Compile SD library
Dependencies: SDFileSystem USBDevice max32630fthr
Fork of MAX30001-MAX32630FTHR-ECG-EVKIT by
HSP/RpcServer/RpcServer.cpp
- Committer:
- Emre.Eken@IST-LT-35101.maxim-ic.internal
- Date:
- 2018-04-05
- Revision:
- 0:8e4630a71eb1
File content as of revision 0:8e4630a71eb1:
/******************************************************************************* * Copyright (C) 2016 Maxim Integrated Products, Inc., All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL MAXIM INTEGRATED BE LIABLE FOR ANY CLAIM, DAMAGES * OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * Except as contained in this notice, the name of Maxim Integrated * Products, Inc. shall not be used except as stated in the Maxim Integrated * Products, Inc. Branding Policy. * * The mere transfer of this software does not imply any licenses * of trade secrets, proprietary technology, copyrights, patents, * trademarks, maskwork rights, or any other form of intellectual * property whatsoever. Maxim Integrated Products, Inc. retains all * ownership rights. ******************************************************************************* */ #include "RpcServer.h" #include "StringInOut.h" #include "StringHelper.h" #include "MAX30001_RPC.h" #include "Logging_RPC.h" #include "Peripherals.h" #include "HspLed_RPC.h" #include "S25FS512_RPC.h" #include "Testing_RPC.h" #include "RpcDeclarations.h" #include "Device_Logging.h" #include "../version.h" /// define the version string that is reported with a RPC "ReadVer" command #define FW_VERSION_STRING "MAX30001 FW Ver" char args[32][32]; char results[32][32]; /// define a fifo for incoming USB data static fifo_t fifo; /// define a buffer for incoming USB data static uint8_t fifoBuffer[128]; /// define stream out fifo static fifo_t fifoStreamOut; /// allocate a large fifo buffer for streaming out static uint32_t streamOutBuffer[0xC000 / 4]; /// define a device log for the BMP280, keeps track of mission and loggin status Device_Logging *bmp280_Logging; /// define a device log for the MAX30205 (instance 0), keeps track of mission /// and loggin status Device_Logging *MAX30205_0_Logging; /// define a device log for the MAX30205 (instance 1), keeps track of mission /// and loggin status Device_Logging *MAX30205_1_Logging; //****************************************************************************** fifo_t *GetUSBIncomingFifo(void) { return &fifo; } //****************************************************************************** fifo_t *GetStreamOutFifo(void) { return &fifoStreamOut; } //****************************************************************************** int System_ReadVer(char argStrs[32][32], char replyStrs[32][32]) { char version[32]; snprintf(version, sizeof(version)/sizeof(char), "%s %d.%d.%d %02d/%02d/%02d", FW_VERSION_STRING, VERSION_MAJOR, VERSION_MINOR, VERSION_PATCH, VERSION_MONTH, VERSION_DAY, VERSION_SHORT_YEAR); strcpy(replyStrs[0], version); strcpy(replyStrs[1], "\0"); return 0; } //****************************************************************************** int System_ReadBuildTime(char argStrs[32][32], char replyStrs[32][32]) { // strcpy(replyStrs[0],buildTime); // strcpy(replyStrs[1],"\0"); return 0; } //****************************************************************************** int System_SystemCoreClock(char argStrs[32][32], char replyStrs[32][32]) { sprintf(replyStrs[0], "SystemCoreClock = %d", SystemCoreClock); strcpy(replyStrs[1], "\0"); return 0; } //****************************************************************************** int System_GetTimestamp(char argStrs[32][32], char replyStrs[32][32]) { sprintf(replyStrs[0], "GetTimestamp = %d", 0); strcpy(replyStrs[1], "\0"); return 0; } static struct RPC_Object RPC_Procedures = {NULL, NULL}; //****************************************************************************** void RPC_addProcedure(struct