task.py
1115 lines
| 38.3 KiB
| text/x-python
|
PythonLexer
Brian E Granger
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r1234 | # encoding: utf-8 | ||
| # -*- test-case-name: IPython.kernel.tests.test_task -*- | ||||
| """Task farming representation of the ControllerService.""" | ||||
| __docformat__ = "restructuredtext en" | ||||
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r1395 | #----------------------------------------------------------------------------- | ||
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r1234 | # Copyright (C) 2008 The IPython Development Team | ||
| # | ||||
| # Distributed under the terms of the BSD License. The full license is in | ||||
| # the file COPYING, distributed as part of this software. | ||||
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r1395 | #----------------------------------------------------------------------------- | ||
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r1234 | |||
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r1395 | #----------------------------------------------------------------------------- | ||
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r1234 | # Imports | ||
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r1395 | #----------------------------------------------------------------------------- | ||
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r1234 | |||
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r1973 | # Tell nose to skip the testing of this module | ||
| __test__ = {} | ||||
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r2498 | import time | ||
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r1344 | from types import FunctionType | ||
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r1234 | |||
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r2498 | import zope.interface as zi | ||
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r1234 | from twisted.internet import defer, reactor | ||
| from twisted.python import components, log, failure | ||||
| from IPython.kernel import engineservice as es, error | ||||
| from IPython.kernel import controllerservice as cs | ||||
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r2498 | from IPython.kernel.twistedutil import DeferredList | ||
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r1234 | |||
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r2498 | from IPython.kernel.pickleutil import can, uncan | ||
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r1234 | |||
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r1395 | #----------------------------------------------------------------------------- | ||
| # Definition of the Task objects | ||||
| #----------------------------------------------------------------------------- | ||||
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r1234 | |||
| time_format = '%Y/%m/%d %H:%M:%S' | ||||
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r1395 | class ITask(zi.Interface): | ||
| """ | ||||
| This interface provides a generic definition of what constitutes a task. | ||||
| There are two sides to a task. First a task needs to take input from | ||||
| a user to determine what work is performed by the task. Second, the | ||||
| task needs to have the logic that knows how to turn that information | ||||
| info specific calls to a worker, through the `IQueuedEngine` interface. | ||||
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r1234 | |||
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r1395 | Many method in this class get two things passed to them: a Deferred | ||
| and an IQueuedEngine implementer. Such methods should register callbacks | ||||
| on the Deferred that use the IQueuedEngine to accomplish something. See | ||||
| the existing task objects for examples. | ||||
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r1234 | """ | ||
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r1395 | zi.Attribute('retries','How many times to retry the task') | ||
| zi.Attribute('recovery_task','A task to try if the initial one fails') | ||||
| zi.Attribute('taskid','the id of the task') | ||||
| def start_time(result): | ||||
| """ | ||||
| Do anything needed to start the timing of the task. | ||||
| Must simply return the result after starting the timers. | ||||
| """ | ||||
| def stop_time(result): | ||||
| """ | ||||
| Do anything needed to stop the timing of the task. | ||||
| Must simply return the result after stopping the timers. This | ||||
| method will usually set attributes that are used by `process_result` | ||||
| in building result of the task. | ||||
| """ | ||||
| def pre_task(d, queued_engine): | ||||
| """Do something with the queued_engine before the task is run. | ||||
| This method should simply add callbacks to the input Deferred | ||||
| that do something with the `queued_engine` before the task is run. | ||||
| :Parameters: | ||||
| d : Deferred | ||||
| The deferred that actions should be attached to | ||||
| queued_engine : IQueuedEngine implementer | ||||
| The worker that has been allocated to perform the task | ||||
| """ | ||||
| def post_task(d, queued_engine): | ||||
| """Do something with the queued_engine after the task is run. | ||||
| This method should simply add callbacks to the input Deferred | ||||
| that do something with the `queued_engine` before the task is run. | ||||
| :Parameters: | ||||
| d : Deferred | ||||
| The deferred that actions should be attached to | ||||
| queued_engine : IQueuedEngine implementer | ||||
| The worker that has been allocated to perform the task | ||||
| """ | ||||
| def submit_task(d, queued_engine): | ||||
