_LISTEN_PORT 5000 int8 ret, root; uint32 tick = 0; ret = platform_init(); if(ret != RET_OK) { goto FAIL_TRAP; } ret = network_init(SOCK_DHCP, NULL, NULL); if(ret != RET_OK) { ERRA("network_init fail - ret(%d)", ret); goto FAIL_TRAP; } printf("\r\n-----------------------------------\r\n"); printf("SMTP Client using W5200\r\n"); printf("-----------------------------------\r\n\r\n"); Delay_tick(2000); menu_init(); root = menu_add("Network setting", 0, NULL); menu_add("Show", root, mn_show_network); menu_add("Static Set", root, mn_set_network); menu_add("Loopback", 0, mn_loopback); menu_add("LED Test", 0, mn_set_led); root = menu_add("App Test", 0, NULL); menu_add("DNS", root, mn_dns); menu_add("BASE64", root, mn_base64); menu_add("eMail", root, mn_email); menu_print_tree(); dhcp_alarm_start(NULL); while(1) { alarm_run(); menu_run(); if(lb_tcp) loopback_tcps(7, (uint16)TCP_LISTEN_PORT); if(lb_udp) loopback_udp(7, (uint16)UDP_LISTEN_PORT); if(wizpf_tick_elapse(tick) > 1000) { // running check wizpf_led_set(WIZ_LED3, VAL_TOG); tick = wizpf_get_systick(); } } FAIL_TRAP: wizpf_led_trap(1); return 0; }
int32 main(void) { if(platform_init(NULL) != RET_OK) goto FAIL_TRAP; if(network_init(SOCK_DHCP, NULL, NULL) != RET_OK) { ERR("network_init fail"); goto FAIL_TRAP; } printf("\r\n-----------------------------------\r\n"); printf("SMTP Client\r\n"); printf("-----------------------------------\r\n\r\n"); Delay_tick(2000); { int8 root; menu_init(); root = menu_add("Network setting", 0, NULL); menu_add("Show", root, mn_show_network); menu_add("Static Set", root, mn_set_network); menu_add("Loopback", 0, mn_loopback); menu_add("LED Test", 0, mn_set_led); root = menu_add("App Test", 0, NULL); menu_add("DNS", root, mn_dns); menu_add("BASE64", root, mn_base64); menu_add("eMail", root, mn_email); //menu_print_tree(); // For Debug } dhcp_auto_start(); while(1) { alarm_run(); menu_run(); if(lb_tcp) loopback_tcps(7, (uint16)TCP_LISTEN_PORT); if(lb_udp) loopback_udp(7, (uint16)UDP_LISTEN_PORT); wizpf_led_flicker(WIZ_LED1, 1000); // check loop is running } FAIL_TRAP: wizpf_led_trap(1); return 0; }
/** * @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; }
/** * @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, 0x71, 0x72, 0x77}; uint8_t src_addr[4] = {192, 168, 1, 98}; uint8_t gw_addr[4] = {192, 168, 1, 1}; uint8_t sub_addr[4] = {255, 255, 255, 0}; uint8_t tmp[8]; uint8_t i; /* External Clock */ //CRG_PLL_InputFrequencySelect(CRG_OCLK); /* Set Systme init */ SystemInit(); /* UART0 and UART1 configuration*/ //UART_StructInit(&UART_InitStructure); /* Configure UART1 */ //UART_Init(UART1,&UART_InitStructure); S_UART_Init(115200); /* SysTick_Config */ SysTick_Config((GetSystemClock()/1000)); /* LED configuration */ GPIO_Setting(); /* Set WZ_100US Register */ setTIC100US((GetSystemClock()/10000)); //getTIC100US(); //printf(" GetSystemClock: %X, getTIC100US: %X, (%X) \r\n", // GetSystemClock, getTIC100US(), *(uint32_t *)TIC100US); #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 __W7500P__ *(volatile uint32_t *)(0x41003070) = 0x61; *(volatile uint32_t *)(0x41003054) = 0x61; #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); #endif /* Network Configuration (Default setting) */ 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); /* HTTP Server Initialization */ httpServer_init(TX_BUF, RX_BUF, MAX_HTTPSOCK, socknumlist); // Tx/Rx buffers (1kB) reg_httpServer_cbfunc(NVIC_SystemReset, NULL); // Callback: MCU Reset { /* Web content registration (web content in webpage.h, Example web pages) */ // Index page and netinfo / base64 image demo reg_httpServer_webContent((uint8_t *)"index.html", (uint8_t *)index_page); // index.html : Main page example reg_httpServer_webContent((uint8_t *)"netinfo.html", (uint8_t *)netinfo_page); // netinfo.html : Network information example page reg_httpServer_webContent((uint8_t *)"netinfo.js", (uint8_t *)WIZwiki_W7500_web_netinfo_js); // netinfo.js : JavaScript for Read Network configuration (+ ajax.js) //reg_httpServer_webContent((uint8_t *)"img.html", (uint8_t *)img_page); // img.html : Base64 Image data example page // Example #1 reg_httpServer_webContent((uint8_t *)"dio.html", (uint8_t *)dio_page); // dio.html : Digital I/O control example page reg_httpServer_webContent((uint8_t *)"dio.js", (uint8_t *)WIZwiki_W7500_web_dio_js); // dio.js : JavaScript for digital I/O control (+ ajax.js) // Example #2 //reg_httpServer_webContent((uint8_t *)"ain.html", (uint8_t *)ain_page); // ain.html : Analog input monitor example page //reg_httpServer_webContent((uint8_t *)"ain.js", (uint8_t *)WIZwiki_W7500_web_ain_js); // ain.js : JavaScript for Analog input monitor (+ ajax.js) // Example #3 //reg_httpServer_webContent((uint8_t *)"ain_gauge.html", (uint8_t *)ain_gauge_page); // ain_gauge.html : Analog input monitor example page; using Google Gauge chart //reg_httpServer_webContent((uint8_t *)"ain_gauge.js", (uint8_t *)ain_gauge_js); // ain_gauge.js : JavaScript for Google Gauge chart (+ ajax.js) // AJAX JavaScript functions reg_httpServer_webContent((uint8_t *)"ajax.js", (uint8_t *)WIZwiki_W7500_web_ajax_js); // ajax.js : JavaScript for AJAX request transfer #ifdef _MAIN_DEBUG_ display_reg_webContent_list(); #endif } /* Main loop ***************************************/ while(1) { // TODO: insert user's code here for(i = 0; i < MAX_HTTPSOCK; i++) httpServer_run(i); // HTTP Server handler loopback_tcps(SOCK_TCPS, RX_BUF, 5000); } // End of Main loop }
/******************************************************************************* * Function Name : Main_Menu * Description : Display/Manage a Menu on HyperTerminal Window * Input : None * Output : None * Return : None *******************************************************************************/ void Main_Menu(void) { static char choice[3]; static char subject[32], msg[256], sender[32], passwd[32], recipient[32], encodedText[256]; static bool bTreat; static u8 Sip[4]; static char key = 0; static wiz_NetInfo netinfo; while (1) { /* Display Menu on HyperTerminal Window */ bTreat = (bool)RESET ; SerialPutString("\r\n====================== STM32-Discovery ===================\r\n"); SerialPutString("This Application is basic example of UART interface with\r\n"); SerialPutString("Windows Hyper Terminal. \r\n"); SerialPutString("\r\n==========================================================\r\n"); SerialPutString(" APPLICATION MENU :\r\n"); SerialPutString("\r\n==========================================================\r\n\n"); SerialPutString(" 1 - Set LD1 on \r\n"); SerialPutString(" 2 - Set LD1 off \r\n"); SerialPutString(" 3 - Show network setting\r\n"); SerialPutString(" 4 - Set network setting\r\n"); SerialPutString(" 5 - Run TCP Loopback\r\n"); SerialPutString(" 6 - Run UDP Loopback\r\n"); SerialPutString(" 7 - DNS test\r\n"); SerialPutString(" 8 - BASE64 test\r\n"); SerialPutString(" 9 - Send Mail\r\n"); SerialPutString("Enter your choice : "); GetInputString(choice); /* Set LD1 on */ if (strcmp(choice,"1")== 0) { bTreat = (bool)SET; LED3_onoff(ON); LED4_onoff(ON); } /* Set LD1 off */ if ((strcmp(choice,"2") == 0)) { bTreat = (bool)SET; LED3_onoff(OFF); LED4_onoff(OFF); } if (strcmp(choice,"3") == 0) { bTreat = (bool)SET; GetNetInfo(&netinfo); printf("\r\nIP : %d.