# -*- coding: utf-8 -*- # SPDX-License-Identifier: MIT import io import tempfile import hashlib from os import path, mkdir from shutil import copyfile, rmtree from datetime import datetime from werkzeug.datastructures import FileStorage from mock import patch from sqlalchemy.orm.session import make_transient from module_build_service.utils.general import load_mmd_file, mmd_to_str import module_build_service.utils import module_build_service.scm from module_build_service import models, conf from module_build_service.errors import ProgrammingError, ValidationError, UnprocessableEntity from module_build_service.utils.reuse import get_reusable_module, get_reusable_component from module_build_service.utils.general import load_mmd from module_build_service.utils.submit import format_mmd from tests import ( clean_database, init_data, scheduler_init_data, make_module_in_db, make_module, read_staged_data, staged_data_filename) import mock import koji import pytest import module_build_service.scheduler.handlers.components from module_build_service.db_session import db_session from module_build_service.builder.base import GenericBuilder from module_build_service.builder.KojiModuleBuilder import KojiModuleBuilder from module_build_service import Modulemd from tests import app BASE_DIR = path.abspath(path.dirname(__file__)) class FakeSCM(object): def __init__(self, mocked_scm, name, mmd_filename, commit=None): self.mocked_scm = mocked_scm self.name = name self.commit = commit self.mmd_filename = mmd_filename self.sourcedir = None self.mocked_scm.return_value.checkout = self.checkout self.mocked_scm.return_value.name = self.name self.mocked_scm.return_value.branch = "master" self.mocked_scm.return_value.get_latest = self.get_latest self.mocked_scm.return_value.commit = self.commit self.mocked_scm.return_value.repository_root = "https://src.stg.fedoraproject.org/modules/" self.mocked_scm.return_value.sourcedir = self.sourcedir self.mocked_scm.return_value.get_module_yaml = self.get_module_yaml self.mocked_scm.return_value.is_full_commit_hash.return_value = commit and len(commit) == 40 self.mocked_scm.return_value.get_full_commit_hash.return_value = self.get_full_commit_hash def checkout(self, temp_dir): self.sourcedir = path.join(temp_dir, self.name) mkdir(self.sourcedir) copyfile(staged_data_filename(self.mmd_filename), self.get_module_yaml()) return self.sourcedir def get_latest(self, ref="master"): return self.commit if self.commit else ref def get_module_yaml(self): return path.join(self.sourcedir, self.name + ".yaml") def get_full_commit_hash(self, commit_hash=None): if not commit_hash: commit_hash = self.commit sha1_hash = hashlib.sha1("random").hexdigest() return commit_hash + sha1_hash[len(commit_hash):] @pytest.mark.usefixtures("reuse_component_init_data") class TestUtilsComponentReuse: @pytest.mark.parametrize( "changed_component", ["perl-List-Compare", "perl-Tangerine", "tangerine", None] ) def test_get_reusable_component_different_component(self, changed_component): second_module_build = models.ModuleBuild.get_by_id(db_session, 3) if changed_component: mmd = second_module_build.mmd() mmd.get_rpm_component("tangerine").set_ref("00ea1da4192a2030f9ae023de3b3143ed647bbab") second_module_build.modulemd = mmd_to_str(mmd) second_module_changed_component = models.ComponentBuild.from_component_name( db_session, changed_component, second_module_build.id) second_module_changed_component.ref = "00ea1da4192a2030f9ae023de3b3143ed647bbab" db_session.add(second_module_changed_component) db_session.commit() plc_rv = get_reusable_component(second_module_build, "perl-List-Compare") pt_rv = get_reusable_component(second_module_build, "perl-Tangerine") tangerine_rv = get_reusable_component(second_module_build, "tangerine") if changed_component == "perl-List-Compare": # perl-Tangerine can be reused even though a component in its batch has changed assert plc_rv is None assert pt_rv.package == "perl-Tangerine" assert tangerine_rv is None elif changed_component == "perl-Tangerine": # perl-List-Compare can be reused even though a component in its batch has changed assert plc_rv.package == "perl-List-Compare" assert pt_rv is None assert tangerine_rv is None elif changed_component == "tangerine": # perl-List-Compare and perl-Tangerine can be reused since they are in an earlier # buildorder than tangerine assert plc_rv.package == "perl-List-Compare" assert pt_rv.package == "perl-Tangerine" assert tangerine_rv is None elif changed_component is None: # Nothing has changed so everthing can be used assert plc_rv.package == "perl-List-Compare" assert pt_rv.package == "perl-Tangerine" assert tangerine_rv.package == "tangerine" def test_get_reusable_component_different_rpm_macros(self): second_module_build = models.ModuleBuild.get_by_id(db_session, 3) mmd = second_module_build.mmd() buildopts = Modulemd.Buildopts() buildopts.set_rpm_macros("%my_macro 1") mmd.set_buildopts(buildopts) second_module_build.modulemd = mmd_to_str(mmd) db_session.commit() plc_rv = get_reusable_component(second_module_build, "perl-List-Compare") assert plc_rv is None pt_rv = get_reusable_component(second_module_build, "perl-Tangerine") assert pt_rv is None @pytest.mark.parametrize("set_current_arch", [True, False]) @pytest.mark.parametrize("set_database_arch", [True, False]) def test_get_reusable_component_different_arches( self, set_database_arch, set_current_arch ): second_module_build = models.ModuleBuild.get_by_id(db_session, 3) if set_current_arch: # set architecture for current build mmd = second_module_build.mmd() component = mmd.get_rpm_component("tangerine") component.reset_arches() component.add_restricted_arch("i686") second_module_build.modulemd = mmd_to_str(mmd) db_session.commit() if set_database_arch: # set architecture for build in database second_module_changed_component = models.ComponentBuild.from_component_name( db_session, "tangerine", 2) mmd = second_module_changed_component.module_build.mmd() component = mmd.get_rpm_component("tangerine") component.reset_arches() component.add_restricted_arch("i686") second_module_changed_component.module_build.modulemd = mmd_to_str(mmd) db_session.commit() tangerine = get_reusable_component(second_module_build, "tangerine") assert bool(tangerine is None) != bool(set_current_arch == set_database_arch) @pytest.mark.parametrize( "reuse_component", ["perl-Tangerine", "perl-List-Compare", "tangerine"]) @pytest.mark.parametrize( "changed_component", ["perl-Tangerine", "perl-List-Compare", "tangerine"]) def test_get_reusable_component_different_batch( self, changed_component, reuse_component ): """ Test that we get the correct reuse behavior for the changed-and-after strategy. Changes to earlier batches should prevent reuse, but changes to later batches should not. For context, see https://pagure.io/fm-orchestrator/issue/1298 """ if changed_component == reuse_component: # we're only testing the cases where these are different # this case is already covered by test_get_reusable_component_different_component return second_module_build = models.ModuleBuild.get_by_id(db_session, 3) # update batch for changed component changed_component = models.ComponentBuild.from_component_name( db_session, changed_component, second_module_build.id) orig_batch = changed_component.batch changed_component.batch = orig_batch + 1 db_session.commit() reuse_component = models.ComponentBuild.from_component_name( db_session, reuse_component, second_module_build.id) reuse_result = module_build_service.utils.get_reusable_component( second_module_build, reuse_component.package) # Component reuse should only be blocked when an earlier batch has been changed. # In this case, orig_batch is the earliest batch that has been changed (the changed # component has been removed from it and added to the following one). assert bool(reuse_result is None) == bool(reuse_component.batch > orig_batch) @pytest.mark.parametrize( "reuse_component", ["perl-Tangerine", "perl-List-Compare", "tangerine"]) @pytest.mark.parametrize( "changed_component", ["perl-Tangerine", "perl-List-Compare", "tangerine"]) def test_get_reusable_component_different_arch_in_batch( self, changed_component, reuse_component ): """ Test that we get the correct reuse behavior for the changed-and-after strategy. Changes to the architectures in earlier batches should prevent reuse, but such changes to later batches should not. For context, see https://pagure.io/fm-orchestrator/issue/1298 """ if changed_component == reuse_component: # we're only testing the cases where these are different # this case is already covered by test_get_reusable_component_different_arches return second_module_build = models.ModuleBuild.get_by_id(db_session, 3) # update arch for changed component mmd = second_module_build.mmd() component = mmd.get_rpm_component(changed_component) component.reset_arches() component.add_restricted_arch("i686") second_module_build.modulemd = mmd_to_str(mmd) db_session.commit() changed_component = models.ComponentBuild.from_component_name( db_session, changed_component, second_module_build.id) reuse_component = models.ComponentBuild.from_component_name( db_session, reuse_component, second_module_build.id) reuse_result = module_build_service.utils.get_reusable_component( second_module_build, reuse_component.package) # Changing the arch of a component should prevent reuse only when the changed component # is in a batch earlier than the component being considered for reuse. assert bool(reuse_result is None) == bool(reuse_component.batch > changed_component.batch) @pytest.mark.parametrize("rebuild_strategy", models.ModuleBuild.rebuild_strategies.keys()) def test_get_reusable_component_different_buildrequires_stream(self, rebuild_strategy): first_module_build = models.ModuleBuild.get_by_id(db_session, 2) first_module_build.rebuild_strategy = rebuild_strategy db_session.commit() second_module_build = models.ModuleBuild.get_by_id(db_session, 3) mmd = second_module_build.mmd() xmd = mmd.get_xmd() xmd["mbs"]["buildrequires"]["platform"]["stream"] = "different" deps = Modulemd.Dependencies() deps.add_buildtime_stream("platform", "different") deps.add_runtime_stream("platform", "different") mmd.clear_dependencies() mmd.add_dependencies(deps) mmd.set_xmd(xmd) second_module_build.modulemd = mmd_to_str(mmd) second_module_build.build_context = \ module_build_service.models.ModuleBuild.contexts_from_mmd( second_module_build.modulemd ).build_context second_module_build.rebuild_strategy = rebuild_strategy db_session.commit() plc_rv = get_reusable_component(second_module_build, "perl-List-Compare") pt_rv = get_reusable_component(second_module_build, "perl-Tangerine") tangerine_rv = get_reusable_component(second_module_build, "tangerine") assert plc_rv is None assert pt_rv is None assert tangerine_rv is None def test_get_reusable_component_different_buildrequires(self): second_module_build = models.ModuleBuild.get_by_id(db_session, 3) mmd = second_module_build.mmd() mmd.get_dependencies()[0].add_buildtime_stream("some_module", "master") xmd = mmd.get_xmd() xmd["mbs"]["buildrequires"] = { "some_module": { "ref": "da39a3ee5e6b4b0d3255bfef95601890afd80709", "stream": "master", "version": "20170123140147", } } mmd.set_xmd(xmd) second_module_build.modulemd = mmd_to_str(mmd) second_module_build.build_context = models.ModuleBuild.calculate_build_context( xmd["mbs"]["buildrequires"]) db_session.commit() plc_rv = get_reusable_component(second_module_build, "perl-List-Compare") assert plc_rv is None pt_rv = get_reusable_component(second_module_build, "perl-Tangerine") assert pt_rv is None tangerine_rv = get_reusable_component(second_module_build, "tangerine") assert tangerine_rv is None @patch("module_build_service.utils.submit.submit_module_build") def test_submit_module_build_from_yaml_with_skiptests(self, mock_submit): """ Tests local module build from a yaml file with the skiptests option Args: mock_submit (MagickMock): mocked function submit_module_build, which we then inspect if it was called with correct arguments """ module_dir = tempfile.mkdtemp() module = models.ModuleBuild.get_by_id(db_session, 3) mmd = module.mmd() modulemd_yaml = mmd_to_str(mmd) modulemd_file_path = path.join(module_dir, "testmodule.yaml") username = "test" stream = "dev" with io.open(modulemd_file_path, "w", encoding="utf-8") as fd: fd.write(modulemd_yaml) with open(modulemd_file_path, "rb") as fd: handle = FileStorage(fd) module_build_service.utils.submit_module_build_from_yaml( db_session, username, handle, {}, stream=stream, skiptests=True) mock_submit_args = mock_submit.call_args[0] username_arg = mock_submit_args[1] mmd_arg = mock_submit_args[2] assert mmd_arg.get_stream_name() == stream assert "\n\n%__spec_check_pre exit 0\n" in mmd_arg.get_buildopts().get_rpm_macros() assert username_arg == username rmtree(module_dir) class TestUtils: def setup_method(self, test_method): clean_database() def teardown_method(self, test_method): clean_database() @patch("koji.ClientSession") def test_get_build_arches(self, ClientSession): session = ClientSession.return_value session.getTag.return_value = {"arches": "ppc64le"} mmd = load_mmd(read_staged_data("formatted_testmodule")) r = module_build_service.utils.get_build_arches(mmd, conf) assert r == ["ppc64le"] @patch("koji.ClientSession") def test_get_build_arches_no_arch_set(self, ClientSession): """ When no architecture is set in Koji tag, fallback to conf.arches. """ session = ClientSession.return_value session.getTag.return_value = {"arches": ""} mmd = load_mmd(read_staged_data("formatted_testmodule")) r = module_build_service.utils.get_build_arches(mmd, conf) assert set(r) == set(conf.arches) @patch( "module_build_service.config.Config.allowed_privileged_module_names", new_callable=mock.PropertyMock, return_value=["testmodule"], ) def test_get_build_arches_koji_tag_arches(self, cfg): mmd = load_mmd(read_staged_data("formatted_testmodule")) xmd = mmd.get_xmd() xmd["mbs"]["koji_tag_arches"] = ["ppc64", "ppc64le"] mmd.set_xmd(xmd) r = module_build_service.utils.get_build_arches(mmd, conf) assert r == ["ppc64", "ppc64le"] @patch.object(conf, "base_module_arches", new={"platform:xx": ["x86_64", "i686"]}) def test_get_build_arches_base_module_override(self): mmd = load_mmd(read_staged_data("formatted_testmodule")) xmd = mmd.get_xmd() mbs_options = xmd["mbs"] if "mbs" in xmd.keys() else {} mbs_options["buildrequires"] = {"platform": {"stream": "xx"}} xmd["mbs"] = mbs_options mmd.set_xmd(xmd) r = module_build_service.utils.get_build_arches(mmd, conf) assert r == ["x86_64", "i686"] @pytest.mark.parametrize("context", ["c1", None]) def test_import_mmd_contexts(self, context): mmd = load_mmd(read_staged_data("formatted_testmodule")) mmd.set_context(context) xmd = mmd.get_xmd() xmd["mbs"]["koji_tag"] = "foo" mmd.set_xmd(xmd) build, msgs = module_build_service.utils.import_mmd(db_session, mmd) mmd_context = build.mmd().get_context() if context: assert mmd_context == context assert build.context == context else: assert mmd_context == models.DEFAULT_MODULE_CONTEXT assert build.context == models.DEFAULT_MODULE_CONTEXT def test_import_mmd_multiple_dependencies(self): mmd = load_mmd(read_staged_data("formatted_testmodule")) mmd.add_dependencies(mmd.get_dependencies()[0].copy()) expected_error = "The imported module's dependencies list should contain just one element" with pytest.raises(UnprocessableEntity) as e: module_build_service.utils.import_mmd(db_session, mmd) assert str(e.value) == expected_error def test_import_mmd_no_xmd_buildrequires(self): mmd = load_mmd(read_staged_data("formatted_testmodule")) xmd = mmd.get_xmd() del xmd["mbs"]["buildrequires"] mmd.set_xmd(xmd) expected_error = ( "The imported module buildrequires other modules, but the metadata in the " 'xmd["mbs"]["buildrequires"] dictionary is missing entries' ) with pytest.raises(UnprocessableEntity) as e: module_build_service.utils.import_mmd(db_session, mmd) assert