| """Submit a task using the `queued_engine` we have been allocated. | ||||
| When a task is ready to run, this method is called. This method | ||||
| must take the internal information of the task and make suitable | ||||
| calls on the queued_engine to have the actual work done. | ||||
| This method should simply add callbacks to the input Deferred | ||||
| that do something with the `queued_engine` before the task is run. | ||||
| :Parameters: | ||||
| d : Deferred | ||||
| The deferred that actions should be attached to | ||||
| queued_engine : IQueuedEngine implementer | ||||
| The worker that has been allocated to perform the task | ||||
| """ | ||||
| def process_result(d, result, engine_id): | ||||
| """Take a raw task result. | ||||
| Objects that implement `ITask` can choose how the result of running | ||||
| the task is presented. This method takes the raw result and | ||||
| does this logic. Two example are the `MapTask` which simply returns | ||||
| the raw result or a `Failure` object and the `StringTask` which | ||||
| returns a `TaskResult` object. | ||||
| :Parameters: | ||||
| d : Deferred | ||||
| The deferred that actions should be attached to | ||||
| result : object | ||||
| The raw task result that needs to be wrapped | ||||
| engine_id : int | ||||
| The id of the engine that did the task | ||||
| :Returns: | ||||
| The result, as a tuple of the form: (success, result). | ||||
| Here, success is a boolean indicating if the task | ||||
| succeeded or failed and result is the result. | ||||
| """ | ||||
| def check_depend(properties): | ||||
| """Check properties to see if the task should be run. | ||||
| :Parameters: | ||||
| properties : dict | ||||
| A dictionary of properties that an engine has set | ||||
| :Returns: | ||||
| True if the task should be run, False otherwise | ||||
| """ | ||||
| def can_task(self): | ||||
| """Serialize (can) any functions in the task for pickling. | ||||
| Subclasses must override this method and make sure that all | ||||
| functions in the task are canned by calling `can` on the | ||||
| function. | ||||
| """ | ||||
| def uncan_task(self): | ||||
| """Unserialize (uncan) any canned function in the task.""" | ||||
| class BaseTask(object): | ||||
| """ | ||||
| Common fuctionality for all objects implementing `ITask`. | ||||
| """ | ||||
| zi.implements(ITask) | ||||
| def __init__(self, clear_before=False, clear_after=False, retries=0, | ||||
| recovery_task=None, depend=None): | ||||
| """ | ||||
| Make a generic task. | ||||
| :Parameters: | ||||
| clear_before : boolean | ||||
| Should the engines namespace be cleared before the task | ||||
| is run | ||||
| clear_after : boolean | ||||
| Should the engines namespace be clear after the task is run | ||||
| retries : int | ||||
| The number of times a task should be retries upon failure | ||||
| recovery_task : any task object | ||||
| If a task fails and it has a recovery_task, that is run | ||||
| upon a retry | ||||
| depend : FunctionType | ||||
| A function that is called to test for properties. This function | ||||
| must take one argument, the properties dict and return a boolean | ||||
| """ | ||||
| self.clear_before = clear_before | ||||
| self.clear_after = clear_after | ||||
| self.retries = retries | ||||
| self.recovery_task = recovery_task | ||||
| self.depend = depend | ||||
| self.taskid = None | ||||
| def start_time(self, result): | ||||
| """ | ||||
| Start the basic timers. | ||||
| """ | ||||
| self.start = time.time() | ||||
| self.start_struct = time.localtime() | ||||
| return result | ||||
| def stop_time(self, result): | ||||
| """ | ||||
| Stop the basic timers. | ||||
| """ | ||||
| self.stop = time.time() | ||||
| self.stop_struct = time.localtime() | ||||
| self.duration = self.stop - self.start | ||||
| self.submitted = time.strftime(time_format, self.start_struct) | ||||
| self.completed = time.strftime(time_format) | ||||
| return result | ||||
| def pre_task(self, d, queued_engine): | ||||
| """ | ||||
| Clear the engine before running the task if clear_before is set. | ||||
| """ | ||||
| if self.clear_before: | ||||
| d.addCallback(lambda r: queued_engine.reset()) | ||||
| def post_task(self, d, queued_engine): | ||||
| """ | ||||
| Clear the engine after running the task if clear_after is set. | ||||
| """ | ||||
| def reseter(result): | ||||
| queued_engine.reset() | ||||
| return result | ||||
| if self.clear_after: | ||||
| d.addBoth(reseter) | ||||
| def submit_task(self, d, queued_engine): | ||||
| raise NotImplementedError('submit_task must be implemented in a subclass') | ||||
| def process_result(self, result, engine_id): | ||||
| """ | ||||
| Process a task result. | ||||
| This is the default `process_result` that just returns the raw | ||||
| result or a `Failure`. | ||||
| """ | ||||
| if isinstance(result, failure.Failure): | ||||
| return (False, result) | ||||
| else: | ||||
| return (True, result) | ||||
| def check_depend(self, properties): | ||||
| """ | ||||
| Calls self.depend(properties) to see if a task should be run. | ||||
| """ | ||||
| if self.depend is not None: | ||||
| return self.depend(properties) | ||||
| else: | ||||
| return True | ||||
| def can_task(self): | ||||
| self.depend = can(self.depend) | ||||
| if isinstance(self.recovery_task, BaseTask): | ||||
| self.recovery_task.can_task() | ||||
| def uncan_task(self): | ||||
| self.depend = uncan(self.depend) | ||||
| if isinstance(self.recovery_task, BaseTask): | ||||
| self.recovery_task.uncan_task() | ||||
| class MapTask(BaseTask): | ||||
| """ | ||||
| A task that consists of a function and arguments. | ||||
| """ | ||||
