From 947c78887e791596d4a5ec2d1079f8b1a049628b Mon Sep 17 00:00:00 2001 From: takeshi_hoshina Date: Tue, 27 Oct 2020 11:16:21 +0900 Subject: basesystem 0.1 --- systemservice/task_manager/server/src/pri_main.cpp | 840 +++++++++++++++++++++ 1 file changed, 840 insertions(+) create mode 100644 systemservice/task_manager/server/src/pri_main.cpp (limited to 'systemservice/task_manager/server/src/pri_main.cpp') diff --git a/systemservice/task_manager/server/src/pri_main.cpp b/systemservice/task_manager/server/src/pri_main.cpp new file mode 100644 index 00000000..2c87623b --- /dev/null +++ b/systemservice/task_manager/server/src/pri_main.cpp @@ -0,0 +1,840 @@ +/* + * @copyright Copyright (c) 2016-2020 TOYOTA MOTOR CORPORATION. + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#include "pri_main.h" +#include +#include +#include +#include +#include +#include +#include + +#include "tskm_debug.h" +#include "tskm_comm.h" +#include "tskm_port_pf.h" +#include "tskm_port_subsys.h" +#include "tskm_util.h" + + + +#define PRI_PROC_NAME_MAX 32 + +// Context +typedef struct { + T_PRIM_PRM prm; + + TSKM_SVCID_t svcId; // Set valid value by REQ_WAKEUP + char procName[PRI_PROC_NAME_MAX]; + // State + TSKM_BOOL_t isExec; + T_SS_SM_START_DataStructType bootInfo; + T_SS_SM_START_ExtDataStructType extBootInfo; TSKM_BOOL_t isDynamic; + uint32_t wakeupStepDone; // Executed local step + TSKM_BOOL_t shmDone; + uint32_t downStepDone; // Executed local step + TSKM_BOOL_t isExitStart; + +#define PRI_MONITOR_DEFAULT_TIMEOUT 50 + uint32_t timeout; // Service monitoring timeout period (valid only for the INI_Main type service) + + // Resources + int connFd; // TSKM communication socket + int nsFd; // NSFW socket + int pipeFd[2]; // for exitDone + HANDLE hApp; // appHandle +} PRI_CTX_t; + +static PRI_CTX_t g_pri; + +/********************************************* + * Create shared memory + *********************************************/ +TSKM_STATIC void shmMake(PRI_CTX_t* p_ctx) { + const PRIM_SHAREDATA_TBL* shmEntry; + for (shmEntry = p_ctx->prm.shmTbl; shmEntry->shmName[0] != '\0'; shmEntry++) { + int ret; + ret = tskm_pf_shmCreate(shmEntry->shmName, shmEntry->size, NULL); + if (ret != 0) { // LCOV_EXCL_BR_LINE 5: Checked in Death testing, but it is not reflected in the coverage and excluded + // LCOV_EXCL_START 5: Checked in Death testing, but it is not reflected in the coverage and excluded + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT(0); + goto ERROR; + // LCOV_EXCL_STOP 5: Checked in Death testing, but it is not reflected in the coverage and excluded + } + } + p_ctx->shmDone = TSKM_TRUE; + return; + + // LCOV_EXCL_START 5: Checked in Death testing, but it is not reflected in the coverage and excluded + ERROR: + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + tskm_pf_abort(); + // LCOV_EXCL_STOP +} + +/********************************************* + * Call backup check CB + *********************************************/ +TSKM_STATIC uint32_t wakeupExFuncCallback(PRI_CTX_t* p_ctx, + TSKM_EV_PRI_REQ_WAKEUP_PRM_t* p_prm) { + const PRIM_EXFUNC_TBL* funcEntry; + uint32_t maxStep = 0; + + for (funcEntry = p_ctx->prm.wakeupExFuncTbl; funcEntry->localStep != 0; + funcEntry++) { + if (funcEntry->localStep == p_prm->localStep) { + funcEntry->func(funcEntry->prm); + } + maxStep = TSKM_MAX(maxStep, funcEntry->localStep); + } + return maxStep; +} + +/********************************************* + * Gradual