зеркало из https://github.com/mozilla/gecko-dev.git
220 строки
8.0 KiB
Python
220 строки
8.0 KiB
Python
# This Source Code Form is subject to the terms of the Mozilla Public
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# License, v. 2.0. If a copy of the MPL was not distributed with this
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# file, You can obtain one at http://mozilla.org/MPL/2.0/.
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from __future__ import absolute_import, print_function, unicode_literals
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import logging
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import os
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import requests
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from .graph import Graph
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from . import files_changed
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from .taskgraph import TaskGraph
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from .util.seta import is_low_value_task
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from .util.taskcluster import find_task_id
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from .util.parameterization import resolve_task_references
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from slugid import nice as slugid
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logger = logging.getLogger(__name__)
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_optimizations = {}
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def optimize_task_graph(target_task_graph, params, do_not_optimize, existing_tasks=None):
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"""
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Perform task optimization, without optimizing tasks named in
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do_not_optimize.
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"""
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named_links_dict = target_task_graph.graph.named_links_dict()
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label_to_taskid = {}
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# This proceeds in two phases. First, mark all optimized tasks (those
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# which will be removed from the graph) as such, including a replacement
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# taskId where applicable. Second, generate a new task graph containing
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# only the non-optimized tasks, with all task labels resolved to taskIds
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# and with task['dependencies'] populated.
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annotate_task_graph(target_task_graph=target_task_graph,
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params=params,
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do_not_optimize=do_not_optimize,
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named_links_dict=named_links_dict,
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label_to_taskid=label_to_taskid,
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existing_tasks=existing_tasks)
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return get_subgraph(target_task_graph, named_links_dict, label_to_taskid), label_to_taskid
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def optimize_task(task, params):
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"""
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Optimize a single task by running its optimizations in order until one
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succeeds.
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"""
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for opt in task.optimizations:
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opt_type, args = opt[0], opt[1:]
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opt_fn = _optimizations[opt_type]
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opt_result = opt_fn(task, params, *args)
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if opt_result:
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return opt_result
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return False
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def annotate_task_graph(target_task_graph, params, do_not_optimize,
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named_links_dict, label_to_taskid, existing_tasks):
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"""
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Annotate each task in the graph with .optimized (boolean) and .task_id
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(possibly None), following the rules for optimization and calling the task
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kinds' `optimize_task` method.
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As a side effect, label_to_taskid is updated with labels for all optimized
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tasks that are replaced with existing tasks.
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"""
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# set .optimized for all tasks, and .task_id for optimized tasks
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# with replacements
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for label in target_task_graph.graph.visit_postorder():
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task = target_task_graph.tasks[label]
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named_task_dependencies = named_links_dict.get(label, {})
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# check whether any dependencies have been optimized away
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dependencies = [target_task_graph.tasks[l] for l in named_task_dependencies.itervalues()]
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for t in dependencies:
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if t.optimized and not t.task_id:
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raise Exception(
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"task {} was optimized away, but {} depends on it".format(
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t.label, label))
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# if this task is blacklisted, don't even consider optimizing
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replacement_task_id = None
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if label in do_not_optimize:
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optimized = False
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# Let's check whether this task has been created before
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elif existing_tasks is not None and label in existing_tasks:
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optimized = True
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replacement_task_id = existing_tasks[label]
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# otherwise, examine the task itself (which may be an expensive operation)
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else:
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opt_result = optimize_task(task, params)
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# use opt_result to determine values for optimized, replacement_task_id
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optimized = bool(opt_result)
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replacement_task_id = opt_result if opt_result and opt_result is not True else None
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task.optimized = optimized
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task.task_id = replacement_task_id
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if replacement_task_id:
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label_to_taskid[label] = replacement_task_id
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if optimized:
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if replacement_task_id:
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logger.debug("optimizing `{}`, replacing with task `{}`"
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.format(label, replacement_task_id))
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else:
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logger.debug("optimizing `{}` away".format(label))
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# note: any dependent tasks will fail when they see this
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else:
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if replacement_task_id:
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raise Exception("{}: optimize_task returned False with a taskId".format(label))
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def get_subgraph(annotated_task_graph, named_links_dict, label_to_taskid):
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"""
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Return the subgraph of annotated_task_graph consisting only of
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non-optimized tasks and edges between them.
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To avoid losing track of taskIds for tasks optimized away, this method
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simultaneously substitutes real taskIds for task labels in the graph, and
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populates each task definition's `dependencies` key with the appropriate
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taskIds. Task references are resolved in the process.
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"""
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# resolve labels to taskIds and populate task['dependencies']
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tasks_by_taskid = {}
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for label in annotated_task_graph.graph.visit_postorder():
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task = annotated_task_graph.tasks[label]
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if task.optimized:
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continue
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task.task_id = label_to_taskid[label] = slugid()
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named_task_dependencies = {
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name: label_to_taskid[label]
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for name, label in named_links_dict.get(label, {}).iteritems()}
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task.task = resolve_task_references(task.label, task.task, named_task_dependencies)
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task.task.setdefault('dependencies', []).extend(named_task_dependencies.itervalues())
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tasks_by_taskid[task.task_id] = task
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# resolve edges to taskIds
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edges_by_taskid = (
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(label_to_taskid.get(left), label_to_taskid.get(right), name)
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for (left, right, name) in annotated_task_graph.graph.edges
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)
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# ..and drop edges that are no longer in the task graph
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edges_by_taskid = set(
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(left, right, name)
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for (left, right, name) in edges_by_taskid
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if left in tasks_by_taskid and right in tasks_by_taskid
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)
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return TaskGraph(
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tasks_by_taskid,
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Graph(set(tasks_by_taskid), edges_by_taskid))
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def optimization(name):
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def wrap(func):
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if name in _optimizations:
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raise Exception("multiple optimizations with name {}".format(name))
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_optimizations[name] = func
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return func
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return wrap
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@optimization('index-search')
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def opt_index_search(task, params, index_path):
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try:
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task_id = find_task_id(
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index_path,
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use_proxy=bool(os.environ.get('TASK_ID')))
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return task_id or True
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except requests.exceptions.HTTPError:
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pass
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return False
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@optimization('seta')
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def opt_seta(task, params):
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bbb_task = False
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# for bbb tasks we need to send in the buildbot buildername
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if task.task.get('provisionerId', '') == 'buildbot-bridge':
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label = task.task.get('payload').get('buildername')
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bbb_task = True
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else:
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label = task.label
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# we would like to return 'False, None' while it's high_value_task
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# and we wouldn't optimize it. Otherwise, it will return 'True, None'
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if is_low_value_task(label,
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params.get('project'),
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params.get('pushlog_id'),
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params.get('pushdate'),
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bbb_task):
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# Always optimize away low-value tasks
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return True
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else:
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return False
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@optimization('skip-unless-changed')
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def opt_files_changed(task, params, file_patterns):
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# pushlog_id == -1 - this is the case when run from a cron.yml job
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if params.get('pushlog_id') == -1:
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return True
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changed = files_changed.check(params, file_patterns)
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if not changed:
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logger.debug('no files found matching a pattern in `skip-unless-changed` for ' +
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task.label)
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return True
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return False
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