RPC_registeredProcedure *procedure) { struct RPC_Object *obj = &RPC_Procedures; if (obj->last != NULL) { obj->last->next = procedure; } if (obj->head == NULL) { obj->head = procedure; } procedure->next = NULL; obj->last = procedure; } //****************************************************************************** void RPC_init(void) { fifo_init(&fifo, fifoBuffer, sizeof(fifoBuffer)); fifo_init(&fifoStreamOut, streamOutBuffer, sizeof(streamOutBuffer) / sizeof(uint32_t)); // MAX30001 RPC_addProcedure(&Define_MAX30001_WriteReg); RPC_addProcedure(&Define_MAX30001_ReadReg); RPC_addProcedure(&Define_MAX30001_Start); RPC_addProcedure(&Define_MAX30001_Stop); RPC_addProcedure(&Define_MAX30001_Enable_ECG_LeadON); RPC_addProcedure(&Define_MAX30001_Enable_BIOZ_LeadON); RPC_addProcedure(&Define_MAX30001_Read_LeadON); RPC_addProcedure(&Define_MAX30001_StartTest); RPC_addProcedure(&Define_MAX30001_INT_assignment); RPC_addProcedure(&Define_MAX30001_Rbias_FMSTR_Init); RPC_addProcedure(&Define_MAX30001_CAL_InitStart); RPC_addProcedure(&Define_MAX30001_ECG_InitStart); RPC_addProcedure(&Define_MAX30001_ECGFast_Init); RPC_addProcedure(&Define_MAX30001_PACE_InitStart); RPC_addProcedure(&Define_MAX30001_BIOZ_InitStart); RPC_addProcedure(&Define_MAX30001_RtoR_InitStart); RPC_addProcedure(&Define_MAX30001_Stop_ECG); RPC_addProcedure(&Define_MAX30001_Stop_PACE); RPC_addProcedure(&Define_MAX30001_Stop_BIOZ); RPC_addProcedure(&Define_MAX30001_Stop_RtoR); RPC_addProcedure(&Define_MAX30001_Stop_Cal); // Logging RPC_addProcedure(&Define_Logging_StartMissionDefine); RPC_addProcedure(&Define_Logging_AppendMissionCmd); RPC_addProcedure(&Define_Logging_EndMissionDefine); RPC_addProcedure(&Define_Logging_WriteMission); RPC_addProcedure(&Define_Logging_ReadMission); RPC_addProcedure(&Define_Logging_EraseMission); RPC_addProcedure(&Define_Logging_EraseWrittenSectors); RPC_addProcedure(&Define_Logging_StartLoggingUsb); RPC_addProcedure(&Define_Logging_StartLoggingFlash); RPC_addProcedure(&Define_Logging_GetLastWrittenPage); RPC_addProcedure(&Define_Logging_Start); // led RPC_addProcedure(&Define_Led_On); RPC_addProcedure(&Define_Led_Off); RPC_addProcedure(&Define_Led_BlinkHz); RPC_addProcedure(&Define_Led_BlinkPattern); // S25FS512 RPC_addProcedure(&Define_S25FS512_ReadId); RPC_addProcedure(&Define_S25FS512_ReadPagesBinary); RPC_addProcedure(&Define_S25FS512_Reset); RPC_addProcedure(&Define_S25FS512_EnableHWReset); RPC_addProcedure(&Define_S25FS512_SpiWriteRead); RPC_addProcedure(&Define_S25FS512_SpiWriteRead4Wire); RPC_addProcedure(&Define_Testing_Test_MAX30001); // SDCard RPC_addProcedure(&Define_SDCard_IsReady); // System RPC_addProcedure(&Define_System_ReadVer); RPC_addProcedure(&Define_System_ReadBuildTime); } //****************************************************************************** struct RPC_registeredProcedure *RPC_lookup(char *objectName, char *methodName) { struct RPC_registeredProcedure *ptr; // lookup all registered methods ptr = RPC_Procedures.head; while (ptr != NULL) { if (strcmp(ptr->objectName, objectName) == 0 && strcmp(ptr->methodName, methodName) == 0) { // we found a match... return with it return ptr; } ptr = ptr->next; } return NULL; } //****************************************************************************** char *GetToken(char *inStr, char *outStr, int start, char ch) { int i; int index = 0; int length = strlen(inStr); for (i = start; i < length; i++) { if (inStr[i] != ch) { outStr[index++] = inStr[i]; } else { break; } } outStr[index++] = 0; return outStr; } //****************************************************************************** void SendCommandList(char *reply) { struct RPC_registeredProcedure *ptr; reply[0] = 0; ptr = RPC_Procedures.head; while (ptr != NULL) { strcat(reply, "/"); strcat(reply, ptr->objectName); strcat(reply, "/"); strcat(reply, ptr->methodName); strcat(reply, ","); ptr = ptr->next; } strcat(reply, "\r\n"); } //****************************************************************************** int CheckForDoubleQuote(char *str) { int doubleQuoteFound; // scan through arguments, see if there is a double quote for a string // argument doubleQuoteFound = 0; while (*str != 0) { if (*str == '\"') { doubleQuoteFound = 1; break; } str++; } return doubleQuoteFound; } //****************************************************************************** void ExtractDoubleQuoteStr(char *src, char *dst) { int start; dst[0] = 0; start = 0; while (*src != 0) { // look for start if ((*src == '\"') && (start == 0)) { start = 1; src++; continue; } // look for end if ((*src == '\"') && (start == 1)) { *dst = 0; // terminate the string break; } if (start == 1) { *dst = *src; dst++; } src++; } } //****************************************************************************** void RPC_call_test(void) { int doubleQuoteFound; char doubleQuoteStr[64]; char *request = "/Logging/AppendMissionCmd \"BMP280 InitStart 1\""; // scan through arguments, see if there is a double quote for a string // argument doubleQuoteFound = CheckForDoubleQuote(request); if (doubleQuoteFound) { ExtractDoubleQuoteStr(request, doubleQuoteStr); } } //****************************************************************************** void RPC_call(char *request, char *reply) { const char slash[2] = "/"; const char space[2] = " "; char *objectName; char *methodName; char doubleQuoteStr[128]; char requestCpy[256]; char *token; int argIndex; int resultIndex; int doubleQuoteFound; struct RPC_registeredProcedure *procedurePtr; // clear out the reply reply[0] = 0; // copy the request for scanning and extraction later strcpy(requestCpy, request); // check for beginning forward slash if (request[0] != '/') { return; } // check for only a forward slash if (request[0] == '/' && request[1] == 0) { SendCommandList(reply); return; } strcat(request, " "); // get the object name token = strtok(request, slash); // token = GetToken(request, tokenBuffer, 1, '/'); objectName = token; if (objectName == NULL) return; // must have an object name // get the method name token = strtok(NULL, space); methodName = token; if (methodName == NULL) return; // must have a method name // scan through arguments, see if there is a double quote for a string // argument doubleQuoteFound = CheckForDoubleQuote(requestCpy); if (doubleQuoteFound == 0) { // walk through arguments argIndex = 0; token = strtok(NULL, space); while (token != NULL) { // save this arg in array strcpy(args[argIndex++], token); // read next token arg if any token = strtok(NULL, space); } // terminate the end of the string array with an empty string strcpy(args[argIndex], "\0"); strcpy(results[0], "\0"); } else { // grab out the double quote string ExtractDoubleQuoteStr(requestCpy, doubleQuoteStr); argIndex = 0; // token = strtok(NULL, quote); strcpy(args[argIndex++], doubleQuoteStr); } // // alias the MAX30001 and MAX30003 names // if (strcmp(objectName, MAX30003_NAME) == 0) { strcpy(objectName, MAX30001_NAME); } procedurePtr = RPC_lookup(objectName, methodName); if (procedurePtr != NULL) { // printf("RPC_call: %s processing\n",requestCpy); procedurePtr->func(args, results); } else { printf("RPC_call: %s not found\n", requestCpy); // printf("Unable to lookup %s %s", objectName, methodName); } // loop while (if) there are results to return resultIndex = 0; strcpy(reply, "\0"); while (results[resultIndex][0] != '\0') { strcat(reply, results[resultIndex++]); strcat(reply, " "); } strcat(reply, "\r\n"); } //****************************************************************************** void RPC_ProcessCmds(char *cmds) { char cmd[32 * 32]; char *ptrCmds; char reply[512]; ptrCmds = cmds; while (*ptrCmds != 0) { ptrCmds = ParseUntilCRLF(ptrCmds, cmd, sizeof(cmd)); if (*cmd != 0) { RPC_call(cmd, reply); } } }