1 /* -------------------------------- Arctic Core ------------------------------
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2 * Arctic Core - the open source AUTOSAR platform http://arccore.com
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4 * Copyright (C) 2009 ArcCore AB <contact@arccore.com>
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6 * This source code is free software; you can redistribute it and/or modify it
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7 * under the terms of the GNU General Public License version 2 as published by the
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8 * Free Software Foundation; See <http://www.gnu.org/licenses/old-licenses/gpl-2.0.txt>.
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10 * This program is distributed in the hope that it will be useful, but
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11 * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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12 * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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14 * -------------------------------- Arctic Core ------------------------------*/
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17 #include "Modules.h"
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20 #include "EcuM_Internals.h"
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21 #include "EcuM_Cbk.h"
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25 #if defined(USE_NVM)
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29 EcuM_GobalType internal_data;
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31 void EcuM_Init( void )
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33 internal_data.current_state = ECUM_STATE_STARTUP_ONE;
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35 // Initialize drivers that are needed to determine PostBuild configuration
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36 EcuM_AL_DriverInitZero();
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38 // Initialize the OS
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41 // Enable interrupts
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44 // Determine PostBuild configuration
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45 internal_data.config = EcuM_DeterminePbConfiguration();
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47 // Check consistency of PB configuration
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50 // Initialize drivers needed before the OS-starts
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51 EcuM_AL_DriverInitOne(internal_data.config);
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53 // Determine the reset/wakeup reason
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54 // TODO Mcu_ResetType type = Mcu_GetResetReason();
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56 // Set default shutdown target
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57 internal_data.shutdown_target = internal_data.config->EcuMDefaultShutdownTarget;
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58 internal_data.shutdown_mode = internal_data.config->EcuMDefaultShutdownMode;
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60 // Set default application mode
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61 internal_data.app_mode = internal_data.config->EcuMDefaultAppMode;
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62 #if defined(USE_COMM)
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63 internal_data.run_comm_requests = 0;
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65 internal_data.run_requests = 0;
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66 internal_data.postrun_requests = 0;
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68 internal_data.initiated = TRUE;
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70 // Start this baby up
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71 StartOS(internal_data.app_mode);
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74 void EcuM_StartupTwo()
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76 #if defined(USE_NVM)
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77 extern CounterType Os_Arc_OsTickCounter;
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78 TickType tickTimerStart, tickTimer, tickTimerElapsed;
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79 StatusType tickTimerStatus;
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80 static NvM_RequestResultType readAllResult;
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83 internal_data.current_state = ECUM_STATE_STARTUP_TWO;
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85 // Initialize the BSW scheduler
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86 // TODO SchM_Init();
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88 // Initialize drivers that don't need NVRAM data
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89 EcuM_AL_DriverInitTwo(internal_data.config);
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91 #if defined(USE_NVM)
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92 // Start timer to wait for NVM job to complete
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93 tickTimerStatus = GetCounterValue(Os_Arc_OsTickCounter , &tickTimerStart);
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94 if (tickTimerStatus != E_OK) {
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95 // TODO: Generate error?
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99 // Prepare the system to startup RTE
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100 // TODO EcuM_OnRTEStartup();
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101 #if defined(USE_RTE)
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105 #if defined(USE_NVM)
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106 // Wait for the NVM job (NvmReadAll) to terminate
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108 NvM_GetErrorStatus(0, &readAllResult); // Read the multiblock status
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109 tickTimer = tickTimerStart; // Save this because the GetElapsedCounterValue() will destroy it.
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110 tickTimerStatus = GetElapsedCounterValue(Os_Arc_OsTickCounter, &tickTimer, &tickTimerElapsed);
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111 if (tickTimerStatus != E_OK) {
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112 // TODO: Generate error?
