зеркало из https://github.com/mozilla/gecko-dev.git
390 строки
14 KiB
Python
390 строки
14 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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"""
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The objective of optimization is to remove as many tasks from the graph as
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possible, as efficiently as possible, thereby delivering useful results as
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quickly as possible. For example, ideally if only a test script is modified in
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a push, then the resulting graph contains only the corresponding test suite
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task.
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See ``taskcluster/docs/optimization.rst`` for more information.
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"""
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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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from collections import defaultdict
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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 mozbuild.util import memoize
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from slugid import nice as slugid
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from mozbuild.base import MozbuildObject
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logger = logging.getLogger(__name__)
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TOPSRCDIR = os.path.abspath(os.path.join(__file__, '../../../'))
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def optimize_task_graph(target_task_graph, params, do_not_optimize,
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existing_tasks=None, strategies=None):
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"""
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Perform task optimization, returning a taskgraph and a map from label to
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assigned taskId, including replacement tasks.
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"""
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label_to_taskid = {}
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if not existing_tasks:
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existing_tasks = {}
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# instantiate the strategies for this optimization process
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if not strategies:
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strategies = _make_default_strategies()
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optimizations = _get_optimizations(target_task_graph, strategies)
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removed_tasks = remove_tasks(
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target_task_graph=target_task_graph,
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optimizations=optimizations,
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params=params,
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do_not_optimize=do_not_optimize)
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replaced_tasks = replace_tasks(
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target_task_graph=target_task_graph,
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optimizations=optimizations,
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params=params,
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do_not_optimize=do_not_optimize,
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label_to_taskid=label_to_taskid,
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existing_tasks=existing_tasks,
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removed_tasks=removed_tasks)
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return get_subgraph(
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target_task_graph, removed_tasks, replaced_tasks,
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label_to_taskid), label_to_taskid
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def _make_default_strategies():
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return {
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'never': OptimizationStrategy(), # "never" is the default behavior
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'index-search': IndexSearch(),
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'seta': SETA(),
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'skip-unless-changed': SkipUnlessChanged(),
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'skip-unless-schedules': SkipUnlessSchedules(),
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'skip-unless-schedules-or-seta': Either(SkipUnlessSchedules(), SETA()),
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'only-if-dependencies-run': OnlyIfDependenciesRun(),
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}
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def _get_optimizations(target_task_graph, strategies):
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def optimizations(label):
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task = target_task_graph.tasks[label]
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if task.optimization:
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opt_by, arg = task.optimization.items()[0]
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return (opt_by, strategies[opt_by], arg)
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else:
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return ('never', strategies['never'], None)
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return optimizations
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def _log_optimization(verb, opt_counts):
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if opt_counts:
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logger.info(
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'{} '.format(verb.title()) +
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', '.join(
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'{} tasks by {}'.format(c, b)
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for b, c in sorted(opt_counts.iteritems())) +
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' during optimization.')
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else:
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logger.info('No tasks {} during optimization'.format(verb))
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def remove_tasks(target_task_graph, params, optimizations, do_not_optimize):
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"""
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Implement the "Removing Tasks" phase, returning a set of task labels of all removed tasks.
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"""
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opt_counts = defaultdict(int)
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removed = set()
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reverse_links_dict = target_task_graph.graph.reverse_links_dict()
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for label in target_task_graph.graph.visit_preorder():
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# if we're not allowed to optimize, that's easy..
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if label in do_not_optimize:
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continue
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# if there are remaining tasks depending on this one, do not remove..
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if any(l not in removed for l in reverse_links_dict[label]):
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continue
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# call the optimization strategy
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task = target_task_graph.tasks[label]
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opt_by, opt, arg = optimizations(label)
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if opt.should_remove_task(task, params, arg):
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removed.add(label)
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opt_counts[opt_by] += 1
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continue
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_log_optimization('removed', opt_counts)
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return removed
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def replace_tasks(target_task_graph, params, optimizations, do_not_optimize,
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label_to_taskid, removed_tasks, existing_tasks):
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"""
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Implement the "Replacing Tasks" phase, returning a set of task labels of
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all replaced tasks. The replacement taskIds are added to label_to_taskid as
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a side-effect.
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"""
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opt_counts = defaultdict(int)
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replaced = set()
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links_dict = target_task_graph.graph.links_dict()
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for label in target_task_graph.graph.visit_postorder():
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# if we're not allowed to optimize, that's easy..