| zi.implements(ITask) | ||||
| def __init__(self, function, args=None, kwargs=None, clear_before=False, | ||||
| clear_after=False, retries=0, recovery_task=None, depend=None): | ||||
| """ | ||||
| Create a task based on a function, args and kwargs. | ||||
| This is a simple type of task that consists of calling: | ||||
| function(*args, **kwargs) and wrapping the result in a `TaskResult`. | ||||
| The return value of the function, or a `Failure` wrapping an | ||||
| exception is the task result for this type of task. | ||||
| """ | ||||
| BaseTask.__init__(self, clear_before, clear_after, retries, | ||||
| recovery_task, depend) | ||||
| if not isinstance(function, FunctionType): | ||||
| raise TypeError('a task function must be a FunctionType') | ||||
| self.function = function | ||||
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Brian E Granger
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r1344 | if args is None: | ||
| self.args = () | ||||
| else: | ||||
| self.args = args | ||||
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r1395 | if not isinstance(self.args, (list, tuple)): | ||
| raise TypeError('a task args must be a list or tuple') | ||||
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r1344 | if kwargs is None: | ||
| self.kwargs = {} | ||||
| else: | ||||
| self.kwargs = kwargs | ||||
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r1395 | if not isinstance(self.kwargs, dict): | ||
| raise TypeError('a task kwargs must be a dict') | ||||
| def submit_task(self, d, queued_engine): | ||||
| d.addCallback(lambda r: queued_engine.push_function( | ||||
| dict(_ipython_task_function=self.function)) | ||||
| ) | ||||
| d.addCallback(lambda r: queued_engine.push( | ||||
| dict(_ipython_task_args=self.args,_ipython_task_kwargs=self.kwargs)) | ||||
| ) | ||||
| d.addCallback(lambda r: queued_engine.execute( | ||||
| '_ipython_task_result = _ipython_task_function(*_ipython_task_args,**_ipython_task_kwargs)') | ||||
| ) | ||||
| d.addCallback(lambda r: queued_engine.pull('_ipython_task_result')) | ||||
| def can_task(self): | ||||
| self.function = can(self.function) | ||||
| BaseTask.can_task(self) | ||||
| def uncan_task(self): | ||||
| self.function = uncan(self.function) | ||||
| BaseTask.uncan_task(self) | ||||
| class StringTask(BaseTask): | ||||
| """ | ||||
| A task that consists of a string of Python code to run. | ||||
| """ | ||||
| def __init__(self, expression, pull=None, push=None, | ||||
| clear_before=False, clear_after=False, retries=0, | ||||
| recovery_task=None, depend=None): | ||||
| """ | ||||
| Create a task based on a Python expression and variables | ||||
| This type of task lets you push a set of variables to the engines | ||||
| namespace, run a Python string in that namespace and then bring back | ||||
| a different set of Python variables as the result. | ||||
| Because this type of task can return many results (through the | ||||
| `pull` keyword argument) it returns a special `TaskResult` object | ||||
| that wraps the pulled variables, statistics about the run and | ||||
| any exceptions raised. | ||||
| """ | ||||
| if not isinstance(expression, str): | ||||
| raise TypeError('a task expression must be a string') | ||||
| self.expression = expression | ||||
| if pull==None: | ||||
| self.pull = () | ||||
| elif isinstance(pull, str): | ||||
| self.pull = (pull,) | ||||
| elif isinstance(pull, (list, tuple)): | ||||
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r1234 | self.pull = pull | ||
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r1395 | else: | ||
| raise TypeError('pull must be str or a sequence of strs') | ||||
| if push==None: | ||||
| self.push = {} | ||||
| elif isinstance(push, dict): | ||||
| self.push = push | ||||
| else: | ||||
| raise TypeError('push must be a dict') | ||||
| BaseTask.__init__(self, clear_before, clear_after, retries, | ||||
| recovery_task, depend) | ||||
| def submit_task(self, d, queued_engine): | ||||
| if self.push is not None: | ||||
| d.addCallback(lambda r: queued_engine.push(self.push)) | ||||
| d.addCallback(lambda r: queued_engine.execute(self.expression)) | ||||
| if self.pull is not None: | ||||
| d.addCallback(lambda r: queued_engine.pull(self.pull)) | ||||
| else: | ||||
| d.addCallback(lambda r: None) | ||||
| def process_result(self, result, engine_id): | ||||
| if isinstance(result, failure.Failure): | ||||
| tr = TaskResult(result, engine_id) | ||||
| else: | ||||
| if self.pull is None: | ||||
| resultDict = {} | ||||
| elif len(self.pull) == 1: | ||||
| resultDict = {self.pull[0]:result} | ||||
| else: | ||||
| resultDict = dict(zip(self.pull, result)) | ||||
| tr = TaskResult(resultDict, engine_id) | ||||
| # Assign task attributes | ||||
| tr.submitted = self.submitted | ||||
| tr.completed = self.completed | ||||
| tr.duration = self.duration | ||||
| if hasattr(self,'taskid'): | ||||
| tr.taskid = self.taskid | ||||
| else: | ||||
| tr.taskid = None | ||||
| if isinstance(result, failure.Failure): | ||||
| return (False, tr) | ||||
| else: | ||||
| return (True, tr) | ||||
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Brian E Granger
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r1234 | |||
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r1395 | class ResultNS(object): | ||
| """ | ||||
| A dict like object for holding the results of a task. | ||||
| The result namespace object for use in `TaskResult` objects as tr.ns. | ||||
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r1234 | It builds an object from a dictionary, such that it has attributes | ||
| according to the key,value pairs of the dictionary. | ||||
