/** * Copyright (C) ARM Limited 2010-2013. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. */ #include #include #include #include #include #include "Logging.h" #include "CapturedXML.h" #include "SessionData.h" #include "Child.h" #include "LocalCapture.h" #include "Collector.h" #include "Sender.h" #include "OlyUtility.h" #include "StreamlineSetup.h" #include "ConfigurationXML.h" #include "Driver.h" #include "Fifo.h" #include "Buffer.h" #define NS_PER_S ((uint64_t)1000000000) #define NS_PER_US 1000 static sem_t haltPipeline, senderThreadStarted, startProfile, senderSem; // Shared by Child and spawned threads static Fifo* collectorFifo = NULL; // Shared by Child.cpp and spawned threads static Buffer* buffer = NULL; static Sender* sender = NULL; // Shared by Child.cpp and spawned threads static Collector* collector = NULL; Child* child = NULL; // shared by Child.cpp and main.cpp extern void cleanUp(); void handleException() { if (child && child->numExceptions++ > 0) { // it is possible one of the below functions itself can cause an exception, thus allow only one exception logg->logMessage("Received multiple exceptions, terminating the child"); exit(1); } fprintf(stderr, "%s", logg->getLastError()); if (child && child->socket) { if (sender) { // send the error, regardless of the command sent by Streamline sender->writeData(logg->getLastError(), strlen(logg->getLastError()), RESPONSE_ERROR); // cannot close the socket before Streamline issues the command, so wait for the command before exiting if (gSessionData->mWaitingOnCommand) { char discard; child->socket->receiveNBytes(&discard, 1); } // this indirectly calls close socket which will ensure the data has been sent delete sender; } } if (gSessionData->mLocalCapture) cleanUp(); exit(1); } // CTRL C Signal Handler for child process static void child_handler(int signum) { static bool beenHere = false; if (beenHere == true) { logg->logMessage("Gator is being forced to shut down."); exit(1); } beenHere = true; logg->logMessage("Gator is shutting down."); if (signum == SIGALRM || !collector) { exit(1); } else { child->endSession(); alarm(5); // Safety net in case endSession does not complete within 5 seconds } } static void* durationThread(void* pVoid) { prctl(PR_SET_NAME, (unsigned long)&"gatord-duration", 0, 0, 0); sem_wait(&startProfile); if (gSessionData->mSessionIsActive) { // Time out after duration seconds // Add a second for host-side filtering sleep(gSessionData->mDuration + 1); if (gSessionData->mSessionIsActive) { logg->logMessage("Duration expired."); child->endSession(); } } logg->logMessage("Exit duration thread"); return 0; } static void* stopThread(void* pVoid) { int length; char type; OlySocket* socket = child->socket; prctl(PR_SET_NAME, (unsigned long)&"gatord-stopper", 0, 0, 0); while (gSessionData->mSessionIsActive) { // This thread will stall until the APC_STOP or PING command is received over the socket or the socket is disconnected const int result = socket->receiveNBytes(&type, sizeof(type)); if (result == -1) { child->endSession(); } else if (result > 0) { if ((type != COMMAND_APC_STOP) && (type != COMMAND_PING)) { logg->logMessage("INVESTIGATE: Received unknown command type %d", type); } else { // verify a length of zero if (socket->receiveNBytes((char*)&length, sizeof(length)) < 0) { break; } if (length == 0) { if (type == COMMAND_APC_STOP) { logg->logMessage("Stop command received."); child->endSession(); } else { // Ping is used to make sure gator is alive and requires an ACK as the response logg->logMessage("Ping command received."); sender->writeData(NULL, 0, RESPONSE_ACK); } } else { logg->logMessage("INVESTIGATE: Received stop command but with length = %d", length); } } } } logg->logMessage("Exit stop thread"); return 