def getRootJobReturnValue(self):
"""
Parse the return value from the root job.
Raises an exception if the root job hasn't fulfilled its promise yet.
"""
# Parse out the return value from the root job
with self.readSharedFileStream('rootJobReturnValue') as fH:
return safeUnpickleFromStream(fH)
def resume(self):
"""
Connect this instance to the physical storage it represents and load the Toil configuration
into the :attr:`AbstractJobStore.config` attribute.
:raises NoSuchJobStoreException: if the physical storage for this job store doesn't exist
"""
with self.readSharedFileStream('config.pickle') as fileHandle:
config = safeUnpickleFromStream(fileHandle)
assert config.workflowID is not None
self.__config = config
def workerScript(jobStore,
config,
jobName,
jobStoreID,
redirectOutputToLogFile=True):
"""
Worker process script, runs a job.
:param str jobName: The "job name" (a user friendly name) of the job to be run
:param str jobStoreLocator: Specifies the job store to use
:param str jobStoreID: The job store ID of the job to be run
:return int: 1 if a job failed, or 0 if all jobs succeeded
"""
configure_root_logger()
set_log_level(config.logLevel)
##########################################
#Create the worker killer, if requested
##########################################
logFileByteReportLimit = config.maxLogFileSize
if config.badWorker > 0 and random.random() < config.badWorker:
# We need to kill the process we are currently in, to simulate worker
# failure. We don't want to just send SIGKILL, because we can't tell
# that from a legitimate OOM on our CI runner. We're going to send
# SIGUSR1 so our terminations are distinctive, and then SIGKILL if that
# didn't stick. We definitely don't want to do this from *within* the
# process we are trying to kill, so we fork off. TODO: We can still
# leave the killing code running after the main Toil flow is done, but
# since it's now in a process instead of a thread, the main Python
# process won't wait around for its timeout to expire. I think this is
# better than the old thread-based way where all of Toil would wait
# around to be killed.
killTarget = os.getpid()
sleepTime = config.badWorkerFailInterval * random.random()
if os.fork() == 0:
# We are the child
# Let the parent run some amount of time
time.sleep(sleepTime)
# Kill it gently
os.kill(killTarget, signal.SIGUSR1)
# Wait for that to stick
time.sleep(0.01)
try:
# Kill it harder. Hope the PID hasn't already been reused.
# If we succeeded the first time, this will OSError
os.kill(killTarget, signal.SIGKILL)
except OSError:
pass
# Exit without doing any of Toil's cleanup
os._exit(0)
# We don't need to reap the child. Either it kills us, or we finish
# before it does. Either way, init will have to clean it up for us.
##########################################
#Load the environment for the job
##########################################
#First load the environment for the job.
with jobStore.readSharedFileStream("environment.pickle") as fileHandle:
environment = safeUnpickleFromStream(fileHandle)
env_reject = {
"TMPDIR", "TMP", "HOSTNAME", "HOSTTYPE", "HOME", "LOGNAME", "USER",
"DISPLAY", "JAVA_HOME"
}
for i in environment:
if i == "PATH":
# Handle path specially. Sometimes e.g. leader may not include
# /bin, but the Toil appliance needs it.
if i in os.environ and os.environ[i] != '':
# Use the provided PATH and then the local system's PATH
os.environ[i] = environment[i] + ':' + os.environ[i]
else:
# Use the provided PATH only
os.environ[i] = environment[i]
elif i not in env_reject:
os.environ[i] = environment[i]
# sys.path is used by __import__ to find modules
if "PYTHONPATH" in environment:
for e in environment["PYTHONPATH"].split(':'):
if e != '':
sys.path.append(e)
toilWorkflowDir = Toil.getLocalWorkflowDir(config.workflowID,
config.workDir)
##########################################
#Setup the temporary directories.
##########################################
# Dir to put all this worker's temp files in.
localWorkerTempDir = tempfile.mkdtemp(dir=toilWorkflowDir)
os.chmod(localWorkerTempDir, 0o755)
##########################################
#Setup the logging
##########################################
#This is mildly tricky because we don't just want to
#redirect stdout and stderr for this Python process; we want to redirect it
#for this process and all children. Consequently, we can't just replace
#sys.stdout and sys.stderr; we need to mess with the underlying OS-level
#file descriptors. See <http://stackoverflow.com/a/11632982/402891>
#When we start, standard input is file descriptor 0, standard output is
#file descriptor 1, and standard error is file descriptor 2.