| This works by calling setattr on ALL key,value pairs in the dict. If a user | ||||
| chooses to overwrite the `__repr__` or `__getattr__` attributes, they can. | ||||
| This can be a bad idea, as it may corrupt standard behavior of the | ||||
| ns object. | ||||
Fernando Perez
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r2109 | Examples | ||
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r1234 | -------- | ||
| >>> ns = ResultNS({'a':17,'foo':range(3)}) | ||||
| >>> print ns | ||||
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Fernando Perez
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r1431 | NS{'a': 17, 'foo': [0, 1, 2]} | ||
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r1234 | >>> ns.a | ||
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Fernando Perez
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r1431 | 17 | ||
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r1234 | >>> ns['foo'] | ||
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Fernando Perez
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r1431 | [0, 1, 2] | ||
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r1234 | """ | ||
| def __init__(self, dikt): | ||||
| for k,v in dikt.iteritems(): | ||||
| setattr(self,k,v) | ||||
| def __repr__(self): | ||||
| l = dir(self) | ||||
| d = {} | ||||
| for k in l: | ||||
| # do not print private objects | ||||
| if k[:2] != '__' and k[-2:] != '__': | ||||
| d[k] = getattr(self, k) | ||||
| return "NS"+repr(d) | ||||
| def __getitem__(self, key): | ||||
| return getattr(self, key) | ||||
| class TaskResult(object): | ||||
| """ | ||||
|
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r1395 | An object for returning task results for certain types of tasks. | ||
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r1234 | |||
| This object encapsulates the results of a task. On task | ||||
| success it will have a keys attribute that will have a list | ||||
| of the variables that have been pulled back. These variables | ||||
| are accessible as attributes of this class as well. On | ||||
| success the failure attribute will be None. | ||||
| In task failure, keys will be empty, but failure will contain | ||||
| the failure object that encapsulates the remote exception. | ||||
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r1395 | One can also simply call the `raise_exception` method of | ||
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r1234 | this class to re-raise any remote exception in the local | ||
| session. | ||||
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r1395 | The `TaskResult` has a `.ns` member, which is a property for access | ||
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r1234 | to the results. If the Task had pull=['a', 'b'], then the | ||
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r1395 | Task Result will have attributes `tr.ns.a`, `tr.ns.b` for those values. | ||
| Accessing `tr.ns` will raise the remote failure if the task failed. | ||||
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r1234 | |||
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r1395 | The `engineid` attribute should have the `engineid` of the engine | ||
| that ran the task. But, because engines can come and go, | ||||
| the `engineid` may not continue to be | ||||
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r1234 | valid or accurate. | ||
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r1395 | The `taskid` attribute simply gives the `taskid` that the task | ||
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r1234 | is tracked under. | ||
| """ | ||||
| taskid = None | ||||
| def _getNS(self): | ||||
| if isinstance(self.failure, failure.Failure): | ||||
| return self.failure.raiseException() | ||||
| else: | ||||
| return self._ns | ||||
| def _setNS(self, v): | ||||
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r1396 | raise Exception("the ns attribute cannot be changed") | ||
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r1234 | |||
| ns = property(_getNS, _setNS) | ||||
| def __init__(self, results, engineid): | ||||
| self.engineid = engineid | ||||
| if isinstance(results, failure.Failure): | ||||
| self.failure = results | ||||
| self.results = {} | ||||
| else: | ||||
| self.results = results | ||||
| self.failure = None | ||||
| self._ns = ResultNS(self.results) | ||||
| self.keys = self.results.keys() | ||||
| def __repr__(self): | ||||
| if self.failure is not None: | ||||
| contents = self.failure | ||||
| else: | ||||
| contents = self.results | ||||
| return "TaskResult[ID:%r]:%r"%(self.taskid, contents) | ||||
| def __getitem__(self, key): | ||||
| if self.failure is not None: | ||||
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r1395 | self.raise_exception() | ||
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r1234 | return self.results[key] | ||
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r1395 | def raise_exception(self): | ||
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r1234 | """Re-raise any remote exceptions in the local python session.""" | ||
| if self.failure is not None: | ||||
| self.failure.raiseException() | ||||
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r1395 | #----------------------------------------------------------------------------- | ||
| # The controller side of things | ||||
| #----------------------------------------------------------------------------- | ||||
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Brian E Granger
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r1234 | class IWorker(zi.Interface): | ||