str(e.value) == expected_error def test_import_mmd_minimal_xmd_from_local_repository(self): mmd = load_mmd(read_staged_data("formatted_testmodule")) xmd = mmd.get_xmd() xmd["mbs"] = {} xmd["mbs"]["koji_tag"] = "repofile:///etc/yum.repos.d/fedora-modular.repo" xmd["mbs"]["mse"] = True xmd["mbs"]["commit"] = "unknown" mmd.set_xmd(xmd) build, msgs = module_build_service.utils.import_mmd(db_session, mmd, False) assert build.name == mmd.get_module_name() @pytest.mark.parametrize( "stream, disttag_marking, error_msg", ( ("f28", None, None), ("f28", "fedora28", None), ("f-28", "f28", None), ("f-28", None, "The stream cannot contain a dash unless disttag_marking is set"), ("f28", "f-28", "The disttag_marking cannot contain a dash"), ("f-28", "fedora-28", "The disttag_marking cannot contain a dash"), ), ) def test_import_mmd_base_module(self, stream, disttag_marking, error_msg): clean_database(add_platform_module=False) mmd = load_mmd(read_staged_data("platform")) mmd = mmd.copy(mmd.get_module_name(), stream) if disttag_marking: xmd = mmd.get_xmd() xmd["mbs"]["disttag_marking"] = disttag_marking mmd.set_xmd(xmd) if error_msg: with pytest.raises(UnprocessableEntity, match=error_msg): module_build_service.utils.import_mmd(db_session, mmd) else: module_build_service.utils.import_mmd(db_session, mmd) def test_import_mmd_remove_dropped_virtual_streams(self): mmd = load_mmd(read_staged_data("formatted_testmodule")) # Add some virtual streams xmd = mmd.get_xmd() xmd["mbs"]["virtual_streams"] = ["f28", "f29", "f30"] mmd.set_xmd(xmd) # Import mmd into database to simulate the next step to reimport a module module_build_service.utils.general.import_mmd(db_session, mmd) # Now, remove some virtual streams from module metadata xmd = mmd.get_xmd() xmd["mbs"]["virtual_streams"] = ["f28", "f29"] # Note that, f30 is removed mmd.set_xmd(xmd) # Test import modulemd again and the f30 should be removed from database. module_build, _ = module_build_service.utils.general.import_mmd(db_session, mmd) db_session.refresh(module_build) assert ["f28", "f29"] == sorted(item.name for item in module_build.virtual_streams) assert 0 == db_session.query(models.VirtualStream).filter_by(name="f30").count() def test_import_mmd_dont_remove_dropped_virtual_streams_associated_with_other_modules(self): mmd = load_mmd(read_staged_data("formatted_testmodule")) # Add some virtual streams to this module metadata xmd = mmd.get_xmd() xmd["mbs"]["virtual_streams"] = ["f28", "f29", "f30"] mmd.set_xmd(xmd) module_build_service.utils.general.import_mmd(db_session, mmd) # Import another module which has overlapping virtual streams another_mmd = load_mmd(read_staged_data("formatted_testmodule-more-components")) # Add some virtual streams to this module metadata xmd = another_mmd.get_xmd() xmd["mbs"]["virtual_streams"] = ["f29", "f30"] another_mmd.set_xmd(xmd) another_module_build, _ = module_build_service.utils.general.import_mmd( db_session, another_mmd) # Now, remove f30 from mmd xmd = mmd.get_xmd() xmd["mbs"]["virtual_streams"] = ["f28", "f29"] mmd.set_xmd(xmd) # Reimport formatted_testmodule again module_build, _ = module_build_service.utils.general.import_mmd(db_session, mmd) db_session.refresh(module_build) assert ["f28", "f29"] == sorted(item.name for item in module_build.virtual_streams) # The overlapped f30 should be still there. db_session.refresh(another_module_build) assert ["f29", "f30"] == sorted(item.name for item in another_module_build.virtual_streams) def test_get_rpm_release_mse(self): init_data(contexts=True) build_one = models.ModuleBuild.get_by_id(db_session, 2) release_one = module_build_service.utils.get_rpm_release(db_session, build_one) assert release_one == "module+2+b8645bbb" build_two = models.ModuleBuild.get_by_id(db_session, 3) release_two = module_build_service.utils.get_rpm_release(db_session, build_two) assert release_two == "module+2+17e35784" def test_get_rpm_release_platform_stream(self): scheduler_init_data(1) build_one = models.ModuleBuild.get_by_id(db_session, 2) release = module_build_service.utils.get_rpm_release(db_session, build_one) assert release == "module+f28+2+814cfa39" def test_get_rpm_release_platform_stream_override(self): scheduler_init_data(1) # Set the disttag_marking override on the platform platform = ( db_session.query(models.ModuleBuild) .filter_by(name="platform", stream="f28") .first() ) platform_mmd = platform.mmd() platform_xmd = platform_mmd.get_xmd() platform_xmd["mbs"]["disttag_marking"] = "fedora28" platform_mmd.set_xmd(platform_xmd) platform.modulemd = mmd_to_str(platform_mmd) db_session.add(platform) db_session.commit() build_one = models.ModuleBuild.get_by_id(db_session, 2) release = module_build_service.utils.get_rpm_release(db_session, build_one) assert release == "module+fedora28+2+814cfa39" @patch( "module_build_service.config.Config.allowed_privileged_module_names", new_callable=mock.PropertyMock, return_value=["build"], ) def test_get_rpm_release_metadata_br_stream_override(self, mock_admmn): """ Test that when a module buildrequires a module in conf.allowed_privileged_module_names, and that module has the xmd.mbs.disttag_marking field set, it should influence the disttag. """ scheduler_init_data(1) metadata_mmd = load_mmd(read_staged_data("build_metadata_module")) module_build_service.utils.import_mmd(db_session, metadata_mmd) build_one = models.ModuleBuild.get_by_id(db_session, 2) mmd = build_one.mmd() deps = mmd.get_dependencies()[0] deps.add_buildtime_stream("build", "product1.2") xmd = mmd.get_xmd() xmd["mbs"]["buildrequires"]["build"] = { "filtered_rpms": [], "ref": "virtual", "stream": "product1.2", "version": "1", "context": "00000000", } mmd.set_xmd(xmd) build_one.modulemd = mmd_to_str(mmd) db_session.add(build_one) db_session.commit() release = module_build_service.utils.get_rpm_release(db_session, build_one) assert release == "module+product12+2+814cfa39" def test_get_rpm_release_mse_scratch(self): init_data(contexts=True, scratch=True) build_one = models.ModuleBuild.get_by_id(db_session, 2) release_one = module_build_service.utils.get_rpm_release(db_session, build_one) assert release_one == "scrmod+2+b8645bbb" build_two = models.ModuleBuild.get_by_id(db_session, 3) release_two = module_build_service.utils.get_rpm_release(db_session, build_two) assert release_two == "scrmod+2+17e35784" def test_get_rpm_release_platform_stream_scratch(self): scheduler_init_data(1, scratch=True) build_one = models.ModuleBuild.get_by_id(db_session, 2) release = module_build_service.utils.get_rpm_release(db_session, build_one) assert release == "scrmod+f28+2+814cfa39" @patch("module_build_service.utils.submit.get_build_arches") def test_record_module_build_arches(self, get_build_arches): get_build_arches.return_value = ["x86_64", "i686"] scheduler_init_data(1) build = models.ModuleBuild.get_by_id(db_session, 2) build.arches = [] module_build_service.utils.record_module_build_arches(build.mmd(), build) arches = {arch.name for arch in build.arches} assert arches == set(get_build_arches.return_value) @pytest.mark.parametrize( "scmurl", [ ( "https://src.stg.fedoraproject.org/modules/testmodule.git" "?