diff --git a/swh/storage/tests/storage_data.py b/swh/storage/tests/storage_data.py index e43bcd42..3b7a3a28 100644 --- a/swh/storage/tests/storage_data.py +++ b/swh/storage/tests/storage_data.py @@ -1,586 +1,578 @@ # Copyright (C) 2015-2020 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information import datetime import attr from swh.model.hashutil import hash_to_bytes, hash_to_hex from swh.model import from_disk from swh.model.identifiers import parse_swhid from swh.model.model import ( Content, Directory, DirectoryEntry, MetadataAuthority, MetadataAuthorityType, MetadataFetcher, MetadataTargetType, + Person, RawExtrinsicMetadata, + Revision, + RevisionType, SkippedContent, + Timestamp, + TimestampWithTimezone, ) class StorageData: def __getattr__(self, key): try: v = globals()[key] except KeyError as e: raise AttributeError(e.args[0]) if hasattr(v, "copy"): return v.copy() return v data = StorageData() content = Content( data=b"42\n", length=3, sha1=hash_to_bytes("34973274ccef6ab4dfaaf86599792fa9c3fe4689"), sha1_git=hash_to_bytes("d81cc0710eb6cf9efd5b920a8453e1e07157b6cd"), sha256=hash_to_bytes( "673650f936cb3b0a2f93ce09d81be10748b1b203c19e8176b4eefc1964a0cf3a" ), blake2s256=hash_to_bytes( "d5fe1939576527e42cfd76a9455a2432fe7f56669564577dd93c4280e76d661d" ), status="visible", ) content2 = Content( data=b"4242\n", length=5, sha1=hash_to_bytes("61c2b3a30496d329e21af70dd2d7e097046d07b7"), sha1_git=hash_to_bytes("36fade77193cb6d2bd826161a0979d64c28ab4fa"), sha256=hash_to_bytes( "859f0b154fdb2d630f45e1ecae4a862915435e663248bb8461d914696fc047cd" ), blake2s256=hash_to_bytes( "849c20fad132b7c2d62c15de310adfe87be94a379941bed295e8141c6219810d" ), status="visible", ) content3 = Content( data=b"424242\n", length=7, sha1=hash_to_bytes("3e21cc4942a4234c9e5edd8a9cacd1670fe59f13"), sha1_git=hash_to_bytes("c932c7649c6dfa4b82327d121215116909eb3bea"), sha256=hash_to_bytes( "92fb72daf8c6818288a35137b72155f507e5de8d892712ab96277aaed8cf8a36" ), blake2s256=hash_to_bytes( "76d0346f44e5a27f6bafdd9c2befd304aff83780f93121d801ab6a1d4769db11" ), status="visible", ctime=datetime.datetime(2019, 12, 1, tzinfo=datetime.timezone.utc), ) missing_content = Content( data=b"something missing", length=8, sha1=hash_to_bytes("f9c24e2abb82063a3ba2c44efd2d3c797f28ac90"), sha1_git=hash_to_bytes("33e45d56f88993aae6a0198013efa80716fd8919"), sha256=hash_to_bytes( "6bbd052ab054ef222c1c87be60cd191addedd24cc882d1f5f7f7be61dc61bb3a" ), blake2s256=hash_to_bytes( "306856b8fd879edb7b6f1aeaaf8db9bbecc993cd7f776c333ac3a782fa5c6eba" ), status="visible", ) skipped_content = SkippedContent( length=1024 * 1024 * 200, sha1_git=hash_to_bytes("33e45d56f88993aae6a0198013efa80716fd8920"), sha1=hash_to_bytes("43e45d56f88993aae6a0198013efa80716fd8920"), sha256=hash_to_bytes( "7bbd052ab054ef222c1c87be60cd191addedd24cc882d1f5f7f7be61dc61bb3a" ), blake2s256=hash_to_bytes( "ade18b1adecb33f891ca36664da676e12c772cc193778aac9a137b8dc5834b9b" ), reason="Content too long", status="absent", origin="file:///dev/zero", ) skipped_content2 = SkippedContent( length=1024 * 1024 * 300, sha1_git=hash_to_bytes("44e45d56f88993aae6a0198013efa80716fd8921"), sha1=hash_to_bytes("54e45d56f88993aae6a0198013efa80716fd8920"), sha256=hash_to_bytes( "8cbd052ab054ef222c1c87be60cd191addedd24cc882d1f5f7f7be61dc61bb3a" ), blake2s256=hash_to_bytes( "9ce18b1adecb33f891ca36664da676e12c772cc193778aac9a137b8dc5834b9b" ), reason="Content too long", status="absent", ) directory5 = Directory(entries=()) directory = Directory( id=hash_to_bytes("34f335a750111ca0a8b64d8034faec9eedc396be"), entries=tuple( [ DirectoryEntry( name=b"foo", type="file", target=content.sha1_git, perms=from_disk.DentryPerms.content, ), DirectoryEntry( name=b"bar\xc3", type="dir", target=directory5.id, perms=from_disk.DentryPerms.directory, ), ], ), ) directory2 = Directory( id=hash_to_bytes("8505808532953da7d2581741f01b29c04b1cb9ab"), entries=tuple( [ DirectoryEntry( name=b"oof", type="file", target=content2.sha1_git, perms=from_disk.DentryPerms.content, ) ], ), ) directory3 = Directory( id=hash_to_bytes("4ea8c6b2f54445e5dd1a9d5bb2afd875d66f3150"), entries=tuple( [ DirectoryEntry( name=b"foo", type="file", target=content.sha1_git, perms=from_disk.DentryPerms.content, ), DirectoryEntry( name=b"subdir", type="dir", target=directory.id, perms=from_disk.DentryPerms.directory, ), DirectoryEntry( name=b"hello", type="file", target=directory5.id, perms=from_disk.DentryPerms.content, ), ], ), ) directory4 = Directory( id=hash_to_bytes("377aa5fcd944fbabf502dbfda55cd14d33c8c3c6"), entries=tuple( [ DirectoryEntry( name=b"subdir1", type="dir", target=directory3.id, perms=from_disk.DentryPerms.directory, ) ], ), ) minus_offset = datetime.timezone(datetime.timedelta(minutes=-120)) plus_offset = datetime.timezone(datetime.timedelta(minutes=120)) -revision = { - "id": hash_to_bytes("066b1b62dbfa033362092af468bf6cfabec230e7"), - "message": b"hello", - "author": { - "name": b"Nicolas Dandrimont", - "email": b"nicolas@example.com", - "fullname": b"Nicolas Dandrimont ", - }, - "date": { - "timestamp": {"seconds": 1234567890, "microseconds": 0}, - "offset": 120, - "negative_utc": False, - }, - "committer": { - "name": b"St\xc3fano Zacchiroli", - "email": b"stefano@example.com", - "fullname": b"St\xc3fano Zacchiroli ", - }, - "committer_date": { - "timestamp": {"seconds": 1123456789, "microseconds": 0}, - "offset": 0, - "negative_utc": True, - }, - "parents": (b"01234567890123456789", b"23434512345123456789"), - "type": "git", - "directory": hash_to_bytes("34f335a750111ca0a8b64d8034faec9eedc396be"), # dir - "metadata": { +revision = Revision( + id=hash_to_bytes("066b1b62dbfa033362092af468bf6cfabec230e7"), + message=b"hello", + author=Person( + name=b"Nicolas Dandrimont", + email=b"nicolas@example.com", + fullname=b"Nicolas Dandrimont ", + ), + date=TimestampWithTimezone( + timestamp=Timestamp(seconds=1234567890, microseconds=0), + offset=120, + negative_utc=False, + ), + committer=Person( + name=b"St\xc3fano Zacchiroli", + email=b"stefano@example.com", + fullname=b"St\xc3fano Zacchiroli ", + ), + committer_date=TimestampWithTimezone( + timestamp=Timestamp(seconds=1123456789, microseconds=0), + offset=120, + negative_utc=False, + ), + parents=(), + type=RevisionType.GIT, + directory=directory.id, + metadata={ "checksums": {"sha1": "tarball-sha1", "sha256": "tarball-sha256",}, "signed-off-by": "some-dude", }, - "extra_headers": ( + extra_headers=( (b"gpgsig", b"test123"), (b"mergetag", b"foo\\bar"), (b"mergetag", b"\x22\xaf\x89\x80\x01\x00"), ), - "synthetic": True, -} - -revision2 = { - "id": hash_to_bytes("df7a6f6a99671fb7f7343641aff983a314ef6161"), - "message": b"hello again", - "author": { - "name": b"Roberto Dicosmo", - "email": b"roberto@example.com", - "fullname": b"Roberto Dicosmo ", - }, - "date": { - "timestamp": {"seconds": 1234567843, "microseconds": 220000,}, - "offset": -720, - "negative_utc": False, - }, - "committer": { - "name": b"tony", - "email": b"ar@dumont.fr", - "fullname": b"tony ", - }, - "committer_date": { - "timestamp": {"seconds": 1123456789, "microseconds": 0}, - "offset": 0, - "negative_utc": False, - }, - "parents": (b"01234567890123456789",), - "type": "git", - "directory": hash_to_bytes("8505808532953da7d2581741f01b29c04b1cb9ab"), # dir2 - "metadata": None, - "extra_headers": (), - "synthetic": False, -} - -revision3 = { - "id": hash_to_bytes("2cbd7bb22c653bbb23a29657852a50a01b591d46"), - "message": b"a simple revision with no parents this time", - "author": { - "name": b"Roberto Dicosmo", - "email": b"roberto@example.com", - "fullname": b"Roberto Dicosmo ", - }, - "date": { - "timestamp": {"seconds": 1234567843, "microseconds": 220000,}, - "offset": -720, - "negative_utc": False, - }, - "committer": { - "name": b"tony", - "email": b"ar@dumont.fr", - "fullname": b"tony ", - }, - "committer_date": { - "timestamp": {"seconds": 1127351742, "microseconds": 0}, - "offset": 0, - "negative_utc": False, - }, - "parents": (), - "type": "git", - "directory": hash_to_bytes("8505808532953da7d2581741f01b29c04b1cb9ab"), # dir2 - "metadata": None, - "extra_headers": (), - "synthetic": True, -} + synthetic=True, +) -revision4 = { - "id": hash_to_bytes("88cd5126fc958ed70089d5340441a1c2477bcc20"), - "message": b"parent of self.revision2", - "author": { - "name": b"me", - "email": b"me@soft.heri", - "fullname": b"me ", - }, - "date": { - "timestamp": {"seconds": 1244567843, "microseconds": 220000,}, - "offset": -720, - "negative_utc": False, - }, - "committer": { - "name": b"committer-dude", - "email": b"committer@dude.com", - "fullname": b"committer-dude ", - }, - "committer_date": { - "timestamp": {"seconds": 1244567843, "microseconds": 220000,}, - "offset": -720, - "negative_utc": False, - }, - "parents": ( - hash_to_bytes("2cbd7bb22c653bbb23a29657852a50a01b591d46"), - ), # revision3 - "type": "git", - "directory": hash_to_bytes("34f335a750111ca0a8b64d8034faec9eedc396be"), # dir - "metadata": None, - "extra_headers": (), - "synthetic": False, -} +revision2 = Revision( + id=hash_to_bytes("df7a6f6a99671fb7f7343641aff983a314ef6161"), + message=b"hello again", + author=Person( + name=b"Roberto Dicosmo", + email=b"roberto@example.com", + fullname=b"Roberto Dicosmo ", + ), + date=TimestampWithTimezone( + timestamp=Timestamp(seconds=1234567843, microseconds=220000,), + offset=-720, + negative_utc=False, + ), + committer=Person( + name=b"tony", email=b"ar@dumont.fr", fullname=b"tony ", + ), + committer_date=TimestampWithTimezone( + timestamp=Timestamp(seconds=1123456789, microseconds=220000,), + offset=0, + negative_utc=False, + ), + parents=tuple([revision.id]), + type=RevisionType.GIT, + directory=directory2.id, + metadata=None, + extra_headers=(), + synthetic=False, +) -revisions = (revision, revision2, revision3, revision4) +revision3 = Revision( + id=hash_to_bytes("2cbd7bb22c653bbb23a29657852a50a01b591d46"), + message=b"a simple revision with no parents this time", + author=Person( + name=b"Roberto Dicosmo", + email=b"roberto@example.com", + fullname=b"Roberto Dicosmo ", + ), + date=TimestampWithTimezone( + timestamp=Timestamp(seconds=1234567843, microseconds=220000,), + offset=-720, + negative_utc=False, + ), + committer=Person( + name=b"tony", email=b"ar@dumont.fr", fullname=b"tony ", + ), + committer_date=TimestampWithTimezone( + timestamp=Timestamp(seconds=1127351742, microseconds=220000,), + offset=0, + negative_utc=False, + ), + parents=tuple([revision.id, revision2.id]), + type=RevisionType.GIT, + directory=directory2.id, + metadata=None, + extra_headers=(), + synthetic=True, +) +revision4 = Revision( + id=hash_to_bytes("88cd5126fc958ed70089d5340441a1c2477bcc20"), + message=b"parent of self.revision2", + author=Person(name=b"me", email=b"me@soft.heri", fullname=b"me ",), + date=TimestampWithTimezone( + timestamp=Timestamp(seconds=1234567843, microseconds=220000,), + offset=-720, + negative_utc=False, + ), + committer=Person( + name=b"committer-dude", + email=b"committer@dude.com", + fullname=b"committer-dude ", + ), + committer_date=TimestampWithTimezone( + timestamp=Timestamp(seconds=1244567843, microseconds=220000,), + offset=-720, + negative_utc=False, + ), + parents=tuple([revision3.id]), + type=RevisionType.GIT, + directory=directory.id, + metadata=None, + extra_headers=(), + synthetic=False, +) origin = { "url": "file:///dev/null", } origin2 = { "url": "file:///dev/zero", } origins = (origin, origin2) metadata_authority = MetadataAuthority( type=MetadataAuthorityType.DEPOSIT_CLIENT, url="http://hal.inria.example.com/", metadata={"location": "France"}, ) metadata_authority2 = MetadataAuthority( type=MetadataAuthorityType.REGISTRY, url="http://wikidata.example.com/", metadata={}, ) metadata_fetcher = MetadataFetcher( name="swh-deposit", version="0.0.1", metadata={"sword_version": "2"}, ) metadata_fetcher2 = MetadataFetcher(name="swh-example", version="0.0.1", metadata={},) date_visit1 = datetime.datetime(2015, 1, 1, 23, 0, 0, tzinfo=datetime.timezone.utc) type_visit1 = "git" date_visit2 = datetime.datetime(2017, 1, 1, 23, 0, 0, tzinfo=datetime.timezone.utc) type_visit2 = "hg" date_visit3 = datetime.datetime(2018, 1, 1, 23, 0, 0, tzinfo=datetime.timezone.utc) type_visit3 = "deb" origin_visit = { "origin": origin["url"], "visit": 1, "date": date_visit1, "type": type_visit1, } origin_visit2 = { "origin": origin["url"], "visit": 2, "date": date_visit2, "type": type_visit1, } origin_visit3 = { "origin": origin2["url"], "visit": 1, "date": date_visit1, "type": type_visit2, } origin_visits = [origin_visit, origin_visit2, origin_visit3] release = { "id": hash_to_bytes("a673e617fcc6234e29b2cad06b8245f96c415c61"), "name": b"v0.0.1", "author": { "name": b"olasd", "email": b"nic@olasd.fr", "fullname": b"olasd ", }, "date": { "timestamp": {"seconds": 1234567890, "microseconds": 0}, "offset": 42, "negative_utc": False, }, "target": b"43210987654321098765", "target_type": "revision", "message": b"synthetic release", "synthetic": True, } release2 = { "id": hash_to_bytes("6902bd4c82b7d19a421d224aedab2b74197e420d"), "name": b"v0.0.2", "author": { "name": b"tony", "email": b"ar@dumont.fr", "fullname": b"tony ", }, "date": { "timestamp": {"seconds": 1634366813, "microseconds": 0}, "offset": -120, "negative_utc": False, }, "target": b"432109\xa9765432\xc309\x00765", "target_type": "revision", "message": b"v0.0.2\nMisc performance improvements + bug fixes", "synthetic": False, } release3 = { "id": hash_to_bytes("3e9050196aa288264f2a9d279d6abab8b158448b"), "name": b"v0.0.2", "author": { "name": b"tony", "email": b"tony@ardumont.fr", "fullname": b"tony ", }, "date": { "timestamp": {"seconds": 1634336813, "microseconds": 0}, "offset": 0, "negative_utc": False, }, "target": hash_to_bytes("df7a6f6a99671fb7f7343641aff983a314ef6161"), "target_type": "revision", "message": b"yet another synthetic release", "synthetic": True, } releases = (release, release2, release3) snapshot = { "id": hash_to_bytes("409ee1ff3f10d166714bc90581debfd0446dda57"), "branches": { b"master": { "target": hash_to_bytes("066b1b62dbfa033362092af468bf6cfabec230e7"), "target_type": "revision", }, }, } empty_snapshot = { "id": hash_to_bytes("1a8893e6a86f444e8be8e7bda6cb34fb1735a00e"), "branches": {}, } complete_snapshot = { "id": hash_to_bytes("a56ce2d81c190023bb99a3a36279307522cb85f6"), "branches": { b"directory": { "target": hash_to_bytes("1bd0e65f7d2ff14ae994de17a1e7fe65111dcad8"), "target_type": "directory", }, b"directory2": { "target": hash_to_bytes("1bd0e65f7d2ff14ae994de17a1e7fe65111dcad8"), "target_type": "directory", }, b"content": { "target": hash_to_bytes("fe95a46679d128ff167b7c55df5d02356c5a1ae1"), "target_type": "content", }, b"alias": {"target": b"revision", "target_type": "alias",}, b"revision": { "target": hash_to_bytes("aafb16d69fd30ff58afdd69036a26047f3aebdc6"), "target_type": "revision", }, b"release": { "target": hash_to_bytes("7045404f3d1c54e6473c71bbb716529fbad4be24"), "target_type": "release", }, b"snapshot": { "target": hash_to_bytes("1a8893e6a86f444e8be8e7bda6cb34fb1735a00e"), "target_type": "snapshot", }, b"dangling": None, }, } snapshots = (snapshot, empty_snapshot, complete_snapshot) content_metadata = RawExtrinsicMetadata( type=MetadataTargetType.CONTENT, id=parse_swhid(f"swh:1:cnt:{hash_to_hex(content.sha1_git)}"), origin=origin["url"], discovery_date=datetime.datetime( 2015, 1, 1, 21, 0, 0, tzinfo=datetime.timezone.utc ), authority=attr.evolve(metadata_authority, metadata=None), fetcher=attr.evolve(metadata_fetcher, metadata=None), format="json", metadata=b'{"foo": "bar"}', ) content_metadata2 = RawExtrinsicMetadata( type=MetadataTargetType.CONTENT, id=parse_swhid(f"swh:1:cnt:{hash_to_hex(content.sha1_git)}"), origin=origin2["url"], discovery_date=datetime.datetime( 2017, 1, 1, 22, 0, 0, tzinfo=datetime.timezone.utc ), authority=attr.evolve(metadata_authority, metadata=None), fetcher=attr.evolve(metadata_fetcher, metadata=None), format="yaml", metadata=b"foo: bar", ) content_metadata3 = RawExtrinsicMetadata( type=MetadataTargetType.CONTENT, id=parse_swhid(f"swh:1:cnt:{hash_to_hex(content.sha1_git)}"), discovery_date=datetime.datetime( 2017, 1, 1, 22, 0, 0, tzinfo=datetime.timezone.utc ), authority=attr.evolve(metadata_authority2, metadata=None), fetcher=attr.evolve(metadata_fetcher2, metadata=None), format="yaml", metadata=b"foo: bar", origin=origin["url"], visit=42, snapshot=parse_swhid(f"swh:1:snp:{hash_to_hex(snapshot['id'])}"), release=parse_swhid(f"swh:1:rel:{hash_to_hex(release['id'])}"), - revision=parse_swhid(f"swh:1:rev:{hash_to_hex(revision['id'])}"), + revision=parse_swhid(f"swh:1:rev:{hash_to_hex(revision.id)}"), directory=parse_swhid(f"swh:1:dir:{hash_to_hex(directory.id)}"), path=b"/foo/bar", ) origin_metadata = RawExtrinsicMetadata( type=MetadataTargetType.ORIGIN, id=origin["url"], discovery_date=datetime.datetime( 2015, 1, 