| """The Basic Worker Interface. | ||||
| A worked is a representation of an Engine that is ready to run tasks. | ||||
| """ | ||||
| zi.Attribute("workerid", "the id of the worker") | ||||
| def run(task): | ||||
| """Run task in worker's namespace. | ||||
| :Parameters: | ||||
| task : a `Task` object | ||||
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Brian E Granger
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r1395 | :Returns: `Deferred` to a tuple of (success, result) where | ||
| success if a boolean that signifies success or failure | ||||
| and result is the task result. | ||||
|
Brian E Granger
|
r1234 | """ | ||
| class WorkerFromQueuedEngine(object): | ||||
| """Adapt an `IQueuedEngine` to an `IWorker` object""" | ||||
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Brian E Granger
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r1395 | |||
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r1234 | zi.implements(IWorker) | ||
| def __init__(self, qe): | ||||
| self.queuedEngine = qe | ||||
| self.workerid = None | ||||
| def _get_properties(self): | ||||
| return self.queuedEngine.properties | ||||
| properties = property(_get_properties, lambda self, _:None) | ||||
| def run(self, task): | ||||
| """Run task in worker's namespace. | ||||
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Brian E Granger
|
r1395 | This takes a task and calls methods on the task that actually | ||
| cause `self.queuedEngine` to do the task. See the methods of | ||||
| `ITask` for more information about how these methods are called. | ||||
|
Brian E Granger
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r1234 | :Parameters: | ||
| task : a `Task` object | ||||
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Brian E Granger
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r1395 | :Returns: `Deferred` to a tuple of (success, result) where | ||
| success if a boolean that signifies success or failure | ||||
| and result is the task result. | ||||
|
Brian E Granger
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r1234 | """ | ||
|
Brian E Granger
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r1395 | d = defer.succeed(None) | ||
| d.addCallback(task.start_time) | ||||
| task.pre_task(d, self.queuedEngine) | ||||
| task.submit_task(d, self.queuedEngine) | ||||
| task.post_task(d, self.queuedEngine) | ||||
| d.addBoth(task.stop_time) | ||||
| d.addBoth(task.process_result, self.queuedEngine.id) | ||||
| # At this point, there will be (success, result) coming down the line | ||||
| return d | ||||
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Brian E Granger
|
r1234 | |||
| components.registerAdapter(WorkerFromQueuedEngine, es.IEngineQueued, IWorker) | ||||
| class IScheduler(zi.Interface): | ||||
| """The interface for a Scheduler. | ||||
| """ | ||||
| zi.Attribute("nworkers", "the number of unassigned workers") | ||||
| zi.Attribute("ntasks", "the number of unscheduled tasks") | ||||
| zi.Attribute("workerids", "a list of the worker ids") | ||||
| zi.Attribute("taskids", "a list of the task ids") | ||||
| def add_task(task, **flags): | ||||
| """Add a task to the queue of the Scheduler. | ||||
| :Parameters: | ||||
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Brian E Granger
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r1395 | task : an `ITask` implementer | ||
|
Brian E Granger
|
r1234 | The task to be queued. | ||
| flags : dict | ||||
| General keywords for more sophisticated scheduling | ||||
| """ | ||||
| def pop_task(id=None): | ||||
|
Brian E Granger
|
r1395 | """Pops a task object from the queue. | ||
|
Brian E Granger
|
r1234 | |||
| This gets the next task to be run. If no `id` is requested, the highest priority | ||||
| task is returned. | ||||
| :Parameters: | ||||
| id | ||||
| The id of the task to be popped. The default (None) is to return | ||||
| the highest priority task. | ||||
|
Brian E Granger
|
r1395 | :Returns: an `ITask` implementer | ||
|
Brian E Granger
|
r1234 | |||
| :Exceptions: | ||||
| IndexError : raised if no taskid in queue | ||||
| """ | ||||
| def add_worker(worker, **flags): | ||||
| """Add a worker to the worker queue. | ||||
| :Parameters: | ||||
|
Brian E Granger
|
r1395 | worker : an `IWorker` implementer | ||
| flags : dict | ||||
| General keywords for more sophisticated scheduling | ||||
|
Brian E Granger
|
r1234 | """ | ||
| def pop_worker(id=None): | ||||
| """Pops an IWorker object that is ready to do work. | ||||
| This gets the next IWorker that is ready to do work. | ||||
| :Parameters: | ||||
| id : if specified, will pop worker with workerid=id, else pops | ||||
| highest priority worker. Defaults to None. | ||||
| :Returns: | ||||
| an IWorker object | ||||
| :Exceptions: | ||||
| IndexError : raised if no workerid in queue | ||||
| """ | ||||
| def ready(): | ||||
| """Returns True if there is something to do, False otherwise""" | ||||
| def schedule(): | ||||
|
Brian E Granger
|
r1395 | """Returns (worker,task) pair for the next task to be run.""" | ||
|
Brian E Granger
|
r1234 | |||
| class FIFOScheduler(object): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| A basic First-In-First-Out (Queue) Scheduler. | ||||
| This is the default Scheduler for the `TaskController`. | ||||
| See the docstrings for `IScheduler` for interface details. | ||||
|
Brian E Granger
|
r1234 | """ | ||
| zi.implements(IScheduler) | ||||
| def __init__(self): | ||||
| self.tasks = [] | ||||
| self.workers = [] | ||||
| def _ntasks(self): | ||||
| return len(self.tasks) | ||||
| def _nworkers(self): | ||||
| return len(self.workers) | ||||
| ntasks = property(_ntasks, lambda self, _:None) | ||||