#620ec77321b2ea7b0d67d82992dda3e1d67055b4" ), None, ], ) @patch("module_build_service.scm.SCM") def test_format_mmd(self, mocked_scm, scmurl): mocked_scm.return_value.commit = "620ec77321b2ea7b0d67d82992dda3e1d67055b4" # For all the RPMs in testmodule, get_latest is called mocked_scm.return_value.get_latest.side_effect = [ "4ceea43add2366d8b8c5a622a2fb563b625b9abf", "fbed359411a1baa08d4a88e0d12d426fbf8f602c", ] hashes_returned = { "master": "fbed359411a1baa08d4a88e0d12d426fbf8f602c", "f28": "4ceea43add2366d8b8c5a622a2fb563b625b9abf", "f27": "5deef23acd2367d8b8d5a621a2fc568b695bc3bd", } def mocked_get_latest(ref="master"): return hashes_returned[ref] mocked_scm.return_value.get_latest = mocked_get_latest mmd = load_mmd(read_staged_data("testmodule")) # Modify the component branches so we can identify them later on mmd.get_rpm_component("perl-Tangerine").set_ref("f28") mmd.get_rpm_component("tangerine").set_ref("f27") module_build_service.utils.format_mmd(mmd, scmurl) # Make sure that original refs are not changed. mmd_pkg_refs = [ mmd.get_rpm_component(pkg_name).get_ref() for pkg_name in mmd.get_rpm_component_names() ] assert set(mmd_pkg_refs) == set(hashes_returned.keys()) deps = mmd.get_dependencies()[0] assert deps.get_buildtime_modules() == ["platform"] assert deps.get_buildtime_streams("platform") == ["f28"] xmd = { "mbs": { "commit": "", "rpms": { "perl-List-Compare": {"ref": "fbed359411a1baa08d4a88e0d12d426fbf8f602c"}, "perl-Tangerine": {"ref": "4ceea43add2366d8b8c5a622a2fb563b625b9abf"}, "tangerine": {"ref": "5deef23acd2367d8b8d5a621a2fc568b695bc3bd"}, }, "scmurl": "", } } if scmurl: xmd["mbs"]["commit"] = "620ec77321b2ea7b0d67d82992dda3e1d67055b4" xmd["mbs"]["scmurl"] = scmurl mmd_xmd = mmd.get_xmd() assert mmd_xmd == xmd @pytest.mark.usefixtures("reuse_shared_userspace_init_data") def test_get_reusable_component_shared_userspace_ordering(self): """ For modules with lot of components per batch, there is big chance that the database will return them in different order than what we have for current `new_module`. In this case, reuse code should still be able to reuse the components. """ old_module = models.ModuleBuild.get_by_id(db_session, 2) new_module = models.ModuleBuild.get_by_id(db_session, 3) rv = get_reusable_component(new_module, "llvm", previous_module_build=old_module) assert rv.package == "llvm" def test_validate_koji_tag_wrong_tag_arg_during_programming(self): """ Test that we fail on a wrong param name (non-existing one) due to programming error. """ @module_build_service.utils.validate_koji_tag("wrong_tag_arg") def validate_koji_tag_programming_error(good_tag_arg, other_arg): pass with pytest.raises(ProgrammingError): validate_koji_tag_programming_error("dummy", "other_val") def test_validate_koji_tag_bad_tag_value(self): """ Test that we fail on a bad tag value. """ @module_build_service.utils.validate_koji_tag("tag_arg") def validate_koji_tag_bad_tag_value(tag_arg): pass with pytest.raises(ValidationError): validate_koji_tag_bad_tag_value("forbiddentagprefix-foo") def test_validate_koji_tag_bad_tag_value_in_list(self): """ Test that we fail on a list containing bad tag value. """ @module_build_service.utils.validate_koji_tag("tag_arg") def validate_koji_tag_bad_tag_value_in_list(tag_arg): pass with pytest.raises(ValidationError): validate_koji_tag_bad_tag_value_in_list(["module-foo", "forbiddentagprefix-bar"]) def test_validate_koji_tag_good_tag_value(self): """ Test that we pass on a good tag value. """ @module_build_service.utils.validate_koji_tag("tag_arg") def validate_koji_tag_good_tag_value(tag_arg): return True assert validate_koji_tag_good_tag_value("module-foo") is True def test_validate_koji_tag_good_tag_values_in_list(self): """ Test that we pass on a list of good tag values. """ @module_build_service.utils.validate_koji_tag("tag_arg") def validate_koji_tag_good_tag_values_in_list(tag_arg): return True assert validate_koji_tag_good_tag_values_in_list(["module-foo", "module-bar"]) is True def test_validate_koji_tag_good_tag_value_in_dict(self): """ Test that we pass on a dict arg with default key and a good value. """ @module_build_service.utils.validate_koji_tag("tag_arg") def validate_koji_tag_good_tag_value_in_dict(tag_arg): return True assert validate_koji_tag_good_tag_value_in_dict({"name": "module-foo"}) is True def test_validate_koji_tag_good_tag_value_in_dict_nondefault_key(self): """ Test that we pass on a dict arg with non-default key and a good value. """ @module_build_service.utils.validate_koji_tag("tag_arg", dict_key="nondefault") def validate_koji_tag_good_tag_value_in_dict_nondefault_key(tag_arg): return True assert ( validate_koji_tag_good_tag_value_in_dict_nondefault_key({"nondefault": "module-foo"}) is True ) def test_validate_koji_tag_double_trouble_good(self): """ Test that we pass on a list of tags that are good. """ expected = "foo" @module_build_service.utils.validate_koji_tag(["tag_arg1", "tag_arg2"]) def validate_koji_tag_double_trouble(tag_arg1, tag_arg2): return expected actual = validate_koji_tag_double_trouble("module-1", "module-2") assert actual == expected def test_validate_koji_tag_double_trouble_bad(self): """ Test that we fail on a list of tags that are bad. """ @module_build_service.utils.validate_koji_tag(["tag_arg1", "tag_arg2"]) def validate_koji_tag_double_trouble(tag_arg1, tag_arg2): pass with pytest.raises(ValidationError): validate_koji_tag_double_trouble("module-1", "BADNEWS-2") def test_validate_koji_tag_is_None(self): """ Test that we fail on a tag which is None. """ @module_build_service.utils.validate_koji_tag("tag_arg") def validate_koji_tag_is_None(tag_arg): pass with pytest.raises(ValidationError) as cm: validate_koji_tag_is_None(None) assert str(cm.value).endswith(" No value provided.") is True @patch( "module_build_service.config.Config.allowed_privileged_module_names", new_callable=mock.PropertyMock, return_value=["testmodule"], ) def test_validate_koji_tag_previleged_module_name(self, conf_apmn): @module_build_service.utils.validate_koji_tag("tag_arg") def validate_koji_tag_priv_mod_name(self, tag_arg): pass builder = mock.MagicMock() builder.module_str = 'testmodule' validate_koji_tag_priv_mod_name(builder, "abc") @patch("module_build_service.scm.SCM") def test_record_component_builds_duplicate_components(self, mocked_scm): # Mock for format_mmd to get components' latest ref mocked_scm.return_value.commit = "620ec77321b2ea7b0d67d82992dda3e1d67055b4" mocked_scm.return_value.get_latest.side_effect = [ "4ceea43add2366d8b8c5a622a2fb563b625b9abf", "fbed359411a1baa08d4a88e0d12d426fbf8f602c", ] mmd = load_mmd(read_staged_data("testmodule")) mmd = mmd.copy("testmodule-variant", "master") module_build = module_build_service.models.ModuleBuild() module_build.name = "testmodule-variant" module_build.stream = "master" module_build.version = 20170109091357 module_build.state = models.BUILD_STATES["init"] module_build.scmurl = \ "https://src.stg.fedoraproject.org/modules/testmodule.git?#ff1ea79" module_build.batch = 1 module_build.owner = "Tom Brady" module_build.time_submitted = datetime(2017, 2, 15, 16, 8, 18) module_build.time_modified = datetime(2017, 2, 15, 16, 19, 35) module_build.rebuild_strategy = "changed-and-after" module_build.modulemd = mmd_to_str(mmd) db_session.add(module_build) db_session.commit() # Rename the the modulemd to include mmd = mmd.copy("testmodule") # Remove perl-Tangerine and tangerine from the modulemd to include so only one # component conflicts mmd.remove_rpm_component("perl-Tangerine") mmd.remove_rpm_component("tangerine") error_msg = ( 'The included module "testmodule" in "testmodule-variant" have ' "the following conflicting components: perl-List-Compare" ) format_mmd(mmd, module_build.scmurl) with pytest.raises(UnprocessableEntity) as e: module_build_service.utils.record_component_builds( mmd, module_build, main_mmd=module_build.mmd()) assert str(e.value) == error_msg @patch("module_build_service.scm.SCM") def test_record_component_builds_set_weight(self, mocked_scm): # Mock for format_mmd to get components' latest ref mocked_scm.return_value.commit = "620ec77321b2ea7b0d67d82992dda3e1d67055b4" mocked_scm.return_value.get_latest.side_effect = [ "4ceea43add2366d8b8c5a622a2fb563b625b9abf", "fbed359411a1baa08d4a88e0d12d426fbf8f602c", "dbed259411a1baa08d4a88e0d12d426fbf8f6037", ] mmd = load_mmd(read_staged_data("testmodule")) # Set the module name and stream mmd = mmd.copy("testmodule", "master") module_build = module_build_service.models.ModuleBuild() module_build.name = "testmodule" module_build.stream = "master" module_build.version = 20170109091357 module_build.state = models.BUILD_STATES["init"] module_build.scmurl = \ "https://src.stg.fedoraproject.org/modules/testmodule.git?