startup request + *********************************************/ +TSKM_STATIC void wakeupRequest(PRI_CTX_t* p_ctx, + TSKM_EV_PRI_REQ_WAKEUP_PRM_t* p_prm) { + TSKM_EV_PRI_REQ_WAKEUP_PRM_t prm = *p_prm; + uint32_t max = 0; + + // Execute step by step + for (prm.localStep = p_ctx->wakeupStepDone + 1; + (prm.localStep <= p_prm->localStep && prm.localStep < PRIM_STEPFORK_MAX); + prm.localStep++) { + max = wakeupExFuncCallback(p_ctx, &prm); + } + + if (max <= p_prm->localStep) { + // Completed gradual startup + p_ctx->wakeupStepDone = PRIM_STEPFORK_MAX; + } else { + p_ctx->wakeupStepDone = p_prm->localStep; + } +} + +/********************************************* + * All startup requests + *********************************************/ +TSKM_STATIC void allWakeup(PRI_CTX_t* p_ctx, + TSKM_EV_PRI_REQ_WAKEUP_PRM_t* p_prm) { + if (!p_ctx->shmDone) { + shmMake(p_ctx); + } + + if (p_ctx->wakeupStepDone < PRIM_STEPFORK_MAX) { + wakeupRequest(p_ctx, p_prm); + } +} + +/********************************************* + * Startup request handles + *********************************************/ +TSKM_STATIC void wakeupRequestHandle(PRI_CTX_t* p_ctx, + TSKM_EV_PRI_REQ_WAKEUP_PRM_t* p_prm) { + TSKM_EVENT_INFO_t ev; + int ret; + + bzero(&ev, sizeof(ev)); + + p_ctx->svcId = p_prm->svcId; + memcpy(&p_ctx->bootInfo, &p_prm->bootInfo, sizeof(p_ctx->bootInfo)); + memcpy(&p_ctx->extBootInfo, &p_prm->extBootInfo, sizeof(p_ctx->extBootInfo)); + p_ctx->isDynamic = p_prm->isDynamic; + + if (p_prm->localStep == TSKM_LSTEP_ALL) { + allWakeup(p_ctx, p_prm); + } else if (p_prm->localStep == TSKM_LSTEP_LAST) { + wakeupRequest(p_ctx, p_prm); + } else if (p_prm->localStep == TSKM_LSTEP_SHM) { + shmMake(p_ctx); + } else { + wakeupRequest(p_ctx, p_prm); + } + + ev.prm.resWakeup.isShmDone = p_ctx->shmDone; + ev.prm.resWakeup.isStepDone = + (p_ctx->wakeupStepDone >= PRIM_STEPFORK_MAX) ? + TSKM_TRUE : + TSKM_FALSE; + + // LCOV_EXCL_BR_START 6: Because it depends on the test order + if (ev.prm.resWakeup.isShmDone && ev.prm.resWakeup.isStepDone) { + // LCOV_EXCL_BR_STOP + ev.prm.resWakeup.isLast = TSKM_TRUE; + } + + ev.event = TSKM_EV_PRI_RES_WAKEUP; + ev.errCode = TSKM_E_OK; + ret = tskm_sockSend(p_ctx->connFd, &ev); + if (ret <= 0) { // LCOV_EXCL_BR_LINE 5: Checked in Death testing, but it is not reflected in the coverage and excluded + // LCOV_EXCL_START 5: Checked in Death testing, but it is not reflected in the coverage and excluded + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT(0); + tskm_pf_abort(); + // LCOV_EXCL_STOP 5: Checked in Death testing, but it is not reflected in the coverage and excluded + } +} + +/********************************************* + * Gradual termination callback + *********************************************/ +TSKM_STATIC uint32_t downExFuncCallback(PRI_CTX_t* p_ctx, + TSKM_EV_PRI_REQ_DOWN_PRM_t* p_prm) { + const PRIM_EXFUNC_TBL* funcEntry; + uint32_t maxStep = 0; + + for (funcEntry = p_ctx->prm.downExFuncTbl; funcEntry->localStep != 0; + funcEntry++) { + if (funcEntry->localStep == p_prm->localStep) { + funcEntry->func(funcEntry->prm); + } + maxStep = TSKM_MAX(maxStep, funcEntry->localStep); + } + return maxStep; +} + +/********************************************* + * Gradual termination requests + *********************************************/ +TSKM_STATIC void downRequest(PRI_CTX_t* p_ctx, + TSKM_EV_PRI_REQ_DOWN_PRM_t* p_prm) { + TSKM_EV_PRI_REQ_DOWN_PRM_t