/* * main.c * * Created on: 22 нояб. 2018 г. * Author: maxx */ #include #include #include #include #include //sbi, cbi etc.. #include "avr/wdt.h" // WatchDog #include // printf etc.. #include "uart_extd.h" #include "spi.h" #include "globals.h" //Global definitions for project #include "stdbool.h" #include "Ethernet/socket.h" #include "Ethernet/wizchip_conf.h" #include "Internet/httpServer/httpServer.h" #include "webpage.h" //#include "Application/loopback/loopback.h" //#include "Application/webserver_simple/webserver_simple.h" //#include // itoa etc.. /* (10) Try repeat example HTTPServer_LPC11E36_LPCXpresso on AVR Mega1284p (All pages still in RAM) * Here used to WEB-server handle cgi-like requests, with AJAX + JSON * Description here: * http://wiznetmuseum.com/portfolio-items/w5500-evb-web-server/ * * To better undestand AJAX look here (actually here used AJAX + XHTML): * https://startingelectronics.org/tutorials/arduino/ethernet-shield-web-server-tutorial/web-server-read-switch-using-AJAX/ * https://startingelectronics.org/tutorials/arduino/ethernet-shield-web-server-tutorial/web-server-read-switch-automatically-using-AJAX/ * https://startingelectronics.org/tutorials/arduino/ethernet-shield-web-server-tutorial/AJAX-read-switches-analog/ * https://startingelectronics.org/tutorials/arduino/ethernet-shield-web-server-tutorial/SD-card-AJAX-web-server/ * https://startingelectronics.org/tutorials/arduino/ethernet-shield-web-server-tutorial/SD-card-AJAX-XML-web-server/ * https://startingelectronics.org/tutorials/arduino/ethernet-shield-web-server-tutorial/SD-card-gauge/ * https://startingelectronics.org/tutorials/arduino/ethernet-shield-web-server-tutorial/SD-card-IO/ * * To online encode text file to C source use online utility (Text->Cpp): * https://tomeko.net/online_tools/cpp_text_escape.php?lang=en * add option (this is for good reading into browser, as source code) * after that insert in any text editor and replace <\n"> sequence to <\n"\> (this is for recognize multiple string into C-source headers) * * Also can use File->HEX (BIN2HEX) - for prepare images for example: * https://tomeko.net/online_tools/file_to_hex.php?lang=en * * (9) Simple webserver, based on code from: * http://www.ermicro.com/blog/?p=1773 * Article: Integrating Wiznet W5100, WIZ811MJ network module with Atmel AVR Microcontroller * * (3) Trying WIZNET5500 init with using official Wiznet ioLibrary_Driver * working ping on static IP * LED1 = ON when phy_link detected * and loopback test on TCP-IP:5000 and UDP:3000 ports. * use Hercules terminal utility to check network connection see: * * https://wizwiki.net/wiki/doku.php?id=osh:cookie:loopback_test * https://www.hw-group.com/software/hercules-setup-utility * */ //***********Prologue for fast WDT disable & and save reason of reset/power-up: BEGIN uint8_t mcucsr_mirror __attribute__ ((section (".noinit"))); // This is for fast WDT disable & and save reason of reset/power-up void get_mcusr(void) \ __attribute__((naked)) \ __attribute__((section(".init3"))); void get_mcusr(void) { mcucsr_mirror = MCUSR; MCUSR = 0; wdt_disable(); } //***********Prologue for fast WDT disable & and save reason of reset/power-up: END #ifdef IP_WORK //NIC metrics for WORK PC wiz_NetInfo netInfo = { .mac = {0x00, 0x08, 0xdc, 0xab, 0xcd, 0xef}, // Mac address .ip = {192, 168, 0, 199}, // IP address .sn = {255, 255, 255, 0}, // Subnet mask .dns = {8,8,8,8}, // DNS address (google dns) .gw = {192, 168, 0, 1}, // Gateway address .dhcp = NETINFO_STATIC}; //Static IP configuration #else //NIC metrics for another PC (second IP configuration) wiz_NetInfo netInfo = { .mac = {0x00, 0x08, 0xdc, 0xab, 0xcd, 0xef}, // Mac address .ip = {192, 168, 1, 199}, // IP address .sn = {255, 255, 255, 0}, // Subnet mask .dns = {8,8,8,8}, // DNS address (google dns) .gw = {192, 168, 1, 1}, // Gateway address .dhcp = NETINFO_STATIC}; //Static IP configuration #endif //*********Program metrics const char compile_date[] PROGMEM = __DATE__; // Mmm dd yyyy - Дата компиляции const char compile_time[] PROGMEM = __TIME__; // hh:mm:ss - Время компиляции const char str_prog_name[] PROGMEM = "\r\nAtMega1284p v1.0 Static IP HTTPServer_LPC11E36->AtMega1284p WIZNET_5500 ETHERNET 06/12/2018\r\n"; // Program name /* * m1284p minimum template, with one button & one led */ //M644P/M1284p Users LEDS: //LED1/PORTC.4- m644p/m1284p maxxir #define led1_conf() DDRC |= (1<getchar() там опрос блокируется пока символ не будет принят (поллинг) через UART1_RX, т.