1, 21, 0, 0, tzinfo=datetime.timezone.utc ), authority=attr.evolve(metadata_authority, metadata=None), fetcher=attr.evolve(metadata_fetcher, metadata=None), format="json", metadata=b'{"foo": "bar"}', ) origin_metadata2 = RawExtrinsicMetadata( type=MetadataTargetType.ORIGIN, id=origin["url"], discovery_date=datetime.datetime( 2017, 1, 1, 22, 0, 0, tzinfo=datetime.timezone.utc ), authority=attr.evolve(metadata_authority, metadata=None), fetcher=attr.evolve(metadata_fetcher, metadata=None), format="yaml", metadata=b"foo: bar", ) origin_metadata3 = RawExtrinsicMetadata( type=MetadataTargetType.ORIGIN, id=origin["url"], discovery_date=datetime.datetime( 2017, 1, 1, 22, 0, 0, tzinfo=datetime.timezone.utc ), authority=attr.evolve(metadata_authority2, metadata=None), fetcher=attr.evolve(metadata_fetcher2, metadata=None), format="yaml", metadata=b"foo: bar", ) diff --git a/swh/storage/tests/test_pytest_plugin.py b/swh/storage/tests/test_pytest_plugin.py index b8d9b757..36c3a11d 100644 --- a/swh/storage/tests/test_pytest_plugin.py +++ b/swh/storage/tests/test_pytest_plugin.py @@ -1,81 +1,82 @@ # Copyright (C) 2020 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information from swh.storage.pytest_plugin import OBJECT_FACTORY from swh.model.model import BaseModel from swh.storage.interface import StorageInterface def test_sample_data(sample_data, sample_data_model): assert set(sample_data.keys()) == set( [ "content", "skipped_content", "directory", "revision", "release", "snapshot", "origin", "origin_visit", "fetcher", "authority", "origin_metadata", "content_metadata", ] ) for object_type, objs in sample_data.items(): if object_type in [ "content", "skipped_content", "directory", + "revision", "fetcher", "authority", "origin_metadata", "content_metadata", ]: type_ = BaseModel else: type_ = dict for obj in objs: assert isinstance(obj, type_) def test_sample_data_model(sample_data, sample_data_model): assert set(sample_data_model.keys()) == set( [ "content", "skipped_content", "directory", "revision", "release", "snapshot", "origin", "origin_visit", "fetcher", "authority", "origin_metadata", "content_metadata", ] ) for object_type, objs in sample_data_model.items(): assert object_type in OBJECT_FACTORY for obj in objs: assert isinstance(obj, BaseModel) assert len(objs) == len(sample_data[object_type]) def test_swh_storage(swh_storage: StorageInterface): assert isinstance(swh_storage, StorageInterface) is not None def test_swh_storage_backend_config(swh_storage_backend_config): assert isinstance(swh_storage_backend_config, dict) diff --git a/swh/storage/tests/test_storage.py b/swh/storage/tests/test_storage.py index e3be7942..bc7fc2c2 100644 --- a/swh/storage/tests/test_storage.py +++ b/swh/storage/tests/test_storage.py @@ -1,4143 +1,4141 @@ # Copyright (C) 2015-2020 The Software Heritage developers # See the AUTHORS file at the top-level directory of this distribution # License: GNU General Public License version 3, or any later version # See top-level LICENSE file for more information import datetime import inspect import itertools import math import queue import random import threading from collections import defaultdict from contextlib import contextmanager from datetime import timedelta from unittest.mock import Mock import attr import pytest from hypothesis import given, strategies, settings, HealthCheck from typing import ClassVar, Optional from swh.model import from_disk from swh.model.hashutil import hash_to_bytes from swh.model.identifiers import SWHID from swh.model.model import ( Content, MetadataTargetType, Origin, OriginVisit, OriginVisitStatus, Person, Release, Revision, Snapshot, ) from swh.model.hypothesis_strategies import objects from swh.storage import get_storage from swh.storage.converters import origin_url_to_sha1 as sha1 from swh.storage.exc import HashCollision, StorageArgumentException from swh.storage.interface import StorageInterface from swh.storage.utils import content_hex_hashes, now from .storage_data import data @contextmanager def db_transaction(storage): with storage.db() as db: with db.transaction() as cur: yield db, cur def transform_entries(dir_, *, prefix=b""): for ent in dir_.entries: yield { "dir_id": dir_.id, "type": ent.type, "target": ent.target, "name": prefix + ent.name, "perms": ent.perms, "status": None, "sha1": None, "sha1_git": None, "sha256": None, "length": None, } def cmpdir(directory): return (directory["type"], directory["dir_id"]) def assert_contents_ok( expected_contents, actual_contents, keys_to_check={"sha1", "data"} ): """Assert that a given list of contents matches on a given set of keys. """ for k in keys_to_check: expected_list = set([c.get(k) for c in expected_contents]) actual_list = set([c.get(k) for c in actual_contents]) assert actual_list == expected_list, k def round_to_milliseconds(date): """Round datetime to milliseconds before insertion, so equality doesn't fail after a round-trip through a DB (eg. Cassandra) """ return date.replace(microsecond=(date.microsecond // 1000) * 1000) def test_round_to_milliseconds(): date = now() for (ms, expected_ms) in [(0, 0), (1000, 1000), (555555, 555000), (999500, 999000)]: date = date.replace(microsecond=ms) actual_date = round_to_milliseconds(date) assert actual_date.microsecond == expected_ms class LazyContent(Content): def with_data(self): raw_data = data.content.data return Content.from_dict({**self.to_dict(), "data": raw_data}) class TestStorage: """Main class for Storage testing. This class is used as-is to test local storage (see TestLocalStorage below) and remote storage (see TestRemoteStorage in test_remote_storage.py. We need to have the two classes inherit from this base class separately to avoid nosetests running the tests from the base class twice. """ maxDiff = None # type: ClassVar[Optional[int]] def test_types(self, swh_storage_backend_config): """Checks all methods of StorageInterface are implemented by this backend, and that they have the same signature.""" # Create an instance of the protocol (which cannot be instantiated # directly, so this creates a subclass, then instantiates it) interface = type("_", (StorageInterface,), {})() storage = get_storage(**swh_storage_backend_config) assert "content_add" in dir(interface) missing_methods = [] for meth_name in dir(interface): if meth_name.startswith("_"): continue interface_meth = getattr(interface, meth_name) try: concrete_meth = getattr(storage, meth_name) except AttributeError: if not getattr(interface_meth, "deprecated_endpoint", False): # The backend is missing a (non-deprecated) endpoint missing_methods.append(meth_name) continue expected_signature = inspect.signature(interface_meth) actual_signature = inspect.signature(concrete_meth) assert expected_signature == actual_signature, meth_name assert missing_methods == [] def test_check_config(self, swh_storage): assert swh_storage.check_config(check_write=True) assert swh_storage.check_config(check_write=False) def test_content_add(self, swh_storage, sample_data_model): cont = sample_data_model["content"][0] insertion_start_time = now() actual_result = swh_storage.content_add([cont]) insertion_end_time = now() assert actual_result == { "content:add": 1, "content:add:bytes": cont.length, } assert list(swh_storage.content_get([cont.sha1])) == [ {"sha1": cont.sha1, "data": cont.data} ] expected_cont = attr.evolve(cont, data=None) contents = [ obj for (obj_type, obj) in swh_storage.journal_writer.journal.objects if obj_type == "content" ] assert len(contents) == 1 for obj in contents: assert insertion_start_time <= obj.ctime assert obj.ctime <= insertion_end_time assert obj == expected_cont swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["content"] == 1 def test_content_add_from_generator(self, swh_storage, sample_data_model): cont = sample_data_model["content"][0] def _cnt_gen(): yield cont actual_result = swh_storage.content_add(_cnt_gen()) assert actual_result == { "content:add": 1, "content:add:bytes": cont.length, } swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["content"] == 1 def test_content_add_from_lazy_content(self, swh_storage, sample_data_model): cont = sample_data_model["content"][0] lazy_content = LazyContent.from_dict(cont.to_dict()) insertion_start_time = now() actual_result = swh_storage.content_add([lazy_content]) insertion_end_time = now() assert actual_result == { "content:add": 1, "content:add:bytes": cont.length, } # the fact that we retrieve the content object from the storage with # the correct 'data' field ensures it has been 'called' assert list(swh_storage.content_get([cont.sha1])) == [ {"sha1": cont.sha1, "data": cont.data} ] expected_cont = attr.evolve(lazy_content, data=None, ctime=None) contents = [ obj for (obj_type, obj) in swh_storage.journal_writer.journal.objects if obj_type == "content" ] assert len(contents) == 1 for obj in contents: assert insertion_start_time <= obj.ctime assert obj.ctime <= insertion_end_time assert attr.evolve(obj, ctime=None).to_dict() == expected_cont.to_dict() swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["content"] == 1 def test_content_get_missing(self, swh_storage, sample_data_model): cont, cont2 = sample_data_model["content"][:2] swh_storage.content_add([cont]) # Query a single missing content results = list(swh_storage.content_get([cont2.sha1])) assert results == [None] # Check content_get does not abort after finding a missing content results = list(swh_storage.content_get([cont.sha1, cont2.sha1])) assert results == [{"sha1": cont.sha1, "data": cont.data}, None] # Check content_get does not discard found countent when it finds # a missing content. results = list(swh_storage.content_get([cont2.sha1, cont.sha1])) assert results == [None, {"sha1": cont.sha1, "data": cont.data}] def test_content_add_different_input(self, swh_storage, sample_data_model): cont, cont2 = sample_data_model["content"][:2] actual_result = swh_storage.content_add([cont, cont2]) assert actual_result == { "content:add": 2, "content:add:bytes": cont.length + cont2.length, } def test_content_add_twice(self, swh_storage, sample_data_model): cont, cont2 = sample_data_model["content"][:2] actual_result = swh_storage.content_add([cont]) assert actual_result == { "content:add": 1, "content:add:bytes": cont.length, } assert len(swh_storage.journal_writer.journal.objects) == 1 actual_result = swh_storage.content_add([cont, cont2]) assert actual_result == { "content:add": 1, "content:add:bytes": cont2.length, } assert 2 <= len(swh_storage.journal_writer.journal.objects) <= 3 assert len(swh_storage.content_find(cont.to_dict())) == 1 assert len(swh_storage.content_find(cont2.to_dict())) == 1 def test_content_add_collision(self, swh_storage, sample_data_model): cont1 = sample_data_model["content"][0] # create (corrupted) content with same sha1{,_git} but != sha256 sha256_array = bytearray(cont1.sha256) sha256_array[0] += 1 cont1b = attr.evolve(cont1, sha256=bytes(sha256_array)) with pytest.raises(HashCollision) as cm: swh_storage.content_add([cont1, cont1b]) exc = cm.value actual_algo = exc.algo assert actual_algo in ["sha1", "sha1_git", "blake2s256"] actual_id = exc.hash_id assert actual_id == getattr(cont1, actual_algo).hex() collisions = exc.args[2] assert len(collisions) == 2 assert collisions == [ content_hex_hashes(cont1.hashes()), content_hex_hashes(cont1b.hashes()), ] assert exc.colliding_content_hashes() == [ cont1.hashes(), cont1b.hashes(), ] def test_content_add_duplicate(self, swh_storage, sample_data_model): cont = sample_data_model["content"][0] swh_storage.content_add([cont, cont]) assert list(swh_storage.content_get([cont.sha1])) == [ {"sha1": cont.sha1, "data": cont.data} ] def test_content_update(self, swh_storage, sample_data_model): cont1 = sample_data_model["content"][0] if hasattr(swh_storage, "journal_writer"): swh_storage.journal_writer.journal = None # TODO, not supported swh_storage.content_add([cont1]) # alter the sha1_git for example cont1b = attr.evolve( cont1, sha1_git=hash_to_bytes("3a60a5275d0333bf13468e8b3dcab90f4046e654") ) swh_storage.content_update([cont1b.to_dict()], keys=["sha1_git"]) results = swh_storage.content_get_metadata([cont1.sha1]) expected_content = attr.evolve(cont1b, data=None).to_dict() del expected_content["ctime"] assert tuple(results[cont1.sha1]) == (expected_content,) def test_content_add_metadata(self, swh_storage, sample_data_model): cont = attr.evolve(sample_data_model["content"][0], data=None, ctime=now()) actual_result = swh_storage.content_add_metadata([cont]) assert actual_result == { "content:add": 1, } expected_cont = cont.to_dict() del expected_cont["ctime"] assert tuple(swh_storage.content_get_metadata([cont.sha1])[cont.sha1]) == ( expected_cont, ) contents = [ obj for (obj_type, obj) in swh_storage.journal_writer.journal.objects if obj_type == "content" ] assert len(contents) == 1 for obj in contents: obj = attr.evolve(obj, ctime=None) assert obj == cont def test_content_add_metadata_different_input(self, swh_storage, sample_data_model): contents = sample_data_model["content"][:2] cont = attr.evolve(contents[0], data=None, ctime=now()) cont2 = attr.evolve(contents[1], data=None, ctime=now()) actual_result = swh_storage.content_add_metadata([cont, cont2]) assert actual_result == { "content:add": 2, } def test_content_add_metadata_collision(self, swh_storage, sample_data_model): cont1 = attr.evolve(sample_data_model["content"][0], data=None, ctime=now()) # create (corrupted) content with same sha1{,_git} but != sha256 sha1_git_array = bytearray(cont1.sha256) sha1_git_array[0] += 1 cont1b = attr.evolve(cont1, sha256=bytes(sha1_git_array)) with pytest.raises(HashCollision) as cm: swh_storage.content_add_metadata([cont1, cont1b]) exc = cm.value actual_algo = exc.algo assert actual_algo in ["sha1", "sha1_git", "blake2s256"] actual_id = exc.hash_id assert actual_id == getattr(cont1, actual_algo).hex() collisions = exc.args[2] assert len(collisions) == 2 assert collisions == [ content_hex_hashes(cont1.hashes()), content_hex_hashes(cont1b.hashes()), ] assert exc.colliding_content_hashes() == [ cont1.hashes(), cont1b.hashes(), ] def test_skipped_content_add(self, swh_storage, sample_data_model): contents = sample_data_model["skipped_content"][:2] cont = contents[0] cont2 = attr.evolve(contents[1], blake2s256=None) contents_dict = [c.to_dict() for c in [cont, cont2]] missing = list(swh_storage.skipped_content_missing(contents_dict)) assert missing == [cont.hashes(), cont2.hashes()] actual_result = swh_storage.skipped_content_add([cont, cont, cont2]) assert 2 <= actual_result.pop("skipped_content:add") <= 3 assert actual_result == {} missing = list(swh_storage.skipped_content_missing(contents_dict)) assert missing == [] def test_skipped_content_add_missing_hashes(self, swh_storage, sample_data_model): cont, cont2 = [ attr.evolve(c, sha1_git=None) for c in sample_data_model["skipped_content"][:2] ] contents_dict = [c.to_dict() for c in [cont, cont2]] missing = list(swh_storage.skipped_content_missing(contents_dict)) assert len(missing) == 2 actual_result = swh_storage.skipped_content_add([cont, cont, cont2]) assert 2 <= actual_result.pop("skipped_content:add") <= 3 assert actual_result == {} missing = list(swh_storage.skipped_content_missing(contents_dict)) assert missing == [] def test_skipped_content_missing_partial_hash(self, swh_storage, sample_data_model): cont = sample_data_model["skipped_content"][0] cont2 = attr.evolve(cont, sha1_git=None) contents_dict = [c.to_dict() for c in [cont, cont2]] missing = list(swh_storage.skipped_content_missing(contents_dict)) assert len(missing) == 2 actual_result = swh_storage.skipped_content_add([cont]) assert actual_result.pop("skipped_content:add") == 1 assert actual_result == {} missing = list(swh_storage.skipped_content_missing(contents_dict)) assert missing == [cont2.hashes()] @pytest.mark.property_based @settings(deadline=None) # this test is very slow @given( strategies.sets( elements=strategies.sampled_from(["sha256", "sha1_git", "blake2s256"]), min_size=0, ) ) def test_content_missing(self, swh_storage, algos): algos |= {"sha1"} content, missing_content = [data.content2, data.missing_content] swh_storage.content_add([content]) test_contents = [content.to_dict()] missing_per_hash = defaultdict(list) for i in range(256): test_content = missing_content.to_dict() for hash in algos: test_content[hash] = bytes([i]) + test_content[hash][1:] missing_per_hash[hash].append(test_content[hash]) test_contents.append(test_content) assert set(swh_storage.content_missing(test_contents)) == set( missing_per_hash["sha1"] ) for hash in algos: assert set( swh_storage.content_missing(test_contents, key_hash=hash) ) == set(missing_per_hash[hash]) @pytest.mark.property_based @given( strategies.sets( elements=strategies.sampled_from(["sha256", "sha1_git", "blake2s256"]), min_size=0, ) ) def