prm = *p_prm; + uint32_t max = 0; + + // Execute step by step + for (prm.localStep = p_ctx->downStepDone + 1; + (prm.localStep <= p_prm->localStep && prm.localStep < PRIM_ACCOFF_MAX); + prm.localStep++) { + max = downExFuncCallback(p_ctx, &prm); + } + + if (max <= p_prm->localStep) { + p_ctx->downStepDone = PRIM_ACCOFF_MAX; // Completed all steps + } else { + p_ctx->downStepDone = p_prm->localStep; + } +} + +TSKM_STATIC void downRequestHandle(PRI_CTX_t* p_ctx, + TSKM_EV_PRI_REQ_DOWN_PRM_t* p_prm) { + TSKM_EVENT_INFO_t ev; + int ret; + + bzero(&ev, sizeof(ev)); + + if (p_prm->localStep == TSKM_LSTEP_ALL || p_prm->localStep == TSKM_LSTEP_LAST) { + downRequest(p_ctx, p_prm); + } else if (p_prm->localStep == TSKM_LSTEP_SHM) { + TSKM_ASSERT(0); + } else if (p_prm->localStep == TSKM_LSTEP_BUPCHK) { + TSKM_ASSERT(0); + } else { + downRequest(p_ctx, p_prm); + } + + if (p_ctx->downStepDone >= PRIM_ACCOFF_MAX) { + /* It is not notified when the last function is executed, and it is left to the exitDone. + TSKM_PRINTF(TSKM_LOG_DEBUG,"ACCOFF DONE"); + ev.prm.resDown.isLast = TSKM_TRUE; + p_ctx->isExec = TSKM_FALSE; + ret = tskm_sockSend(p_ctx->connFd,&ev); + if(ret <= 0){ + TSKM_ASSERT(0); + tskm_pf_abort(); + } + */ + } else { + ev.event = TSKM_EV_PRI_RES_DOWN; + ev.errCode = TSKM_E_OK; + ret = tskm_sockSend(p_ctx->connFd, &ev); + if (ret <= 0) { // LCOV_EXCL_BR_LINE 5: Checked in Death testing, but it is not reflected in the coverage and excluded + // LCOV_EXCL_START 5: Checked in Death testing, but it is not reflected in the coverage and excluded + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT(0); + tskm_pf_abort(); + // LCOV_EXCL_STOP 5: Checked in Death testing, but it is not reflected in the coverage and excluded + } + } +} + +/********************************************* + * Termination completion notification to the TSKM + *********************************************/ +TSKM_STATIC void sendLastDoneRes(PRI_CTX_t* p_ctx) { + int ret; + TSKM_EVENT_INFO_t ev; + + bzero(&ev, sizeof(ev)); + + ev.event = TSKM_EV_PRI_RES_DOWN; + ev.errCode = TSKM_E_OK; + ev.prm.resDown.isLast = TSKM_TRUE; + ret = tskm_sockSend(p_ctx->connFd, &ev); + if (ret <= 0) { // LCOV_EXCL_BR_LINE 5: Checked in Death testing, but it is not reflected in the coverage and excluded + // LCOV_EXCL_START 5: Checked in Death testing, but it is not reflected in the coverage and excluded + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT(0); + tskm_pf_abort(); + // LCOV_EXCL_STOP 5: Checked in Death testing, but it is not reflected in the coverage and excluded + } +} + +/********************************************* + * Call Touch CB + *********************************************/ +TSKM_STATIC void touchService(PRI_CTX_t* p_ctx) { + char touchName[32]; + + if (p_ctx->isExitStart) { + // If termination has already begun, the system just processes as timeout for retrying not respond Touch + return; + } + + p_ctx->prm.onTouch(p_ctx->hApp); + + tskm_pf_mkTouchFileName(getpid(), touchName); + + if ((access(touchName, F_OK) == 0)) { + // Synchronize by deleting files. + TSKM_PRINTF(TSKM_LOG_STATE, "del:%s", touchName); + unlink(touchName); + } else { + TSKM_ASSERT_PRINT(0, "%s", touchName); + } +} + +/********************************************* + * Call Debugdump CB + *********************************************/ +TSKM_STATIC void callDebugDump(PRI_CTX_t* p_ctx) { + if (!p_ctx->prm.onDebugDump) { // LCOV_EXCL_BR_LINE 