# Do we even want to redirect output? Let the config make us not do it.
redirectOutputToLogFile = redirectOutputToLogFile and not config.disableWorkerOutputCapture
#What file do we want to point FDs 1 and 2 to?
tempWorkerLogPath = os.path.join(localWorkerTempDir, "worker_log.txt")
if redirectOutputToLogFile:
# Announce that we are redirecting logging, and where it will now go.
# This is important if we are trying to manually trace a faulty worker invocation.
logger.info("Redirecting logging to %s", tempWorkerLogPath)
sys.stdout.flush()
sys.stderr.flush()
# Save the original stdout and stderr (by opening new file descriptors
# to the same files)
origStdOut = os.dup(1)
origStdErr = os.dup(2)
# Open the file to send stdout/stderr to.
logFh = os.open(tempWorkerLogPath,
os.O_WRONLY | os.O_CREAT | os.O_APPEND)
# Replace standard output with a descriptor for the log file
os.dup2(logFh, 1)
# Replace standard error with a descriptor for the log file
os.dup2(logFh, 2)
# Since we only opened the file once, all the descriptors duped from
# the original will share offset information, and won't clobber each
# others' writes. See <http://stackoverflow.com/a/5284108/402891>. This
# shouldn't matter, since O_APPEND seeks to the end of the file before
# every write, but maybe there's something odd going on...
# Close the descriptor we used to open the file
os.close(logFh)
debugging = logging.getLogger().isEnabledFor(logging.DEBUG)
##########################################
#Worker log file trapped from here on in
##########################################
jobAttemptFailed = False
statsDict = MagicExpando()
statsDict.jobs = []
statsDict.workers.logsToMaster = []
blockFn = lambda: True
listOfJobs = [jobName]
job = None
try:
#Put a message at the top of the log, just to make sure it's working.
logger.info("---TOIL WORKER OUTPUT LOG---")
sys.stdout.flush()
logProcessContext(config)
##########################################
#Connect to the deferred function system
##########################################
deferredFunctionManager = DeferredFunctionManager(toilWorkflowDir)
##########################################
#Load the JobDescription
##########################################
jobDesc = jobStore.load(jobStoreID)
listOfJobs[0] = str(jobDesc)
logger.debug("Parsed job description")
##########################################
#Cleanup from any earlier invocation of the job
##########################################
if jobDesc.command == None:
logger.debug("Job description has no body to run.")
# Cleanup jobs already finished
predicate = lambda jID: jobStore.exists(jID)
jobDesc.filterSuccessors(predicate)
jobDesc.filterServiceHosts(predicate)
logger.debug(
"Cleaned up any references to completed successor jobs")
# This cleans the old log file which may
# have been left if the job is being retried after a job failure.
oldLogFile = jobDesc.logJobStoreFileID
if oldLogFile != None:
jobDesc.logJobStoreFileID = None
jobStore.update(jobDesc) #Update first, before deleting any files
jobStore.deleteFile(oldLogFile)
##########################################
# If a checkpoint exists, restart from the checkpoint
##########################################
if isinstance(
jobDesc,
CheckpointJobDescription) and jobDesc.checkpoint is not None:
# The job is a checkpoint, and is being restarted after previously completing
logger.debug("Job is a checkpoint")
# If the checkpoint still has extant successors or services, its
# subtree didn't complete properly. We handle the restart of the
# checkpoint here, removing its previous subtree.
if next(jobDesc.successorsAndServiceHosts(), None) is not None:
logger.debug("Checkpoint has failed; restoring")
# Reduce the try count
assert jobDesc.remainingTryCount >= 0
jobDesc.remainingTryCount = max(0,
jobDesc.remainingTryCount - 1)
jobDesc.restartCheckpoint(jobStore)
# Otherwise, the job and successors are done, and we can cleanup stuff we couldn't clean
# because of the job being a checkpoint
else:
logger.debug(
"The checkpoint jobs seems to have completed okay, removing any checkpoint files to delete."
