/*------------------------------------------------------------------------- * drawElements Quality Program Helper Library * ------------------------------------------- * * Copyright 2014 The Android Open Source Project * * 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. * *//*! * \file * \brief Watch dog for detecting timeouts *//*--------------------------------------------------------------------*/ #include "qpWatchDog.h" #include "deThread.h" #include "deClock.h" #include "deMemory.h" #include <stdio.h> #if 0 # define DBGPRINT(X) qpPrintf X #else # define DBGPRINT(X) #endif typedef enum Status_e { STATUS_THREAD_RUNNING = 0, STATUS_STOP_THREAD, STATUS_LAST } Status; struct qpWatchDog_s { qpWatchDogFunc timeOutFunc; void* timeOutUserPtr; int totalTimeLimit; /* Total test case time limit in seconds */ int intervalTimeLimit; /* Iteration length limit in seconds */ volatile deUint64 resetTime; volatile deUint64 lastTouchTime; deThread watchDogThread; volatile Status status; }; static void watchDogThreadFunc (void* arg) { qpWatchDog* dog = (qpWatchDog*)arg; DE_ASSERT(dog); DBGPRINT(("watchDogThreadFunc(): start\n")); while (dog->status == STATUS_THREAD_RUNNING) { deUint64 curTime = deGetMicroseconds(); int totalSecondsPassed = (int)((curTime - dog->resetTime) / 1000000ull); int secondsSinceLastTouch = (int)((curTime - dog->lastTouchTime) / 1000000ull); if ((secondsSinceLastTouch > dog->intervalTimeLimit) || (totalSecondsPassed > dog->totalTimeLimit)) { DBGPRINT(("watchDogThreadFunc(): call timeout func\n")); dog->timeOutFunc(dog, dog->timeOutUserPtr); break; } deSleep(100); } DBGPRINT(("watchDogThreadFunc(): stop\n")); } qpWatchDog* qpWatchDog_create (qpWatchDogFunc timeOutFunc, void* userPtr, int totalTimeLimitSecs, int intervalTimeLimitSecs) { /* Allocate & initialize. */ qpWatchDog* dog = (qpWatchDog*)deCalloc(sizeof(qpWatchDog)); if (!dog) return dog; DE_ASSERT(timeOutFunc); DE_ASSERT((totalTimeLimitSecs > 0) && (intervalTimeLimitSecs > 0)); DBGPRINT(("qpWatchDog::create(%ds, %ds)\n", totalTimeLimitSecs, intervalTimeLimitSecs)); dog->timeOutFunc = timeOutFunc; dog->timeOutUserPtr = userPtr; dog->totalTimeLimit = totalTimeLimitSecs; dog->intervalTimeLimit = intervalTimeLimitSecs; /* Reset (sets time values). */ qpWatchDog_reset(dog); /* Initialize watchdog thread. */ dog->status = STATUS_THREAD_RUNNING; dog->watchDogThread = deThread_create(watchDogThreadFunc, dog, DE_NULL); if (!dog->watchDogThread) { deFree(dog); return DE_NULL; } return dog; } void qpWatchDog_reset (qpWatchDog* dog) { deUint64 curTime = deGetMicroseconds(); DE_ASSERT(dog); DBGPRINT(("qpWatchDog::reset()\n")); dog->resetTime = curTime; dog->lastTouchTime = curTime; } void qpWatchDog_destroy (qpWatchDog* dog) { DE_ASSERT(dog); DBGPRINT(("qpWatchDog::destroy()\n")); /* Finish the watchdog thread. */ dog->status = STATUS_STOP_THREAD; deThread_join(dog->watchDogThread); deThread_destroy(dog->watchDogThread); DBGPRINT(("qpWatchDog::destroy() finished\n")); deFree(dog); } void qpWatchDog_touch (qpWatchDog* dog) { DE_ASSERT(dog); DBGPRINT(("qpWatchDog::touch()\n")); dog->lastTouchTime = deGetMicroseconds(); }