6: As NULL checked by INI_Init + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT(0); // LCOV_EXCL_LINE 6: As NULL checked by INI_Init + } else { + p_ctx->prm.onDebugDump(p_ctx->hApp); + } +} + +/********************************************* + * Call LowMemory detection + *********************************************/ +TSKM_STATIC void callLowMem(PRI_CTX_t* p_ctx) { + if (!p_ctx->prm.onLowMem) { + TSKM_ASSERT(0); + } else if (!p_ctx->isExitStart) { + // Notify LowMemory only before starting terminating process + p_ctx->prm.onLowMem(p_ctx->hApp); + } +} + +/********************************************* + * Event handles + *********************************************/ +TSKM_STATIC void eventHandle(PRI_CTX_t* p_ctx, TSKM_EVENT_INFO_t* p_ev) { + //Processing according to the request + switch (p_ev->event) { + case TSKM_EV_PRI_REQ_WAKEUP: + wakeupRequestHandle(p_ctx, &p_ev->prm.reqWakeup); + break; + case TSKM_EV_PRI_REQ_DOWN: + downRequestHandle(p_ctx, &p_ev->prm.reqDown); + break; + case TSKM_EV_PRI_REQ_TOUCH: + touchService(p_ctx); + break; + case TSKM_EV_PRI_REQ_DEBUGDUMP: + callDebugDump(p_ctx); + break; + case TSKM_EV_PRI_REP_LOWMEM: + callLowMem(p_ctx); + break; + default: + TSKM_ASSERT(0); + break; + } +} + +/********************************************* + * Initialize Context + *********************************************/ +TSKM_STATIC void initCtx(T_PRIM_PRM* p_prm, PRI_CTX_t* p_ctx, int argc, + char* argv[]) { + FrameworkunifiedDefaultCallbackHandler cbFuncs; + + p_ctx->prm = *p_prm; + + cbFuncs.onInitilization = p_ctx->prm.onInit; + cbFuncs.onDestroy = p_ctx->prm.onDestory; + cbFuncs.onDebugDump = p_ctx->prm.onDebugDump; + cbFuncs.onStart = FrameworkunifiedOnStart; + cbFuncs.onStop = FrameworkunifiedOnStop; + cbFuncs.createStateMachine = FrameworkunifiedCreateStateMachine; + cbFuncs.ssFrameworkInterface = FrameworkunifiedSSFrameworkInterface; + + EFrameworkunifiedStatus taskmanagerRet; + taskmanagerRet = FrameworkunifiedCreateDispatcherWithoutLoop(p_ctx->prm.name, p_ctx->hApp, argc, + argv, &cbFuncs, FALSE); + if (eFrameworkunifiedStatusOK != taskmanagerRet) { // LCOV_EXCL_BR_LINE 5: Checked in Death testing, but it is not reflected in the coverage and excluded + // LCOV_EXCL_START 5: Checked in Death testing, but it is not reflected in the coverage and excluded + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT_PRINT(0, "%d", taskmanagerRet); + goto ERROR; + // LCOV_EXCL_STOP 5: Checked in Death testing, but it is not reflected in the coverage and excluded + } + + taskmanagerRet = FrameworkunifiedGetDispatcherFD(p_ctx->hApp, &p_ctx->nsFd); + if (taskmanagerRet != eFrameworkunifiedStatusOK) { + TSKM_ASSERT_PRINT(0, "%d", taskmanagerRet); + exit(EXIT_FAILURE); + } + p_ctx->connFd = tskm_cliSockConnect(TSKM_SOCKET_NAME); + if (p_ctx->connFd < 0) { // LCOV_EXCL_BR_LINE 5: Checked in Death testing, but it is not reflected in the coverage and excluded + // LCOV_EXCL_START 5: Checked in Death testing, but it is not reflected in the coverage and excluded + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT(0); + goto ERROR; + // LCOV_EXCL_STOP 5: Checked in Death testing, but it is not reflected in the coverage and excluded + } + if (pipe(p_ctx->pipeFd) != 0) { // LCOV_EXCL_BR_LINE 5: Checked in Death testing, but it is not reflected in the coverage and excluded + // LCOV_EXCL_START 5: Checked in Death testing, but it is not reflected