)
#Delete any remnant files
list(
map(
jobStore.deleteFile,
list(
filter(jobStore.fileExists,
jobDesc.checkpointFilesToDelete))))
##########################################
#Setup the stats, if requested
##########################################
if config.stats:
startClock = get_total_cpu_time()
startTime = time.time()
while True:
##########################################
#Run the job body, if there is one
##########################################
logger.info("Working on job %s", jobDesc)
if jobDesc.command is not None:
assert jobDesc.command.startswith("_toil ")
logger.debug("Got a command to run: %s" % jobDesc.command)
# Load the job. It will use the same JobDescription we have been using.
job = Job.loadJob(jobStore, jobDesc)
if isinstance(jobDesc, CheckpointJobDescription):
# If it is a checkpoint job, save the command
jobDesc.checkpoint = jobDesc.command
logger.info("Loaded body %s from description %s", job, jobDesc)
# Create a fileStore object for the job
fileStore = AbstractFileStore.createFileStore(
jobStore,
jobDesc,
localWorkerTempDir,
blockFn,
caching=not config.disableCaching)
with job._executor(stats=statsDict if config.stats else None,
fileStore=fileStore):
with deferredFunctionManager.open() as defer:
with fileStore.open(job):
# Get the next block function to wait on committing this job
blockFn = fileStore.waitForCommit
# Run the job, save new successors, and set up
# locally (but don't commit) successor
# relationships and job completion.
# Pass everything as name=value because Cactus
# likes to override _runner when it shouldn't and
# it needs some hope of finding the arguments it
# wants across multiple Toil versions. We also
# still pass a jobGraph argument to placate old
# versions of Cactus.
job._runner(jobGraph=None,
jobStore=jobStore,
fileStore=fileStore,
defer=defer)
# Accumulate messages from this job & any subsequent chained jobs
statsDict.workers.logsToMaster += fileStore.loggingMessages
logger.info("Completed body for %s", jobDesc)
else:
#The command may be none, in which case
#the JobDescription is either a shell ready to be deleted or has
#been scheduled after a failure to cleanup
logger.debug("No user job to run, so finishing")
break
if AbstractFileStore._terminateEvent.isSet():
raise RuntimeError("The termination flag is set")
##########################################
#Establish if we can run another job within the worker
##########################################
successor = nextChainable(jobDesc, jobStore, config)
if successor is None or config.disableChaining:
# Can't chain any more jobs. We are going to stop.
logger.info("Not chaining from job %s", jobDesc)
# TODO: Somehow the commit happens even if we don't start it here.
break
logger.info("Chaining from %s to %s", jobDesc, successor)
##########################################
# We have a single successor job that is not a checkpoint job. We
# reassign the ID of the current JobDescription to the successor.
# We can then delete the successor JobDescription (under its old
# ID) in the jobStore, as it is wholly incorporated into the
# current one.
##########################################
# Make sure nothing has gone wrong and we can really chain
assert jobDesc.memory >= successor.memory
assert jobDesc.cores >= successor.cores
# Save the successor's original ID, so we can clean it (and its
# body) up after we finish executing it.
successorID = successor.jobStoreID
# add the successor to the list of jobs run
listOfJobs.append(str(successor))
# Now we need to become that successor, under the original ID.
successor.replace(jobDesc)
jobDesc = successor
# Problem: successor's job body is a file that will be cleaned up
# when we delete the successor job by ID. We can't just move it. So
# we need to roll up the deletion of the successor job by ID with
# the deletion of the job ID we're currently working on.
jobDesc.jobsToDelete.append(successorID)
# Clone the now-current JobDescription (which used to be the successor).
# TODO: Why??? Can we not?
jobDesc = copy.deepcopy(jobDesc)