#ff1ea79" module_build.batch = 1 module_build.owner = "Tom Brady" module_build.time_submitted = datetime(2017, 2, 15, 16, 8, 18) module_build.time_modified = datetime(2017, 2, 15, 16, 19, 35) module_build.rebuild_strategy = "changed-and-after" module_build.modulemd = mmd_to_str(mmd) db_session.add(module_build) db_session.commit() format_mmd(mmd, module_build.scmurl) module_build_service.utils.record_component_builds(mmd, module_build) db_session.commit() assert module_build.state == models.BUILD_STATES["init"] db_session.refresh(module_build) for c in module_build.component_builds: assert c.weight == 1.5 @patch("module_build_service.scm.SCM") def test_record_component_builds_component_exists_already(self, mocked_scm): mocked_scm.return_value.commit = "620ec77321b2ea7b0d67d82992dda3e1d67055b4" mocked_scm.return_value.get_latest.side_effect = [ "4ceea43add2366d8b8c5a622a2fb563b625b9abf", "fbed359411a1baa08d4a88e0d12d426fbf8f602c", "dbed259411a1baa08d4a88e0d12d426fbf8f6037", "4ceea43add2366d8b8c5a622a2fb563b625b9abf", # To simulate that when a module is resubmitted, some ref of # its components is changed, which will cause MBS stops # recording component to database and raise an error. "abcdefg", "dbed259411a1baa08d4a88e0d12d426fbf8f6037", ] original_mmd = load_mmd(read_staged_data("testmodule")) # Set the module name and stream mmd = original_mmd.copy("testmodule", "master") module_build = module_build_service.models.ModuleBuild() module_build.name = "testmodule" module_build.stream = "master" module_build.version = 20170109091357 module_build.state = models.BUILD_STATES["init"] module_build.scmurl = \ "https://src.stg.fedoraproject.org/modules/testmodule.git?#ff1ea79" module_build.batch = 1 module_build.owner = "Tom Brady" module_build.time_submitted = datetime(2017, 2, 15, 16, 8, 18) module_build.time_modified = datetime(2017, 2, 15, 16, 19, 35) module_build.rebuild_strategy = "changed-and-after" module_build.modulemd = mmd_to_str(mmd) db_session.add(module_build) db_session.commit() format_mmd(mmd, module_build.scmurl) module_build_service.utils.record_component_builds(mmd, module_build) db_session.commit() mmd = original_mmd.copy("testmodule", "master") from module_build_service.errors import ValidationError with pytest.raises( ValidationError, match=r"Component build .+ of module build .+ already exists in database"): format_mmd(mmd, module_build.scmurl) module_build_service.utils.record_component_builds(mmd, module_build) @patch("module_build_service.scm.SCM") def test_format_mmd_arches(self, mocked_scm): with app.app_context(): clean_database() mocked_scm.return_value.commit = "620ec77321b2ea7b0d67d82992dda3e1d67055b4" mocked_scm.return_value.get_latest.side_effect = [ "4ceea43add2366d8b8c5a622a2fb563b625b9abf", "fbed359411a1baa08d4a88e0d12d426fbf8f602c", "dbed259411a1baa08d4a88e0d12d426fbf8f6037", "4ceea43add2366d8b8c5a622a2fb563b625b9abf", "fbed359411a1baa08d4a88e0d12d426fbf8f602c", "dbed259411a1baa08d4a88e0d12d426fbf8f6037", ] testmodule_mmd_path = staged_data_filename("testmodule.yaml") test_archs = ["powerpc", "i486"] mmd1 = load_mmd_file(testmodule_mmd_path) module_build_service.utils.format_mmd(mmd1, None) for pkg_name in mmd1.get_rpm_component_names(): pkg = mmd1.get_rpm_component(pkg_name) assert set(pkg.get_arches()) == set(conf.arches) mmd2 = load_mmd_file(testmodule_mmd_path) for pkg_name in mmd2.get_rpm_component_names(): pkg = mmd2.get_rpm_component(pkg_name) pkg.reset_arches() for arch in test_archs: pkg.add_restricted_arch(arch) module_build_service.utils.format_mmd(mmd2, None) for pkg_name in mmd2.get_rpm_component_names(): pkg = mmd2.get_rpm_component(pkg_name) assert set(pkg.get_arches()) == set(test_archs) @patch("module_build_service.scm.SCM") @patch("module_build_service.utils.submit.ThreadPool") def test_format_mmd_update_time_modified(self, tp, mocked_scm): init_data() build = models.ModuleBuild.get_by_id(db_session, 2) async_result = mock.MagicMock() async_result.ready.side_effect = [False, False, False, True] tp.return_value.map_async.return_value = async_result test_datetime = datetime(2019, 2, 14, 11, 11, 45, 42968) mmd = load_mmd(read_staged_data("testmodule")) with patch("module_build_service.utils.submit.datetime") as dt: dt.utcnow.return_value = test_datetime module_build_service.utils.format_mmd(mmd, None, build, db_session) assert build.time_modified == test_datetime def test_generate_koji_tag_in_nsvc_format(self): name, stream, version, context = ("testmodule", "master", "20170816080815", "37c6c57") tag = module_build_service.utils.generate_koji_tag(name, stream, version, context) assert tag == "module-testmodule-master-20170816080815-37c6c57" def test_generate_koji_tag_in_hash_format(self): name, version, context = ("testmodule", "20170816080815", "37c6c57") stream = "this-is-a-stream-with-very-looooong-name" + "-blah" * 50 nsvc_list = [name, stream, version, context] tag = module_build_service.utils.generate_koji_tag(*nsvc_list) expected_tag = "module-1cf457d452e54dda" assert tag == expected_tag @patch("module_build_service.utils.submit.requests") def test_pdc_eol_check(self, requests): """ Push mock pdc responses through the eol check function. """ response = mock.Mock() response.json.return_value = { "results": [{ "id": 347907, "global_component": "mariadb", "name": "10.1", "slas": [{"id": 694207, "sla": "security_fixes", "eol": "2019-12-01"}], "type": "module", "active": True, "critical_path": False, }] } requests.get.return_value = response is_eol = module_build_service.utils.submit._is_eol_in_pdc("mariadb", "10.1") assert not is_eol response.json.return_value["results"][0]["active"] = False is_eol = module_build_service.utils.submit._is_eol_in_pdc("mariadb", "10.1") assert is_eol def test_get_prefixed_version_f28(self): scheduler_init_data(1) build_one = models.ModuleBuild.get_by_id(db_session, 2) v = module_build_service.utils.submit.get_prefixed_version(build_one.mmd()) assert v == 2820180205135154 def test_get_prefixed_version_fl701(self): scheduler_init_data(1) build_one = models.ModuleBuild.get_by_id(db_session, 2) mmd = build_one.mmd() xmd = mmd.get_xmd() xmd["mbs"]["buildrequires"]["platform"]["stream"] = "fl7.0.1-beta" mmd.set_xmd(xmd) v = module_build_service.utils.submit.get_prefixed_version(mmd) assert v == 7000120180205135154 @patch("module_build_service.utils.mse.generate_expanded_mmds") def test_submit_build_new_mse_build(self, generate_expanded_mmds): """ Tests that finished build can be resubmitted in case the resubmitted build adds new MSE build (it means there are new expanded buildrequires). """ build = make_module_in_db("foo:stream:0:c1") assert build.state == models.BUILD_STATES["ready"] mmd1 = build.mmd() mmd2 = build.mmd() mmd2.set_context("c2") generate_expanded_mmds.return_value = [mmd1, mmd2] # Create a copy of mmd1 without xmd.mbs, since that will cause validate_mmd to fail mmd1_copy = mmd1.copy() mmd1_copy.set_xmd({}) builds = module_build_service.utils.submit_module_build(db_session, "foo", mmd1_copy, {}) ret = {b.mmd().get_context(): b.state for b in builds} assert ret == {"c1": models.BUILD_STATES["ready"], "c2": models.BUILD_STATES["init"]} assert builds[0].siblings(db_session) == [builds[1].id] assert builds[1].siblings(db_session) == [builds[0].id] @patch("module_build_service.utils.mse.generate_expanded_mmds") @patch( "module_build_service.config.Config.scratch_build_only_branches", new_callable=mock.PropertyMock, return_value=["^private-.