in the coverage and excluded + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT_ERRNO(0); + goto ERROR; + // LCOV_EXCL_STOP 5: Checked in Death testing, but it is not reflected in the coverage and excluded + } + + return; + + // LCOV_EXCL_START 5: Checked in Death testing, but it is not reflected in the coverage and excluded + ERROR: + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + tskm_pf_abort(); + // LCOV_EXCL_STOP +} + +/********************************************* + * Destroy context + *********************************************/ +TSKM_STATIC void termCtx(PRI_CTX_t* p_ctx) { + if (p_ctx->shmDone) { // LCOV_EXCL_BR_LINE 6: Since it has been set to True by INI_Handler and cannot be changed + const PRIM_SHAREDATA_TBL* shmEntry = p_ctx->prm.shmTbl; + for (shmEntry = p_ctx->prm.shmTbl; shmEntry->shmName[0] != '\0'; + shmEntry++) { + TSKM_ASSERT(0 == tskm_pf_shmDelete(shmEntry->shmName)); // LCOV_EXCL_BR_LINE 8: For processing in which only return value 0 is set + } + } + + if (p_ctx->connFd > 0) { // LCOV_EXCL_BR_LINE 6: For processing in which only return value 0 is set + tskm_sockDestory(p_ctx->connFd); + } + + EFrameworkunifiedStatus taskmanagerRet; + taskmanagerRet = FrameworkunifiedDestroyDispatcherWithoutLoop(p_ctx->hApp); + TSKM_ASSERT(taskmanagerRet == eFrameworkunifiedStatusOK); + + if (p_ctx->isDynamic) { + TSKM_PRINTF(TSKM_LOG_STATE, "EXIT %s", p_ctx->procName); + } else { + // Hung up running services to prevent adversely affecting to system termination processing during process termination processing + sleep(TSKM_CFG_WAIT_SHUTDOWN); + } +} + +/******************************************************************* + * Initialize PRI context + *******************************************************************/ +void pri_init(T_PRIM_PRM* p_prm, int argc, char* argv[], int *fdNum, + int fdlist[INI_FD_MAX]) { + int ret = 0; + PRI_CTX_t* p_ctx = &g_pri; + + strncpy(p_ctx->procName, basename(argv[0]), sizeof(p_ctx->procName) - 1); + + ret = tskm_pf_procInit(); + if (ret != 0) { // LCOV_EXCL_BR_LINE 6: Return value of 0 only + // LCOV_EXCL_START 6: Return value of 0 only + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT(0); + goto ERROR; + // LCOV_EXCL_STOP 6: Return value of 0 only + } + + ret = tskm_comm_procInit(); + if (ret != 0) { // LCOV_EXCL_BR_LINE 5: Checked in Death testing, but it is not reflected in the coverage and excluded + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT(0); + goto ERROR; + // LCOV_EXCL_STOP 5: Checked in Death testing, but it is not reflected in the coverage and excluded + } + + initCtx(p_prm, p_ctx, argc, argv); + + *fdNum = 3; + fdlist[0] = p_ctx->connFd; + fdlist[1] = p_ctx->pipeFd[0]; + fdlist[2] = p_ctx->nsFd; + + p_ctx->svcId = TSKM_SVCID_NONE; + p_ctx->isExec = TSKM_TRUE; + + p_ctx->bootInfo.startupReason = epswfINVALID; + p_ctx->bootInfo.isUserModeOn = FALSE; + p_ctx->bootInfo.dataResetMode = e_SS_SM_DATA_RESET_MODE_NONE; + p_ctx->bootInfo.securityStatus = epsssINVALID; + p_ctx->bootInfo.wakeupType = epsstINVALID; + p_ctx->bootInfo.dramBackupStatus = e_SS_SM_DRAM_BACKUP_UNSET; + p_ctx->bootInfo.resetStatus = e_SS_SM_RESET_STATUS_UNSET; + + memset(&p_ctx->extBootInfo, 0, sizeof(p_ctx->extBootInfo)); + + p_ctx->timeout = PRI_MONITOR_DEFAULT_TIMEOUT; + + return; + // LCOV_EXCL_START 5: Checked in Death testing, but it is not reflected in the coverage and excluded + ERROR: + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + tskm_pf_abort(); // ABORT +// LCOV_EXCL_STOP +} + +/******************************************************************* + * Primary library handler + *******************************************************************/ +BOOL pri_handler(fd_set* p_fds) { + PRI_CTX_t* p_ctx = &g_pri; + + if (FD_ISSET(p_ctx->connFd, p_fds)) { + int ret; + TSKM_EVENT_INFO_t ev; + ret = tskm_sockRcv(p_ctx->connFd, &ev); + // LCOV_EXCL_BR_START 5: True condition is checked in Death tests, but not reflected in coverage and excluded + if (ret > 0) { + // LCOV_EXCL_BR_STOP + eventHandle(p_ctx, &ev); + } else { // LCOV_EXCL_BR_LINE 5: Checked in Death testing, but it is not reflected in the coverage and excluded + // LCOV_EXCL_START 5: Checked in Death testing, but it is not reflected in the coverage and excluded + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT(0); + goto ERROR; + // LCOV_EXCL_STOP + } + } + + if (FD_ISSET(p_ctx->pipeFd[0], p_fds)) { + // only use exitDone + uint32_t tmp; + TSKM_ASSERT(sizeof(tmp) == read(p_ctx->pipeFd[0], &tmp, sizeof(tmp))); + TSKM_ASSERT(p_ctx->downStepDone == PRIM_ACCOFF_MAX); // Check if all exit functions are complete + if (p_ctx->isDynamic) { + // A nonresident service completes its termination processing by terminating the process (because the SIGNAL will overtake the sockets) + } else { + // The resident service completes termination processing with a termination notice (Do not terminate processes to reduce the impact on system termination) + sendLastDoneRes(p_ctx); + } + p_ctx->isExec = TSKM_FALSE; + } + + if (FD_ISSET(p_ctx->nsFd, p_fds)) { + FrameworkunifiedDispatchProcessWithoutLoop(p_ctx->hApp); + } + return p_ctx->isExec; + + // LCOV_EXCL_START 5: Checked in Death testing, but it is not reflected in the coverage and excluded + ERROR: + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + tskm_pf_abort(); // ABORT + return 0; +// LCOV_EXCL_STOP +} + +/******************************************************************* + * Process termination + *******************************************************************/ +void pri_term(void) { + PRI_CTX_t* p_ctx = &g_pri; + termCtx(p_ctx); +} + +/******************************************************************* + * Service Monitoring Status Setting + *******************************************************************/ +int pri_setMonitorState(BOOL bIsRun, uint32_t timeout) { + PRI_CTX_t* p_ctx = &g_pri; + int ret = INI_SUCCESS; + + if (TSKM_SVCID_NONE == p_ctx->svcId) { + // Ignore requests until svcId is acquired + } else if ((TRUE == bIsRun) && (0 == timeout)) { + // When RUN is specified with timeout = 0, monitoring is disabled + } else { + ret = tskm_comm_setSvcWatchState(p_ctx->svcId, bIsRun, timeout); + if (INI_SUCCESS != ret) { + TSKM_ASSERT(0); + } + } + + return ret; +} + +/******************************************************************* + * MAIN function + *******************************************************************/ +int pri_main(T_PRIM_PRM* p_prm, int argc, char* argv[]) { + int mainRet = -1; + int fdlist[INI_FD_MAX]; + int fdNum; + int ii; + BOOL isExec = TRUE; + + pri_init(p_prm, argc, argv, &fdNum, fdlist); + + while (isExec) { + PRI_CTX_t* p_ctx = &g_pri; + int maxFd = 0; + fd_set fds; + int ret; + + FD_ZERO(&fds); + + for (ii = 0; ii < fdNum; ii++) { + FD_SET(fdlist[ii], &fds); + maxFd = TSKM_MAX(fdlist[ii], maxFd); + } + + TSKM_ASSERT(INI_SUCCESS == pri_setMonitorState(FALSE, 0)); + ret = select(maxFd + 1, &fds, NULL, NULL, NULL); + TSKM_ASSERT(INI_SUCCESS == pri_setMonitorState(TRUE, p_ctx->timeout)); + if (ret < 1) { + if (errno != EINTR) { + TSKM_ASSERT(0); + } + continue; + } + + isExec = pri_handler(&fds); + } + + mainRet = 0; + + pri_term(); + return mainRet; +} + +/******************************************************************* + * Termination request + *******************************************************************/ +void pri_exitStart(void *rsv) { + int ret; + PRI_CTX_t* p_ctx = &g_pri; + TSKM_EVENT_INFO_t ev; + + bzero(&ev, sizeof(ev)); + p_ctx->isExitStart = TRUE; + ev.event = TSKM_EV_PRI_REQ_EXIT; + ev.errCode = TSKM_E_OK; + + ret = tskm_sockSend(p_ctx->connFd, &ev); + if (ret <= 0) { // LCOV_EXCL_BR_LINE 6: The caller's external API does not execute the second or subsequent processing and cannot be checked + TSKM_ASSERT(0); + goto ERROR; + } + return; + // LCOV_EXCL_START 6: The caller's external API does not execute the second or subsequent processing and cannot be checked + ERROR: + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + tskm_pf_abort(); + // LCOV_EXCL_STOP +} + +void pri_exitDone(int status) { + PRI_CTX_t* p_ctx = &g_pri; + uint32_t l_status = (uint32_t) status; + + // LCOV_EXCL_BR_START 6: The caller's external API does not execute the second or subsequent processing and cannot be checked + if (p_ctx->pipeFd[1] > 0) { + // LCOV_EXCL_BR_STOP + // LCOV_EXCL_START 6: The caller's external API does not execute the second or subsequent processing and cannot be checked + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT_ERRNO( + write(p_ctx->pipeFd[1], &l_status, sizeof(l_status)) + == sizeof(l_status)); + // LCOV_EXCL_STOP + } else { + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + TSKM_ASSERT(0); // LCOV_EXCL_LINE 6: The caller's external API does not execute the second or subsequent processing and cannot be checked + } +} + +/******************************************************************* + * Event completion notification at startup + *******************************************************************/ +int32_t pri_stepForkComp(uint64_t id) { + int ret; + PRI_CTX_t* p_ctx = &g_pri; + TSKM_EVENT_INFO_t ev; + + bzero(&ev, sizeof(ev)); + ev.event = TSKM_EV_PRI_REP_WAKEUP_COMP; + ev.errCode = TSKM_E_OK; + ev.prm.repWakeupComp.compId = id; + ret = tskm_sockSend(p_ctx->connFd, &ev); + if (ret <= 0) { + TSKM_ASSERT(0); + goto ERROR; + } + return INI_SUCCESS; + ERROR: return INI_FALSE; +} + +/******************************************************************* + * Event completion notification at termination + *******************************************************************/ +int32_t pri_accOffComp(uint64_t id) { + int ret; + PRI_CTX_t* p_ctx = &g_pri; + TSKM_EVENT_INFO_t ev; + + bzero(&ev, sizeof(ev)); + + ev.event = TSKM_EV_PRI_REP_DOWN_COMP; + ev.errCode = TSKM_E_OK; + ev.prm.repDownComp.compId = id; + ret = tskm_sockSend(p_ctx->connFd, &ev); + if (ret <= 0) { + TSKM_ASSERT(0); + goto ERROR; + } + return INI_SUCCESS; + ERROR: return INI_FALSE; +} + +/******************************************************************* + * Get private info + *******************************************************************/ +void* +pri_getPrivate() { + PRI_CTX_t* p_ctx = &g_pri; + return p_ctx->prm.priv; +} + +/******************************************************************* + * Get