test_content_missing_unknown_algo(self, swh_storage, algos): algos |= {"sha1"} content, missing_content = [data.content2, data.missing_content] swh_storage.content_add([content]) test_contents = [content.to_dict()] missing_per_hash = defaultdict(list) for i in range(16): test_content = missing_content.to_dict() for hash in algos: test_content[hash] = bytes([i]) + test_content[hash][1:] missing_per_hash[hash].append(test_content[hash]) test_content["nonexisting_algo"] = b"\x00" test_contents.append(test_content) assert set(swh_storage.content_missing(test_contents)) == set( missing_per_hash["sha1"] ) for hash in algos: assert set( swh_storage.content_missing(test_contents, key_hash=hash) ) == set(missing_per_hash[hash]) def test_content_missing_per_sha1(self, swh_storage, sample_data_model): # given cont = sample_data_model["content"][0] missing_cont = sample_data_model["skipped_content"][0] swh_storage.content_add([cont]) # when gen = swh_storage.content_missing_per_sha1([cont.sha1, missing_cont.sha1]) # then assert list(gen) == [missing_cont.sha1] def test_content_missing_per_sha1_git(self, swh_storage, sample_data_model): cont, cont2 = sample_data_model["content"][:2] missing_cont = sample_data_model["skipped_content"][0] swh_storage.content_add([cont, cont2]) contents = [cont.sha1_git, cont2.sha1_git, missing_cont.sha1_git] missing_contents = swh_storage.content_missing_per_sha1_git(contents) assert list(missing_contents) == [missing_cont.sha1_git] def test_content_get_partition(self, swh_storage, swh_contents): """content_get_partition paginates results if limit exceeded""" expected_contents = [c.to_dict() for c in swh_contents if c.status != "absent"] actual_contents = [] for i in range(16): actual_result = swh_storage.content_get_partition(i, 16) assert actual_result["next_page_token"] is None actual_contents.extend(actual_result["contents"]) assert_contents_ok(expected_contents, actual_contents, ["sha1"]) def test_content_get_partition_full(self, swh_storage, swh_contents): """content_get_partition for a single partition returns all available contents""" expected_contents = [c.to_dict() for c in swh_contents if c.status != "absent"] actual_result = swh_storage.content_get_partition(0, 1) assert actual_result["next_page_token"] is None actual_contents = actual_result["contents"] assert_contents_ok(expected_contents, actual_contents, ["sha1"]) def test_content_get_partition_empty(self, swh_storage, swh_contents): """content_get_partition when at least one of the partitions is empty""" expected_contents = { cont.sha1 for cont in swh_contents if cont.status != "absent" } # nb_partitions = smallest power of 2 such that at least one of # the partitions is empty nb_partitions = 1 << math.floor(math.log2(len(swh_contents)) + 1) seen_sha1s = [] for i in range(nb_partitions): actual_result = swh_storage.content_get_partition( i, nb_partitions, limit=len(swh_contents) + 1 ) for cont in actual_result["contents"]: seen_sha1s.append(cont["sha1"]) # Limit is higher than the max number of results assert actual_result["next_page_token"] is None assert set(seen_sha1s) == expected_contents def test_content_get_partition_limit_none(self, swh_storage): """content_get_partition call with wrong limit input should fail""" with pytest.raises(StorageArgumentException) as e: swh_storage.content_get_partition(1, 16, limit=None) assert e.value.args == ("limit should not be None",) def test_generate_content_get_partition_pagination(self, swh_storage, swh_contents): """content_get_partition returns contents within range provided""" expected_contents = [c.to_dict() for c in swh_contents if c.status != "absent"] # retrieve contents actual_contents = [] for i in range(4): page_token = None while True: actual_result = swh_storage.content_get_partition( i, 4, limit=3, page_token=page_token ) actual_contents.extend(actual_result["contents"]) page_token = actual_result["next_page_token"] if page_token is None: break assert_contents_ok(expected_contents, actual_contents, ["sha1"]) def test_content_get_metadata(self, swh_storage, sample_data_model): cont1, cont2 = sample_data_model["content"][:2] swh_storage.content_add([cont1, cont2]) actual_md = swh_storage.content_get_metadata([cont1.sha1, cont2.sha1]) # we only retrieve the metadata so no data nor ctime within expected_cont1, expected_cont2 = [ attr.evolve(c, data=None).to_dict() for c in [cont1, cont2] ] expected_cont1.pop("ctime") expected_cont2.pop("ctime") assert tuple(actual_md[cont1.sha1]) == (expected_cont1,) assert tuple(actual_md[cont2.sha1]) == (expected_cont2,) assert len(actual_md.keys()) == 2 def test_content_get_metadata_missing_sha1(self, swh_storage, sample_data_model): cont1, cont2 = sample_data_model["content"][:2] missing_cont = sample_data_model["skipped_content"][0] swh_storage.content_add([cont1, cont2]) actual_contents = swh_storage.content_get_metadata([missing_cont.sha1]) assert len(actual_contents) == 1 assert tuple(actual_contents[missing_cont.sha1]) == () def test_content_get_random(self, swh_storage, sample_data_model): cont, cont2, cont3 = sample_data_model["content"][:3] swh_storage.content_add([cont, cont2, cont3]) assert swh_storage.content_get_random() in { cont.sha1_git, cont2.sha1_git, cont3.sha1_git, } def test_directory_add(self, swh_storage, sample_data_model): directory = sample_data_model["directory"][1] init_missing = list(swh_storage.directory_missing([directory.id])) assert [directory.id] == init_missing actual_result = swh_storage.directory_add([directory]) assert actual_result == {"directory:add": 1} assert list(swh_storage.journal_writer.journal.objects) == [ ("directory", directory) ] actual_data = list(swh_storage.directory_ls(directory.id)) expected_data = list(transform_entries(directory)) assert sorted(expected_data, key=cmpdir) == sorted(actual_data, key=cmpdir) after_missing = list(swh_storage.directory_missing([directory.id])) assert after_missing == [] swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["directory"] == 1 def test_directory_add_from_generator(self, swh_storage, sample_data_model): directory = sample_data_model["directory"][1] def _dir_gen(): yield directory actual_result = swh_storage.directory_add(directories=_dir_gen()) assert actual_result == {"directory:add": 1} assert list(swh_storage.journal_writer.journal.objects) == [ ("directory", directory) ] swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["directory"] == 1 def test_directory_add_twice(self, swh_storage, sample_data_model): directory = sample_data_model["directory"][1] actual_result = swh_storage.directory_add([directory]) assert actual_result == {"directory:add": 1} assert list(swh_storage.journal_writer.journal.objects) == [ ("directory", directory) ] actual_result = swh_storage.directory_add([directory]) assert actual_result == {"directory:add": 0} assert list(swh_storage.journal_writer.journal.objects) == [ ("directory", directory) ] def test_directory_get_recursive(self, swh_storage, sample_data_model): dir1, dir2, dir3 = sample_data_model["directory"][:3] init_missing = list(swh_storage.directory_missing([dir1.id])) assert init_missing == [dir1.id] actual_result = swh_storage.directory_add([dir1, dir2, dir3]) assert actual_result == {"directory:add": 3} assert list(swh_storage.journal_writer.journal.objects) == [ ("directory", dir1), ("directory", dir2), ("directory", dir3), ] # List directory containing a file and an unknown subdirectory actual_data = list(swh_storage.directory_ls(dir1.id, recursive=True)) expected_data = list(transform_entries(dir1)) assert sorted(expected_data, key=cmpdir) == sorted(actual_data, key=cmpdir) # List directory containing a file and an unknown subdirectory actual_data = list(swh_storage.directory_ls(dir2.id, recursive=True)) expected_data = list(transform_entries(dir2)) assert sorted(expected_data, key=cmpdir) == sorted(actual_data, key=cmpdir) # List directory containing a known subdirectory, entries should # be both those of the directory and of the subdir actual_data = list(swh_storage.directory_ls(dir3.id, recursive=True)) expected_data = list( itertools.chain( transform_entries(dir3), transform_entries(dir2, prefix=b"subdir/"), ) ) assert sorted(expected_data, key=cmpdir) == sorted(actual_data, key=cmpdir) def test_directory_get_non_recursive(self, swh_storage, sample_data_model): dir1, dir2, dir3 = sample_data_model["directory"][:3] init_missing = list(swh_storage.directory_missing([dir1.id])) assert init_missing == [dir1.id] actual_result = swh_storage.directory_add([dir1, dir2, dir3]) assert actual_result == {"directory:add": 3} assert list(swh_storage.journal_writer.journal.objects) == [ ("directory", dir1), ("directory", dir2), ("directory", dir3), ] # List directory containing a file and an unknown subdirectory actual_data = list(swh_storage.directory_ls(dir1.id)) expected_data = list(transform_entries(dir1)) assert sorted(expected_data, key=cmpdir) == sorted(actual_data, key=cmpdir) # List directory contaiining a single file actual_data = list(swh_storage.directory_ls(dir2.id)) expected_data = list(transform_entries(dir2)) assert sorted(expected_data, key=cmpdir) == sorted(actual_data, key=cmpdir) # List directory containing a known subdirectory, entries should # only be those of the parent directory, not of the subdir actual_data = list(swh_storage.directory_ls(dir3.id)) expected_data = list(transform_entries(dir3)) assert sorted(expected_data, key=cmpdir) == sorted(actual_data, key=cmpdir) def test_directory_entry_get_by_path(self, swh_storage, sample_data_model): cont = sample_data_model["content"][0] dir1, dir2, dir3, dir4, dir5 = sample_data_model["directory"][:5] # given init_missing = list(swh_storage.directory_missing([dir3.id])) assert init_missing == [dir3.id] actual_result = swh_storage.directory_add([dir3, dir4]) assert actual_result == {"directory:add": 2} expected_entries = [ { "dir_id": dir3.id, "name": b"foo", "type": "file", "target": cont.sha1_git, "sha1": None, "sha1_git": None, "sha256": None, "status": None, "perms": from_disk.DentryPerms.content, "length": None, }, { "dir_id": dir3.id, "name": b"subdir", "type": "dir", "target": dir2.id, "sha1": None, "sha1_git": None, "sha256": None, "status": None, "perms": from_disk.DentryPerms.directory, "length": None, }, { "dir_id": dir3.id, "name": b"hello", "type": "file", "target": dir5.id, "sha1": None, "sha1_git": None, "sha256": None, "status": None, "perms": from_disk.DentryPerms.content, "length": None, }, ] # when (all must be found here) for entry, expected_entry in zip(dir3.entries, expected_entries): actual_entry = swh_storage.directory_entry_get_by_path( dir3.id, [entry.name] ) assert actual_entry == expected_entry # same, but deeper for entry, expected_entry in zip(dir3.entries, expected_entries): actual_entry = swh_storage.directory_entry_get_by_path( dir4.id, [b"subdir1", entry.name] ) expected_entry = expected_entry.copy() expected_entry["name"] = b"subdir1/" + expected_entry["name"] assert actual_entry == expected_entry # when (nothing should be found here since `dir` is not persisted.) for entry in dir2.entries: actual_entry = swh_storage.directory_entry_get_by_path( dir2.id, [entry.name] ) assert actual_entry is None def test_directory_get_random(self, swh_storage, sample_data_model): dir1, dir2, dir3 = sample_data_model["directory"][:3] swh_storage.directory_add([dir1, dir2, dir3]) assert swh_storage.directory_get_random() in { dir1.id, dir2.id, dir3.id, } def test_revision_add(self, swh_storage, sample_data_model): revision = sample_data_model["revision"][0] init_missing = swh_storage.revision_missing([revision.id]) assert list(init_missing) == [revision.id] actual_result = swh_storage.revision_add([revision]) assert actual_result == {"revision:add": 1} end_missing = swh_storage.revision_missing([revision.id]) assert list(end_missing) == [] assert list(swh_storage.journal_writer.journal.objects) == [ ("revision", revision) ] # already there so nothing added actual_result = swh_storage.revision_add([revision]) assert actual_result == {"revision:add": 0} swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["revision"] == 1 def test_revision_add_from_generator(self, swh_storage, sample_data_model): revision = sample_data_model["revision"][0] def _rev_gen(): yield revision actual_result = swh_storage.revision_add(_rev_gen()) assert actual_result == {"revision:add": 1} swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["revision"] == 1 def test_revision_add_twice(self, swh_storage, sample_data_model): revision, revision2 = sample_data_model["revision"][:2] actual_result = swh_storage.revision_add([revision]) assert actual_result == {"revision:add": 1} assert list(swh_storage.journal_writer.journal.objects) == [ ("revision", revision) ] actual_result = swh_storage.revision_add([revision, revision2]) assert actual_result == {"revision:add": 1} assert list(swh_storage.journal_writer.journal.objects) == [ ("revision", revision), ("revision", revision2), ] def test_revision_add_name_clash(self, swh_storage, sample_data_model): revision, revision2 = sample_data_model["revision"][:2] revision1 = attr.evolve( revision, author=Person( fullname=b"John Doe ", name=b"John Doe", email=b"john.doe@example.com", ), ) revision2 = attr.evolve( revision2, author=Person( fullname=b"John Doe ", name=b"John Doe ", email=b"john.doe@example.com ", ), ) actual_result = swh_storage.revision_add([revision1, revision2]) assert actual_result == {"revision:add": 2} def test_revision_get_order(self, swh_storage, sample_data_model): revision, revision2 = sample_data_model["revision"][:2] add_result = swh_storage.revision_add([revision, revision2]) assert add_result == {"revision:add": 2} # order 1 res1 = swh_storage.revision_get([revision.id, revision2.id]) assert [Revision.from_dict(r) for r in res1] == [revision, revision2] # order 2 res2 = swh_storage.revision_get([revision2.id, revision.id]) assert [Revision.from_dict(r) for r in res2] == [revision2, revision] def test_revision_log(self, swh_storage, sample_data_model): - revision3, revision4 = sample_data_model["revision"][2:4] + revision1, revision2, revision3, revision4 = sample_data_model["revision"][:4] - # data.revision4 -is-child-of-> data.revision3 - swh_storage.revision_add([revision3, revision4]) + # rev4 -is-child-of-> rev3 -> rev1, (rev2 -> rev1) + swh_storage.revision_add([revision1, revision2, revision3, revision4]) # when results = list(swh_storage.revision_log([revision4.id])) # for comparison purposes actual_results = [Revision.from_dict(r) for r in results] - assert len(actual_results) == 2 # rev4 -child-> rev3 - assert actual_results == [revision4, revision3] - - assert list(swh_storage.journal_writer.journal.objects) == [ - ("revision", revision3), - ("revision", revision4), - ] + assert len(actual_results) == 4 # rev4 -child-> rev3 -> rev1, (rev2 -> rev1) + assert actual_results == [revision4, revision3, revision1, revision2] def test_revision_log_with_limit(self, swh_storage, sample_data_model): - revision3, revision4 = sample_data_model["revision"][2:4] + revision1, revision2, revision3, revision4 = sample_data_model["revision"][:4] - # data.revision4 -is-child-of-> data.revision3 + # revision4 -is-child-of-> revision3 swh_storage.revision_add([revision3, revision4]) results = list(swh_storage.revision_log([revision4.id], 1)) actual_results = [Revision.from_dict(r) for r in results] assert len(actual_results) == 1 assert actual_results[0] == revision4 def test_revision_log_unknown_revision(self, swh_storage, sample_data_model): revision = sample_data_model["revision"][0] rev_log = list(swh_storage.revision_log([revision.id])) assert rev_log == [] def test_revision_shortlog(self, swh_storage, sample_data_model): - revision3, revision4 = sample_data_model["revision"][2:4] + revision1, revision2, revision3, revision4 = sample_data_model["revision"][:4] - # data.revision4 -is-child-of-> data.revision3 - swh_storage.revision_add([revision3, revision4]) + # rev4 -is-child-of-> rev3 -> (rev1, rev2); rev2 -> rev1 + swh_storage.revision_add([revision1, revision2, revision3, revision4]) - # when results = list(swh_storage.revision_shortlog([revision4.id])) - actual_results = [[id, tuple(parents)] for (id, parents) in results] - assert len(actual_results) == 2 # rev4 -child-> rev3 - assert list(actual_results[0]) == [revision4.id, revision4.parents] - assert list(actual_results[1]) == [revision3.id, revision3.parents] + assert len(actual_results) == 4 + assert actual_results == [ + [revision4.id, revision4.parents], + [revision3.id, revision3.parents], + [revision1.id, revision1.parents], + [revision2.id, revision2.parents], + ] def test_revision_shortlog_with_limit(self, swh_storage, sample_data_model): - revision3, revision4 = sample_data_model["revision"][2:4] + revision1, revision2, revision3, revision4 = sample_data_model["revision"][:4] - # data.revision4 -is-child-of-> data.revision3 - swh_storage.revision_add([revision3, revision4]) + # revision4 -is-child-of-> revision3 + swh_storage.revision_add([revision1, revision2, revision3, revision4]) results = list(swh_storage.revision_shortlog([revision4.id], 1)) actual_results = [[id, tuple(parents)] for (id, parents) in results] assert len(actual_results) == 1 assert list(actual_results[0]) == [revision4.id, revision4.parents] def test_revision_get(self, swh_storage, sample_data_model): revision, revision2 = sample_data_model["revision"][:2] swh_storage.revision_add([revision]) actual_revisions = list(swh_storage.revision_get([revision.id, revision2.id])) assert len(actual_revisions) == 2 assert Revision.from_dict(actual_revisions[0]) == revision assert actual_revisions[1] is None def test_revision_get_no_parents(self, swh_storage, sample_data_model): - revision = sample_data_model["revision"][2] + revision = sample_data_model["revision"][0] swh_storage.revision_add([revision]) get = list(swh_storage.revision_get([revision.id])) assert len(get) == 1 + assert revision.parents == () assert tuple(get[0]["parents"]) == () # no parents on this one def test_revision_get_random(self, swh_storage, sample_data_model): revision1, revision2, revision3 = sample_data_model["revision"][:3] swh_storage.revision_add([revision1, revision2, revision3]) assert swh_storage.revision_get_random() in { revision1.id, revision2.id, revision3.id, } def test_release_add(self, swh_storage, sample_data_model): release, release2 = sample_data_model["release"][:2] init_missing = swh_storage.release_missing([release.id, release2.id]) assert list(init_missing) == [release.id, release2.id] actual_result = swh_storage.release_add([release, release2]) assert actual_result == {"release:add": 2} end_missing = swh_storage.release_missing([release.id, release2.id]) assert list(end_missing) == [] assert list(swh_storage.journal_writer.journal.objects) == [ ("release", release), ("release", release2), ] # already present so nothing added actual_result = swh_storage.release_add([release, release2]) assert actual_result == {"release:add": 0} swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["release"] == 2 def test_release_add_from_generator(self, swh_storage, sample_data_model): release, release2 = sample_data_model["release"][:2] def _rel_gen(): yield release yield release2 actual_result = swh_storage.release_add(_rel_gen()) assert actual_result == {"release:add": 2} assert list(swh_storage.journal_writer.journal.objects) == [ ("release", release), ("release", release2), ] swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["release"] == 2 def test_release_add_no_author_date(self, swh_storage, sample_data_model): full_release = sample_data_model["release"][0] release = attr.evolve(full_release, author=None, date=None) actual_result = swh_storage.release_add([release]) assert actual_result == {"release:add": 1} end_missing = swh_storage.release_missing([release.id]) assert list(end_missing) == [] assert list(swh_storage.journal_writer.journal.objects) == [ ("release", release) ] def test_release_add_twice(self, swh_storage, sample_data_model): release, release2 = sample_data_model["release"][:2] actual_result = swh_storage.release_add([release]) assert actual_result == {"release:add": 1} assert list(swh_storage.journal_writer.journal.objects) == [ ("release", release) ] actual_result = swh_storage.release_add([release, release2, release, release2]) assert actual_result == {"release:add": 1} assert set(swh_storage.journal_writer.journal.objects) == set( [("release", release), ("release", release2),] ) def test_release_add_name_clash(self, swh_storage, sample_data_model): release, release2 = [ attr.evolve( c, author=Person( fullname=b"John Doe ", name=b"John Doe", email=b"john.doe@example.com", ), ) for c in sample_data_model["release"][:2] ] actual_result = swh_storage.release_add([release, release2]) assert actual_result == {"release:add": 2} def test_release_get(self, swh_storage, sample_data_model): release, release2, release3 = sample_data_model["release"][:3] # given swh_storage.release_add([release, release2]) # when releases = list(swh_storage.release_get([release.id, release2.id])) actual_releases = [Release.from_dict(r) for r in releases] # then assert actual_releases == [release, release2] unknown_releases = list(swh_storage.release_get([release3.id])) assert unknown_releases[0] is None def test_release_get_order(self, swh_storage, sample_data_model): release, release2 = sample_data_model["release"][:2] add_result = swh_storage.release_add([release, release2]) assert add_result == {"release:add": 2} # order 1 res1 = swh_storage.release_get([release.id, release2.id]) assert list(res1) == [release.to_dict(), release2.to_dict()] # order 2 res2 = swh_storage.release_get([release2.id, release.id]) assert list(res2) == [release2.to_dict(), release.to_dict()] def test_release_get_random(self, swh_storage, sample_data_model): release, release2, release3 = sample_data_model["release"][:3] swh_storage.release_add([release, release2, release3]) assert swh_storage.release_get_random() in { release.id, release2.id, release3.id, } def test_origin_add(self, swh_storage, sample_data_model): origin, origin2 = sample_data_model["origin"][:2] origin_dict, origin2_dict = [o.to_dict() for o in [origin, origin2]] assert swh_storage.origin_get([origin_dict])[0] is None stats = swh_storage.origin_add([origin, origin2]) assert stats == {"origin:add": 2} actual_origin = swh_storage.origin_get([origin_dict])[0] assert actual_origin["url"] == origin.url actual_origin2 = swh_storage.origin_get([origin2_dict])[0] assert actual_origin2["url"] == origin2.url assert set(swh_storage.journal_writer.journal.objects) == set( [("origin", origin), ("origin", origin2),] ) swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["origin"] == 2 def test_origin_add_from_generator(self, swh_storage, sample_data_model): origin, origin2 = sample_data_model["origin"][:2] origin_dict, origin2_dict = [o.to_dict() for o in [origin, origin2]] def _ori_gen(): yield origin yield origin2 stats = swh_storage.origin_add(_ori_gen()) assert stats == {"origin:add": 2} actual_origin = swh_storage.origin_get([origin_dict])[0] assert actual_origin["url"] == origin.url actual_origin2 = swh_storage.origin_get([origin2_dict])[0] assert actual_origin2["url"] == origin2.url assert set(swh_storage.journal_writer.journal.objects) == set( [("origin", origin), ("origin", origin2),] ) swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["origin"] == 2 def test_origin_add_twice(self, swh_storage, sample_data_model): origin, origin2 = sample_data_model["origin"][:2] origin_dict, origin2_dict = [o.to_dict() for o in [origin, origin2]] add1 = swh_storage.origin_add([origin, origin2]) assert set(swh_storage.journal_writer.journal.objects) == set( [("origin", origin), ("origin", origin2),] ) assert add1 == {"origin:add": 2} add2 = swh_storage.origin_add([origin, origin2]) assert set(swh_storage.journal_writer.journal.objects) == set( [("origin", origin), ("origin", origin2),] ) assert add2 == {"origin:add": 0} def test_origin_get_legacy(self, swh_storage, sample_data_model): origin, origin2 = sample_data_model["origin"][:2] origin_dict, origin2_dict = [o.to_dict() for o in [origin, origin2]] assert swh_storage.origin_get(origin_dict) is None swh_storage.origin_add([origin]) actual_origin0 = swh_storage.origin_get(origin_dict) assert actual_origin0["url"] == origin.url def test_origin_get(self, swh_storage, sample_data_model): origin, origin2 = sample_data_model["origin"][:2] origin_dict, origin2_dict = [o.to_dict() for o in [origin, origin2]] assert swh_storage.origin_get(origin_dict) is None assert swh_storage.origin_get([origin_dict]) == [None] swh_storage.origin_add([origin]) actual_origins = swh_storage.origin_get([origin_dict]) assert len(actual_origins) == 1 actual_origin0 = swh_storage.origin_get(origin_dict) assert actual_origin0 == actual_origins[0] assert actual_origin0["url"] == origin.url actual_origins = swh_storage.origin_get([origin_dict, {"url": "not://exists"}]) assert actual_origins == [origin_dict, None] def _generate_random_visits(self, nb_visits=100, start=0, end=7): """Generate random visits within the last 2 months (to avoid computations) """ visits = [] today = now() for weeks in range(nb_visits, 0, -1): hours = random.randint(0, 24) minutes = random.randint(0, 60) seconds = random.randint(0, 60) days = random.randint(0, 28) weeks = random.randint(start, end) date_visit = today - timedelta( weeks=weeks, hours=hours, minutes=minutes, seconds=seconds, days=days ) visits.append(date_visit) return visits def test_origin_visit_get_all(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] swh_storage.origin_add([origin]) visits = swh_storage.origin_visit_add( [ OriginVisit( origin=origin.url, date=data.date_visit1, type=data.type_visit1, ), OriginVisit( origin=origin.url, date=data.date_visit2, type=data.type_visit2, ), OriginVisit( origin=origin.url, date=data.date_visit2, type=data.type_visit2, ), ] ) ov1, ov2, ov3 = [ {**v.to_dict(), "status": "created", "snapshot": None, "metadata": None,} for v in visits ] # order asc, no pagination, no limit all_visits = list(swh_storage.origin_visit_get(origin.url)) assert all_visits == [ov1, ov2, ov3] # order asc, no pagination, limit all_visits2 = list(swh_storage.origin_visit_get(origin.url, limit=2)) assert all_visits2 == [ov1, ov2] # order asc, pagination, no limit all_visits3 = list( swh_storage.origin_visit_get(origin.url, last_visit=ov1["visit"]) ) assert all_visits3 == [ov2, ov3] # order asc, pagination, limit all_visits4 = list( swh_storage.origin_visit_get(origin.url, last_visit=ov2["visit"], limit=1) ) assert all_visits4 == [ov3] # order desc, no pagination, no limit all_visits5 = list(swh_storage.origin_visit_get(origin.url, order="desc")) assert all_visits5 == [ov3, ov2, ov1] # order desc, no pagination, limit all_visits6 = list( swh_storage.origin_visit_get(origin.url, limit=2, order="desc") ) assert all_visits6 == [ov3, ov2] # order desc, pagination, no limit all_visits7 = list( swh_storage.origin_visit_get( origin.url, last_visit=ov3["visit"], order="desc" ) ) assert all_visits7 == [ov2, ov1] # order desc, pagination, limit all_visits8 = list( swh_storage.origin_visit_get( origin.url, last_visit=ov3["visit"], order="desc", limit=1 ) ) assert all_visits8 == [ov2] def test_origin_visit_get__unknown_origin(self, swh_storage): assert [] == list(swh_storage.origin_visit_get("foo")) def test_origin_visit_get_random(self, swh_storage, sample_data_model): origins = sample_data_model["origin"][:2] swh_storage.origin_add(origins) # Add some random visits within the selection range visits = self._generate_random_visits() visit_type = "git" # Add visits to those origins for origin in origins: for date_visit in visits: visit = swh_storage.origin_visit_add( [OriginVisit(origin=origin.url, date=date_visit, type=visit_type,)] )[0] swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=visit.visit, date=now(), status="full", snapshot=None, ) ] ) swh_storage.refresh_stat_counters() stats = swh_storage.stat_counters() assert stats["origin"] == len(origins) assert stats["origin_visit"] == len(origins) * len(visits) random_origin_visit = swh_storage.origin_visit_get_random(visit_type) assert random_origin_visit assert random_origin_visit["origin"] is not None assert random_origin_visit["origin"] in [o.url for o in origins] def test_origin_visit_get_random_nothing_found( self, swh_storage, sample_data_model ): origins = sample_data_model["origin"] swh_storage.origin_add(origins) visit_type = "hg" # Add some visits outside of the random generation selection so nothing # will be found by the random selection visits = self._generate_random_visits(nb_visits=3, start=13, end=24) for origin in origins: for date_visit in visits: visit = swh_storage.origin_visit_add( [OriginVisit(origin=origin.url, date=date_visit, type=visit_type,)] )[0] swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=visit.visit, date=now(), status="full", snapshot=None, ) ] ) random_origin_visit = swh_storage.origin_visit_get_random(visit_type) assert random_origin_visit is None def test_origin_get_by_sha1(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] assert swh_storage.origin_get(origin.to_dict()) is None swh_storage.origin_add([origin]) origins = list(swh_storage.origin_get_by_sha1([sha1(origin.url)])) assert len(origins) == 1 assert origins[0]["url"] == origin.url def test_origin_get_by_sha1_not_found(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] assert swh_storage.origin_get(origin.to_dict()) is None origins = list(swh_storage.origin_get_by_sha1([sha1(origin.url)])) assert len(origins) == 1 assert origins[0] is None def test_origin_search_single_result(self, swh_storage, sample_data_model): origin, origin2 = sample_data_model["origin"][:2] found_origins = list(swh_storage.origin_search(origin.url)) assert len(found_origins) == 0 found_origins = list(swh_storage.origin_search(origin.url, regexp=True)) assert len(found_origins) == 0 swh_storage.origin_add([origin]) origin_data = origin.to_dict() found_origins = list(swh_storage.origin_search(origin.url)) assert len(found_origins) == 1 assert found_origins[0] == origin_data found_origins = list( swh_storage.origin_search(f".{origin.url[1:-1]}.", regexp=True) ) assert len(found_origins) == 1 assert found_origins[0] == origin_data swh_storage.origin_add([origin2]) origin2_data = origin2.to_dict() found_origins = list(swh_storage.origin_search(origin2.url)) assert len(found_origins) == 1 assert found_origins[0] == origin2_data found_origins = list( swh_storage.origin_search(f".{origin2.url[1:-1]}.", regexp=True) ) assert len(found_origins) == 1 assert found_origins[0] == origin2_data def test_origin_search_no_regexp(self, swh_storage, sample_data_model): origin, origin2 = sample_data_model["origin"][:2] origin_dicts = [o.to_dict() for o in [origin, origin2]] swh_storage.origin_add([origin, origin2]) # no pagination found_origins = list(swh_storage.origin_search("/")) assert len(found_origins) == 2 # offset=0 found_origins0 = list(swh_storage.origin_search("/", offset=0, limit=1)) assert len(found_origins0) == 1 assert found_origins0[0] in origin_dicts # offset=1 found_origins1 = list(swh_storage.origin_search("/", offset=1, limit=1)) assert len(found_origins1) == 1 assert found_origins1[0] in origin_dicts # check both origins were returned assert found_origins0 != found_origins1 def test_origin_search_regexp_substring(self, swh_storage, sample_data_model): origin, origin2 = sample_data_model["origin"][:2] origin_dicts = [o.to_dict() for o in [origin, origin2]] swh_storage.origin_add([origin, origin2]) # no pagination found_origins = list(swh_storage.origin_search("/", regexp=True)) assert len(found_origins) == 2 # offset=0 found_origins0 = list( swh_storage.origin_search("/", offset=0, limit=1, regexp=True) ) assert len(found_origins0) == 1 assert found_origins0[0] in origin_dicts # offset=1 found_origins1 = list( swh_storage.origin_search("/", offset=1, limit=1, regexp=True) ) assert len(found_origins1) == 1 assert found_origins1[0] in origin_dicts # check both origins were returned assert found_origins0 != found_origins1 def test_origin_search_regexp_fullstring(self, swh_storage, sample_data_model): origin, origin2 = sample_data_model["origin"][:2] origin_dicts = [o.to_dict() for o in [origin, origin2]] swh_storage.origin_add([origin, origin2]) # no pagination found_origins = list(swh_storage.origin_search(".*/.*", regexp=True)) assert len(found_origins) == 2 # offset=0 found_origins0 = list( swh_storage.origin_search(".*/.*", offset=0, limit=1, regexp=True) ) assert len(found_origins0) == 1 assert found_origins0[0] in origin_dicts # offset=1 found_origins1 = list( swh_storage.origin_search(".*/.