%d.%d.%d", netinfo.IP[0],netinfo.IP[1],netinfo.IP[2],netinfo.IP[3]); printf("\r\nSN : %d.%d.%d.%d", netinfo.Subnet[0],netinfo.Subnet[1],netinfo.Subnet[2],netinfo.Subnet[3]); printf("\r\nGW : %d.%d.%d.%d", netinfo.Gateway[0],netinfo.Gateway[1],netinfo.Gateway[2],netinfo.Gateway[3]); printf("\r\nDNS server : %d.%d.%d.%d", netinfo.DNSServerIP[0],netinfo.DNSServerIP[1],netinfo.DNSServerIP[2],netinfo.DNSServerIP[3]); } if (strcmp(choice,"4") == 0) { bTreat = (bool)SET; // IP address SerialPutString("\r\nIP address : "); GetInputString(msg); if(!VerifyIPAddress(msg, netinfo.IP)) { SerialPutString("\aInvalid."); } // Subnet mask SerialPutString("\r\nSubnet mask : "); GetInputString(msg); if(!VerifyIPAddress(msg, netinfo.Subnet)) { SerialPutString("\aInvalid."); } // gateway address SerialPutString("\r\nGateway address : "); GetInputString(msg); if(!VerifyIPAddress(msg, netinfo.Gateway)) { SerialPutString("\aInvalid."); } // DNS address SerialPutString("\r\nDNS address : "); GetInputString(msg); if(!VerifyIPAddress(msg, netinfo.DNSServerIP)) { SerialPutString("\aInvalid."); } printf("\r\nIP : %d.%d.%d.%d", netinfo.IP[0],netinfo.IP[1],netinfo.IP[2],netinfo.IP[3]); printf("\r\nSN : %d.%d.%d.%d", netinfo.Subnet[0],netinfo.Subnet[1],netinfo.Subnet[2],netinfo.Subnet[3]); printf("\r\nGW : %d.%d.%d.%d", netinfo.Gateway[0],netinfo.Gateway[1],netinfo.Gateway[2],netinfo.Gateway[3]); printf("\r\nDNS server : %d.%d.%d.%d", netinfo.DNSServerIP[0],netinfo.DNSServerIP[1],netinfo.DNSServerIP[2],netinfo.DNSServerIP[3]); SetNetInfo(&netinfo); } if (strcmp(choice,"5") == 0) { bTreat = (bool)SET; SerialPutString("\r\nRun TCP loopback"); printf("\r\nRun TCP loopback, port number [%d] is listened", (u16)TCP_LISTEN_PORT); SerialPutString("\r\nTo Exit, press [Q]"); while(1) { if ((SerialKeyPressed((char*)&key) == 1) && (key == 'Q')) { SerialPutString("\r\n Stop "); break; } loopback_tcps(7, (u16)TCP_LISTEN_PORT); } } if (strcmp(choice,"6") == 0) { bTreat = (bool)SET; SerialPutString("\r\nRun UDP loopback"); printf("\r\nRun UDP loopback, port number [%d] is listened", (u16)UDP_LISTEN_PORT); SerialPutString("\r\nTo Exit, press [Q]"); while(1) { if ((SerialKeyPressed((char*)&key) == 1) && (key == 'Q')) { SerialPutString("\r\n Stop "); break; } loopback_udp(7, (u16)UDP_LISTEN_PORT); } } if (strcmp(choice,"7")== 0) { bTreat = (bool)SET; SerialPutString("\r\nServer address : "); GetInputString(msg); SerialPutString("URL = "); SerialPutString(msg); if (dns_query(SOCK_DNS, (void *)msg, Sip) == 1) { printf("\r\nSIP : %d.%d.%d.%d", (u16)Sip[0],(u16)Sip[1],(u16)Sip[2],(u16)Sip[3]); }else { SerialPutString("\n\r DNS fail"); } } if (strcmp(choice,"8")== 0) { bTreat = (bool)SET; memset(encodedText, '\0', 256); SerialPutString("\r\n"); SerialPutString(" 1 - BASE64 Encode \r\n"); SerialPutString(" 2 - BASE64 Decode \r\n"); SerialPutString("Enter your choice : "); GetInputString(choice); if (strcmp(choice,"1")== 0) { SerialPutString("Type Plain Text\r\n"); GetInputString(msg); base64_encode(msg, strlen(msg)+1, encodedText); SerialPutString("Encoded Text\r\n"); printf("%s\r\n", encodedText); }else if(strcmp(choice,"2")== 0){ SerialPutString("Type Encoded Text\r\n"); GetInputString(msg); base64_decode(msg, (void *)encodedText, strlen(msg)); SerialPutString("Decoded Text\r\n"); printf("%s\r\n", encodedText); } } if (strcmp(choice,"9")== 0) { bTreat = (bool)SET; SerialPutString("\r\nServer address : "); GetInputString(msg); SerialPutString("URL = "); SerialPutString(msg); // DNS if (dns_query(SOCK_DNS, (void *)msg, Sip) == 1) { printf("\r\nSIP : %d.