#include "config.h" #include "commands.h" #include "parsing.h" #include "uart.h" #include "eeprom.h" #include #include #include #include // Execute a single parsed command void executeCommand(CommandLine cmdLine) { // Parse command if (strcmp(cmdLine.command, "INIT") == 0) { // INIT command: Initializes connection. commandInit(); } else if (strcmp(cmdLine.command, "READ") == 0) { // READ command: Takes a hex address range (or single address) as argument, // reads data and returns it in hexadecimal ASCII format. commandRead(cmdLine.arg); } else if (strcmp(cmdLine.command, "WRITE") == 0) { // WRITE command: Takes a hex address as argument, reads data from UART and writes it to the EEPROM. commandRead(cmdLine.arg); } else if (strcmp(cmdLine.command, "TESTREAD") == 0) { // TESTREAD command: for testing purposes, reads a few bytes and returns them in a human readable format. commandTestRead(); } else if (strcmp(cmdLine.command, "TESTWRITE") == 0) { // TESTWRITE command: for testing purposes, writes a few bytes commandTestWrite(cmdLine.arg); } else { // unknown command: return error message uartPutString("ERR invalid command\r\n"); } } void commandInit() { // TODO init... or something? uartPutString("OK\n"); } void commandRead(char* arg) { if (arg == NULL) { uartPutString("ERR READ needs an address or address range\r\n"); return; } // Parse address(es) AddressRange range = parseAddressRange(arg); if (!range.isValid) { uartPutString("ERR invalid address format\r\n"); return; } // TODO read data and output it uartPutString("ERR not implemented\n"); } void commandWrite(char* arg) { if (arg == NULL) { uartPutString("ERR WRITE needs a start address\r\n"); return; } // Parse address AddressRange range = parseSingleAddress(arg); if (!range.isValid) { uartPutString("ERR invalid address format\r\n"); return; } // TODO read data from input and write to EEPROM uartPutString("ERR not implemented\n"); } void commandErase() { // TODO uartPutString("ERR not implemented\n"); } // TESTREAD command: for testing purposes, reads a few bytes and returns them in a human readable format. void commandTestRead() { uint8_t byte; char outBuffer[20]; eepromSetReadMode(); for (int i = 0x00; i < 0x20; i++) { itoa(i, outBuffer, 16); uartPutString("TESTREAD 0x"); uartPutString(outBuffer); uartPutString(": "); byte = eepromReadByte(i); itoa(byte, outBuffer, 16); uartPutChar(byte); uartPutString(" (0x"); uartPutString(outBuffer); uartPutString(")\r\n"); } } // TESTWRITE command: for testing purposes, writes a few bytes void commandTestWrite(char* arg) { char str[] = "Ohai world"; address_t addr = 0x00; char* writeStr = str; if (arg != NULL) { writeStr = arg; } eepromSetWriteMode(); // write input line instead of static string for (char* p = writeStr; *p != '\0'; p++) { eepromWriteByte(addr, *p); //_delay_ms(100); addr++; } // TODO necessary? _delay_ms(100); uartPutString("TESTWRITE success\r\n"); }