# This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at http://mozilla.org/MPL/2.0/. """Utility functions to handle test chunking.""" import json import logging import os from abc import ABCMeta, abstractmethod from manifestparser import TestManifest from manifestparser.filters import chunk_by_runtime, tags from mozbuild.util import memoize from moztest.resolve import TEST_SUITES, TestManifestLoader, TestResolver from gecko_taskgraph import GECKO from gecko_taskgraph.util.bugbug import CT_LOW, BugbugTimeoutException, push_schedules logger = logging.getLogger(__name__) here = os.path.abspath(os.path.dirname(__file__)) resolver = TestResolver.from_environment(cwd=here, loader_cls=TestManifestLoader) def guess_mozinfo_from_task(task): """Attempt to build a mozinfo dict from a task definition. This won't be perfect and many values used in the manifests will be missing. But it should cover most of the major ones and be "good enough" for chunking in the taskgraph. Args: task (dict): A task definition. Returns: A dict that can be used as a mozinfo replacement. """ setting = task["test-setting"] arch = setting["platform"]["arch"] p_os = setting["platform"]["os"] info = { "asan": setting["build"].get("asan", False), "bits": 32 if "32" in arch else 64, "ccov": setting["build"].get("ccov", False), "debug": setting["build"]["type"] in ("debug", "debug-isolated-process"), "e10s": not setting["runtime"].get("1proc", False), "no-fission": "no-fission" in setting["runtime"].keys(), "fission": any( "1proc" not in key or "no-fission" not in key for key in setting["runtime"].keys() ), "headless": "-headless" in task["test-name"], "condprof": "conditioned_profile" in setting["runtime"].keys(), "tsan": setting["build"].get("tsan", False), "xorigin": any("xorigin" in key for key in setting["runtime"].keys()), "socketprocess_networking": "socketprocess_networking" in setting["runtime"].keys(), } for platform in ("android", "linux", "mac", "win"): if p_os["name"].startswith(platform): info["os"] = platform break else: raise ValueError("{} is not a known platform!".format(p_os["name"])) # crashreporter is disabled for asan / tsan builds if info["asan"] or info["tsan"]: info["crashreporter"] = False else: info["crashreporter"] = True info["appname"] = "fennec" if info["os"] == "android" else "firefox" # guess processor if arch == "aarch64": info["processor"] = "aarch64" elif info["os"] == "android" and "arm" in arch: info["processor"] = "arm" elif info["bits"] == 32: info["processor"] = "x86" else: info["processor"] = "x86_64" # guess toolkit if info["os"] == "android": info["toolkit"] = "android" elif info["os"] == "win": info["toolkit"] = "windows" elif info["os"] == "mac": info["toolkit"] = "cocoa" else: info["toolkit"] = "gtk" # guess os_version os_versions = { ("linux", "1804"): "18.04", ("macosx", "1015"): "10.15", ("macosx", "1100"): "11.00", ("windows", "7"): "6.1", ("windows", "10"): "10.0", } for (name, old_ver), new_ver in os_versions.items(): if p_os["name"] == name and p_os["version"] == old_ver: info["os_version"] = new_ver break return info @memoize def get_runtimes(platform, suite_name): if not suite_name or not platform: raise TypeError("suite_name and platform cannot be empty.") base = os.path.join(GECKO, "testing", "runtimes", "manifest-runtimes-{}.json") for key in ("android", "windows"): if key in platform: path = base.format(key) break else: path = base.format("unix") if not os.path.exists(path): raise OSError(f"manifest runtime file at {path} not found.") with open(path) as fh: return json.load(fh)[suite_name] def chunk_manifests(suite, platform, chunks, manifests): """Run the chunking algorithm. Args: platform (str): Platform used to find runtime info. chunks (int): Number of chunks to split manifests into. manifests(list): Manifests to chunk. Returns: A list of length `chunks` where each item contains a list of manifests that run in that chunk. """ manifests = set(manifests) if "web-platform-tests" not in suite: runtimes = { k: v for k, v in get_runtimes(platform, suite).items() if k in manifests } return [ c[1] for c in chunk_by_runtime(None, chunks, runtimes).get_chunked_manifests( manifests ) ] # Keep track of test paths for each chunk, and the runtime information. chunked_manifests = [[] for _ in range(chunks)] # Spread out the test manifests evenly across all chunks. for index, key in enumerate(sorted(manifests)): chunked_manifests[index % chunks].append(key) # One last sort by the number of manifests. Chunk size should be more or less # equal in size. chunked_manifests.sort(key=lambda x: len(x)) # Return just the chunked test paths. return chunked_manifests class BaseManifestLoader(metaclass=ABCMeta): def __init__(self, params): self.params = params @abstractmethod def get_manifests(self, flavor, subsuite, mozinfo): """Compute which manifests should run for the given flavor, subsuite and mozinfo. This function returns skipped manifests separately so that more balanced chunks can be achieved by only considering "active" manifests in the chunking algorithm. Args: flavor (str): The suite to run. Values are defined by the 'build_flavor' key in `moztest.resolve.TEST_SUITES`. subsuite (str): The subsuite to run or 'undefined' to denote no subsuite. mozinfo (frozenset): Set of data in the form of (, ) used for filtering. Returns: A tuple of two manifest lists. The first is the set of active manifests (will run at least one test. The second is a list of skipped manifests (all tests are skipped). """ class DefaultLoader(BaseManifestLoader): """Load manifests using metadata from the TestResolver.""" @memoize def get_tests(self, suite): suite_definition = TEST_SUITES[suite] return list( resolver.resolve_tests( flavor=suite_definition["build_flavor"], subsuite=suite_definition.get("kwargs", {}).get( "subsuite", "undefined" ), ) ) @memoize def get_manifests(self, suite, mozinfo): mozinfo = dict(mozinfo) # Compute all tests for the given suite/subsuite. tests = self.get_tests(suite) if "web-platform-tests" in suite: manifests = set() for t in tests: manifests.add(t["manifest"]) return {"active": list(manifests), "skipped": []} manifests = {chunk_by_runtime.get_manifest(t) for t in tests} filters = None if mozinfo["condprof"]: filters = [tags(["condprof"])] # Compute the active tests. m = TestManifest() m.tests = tests tests = m.active_tests(disabled=False, exists=False, filters=filters, **mozinfo) active = {chunk_by_runtime.get_manifest(t) for t in tests} skipped = manifests - active return {"active": list(active), "skipped": list(skipped)} class BugbugLoader(DefaultLoader): """Load manifests using metadata from the TestResolver, and then filter them based on a query to bugbug.""" CONFIDENCE_THRESHOLD = CT_LOW def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.timedout = False @memoize def get_manifests(self, suite, mozinfo): manifests = super().get_manifests(suite, mozinfo) # Don't prune any manifests if we're on a backstop push or there was a timeout. if self.params["backstop"] or self.timedout: return manifests try: data = push_schedules(self.params["project"], self.params["head_rev"]) except BugbugTimeoutException: logger.warning("Timed out waiting for bugbug, loading all test manifests.") self.timedout = True return self.get_manifests(suite, mozinfo) bugbug_manifests = { m for m, c in data.get("groups", {}).items() if c >= self.CONFIDENCE_THRESHOLD } manifests["active"] = list(set(manifests["active"]) & bugbug_manifests) manifests["skipped"] = list(set(manifests["skipped"]) & bugbug_manifests) return manifests manifest_loaders = { "bugbug": BugbugLoader, "default": DefaultLoader, } _loader_cache = {} def get_manifest_loader(name, params): # Ensure we never create more than one instance of the same loader type for # performance reasons. if name in _loader_cache: return _loader_cache[name] loader = manifest_loaders[name](dict(params)) _loader_cache[name] = loader return loader