е. неудобно. */ // STDOUT UART0 TX handler static int uart0_putchar(char ch,FILE *stream) { uart_putc(ch); return 0; } // Очищаем буфер приема UART1 RX (иногда нужно) static void uart0_rx_flash(void) { // Считываем все из ring-buffer UART1 RX unsigned int c; do { c = uart_getc(); } while (( c & UART_NO_DATA ) == 0); // Check RX1 none-empty } //***************** UART0: END //***************** ADC: BEGIN #ifndef ADC_DIV //12.5MHz or over use this ADC reference clock #define ADC_DIV (1< like: #define DATA_BUF_SIZE 512 //This is for save RAM resources */ //#define HTTPD_MAX_BUF_SIZE 2048 //This is for maximum throughput /* !!Don't forget also set size DATA_BUF_SIZE in like: #define DATA_BUF_SIZE 2048 //This is for maximum throughput */ uint8_t RX_BUF[HTTPD_MAX_BUF_SIZE]; uint8_t TX_BUF[HTTPD_MAX_BUF_SIZE]; int main() { uint8_t prev_sw1 = 1; // VAR for sw1 pressing detect // INIT MCU avr_init(); spi_init(); //SPI Master, MODE0, 4Mhz(DIV4), CS_PB.3=HIGH - suitable for WIZNET 5x00(1/2/5) // Print program metrics PRINTF("%S", str_prog_name);// Название программы PRINTF("Compiled at: %S %S\r\n", compile_time, compile_date);// Время Дата компиляции PRINTF(">> MCU is: %S; CLK is: %luHz\r\n", str_mcu, F_CPU);// MCU Name && FREQ PRINTF(">> Free RAM is: %d bytes\r\n", freeRam()); //Short Blink LED 3 times on startup unsigned char i = 3; while(i--) { led1_high(); _delay_ms(100); led1_low(); _delay_ms(400); wdt_reset(); } //Wizchip WIZ5500 Ethernet initialize IO_LIBRARY_Init(); //After that ping must working print_network_information(); //**************************************HTTPD init: BEGIN /* HTTP Server Initialization */ httpServer_init(TX_BUF, RX_BUF, MAX_HTTPSOCK, socknumlist); // Tx/Rx buffers (1kB) / The number of W5500 chip H/W sockets in use //reg_httpServer_cbfunc(NVIC_SystemReset, NULL); // Callback: NXP MCU Reset reg_httpServer_cbfunc(NULL, NULL); // Callback: Still not used here ARV System reset, AVR WDT reset if(1) { /* 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 *)wiz550web_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 *)wiz550web_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 *)wiz550web_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 *)wiz550web_ajax_js); // ajax.js : JavaScript for AJAX request transfer //Device info page && related ajax script reg_httpServer_webContent((uint8_t *)"info.html", (uint8_t *)info_page); //info.html reg_httpServer_webContent((uint8_t *)"info.js", (uint8_t *)wiz550web_info_js); // info.js : JavaScript for Device information (+ ajax.js) #ifdef _MAIN_DEBUG_ display_reg_webContent_list(); #endif } //**************************************HTTPD init: END /* Loopback Test: TCP Server and UDP */ // Test for Ethernet data transfer validation //uint32_t timer_link_1sec = millis(); uint32_t timer_httpd_1sec = millis(); bool run_user_applications = true; while(1) { //Here at least every 1sec wdt_reset(); // WDT reset at least every sec /* HTTPD */ /*HTTPD timer 1 sec interval tick*/ if((millis()-timer_httpd_1sec)> 1000) { //here every 1 sec timer_httpd_1sec = millis(); //////////////////////////////////////////////////////// // SHOULD BE Added HTTP Server Time Handler to your 1s tick timer httpServer_time_handler(); // for HTTP server time counter //////////////////////////////////////////////////////// //Printout RAM usage every 1 minute static uint16_t j_ram = 0; if(j_ram++%60 == 0) { PRINTF(">> Free RAM is: %d bytes\r\n", freeRam()); } } // TODO: insert user's code here if(run_user_applications) { for(i = 0; i < MAX_HTTPSOCK; i++) httpServer_run(i); // HTTP Server handler //loopback_tcps(SOCK_TCPS, RX_BUF, 5000); //not used here } // End of user's code //Use Hercules Terminal to check loopback tcp:5000 and udp:3000 /* * https://www.hw-group.com/software/hercules-setup-utility * */ //loopback_tcps(0,ethBuf0,5000); //loopback_udps(1, ethBuf1, 3000); //Use WEBbrowser to connect to webserver: http://192.168.0.199/index.html //websrv_simple(2, ethBuf2_WEBSRV, 80); //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 //Not used here, because led1 handle via websrv_simple /* if((millis()-timer_link_1sec)> 1000) { //here every 1 sec timer_link_1sec = millis(); if(wizphy_getphylink() == PHY_LINK_ON) { led1_high(); } else { led1_low(); } } */ } return 0; } // Timer0 // 1ms IRQ // Used for millis() timing void timer0_init(void) { /* * * For M128 TCCR0 = (1<250kHz:250-=>1kHz) TIMSK |= 1<250kHz:250-=>1kHz) TIMSK0 |= 1<