| nworkers = property(_nworkers, lambda self, _:None) | ||||
| def _taskids(self): | ||||
| return [t.taskid for t in self.tasks] | ||||
| def _workerids(self): | ||||
| return [w.workerid for w in self.workers] | ||||
| taskids = property(_taskids, lambda self,_:None) | ||||
| workerids = property(_workerids, lambda self,_:None) | ||||
| def add_task(self, task, **flags): | ||||
| self.tasks.append(task) | ||||
| def pop_task(self, id=None): | ||||
| if id is None: | ||||
| return self.tasks.pop(0) | ||||
| else: | ||||
| for i in range(len(self.tasks)): | ||||
| taskid = self.tasks[i].taskid | ||||
| if id == taskid: | ||||
| return self.tasks.pop(i) | ||||
| raise IndexError("No task #%i"%id) | ||||
| def add_worker(self, worker, **flags): | ||||
| self.workers.append(worker) | ||||
| def pop_worker(self, id=None): | ||||
| if id is None: | ||||
| return self.workers.pop(0) | ||||
| else: | ||||
| for i in range(len(self.workers)): | ||||
| workerid = self.workers[i].workerid | ||||
| if id == workerid: | ||||
| return self.workers.pop(i) | ||||
| raise IndexError("No worker #%i"%id) | ||||
| def schedule(self): | ||||
| for t in self.tasks: | ||||
| for w in self.workers: | ||||
| try:# do not allow exceptions to break this | ||||
|
Brian E Granger
|
r1395 | # Allow the task to check itself using its | ||
| # check_depend method. | ||||
| cando = t.check_depend(w.properties) | ||||
|
Brian E Granger
|
r1234 | except: | ||
| cando = False | ||||
| if cando: | ||||
| return self.pop_worker(w.workerid), self.pop_task(t.taskid) | ||||
| return None, None | ||||
| class LIFOScheduler(FIFOScheduler): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| A Last-In-First-Out (Stack) Scheduler. | ||||
| This scheduler should naively reward fast engines by giving | ||||
| them more jobs. This risks starvation, but only in cases with | ||||
| low load, where starvation does not really matter. | ||||
|
Brian E Granger
|
r1234 | """ | ||
| def add_task(self, task, **flags): | ||||
| # self.tasks.reverse() | ||||
| self.tasks.insert(0, task) | ||||
| # self.tasks.reverse() | ||||
| def add_worker(self, worker, **flags): | ||||
| # self.workers.reverse() | ||||
| self.workers.insert(0, worker) | ||||
| # self.workers.reverse() | ||||
| class ITaskController(cs.IControllerBase): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| The Task based interface to a `ControllerService` object | ||||
|
Brian E Granger
|
r1234 | |||
| This adapts a `ControllerService` to the ITaskController interface. | ||||
| """ | ||||
| def run(task): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| Run a task. | ||||
|
Brian E Granger
|
r1234 | |||
| :Parameters: | ||||
| task : an IPython `Task` object | ||||
| :Returns: the integer ID of the task | ||||
| """ | ||||
| def get_task_result(taskid, block=False): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| Get the result of a task by its ID. | ||||
|
Brian E Granger
|
r1234 | |||
| :Parameters: | ||||
| taskid : int | ||||
| the id of the task whose result is requested | ||||
|
Brian E Granger
|
r1395 | :Returns: `Deferred` to the task result if the task is done, and None | ||
|
Brian E Granger
|
r1234 | if not. | ||
| :Exceptions: | ||||
| actualResult will be an `IndexError` if no such task has been submitted | ||||
| """ | ||||
| def abort(taskid): | ||||
| """Remove task from queue if task is has not been submitted. | ||||
| If the task has already been submitted, wait for it to finish and discard | ||||
| results and prevent resubmission. | ||||
| :Parameters: | ||||
| taskid : the id of the task to be aborted | ||||
| :Returns: | ||||
| `Deferred` to abort attempt completion. Will be None on success. | ||||
| :Exceptions: | ||||
| deferred will fail with `IndexError` if no such task has been submitted | ||||
| or the task has already completed. | ||||
| """ | ||||
| def barrier(taskids): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| Block until the list of taskids are completed. | ||||
|
Brian E Granger
|
r1234 | |||
| Returns None on success. | ||||
| """ | ||||
| def spin(): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| Touch the scheduler, to resume scheduling without submitting a task. | ||||
|
Brian E Granger
|
r1234 | """ | ||
|
Brian E Granger
|
r1395 | def queue_status(verbose=False): | ||
| """ | ||||
| Get a dictionary with the current state of the task queue. | ||||
|
Brian E Granger
|
r1234 | |||
| If verbose is True, then return lists of taskids, otherwise, | ||||
| return the number of tasks with each status. | ||||
| """ | ||||
|
Brian E Granger
|
r1395 | def clear(): | ||
| """ | ||||
| Clear all previously run tasks from the task controller. | ||||
| This is needed because the task controller keep all task results | ||||
| in memory. This can be a problem is there are many completed | ||||
| tasks. Users should call this periodically to clean out these | ||||
| cached task results. | ||||
| """ | ||||
|
Brian E Granger
|
r1234 | |||
| class TaskController(cs.ControllerAdapterBase): | ||||
| """The Task based interface to a Controller object. | ||||
| If you want to use a different scheduler, just subclass this and set | ||||
| the `SchedulerClass` member to the *class* of your chosen scheduler. | ||||
| """ | ||||
| zi.implements(ITaskController) | ||||
| SchedulerClass = FIFOScheduler | ||||
| timeout = 30 | ||||
| def __init__(self, controller): | ||||
| self.controller = controller | ||||
| self.controller.on_register_engine_do(self.registerWorker, True) | ||||
| self.controller.on_unregister_engine_do(self.unregisterWorker, True) | ||||
| self.taskid = 0 | ||||
