/** * Kill the task and clean up ProcessTreeInfo * * @param tid task attempt ID of the task to be killed. * @param msg diagonostic message * @param wasFailure if true, fail the task */ private void killTask(TaskAttemptID tid, String msg, boolean wasFailure) { // Kill the task and mark it as killed. taskTracker.cleanUpOverMemoryTask(tid, wasFailure, msg); // Now destroy the ProcessTree, remove it from monitoring map. ProcessTreeInfo ptInfo = processTreeInfoMap.get(tid); ProcfsBasedProcessTree pTree = ptInfo.getProcessTree(); try { LinuxSystemCall.killProcessGroup(Integer.parseInt(ptInfo.getPID())); } catch (java.io.IOException e) { LOG.error("Could not kill process group " + ptInfo.getPID(), e); } processTreeInfoMap.remove(tid); LOG.info("Removed ProcessTree with root " + ptInfo.getPID()); }
@Override public void run() { LOG.info("Starting thread: " + this.getClass()); while (running) { try { // Print the processTrees for debugging. if (LOG.isDebugEnabled()) { StringBuffer tmp = new StringBuffer("[ "); for (ProcessTreeInfo p : processTreeInfoMap.values()) { tmp.append(p.getPID()); tmp.append(" "); } LOG.debug("Current ProcessTree list : " + tmp.substring(0, tmp.length()) + "]"); } // Add new Tasks synchronized (tasksToBeAdded) { processTreeInfoMap.putAll(tasksToBeAdded); tasksToBeAdded.clear(); } // Remove finished Tasks synchronized (tasksToBeRemoved) { for (TaskAttemptID tid : tasksToBeRemoved) { processTreeInfoMap.remove(tid); } tasksToBeRemoved.clear(); } long memoryStillInUsage = 0; long rssMemoryStillInUsage = 0; // Now, check memory usage and kill any overflowing tasks for (Iterator<Map.Entry<TaskAttemptID, ProcessTreeInfo>> it = processTreeInfoMap.entrySet().iterator(); it.hasNext(); ) { Map.Entry<TaskAttemptID, ProcessTreeInfo> entry = it.next(); TaskAttemptID tid = entry.getKey(); ProcessTreeInfo ptInfo = entry.getValue(); try { String pId = ptInfo.getPID(); // Initialize any uninitialized processTrees if (pId == null) { // get pid from taskAttemptId pId = taskTracker.getPid(ptInfo.getTID()); if (pId != null) { // PID will be null, either if the pid file is yet to be created // or if the tip is finished and we removed pidFile, but the TIP // itself is still retained in runningTasks till successful // transmission to JT // create process tree object long sleeptimeBeforeSigkill = taskTracker .getJobConf() .getLong( "mapred.tasktracker.tasks.sleeptime-before-sigkill", ProcessTree.DEFAULT_SLEEPTIME_BEFORE_SIGKILL); ProcfsBasedProcessTree pt = new ProcfsBasedProcessTree( pId, ProcessTree.isSetsidAvailable, sleeptimeBeforeSigkill); LOG.debug("Tracking ProcessTree " + pId + " for the first time"); ptInfo.setPid(pId); ptInfo.setProcessTree(pt); } } // End of initializing any uninitialized processTrees if (pId == null) { continue; // processTree cannot be tracked } LOG.debug("Constructing ProcessTree for : PID = " + pId + " TID = " + tid); ProcfsBasedProcessTree pTree = ptInfo.getProcessTree(); pTree = pTree.getProcessTree(); // get the updated process-tree ptInfo.setProcessTree(pTree); // update ptInfo with process-tree of // updated state long currentMemUsage = pTree.getCumulativeVmem(); long currentRssMemUsage = pTree.getCumulativeRssmem(); // as processes begin with an age 1, we want to see if there // are processes more than 1 iteration old. long curMemUsageOfAgedProcesses = pTree.getCumulativeVmem(1); long limit = ptInfo.getMemLimit(); String user = taskTracker.getUserName(ptInfo.tid); if (user == null) { // If user is null the task is deleted from the TT memory continue; } // Log RSS and virtual memory usage of all tasks LOG.debug( (String.format( "Memory usage of ProcessTree %s : " + "[USER,TID,RSS,VMEM,VLimit,TotalRSSLimit]" + "=[%s,%s,%s,%s,%s,%s]", pId, user, ptInfo.tid, currentRssMemUsage, currentMemUsage, limit, maxRssMemoryAllowedForAllTasks))); if (doCheckVirtualMemory() && isProcessTreeOverLimit( tid.toString(), currentMemUsage, curMemUsageOfAgedProcesses, limit)) { // Task (the root process) is still alive and overflowing memory. // Dump the process-tree and then clean it up. String msg = "TaskTree [pid=" + pId + ",tipID=" + tid + "] is running beyond memory-limits. Current usage : " + currentMemUsage + "bytes. Limit : " + limit + "bytes. Killing task. \nDump of the process-tree for " + tid + " : \n" + pTree.getProcessTreeDump(); LOG.warn(msg); taskTracker.cleanUpOverMemoryTask(tid, true, msg); LinuxSystemCall.killProcessGroup(Integer.parseInt(pId)); it.remove(); LOG.info("Removed ProcessTree with root " + pId); } else { // Accounting the total memory in usage for all tasks that are still // alive and within limits. memoryStillInUsage += currentMemUsage; rssMemoryStillInUsage += currentRssMemUsage; } } catch (Exception e) { // Log the exception and proceed to the next task. LOG.warn( "Uncaught exception in TaskMemoryManager " + "while managing memory of " + tid, e); } } long availableRssMemory = resourceCalculator.getAvailablePhysicalMemorySize(); LOG.info( "vMemory:" + memoryStillInUsage + " rssMemory:" + rssMemoryStillInUsage + " rssMemoryLimit:" + maxRssMemoryAllowedForAllTasks + " rssMemoryAvailable:" + availableRssMemory + " rssMemoryReserved:" + reservedRssMemory + " totalTasks:" + processTreeInfoMap.size()); if (doCheckVirtualMemory() && memoryStillInUsage > maxMemoryAllowedForAllTasks) { LOG.warn( "The total memory in usage " + memoryStillInUsage + " is overflowing TTs limits " + maxMemoryAllowedForAllTasks + ". Trying to kill a few tasks with the least progress."); killTasksWithLeastProgress(memoryStillInUsage); } updateMaxRssMemory(); if (doCheckPhysicalMemory() && (rssMemoryStillInUsage > maxRssMemoryAllowedForAllTasks || availableRssMemory < reservedRssMemory)) { LOG.warn( "The total physical memory in usage " + rssMemoryStillInUsage + " is overflowing TTs limits " + maxRssMemoryAllowedForAllTasks + ". Trying to kill a few tasks with the highest memory."); failTasksWithMaxRssMemory(rssMemoryStillInUsage, availableRssMemory); } // Sleep for some time before beginning next cycle LOG.debug(this.getClass() + " : Sleeping for " + monitoringInterval + " ms"); Thread.sleep(monitoringInterval); } catch (InterruptedException iex) { if (running) { LOG.error("Class " + this.getClass() + " was interrupted", iex); } } catch (Throwable t) { LOG.error("Class " + this.getClass() + " encountered error", t); } } }