#---------------------------------------------------------------------- # Name: taskrunner.py # Purpose: Classes that can manage running of external processes, # either consecutively, simultaneously, or both, and can # log the output of those jobs # # Author: Robin Dunn # # Created: 05-Nov-2004 # RCS-ID: $Id$ # Copyright: (c) 2004 by Total Control Software # Licence: wxWindows license #---------------------------------------------------------------------- import sys import os import signal import select import fcntl from subprocess import Popen, PIPE, STDOUT __all__ = ["Job", "Task", "TaskRunner"] #---------------------------------------------------------------------- # For environment settings class Config: def asDict(self): return self.__dict__.copy() def write(self, filename="config", outfile=None): if outfile is None: f = file(filename, "w") else: f = outfile for k, v in self.__dict__.items(): f.write('%s="%s"\n' % (k, v)) def read(self, filename="config"): myfile = open(filename, "r") for line in myfile.readlines(): line = line.strip() if len(line) > 0 and line[0] == "#": continue # it's a comment, move on data = line.split("=") if len(data) == 2: self.__dict__[data[0]] = data[1] myfile.close() class Job(object): """ Each Job is a monitor wrapped around an externally executing process. It handles starting the process, polling if it is still running, reading and logging it's output, and killing it if needed. """ LOGBASE="." def __init__(self, label, command, args=[], env=os.environ): self.label = label self.command = command self.args = args self.env = env self.proc = None if self.label: if not os.path.exists(self.LOGBASE): os.makedirs(self.LOGBASE) self.log = file("%s/%s.log" % (self.LOGBASE, label), "w", 0) def start(self): self.proc = Popen([self.command] + self.args, # the command and args to execute stdout=PIPE, stderr=STDOUT, env=self.env, bufsize=0 # line-buffered ) # put the file in non-blocking mode #flags = fcntl.fcntl (self.proc.stdout, fcntl.F_GETFL, 0) #flags = flags | os.O_NONBLOCK #fcntl.fcntl (self.proc.stdout, fcntl.F_SETFL, flags) def stop(self): if self.proc is not None and self.proc.returncode is None: os.kill(self.proc.pid, signal.SIGTERM) self.logLines() def fileno(self): if self.proc is not None: return self.proc.stdout.fileno() else: return -1 def logLines(self): if self.proc is not None: while self.linesAvailable(): line = self.proc.stdout.readline() if not line: break if self.label: self.log.write(line) line = "** %s: %s" % (self.label, line) sys.stdout.write(line) def linesAvailable(self): if self.proc is None: return False ind, outd, err = select.select([self], [], [], 0) if ind: return True else: return False def finished(self): if self.proc is None:# or self.linesAvailable(): return False return self.proc.poll() is not None def wait(self): if self.proc is None: return None return self.proc.wait() def poll(self): if self.proc is None: return None return self.proc.poll() def returnCode(self): if self.proc is None: return None return self.proc.returncode #---------------------------------------------------------------------- class Task(object): """ This class helps manage the running of a Task, which is a simply a sequence of one or more Jobs, where subesquent jobs are not started until prior ones are completed. """ def __init__(self, jobs=[]): if type(jobs) != list: jobs = [jobs] self.jobs = jobs[:] self.active = 0 def append(self, job): self.jobs.append(job) def activeJob(self): if self.active > len(self.jobs)-1: return None else: return self.jobs[self.active] def next(self): self.active += 1 if self.active < len(self.jobs): self.jobs[self.active].start() #---------------------------------------------------------------------- class TaskRunner(object): """ Manages the running of multiple tasks. """ def __init__(self, tasks=[]): if type(tasks) != list: tasks = [tasks] self.tasks = tasks[:] def append(self, task): self.tasks.append(task) def run(self): # start all the active jobs for task in self.tasks: task.activeJob().start() try: # loop, getting output from the jobs, etc. while True: # get all active Jobs jobs = [t.activeJob() for t in self.tasks if t.activeJob()] if not jobs: break # wait for a job to have output ready, then log it input, output, err = select.select(jobs, [], [], 1) for job in input: job.logLines() # check for finished jobs for task in self.tasks: job = task.activeJob() if job and job.finished(): if job.returnCode() != 0: rc = job.returnCode() print "JOB RETURNED FAILURE CODE! (%d)" % rc self.stopAllJobs() return rc else: task.next() except KeyboardInterrupt: print "STOPPING JOBS..." self.stopAllJobs() return 1 except: print "Unknown exception..." self.stopAllJobs() raise return 0 def stopAllJobs(self): for task in self.tasks: job = task.activeJob() if job: job.stop() #---------------------------------------------------------------------- if __name__ == "__main__": j1 = Job("label1", ["./tmp/job-1.py", "TEST-1"]) j2 = Job("label2", ["./tmp/job-2.sh", "TEST-2"]) t1 = Task() t1.append(j1) t1.append(j2) j3 = Job("task2a", ["./tmp/job-1.py", "TASK-2a"]) j4 = Job("task2b", ["./tmp/job-2.sh", "TASK-2b"]) t2 = Task() t2.append(j4) t2.append(j3) t3 = Task([Job("error", ["./tmp/job-3.sh", "TASK-3"])]) tr = TaskRunner() tr.append(t1) tr.append(t2) tr.append(t3) for task in tr.tasks: for job in task.jobs: print job.label print tr.run()