app-handle + *******************************************************************/ +HANDLE pri_getHandle() { + PRI_CTX_t* p_ctx = &g_pri; + return p_ctx->hApp; +} + +/******************************************************************* + * Service monitoring status setting timeout setting + *******************************************************************/ +int32_t pri_setMonitorTimeout(uint32_t timeout) { + PRI_CTX_t* p_ctx = &g_pri; + p_ctx->timeout = timeout; + return INI_SUCCESS; +} + +/******************************************************************* + * Get boot info + *******************************************************************/ +int32_t pri_getBootInfo(T_SS_SM_START_DataStructType *info) { + PRI_CTX_t* p_ctx = &g_pri; + + if (p_ctx->bootInfo.startupReason == epswfINVALID) { + TSKM_ASSERT(0); + return INI_FALSE; + } + + *info = p_ctx->bootInfo; + + return INI_SUCCESS; +} + +/******************************************************************* + * Get extended boot info + *******************************************************************/ +int32_t pri_getExtBootInfo(T_SS_SM_START_ExtDataStructType *info) { + PRI_CTX_t* p_ctx = &g_pri; + + if (p_ctx->bootInfo.startupReason == epswfINVALID) { + TSKM_ASSERT(0); + return INI_FALSE; + } + + *info = p_ctx->extBootInfo; + + return INI_SUCCESS; +} + +/******************************************************************* + * DebugDump response + *******************************************************************/ +void pri_sendDebugDumpRes(const char *buf) { // LCOV_EXCL_START 7: Debugging code + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + int ret; + PRI_CTX_t* p_ctx = &g_pri; + TSKM_EVENT_INFO_t ev; + TSKM_EV_PRI_EX_RES_DEBUGDUMP_PRM_t *p_prm; + + ev.event = TSKM_EV_PRI_RES_DEBUGDUMP; + ev.errCode = TSKM_E_OK; + ev.hasExtend = TSKM_TRUE; + + ev.extendPrm = malloc(sizeof(TSKM_EV_PRI_EX_RES_DEBUGDUMP_PRM_t)); + if (!ev.extendPrm) { + TSKM_ASSERT(0); + goto ERROR; + } + + ev.extendSize = sizeof(TSKM_EV_PRI_EX_RES_DEBUGDUMP_PRM_t); + + p_prm = (TSKM_EV_PRI_EX_RES_DEBUGDUMP_PRM_t *) ev.extendPrm; // NOLINT (readability/casting) + snprintf(p_prm->dumpMsg, TSKM_EV_DEBUGDUMP_SIZE, "%s", buf); + + ret = tskm_sockSend(p_ctx->connFd, &ev); + if (ret <= 0) { + TSKM_ASSERT(0); + } + + ERROR: return; +} +// LCOV_EXCL_STOP +/************************************************* + * Empty functions implemented for building software + **************************************************/ +EFrameworkunifiedStatus FrameworkunifiedOnStart(HANDLE hApp) { + EFrameworkunifiedStatus l_eStatus = eFrameworkunifiedStatusOK; + FRAMEWORKUNIFIEDLOG(ZONE_FUNC, __FUNCTION__, "+"); + FRAMEWORKUNIFIEDLOG(ZONE_FUNC, __FUNCTION__, "-"); + return l_eStatus; +} +EFrameworkunifiedStatus FrameworkunifiedOnStop(HANDLE hApp) { + EFrameworkunifiedStatus l_eStatus = eFrameworkunifiedStatusOK; + FRAMEWORKUNIFIEDLOG(ZONE_FUNC, __FUNCTION__, "+"); + FRAMEWORKUNIFIEDLOG(ZONE_FUNC, __FUNCTION__, "-"); + return l_eStatus; +} + +EFrameworkunifiedStatus FrameworkunifiedCreateStateMachine(HANDLE hApp) { // LCOV_EXCL_START 6: Because the condition cannot be set + AGL_ASSERT_NOT_TESTED(); // LCOV_EXCL_LINE 200: test assert + EFrameworkunifiedStatus l_eStatus = eFrameworkunifiedStatusOK; + FRAMEWORKUNIFIEDLOG(ZONE_FUNC, __FUNCTION__, "+"); + FRAMEWORKUNIFIEDLOG(ZONE_FUNC, __FUNCTION__, "-"); + return l_eStatus; +} +// LCOV_EXCL_STOP -- cgit 1.2.3-korg