Groep E3 - EMDEV
Dependencies: EthernetInterface HTTPServer RemoteIR SDFileSystem mbed-rpc mbed-rtos mbed
Fork of SmartRemote by
main.cpp
- Committer:
- sarvagyavaish
- Date:
- 2013-12-03
- Revision:
- 12:20ba5378ede2
- Parent:
- 9:47c413188c0d
- Child:
- 13:12749822ba56
File content as of revision 12:20ba5378ede2:
#include "mbed.h" #include "EthernetInterface.h" #include "HTTPServer.h" #include "FsHandler.h" #include "RpcHandler.h" #include "rtos.h" DigitalOut led1(LED1); //Start IR #include "ReceiverIR.h" #include "TransmitterIR.h" #include "IR.h" //END IR // Start DB #include <stdio.h> #include <stdlib.h> #include "SDFileSystem.h" #include "db.h" // End DB // Start RPC #include "RPCVariable.h" int Request = 0; int Learn = 0; char Learn_name0; char Learn_name1; char Learn_name2; char Learn_name3; char Learn_name4; char Learn_name5; char Learn_name6; char Learn_name7; char Learn_name8; char Learn_name9; //Make these variables accessible over RPC by attaching them to an RPCVariable RPCVariable<int> RPCRequest(&Request, "Request"); RPCVariable<int> RPCLearn(&Learn, "Learn"); RPCVariable<char> RPCLearner0(&Learn_name0, "Learn_name0"); RPCVariable<char> RPCLearner1(&Learn_name1, "Learn_name1"); RPCVariable<char> RPCLearner2(&Learn_name2, "Learn_name2"); RPCVariable<char> RPCLearner3(&Learn_name3, "Learn_name3"); RPCVariable<char> RPCLearner4(&Learn_name4, "Learn_name4"); RPCVariable<char> RPCLearner5(&Learn_name5, "Learn_name5"); RPCVariable<char> RPCLearner6(&Learn_name6, "Learn_name6"); RPCVariable<char> RPCLearner7(&Learn_name7, "Learn_name7"); RPCVariable<char> RPCLearner8(&Learn_name8, "Learn_name8"); RPCVariable<char> RPCLearner9(&Learn_name9, "Learn_name9"); // End RPC Serial pc(USBTX, USBRX, "pc"); // Instantiate a HTTPServer to handle incoming requests HTTPServer svr; // Instantiate a local file system handler named 'local' which will be used later to access files on the mbed. LocalFileSystem local("local"); SDFileSystem sd(p5, p6, p7, p8, "sd"); // the pinout on the mbed int main() { printf("Setting up Apache...\n \r"); HTTPFsRequestHandler::mount("/local/", "/"); svr.addHandler<HTTPFsRequestHandler>("/"); svr.addHandler<HTTPRpcRequestHandler>("/rpc"); EthernetInterface eth; eth.init(); //Use DHCP eth.connect(30000); // Now start the server on port 80. if (!svr.start(80, ð)) { error("Server not starting !"); exit(0); } printf("IP: %s\n \r", eth.getIPAddress()); printf("Setup OK\n \r"); // DB Init mkdir("/sd/SmartRemote", 0777); char tuple_code[128]; char tuple_name[128]; char tuple_bitlength[128]; char tuple_format[128]; /* db_insert_tuple(code, name); FILE *fread = fopen("/sd/SmartRemote/db.txt", "r"); db_find_tuple(fread, Request, results_name, results_code); fclose(fread); */ //End DB init //IR Init uint8_t buf1[32]; uint8_t buf2[32]; int bitlength1; int bitlength2; RemoteIR::Format format; memset(buf1, 0x00, sizeof(buf1)); memset(buf2, 0x00, sizeof(buf2)); //END IR Init printf("Listening...\n \r"); Timer tm; tm.start(); //Listen indefinitely while(true) { svr.poll(); if(tm.read()>.5) { tm.start(); } if (Learn) { // Debug LED led1 = 1; // Receive the code { bitlength1 = receive(&format, buf1, sizeof(buf1)); if (bitlength1 < 0) { continue; } display_status("RECV", bitlength1); display_data(buf1, bitlength1); //display_format(format); } // Set up the variables sprintf(tuple_name, "%s", "TEST"); sprintf(tuple_code, "%s", buf1); sprintf(tuple_bitlength, "%d", bitlength1); sprintf(tuple_format, "%s", format); // Insert into DB db_insert_tuple(tuple_name, tuple_code, tuple_bitlength, tuple_format); // Reset led1 = 0; Learn = 0; } } return 0; }