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if label in do_not_optimize:
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continue
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# if this task depends on un-replaced, un-removed tasks, do not replace
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if any(l not in replaced and l not in removed_tasks for l in links_dict[label]):
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continue
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# if the task already exists, that's an easy replacement
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repl = existing_tasks.get(label)
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if repl:
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label_to_taskid[label] = repl
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replaced.add(label)
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opt_counts['existing_tasks'] += 1
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continue
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# call the optimization strategy
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task = target_task_graph.tasks[label]
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opt_by, opt, arg = optimizations(label)
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repl = opt.should_replace_task(task, params, arg)
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if repl:
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if repl is True:
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# True means remove this task; get_subgraph will catch any
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# problems with removed tasks being depended on
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removed_tasks.add(label)
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else:
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label_to_taskid[label] = repl
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replaced.add(label)
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opt_counts[opt_by] += 1
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continue
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_log_optimization('replaced', opt_counts)
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return replaced
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def get_subgraph(target_task_graph, removed_tasks, replaced_tasks, label_to_taskid):
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"""
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Return the subgraph of target_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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# check for any dependency edges from included to removed tasks
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bad_edges = [(l, r, n) for l, r, n in target_task_graph.graph.edges
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if l not in removed_tasks and r in removed_tasks]
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if bad_edges:
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probs = ', '.join('{} depends on {} as {} but it has been removed'.format(l, r, n)
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for l, r, n in bad_edges)
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raise Exception("Optimization error: " + probs)
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# fill in label_to_taskid for anything not removed or replaced
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assert replaced_tasks <= set(label_to_taskid)
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for label in sorted(target_task_graph.graph.nodes - removed_tasks - set(label_to_taskid)):
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label_to_taskid[label] = slugid()
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# resolve labels to taskIds and populate task['dependencies']
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tasks_by_taskid = {}
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named_links_dict = target_task_graph.graph.named_links_dict()
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omit = removed_tasks | replaced_tasks
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for label, task in target_task_graph.tasks.iteritems():
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if label in omit:
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continue
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task.task_id = label_to_taskid[label]
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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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deps = task.task.setdefault('dependencies', [])
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deps.extend(sorted(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 target_task_graph.graph.edges
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)
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# ..and drop edges that are no longer entirely in the task graph
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# (note that this omits edges to replaced tasks, but they are still in task.dependnecies)
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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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class OptimizationStrategy(object):
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def should_remove_task(self, task, params, arg):
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"""Determine whether to optimize this task by removing it. Returns
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True to remove."""
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return False
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def should_replace_task(self, task, params, arg):
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"""Determine whether to optimize this task by replacing it. Returns a
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taskId to replace this task, True to replace with nothing, or False to
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keep the task."""
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return False
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class Either(OptimizationStrategy):
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"""Given one or more optimization strategies, remove a task if any of them
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says to, and replace with a task if any finds a replacement (preferring the
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earliest). By default, each substrategy gets the same arg, but split_args
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can return a list of args for each strategy, if desired."""
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def __init__(self, *substrategies, **kwargs):
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self.substrategies = substrategies
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self.split_args = kwargs.pop('split_args', None)
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if not self.split_args:
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self.split_args = lambda arg: [arg] * len(substrategies)
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if kwargs:
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raise TypeError("unexpected keyword args")
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def _for_substrategies(self, arg, fn):
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for sub, arg in zip(self.substrategies, self.split_args(arg)):
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rv = fn(sub, arg)
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if rv:
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return rv
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return False
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def should_remove_task(self, task, params, arg):
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return self._for_substrategies(
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arg,
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lambda sub, arg: sub.should_remove_task(task, params, arg))
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def should_replace_task(self, task, params, arg):
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return self._for_substrategies(
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arg,
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lambda sub, arg: sub.should_replace_task(task, params, arg))
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class OnlyIfDependenciesRun(OptimizationStrategy):
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"""Run this taks only if its dependencies run."""
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# This takes advantage of the behavior of the second phase of optimization:
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# a task can only be replaced if it has no un-optimized dependencies. So if
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# should_replace_task is called, then a task has no un-optimized
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# dependencies and can be removed (indicated by returning True)
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def should_replace_task(self, task, params, arg):
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return True
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class IndexSearch(OptimizationStrategy):
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# A task with no dependencies remaining after optimization will be replaced
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# if artifacts exist for the corresponding index_paths.
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# Otherwise, we're in one of the following cases:
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# - the task has un-optimized dependencies
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# - the artifacts have expired
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# - some changes altered the index_paths and new artifacts need to be
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# created.
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# In every of those cases, we need to run the task to create or refresh
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# artifacts.
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def should_replace_task(self, task, params, index_paths):
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"Look for a task with one of the given index paths"
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for index_path in index_paths:
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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
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except KeyError:
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# 404 will end up here and go on to the next index path
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pass
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return False
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class SETA(OptimizationStrategy):
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def should_remove_task(self, 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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class SkipUnlessChanged(OptimizationStrategy):
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def should_remove_task(self, 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 False
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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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class SkipUnlessSchedules(OptimizationStrategy):
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@memoize
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def scheduled_by_push(self, repository, revision):
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changed_files = files_changed.get_changed_files(repository, revision)
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mbo = MozbuildObject.from_environment()
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# the decision task has a sparse checkout, so, mozbuild_reader will use
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# a MercurialRevisionFinder with revision '.', which should be the same
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# as `revision`; in other circumstances, it will use a default reader
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rdr = mbo.mozbuild_reader(config_mode='empty')
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components = set()
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for p, m in rdr.files_info(changed_files).items():
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components |= set(m['SCHEDULES'].components)
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return components
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def should_remove_task(self, task, params, conditions):
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if params.get('pushlog_id') == -1:
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return False
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scheduled = self.scheduled_by_push(params['head_repository'], params['head_rev'])
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conditions = set(conditions)
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# if *any* of the condition components are scheduled, do not optimize
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if conditions & scheduled:
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return False
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return True
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