@Override public void updateProcessTree() { procfs.updateProcessTree(); cgroup.updateProcessTree(); }
ProcfsBasedProcessTree procfsBasedProcessTree = new ProcfsBasedProcessTree(args[0]); procfsBasedProcessTree.updateProcessTree(); procfsBasedProcessTree.updateProcessTree();
ProcfsBasedProcessTree procfsBasedProcessTree = new ProcfsBasedProcessTree(args[0]); procfsBasedProcessTree.updateProcessTree(); procfsBasedProcessTree.updateProcessTree();
private void setSmapsInProceTree(ProcfsBasedProcessTree processTree, boolean enableFlag) { Configuration conf = processTree.getConf(); if (conf == null) { conf = new Configuration(); } conf.setBoolean(YarnConfiguration.PROCFS_USE_SMAPS_BASED_RSS_ENABLED, enableFlag); processTree.setConf(conf); processTree.updateProcessTree(); }
ProcfsBasedProcessTree procfsBasedProcessTree = new ProcfsBasedProcessTree(args[0]); procfsBasedProcessTree.updateProcessTree(); procfsBasedProcessTree.updateProcessTree();
private void setSmapsInProceTree(ProcfsBasedProcessTree processTree, boolean enableFlag) { Configuration conf = processTree.getConf(); if (conf == null) { conf = new Configuration(); } conf.setBoolean(YarnConfiguration.PROCFS_USE_SMAPS_BASED_RSS_ENABLED, enableFlag); processTree.setConf(conf); processTree.updateProcessTree(); }
private void setSmapsInProceTree(ProcfsBasedProcessTree processTree, boolean enableFlag) { Configuration conf = processTree.getConf(); if (conf == null) { conf = new Configuration(); } conf.setBoolean(YarnConfiguration.PROCFS_USE_SMAPS_BASED_RSS_ENABLED, enableFlag); processTree.setConf(conf); processTree.updateProcessTree(); }
LOG.info("Root process pid: " + pid); ProcfsBasedProcessTree p = createProcessTree(pid); p.updateProcessTree(); // initialize LOG.info("ProcessTree: " + p); p.updateProcessTree(); // reconstruct LOG.info("ProcessTree: " + p); p.updateProcessTree(); Assert.assertFalse("ProcessTree must have been gone", isAlive(pid)); Assert.assertTrue(
LOG.info("Root process pid: " + pid); ProcfsBasedProcessTree p = createProcessTree(pid); p.updateProcessTree(); // initialize LOG.info("ProcessTree: " + p.toString()); p.updateProcessTree(); // reconstruct LOG.info("ProcessTree: " + p.toString()); p.updateProcessTree(); Assert.assertFalse("ProcessTree must have been gone", isAlive(pid));
LOG.info("Root process pid: " + pid); ProcfsBasedProcessTree p = createProcessTree(pid); p.updateProcessTree(); // initialize LOG.info("ProcessTree: " + p.toString()); p.updateProcessTree(); // reconstruct LOG.info("ProcessTree: " + p.toString()); p.updateProcessTree(); Assert.assertFalse("ProcessTree must have been gone", isAlive(pid));
SystemClock.getInstance()); processTree.updateProcessTree();
new SystemClock()); processTree.updateProcessTree();
new SystemClock()); processTree.updateProcessTree();
processTree.setConf(conf); processTree.updateProcessTree(); testClock.setTime(elapsedTimeBetweenUpdatesMsec); processTree.updateProcessTree();
processTree.setConf(conf); processTree.updateProcessTree(); testClock.setTime(elapsedTimeBetweenUpdatesMsec); processTree.updateProcessTree();
processTree.setConf(conf); processTree.updateProcessTree(); testClock.setTime(elapsedTimeBetweenUpdatesMsec); processTree.updateProcessTree();
processTree.updateProcessTree(); Assert.assertEquals("vmem does not include new process", 1200000L, processTree.getVirtualMemorySize()); processTree.updateProcessTree();
processTree.updateProcessTree(); Assert.assertEquals("vmem does not include new process", 1200000L, processTree.getVirtualMemorySize()); processTree.updateProcessTree();
processTree.updateProcessTree(); Assert.assertEquals("vmem does not include new process", 1200000L, processTree.getVirtualMemorySize()); processTree.updateProcessTree();