%d.%d.%d", (u16)Sip[0],(u16)Sip[1],(u16)Sip[2],(u16)Sip[3]); while(1) { SerialPutString("\r\nType a Sender: "); GetInputString(sender); SerialPutString("Type a Password: "******"Type a Recipient: "); GetInputString(recipient); SerialPutString("Type a Subject: "); GetInputString(subject); SerialPutString("Type a message: "); GetInputString(msg); send_mail(SOCK_SMTP, (void *)sender, (void *) passwd, (void *)recipient, (void *)subject, (void *)msg, Sip); SerialPutString("\r\nIf you want send another message? [YES]: any key, [NO]: Q"); key = GetKey(); if (key == 'Q') { SerialPutString("\r\n Stop "); break; } } }else { SerialPutString("\r\nDNS error"); } } /* OTHERS CHOICE*/ if (bTreat == (bool)RESET) { SerialPutString(" wrong choice \r\n"); } } /* While(1)*/ }/* Main_Menu */
/** * @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, 0x71, 0x72, 0x77}; uint8_t src_addr[4] = {192, 168, 77, 9}; uint8_t gw_addr[4] = {192, 168, 77, 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]; uint32_t toggle = 1; /* External Clock */ //CRG_PLL_InputFrequencySelect(CRG_OCLK); /* Set Systme init */ SystemInit(); /* UART0 and UART1 configuration*/ //UART_StructInit(&UART_InitStructure); /* Configure UART0 */ //UART_Init(UART1,&UART_InitStructure); S_UART_Init(115200); /* 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 __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 __W7500P__ *(volatile uint32_t *)(0x41003070) = 0x61; *(volatile uint32_t *)(0x41003054) = 0x61; #endif #ifdef __DEF_USED_MDIO__ /* mdio Init */ mdio_init(GPIOB, MDC, MDIO ); //mdio_error_check(GPIOB, MDC, MDIO); //need verify... /* PHY Link Check via gpio mdio */ while( link() == 0x0 ) { printf("."); delay(500); } printf("PHY is linked. \r\n"); #else delay(1000); #endif /* Network Configuration (Default setting) */ 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); /* DHCP client Initialization */ DHCP_init(SOCK_DHCP, test_buf); /* DHCP IP allocation and check the DHCP lease time (for IP renewal) */ while(1) { 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 the registered 'my_ip_assign' in the two case. // // Add to ... // // toggle = 1; if(toggle) { getSIPR(tmp); printf("> DHCP IP : %d.%d.%d.%d\r\n", tmp[0], tmp[1], tmp[2], tmp[3]); getGAR(tmp); printf("> DHCP GW : %d.%d.%d.%d\r\n", tmp[0], tmp[1], tmp[2], tmp[3]); getSUBR(tmp); printf("> DHCP SN : %d.%d.%d.%d\r\n", tmp[0], tmp[1], tmp[2], tmp[3]); toggle = 0; close(SOCK_TCPS); /* If renewal IP address was defferent previous IP address, socket becomes to disconnect or close for new connection. */ } break; case DHCP_IP_LEASED: // if(toggle) { getSIPR(tmp); printf("> DHCP IP : %d.%d.%d.%d\r\n", tmp[0], tmp[1], tmp[2], tmp[3]); getGAR(tmp); printf("> DHCP GW : %d.%d.%d.%d\r\n", tmp[0], tmp[1], tmp[2], tmp[3]); getSUBR(tmp); printf("> DHCP SN : %d.%d.%d.%d\r\n", tmp[0], tmp[1], tmp[2], tmp[3]); toggle = 0; } // TO DO YOUR NETWORK APPs. loopback_tcps(SOCK_TCPS, test_buf, 5000); 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) { #if DEBUG_MODE != DEBUG_NO printf(">> DHCP %d Failed\r\n",my_dhcp_retry); #endif my_dhcp_retry = 0; DHCP_stop(); // if restart, recall DHCP_init() } break; default: break; } } }