# Build a fileStore to update the job and commit the replacement.
# TODO: can we have a commit operation without an entire FileStore???
fileStore = AbstractFileStore.createFileStore(
jobStore,
jobDesc,
localWorkerTempDir,
blockFn,
caching=not config.disableCaching)
# Update blockFn to wait for that commit operation.
blockFn = fileStore.waitForCommit
# This will update the job once the previous job is done updating
fileStore.startCommit(jobState=True)
# Clone the current job description again, so that further updates
# to it (such as new successors being added when it runs) occur
# after the commit process we just kicked off, and aren't committed
# early or partially.
jobDesc = copy.deepcopy(jobDesc)
logger.debug("Starting the next job")
##########################################
#Finish up the stats
##########################################
if config.stats:
totalCPUTime, totalMemoryUsage = get_total_cpu_time_and_memory_usage(
)
statsDict.workers.time = str(time.time() - startTime)
statsDict.workers.clock = str(totalCPUTime - startClock)
statsDict.workers.memory = str(totalMemoryUsage)
# log the worker log path here so that if the file is truncated the path can still be found
if redirectOutputToLogFile:
logger.info(
"Worker log can be found at %s. Set --cleanWorkDir to retain this log",
localWorkerTempDir)
logger.info(
"Finished running the chain of jobs on this node, we ran for a total of %f seconds",
time.time() - startTime)
##########################################
#Trapping where worker goes wrong
##########################################
except: #Case that something goes wrong in worker
traceback.print_exc()
logger.error("Exiting the worker because of a failed job on host %s",
socket.gethostname())
AbstractFileStore._terminateEvent.set()
##########################################
#Wait for the asynchronous chain of writes/updates to finish
##########################################
blockFn()
##########################################
#All the asynchronous worker/update threads must be finished now,
#so safe to test if they completed okay
##########################################
if AbstractFileStore._terminateEvent.isSet():
# Something has gone wrong.
# Clobber any garbage state we have for this job from failing with
# whatever good state is still stored in the JobStore
jobDesc = jobStore.load(jobStoreID)
# Remember that we failed
jobAttemptFailed = True
##########################################
#Cleanup
##########################################
# Close the worker logging
# Flush at the Python level
sys.stdout.flush()
sys.stderr.flush()
if redirectOutputToLogFile:
# Flush at the OS level
os.fsync(1)
os.fsync(2)
# Close redirected stdout and replace with the original standard output.
os.dup2(origStdOut, 1)
# Close redirected stderr and replace with the original standard error.
os.dup2(origStdErr, 2)
# sys.stdout and sys.stderr don't need to be modified at all. We don't
# need to call redirectLoggerStreamHandlers since they still log to
# sys.stderr
# Close our extra handles to the original standard output and standard
# error streams, so we don't leak file handles.
os.close(origStdOut)
os.close(origStdErr)
# Now our file handles are in exactly the state they were in before.
# Copy back the log file to the global dir, if needed.
# Note that we work with bytes instead of characters so we can seek
# relative to the end (since Python won't decode Unicode backward, or even
# interpret seek offsets in characters for us). TODO: We may get invalid or
# just different Unicode by breaking up a character at the boundary!
if jobAttemptFailed and redirectOutputToLogFile:
jobDesc.logJobStoreFileID = jobStore.getEmptyFileStoreID(
jobDesc.jobStoreID, cleanup=True)
jobDesc.chainedJobs = listOfJobs
with jobStore.updateFileStream(jobDesc.logJobStoreFileID) as w:
with open(tempWorkerLogPath, 'rb') as f:
if os.path.getsize(
tempWorkerLogPath) > logFileByteReportLimit != 0:
if logFileByteReportLimit > 0:
f.seek(-logFileByteReportLimit,
2) # seek to last tooBig bytes of file
elif logFileByteReportLimit < 0:
f.seek(logFileByteReportLimit,
0) # seek to first tooBig bytes of file
# Dump the possibly-invalid-Unicode bytes into the log file
w.write(f.read()) # TODO load file using a buffer
# Commit log file reference back to JobStore
jobStore.update(jobDesc)
elif ((debugging or (config.writeLogsFromAllJobs
and not jobName.startswith(CWL_INTERNAL_JOBS)))
and redirectOutputToLogFile): # write log messages
with open(tempWorkerLogPath, 'rb') as logFile:
if os.path.getsize(
tempWorkerLogPath) > logFileByteReportLimit != 0:
if logFileByteReportLimit > 0:
logFile.seek(-logFileByteReportLimit,
2) # seek to last tooBig bytes of file
elif logFileByteReportLimit < 0:
logFile.seek(logFileByteReportLimit,
0) # seek to first tooBig bytes of file
# Make sure lines are Unicode so they can be JSON serialized as part of the dict.
# We may have damaged the Unicode text by cutting it at an arbitrary byte so we drop bad characters.
logMessages = [
line.decode('utf-8', 'skip')
for line in logFile.read().splitlines()
]
statsDict.logs.names = listOfJobs
statsDict.logs.messages = logMessages
if (debugging or config.stats or statsDict.workers.logsToMaster
) and not jobAttemptFailed: # We have stats/logging to report back
jobStore.writeStatsAndLogging(
json.dumps(statsDict, ensure_ascii=True).encode())
#Remove the temp dir
cleanUp = config.cleanWorkDir
if cleanUp == 'always' or (cleanUp == 'onSuccess' and
not jobAttemptFailed) or (cleanUp == 'onError'
and jobAttemptFailed):
shutil.rmtree(localWorkerTempDir)
#This must happen after the log file is done with, else there is no place to put the log
if (not jobAttemptFailed) and jobDesc.command == None and next(
jobDesc.successorsAndServiceHosts(), None) is None:
# We can now safely get rid of the JobDescription, and all jobs it chained up
for otherID in jobDesc.jobsToDelete:
jobStore.delete(otherID)
jobStore.delete(jobDesc.jobStoreID)
if jobAttemptFailed:
return 1
else:
return 0
def workerScript(jobStore, config, jobName, jobStoreID, redirectOutputToLogFile=True):
"""
Worker process script, runs a job.
:param str jobName: The "job name" (a user friendly name) of the job to be run
:param str jobStoreLocator: Specifies the job store to use
:param str jobStoreID: The job store ID of the job to be run
:param bool redirectOutputToLogFile: Redirect standard out and standard error to a log file
"""
logging.basicConfig()
setLogLevel(config.logLevel)
##########################################
#Create the worker killer, if requested
##########################################
logFileByteReportLimit = config.maxLogFileSize
if config.badWorker > 0 and random.random() < config.badWorker:
# We need to kill the process we are currently in, to simulate worker
# failure. We don't want to just send SIGKILL, because we can't tell
# that from a legitimate OOM on our CI runner. We're going to send
# SIGUSR1 so our terminations are distinctive, and then SIGKILL if that
# didn't stick. We definitely don't want to do this from *within* the
# process we are trying to kill, so we fork off. TODO: We can still
# leave the killing code running after the main Toil flow is done, but
# since it's now in a process instead of a thread, the main Python
# process won't wait around for its timeout to expire. I think this is
# better than the old thread-based way where all of Toil would wait
# around to be killed.
killTarget = os.getpid()
sleepTime = config.badWorkerFailInterval * random.random()
if os.fork() == 0:
# We are the child
# Let the parent run some amount of time
time.sleep(sleepTime)
# Kill it gently
os.kill(killTarget, signal.SIGUSR1)
# Wait for that to stick
time.sleep(0.01)
try:
# Kill it harder. Hope the PID hasn't already been reused.
# If we succeeded the first time, this will OSError
os.kill(killTarget, signal.SIGKILL)
except OSError:
pass
# Exit without doing any of Toil's cleanup
os._exit()
# We don't need to reap the child. Either it kills us, or we finish
# before it does. Either way, init will have to clean it up for us.
##########################################
#Load the environment for the jobGraph
##########################################
#First load the environment for the jobGraph.
with jobStore.readSharedFileStream("environment.pickle") as fileHandle:
environment = safeUnpickleFromStream(fileHandle)
for i in environment:
if i not in ("TMPDIR", "TMP", "HOSTNAME", "HOSTTYPE"):
os.environ[i] = environment[i]
# sys.path is used by __import__ to find modules
if "PYTHONPATH" in environment:
for e in environment["PYTHONPATH"].split(':'):
if e != '':
sys.path.append(e)
toilWorkflowDir = Toil.getWorkflowDir(config.workflowID, config.workDir)
##########################################
#Setup the temporary directories.