0; } void* countersThread(void* pVoid) { prctl(PR_SET_NAME, (unsigned long)&"gatord-counters", 0, 0, 0); gSessionData->hwmon.start(); int64_t monotonic_started = 0; while (monotonic_started <= 0) { usleep(10); if (Collector::readInt64Driver("/dev/gator/started", &monotonic_started) == -1) { logg->logError(__FILE__, __LINE__, "Error reading gator driver start time"); handleException(); } } uint64_t next_time = 0; while (gSessionData->mSessionIsActive) { struct timespec ts; #ifndef CLOCK_MONOTONIC_RAW // Android doesn't have this defined but it was added in Linux 2.6.28 #define CLOCK_MONOTONIC_RAW 4 #endif if (clock_gettime(CLOCK_MONOTONIC_RAW, &ts) != 0) { logg->logError(__FILE__, __LINE__, "Failed to get uptime"); handleException(); } const uint64_t curr_time = (NS_PER_S*ts.tv_sec + ts.tv_nsec) - monotonic_started; // Sample ten times a second ignoring gSessionData->mSampleRate next_time += NS_PER_S/10;//gSessionData->mSampleRate; if (next_time < curr_time) { logg->logMessage("Too slow, curr_time: %lli next_time: %lli", curr_time, next_time); next_time = curr_time; } if (buffer->eventHeader(curr_time)) { gSessionData->hwmon.read(buffer); // Only check after writing all counters so that time and corresponding counters appear in the same frame buffer->check(curr_time); } if (buffer->bytesAvailable() <= 0) { logg->logMessage("One shot (counters)"); child->endSession(); } usleep((next_time - curr_time)/NS_PER_US); } buffer->setDone(); return NULL; } static void* senderThread(void* pVoid) { int length = 1; char* data; char end_sequence[] = {RESPONSE_APC_DATA, 0, 0, 0, 0}; sem_post(&senderThreadStarted); prctl(PR_SET_NAME, (unsigned long)&"gatord-sender", 0, 0, 0); sem_wait(&haltPipeline); while (length > 0 || !buffer->isDone()) { sem_wait(&senderSem); data = collectorFifo->read(&length); if (data != NULL) { sender->writeData(data, length, RESPONSE_APC_DATA); collectorFifo->release(); } if (!buffer->isDone()) { buffer->write(sender); } } // write end-of-capture sequence if (!gSessionData->mLocalCapture) { sender->writeData(end_sequence, sizeof(end_sequence), RESPONSE_APC_DATA); } logg->logMessage("Exit sender thread"); return 0; } Child::Child() { initialization(); gSessionData->mLocalCapture = true; } Child::Child(OlySocket* sock, int conn) { initialization(); socket = sock; mNumConnections = conn; } Child::~Child() { } void Child::initialization() { // Set up different handlers for signals gSessionData->mSessionIsActive = true; signal(SIGINT, child_handler); signal(SIGTERM, child_handler); signal(SIGABRT, child_handler); signal(SIGALRM, child_handler); socket = NULL; numExceptions = 0; mNumConnections = 0; // Initialize semaphores sem_init(&senderThreadStarted, 0, 0); sem_init(&startProfile, 0, 0); sem_init(&senderSem, 0, 0); } void Child::endSession() { gSessionData->mSessionIsActive = false; collector->stop(); sem_post(&haltPipeline); } void Child::run() { char* collectBuffer; int bytesCollected = 0; LocalCapture* localCapture = NULL; pthread_t durationThreadID, stopThreadID, senderThreadID, countersThreadID; prctl(PR_SET_NAME, (unsigned long)&"gatord-child", 0, 0, 0); // Disable line wrapping when generating xml files; carriage returns and indentation to be added manually mxmlSetWrapMargin(0); // Instantiate the Sender - must be done first, after which error messages can be sent sender = new Sender(socket); if (mNumConnections > 1) { logg->logError(__FILE__, __LINE__, "Session already in progress"); handleException(); } // Populate gSessionData with the configuration { ConfigurationXML configuration; } // Set up the driver; must be done after gSessionData->mPerfCounterType[] is populated collector = new Collector(); // Initialize all drivers for (Driver *driver = Driver::getHead(); driver != NULL; driver = driver->getNext()) { driver->resetCounters(); } // Set up counters using the associated driver's setup function for (int i = 0; i < MAX_PERFORMANCE_COUNTERS; i++) { Counter & counter = gSessionData->mCounters[i]; if (counter.isEnabled()) { counter.getDriver()->setupCounter(counter); } } // Start up and parse session xml if (socket) { // Respond to Streamline requests StreamlineSetup ss(socket); } else { char* xmlString; xmlString = util->readFromDisk(gSessionData->mSessionXMLPath); if (xmlString == 0) { logg->logError(__FILE__, __LINE__, "Unable to read session xml file: %s", gSessionData->mSessionXMLPath); handleException(); } gSessionData->parseSessionXML(xmlString); localCapture = new LocalCapture(); localCapture->createAPCDirectory(gSessionData->mTargetPath); localCapture->copyImages(gSessionData->mImages); localCapture->write(xmlString); sender->createDataFile(gSessionData->mAPCDir); free(xmlString); } // Create user-space buffers, add 5 to the size to account for the 1-byte type and 4-byte length logg->logMessage("Created %d MB collector buffer with a %d-byte ragged end", gSessionData->mTotalBufferSize, collector->getBufferSize()); collectorFifo = new Fifo(collector->getBufferSize() + 5, gSessionData->mTotalBufferSize*1024*1024, &senderSem); // Get the initial pointer to the collect buffer collectBuffer = collectorFifo->start(); // Create a new Block Counter Buffer buffer = new Buffer(0, 5, gSessionData->mTotalBufferSize*1024*1024, &senderSem); // Sender thread shall be halted until it is signaled for one shot mode sem_init(&haltPipeline, 0, gSessionData->mOneShot ? 0 : 2); // Create the duration, stop, and sender threads bool thread_creation_success = true; if (gSessionData->mDuration > 0 && pthread_create(&durationThreadID, NULL, durationThread, NULL)) { thread_creation_success = false; } else if (socket && pthread_create(&stopThreadID, NULL, stopThread, NULL)) { thread_creation_success = false; } else if (pthread_create(&senderThreadID, NULL, senderThread, NULL)){ thread_creation_success = false; } if (gSessionData->hwmon.countersEnabled()) { if (pthread_create(&countersThreadID, NULL, countersThread, this)) { thread_creation_success = false; } } else { // Let senderThread know there is no buffer data to send buffer->setDone(); } if (!thread_creation_success) { logg->logError(__FILE__, __LINE__, "Failed to create gator threads"); handleException(); } // Wait until thread has started sem_wait(&senderThreadStarted); // Start profiling logg->logMessage("********** Profiling started **********"); collector->start(); sem_post(&startProfile); // Collect Data do { // This command will stall until data is received from the driver bytesCollected = collector->collect(collectBuffer); // In one shot mode, stop collection once all the buffers are filled if (gSessionData->mOneShot && gSessionData->mSessionIsActive) { if (bytesCollected == -1 || collectorFifo->willFill(bytesCollected)) { logg->logMessage("One shot"); endSession(); } } collectBuffer = collectorFifo->write(bytesCollected); } while (bytesCollected > 0); logg->logMessage("Exit collect data loop"); if (gSessionData->hwmon.countersEnabled()) { pthread_join(countersThreadID, NULL); } // Wait for the other threads to exit pthread_join(senderThreadID, NULL); // Shutting down the connection should break the stop thread which is stalling on the socket recv() function if (socket) { logg->logMessage("Waiting on stop thread"); socket->shutdownConnection(); pthread_join(stopThreadID, NULL); } // Write the captured xml file if (gSessionData->mLocalCapture) { CapturedXML capturedXML; capturedXML.write(gSessionData->mAPCDir); } logg->logMessage("Profiling ended."); delete buffer; delete collectorFifo; delete sender; delete collector; delete localCapture; }