*"], ) def test_submit_build_scratch_build_only_branches(self, cfg, generate_expanded_mmds): """ Tests the "scratch_build_only_branches" config option. """ mmd = make_module("foo:stream:0:c1") generate_expanded_mmds.return_value = [mmd] # Create a copy of mmd1 without xmd.mbs, since that will cause validate_mmd to fail mmd_copy = mmd.copy() mmd_copy.set_xmd({}) with pytest.raises(ValidationError, match="Only scratch module builds can be built from this branch."): module_build_service.utils.submit_module_build( db_session, "foo", mmd_copy, {"branch": "private-foo"}) module_build_service.utils.submit_module_build( db_session, "foo", mmd_copy, {"branch": "otherbranch"}) class DummyModuleBuilder(GenericBuilder): """ Dummy module builder """ backend = "koji" _build_id = 0 TAGGED_COMPONENTS = [] @module_build_service.utils.validate_koji_tag("tag_name") def __init__(self, db_session, owner, module, config, tag_name, components): self.db_session = db_session self.module_str = module self.tag_name = tag_name self.config = config def buildroot_connect(self, groups): pass def buildroot_prep(self): pass def buildroot_resume(self): pass def buildroot_ready(self, artifacts=None): return True def buildroot_add_dependency(self, dependencies): pass def buildroot_add_artifacts(self, artifacts, install=False): DummyModuleBuilder.TAGGED_COMPONENTS += artifacts def buildroot_add_repos(self, dependencies): pass def tag_artifacts(self, artifacts): pass def recover_orphaned_artifact(self, component_build): return [] @property def module_build_tag(self): return {"name": self.tag_name + "-build"} def build(self, artifact_name, source): DummyModuleBuilder._build_id += 1 state = koji.BUILD_STATES["COMPLETE"] reason = "Submitted %s to Koji" % (artifact_name) return DummyModuleBuilder._build_id, state, reason, None @staticmethod def get_disttag_srpm(disttag, module_build): # @FIXME return KojiModuleBuilder.get_disttag_srpm(disttag, module_build) def cancel_build(self, task_id): pass def list_tasks_for_components(self, component_builds=None, state="active"): pass def repo_from_tag(self, config, tag_name, arch): pass def finalize(self, succeeded=True): pass @pytest.mark.usefixtures("reuse_component_init_data") @patch( "module_build_service.builder.GenericBuilder.default_buildroot_groups", return_value={"build": [], "srpm-build": []}, ) class TestBatches: def setup_method(self, test_method): GenericBuilder.register_backend_class(DummyModuleBuilder) def teardown_method(self, test_method): # clean_database() DummyModuleBuilder.TAGGED_COMPONENTS = [] GenericBuilder.register_backend_class(KojiModuleBuilder) def test_start_next_batch_build_reuse(self, default_buildroot_groups): """ Tests that start_next_batch_build: 1) Increments module.batch. 2) Can reuse all components in batch 3) Returns proper further_work messages for reused components. 4) Returns the fake Repo change message 5) Handling the further_work messages lead to proper tagging of reused components. """ module_build = models.ModuleBuild.get_by_id(db_session, 3) module_build.batch = 1 builder = mock.MagicMock() further_work = module_build_service.utils.start_next_batch_build( conf, module_build, builder) # Batch number should increase. assert module_build.batch == 2 # KojiBuildChange messages in further_work should have build_new_state # set to COMPLETE, but the current component build state should be set # to BUILDING, so KojiBuildChange message handler handles the change # properly. for msg in further_work: if type(msg) == module_build_service.messaging.KojiBuildChange: assert msg.build_new_state == koji.BUILD_STATES["COMPLETE"] component_build = models.ComponentBuild.from_component_event(db_session, msg) assert component_build.state == koji.BUILD_STATES["BUILDING"] # When we handle these KojiBuildChange messages, MBS should tag all # the components just once. for msg in further_work: if type(msg) == module_build_service.messaging.KojiBuildChange: module_build_service.scheduler.handlers.components.complete(conf, msg) # Since we have reused all the components in the batch, there should # be fake KojiRepoChange message. assert type(further_work[-1]) == module_build_service.messaging.KojiRepoChange # Check that packages have been tagged just once. assert len(DummyModuleBuilder.TAGGED_COMPONENTS) == 2 @patch("module_build_service.utils.batches.start_build_component") def test_start_next_batch_build_reuse_some( self, mock_sbc, default_buildroot_groups ): """ Tests that start_next_batch_build: 1) Increments module.batch. 2) Can reuse all components in the batch that it can. 3) Returns proper further_work messages for reused components. 4) Builds the remaining components 5) Handling the further_work messages lead to proper tagging of reused components. """ module_build = models.ModuleBuild.get_by_id(db_session, 3) module_build.batch = 1 plc_component = models.ComponentBuild.from_component_name( db_session, "perl-List-Compare", 3) plc_component.ref = "5ceea46add2366d8b8c5a623a2fb563b625b9abd" builder = mock.MagicMock() builder.recover_orphaned_artifact.return_value = [] further_work = module_build_service.utils.start_next_batch_build( conf, module_build, builder) # Batch number should increase. assert module_build.batch == 2 # Make sure we only have one message returned for the one reused component assert len(further_work) == 1 # The KojiBuildChange message in further_work should have build_new_state # set to COMPLETE, but the current component build state in the DB should be set # to BUILDING, so KojiBuildChange message handler handles the change # properly. assert further_work[0].build_new_state == koji.BUILD_STATES["COMPLETE"] component_build = models.ComponentBuild.from_component_event(db_session, further_work[0]) assert component_build.state == koji.BUILD_STATES["BUILDING"] assert component_build.package == "perl-Tangerine" assert component_build.reused_component_id is not None # Make sure perl-List-Compare is set to the build state as well but not reused assert plc_component.state == koji.BUILD_STATES["BUILDING"] assert plc_component.reused_component_id is None mock_sbc.assert_called_once() @patch("module_build_service.utils.batches.start_build_component") @patch( "module_build_service.config.Config.rebuild_strategy", new_callable=mock.PropertyMock, return_value="all", ) def test_start_next_batch_build_rebuild_strategy_all( self, mock_rm, mock_sbc, default_buildroot_groups ): """ Tests that start_next_batch_build can't reuse any components in the batch because the rebuild method is set to "all". """ module_build = models.ModuleBuild.get_by_id(db_session, 3) module_build.rebuild_strategy = "all" module_build.batch = 1 builder = mock.MagicMock() builder.recover_orphaned_artifact.return_value = [] further_work = module_build_service.utils.start_next_batch_build( conf, module_build, builder) # Batch number should increase. assert module_build.batch == 2 # No component reuse messages should be returned assert len(further_work) == 0 # Make sure that both components in the batch were submitted assert len(mock_sbc.mock_calls) == 2 def test_start_build_component_failed_state(self, default_buildroot_groups): """ Tests whether exception occured while building sets the state to failed """ builder = mock.MagicMock() builder.build.side_effect = Exception("Something have gone terribly wrong") component = mock.MagicMock() module_build_service.utils.batches.start_build_component(db_session, builder, component) assert component.state == koji.BUILD_STATES["FAILED"] @patch("module_build_service.utils.batches.start_build_component") @patch( "module_build_service.config.Config.rebuild_strategy", new_callable=mock.PropertyMock, return_value="only-changed", ) def test_start_next_batch_build_rebuild_strategy_only_changed( self, mock_rm, mock_sbc, default_buildroot_groups ): """ Tests that start_next_batch_build reuses all unchanged components in the batch because the rebuild method is set to "only-changed". This means that one component is reused in batch 2, and even though the other component in batch 2 changed and was rebuilt, the component in batch 3 can be reused. """ module_build = models.ModuleBuild.get_by_id(db_session, 3) module_build.rebuild_strategy = "only-changed" module_build.batch = 1 # perl-List-Compare changed plc_component = models.ComponentBuild.from_component_name( db_session, "perl-List-Compare", 3) plc_component.ref = "5ceea46add2366d8b8c5a623a2fb563b625b9abd" builder = mock.MagicMock() builder.recover_orphaned_artifact.return_value = [] further_work = module_build_service.utils.start_next_batch_build( conf, module_build, builder) # Batch number should increase assert module_build.batch == 2 # Make sure we only have one message returned for the one reused component assert len(further_work) == 1 # The KojiBuildChange message in further_work should have build_new_state # set to COMPLETE, but the current component build state in the DB should be set # to BUILDING, so KojiBuildChange message handler handles the change # properly. assert further_work[0].build_new_state == koji.BUILD_STATES["COMPLETE"] component_build = models.ComponentBuild.from_component_event(db_session, further_work[0]) assert component_build.state == koji.BUILD_STATES["BUILDING"] assert component_build.package == "perl-Tangerine" assert component_build.reused_component_id is not None # Make sure perl-List-Compare is set to the build state as well but not reused assert plc_component.state == koji.BUILD_STATES["BUILDING"] assert plc_component.reused_component_id is None mock_sbc.assert_called_once() mock_sbc.reset_mock() # Complete the build plc_component.state = koji.BUILD_STATES["COMPLETE"] pt_component = models.ComponentBuild.from_component_name( db_session, "perl-Tangerine", 3) pt_component.state = koji.BUILD_STATES["COMPLETE"] # Start the next build batch further_work = module_build_service.utils.start_next_batch_build( conf, module_build, builder) # Batch number should increase assert module_build.batch == 3 # Verify that tangerine was reused even though perl-Tangerine was rebuilt in the previous # batch assert further_work[0].build_new_state == koji.BUILD_STATES["COMPLETE"] component_build = models.ComponentBuild.from_component_event(db_session, further_work[0]) assert component_build.state == koji.BUILD_STATES["BUILDING"] assert component_build.package == "tangerine" assert component_build.reused_component_id is not None mock_sbc.assert_not_called() @patch("module_build_service.utils.batches.start_build_component") def test_start_next_batch_build_smart_scheduling( self, mock_sbc, default_buildroot_groups ): """ Tests that components with the longest build time will be scheduled first """ module_build = models.ModuleBuild.get_by_id(db_session, 3) module_build.batch = 1 pt_component = models.ComponentBuild.from_component_name( db_session, "perl-Tangerine", 3) pt_component.ref = "6ceea46add2366d8b8c5a623b2fb563b625bfabe" plc_component = models.ComponentBuild.from_component_name( db_session, "perl-List-Compare", 3) plc_component.ref = "5ceea46add2366d8b8c5a623a2fb563b625b9abd" # Components are by default built by component id. To find out that weight is respected, # we have to set bigger weight to component with lower id. pt_component.weight = 3 if pt_component.id < plc_component.id else 4 plc_component.weight = 4 if pt_component.id < plc_component.id else 3 builder = mock.MagicMock() builder.recover_orphaned_artifact.return_value = [] further_work = module_build_service.utils.start_next_batch_build( conf, module_build, builder) # Batch number should increase. assert module_build.batch == 2 # Make sure we don't have any messages returned since no components should be reused assert len(further_work) == 0 # Make sure both components are set to the build state but not reused assert pt_component.state == koji.BUILD_STATES["BUILDING"] assert pt_component.reused_component_id is None assert plc_component.state == koji.BUILD_STATES["BUILDING"] assert plc_component.reused_component_id is None # Test the order of the scheduling expected_calls = [ mock.call(db_session, builder, plc_component), mock.call(db_session, builder, pt_component) ] assert mock_sbc.mock_calls == expected_calls @patch("module_build_service.utils.batches.start_build_component") def test_start_next_batch_continue(self, mock_sbc, default_buildroot_groups): """ Tests that start_next_batch_build does not start new batch when there are unbuilt components in the current one. """ module_build = models.ModuleBuild.get_by_id(db_session, 3) module_build.batch = 2 # The component was reused when the batch first started building_component = module_build.current_batch()[0] building_component.state = koji.BUILD_STATES["BUILDING"] db_session.commit() builder = mock.MagicMock() further_work = module_build_service.utils.start_next_batch_build( conf, module_build, builder) # Batch number should not increase. assert module_build.batch == 2 # Make sure start build was called for the second component which wasn't reused mock_sbc.assert_called_once() # No further work should be returned assert len(further_work) == 0 def test_start_next_batch_build_repo_building(self, default_buildroot_groups): """ Test that start_next_batch_build does not start new batch when builder.buildroot_ready() returns False. """ module_build = models.ModuleBuild.get_by_id(db_session, 3) module_build.batch = 1 db_session.commit() builder = mock.MagicMock() builder.buildroot_ready.return_value = False # Batch number should not increase. assert module_build.batch == 1 @patch( "module_build_service.config.Config.mock_resultsdir", new_callable=mock.PropertyMock, return_value=staged_data_filename("local_builds") ) @patch( "module_build_service.config.Config.system", new_callable=mock.PropertyMock, return_value="mock" ) class TestLocalBuilds: def setup_method(self): clean_database() def teardown_method(self): clean_database() def test_load_local_builds_name(self, conf_system, conf_resultsdir): module_build_service.utils.load_local_builds("testmodule") local_modules = models.ModuleBuild.local_modules(db_session) assert len(local_modules) == 1 assert local_modules[0].koji_tag.endswith( "/module-testmodule-master-20170816080816/results") def test_load_local_builds_name_stream(self, conf_system, conf_resultsdir): module_build_service.utils.load_local_builds("testmodule:master") local_modules = models.ModuleBuild.local_modules(db_session) assert len(local_modules) == 1 assert local_modules[0].koji_tag.endswith( "/module-testmodule-master-20170816080816/results") def test_load_local_builds_name_stream_non_existing( self, conf_system, conf_resultsdir ): with pytest.raises(RuntimeError): module_build_service.utils.load_local_builds("testmodule:x") models.ModuleBuild.local_modules(db_session) def test_load_local_builds_name_stream_version(self, conf_system, conf_resultsdir): module_build_service.utils.load_local_builds("testmodule:master:20170816080815") local_modules = models.ModuleBuild.local_modules(db_session) assert len(local_modules) == 1 assert local_modules[0].koji_tag.endswith( "/module-testmodule-master-20170816080815/results") def test_load_local_builds_name_stream_version_non_existing( self, conf_system, conf_resultsdir ): with pytest.raises(RuntimeError): module_build_service.utils.load_local_builds("testmodule:master:123") models.ModuleBuild.local_modules(db_session) def test_load_local_builds_platform(self, conf_system, conf_resultsdir): module_build_service.utils.load_local_builds("platform") local_modules = models.ModuleBuild.local_modules(db_session) assert len(local_modules) == 1 assert local_modules[0].koji_tag.endswith("/module-platform-f28-3/results") def test_load_local_builds_platform_f28(self, conf_system, conf_resultsdir): module_build_service.utils.load_local_builds("platform:f28") local_modules = models.ModuleBuild.local_modules(db_session) assert len(local_modules) == 1 assert local_modules[0].koji_tag.endswith("/module-platform-f28-3/results") class TestOfflineLocalBuilds: def setup_method(self): clean_database() def teardown_method(self): clean_database() def test_import_fake_base_module(self): module_build_service.utils.import_fake_base_module("platform:foo:1:000000") module_build = models.ModuleBuild.get_build_from_nsvc( db_session, "platform", "foo", 1, "000000") assert module_build mmd = module_build.mmd() xmd = mmd.get_xmd() assert xmd == { "mbs": { "buildrequires": {}, "commit": "ref_000000", "koji_tag": "repofile://", "mse": "true", "requires": {}, } } assert