##########################################
# Dir to put all this worker's temp files in.
localWorkerTempDir = tempfile.mkdtemp(dir=toilWorkflowDir)
os.chmod(localWorkerTempDir, 0o755)
##########################################
#Setup the logging
##########################################
#This is mildly tricky because we don't just want to
#redirect stdout and stderr for this Python process; we want to redirect it
#for this process and all children. Consequently, we can't just replace
#sys.stdout and sys.stderr; we need to mess with the underlying OS-level
#file descriptors. See <http://stackoverflow.com/a/11632982/402891>
#When we start, standard input is file descriptor 0, standard output is
#file descriptor 1, and standard error is file descriptor 2.
#What file do we want to point FDs 1 and 2 to?
tempWorkerLogPath = os.path.join(localWorkerTempDir, "worker_log.txt")
if redirectOutputToLogFile:
# Announce that we are redirecting logging, and where it will now go.
# This is important if we are trying to manually trace a faulty worker invocation.
logger.info("Redirecting logging to %s", tempWorkerLogPath)
sys.stdout.flush()
sys.stderr.flush()
# Save the original stdout and stderr (by opening new file descriptors
# to the same files)
origStdOut = os.dup(1)
origStdErr = os.dup(2)
# Open the file to send stdout/stderr to.
logFh = os.open(tempWorkerLogPath, os.O_WRONLY | os.O_CREAT | os.O_APPEND)
# Replace standard output with a descriptor for the log file
os.dup2(logFh, 1)
# Replace standard error with a descriptor for the log file
os.dup2(logFh, 2)
# Since we only opened the file once, all the descriptors duped from
# the original will share offset information, and won't clobber each
# others' writes. See <http://stackoverflow.com/a/5284108/402891>. This
# shouldn't matter, since O_APPEND seeks to the end of the file before
# every write, but maybe there's something odd going on...
# Close the descriptor we used to open the file
os.close(logFh)
debugging = logging.getLogger().isEnabledFor(logging.DEBUG)
##########################################
#Worker log file trapped from here on in
##########################################
workerFailed = False
statsDict = MagicExpando()
statsDict.jobs = []
statsDict.workers.logsToMaster = []
blockFn = lambda : True
listOfJobs = [jobName]
job = None
try:
#Put a message at the top of the log, just to make sure it's working.
logger.info("---TOIL WORKER OUTPUT LOG---")
sys.stdout.flush()
logProcessContext(config)
##########################################
#Load the jobGraph
##########################################
jobGraph = jobStore.load(jobStoreID)
listOfJobs[0] = str(jobGraph)
logger.debug("Parsed job wrapper")
##########################################
#Cleanup from any earlier invocation of the jobGraph
##########################################
if jobGraph.command == None:
logger.debug("Wrapper has no user job to run.")
# Cleanup jobs already finished
f = lambda jobs : [z for z in [[y for y in x if jobStore.exists(y.jobStoreID)] for x in jobs] if len(z) > 0]
jobGraph.stack = f(jobGraph.stack)
jobGraph.services = f(jobGraph.services)
logger.debug("Cleaned up any references to completed successor jobs")
#This cleans the old log file which may
#have been left if the job is being retried after a job failure.
oldLogFile = jobGraph.logJobStoreFileID
if oldLogFile != None:
jobGraph.logJobStoreFileID = None
jobStore.update(jobGraph) #Update first, before deleting any files
jobStore.deleteFile(oldLogFile)
##########################################
# If a checkpoint exists, restart from the checkpoint
##########################################
# The job is a checkpoint, and is being restarted after previously completing
if jobGraph.checkpoint != None:
logger.debug("Job is a checkpoint")
# If the checkpoint still has extant jobs in its
# (flattened) stack and services, its subtree didn't
# complete properly. We handle the restart of the
# checkpoint here, removing its previous subtree.
if len([i for l in jobGraph.stack for i in l]) > 0 or len(jobGraph.services) > 0:
logger.debug("Checkpoint has failed.")