/** * @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 dns_server[4] = {8, 8, 8, 8}; // for Example domain name server uint8_t mac_addr[6] = {0x00, 0x08, 0xDC, 0x01, 0x02, 0x03}; uint8_t src_addr[4] = {192, 168, 77, 123}; uint8_t gw_addr[4] = {192, 168, 77, 1}; uint8_t sub_addr[4] = {255, 255, 255, 0}; uint8_t tmp[8]; /* External Clock */ CRG_PLL_InputFrequencySelect(CRG_OCLK); /* Set Systme init */ SystemInit(); /* Configure UART2 */ S_UART_Init(115200); printf("run \r\n"); /* 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 __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 __W7500P__ *(volatile uint32_t *)(0x41003070) = 0x61; *(volatile uint32_t *)(0x41003054) = 0x61; #endif #ifdef __DEF_USED_MDIO__ /* mdio Init */ mdio_init(GPIOB, MDC, MDIO); //mdio_error_check(GPIOB, MDC, MDIO); //need verify... /* 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); printf("TEST- START \r\n"); while(1) { loopback_tcps(0, test_buf, 5000); } }
int32 main(void) { #define TCP_LISTEN_PORT 5000 #define UDP_LISTEN_PORT 5000 int8 ret, root; uint32 dhcp_renew, dhcp_rebind, dhcp_time; uint32 dhcp_tick, led_tick; ret = platform_init(); if(ret != RET_OK) { goto FAIL_TRAP; } ret = network_init(SOCK_DHCP, NULL, NULL); if(ret != RET_OK) { ERRA("network_init fail - ret(%d)", ret); goto FAIL_TRAP; } printf("\r\n-----------------------------------\r\n"); printf("SMTP Client using W5200\r\n"); printf("-----------------------------------\r\n\r\n"); Delay_tick(2000); do { ret = dhcp_manual(DHCP_ACT_START, NULL, &dhcp_renew, &dhcp_rebind); } while(ret != RET_OK); dhcp_renew = wizpf_tick_conv(FALSE, dhcp_renew); dhcp_rebind = wizpf_tick_conv(FALSE, dhcp_rebind); dhcp_time = dhcp_renew; menu_init(); root = menu_add("Network setting", 0, NULL); menu_add("Show", root, mn_show_network); menu_add("Static Set", root, mn_set_network); menu_add("Loopback", 0, mn_loopback); menu_add("LED Test", 0, mn_set_led); root = menu_add("App Test", 0, NULL); menu_add("DNS", root, mn_dns); menu_add("BASE64", root, mn_base64); menu_add("eMail", root, mn_email); menu_print_tree(); dhcp_tick = led_tick = wizpf_get_systick(); while(1) { if(wizpf_tick_elapse(dhcp_tick) > dhcp_time) { if(dhcp_time==dhcp_renew) DBG("start renew"); else DBG("start rebind"); ret = dhcp_manual(dhcp_time==dhcp_renew? DHCP_ACT_RENEW: DHCP_ACT_REBIND, NULL, &dhcp_renew, &dhcp_rebind); dhcp_tick = wizpf_get_systick(); if(ret == RET_OK) { // renew success dhcp_renew = wizpf_tick_conv(FALSE, dhcp_renew); dhcp_rebind = wizpf_tick_conv(FALSE, dhcp_rebind); dhcp_time = dhcp_renew; } else { if(dhcp_time == dhcp_renew) dhcp_time = dhcp_rebind; // renew fail, so try rebind else dhcp_time = 60000; // retry after 1 min } } menu_run(); if(lb_tcp) loopback_tcps(7, (uint16)TCP_LISTEN_PORT); if(lb_udp) loopback_udp(7, (uint16)UDP_LISTEN_PORT); if(wizpf_tick_elapse(led_tick) > 1000) { wizpf_led_set(WIZ_LED3, VAL_TOG); led_tick = wizpf_get_systick(); } } FAIL_TRAP: wizpf_led_trap(1); return 0; }