*", offset=1, limit=1, regexp=True) ) assert len(found_origins1) == 1 assert found_origins1[0] in origin_dicts # check both origins were returned assert found_origins0 != found_origins1 def test_origin_visit_add(self, swh_storage, sample_data_model): origin1 = sample_data_model["origin"][1] swh_storage.origin_add([origin1]) date_visit = now() date_visit2 = date_visit + datetime.timedelta(minutes=1) date_visit = round_to_milliseconds(date_visit) date_visit2 = round_to_milliseconds(date_visit2) visit1 = OriginVisit( origin=origin1.url, date=date_visit, type=data.type_visit1, ) visit2 = OriginVisit( origin=origin1.url, date=date_visit2, type=data.type_visit2, ) # add once ov1, ov2 = swh_storage.origin_visit_add([visit1, visit2]) # then again (will be ignored as they already exist) origin_visit1, origin_visit2 = swh_storage.origin_visit_add([ov1, ov2]) assert ov1 == origin_visit1 assert ov2 == origin_visit2 ovs1 = OriginVisitStatus( origin=origin1.url, visit=ov1.visit, date=date_visit, status="created", snapshot=None, ) ovs2 = OriginVisitStatus( origin=origin1.url, visit=ov2.visit, date=date_visit2, status="created", snapshot=None, ) actual_origin_visits = list(swh_storage.origin_visit_get(origin1.url)) expected_visits = [ {**ovs1.to_dict(), "type": ov1.type}, {**ovs2.to_dict(), "type": ov2.type}, ] assert len(expected_visits) == len(actual_origin_visits) for visit in expected_visits: assert visit in actual_origin_visits actual_objects = list(swh_storage.journal_writer.journal.objects) expected_objects = list( [("origin", origin1)] + [("origin_visit", visit) for visit in [ov1, ov2]] * 2 + [("origin_visit_status", ovs) for ovs in [ovs1, ovs2]] ) for obj in expected_objects: assert obj in actual_objects def test_origin_visit_add_validation(self, swh_storage): """Unknown origin when adding visits should raise""" visit = OriginVisit( origin="something-unknown", date=now(), type=data.type_visit1, ) with pytest.raises(StorageArgumentException, match="Unknown origin"): swh_storage.origin_visit_add([visit]) objects = list(swh_storage.journal_writer.journal.objects) assert not objects def test_origin_visit_status_add_validation(self, swh_storage): """Wrong origin_visit_status input should raise storage argument error""" date_visit = now() visit_status1 = OriginVisitStatus( origin="unknown-origin-url", visit=10, date=date_visit, status="full", snapshot=None, ) with pytest.raises(StorageArgumentException, match="Unknown origin"): swh_storage.origin_visit_status_add([visit_status1]) objects = list(swh_storage.journal_writer.journal.objects) assert not objects def test_origin_visit_status_add(self, swh_storage, sample_data_model): """Correct origin visit statuses should add a new visit status """ snapshot = sample_data_model["snapshot"][0] origin1 = sample_data_model["origin"][1] origin2 = Origin(url="new-origin") swh_storage.origin_add([origin1, origin2]) ov1, ov2 = swh_storage.origin_visit_add( [ OriginVisit( origin=origin1.url, date=data.date_visit1, type=data.type_visit1, ), OriginVisit( origin=origin2.url, date=data.date_visit2, type=data.type_visit2, ), ] ) ovs1 = OriginVisitStatus( origin=origin1.url, visit=ov1.visit, date=data.date_visit1, status="created", snapshot=None, ) ovs2 = OriginVisitStatus( origin=origin2.url, visit=ov2.visit, date=data.date_visit2, status="created", snapshot=None, ) date_visit_now = now() visit_status1 = OriginVisitStatus( origin=ov1.origin, visit=ov1.visit, date=date_visit_now, status="full", snapshot=snapshot.id, ) date_visit_now = now() visit_status2 = OriginVisitStatus( origin=ov2.origin, visit=ov2.visit, date=date_visit_now, status="ongoing", snapshot=None, metadata={"intrinsic": "something"}, ) swh_storage.origin_visit_status_add([visit_status1, visit_status2]) origin_visit1 = swh_storage.origin_visit_get_latest( origin1.url, require_snapshot=True ) assert origin_visit1 assert origin_visit1["status"] == "full" assert origin_visit1["snapshot"] == snapshot.id origin_visit2 = swh_storage.origin_visit_get_latest( origin2.url, require_snapshot=False ) assert origin2.url != origin1.url assert origin_visit2 assert origin_visit2["status"] == "ongoing" assert origin_visit2["snapshot"] is None assert origin_visit2["metadata"] == {"intrinsic": "something"} actual_objects = list(swh_storage.journal_writer.journal.objects) expected_origins = [origin1, origin2] expected_visits = [ov1, ov2] expected_visit_statuses = [ovs1, ovs2, visit_status1, visit_status2] expected_objects = ( [("origin", o) for o in expected_origins] + [("origin_visit", v) for v in expected_visits] + [("origin_visit_status", ovs) for ovs in expected_visit_statuses] ) for obj in expected_objects: assert obj in actual_objects def test_origin_visit_status_add_twice(self, swh_storage, sample_data_model): """Correct origin visit statuses should add a new visit status """ snapshot = sample_data_model["snapshot"][0] origin1 = sample_data_model["origin"][1] swh_storage.origin_add([origin1]) ov1 = swh_storage.origin_visit_add( [ OriginVisit( origin=origin1.url, date=data.date_visit1, type=data.type_visit1, ), ] )[0] ovs1 = OriginVisitStatus( origin=origin1.url, visit=ov1.visit, date=data.date_visit1, status="created", snapshot=None, ) date_visit_now = now() visit_status1 = OriginVisitStatus( origin=ov1.origin, visit=ov1.visit, date=date_visit_now, status="full", snapshot=snapshot.id, ) swh_storage.origin_visit_status_add([visit_status1]) # second call will ignore existing entries (will send to storage though) swh_storage.origin_visit_status_add([visit_status1]) origin_visits = list(swh_storage.origin_visit_get(ov1.origin)) assert len(origin_visits) == 1 origin_visit1 = origin_visits[0] assert origin_visit1 assert origin_visit1["status"] == "full" assert origin_visit1["snapshot"] == snapshot.id actual_objects = list(swh_storage.journal_writer.journal.objects) expected_origins = [origin1] expected_visits = [ov1] expected_visit_statuses = [ovs1, visit_status1, visit_status1] # write twice in the journal expected_objects = ( [("origin", o) for o in expected_origins] + [("origin_visit", v) for v in expected_visits] + [("origin_visit_status", ovs) for ovs in expected_visit_statuses] ) for obj in expected_objects: assert obj in actual_objects def test_origin_visit_find_by_date(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] swh_storage.origin_add([origin]) visit1 = OriginVisit( origin=origin.url, date=data.date_visit2, type=data.type_visit1, ) visit2 = OriginVisit( origin=origin.url, date=data.date_visit3, type=data.type_visit2, ) visit3 = OriginVisit( origin=origin.url, date=data.date_visit2, type=data.type_visit3, ) ov1, ov2, ov3 = swh_storage.origin_visit_add([visit1, visit2, visit3]) ovs1 = OriginVisitStatus( origin=origin.url, visit=ov1.visit, date=data.date_visit2, status="ongoing", snapshot=None, ) ovs2 = OriginVisitStatus( origin=origin.url, visit=ov2.visit, date=data.date_visit3, status="ongoing", snapshot=None, ) ovs3 = OriginVisitStatus( origin=origin.url, visit=ov3.visit, date=data.date_visit2, status="ongoing", snapshot=None, ) swh_storage.origin_visit_status_add([ovs1, ovs2, ovs3]) # Simple case visit = swh_storage.origin_visit_find_by_date(origin.url, data.date_visit3) assert visit["visit"] == ov2.visit # There are two visits at the same date, the latest must be returned visit = swh_storage.origin_visit_find_by_date(origin.url, data.date_visit2) assert visit["visit"] == ov3.visit def test_origin_visit_find_by_date__unknown_origin(self, swh_storage): swh_storage.origin_visit_find_by_date("foo", data.date_visit2) def test_origin_visit_get_by(self, swh_storage, sample_data_model): snapshot = sample_data_model["snapshot"][0] origins = sample_data_model["origin"][:2] swh_storage.origin_add(origins) origin_url, origin_url2 = [o.url for o in origins] visit = OriginVisit( origin=origin_url, date=data.date_visit2, type=data.type_visit2, ) origin_visit1 = swh_storage.origin_visit_add([visit])[0] swh_storage.snapshot_add([snapshot]) swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin_url, visit=origin_visit1.visit, date=now(), status="ongoing", snapshot=snapshot.id, ) ] ) # Add some other {origin, visit} entries visit2 = OriginVisit( origin=origin_url, date=data.date_visit3, type=data.type_visit3, ) visit3 = OriginVisit( origin=origin_url2, date=data.date_visit3, type=data.type_visit3, ) swh_storage.origin_visit_add([visit2, visit3]) # when visit1_metadata = { "contents": 42, "directories": 22, } swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin_url, visit=origin_visit1.visit, date=now(), status="full", snapshot=snapshot.id, metadata=visit1_metadata, ) ] ) expected_origin_visit = origin_visit1.to_dict() expected_origin_visit.update( { "origin": origin_url, "visit": origin_visit1.visit, "date": data.date_visit2, "type": data.type_visit2, "metadata": visit1_metadata, "status": "full", "snapshot": snapshot.id, } ) # when actual_origin_visit1 = swh_storage.origin_visit_get_by( origin_url, origin_visit1.visit ) # then assert actual_origin_visit1 == expected_origin_visit def test_origin_visit_get_by__unknown_origin(self, swh_storage): assert swh_storage.origin_visit_get_by("foo", 10) is None def test_origin_visit_get_by_no_result(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] swh_storage.origin_add([origin]) actual_origin_visit = swh_storage.origin_visit_get_by(origin.url, 999) assert actual_origin_visit is None def test_origin_visit_get_latest_none(self, swh_storage, sample_data_model): """Origin visit get latest on unknown objects should return nothing """ # unknown origin so no result assert swh_storage.origin_visit_get_latest("unknown-origin") is None # unknown type origin = sample_data_model["origin"][0] swh_storage.origin_add([origin]) assert swh_storage.origin_visit_get_latest(origin.url, type="unknown") is None def test_origin_visit_get_latest_filter_type(self, swh_storage, sample_data_model): """Filtering origin visit get latest with filter type should be ok """ origin = sample_data_model["origin"][0] swh_storage.origin_add([origin]) visit1 = OriginVisit( origin=origin.url, date=data.date_visit1, type=data.type_visit1, ) visit2 = OriginVisit( origin=origin.url, date=data.date_visit2, type=data.type_visit2, ) # Add a visit with the same date as the previous one visit3 = OriginVisit( origin=origin.url, date=data.date_visit2, type=data.type_visit2, ) assert data.type_visit1 != data.type_visit2 assert data.date_visit1 < data.date_visit2 ov1, ov2, ov3 = swh_storage.origin_visit_add([visit1, visit2, visit3]) origin_visit1 = swh_storage.origin_visit_get_by(origin.url, ov1.visit) origin_visit3 = swh_storage.origin_visit_get_by(origin.url, ov3.visit) assert data.type_visit1 != data.type_visit2 # Check type filter is ok actual_ov1 = swh_storage.origin_visit_get_latest( origin.url, type=data.type_visit1, ) assert actual_ov1 == origin_visit1 actual_ov3 = swh_storage.origin_visit_get_latest( origin.url, type=data.type_visit2, ) assert actual_ov3 == origin_visit3 new_type = "npm" assert new_type not in [data.type_visit1, data.type_visit2] assert ( swh_storage.origin_visit_get_latest( origin.url, type=new_type, # no visit matching that type ) is None ) def test_origin_visit_get_latest(self, swh_storage, sample_data_model): empty_snapshot, complete_snapshot = sample_data_model["snapshot"][1:3] origin = sample_data_model["origin"][0] swh_storage.origin_add([origin]) visit1 = OriginVisit( origin=origin.url, date=data.date_visit1, type=data.type_visit1, ) visit2 = OriginVisit( origin=origin.url, date=data.date_visit2, type=data.type_visit2, ) # Add a visit with the same date as the previous one visit3 = OriginVisit( origin=origin.url, date=data.date_visit2, type=data.type_visit2, ) ov1, ov2, ov3 = swh_storage.origin_visit_add([visit1, visit2, visit3]) origin_visit1 = swh_storage.origin_visit_get_by(origin.url, ov1.visit) origin_visit2 = swh_storage.origin_visit_get_by(origin.url, ov2.visit) origin_visit3 = swh_storage.origin_visit_get_by(origin.url, ov3.visit) # Two visits, both with no snapshot assert origin_visit3 == swh_storage.origin_visit_get_latest(origin.url) assert ( swh_storage.origin_visit_get_latest(origin.url, require_snapshot=True) is None ) # Add snapshot to visit1; require_snapshot=True makes it return # visit1 and require_snapshot=False still returns visit2 swh_storage.snapshot_add([complete_snapshot]) swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=ov1.visit, date=now(), status="ongoing", snapshot=complete_snapshot.id, ) ] ) actual_visit = swh_storage.origin_visit_get_latest( origin.url, require_snapshot=True ) assert actual_visit == { **origin_visit1, "snapshot": complete_snapshot.id, "status": "ongoing", # visit1 has status created now } assert origin_visit3 == swh_storage.origin_visit_get_latest(origin.url) # Status filter: all three visits are status=ongoing, so no visit # returned assert ( swh_storage.origin_visit_get_latest(origin.url, allowed_statuses=["full"]) is None ) # Mark the first visit as completed and check status filter again swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=ov1.visit, date=now(), status="full", snapshot=complete_snapshot.id, ) ] ) assert { **origin_visit1, "snapshot": complete_snapshot.id, "status": "full", } == swh_storage.origin_visit_get_latest(origin.url, allowed_statuses=["full"]) assert origin_visit3 == swh_storage.origin_visit_get_latest(origin.url) # Add snapshot to visit2 and check that the new snapshot is returned swh_storage.snapshot_add([empty_snapshot]) swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=ov2.visit, date=now(), status="ongoing", snapshot=empty_snapshot.id, ) ] ) assert { **origin_visit2, "snapshot": empty_snapshot.id, "status": "ongoing", } == swh_storage.origin_visit_get_latest(origin.url, require_snapshot=True) assert origin_visit3 == swh_storage.origin_visit_get_latest(origin.url) # Check that the status filter is still working assert { **origin_visit1, "snapshot": complete_snapshot.id, "status": "full", } == swh_storage.origin_visit_get_latest(origin.url, allowed_statuses=["full"]) # Add snapshot to visit3 (same date as visit2) swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=ov3.visit, date=now(), status="ongoing", snapshot=complete_snapshot.id, ) ] ) assert { **origin_visit1, "snapshot": complete_snapshot.id, "status": "full", } == swh_storage.origin_visit_get_latest(origin.url, allowed_statuses=["full"]) assert { **origin_visit1, "snapshot": complete_snapshot.id, "status": "full", } == swh_storage.origin_visit_get_latest( origin.url, allowed_statuses=["full"], require_snapshot=True ) assert { **origin_visit3, "snapshot": complete_snapshot.id, "status": "ongoing", } == swh_storage.origin_visit_get_latest(origin.url) assert { **origin_visit3, "snapshot": complete_snapshot.id, "status": "ongoing", } == swh_storage.origin_visit_get_latest(origin.url, require_snapshot=True) def test_origin_visit_status_get_latest(self, swh_storage, sample_data_model): snapshot = sample_data_model["snapshot"][2] origin1 = sample_data_model["origin"][0] swh_storage.origin_add([origin1]) # to have some reference visits ov1, ov2 = swh_storage.origin_visit_add( [ OriginVisit( origin=origin1.url, date=data.date_visit1, type=data.type_visit1, ), OriginVisit( origin=origin1.url, date=data.date_visit2, type=data.type_visit2, ), ] ) swh_storage.snapshot_add([snapshot]) date_now = now() date_now = round_to_milliseconds(date_now) assert data.date_visit1 < data.date_visit2 assert data.date_visit2 < date_now ovs1 = OriginVisitStatus( origin=origin1.url, visit=ov1.visit, date=data.date_visit1, status="partial", snapshot=None, ) ovs2 = OriginVisitStatus( origin=origin1.url, visit=ov1.visit, date=data.date_visit2, status="ongoing", snapshot=None, ) ovs3 = OriginVisitStatus( origin=origin1.url, visit=ov2.visit, date=data.date_visit2 + datetime.timedelta(minutes=1), # to not be ignored status="ongoing", snapshot=None, ) ovs4 = OriginVisitStatus( origin=origin1.url, visit=ov2.visit, date=date_now, status="full", snapshot=snapshot.id, metadata={"something": "wicked"}, ) swh_storage.origin_visit_status_add([ovs1, ovs2, ovs3, ovs4]) # unknown origin so no result actual_origin_visit = swh_storage.origin_visit_status_get_latest( "unknown-origin", ov1.visit ) assert actual_origin_visit is None # unknown visit so no result actual_origin_visit = swh_storage.origin_visit_status_get_latest( ov1.origin, ov1.visit + 10 ) assert actual_origin_visit is None # Two visits, both with no snapshot, take the most recent actual_origin_visit2 = swh_storage.origin_visit_status_get_latest( origin1.url, ov1.visit ) assert isinstance(actual_origin_visit2, OriginVisitStatus) assert actual_origin_visit2 == ovs2 assert ovs2.origin == origin1.url assert ovs2.visit == ov1.visit actual_origin_visit = swh_storage.origin_visit_status_get_latest( origin1.url, ov1.visit, require_snapshot=True ) # there is no visit with snapshot yet for that visit assert actual_origin_visit is None actual_origin_visit2 = swh_storage.origin_visit_status_get_latest( origin1.url, ov1.visit, allowed_statuses=["partial", "ongoing"] ) # visit status with partial status visit elected assert actual_origin_visit2 == ovs2 assert actual_origin_visit2.status == "ongoing" actual_origin_visit4 = swh_storage.origin_visit_status_get_latest( origin1.url, ov2.visit, require_snapshot=True ) assert actual_origin_visit4 == ovs4 assert actual_origin_visit4.snapshot == snapshot.id actual_origin_visit = swh_storage.origin_visit_status_get_latest( origin1.url, ov2.visit, require_snapshot=True, allowed_statuses=["ongoing"] ) # nothing matches so nothing assert