| self.failurePenalty = 1 # the time in seconds to penalize | ||||
| # a worker for failing a task | ||||
| self.pendingTasks = {} # dict of {workerid:(taskid, task)} | ||||
| self.deferredResults = {} # dict of {taskid:deferred} | ||||
| self.finishedResults = {} # dict of {taskid:actualResult} | ||||
| self.workers = {} # dict of {workerid:worker} | ||||
| self.abortPending = [] # dict of {taskid:abortDeferred} | ||||
| self.idleLater = None # delayed call object for timeout | ||||
| self.scheduler = self.SchedulerClass() | ||||
| for id in self.controller.engines.keys(): | ||||
| self.workers[id] = IWorker(self.controller.engines[id]) | ||||
| self.workers[id].workerid = id | ||||
| self.schedule.add_worker(self.workers[id]) | ||||
| def registerWorker(self, id): | ||||
| """Called by controller.register_engine.""" | ||||
| if self.workers.get(id): | ||||
|
Brian E Granger
|
r1395 | raise ValueError("worker with id %s already exists. This should not happen." % id) | ||
|
Brian E Granger
|
r1234 | self.workers[id] = IWorker(self.controller.engines[id]) | ||
| self.workers[id].workerid = id | ||||
| if not self.pendingTasks.has_key(id):# if not working | ||||
| self.scheduler.add_worker(self.workers[id]) | ||||
| self.distributeTasks() | ||||
| def unregisterWorker(self, id): | ||||
| """Called by controller.unregister_engine""" | ||||
| if self.workers.has_key(id): | ||||
| try: | ||||
| self.scheduler.pop_worker(id) | ||||
| except IndexError: | ||||
| pass | ||||
| self.workers.pop(id) | ||||
| def _pendingTaskIDs(self): | ||||
| return [t.taskid for t in self.pendingTasks.values()] | ||||
| #--------------------------------------------------------------------------- | ||||
| # Interface methods | ||||
| #--------------------------------------------------------------------------- | ||||
| def run(self, task): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| Run a task and return `Deferred` to its taskid. | ||||
| """ | ||||
|
Brian E Granger
|
r1234 | task.taskid = self.taskid | ||
| task.start = time.localtime() | ||||
| self.taskid += 1 | ||||
| d = defer.Deferred() | ||||
| self.scheduler.add_task(task) | ||||
|
Brian E Granger
|
r1395 | log.msg('Queuing task: %i' % task.taskid) | ||
|
Brian E Granger
|
r1234 | |||
| self.deferredResults[task.taskid] = [] | ||||
| self.distributeTasks() | ||||
| return defer.succeed(task.taskid) | ||||
| def get_task_result(self, taskid, block=False): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| Returns a `Deferred` to the task result, or None. | ||||
| """ | ||||
| log.msg("Getting task result: %i" % taskid) | ||||
|
Brian E Granger
|
r1234 | if self.finishedResults.has_key(taskid): | ||
| tr = self.finishedResults[taskid] | ||||
| return defer.succeed(tr) | ||||
| elif self.deferredResults.has_key(taskid): | ||||
| if block: | ||||
| d = defer.Deferred() | ||||
| self.deferredResults[taskid].append(d) | ||||
| return d | ||||
| else: | ||||
| return defer.succeed(None) | ||||
| else: | ||||
| return defer.fail(IndexError("task ID not registered: %r" % taskid)) | ||||
| def abort(self, taskid): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| Remove a task from the queue if it has not been run already. | ||||
| """ | ||||
|
Brian E Granger
|
r1234 | if not isinstance(taskid, int): | ||
| return defer.fail(failure.Failure(TypeError("an integer task id expected: %r" % taskid))) | ||||
| try: | ||||
| self.scheduler.pop_task(taskid) | ||||
| except IndexError, e: | ||||
| if taskid in self.finishedResults.keys(): | ||||
| d = defer.fail(IndexError("Task Already Completed")) | ||||
| elif taskid in self.abortPending: | ||||
| d = defer.fail(IndexError("Task Already Aborted")) | ||||
| elif taskid in self._pendingTaskIDs():# task is pending | ||||
| self.abortPending.append(taskid) | ||||
| d = defer.succeed(None) | ||||
| else: | ||||
| d = defer.fail(e) | ||||
| else: | ||||
| d = defer.execute(self._doAbort, taskid) | ||||
| return d | ||||
| def barrier(self, taskids): | ||||
| dList = [] | ||||
| if isinstance(taskids, int): | ||||
| taskids = [taskids] | ||||
| for id in taskids: | ||||
| d = self.get_task_result(id, block=True) | ||||
| dList.append(d) | ||||
| d = DeferredList(dList, consumeErrors=1) | ||||
| d.addCallbacks(lambda r: None) | ||||
| return d | ||||
| def spin(self): | ||||
| return defer.succeed(self.distributeTasks()) | ||||
| def queue_status(self, verbose=False): | ||||
| pending = self._pendingTaskIDs() | ||||
| failed = [] | ||||
| succeeded = [] | ||||
| for k,v in self.finishedResults.iteritems(): | ||||
| if not isinstance(v, failure.Failure): | ||||
| if hasattr(v,'failure'): | ||||
| if v.failure is None: | ||||
| succeeded.append(k) | ||||
| else: | ||||
| failed.append(k) | ||||
| scheduled = self.scheduler.taskids | ||||
| if verbose: | ||||
| result = dict(pending=pending, failed=failed, | ||||
| succeeded=succeeded, scheduled=scheduled) | ||||
| else: | ||||
| result = dict(pending=len(pending),failed=len(failed), | ||||
| succeeded=len(succeeded),scheduled=len(scheduled)) | ||||
| return defer.succeed(result) | ||||
| #--------------------------------------------------------------------------- | ||||
| # Queue methods | ||||
| #--------------------------------------------------------------------------- | ||||
| def _doAbort(self, taskid): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| Helper function for aborting a pending task. | ||||
| """ | ||||
| log.msg("Task aborted: %i" % taskid) | ||||
|
Brian E Granger
|
r1234 | result = failure.Failure(error.TaskAborted()) | ||
| self._finishTask(taskid, result) | ||||
| if taskid in self.abortPending: | ||||
| self.abortPending.remove(taskid) | ||||
