WIZwikiREST-io exercise code for WIZnet Academy
Dependencies: MbedJSONValue_v102 WIZnetInterface mbed
Fork of WIZwiki-REST-io_v103 by
main.cpp
- Committer:
- joon874
- Date:
- 2016-07-04
- Revision:
- 5:473a66ae9596
- Parent:
- 4:0b5a199e91f3
- Child:
- 6:2974bbc94e7a
File content as of revision 5:473a66ae9596:
#include "mbed.h" #include "HTTPServer.h" #include "RequestHandler.h" #include "EthernetInterface.h" #include "MbedJSONValue.h" // 20160630 #include "Adafruit_SSD1306.h" #define SERVER_PORT 80 //#define DHCP //#define DEBUG //-- I2C OLED -- class I2CPreInit : public I2C { public: I2CPreInit(PinName sda, PinName scl) : I2C(sda, scl) { frequency(100000); start(); }; }; I2CPreInit gI2C(PA_10,PA_9); Adafruit_SSD1306_I2c gOled(gI2C,NC,0x78,64,128); //-- PWM DC -- PwmOut DC(D6); //-- GPIO -- DigitalInOut GP05(D5); EthernetInterface eth; HTTPServer WIZwikiWebSvr; MbedJSONValue WIZwikiREST; // Enter a MAC address for your controller below. uint8_t mac_addr[6] = {0x00, 0x08, 0xDC, 0x00, 0x01, 0xFE}; char mac_str[20]; char ip_addr[] = "192.168.100.100"; char subnet_mask[] = "255.255.255.0"; char gateway_addr[] = "192.168.100.1"; GetRequestHandler myGetReq; PostRequestHandler myPostReq; //-- I2C OLED -- bool oled_set(void* param) { printf("param : %c \r\n", param); char * oled; if(!param) return false; oled = (char*) param; gOled.clearDisplay(); gOled.setTextCursor(0,0); gOled.printf("%s",oled); gOled.display(); return true; } //-- PWM DC -- bool pwm_set(void* param) { printf("%d\r\n",(*(int*)param)); if(!param) return false; DC.write((float)(*(int*)param)/100.0); return true; } //-- GPIO -- bool p5_set(void* param) { if(!param) return false; GP05.write(*(int*)param); return true; } void debug_info() { printf("SP:0x%X\r\n",__current_sp()); __heapstats((__heapprt)fprintf,stderr); #ifdef DEBUG __heapvalid((__heapprt)fprintf,stderr, 1); #endif printf("\r\n"); } void WIZwiki_REST_init(); int main(void) { #ifdef DEBUG debug_info(); #endif sprintf(mac_str, "%02X:%02X:%02X:%02X:%02X:%02X",mac_addr[0],mac_addr[1],mac_addr[2],mac_addr[3],mac_addr[4],mac_addr[5]); // OLED init gOled.begin(); gOled.clearDisplay(); // PWM init DC.period_ms(1); DC.write(0); //GPIO set & init GP05.output(); GP05.write(1); printf("START \r\n"); printf("sizeof(MbedJSONValue)=%d\r\n",sizeof(MbedJSONValue)); printf("sizeof(vector)=%d\r\n",sizeof(std::vector<string*>)); printf("sizeof(string)=%d\r\n",sizeof(std::string)); #ifdef DEBUG debug_info(); #endif WIZwiki_REST_init(); #ifdef DEBUG debug_info(); #endif // Serialize it into a JSON string printf("-------------------------WIZwikiREST--------------------------- \r\n"); printf("\r\n%s\r\n", WIZwikiREST.serialize().c_str()); printf("--------------------------------------------------------------- \r\n"); WIZwikiWebSvr.add_request_handler("GET", &myGetReq); WIZwikiWebSvr.add_request_handler("POST", &myPostReq); //WIZwikiWebSvr.add_request_handler("DELETE", new PostRequestHandler()); //WIZwikiWebSvr.add_request_handler("PUT", new PutRequestHandler()); #ifdef DHCP eth.init(mac_addr); //Use DHCP #else eth.init(mac_addr, ip_addr, subnet_mask, gateway_addr); //Not Use DHCP #endif printf("Check Ethernet Link\r\n"); do{ printf(" Link - Wait... \r\n"); wait(1); }while(!eth.ethernet_link()); printf("-- Ethetnet PHY Link - Done -- \r\n"); if (eth.connect() < 0 ) printf("-- EThernet Connect - Fail -- \r\n"); else { printf("-- Assigned Network Information -- \r\n"); printf(" IP : %s\r\n\r\n", eth.getIPAddress()); printf(" MASK : %s\r\n\r\n", eth.getNetworkMask()); printf(" GW : %s\r\n\r\n", eth.getGateway()); } printf("Link up\r\n"); printf("IP Address is %s\r\n", eth.getIPAddress()); #ifdef DEBUG debug_info(); #endif if(!WIZwikiWebSvr.init(SERVER_PORT)) { eth.disconnect(); return -1; } while(1) { WIZwikiWebSvr.run(); } } void WIZwiki_REST_init(void) { //Fill the object WIZwikiREST["Name"] = "WIZwiki-RESTful-01"; WIZwikiREST["Name"].accessible = false; #ifdef DEBUG debug_info(); #endif //Network WIZwikiREST["Network"]["MAC"] = mac_str; WIZwikiREST["Network"]["IP"] = ip_addr; WIZwikiREST["Network"]["IP"].accessible = true; WIZwikiREST["Network"]["SN"] = subnet_mask; WIZwikiREST["Network"]["SN"].accessible = true; WIZwikiREST["Network"]["GW"] = gateway_addr; WIZwikiREST["Network"]["GW"].accessible = true; // I2C OLED WIZwikiREST["I2C"]["OLED"] = "none"; WIZwikiREST["I2C"]["OLED"].accessible = true; WIZwikiREST["I2C"]["OLED"].cb_action = oled_set; // PWM DC WIZwikiREST["PWM"]["DC"] = DC.read(); WIZwikiREST["PWM"]["DC"].accessible = true; WIZwikiREST["PWM"]["DC"].cb_action = pwm_set; // GPIO WIZwikiREST["GPIOs"]["P05"] = GP05.read(); WIZwikiREST["GPIOs"]["P05"].accessible = true; WIZwikiREST["GPIOs"]["P05"].cb_action = p5_set; #ifdef DEBUG debug_info(); #endif }