actual_origin_visit is None # there is no visit with status full actual_origin_visit3 = swh_storage.origin_visit_status_get_latest( origin1.url, ov2.visit, allowed_statuses=["ongoing"] ) assert actual_origin_visit3 == ovs3 def test_person_fullname_unicity(self, swh_storage, sample_data_model): revision, rev2 = sample_data_model["revision"][0:2] # create a revision with same committer fullname but wo name and email revision2 = attr.evolve( rev2, committer=Person( fullname=revision.committer.fullname, name=None, email=None ), ) swh_storage.revision_add([revision, revision2]) # when getting added revisions revisions = list(swh_storage.revision_get([revision.id, revision2.id])) # then check committers are the same assert revisions[0]["committer"] == revisions[1]["committer"] def test_snapshot_add_get_empty(self, swh_storage, sample_data_model): empty_snapshot = sample_data_model["snapshot"][1] empty_snapshot_dict = empty_snapshot.to_dict() origin = sample_data_model["origin"][0] swh_storage.origin_add([origin]) ov1 = swh_storage.origin_visit_add( [ OriginVisit( origin=origin.url, date=data.date_visit1, type=data.type_visit1, ) ] )[0] actual_result = swh_storage.snapshot_add([empty_snapshot]) assert actual_result == {"snapshot:add": 1} date_now = now() swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=ov1.visit, date=date_now, status="full", snapshot=empty_snapshot.id, ) ] ) by_id = swh_storage.snapshot_get(empty_snapshot.id) assert by_id == {**empty_snapshot_dict, "next_branch": None} by_ov = swh_storage.snapshot_get_by_origin_visit(origin.url, ov1.visit) assert by_ov == {**empty_snapshot_dict, "next_branch": None} ovs1 = OriginVisitStatus.from_dict( { "origin": origin.url, "date": data.date_visit1, "visit": ov1.visit, "status": "created", "snapshot": None, "metadata": None, } ) ovs2 = OriginVisitStatus.from_dict( { "origin": origin.url, "date": date_now, "visit": ov1.visit, "status": "full", "metadata": None, "snapshot": empty_snapshot.id, } ) actual_objects = list(swh_storage.journal_writer.journal.objects) expected_objects = [ ("origin", origin), ("origin_visit", ov1), ("origin_visit_status", ovs1,), ("snapshot", empty_snapshot), ("origin_visit_status", ovs2,), ] for obj in expected_objects: assert obj in actual_objects def test_snapshot_add_get_complete(self, swh_storage, sample_data_model): complete_snapshot = sample_data_model["snapshot"][2] complete_snapshot_dict = complete_snapshot.to_dict() origin = sample_data_model["origin"][0] swh_storage.origin_add([origin]) visit = OriginVisit( origin=origin.url, date=data.date_visit1, type=data.type_visit1, ) origin_visit1 = swh_storage.origin_visit_add([visit])[0] visit_id = origin_visit1.visit actual_result = swh_storage.snapshot_add([complete_snapshot]) swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=origin_visit1.visit, date=now(), status="ongoing", snapshot=complete_snapshot.id, ) ] ) assert actual_result == {"snapshot:add": 1} by_id = swh_storage.snapshot_get(complete_snapshot.id) assert by_id == {**complete_snapshot_dict, "next_branch": None} by_ov = swh_storage.snapshot_get_by_origin_visit(origin.url, visit_id) assert by_ov == {**complete_snapshot_dict, "next_branch": None} def test_snapshot_add_many(self, swh_storage, sample_data_model): snapshot, _, complete_snapshot = sample_data_model["snapshot"][:3] actual_result = swh_storage.snapshot_add([snapshot, complete_snapshot]) assert actual_result == {"snapshot:add": 2} assert swh_storage.snapshot_get(complete_snapshot.id) == { **complete_snapshot.to_dict(), "next_branch": None, } assert swh_storage.snapshot_get(snapshot.id) == { **snapshot.to_dict(), "next_branch": None, } swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["snapshot"] == 2 def test_snapshot_add_many_from_generator(self, swh_storage, sample_data_model): snapshot, _, complete_snapshot = sample_data_model["snapshot"][:3] def _snp_gen(): yield from [snapshot, complete_snapshot] actual_result = swh_storage.snapshot_add(_snp_gen()) assert actual_result == {"snapshot:add": 2} swh_storage.refresh_stat_counters() assert swh_storage.stat_counters()["snapshot"] == 2 def test_snapshot_add_many_incremental(self, swh_storage, sample_data_model): snapshot, _, complete_snapshot = sample_data_model["snapshot"][:3] actual_result = swh_storage.snapshot_add([complete_snapshot]) assert actual_result == {"snapshot:add": 1} actual_result2 = swh_storage.snapshot_add([snapshot, complete_snapshot]) assert actual_result2 == {"snapshot:add": 1} assert swh_storage.snapshot_get(complete_snapshot.id) == { **complete_snapshot.to_dict(), "next_branch": None, } assert swh_storage.snapshot_get(snapshot.id) == { **snapshot.to_dict(), "next_branch": None, } def test_snapshot_add_twice(self, swh_storage, sample_data_model): snapshot, empty_snapshot = sample_data_model["snapshot"][:2] actual_result = swh_storage.snapshot_add([empty_snapshot]) assert actual_result == {"snapshot:add": 1} assert list(swh_storage.journal_writer.journal.objects) == [ ("snapshot", empty_snapshot) ] actual_result = swh_storage.snapshot_add([snapshot]) assert actual_result == {"snapshot:add": 1} assert list(swh_storage.journal_writer.journal.objects) == [ ("snapshot", empty_snapshot), ("snapshot", snapshot), ] def test_snapshot_add_count_branches(self, swh_storage, sample_data_model): complete_snapshot = sample_data_model["snapshot"][2] actual_result = swh_storage.snapshot_add([complete_snapshot]) assert actual_result == {"snapshot:add": 1} snp_size = swh_storage.snapshot_count_branches(complete_snapshot.id) expected_snp_size = { "alias": 1, "content": 1, "directory": 2, "release": 1, "revision": 1, "snapshot": 1, None: 1, } assert snp_size == expected_snp_size def test_snapshot_add_get_paginated(self, swh_storage, sample_data_model): complete_snapshot = sample_data_model["snapshot"][2] swh_storage.snapshot_add([complete_snapshot]) snp_id = complete_snapshot.id branches = complete_snapshot.to_dict()["branches"] branch_names = list(sorted(branches)) # Test branch_from snapshot = swh_storage.snapshot_get_branches(snp_id, branches_from=b"release") rel_idx = branch_names.index(b"release") expected_snapshot = { "id": snp_id, "branches": {name: branches[name] for name in branch_names[rel_idx:]}, "next_branch": None, } assert snapshot == expected_snapshot # Test branches_count snapshot = swh_storage.snapshot_get_branches(snp_id, branches_count=1) expected_snapshot = { "id": snp_id, "branches": {branch_names[0]: branches[branch_names[0]],}, "next_branch": b"content", } assert snapshot == expected_snapshot # test branch_from + branches_count snapshot = swh_storage.snapshot_get_branches( snp_id, branches_from=b"directory", branches_count=3 ) dir_idx = branch_names.index(b"directory") expected_snapshot = { "id": snp_id, "branches": { name: branches[name] for name in branch_names[dir_idx : dir_idx + 3] }, "next_branch": branch_names[dir_idx + 3], } assert snapshot == expected_snapshot def test_snapshot_add_get_filtered(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] complete_snapshot = sample_data_model["snapshot"][2] swh_storage.origin_add([origin]) visit = OriginVisit( origin=origin.url, date=data.date_visit1, type=data.type_visit1, ) origin_visit1 = swh_storage.origin_visit_add([visit])[0] swh_storage.snapshot_add([complete_snapshot]) swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=origin_visit1.visit, date=now(), status="ongoing", snapshot=complete_snapshot.id, ) ] ) snp_id = complete_snapshot.id branches = complete_snapshot.to_dict()["branches"] snapshot = swh_storage.snapshot_get_branches( snp_id, target_types=["release", "revision"] ) expected_snapshot = { "id": snp_id, "branches": { name: tgt for name, tgt in branches.items() if tgt and tgt["target_type"] in ["release", "revision"] }, "next_branch": None, } assert snapshot == expected_snapshot snapshot = swh_storage.snapshot_get_branches(snp_id, target_types=["alias"]) expected_snapshot = { "id": snp_id, "branches": { name: tgt for name, tgt in branches.items() if tgt and tgt["target_type"] == "alias" }, "next_branch": None, } assert snapshot == expected_snapshot def test_snapshot_add_get_filtered_and_paginated( self, swh_storage, sample_data_model ): complete_snapshot = sample_data_model["snapshot"][2] swh_storage.snapshot_add([complete_snapshot]) snp_id = complete_snapshot.id branches = complete_snapshot.to_dict()["branches"] branch_names = list(sorted(branches)) # Test branch_from snapshot = swh_storage.snapshot_get_branches( snp_id, target_types=["directory", "release"], branches_from=b"directory2" ) expected_snapshot = { "id": snp_id, "branches": {name: branches[name] for name in (b"directory2", b"release")}, "next_branch": None, } assert snapshot == expected_snapshot # Test branches_count snapshot = swh_storage.snapshot_get_branches( snp_id, target_types=["directory", "release"], branches_count=1 ) expected_snapshot = { "id": snp_id, "branches": {b"directory": branches[b"directory"]}, "next_branch": b"directory2", } assert snapshot == expected_snapshot # Test branches_count snapshot = swh_storage.snapshot_get_branches( snp_id, target_types=["directory", "release"], branches_count=2 ) expected_snapshot = { "id": snp_id, "branches": { name: branches[name] for name in (b"directory", b"directory2") }, "next_branch": b"release", } assert snapshot == expected_snapshot # test branch_from + branches_count snapshot = swh_storage.snapshot_get_branches( snp_id, target_types=["directory", "release"], branches_from=b"directory2", branches_count=1, ) dir_idx = branch_names.index(b"directory2") expected_snapshot = { "id": snp_id, "branches": {branch_names[dir_idx]: branches[branch_names[dir_idx]],}, "next_branch": b"release", } assert snapshot == expected_snapshot def test_snapshot_add_get_branch_by_type(self, swh_storage, sample_data_model): complete_snapshot = sample_data_model["snapshot"][2] snapshot = complete_snapshot.to_dict() alias1 = b"alias1" alias2 = b"alias2" target1 = random.choice(list(snapshot["branches"].keys())) target2 = random.choice(list(snapshot["branches"].keys())) snapshot["branches"][alias2] = { "target": target2, "target_type": "alias", } snapshot["branches"][alias1] = { "target": target1, "target_type": "alias", } new_snapshot = Snapshot.from_dict(snapshot) swh_storage.snapshot_add([new_snapshot]) branches = swh_storage.snapshot_get_branches( new_snapshot.id, target_types=["alias"], branches_from=alias1, branches_count=1, )["branches"] assert len(branches) == 1 assert alias1 in branches def test_snapshot_add_get(self, swh_storage, sample_data_model): snapshot = sample_data_model["snapshot"][0] origin = sample_data_model["origin"][0] swh_storage.origin_add([origin]) visit = OriginVisit( origin=origin.url, date=data.date_visit1, type=data.type_visit1, ) origin_visit1 = swh_storage.origin_visit_add([visit])[0] visit_id = origin_visit1.visit swh_storage.snapshot_add([snapshot]) swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=origin_visit1.visit, date=now(), status="ongoing", snapshot=snapshot.id, ) ] ) expected_snapshot = {**snapshot.to_dict(), "next_branch": None} by_id = swh_storage.snapshot_get(snapshot.id) assert by_id == expected_snapshot by_ov = swh_storage.snapshot_get_by_origin_visit(origin.url, visit_id) assert by_ov == expected_snapshot origin_visit_info = swh_storage.origin_visit_get_by(origin.url, visit_id) assert origin_visit_info["snapshot"] == snapshot.id def test_snapshot_add_twice__by_origin_visit(self, swh_storage, sample_data_model): snapshot = sample_data_model["snapshot"][0] origin = sample_data_model["origin"][0] swh_storage.origin_add([origin]) ov1 = swh_storage.origin_visit_add( [ OriginVisit( origin=origin.url, date=data.date_visit1, type=data.type_visit1, ) ] )[0] swh_storage.snapshot_add([snapshot]) date_now2 = now() swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=ov1.visit, date=date_now2, status="ongoing", snapshot=snapshot.id, ) ] ) expected_snapshot = {**snapshot.to_dict(), "next_branch": None} by_ov1 = swh_storage.snapshot_get_by_origin_visit(origin.url, ov1.visit) assert by_ov1 == expected_snapshot ov2 = swh_storage.origin_visit_add( [ OriginVisit( origin=origin.url, date=data.date_visit2, type=data.type_visit2, ) ] )[0] date_now4 = now() swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=ov2.visit, date=date_now4, status="ongoing", snapshot=snapshot.id, ) ] ) by_ov2 = swh_storage.snapshot_get_by_origin_visit(origin.url, ov2.visit) assert by_ov2 == expected_snapshot ovs1 = OriginVisitStatus.from_dict( { "origin": origin.url, "date": data.date_visit1, "visit": ov1.visit, "status": "created", "metadata": None, "snapshot": None, } ) ovs2 = OriginVisitStatus.from_dict( { "origin": origin.url, "date": date_now2, "visit": ov1.visit, "status": "ongoing", "metadata": None, "snapshot": snapshot.id, } ) ovs3 = OriginVisitStatus.from_dict( { "origin": origin.url, "date": data.date_visit2, "visit": ov2.visit, "status": "created", "metadata": None, "snapshot": None, } ) ovs4 = OriginVisitStatus.from_dict( { "origin": origin.url, "date": date_now4, "visit": ov2.visit, "status": "ongoing", "metadata": None, "snapshot": snapshot.id, } ) actual_objects = list(swh_storage.journal_writer.journal.objects) expected_objects = [ ("origin", origin), ("origin_visit", ov1), ("origin_visit_status", ovs1), ("snapshot", snapshot), ("origin_visit_status", ovs2), ("origin_visit", ov2), ("origin_visit_status", ovs3), ("origin_visit_status", ovs4), ] for obj in expected_objects: assert obj in actual_objects def test_snapshot_get_random(self, swh_storage, sample_data_model): snapshot, empty_snapshot, complete_snapshot = sample_data_model["snapshot"][:3] swh_storage.snapshot_add([snapshot, empty_snapshot, complete_snapshot]) assert swh_storage.snapshot_get_random() in { snapshot.id, empty_snapshot.id, complete_snapshot.id, } def test_snapshot_missing(self, swh_storage, sample_data_model): snapshot, missing_snapshot = sample_data_model["snapshot"][:2] snapshots = [snapshot.id, missing_snapshot.id] swh_storage.snapshot_add([snapshot]) missing_snapshots = swh_storage.snapshot_missing(snapshots) assert list(missing_snapshots) == [missing_snapshot.id] def test_stat_counters(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] snapshot = sample_data_model["snapshot"][0] revision = sample_data_model["revision"][0] release = sample_data_model["release"][0] directory = sample_data_model["directory"][0] content = sample_data_model["content"][0] expected_keys = ["content", "directory", "origin", "revision"] # Initially, all counters are 0 swh_storage.refresh_stat_counters() counters = swh_storage.stat_counters() assert set(expected_keys) <= set(counters) for key in expected_keys: assert counters[key] == 0 # Add a content. Only the content counter should increase. swh_storage.content_add([content]) swh_storage.refresh_stat_counters() counters = swh_storage.stat_counters() assert set(expected_keys) <= set(counters) for key in expected_keys: if key != "content": assert counters[key] == 0 assert counters["content"] == 1 # Add other objects. Check their counter increased as well. swh_storage.origin_add([origin]) visit = OriginVisit( origin=origin.url, date=data.date_visit2, type=data.type_visit2, ) origin_visit1 = swh_storage.origin_visit_add([visit])[0] swh_storage.snapshot_add([snapshot]) swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin.url, visit=origin_visit1.visit, date=now(), status="ongoing", snapshot=snapshot.id, ) ] ) swh_storage.directory_add([directory]) swh_storage.revision_add([revision]) swh_storage.release_add([release]) swh_storage.refresh_stat_counters() counters = swh_storage.stat_counters() assert counters["content"] == 1 assert counters["directory"] == 1 assert counters["snapshot"] == 1 assert counters["origin"] == 1 assert counters["origin_visit"] == 1 assert counters["revision"] == 1 assert counters["release"] == 1 assert counters["snapshot"] == 1 if "person" in counters: assert counters["person"] == 3 def test_content_find_ctime(self, swh_storage, sample_data_model): origin_content = sample_data_model["content"][0] ctime = round_to_milliseconds(now()) content = attr.evolve(origin_content, data=None, ctime=ctime) swh_storage.content_add_metadata([content]) actually_present = swh_storage.content_find({"sha1": content.sha1}) assert actually_present[0] == content.to_dict() def test_content_find_with_present_content(self, swh_storage, sample_data_model): content = sample_data_model["content"][0] expected_content = content.to_dict() del expected_content["data"] del expected_content["ctime"] # 1. with something to find swh_storage.content_add([content]) actually_present = swh_storage.content_find({"sha1": content.sha1}) assert 1 == len(actually_present) actually_present[0].pop("ctime") assert actually_present[0] == expected_content # 2. with something to find