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114 } while( (readAllResult == NVM_REQ_PENDING) && (tickTimerElapsed < internal_data.config->EcuMNvramReadAllTimeout) );
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117 // Initialize drivers that need NVRAM data
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118 EcuM_AL_DriverInitThree(internal_data.config);
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120 // Indicate mode change to RTE
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123 // If coming from startup sequence, enter Run mode
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124 // if (internal_data.current_state == ECUM_STATE_STARTUP_TWO)
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125 EcuM_enter_run_mode();
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129 // Typically called from OS shutdown hook
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130 void EcuM_Shutdown()
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132 internal_data.current_state = ECUM_STATE_GO_OFF_TWO;
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134 // Let the last drivers do a nice shutdown
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137 if (internal_data.shutdown_target == ECUM_STATE_OFF)
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139 EcuM_AL_SwitchOff();
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143 #if (MCU_PERFORM_RESET_API == STD_ON)
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144 Mcu_PerformReset();
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151 Std_ReturnType EcuM_GetState(EcuM_StateType* state)
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153 VALIDATE_RV(state != NULL, ECUM_GETSTATE_ID, ECUM_E_NULL_POINTER, E_NOT_OK);
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155 *state = internal_data.current_state;
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160 Std_ReturnType EcuM_SelectApplicationMode(AppModeType appMode)
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162 VALIDATE_RV(internal_data.initiated, ECUM_SELECTAPPMODE_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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164 // TODO Save this application mode for next startup
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169 Std_ReturnType EcuM_GetApplicationMode(AppModeType* appMode)
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171 VALIDATE_RV(internal_data.initiated, ECUM_GETAPPMODE_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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172 VALIDATE_RV(appMode != NULL, ECUM_GETAPPMODE_ID, ECUM_E_NULL_POINTER, E_NOT_OK);
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174 *appMode = internal_data.app_mode;
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179 Std_ReturnType EcuM_SelectBootTarget(EcuM_BootTargetType target)
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181 VALIDATE_RV(internal_data.initiated, ECUM_SELECT_BOOTARGET_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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183 // TODO Do something great here
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188 Std_ReturnType EcuM_GetBootTarget(EcuM_BootTargetType* target)
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190 VALIDATE_RV(internal_data.initiated, ECUM_GET_BOOTARGET_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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191 VALIDATE_RV(target != NULL, ECUM_GET_BOOTARGET_ID, ECUM_E_NULL_POINTER, E_NOT_OK);
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193 // TODO Return selected boot target here
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199 Std_ReturnType EcuM_SelectShutdownTarget(EcuM_StateType target, uint8 mode)
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201 VALIDATE_RV(internal_data.initiated, ECUM_SELECTSHUTDOWNTARGET_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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202 VALIDATE_RV((target == ECUM_STATE_OFF) || (target == ECUM_STATE_RESET) || (target == ECUM_STATE_SLEEP), ECUM_SELECTSHUTDOWNTARGET_ID, ECUM_E_INVALID_PAR, E_NOT_OK);
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204 internal_data.shutdown_target = target;
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205 internal_data.shutdown_mode = mode;
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211 Std_ReturnType EcuM_GetShutdownTarget(EcuM_StateType *shutdownTarget, uint8 *sleepMode)
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213 VALIDATE_RV(internal_data.initiated, ECUM_GETSHUTDOWNTARGET_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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215 *shutdownTarget = internal_data.shutdown_target;
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216 *sleepMode = internal_data.shutdown_mode;
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222 Std_ReturnType EcuM_RequestRUN(EcuM_UserType user)
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224 VALIDATE_RV(internal_data.initiated, ECUM_REQUESTRUN_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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225 VALIDATE_RV(user < ECUM_USER_ENDMARK, ECUM_REQUESTRUN_ID, ECUM_E_INVALID_PAR, E_NOT_OK);
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227 internal_data.run_requests |= (uint32)1 << user;
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232 Std_ReturnType EcuM_ReleaseRUN(EcuM_UserType user)
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234 VALIDATE_RV(internal_data.initiated, ECUM_RELEASERUN_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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235 VALIDATE_RV(user < ECUM_USER_ENDMARK, ECUM_RELEASERUN_ID, ECUM_E_INVALID_PAR, E_NOT_OK);
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237 internal_data.run_requests &= ~((uint32)1 << user);
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242 #if defined(USE_COMM)
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243 Std_ReturnType EcuM_ComM_RequestRUN(NetworkHandleType user)
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245 VALIDATE_RV(internal_data.initiated, ECUM_COMM_REQUESTRUN_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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246 VALIDATE_RV(user < 32, ECUM_COMM_REQUESTRUN_ID, ECUM_E_INVALID_PAR, E_NOT_OK);
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248 internal_data.run_comm_requests |= (uint32)1 << user;
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253 Std_ReturnType EcuM_ComM_ReleaseRUN(NetworkHandleType user)
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255 VALIDATE_RV(internal_data.initiated, ECUM_COMM_RELEASERUN_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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256 VALIDATE_RV(user < 32, ECUM_COMM_RELEASERUN_ID, ECUM_E_INVALID_PAR, E_NOT_OK);
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258 internal_data.run_comm_requests &= ~((uint32)1 << user);
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263 boolean EcuM_ComM_HasRequestedRUN(NetworkHandleType user)
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265 VALIDATE_RV(internal_data.initiated, ECUM_COMM_HASREQUESTEDRUN_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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266 VALIDATE_RV(user < 32, ECUM_COMM_HASREQUESTEDRUN_ID, ECUM_E_INVALID_PAR, E_NOT_OK);
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268 return (internal_data.run_comm_requests &((uint32)1 << user)) != 0;
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272 Std_ReturnType EcuM_RequestPOST_RUN(EcuM_UserType user)
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274 VALIDATE_RV(internal_data.initiated, ECUM_REQUESTPOSTRUN_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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275 VALIDATE_RV(user < ECUM_USER_ENDMARK, ECUM_REQUESTPOSTRUN_ID, ECUM_E_INVALID_PAR, E_NOT_OK);
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277 internal_data.postrun_requests |= (uint32)1 << user;
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282 Std_ReturnType EcuM_ReleasePOST_RUN(EcuM_UserType user)
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284 VALIDATE_RV(internal_data.initiated, ECUM_RELEASEPOSTRUN_ID, ECUM_E_NOT_INITIATED, E_NOT_OK);
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285 VALIDATE_RV(user < ECUM_USER_ENDMARK, ECUM_RELEASEPOSTRUN_ID, ECUM_E_INVALID_PAR, E_NOT_OK);
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287 internal_data.postrun_requests &= ~((uint32)1 << user);
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