# Reduce the retry count
assert jobGraph.remainingRetryCount >= 0
jobGraph.remainingRetryCount = max(0, jobGraph.remainingRetryCount - 1)
jobGraph.restartCheckpoint(jobStore)
# Otherwise, the job and successors are done, and we can cleanup stuff we couldn't clean
# because of the job being a checkpoint
else:
logger.debug("The checkpoint jobs seems to have completed okay, removing any checkpoint files to delete.")
#Delete any remnant files
list(map(jobStore.deleteFile, list(filter(jobStore.fileExists, jobGraph.checkpointFilesToDelete))))
##########################################
#Setup the stats, if requested
##########################################
if config.stats:
startClock = getTotalCpuTime()
startTime = time.time()
while True:
##########################################
#Run the jobGraph, if there is one
##########################################
if jobGraph.command is not None:
assert jobGraph.command.startswith("_toil ")
logger.debug("Got a command to run: %s" % jobGraph.command)
#Load the job
job = Job._loadJob(jobGraph.command, jobStore)
# If it is a checkpoint job, save the command
if job.checkpoint:
jobGraph.checkpoint = jobGraph.command
# Create a fileStore object for the job
fileStore = FileStore.createFileStore(jobStore, jobGraph, localWorkerTempDir, blockFn,
caching=not config.disableCaching)
with job._executor(jobGraph=jobGraph,
stats=statsDict if config.stats else None,
fileStore=fileStore):
with fileStore.open(job):
# Get the next block function and list that will contain any messages
blockFn = fileStore._blockFn
job._runner(jobGraph=jobGraph, jobStore=jobStore, fileStore=fileStore)
# Accumulate messages from this job & any subsequent chained jobs
statsDict.workers.logsToMaster += fileStore.loggingMessages
else:
#The command may be none, in which case
#the jobGraph is either a shell ready to be deleted or has
#been scheduled after a failure to cleanup
logger.debug("No user job to run, so finishing")
break
if FileStore._terminateEvent.isSet():
raise RuntimeError("The termination flag is set")
##########################################
#Establish if we can run another jobGraph within the worker
##########################################
successorJobGraph = nextChainableJobGraph(jobGraph, jobStore)
if successorJobGraph is None or config.disableChaining:
# Can't chain any more jobs.
break
##########################################
#We have a single successor job that is not a checkpoint job.
#We transplant the successor jobGraph command and stack
#into the current jobGraph object so that it can be run
#as if it were a command that were part of the current jobGraph.
#We can then delete the successor jobGraph in the jobStore, as it is
#wholly incorporated into the current jobGraph.
##########################################
# add the successor to the list of jobs run
listOfJobs.append(str(successorJobGraph))
#Clone the jobGraph and its stack
jobGraph = copy.deepcopy(jobGraph)
#Remove the successor jobGraph
jobGraph.stack.pop()
#Transplant the command and stack to the current jobGraph
jobGraph.command = successorJobGraph.command
jobGraph.stack += successorJobGraph.stack
# include some attributes for better identification of chained jobs in
# logging output
jobGraph.unitName = successorJobGraph.unitName
jobGraph.jobName = successorJobGraph.jobName
assert jobGraph.memory >= successorJobGraph.memory
assert jobGraph.cores >= successorJobGraph.cores
#Build a fileStore to update the job
fileStore = FileStore.createFileStore(jobStore, jobGraph, localWorkerTempDir, blockFn,
caching=not config.disableCaching)
#Update blockFn
blockFn = fileStore._blockFn
#Add successorJobGraph to those to be deleted
fileStore.jobsToDelete.add(successorJobGraph.jobStoreID)
#This will update the job once the previous job is done
fileStore._updateJobWhenDone()
#Clone the jobGraph and its stack again, so that updates to it do
#not interfere with this update
jobGraph = copy.deepcopy(jobGraph)
logger.debug("Starting the next job")
##########################################
#Finish up the stats
##########################################
if config.stats:
totalCPUTime, totalMemoryUsage = getTotalCpuTimeAndMemoryUsage()
statsDict.workers.time = str(time.time() - startTime)
statsDict.workers.clock = str(totalCPUTime - startClock)
statsDict.workers.memory = str(totalMemoryUsage)
# log the worker log path here so that if the file is truncated the path can still be found
if redirectOutputToLogFile:
logger.info("Worker log can be found at %s. Set --cleanWorkDir to retain this log", localWorkerTempDir)
logger.info("Finished running the chain of jobs on this node, we ran for a total of %f seconds", time.time() - startTime)
##########################################
#Trapping where worker goes wrong
##########################################
except: #Case that something goes wrong in worker
traceback.print_exc()
logger.error("Exiting the worker because of a failed job on host %s", socket.gethostname())
FileStore._terminateEvent.set()
##########################################
#Wait for the asynchronous chain of writes/updates to finish
##########################################
blockFn()
##########################################
#All the asynchronous worker/update threads must be finished now,
#so safe to test if they completed okay
##########################################
if FileStore._terminateEvent.isSet():
jobGraph = jobStore.load(jobStoreID)
jobGraph.setupJobAfterFailure(config)
workerFailed = True
if job and jobGraph.remainingRetryCount == 0:
job._succeeded = False
##########################################
#Cleanup
##########################################
# Close the worker logging
# Flush at the Python level
sys.stdout.flush()
sys.stderr.flush()
if redirectOutputToLogFile:
# Flush at the OS level
os.fsync(1)
os.fsync(2)
# Close redirected stdout and replace with the original standard output.
os.dup2(origStdOut, 1)
# Close redirected stderr and replace with the original standard error.
os.dup2(origStdErr, 2)
# sys.stdout and sys.stderr don't need to be modified at all. We don't
# need to call redirectLoggerStreamHandlers since they still log to
# sys.stderr
# Close our extra handles to the original standard output and standard
# error streams, so we don't leak file handles.
os.close(origStdOut)
os.close(origStdErr)
# Now our file handles are in exactly the state they were in before.
#Copy back the log file to the global dir, if needed
if workerFailed and redirectOutputToLogFile:
jobGraph.logJobStoreFileID = jobStore.getEmptyFileStoreID(jobGraph.jobStoreID)
jobGraph.chainedJobs = listOfJobs
with jobStore.updateFileStream(jobGraph.logJobStoreFileID) as w:
with open(tempWorkerLogPath, "r") as f:
if os.path.getsize(tempWorkerLogPath) > logFileByteReportLimit !=0:
if logFileByteReportLimit > 0:
f.seek(-logFileByteReportLimit, 2) # seek to last tooBig bytes of file
elif logFileByteReportLimit < 0:
f.seek(logFileByteReportLimit, 0) # seek to first tooBig bytes of file
w.write(f.read().encode('utf-8')) # TODO load file using a buffer
jobStore.update(jobGraph)
elif debugging and redirectOutputToLogFile: # write log messages
with open(tempWorkerLogPath, 'r') as logFile:
if os.path.getsize(tempWorkerLogPath) > logFileByteReportLimit != 0:
if logFileByteReportLimit > 0:
logFile.seek(-logFileByteReportLimit, 2) # seek to last tooBig bytes of file
elif logFileByteReportLimit < 0:
logFile.seek(logFileByteReportLimit, 0) # seek to first tooBig bytes of file
logMessages = logFile.read().splitlines()
statsDict.logs.names = listOfJobs
statsDict.logs.messages = logMessages
if (debugging or config.stats or statsDict.workers.logsToMaster) and not workerFailed: # We have stats/logging to report back
jobStore.writeStatsAndLogging(json.dumps(statsDict, ensure_ascii=True))
#Remove the temp dir
cleanUp = config.cleanWorkDir
if cleanUp == 'always' or (cleanUp == 'onSuccess' and not workerFailed) or (cleanUp == 'onError' and workerFailed):
shutil.rmtree(localWorkerTempDir)
#This must happen after the log file is done with, else there is no place to put the log
if (not workerFailed) and jobGraph.command == None and len(jobGraph.stack) == 0 and len(jobGraph.services) == 0:
# We can now safely get rid of the jobGraph
jobStore.delete(jobGraph.jobStoreID)