| def _finishTask(self, taskid, result): | ||||
| dlist = self.deferredResults.pop(taskid) | ||||
|
Brian E Granger
|
r1395 | # result.taskid = taskid # The TaskResult should save the taskid | ||
|
Brian E Granger
|
r1234 | self.finishedResults[taskid] = result | ||
| for d in dlist: | ||||
| d.callback(result) | ||||
| def distributeTasks(self): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| Distribute tasks while self.scheduler has things to do. | ||||
| """ | ||||
| log.msg("distributing Tasks") | ||||
|
Brian E Granger
|
r1234 | worker, task = self.scheduler.schedule() | ||
| if not worker and not task: | ||||
| if self.idleLater and self.idleLater.called:# we are inside failIdle | ||||
| self.idleLater = None | ||||
| else: | ||||
| self.checkIdle() | ||||
| return False | ||||
| # else something to do: | ||||
| while worker and task: | ||||
| # get worker and task | ||||
| # add to pending | ||||
| self.pendingTasks[worker.workerid] = task | ||||
| # run/link callbacks | ||||
| d = worker.run(task) | ||||
|
Brian E Granger
|
r1395 | log.msg("Running task %i on worker %i" %(task.taskid, worker.workerid)) | ||
|
Brian E Granger
|
r1234 | d.addBoth(self.taskCompleted, task.taskid, worker.workerid) | ||
| worker, task = self.scheduler.schedule() | ||||
| # check for idle timeout: | ||||
| self.checkIdle() | ||||
| return True | ||||
| def checkIdle(self): | ||||
| if self.idleLater and not self.idleLater.called: | ||||
| self.idleLater.cancel() | ||||
| if self.scheduler.ntasks and self.workers and \ | ||||
| self.scheduler.nworkers == len(self.workers): | ||||
| self.idleLater = reactor.callLater(self.timeout, self.failIdle) | ||||
| else: | ||||
| self.idleLater = None | ||||
| def failIdle(self): | ||||
| if not self.distributeTasks(): | ||||
| while self.scheduler.ntasks: | ||||
| t = self.scheduler.pop_task() | ||||
| msg = "task %i failed to execute due to unmet dependencies"%t.taskid | ||||
| msg += " for %i seconds"%self.timeout | ||||
|
Brian E Granger
|
r1395 | log.msg("Task aborted by timeout: %i" % t.taskid) | ||
|
Brian E Granger
|
r1234 | f = failure.Failure(error.TaskTimeout(msg)) | ||
| self._finishTask(t.taskid, f) | ||||
| self.idleLater = None | ||||
|
Brian E Granger
|
r1395 | def taskCompleted(self, success_and_result, taskid, workerid): | ||
|
Brian E Granger
|
r1234 | """This is the err/callback for a completed task.""" | ||
|
Brian E Granger
|
r1395 | success, result = success_and_result | ||
|
Brian E Granger
|
r1234 | try: | ||
| task = self.pendingTasks.pop(workerid) | ||||
| except: | ||||
| # this should not happen | ||||
| log.msg("Tried to pop bad pending task %i from worker %i"%(taskid, workerid)) | ||||
| log.msg("Result: %r"%result) | ||||
| log.msg("Pending tasks: %s"%self.pendingTasks) | ||||
| return | ||||
| # Check if aborted while pending | ||||
| aborted = False | ||||
| if taskid in self.abortPending: | ||||
| self._doAbort(taskid) | ||||
| aborted = True | ||||
| if not aborted: | ||||
|
Brian E Granger
|
r1395 | if not success: | ||
|
Brian E Granger
|
r1234 | log.msg("Task %i failed on worker %i"% (taskid, workerid)) | ||
| if task.retries > 0: # resubmit | ||||
| task.retries -= 1 | ||||
| self.scheduler.add_task(task) | ||||
| s = "Resubmitting task %i, %i retries remaining" %(taskid, task.retries) | ||||
| log.msg(s) | ||||
| self.distributeTasks() | ||||
|
Brian E Granger
|
r1395 | elif isinstance(task.recovery_task, BaseTask) and \ | ||
|
Brian E Granger
|
r1234 | task.recovery_task.retries > -1: | ||
| # retries = -1 is to prevent infinite recovery_task loop | ||||
| task.retries = -1 | ||||
| task.recovery_task.taskid = taskid | ||||
| task = task.recovery_task | ||||
| self.scheduler.add_task(task) | ||||
| s = "Recovering task %i, %i retries remaining" %(taskid, task.retries) | ||||
| log.msg(s) | ||||
| self.distributeTasks() | ||||
| else: # done trying | ||||
| self._finishTask(taskid, result) | ||||
| # wait a second before readmitting a worker that failed | ||||
| # it may have died, and not yet been unregistered | ||||
| reactor.callLater(self.failurePenalty, self.readmitWorker, workerid) | ||||
| else: # we succeeded | ||||
|
Brian E Granger
|
r1395 | log.msg("Task completed: %i"% taskid) | ||
|
Brian E Granger
|
r1234 | self._finishTask(taskid, result) | ||
| self.readmitWorker(workerid) | ||||
|
Brian E Granger
|
r1395 | else: # we aborted the task | ||
| if not success: | ||||
|
Brian E Granger
|
r1234 | reactor.callLater(self.failurePenalty, self.readmitWorker, workerid) | ||
| else: | ||||
| self.readmitWorker(workerid) | ||||
| def readmitWorker(self, workerid): | ||||
|
Brian E Granger
|
r1395 | """ | ||
| Readmit a worker to the scheduler. | ||||
|
Brian E Granger
|
r1234 | |||
| This is outside `taskCompleted` because of the `failurePenalty` being | ||||
| implemented through `reactor.callLater`. | ||||
| """ | ||||
| if workerid in self.workers.keys() and workerid not in self.pendingTasks.keys(): | ||||
| self.scheduler.add_worker(self.workers[workerid]) | ||||
| self.distributeTasks() | ||||
|
Brian E Granger
|
r1395 | |||
| def clear(self): | ||||
| """ | ||||
| Clear all previously run tasks from the task controller. | ||||
| This is needed because the task controller keep all task results | ||||
| in memory. This can be a problem is there are many completed | ||||
| tasks. Users should call this periodically to clean out these | ||||
| cached task results. | ||||
| """ | ||||
| self.finishedResults = {} | ||||
| return defer.succeed(None) | ||||
|
Brian E Granger
|
r1234 | |||
| components.registerAdapter(TaskController, cs.IControllerBase, ITaskController) | ||||