/** * It executes example program such as loopback_tcps(), loopback_tcpc(), and loopback_udp(). */ int main() { uint8 tx_mem_conf[8] = {8,8,8,8,8,8,8,8}; // for setting TMSR regsiter uint8 rx_mem_conf[8] = {8,8,8,8,8,8,8,8}; // for setting RMSR regsiter uint8 * data_buf = (uint8 *) 0xA10E0000; // buffer for loopack data uint8 ip[4] = {192,168,111,200}; // for setting SIP register uint8 gw[4] = {192,168,111,1}; // for setting GAR register uint8 sn[4] = {255,255,255,0}; // for setting SUBR register uint8 mac[6] = {0x00,0x08,0xDC,0x00,111,200}; // for setting SHAR register uint8 serverip[4] = {192,168,111,78}; // "TCP SERVER" IP address for loopback_tcpc() status.terminalSpeed = SERIAL_SPEED; status.downloadSpeed = SERIAL_DOWNLOAD_SPEED; data_buf = (uint8*)0xA10F0000; //InitXHyper255A(); // initiate MCU //SerialInit(status.terminalSpeed); // initiate serial port /* initiate W5300 */ printf("BBB");fflush(stdout); iinchip_init(); printf("CCC");fflush(stdout); /* allocate internal TX/RX Memory of W5300 */ if(!sysinit(tx_mem_conf,rx_mem_conf)) { printf("MEMORY CONFIG ERR.\r\n"); while(1); } //setMR(getMR()|MR_FS); // If Little-endian, set MR_FS. setSHAR(mac); // set source hardware address #ifdef __DEF_IINCHIP_PPP__ if(pppinit((uint8*)"test01", 6, (uint8*)"pppoe1000", 9)!=1) { printf("PPPoE fail.\r\n"); while(1); } close(0); #else /* configure network information */ setGAR(gw); // set gateway IP address setSUBR(sn); // set subnet mask address setSIPR(ip); // set source IP address #endif /* verify network information */ getSHAR(mac); // get source hardware address getGAR(gw); // get gateway IP address getSUBR(sn); // get subnet mask address getSIPR(ip); // get source IP address printf("SHAR : %02x:%02x:%02x:%02x:%02x:%02x\r\n",mac[0],mac[1],mac[2],mac[3],mac[4],mac[5]); printf("GWR : %d.%d.%d.%d\r\n",gw[0],gw[1],gw[2],gw[3]); printf("SUBR : %d.%d.%d.%d\r\n",sn[0],sn[1],sn[2],sn[3]); printf("SIPR : %d.%d.%d.%d\r\n",ip[0],ip[1],ip[2],ip[3]); while(1) { loopback_tcps(0,5000,data_buf,0); loopback_tcps(1,5000,data_buf,0); loopback_tcps(2,5000,data_buf,0); loopback_tcps(3,5000,data_buf,0); loopback_tcps(4,5000,data_buf,0); loopback_tcps(5,5000,data_buf,0); loopback_tcpc(6,serverip, 3000, data_buf,0); loopback_udp(7,3000,data_buf,0); } #ifdef __DEF_IINCHIP_PPP__ { uint8 ppp_mac[6]; getPDHAR(ppp_mac); pppterm(ppp_mac, getPSIDR()); } #endif while(1); }
/** * @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, 0x01, 0x02, 0x03}; uint8_t src_addr[4] = {192, 168, 77, 9}; uint8_t gw_addr[4] = {192, 168, 77, 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], ret, cid[16]; int i; GPIO_InitTypeDef GPIO_InitDef; /* External Clock */ CRG_PLL_InputFrequencySelect(CRG_OCLK); /* Clock */ *(volatile uint32_t *)(0x41001014) = 0x000C0200; // 48MHz //*(volatile uint32_t *)(0x41001014) = 0x00050200; // 20MHz, Default //*(volatile uint32_t *)(0x41001014) = 0x00040200; // 16MHz /* Set Systme init */ SystemInit(); /* UART2 Init */ S_UART_Init(115200); /* SysTick_Config */ SysTick_Config((GetSystemClock()/1000)); /* Set WZ_100US Register */ printf(" GetSystemClock : %d (Hz) \r\n", GetSystemClock()); setTIC100US((GetSystemClock()/10000)); printf(" val: %X, getTIC100US: %X, (%X) \r\n", GetSystemClock(), getTIC100US(), *(uint32_t *)WZTOE_TIC100US); #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 printf("PHY is linked. \r\n"); #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 GPIO_InitDef.GPIO_Pin = (GPIO_Pin_1 | GPIO_Pin_2); GPIO_InitDef.GPIO_Mode = GPIO_Mode_OUT; GPIO_Init(GPIOA, &GPIO_InitDef); PAD_AFConfig(PAD_PA, (GPIO_Pin_1 | GPIO_Pin_2), PAD_AF1); for(i=0; i<4; i++) { // LED ON GPIO_ResetBits(GPIOA, (GPIO_Pin_1 | GPIO_Pin_2)) ; delay(200); // LED OFF GPIO_SetBits(GPIOA, (GPIO_Pin_1 | GPIO_Pin_2)) ; delay(200); } printf("[DEBUG] SD Card Test\r\n"); bsp_sd_gpio_init(); ret = SD_Init(); switch(SD_Type) { case SD_TYPE_MMC: printf("[DEBUG] init ret : %d , SD Card Type : MMC\r\n", ret); break; case SD_TYPE_V1: printf("[DEBUG] init ret : %d , SD Card Type : SD\r\n", ret); break; case SD_TYPE_V2: printf("[DEBUG] init ret : %d , SD Card Type : SD2\r\n", ret); break; case SD_TYPE_V2HC: printf("[DEBUG] init ret : %d , SD Card Type : SDHC\r\n", ret); break; default: printf("[DEBUG] init ret : %d , SD Card Type : %d\r\n", ret, SD_Type); break; } memset(&cid[0], 0x00, 16); ret = SD_GetCID(cid); if( (cid[0]==0x00) && (cid[1]==0x00) && (cid[2]==0x00) && (cid[3]==0x00) && (cid[4]==0x00) && (cid[5]==0x00) && (cid[6]==0x00) && (cid[7]==0x00) && (cid[8]==0x00) && (cid[9]==0x00) && (cid[10]==0x00) && (cid[11]==0x00) && (cid[12]==0x00) && (cid[13]==0x00) && (cid[14]==0x00) && (cid[15]==0x00) ) { // Turn on LED 1 printf("SD Test Fail!!\r\n"); GPIO_ResetBits(GPIOA, GPIO_Pin_1); } else { // Turn on LED 1 & LED 2 printf("SD Test O.K!!!r\n"); GPIO_ResetBits(GPIOA, (GPIO_Pin_1|GPIO_Pin_2) ); } //printf("[DEBUG] state : %d\r\n", state); printf("[DEBUG] CID / MID : 0x%.2X\r\n", cid[0]); printf("[DEBUG] CID / OID : %c%c\r\n", cid[1], cid[2]); printf("[DEBUG] CID / PNM : %c%c%c%c%c\r\n", cid[3], cid[4], cid[5], cid[6], cid[7]); /* Network Configuration */ setSHAR(mac_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]); setSIPR(src_addr); getSIPR(tmp); printf("IP ADDRESS : %d.%d.%d.%d\r\n",tmp[0],tmp[1],tmp[2],tmp[3]); setGAR(gw_addr); getGAR(tmp); printf("GW ADDRESS : %d.%d.%d.%d\r\n",tmp[0],tmp[1],tmp[2],tmp[3]); setSUBR(sub_addr); getSUBR(tmp); printf("SN MASK: %d.%d.%d.%d\r\n",tmp[0],tmp[1],tmp[2],tmp[3]); while(1) { loopback_tcps(0, test_buf, 5000); } }
/******************************************************************************* * Function Name : Main_Menu * Description : Display/Manage a Menu on HyperTerminal Window * Input : None * Output : None * Return : None *******************************************************************************/ void Main_Menu(void) { static char choice[3]; static char msg[256]; static bool bTreat; static u8 Sip[4]; static char key = 0; static wiz_NetInfo netinfo; while (1) { /* Display Menu on HyperTerminal Window */ bTreat = (bool)RESET ; SerialPutString("\r\n====================== STM32-Discovery ===================\r\n"); SerialPutString("This Application is basic example of UART interface with\r\n"); SerialPutString("Windows Hyper Terminal. \r\n"); SerialPutString("\r\n==========================================================\r\n"); SerialPutString(" APPLICATION MENU :\r\n"); SerialPutString("\r\n==========================================================\r\n\n"); SerialPutString(" 1 - Set LD1 on \r\n"); SerialPutString(" 2 - Set LD1 off \r\n"); SerialPutString(" 3 - Show network setting\r\n"); SerialPutString(" 4 - Set network setting\r\n"); SerialPutString(" 5 - Run TCP Loopback\r\n"); SerialPutString(" 6 - Run UDP Loopback\r\n"); SerialPutString(" 7 - DNS test\r\n"); SerialPutString(" 8 - Twitter\r\n"); SerialPutString("Enter your choice : "); GetInputString(choice); /* Set LD1 on */ if (strcmp(choice,"1")== 0) { bTreat = (bool)SET; LED3_onoff(ON); LED4_onoff(ON); } /* Set LD1 off */ if ((strcmp(choice,"2") == 0)) { bTreat = (bool)SET; LED3_onoff(OFF); LED4_onoff(OFF); } if (strcmp(choice,"3") == 0) { bTreat = (bool)SET; GetNetInfo(&netinfo); printf("\r\nIP : %d.%d.%d.%d", netinfo.IP[0],netinfo.IP[1],netinfo.IP[2],netinfo.IP[3]); printf("\r\nSN : %d.%d.%d.%d", netinfo.Subnet[0],netinfo.Subnet[1],netinfo.Subnet[2],netinfo.Subnet[3]); printf("\r\nGW : %d.%d.%d.%d", netinfo.Gateway[0],netinfo.Gateway[1],netinfo.Gateway[2],netinfo.Gateway[3]); printf("\r\nDNS server : %d.