set(mmd.get_profile_names()) == {"buildroot", "srpm-buildroot"} @patch("module_build_service.utils.general.open", create=True, new_callable=mock.mock_open) def test_import_builds_from_local_dnf_repos(self, patched_open): with patch("dnf.Base") as dnf_base: repo = mock.MagicMock() repo.repofile = "/etc/yum.repos.d/foo.repo" mmd = load_mmd(read_staged_data("formatted_testmodule")) repo.get_metadata_content.return_value = mmd_to_str(mmd) base = dnf_base.return_value base.repos = {"reponame": repo} patched_open.return_value.readlines.return_value = ("FOO=bar", "PLATFORM_ID=platform:x") module_build_service.utils.import_builds_from_local_dnf_repos() base.read_all_repos.assert_called_once() repo.load.assert_called_once() repo.get_metadata_content.assert_called_once_with("modules") module_build = models.ModuleBuild.get_build_from_nsvc( db_session, "testmodule", "master", 20180205135154, "9c690d0e") assert module_build assert module_build.koji_tag == "repofile:///etc/yum.repos.d/foo.repo" module_build = models.ModuleBuild.get_build_from_nsvc( db_session, "platform", "x", 1, "000000") assert module_build def test_import_builds_from_local_dnf_repos_platform_id(self): with patch("dnf.Base"): module_build_service.utils.import_builds_from_local_dnf_repos("platform:y") module_build = models.ModuleBuild.get_build_from_nsvc( db_session, "platform", "y", 1, "000000") assert module_build @pytest.mark.usefixtures("reuse_component_init_data") class TestUtilsModuleReuse: def test_get_reusable_module_when_reused_module_not_set(self): module = db_session.query(models.ModuleBuild)\ .filter_by(name="testmodule")\ .order_by(models.ModuleBuild.id.desc())\ .first() module.state = models.BUILD_STATES["build"] db_session.commit() assert not module.reused_module reusable_module = get_reusable_module(module) assert module.reused_module assert reusable_module.id == module.reused_module_id def test_get_reusable_module_when_reused_module_already_set(self): modules = db_session.query(models.ModuleBuild)\ .filter_by(name="testmodule")\ .order_by(models.ModuleBuild.id.desc())\ .limit(2).all() build_module = modules[0] reused_module = modules[1] build_module.state = models.BUILD_STATES["build"] build_module.reused_module_id = reused_module.id db_session.commit() assert build_module.reused_module assert reused_module == build_module.reused_module reusable_module = get_reusable_module(build_module) assert build_module.reused_module assert reusable_module.id == build_module.reused_module_id assert reusable_module.id == reused_module.id @pytest.mark.parametrize("allow_ocbm", (True, False)) @patch( "module_build_service.config.Config.allow_only_compatible_base_modules", new_callable=mock.PropertyMock, ) def test_get_reusable_module_use_latest_build(self, cfg, allow_ocbm): """ Test that the `get_reusable_module` tries to reuse the latest module in case when multiple modules can be reused allow_only_compatible_base_modules is True. """ cfg.return_value = allow_ocbm # Set "fedora" virtual stream to platform:f28. platform_f28 = db_session.query(models.ModuleBuild).filter_by(name="platform").one() mmd = platform_f28.mmd() xmd = mmd.get_xmd() xmd["mbs"]["virtual_streams"] = ["fedora"] mmd.set_xmd(xmd) platform_f28.modulemd = mmd_to_str(mmd) platform_f28.update_virtual_streams(db_session, ["fedora"]) # Create platform:f29 with "fedora" virtual stream. mmd = load_mmd(read_staged_data("platform")) mmd = mmd.copy("platform", "f29") xmd = mmd.get_xmd() xmd["mbs"]["virtual_streams"] = ["fedora"] mmd.set_xmd(xmd) platform_f29 = module_build_service.utils.import_mmd(db_session, mmd)[0] # Create another copy of `testmodule:master` which should be reused, because its # stream version will be higher than the previous one. Also set its buildrequires # to platform:f29. latest_module = db_session.query(models.ModuleBuild).filter_by( name="testmodule", state=models.BUILD_STATES["ready"]).one() # This is used to clone the ModuleBuild SQLAlchemy object without recreating it from # scratch. db_session.expunge(latest_module) make_transient(latest_module) # Change the platform:f28 buildrequirement to platform:f29 and recompute the build_context. mmd = latest_module.mmd() xmd = mmd.get_xmd() xmd["mbs"]["buildrequires"]["platform"]["stream"] = "f29" mmd.set_xmd(xmd) latest_module.modulemd = mmd_to_str(mmd) latest_module.build_context = module_build_service.models.ModuleBuild.contexts_from_mmd( latest_module.modulemd ).build_context latest_module.buildrequires = [platform_f29] # Set the `id` to None, so new one is generated by SQLAlchemy. latest_module.id = None db_session.add(latest_module) db_session.commit() module = db_session.query(models.ModuleBuild)\ .filter_by(name="testmodule")\ .filter_by(state=models.BUILD_STATES["build"])\ .one() db_session.commit() reusable_module = get_reusable_module(module) if allow_ocbm: assert reusable_module.id == latest_module.id else: first_module = db_session.query(models.ModuleBuild).filter_by( name="testmodule", state=models.BUILD_STATES["ready"]).first() assert reusable_module.id == first_module.id @pytest.mark.parametrize("allow_ocbm", (True, False)) @patch( "module_build_service.config.Config.allow_only_compatible_base_modules", new_callable=mock.PropertyMock, ) @patch("koji.ClientSession") @patch( "module_build_service.config.Config.resolver", new_callable=mock.PropertyMock, return_value="koji" ) def test_get_reusable_module_koji_resolver( self, resolver, ClientSession, cfg, allow_ocbm): """ Test that get_reusable_module works with KojiResolver. """ cfg.return_value = allow_ocbm # Mock the listTagged so the testmodule:master is listed as tagged in the # module-fedora-27-build Koji tag. koji_session = ClientSession.return_value koji_session.listTagged.return_value = [ { "build_id": 123, "name": "testmodule", "version": "master", "release": "20170109091357.78e4a6fd", "tag_name": "module-fedora-27-build" }] koji_session.multiCall.return_value = [ [build] for build in koji_session.listTagged.return_value] # Mark platform:f28 as KojiResolver ready by defining "koji_tag_with_modules". # Also define the "virtual_streams" to possibly confuse the get_reusable_module. platform_f28 = db_session.query(models.ModuleBuild).filter_by(name="platform").one() mmd = platform_f28.mmd() xmd = mmd.get_xmd() xmd["mbs"]["virtual_streams"] = ["fedora"] xmd["mbs"]["koji_tag_with_modules"] = "module-fedora-27-build" mmd.set_xmd(xmd) platform_f28.modulemd = mmd_to_str(mmd) platform_f28.update_virtual_streams(db_session, ["fedora"]) # Create platform:f27 without KojiResolver support. mmd = load_mmd(read_staged_data("platform")) mmd = mmd.copy("platform", "f27") xmd = mmd.get_xmd() xmd["mbs"]["virtual_streams"] = ["fedora"] mmd.set_xmd(xmd) platform_f27 = module_build_service.utils.import_mmd(db_session, mmd)[0] # Change the reusable testmodule:master to buildrequire platform:f27. latest_module = db_session.query(models.ModuleBuild).filter_by( name="testmodule", state=models.BUILD_STATES["ready"]).one() mmd = latest_module.mmd() xmd = mmd.get_xmd() xmd["mbs"]["buildrequires"]["platform"]["stream"] = "f27" mmd.set_xmd(xmd) latest_module.modulemd = mmd_to_str(mmd) latest_module.buildrequires = [platform_f27] # Recompute the build_context and ensure that `build_context` changed while # `build_context_no_bms` did not change. contexts = module_build_service.models.ModuleBuild.contexts_from_mmd( latest_module.modulemd) assert latest_module.build_context_no_bms == contexts.build_context_no_bms assert latest_module.build_context != contexts.build_context latest_module.build_context = contexts.build_context latest_module.build_context_no_bms = contexts.build_context_no_bms db_session.commit() # Get the module we want to build. module = db_session.query(models.ModuleBuild)\ .filter_by(name="testmodule")\ .filter_by(state=models.BUILD_STATES["build"])\ .one() reusable_module = get_reusable_module(module) assert reusable_module.id == latest_module.id