%d.%d.%d", netinfo.DNSServerIP[0],netinfo.DNSServerIP[1],netinfo.DNSServerIP[2],netinfo.DNSServerIP[3]); } if (strcmp(choice,"4") == 0) { bTreat = (bool)SET; // IP address SerialPutString("\r\nIP address : "); GetInputString(msg); if(!VerifyIPAddress(msg, netinfo.IP)) { SerialPutString("\aInvalid."); } // Subnet mask SerialPutString("\r\nSubnet mask : "); GetInputString(msg); if(!VerifyIPAddress(msg, netinfo.Subnet)) { SerialPutString("\aInvalid."); } // gateway address SerialPutString("\r\nGateway address : "); GetInputString(msg); if(!VerifyIPAddress(msg, netinfo.Gateway)) { SerialPutString("\aInvalid."); } // DNS address SerialPutString("\r\nDNS address : "); GetInputString(msg); if(!VerifyIPAddress(msg, netinfo.DNSServerIP)) { SerialPutString("\aInvalid."); } printf("\r\nIP : %d.%d.%d.%d", netinfo.IP[0],netinfo.IP[1],netinfo.IP[2],netinfo.IP[3]); printf("\r\nSN : %d.%d.%d.%d", netinfo.Subnet[0],netinfo.Subnet[1],netinfo.Subnet[2],netinfo.Subnet[3]); printf("\r\nGW : %d.%d.%d.%d", netinfo.Gateway[0],netinfo.Gateway[1],netinfo.Gateway[2],netinfo.Gateway[3]); printf("\r\nDNS server : %d.%d.%d.%d", netinfo.DNSServerIP[0],netinfo.DNSServerIP[1],netinfo.DNSServerIP[2],netinfo.DNSServerIP[3]); SetNetInfo(&netinfo); } if (strcmp(choice,"5") == 0) { bTreat = (bool)SET; SerialPutString("\r\nRun TCP loopback"); printf("\r\nRun TCP loopback, port number [%d] is listened", (u16)TCP_LISTEN_PORT); SerialPutString("\r\nTo Exit, press [Q]"); while(1) { if ((SerialKeyPressed((char*)&key) == 1) && (key == 'Q')) { SerialPutString("\r\n Stop "); break; } loopback_tcps(7, (u16)TCP_LISTEN_PORT); } } if (strcmp(choice,"6") == 0) { bTreat = (bool)SET; SerialPutString("\r\nRun UDP loopback"); printf("\r\nRun UDP loopback, port number [%d] is listened", (u16)UDP_LISTEN_PORT); SerialPutString("\r\nTo Exit, press [Q]"); while(1) { if ((SerialKeyPressed((char*)&key) == 1) && (key == 'Q')) { SerialPutString("\r\n Stop "); break; } loopback_udp(7, (u16)UDP_LISTEN_PORT); } } if (strcmp(choice,"7")== 0) { bTreat = (bool)SET; SerialPutString("\r\nServer address : "); GetInputString(msg); SerialPutString("URL = "); SerialPutString(msg); if (dns_query(SOCK_DNS, (void *)msg, Sip) == 1) { printf("\r\nSIP : %d.%d.%d.%d", (u16)Sip[0],(u16)Sip[1],(u16)Sip[2],(u16)Sip[3]); }else { SerialPutString("\n\r DNS fail"); } } if (strcmp(choice,"8")== 0) { bTreat = (bool)SET; // DNS if (dns_query(SOCK_DNS, LIB_DOMAIN, Sip) == 1) { printf("\r\nSIP : %d.%d.%d.%d", (u16)Sip[0],(u16)Sip[1],(u16)Sip[2],(u16)Sip[3]); while(1) { /* sprintf(msg, "Hello, World [%d] from wiz820io", twit_cnt++); SerialPutString("\r\nSend Twitter Message: "); SerialPutString(msg); */ SerialPutString("\r\nType a message: "); GetInputString(msg); Twitter_Post(SOCK_TWITTER, (void *)msg, Sip); SerialPutString("\r\nIf you want send another message? [YES]: any key, [NO]: Q"); key = GetKey(); if (key == 'Q') { SerialPutString("\r\n Stop "); break; } } }else { SerialPutString("\r\nDNS error"); } } if (strcmp(choice,"9") == 0) { uint8 l_ip[4] = {222, 98, 173, 237}; bTreat = (bool)SET; SerialPutString("\r\nRun TCP loopback [Client]"); SerialPutString("\r\nTo Exit, press [Q]"); while(1) { if ((SerialKeyPressed((char*)&key) == 1) && (key == 'Q')) { SerialPutString("\r\n Stop "); break; } TCPClientOpen(7, 5000, l_ip, 5000); Delay_ms(3000); TCPClose(7); Delay_ms(3000); } } /* OTHERS CHOICE*/ if (bTreat == (bool)RESET) { SerialPutString(" wrong choice \r\n"); } } /* While(1)*/ }/* Main_Menu */