actually_present = swh_storage.content_find({"sha1_git": content.sha1_git}) assert 1 == len(actually_present) actually_present[0].pop("ctime") assert actually_present[0] == expected_content # 3. with something to find actually_present = swh_storage.content_find({"sha256": content.sha256}) assert 1 == len(actually_present) actually_present[0].pop("ctime") assert actually_present[0] == expected_content # 4. with something to find actually_present = swh_storage.content_find(content.hashes()) assert 1 == len(actually_present) actually_present[0].pop("ctime") assert actually_present[0] == expected_content def test_content_find_with_non_present_content( self, swh_storage, sample_data_model ): missing_content = sample_data_model["skipped_content"][0] # 1. with something that does not exist actually_present = swh_storage.content_find({"sha1": missing_content.sha1}) assert actually_present == [] # 2. with something that does not exist actually_present = swh_storage.content_find( {"sha1_git": missing_content.sha1_git} ) assert actually_present == [] # 3. with something that does not exist actually_present = swh_storage.content_find({"sha256": missing_content.sha256}) assert actually_present == [] def test_content_find_with_duplicate_input(self, swh_storage, sample_data_model): content = sample_data_model["content"][0] # Create fake data with colliding sha256 and blake2s256 sha1_array = bytearray(content.sha1) sha1_array[0] += 1 sha1git_array = bytearray(content.sha1_git) sha1git_array[0] += 1 duplicated_content = attr.evolve( content, sha1=bytes(sha1_array), sha1_git=bytes(sha1git_array) ) # Inject the data swh_storage.content_add([content, duplicated_content]) actual_result = list( swh_storage.content_find( { "blake2s256": duplicated_content.blake2s256, "sha256": duplicated_content.sha256, } ) ) expected_content = content.to_dict() expected_duplicated_content = duplicated_content.to_dict() for key in ["data", "ctime"]: # so we can compare for dict_ in [ expected_content, expected_duplicated_content, actual_result[0], actual_result[1], ]: dict_.pop(key, None) expected_result = [expected_content, expected_duplicated_content] for result in expected_result: assert result in actual_result def test_content_find_with_duplicate_sha256(self, swh_storage, sample_data_model): content = sample_data_model["content"][0] hashes = {} # Create fake data with colliding sha256 for hashalgo in ("sha1", "sha1_git", "blake2s256"): value = bytearray(getattr(content, hashalgo)) value[0] += 1 hashes[hashalgo] = bytes(value) duplicated_content = attr.evolve( content, sha1=hashes["sha1"], sha1_git=hashes["sha1_git"], blake2s256=hashes["blake2s256"], ) swh_storage.content_add([content, duplicated_content]) actual_result = list( swh_storage.content_find({"sha256": duplicated_content.sha256}) ) assert len(actual_result) == 2 expected_content = content.to_dict() expected_duplicated_content = duplicated_content.to_dict() for key in ["data", "ctime"]: # so we can compare for dict_ in [ expected_content, expected_duplicated_content, actual_result[0], actual_result[1], ]: dict_.pop(key, None) assert sorted(actual_result, key=lambda x: x["sha1"]) == [ expected_content, expected_duplicated_content, ] # Find with both sha256 and blake2s256 actual_result = list( swh_storage.content_find( { "sha256": duplicated_content.sha256, "blake2s256": duplicated_content.blake2s256, } ) ) assert len(actual_result) == 1 actual_result[0].pop("ctime") assert actual_result == [expected_duplicated_content] def test_content_find_with_duplicate_blake2s256( self, swh_storage, sample_data_model ): content = sample_data_model["content"][0] # Create fake data with colliding sha256 and blake2s256 sha1_array = bytearray(content.sha1) sha1_array[0] += 1 sha1git_array = bytearray(content.sha1_git) sha1git_array[0] += 1 sha256_array = bytearray(content.sha256) sha256_array[0] += 1 duplicated_content = attr.evolve( content, sha1=bytes(sha1_array), sha1_git=bytes(sha1git_array), sha256=bytes(sha256_array), ) swh_storage.content_add([content, duplicated_content]) actual_result = list( swh_storage.content_find({"blake2s256": duplicated_content.blake2s256}) ) expected_content = content.to_dict() expected_duplicated_content = duplicated_content.to_dict() for key in ["data", "ctime"]: # so we can compare for dict_ in [ expected_content, expected_duplicated_content, actual_result[0], actual_result[1], ]: dict_.pop(key, None) expected_result = [expected_content, expected_duplicated_content] for result in expected_result: assert result in actual_result # Find with both sha256 and blake2s256 actual_result = list( swh_storage.content_find( { "sha256": duplicated_content.sha256, "blake2s256": duplicated_content.blake2s256, } ) ) actual_result[0].pop("ctime") assert actual_result == [expected_duplicated_content] def test_content_find_bad_input(self, swh_storage): # 1. with bad input with pytest.raises(StorageArgumentException): swh_storage.content_find({}) # empty is bad # 2. with bad input with pytest.raises(StorageArgumentException): swh_storage.content_find({"unknown-sha1": "something"}) # not the right key def test_object_find_by_sha1_git(self, swh_storage, sample_data_model): content = sample_data_model["content"][0] directory = sample_data_model["directory"][0] revision = sample_data_model["revision"][0] release = sample_data_model["release"][0] sha1_gits = [b"00000000000000000000"] expected = { b"00000000000000000000": [], } swh_storage.content_add([content]) sha1_gits.append(content.sha1_git) expected[content.sha1_git] = [ {"sha1_git": content.sha1_git, "type": "content",} ] swh_storage.directory_add([directory]) sha1_gits.append(directory.id) expected[directory.id] = [{"sha1_git": directory.id, "type": "directory",}] swh_storage.revision_add([revision]) sha1_gits.append(revision.id) expected[revision.id] = [{"sha1_git": revision.id, "type": "revision",}] swh_storage.release_add([release]) sha1_gits.append(release.id) expected[release.id] = [{"sha1_git": release.id, "type": "release",}] ret = swh_storage.object_find_by_sha1_git(sha1_gits) assert expected == ret def test_metadata_fetcher_add_get(self, swh_storage, sample_data_model): fetcher = sample_data_model["fetcher"][0] actual_fetcher = swh_storage.metadata_fetcher_get(fetcher.name, fetcher.version) assert actual_fetcher is None # does not exist swh_storage.metadata_fetcher_add([fetcher]) res = swh_storage.metadata_fetcher_get(fetcher.name, fetcher.version) assert res == fetcher def test_metadata_authority_add_get(self, swh_storage, sample_data_model): authority = sample_data_model["authority"][0] actual_authority = swh_storage.metadata_authority_get( authority.type, authority.url ) assert actual_authority is None # does not exist swh_storage.metadata_authority_add([authority]) res = swh_storage.metadata_authority_get(authority.type, authority.url) assert res == authority def test_content_metadata_add(self, swh_storage, sample_data_model): content = sample_data_model["content"][0] fetcher = sample_data_model["fetcher"][0] authority = sample_data_model["authority"][0] content_metadata = sample_data_model["content_metadata"][:2] content_swhid = SWHID( object_type="content", object_id=hash_to_bytes(content.sha1_git) ) swh_storage.metadata_fetcher_add([fetcher]) swh_storage.metadata_authority_add([authority]) swh_storage.object_metadata_add(content_metadata) result = swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content_swhid, authority ) assert result["next_page_token"] is None assert ( list(sorted(result["results"], key=lambda x: x.discovery_date,)) == content_metadata ) def test_content_metadata_add_duplicate(self, swh_storage, sample_data_model): """Duplicates should be silently updated.""" content = sample_data_model["content"][0] fetcher = sample_data_model["fetcher"][0] authority = sample_data_model["authority"][0] content_metadata, content_metadata2 = sample_data_model["content_metadata"][:2] content_swhid = SWHID( object_type="content", object_id=hash_to_bytes(content.sha1_git) ) new_content_metadata2 = attr.evolve( content_metadata2, format="new-format", metadata=b"new-metadata", ) swh_storage.metadata_fetcher_add([fetcher]) swh_storage.metadata_authority_add([authority]) swh_storage.object_metadata_add([content_metadata, content_metadata2]) swh_storage.object_metadata_add([new_content_metadata2]) result = swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content_swhid, authority ) assert result["next_page_token"] is None expected_results1 = (content_metadata, new_content_metadata2) expected_results2 = (content_metadata, content_metadata2) assert tuple(sorted(result["results"], key=lambda x: x.discovery_date,)) in ( expected_results1, # cassandra expected_results2, # postgresql ) def test_content_metadata_get(self, swh_storage, sample_data_model): content, content2 = sample_data_model["content"][:2] fetcher, fetcher2 = sample_data_model["fetcher"][:2] authority, authority2 = sample_data_model["authority"][:2] content1_metadata1, content1_metadata2, content1_metadata3 = sample_data_model[ "content_metadata" ][:3] content1_swhid = SWHID(object_type="content", object_id=content.sha1_git) content2_swhid = SWHID(object_type="content", object_id=content2.sha1_git) content2_metadata = attr.evolve(content1_metadata2, id=content2_swhid) swh_storage.metadata_authority_add([authority, authority2]) swh_storage.metadata_fetcher_add([fetcher, fetcher2]) swh_storage.object_metadata_add( [ content1_metadata1, content1_metadata2, content1_metadata3, content2_metadata, ] ) result = swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content1_swhid, authority ) assert result["next_page_token"] is None assert [content1_metadata1, content1_metadata2] == list( sorted(result["results"], key=lambda x: x.discovery_date,) ) result = swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content1_swhid, authority2 ) assert result["next_page_token"] is None assert [content1_metadata3] == list( sorted(result["results"], key=lambda x: x.discovery_date,) ) result = swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content2_swhid, authority ) assert result["next_page_token"] is None assert [content2_metadata] == list(result["results"],) def test_content_metadata_get_after(self, swh_storage, sample_data_model): content = sample_data_model["content"][0] fetcher = sample_data_model["fetcher"][0] authority = sample_data_model["authority"][0] content_metadata, content_metadata2 = sample_data_model["content_metadata"][:2] content_swhid = SWHID(object_type="content", object_id=content.sha1_git) swh_storage.metadata_fetcher_add([fetcher]) swh_storage.metadata_authority_add([authority]) swh_storage.object_metadata_add([content_metadata, content_metadata2]) result = swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content_swhid, authority, after=content_metadata.discovery_date - timedelta(seconds=1), ) assert result["next_page_token"] is None assert [content_metadata, content_metadata2] == list( sorted(result["results"], key=lambda x: x.discovery_date,) ) result = swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content_swhid, authority, after=content_metadata.discovery_date, ) assert result["next_page_token"] is None assert result["results"] == [content_metadata2] result = swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content_swhid, authority, after=content_metadata2.discovery_date, ) assert result["next_page_token"] is None assert result["results"] == [] def test_content_metadata_get_paginate(self, swh_storage, sample_data_model): content = sample_data_model["content"][0] fetcher = sample_data_model["fetcher"][0] authority = sample_data_model["authority"][0] content_metadata, content_metadata2 = sample_data_model["content_metadata"][:2] content_swhid = SWHID(object_type="content", object_id=content.sha1_git) swh_storage.metadata_fetcher_add([fetcher]) swh_storage.metadata_authority_add([authority]) swh_storage.object_metadata_add([content_metadata, content_metadata2]) swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content_swhid, authority ) result = swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content_swhid, authority, limit=1 ) assert result["next_page_token"] is not None assert result["results"] == [content_metadata] result = swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content_swhid, authority, limit=1, page_token=result["next_page_token"], ) assert result["next_page_token"] is None assert result["results"] == [content_metadata2] def test_content_metadata_get_paginate_same_date( self, swh_storage, sample_data_model ): content = sample_data_model["content"][0] fetcher1, fetcher2 = sample_data_model["fetcher"][:2] authority = sample_data_model["authority"][0] content_metadata, content_metadata2 = sample_data_model["content_metadata"][:2] content_swhid = SWHID(object_type="content", object_id=content.sha1_git) swh_storage.metadata_fetcher_add([fetcher1, fetcher2]) swh_storage.metadata_authority_add([authority]) new_content_metadata2 = attr.evolve( content_metadata2, discovery_date=content_metadata2.discovery_date, fetcher=attr.evolve(fetcher2, metadata=None), ) swh_storage.object_metadata_add([content_metadata, new_content_metadata2]) result = swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content_swhid, authority, limit=1 ) assert result["next_page_token"] is not None assert result["results"] == [content_metadata] result = swh_storage.object_metadata_get( MetadataTargetType.CONTENT, content_swhid, authority, limit=1, page_token=result["next_page_token"], ) assert result["next_page_token"] is None assert result["results"] == [new_content_metadata2] def test_content_metadata_get__invalid_id(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] fetcher = sample_data_model["fetcher"][0] authority = sample_data_model["authority"][0] content_metadata, content_metadata2 = sample_data_model["content_metadata"][:2] swh_storage.metadata_fetcher_add([fetcher]) swh_storage.metadata_authority_add([authority]) swh_storage.object_metadata_add([content_metadata, content_metadata2]) with pytest.raises(StorageArgumentException, match="SWHID"): swh_storage.object_metadata_get( MetadataTargetType.CONTENT, origin.url, authority ) def test_origin_metadata_add(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] fetcher = sample_data_model["fetcher"][0] authority = sample_data_model["authority"][0] origin_metadata, origin_metadata2 = sample_data_model["origin_metadata"][:2] assert swh_storage.origin_add([origin]) == {"origin:add": 1} swh_storage.metadata_fetcher_add([fetcher]) swh_storage.metadata_authority_add([authority]) swh_storage.object_metadata_add([origin_metadata, origin_metadata2]) result = swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin.url, authority ) assert result["next_page_token"] is None assert list(sorted(result["results"], key=lambda x: x.discovery_date)) == [ origin_metadata, origin_metadata2, ] def test_origin_metadata_add_duplicate(self, swh_storage, sample_data_model): """Duplicates should be silently updated.""" origin = sample_data_model["origin"][0] fetcher = sample_data_model["fetcher"][0] authority = sample_data_model["authority"][0] origin_metadata, origin_metadata2 = sample_data_model["origin_metadata"][:2] assert swh_storage.origin_add([origin]) == {"origin:add": 1} new_origin_metadata2 = attr.evolve( origin_metadata2, format="new-format", metadata=b"new-metadata", ) swh_storage.metadata_fetcher_add([fetcher]) swh_storage.metadata_authority_add([authority]) swh_storage.object_metadata_add([origin_metadata, origin_metadata2]) swh_storage.object_metadata_add([new_origin_metadata2]) result = swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin.url, authority ) assert result["next_page_token"] is None # which of the two behavior happens is backend-specific. expected_results1 = (origin_metadata, new_origin_metadata2) expected_results2 = (origin_metadata, origin_metadata2) assert tuple(sorted(result["results"], key=lambda x: x.discovery_date,)) in ( expected_results1, # cassandra expected_results2, # postgresql ) def test_origin_metadata_get(self, swh_storage, sample_data_model): origin, origin2 = sample_data_model["origin"][:2] fetcher, fetcher2 = sample_data_model["fetcher"][:2] authority, authority2 = sample_data_model["authority"][:2] origin1_metadata1, origin1_metadata2, origin1_metadata3 = sample_data_model[ "origin_metadata" ][:3] assert swh_storage.origin_add([origin, origin2]) == {"origin:add": 2} origin2_metadata = attr.evolve(origin1_metadata2, id=origin2.url) swh_storage.metadata_authority_add([authority, authority2]) swh_storage.metadata_fetcher_add([fetcher, fetcher2]) swh_storage.object_metadata_add( [origin1_metadata1, origin1_metadata2, origin1_metadata3, origin2_metadata] ) result = swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin.url, authority ) assert result["next_page_token"] is None assert [origin1_metadata1, origin1_metadata2] == list( sorted(result["results"], key=lambda x: x.discovery_date,) ) result = swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin.url, authority2 ) assert result["next_page_token"] is None assert [origin1_metadata3] == list( sorted(result["results"], key=lambda x: x.discovery_date,) ) result = swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin2.url, authority ) assert result["next_page_token"] is None assert [origin2_metadata] == list(result["results"],) def test_origin_metadata_get_after(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] fetcher = sample_data_model["fetcher"][0] authority = sample_data_model["authority"][0] origin_metadata, origin_metadata2 = sample_data_model["origin_metadata"][:2] assert swh_storage.origin_add([origin]) == {"origin:add": 1} swh_storage.metadata_fetcher_add([fetcher]) swh_storage.metadata_authority_add([authority]) swh_storage.object_metadata_add([origin_metadata, origin_metadata2]) result = swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin.url, authority, after=origin_metadata.discovery_date - timedelta(seconds=1), ) assert result["next_page_token"] is None assert list(sorted(result["results"], key=lambda x: x.discovery_date,)) == [ origin_metadata, origin_metadata2, ] result = swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin.url, authority, after=origin_metadata.discovery_date, ) assert result["next_page_token"] is None assert result["results"] == [origin_metadata2] result = swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin.url, authority, after=origin_metadata2.discovery_date, ) assert result["next_page_token"] is None assert result["results"] == [] def test_origin_metadata_get_paginate(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] fetcher = sample_data_model["fetcher"][0] authority = sample_data_model["authority"][0] origin_metadata, origin_metadata2 = sample_data_model["origin_metadata"][:2] assert swh_storage.origin_add([origin]) == {"origin:add": 1} swh_storage.metadata_fetcher_add([fetcher]) swh_storage.metadata_authority_add([authority]) swh_storage.object_metadata_add([origin_metadata, origin_metadata2]) swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin.url, authority ) result = swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin.url, authority, limit=1 ) assert result["next_page_token"] is not None assert result["results"] == [origin_metadata] result = swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin.url, authority, limit=1, page_token=result["next_page_token"], ) assert result["next_page_token"] is None assert result["results"] == [origin_metadata2] def test_origin_metadata_get_paginate_same_date( self, swh_storage, sample_data_model ): origin = sample_data_model["origin"][0] fetcher1, fetcher2 = sample_data_model["fetcher"][:2] authority = sample_data_model["authority"][0] origin_metadata, origin_metadata2 = sample_data_model["origin_metadata"][:2] assert swh_storage.origin_add([origin]) == {"origin:add": 1} swh_storage.metadata_fetcher_add([fetcher1, fetcher2]) swh_storage.metadata_authority_add([authority]) new_origin_metadata2 = attr.evolve( origin_metadata2, discovery_date=origin_metadata2.discovery_date, fetcher=attr.evolve(fetcher2, metadata=None), ) swh_storage.object_metadata_add([origin_metadata, new_origin_metadata2]) result = swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin.url, authority, limit=1 ) assert result["next_page_token"] is not None assert result["results"] == [origin_metadata] result = swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, origin.url, authority, limit=1, page_token=result["next_page_token"], ) assert result["next_page_token"] is None assert result["results"] == [new_origin_metadata2] def test_origin_metadata_add_missing_authority( self, swh_storage, sample_data_model ): origin = sample_data_model["origin"][0] fetcher = sample_data_model["fetcher"][0] origin_metadata, origin_metadata2 = sample_data_model["origin_metadata"][:2] assert swh_storage.origin_add([origin]) == {"origin:add": 1} swh_storage.metadata_fetcher_add([fetcher]) with pytest.raises(StorageArgumentException, match="authority"): swh_storage.object_metadata_add([origin_metadata, origin_metadata2]) def test_origin_metadata_add_missing_fetcher(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] authority = sample_data_model["authority"][0] origin_metadata, origin_metadata2 = sample_data_model["origin_metadata"][:2] assert swh_storage.origin_add([origin]) == {"origin:add": 1} swh_storage.metadata_authority_add([authority]) with pytest.raises(StorageArgumentException, match="fetcher"): swh_storage.object_metadata_add([origin_metadata, origin_metadata2]) def test_origin_metadata_get__invalid_id_type(self, swh_storage, sample_data_model): origin = sample_data_model["origin"][0] authority = sample_data_model["authority"][0] fetcher = sample_data_model["fetcher"][0] origin_metadata, origin_metadata2 = sample_data_model["origin_metadata"][:2] content_metadata = sample_data_model["content_metadata"][0] assert swh_storage.origin_add([origin]) == {"origin:add": 1} swh_storage.metadata_fetcher_add([fetcher]) swh_storage.metadata_authority_add([authority]) swh_storage.object_metadata_add([origin_metadata, origin_metadata2]) with pytest.raises(StorageArgumentException, match="SWHID"): swh_storage.object_metadata_get( MetadataTargetType.ORIGIN, content_metadata.id, authority, ) class TestStorageGeneratedData: def test_generate_content_get(self, swh_storage, swh_contents): contents_with_data = [c.to_dict() for c in swh_contents if c.status != "absent"] # input the list of sha1s we want from storage get_sha1s = [c["sha1"] for c in contents_with_data] # retrieve contents actual_contents = list(swh_storage.content_get(get_sha1s)) assert None not in actual_contents assert_contents_ok(contents_with_data, actual_contents) def test_generate_content_get_metadata(self, swh_storage, swh_contents): # input the list of sha1s we want from storage expected_contents = [c.to_dict() for c in swh_contents if c.status != "absent"] get_sha1s = [c["sha1"] for c in expected_contents] # retrieve contents meta_contents = swh_storage.content_get_metadata(get_sha1s) assert len(list(meta_contents)) == len(get_sha1s) actual_contents = [] for contents in meta_contents.values(): actual_contents.extend(contents) keys_to_check = {"length", "status", "sha1", "sha1_git", "sha256", "blake2s256"} assert_contents_ok( expected_contents, actual_contents, keys_to_check=keys_to_check ) def test_generate_content_get_range(self, swh_storage, swh_contents): """content_get_range returns complete range""" present_contents = [c.to_dict() for c in swh_contents if c.status != "absent"] get_sha1s = sorted([c.sha1 for c in swh_contents if c.status != "absent"]) start = get_sha1s[2] end = get_sha1s[-2] actual_result = swh_storage.content_get_range(start, end) assert actual_result["next"] is None actual_contents = actual_result["contents"] expected_contents = [c for c in present_contents if start <= c["sha1"] <= end] if expected_contents: assert_contents_ok(expected_contents, actual_contents, ["sha1"]) else: assert actual_contents == [] def test_generate_content_get_range_full(self, swh_storage, swh_contents): """content_get_range for a full range returns all available contents""" present_contents = [c.to_dict() for c in swh_contents if c.status != "absent"] start = b"0" * 40 end = b"f" * 40 actual_result = swh_storage.content_get_range(start, end) assert actual_result["next"] is None actual_contents = actual_result["contents"] expected_contents = [c for c in present_contents if start <= c["sha1"] <= end] if expected_contents: assert_contents_ok(expected_contents, actual_contents, ["sha1"]) else: assert actual_contents == [] def test_generate_content_get_range_empty(self, swh_storage, swh_contents): """content_get_range for an empty range returns nothing""" start = b"0" * 40 end = b"f" * 40 actual_result = swh_storage.content_get_range(end, start) assert actual_result["next"] is None assert len(actual_result["contents"]) == 0 def test_generate_content_get_range_limit_none(self, swh_storage): """content_get_range call with wrong limit input should fail""" with pytest.raises(StorageArgumentException) as e: swh_storage.content_get_range(start=None, end=None, limit=None) assert e.value.args == ("limit should not be None",) def test_generate_content_get_range_no_limit(self, swh_storage, swh_contents): """content_get_range returns contents within range provided""" # input the list of sha1s we want from storage get_sha1s = sorted([c.sha1 for c in swh_contents if c.status != "absent"]) start = get_sha1s[0] end = get_sha1s[-1] # retrieve contents actual_result = swh_storage.content_get_range(start, end) actual_contents = actual_result["contents"] assert actual_result["next"] is None assert len(actual_contents) == len(get_sha1s) expected_contents = [c.to_dict() for c in swh_contents if c.status != "absent"] assert_contents_ok(expected_contents, actual_contents, ["sha1"]) def test_generate_content_get_range_limit(self, swh_storage, swh_contents): """content_get_range paginates results if limit exceeded""" contents_map = {c.sha1: c.to_dict() for c in swh_contents} # input the list of sha1s we want from storage get_sha1s = sorted([c.sha1 for c in swh_contents if c.status != "absent"]) start = get_sha1s[0] end = get_sha1s[-1] # retrieve contents limited to n-1 results limited_results = len(get_sha1s) - 1 actual_result = swh_storage.content_get_range(start, end, limit=limited_results) actual_contents = actual_result["contents"] assert actual_result["next"] == get_sha1s[-1] assert len(actual_contents) == limited_results expected_contents = [contents_map[sha1] for sha1 in get_sha1s[:-1]] assert_contents_ok(expected_contents, actual_contents, ["sha1"]) # retrieve next part actual_results2 = swh_storage.content_get_range(start=end, end=end) assert actual_results2["next"] is None actual_contents2 = actual_results2["contents"] assert len(actual_contents2) == 1 assert_contents_ok([contents_map[get_sha1s[-1]]], actual_contents2, ["sha1"]) def test_origin_get_range_from_zero(self, swh_storage, swh_origins): actual_origins = list( swh_storage.origin_get_range(origin_from=0, origin_count=0) ) assert len(actual_origins) == 0 actual_origins = list( swh_storage.origin_get_range(origin_from=0, origin_count=1) ) assert len(actual_origins) == 1 assert actual_origins[0]["id"] == 1 assert actual_origins[0]["url"] == swh_origins[0].url @pytest.mark.parametrize( "origin_from,origin_count", [(1, 1), (1, 10), (1, 20), (1, 101), (11, 0), (11, 10), (91, 11)], ) def test_origin_get_range( self, swh_storage, swh_origins, origin_from, origin_count ): actual_origins = list( swh_storage.origin_get_range( origin_from=origin_from, origin_count=origin_count ) ) origins_with_id = list(enumerate(swh_origins, start=1)) expected_origins = [ {"url": origin.url, "id": origin_id,} for (origin_id, origin) in origins_with_id[ origin_from - 1 : origin_from + origin_count - 1 ] ] assert actual_origins == expected_origins @pytest.mark.parametrize("limit", [1, 7, 10, 100, 1000]) def test_origin_list(self, swh_storage, swh_origins, limit): returned_origins = [] page_token = None i = 0 while True: result = swh_storage.origin_list(page_token=page_token, limit=limit) assert len(result["origins"]) <= limit returned_origins.extend(origin["url"] for origin in result["origins"]) i += 1 page_token = result.get("next_page_token") if page_token is None: assert i * limit >= len(swh_origins) break else: assert len(result["origins"]) == limit expected_origins = [origin.url for origin in swh_origins] assert sorted(returned_origins) == sorted(expected_origins) ORIGINS = [ Origin(url="https://github.com/user1/repo1"), Origin(url="https://github.com/user2/repo1"), Origin(url="https://github.com/user3/repo1"), Origin(url="https://gitlab.com/user1/repo1"), Origin(url="https://gitlab.com/user2/repo1"), Origin(url="https://forge.softwareheritage.org/source/repo1"), ] def test_origin_count(self, swh_storage): swh_storage.origin_add(self.ORIGINS) assert swh_storage.origin_count("github") == 3 assert swh_storage.origin_count("gitlab") == 2 assert swh_storage.origin_count(".*user.*", regexp=True) == 5 assert swh_storage.origin_count(".*user.*", regexp=False) == 0 assert swh_storage.origin_count(".*user1.*", regexp=True) == 2 assert swh_storage.origin_count(".*user1.*", regexp=False) == 0 def test_origin_count_with_visit_no_visits(self, swh_storage): swh_storage.origin_add(self.ORIGINS) # none of them have visits, so with_visit=True => 0 assert swh_storage.origin_count("github", with_visit=True) == 0 assert swh_storage.origin_count("gitlab", with_visit=True) == 0 assert swh_storage.origin_count(".*user.*", regexp=True, with_visit=True) == 0 assert swh_storage.origin_count(".*user.*", regexp=False, with_visit=True) == 0 assert swh_storage.origin_count(".*user1.*", regexp=True, with_visit=True) == 0 assert swh_storage.origin_count(".*user1.*", regexp=False, with_visit=True) == 0 def test_origin_count_with_visit_with_visits_no_snapshot(self, swh_storage): swh_storage.origin_add(self.ORIGINS) origin_url = "https://github.com/user1/repo1" visit = OriginVisit(origin=origin_url, date=now(), type="git",) swh_storage.origin_visit_add([visit]) assert swh_storage.origin_count("github", with_visit=False) == 3 # it has a visit, but no snapshot, so with_visit=True => 0 assert swh_storage.origin_count("github", with_visit=True) == 0 assert swh_storage.origin_count("gitlab", with_visit=False) == 2 # these gitlab origins have no visit assert swh_storage.origin_count("gitlab", with_visit=True) == 0 assert ( swh_storage.origin_count("github.*user1", regexp=True, with_visit=False) == 1 ) assert ( swh_storage.origin_count("github.*user1", regexp=True, with_visit=True) == 0 ) assert swh_storage.origin_count("github", regexp=True, with_visit=True) == 0 def test_origin_count_with_visit_with_visits_and_snapshot( self, swh_storage, sample_data_model ): snapshot = sample_data_model["snapshot"][0] swh_storage.origin_add(self.ORIGINS) swh_storage.snapshot_add([snapshot]) origin_url = "https://github.com/user1/repo1" visit = OriginVisit(origin=origin_url, date=now(), type="git",) visit = swh_storage.origin_visit_add([visit])[0] swh_storage.origin_visit_status_add( [ OriginVisitStatus( origin=origin_url, visit=visit.visit, date=now(), status="ongoing", snapshot=snapshot.id, ) ] ) assert swh_storage.origin_count("github", with_visit=False) == 3 # github/user1 has a visit and a snapshot, so with_visit=True => 1 assert swh_storage.origin_count("github", with_visit=True) == 1 assert ( swh_storage.origin_count("github.*user1", regexp=True, with_visit=False) == 1 ) assert ( swh_storage.origin_count("github.*user1", regexp=True, with_visit=True) == 1 ) assert swh_storage.origin_count("github", regexp=True, with_visit=True) == 1 @settings(suppress_health_check=[HealthCheck.too_slow]) @given(strategies.lists(objects(split_content=True), max_size=2)) def test_add_arbitrary(self, swh_storage, objects): for (obj_type, obj) in objects: if obj.object_type == "origin_visit": swh_storage.origin_add([Origin(url=obj.origin)]) visit = OriginVisit(origin=obj.origin, date=obj.date, type=obj.type,) swh_storage.origin_visit_add([visit]) else: method = getattr(swh_storage, obj_type + "_add") try: method([obj]) except HashCollision: pass @pytest.mark.db class TestLocalStorage: """Test the local storage""" # This test is only relevant on the local storage, with an actual # objstorage raising an exception def test_content_add_objstorage_exception(self, swh_storage, sample_data_model): content = sample_data_model["content"][0] swh_storage.objstorage.content_add = Mock( side_effect=Exception("mocked broken objstorage") ) with pytest.raises(Exception, match="mocked broken"): swh_storage.content_add([content]) missing = list(swh_storage.content_missing([content.hashes()])) assert missing == [content.sha1] @pytest.mark.db class TestStorageRaceConditions: @pytest.mark.xfail def test_content_add_race(self, swh_storage, sample_data_model): content = sample_data_model["content"][0] results = queue.Queue() def thread(): try: with db_transaction(swh_storage) as (db, cur): ret = swh_storage.content_add([content], db=db, cur=cur) results.put((threading.get_ident(), "data", ret)) except Exception as e: results.put((threading.get_ident(), "exc", e)) t1 = threading.Thread(target=thread) t2 = threading.Thread(target=thread) t1.start() # this avoids the race condition # import time # time.sleep(1) t2.start() t1.join() t2.join() r1 = results.get(block=False) r2 = results.get(block=False) with pytest.raises(queue.Empty): results.get(block=False) assert r1[0] != r2[0] assert r1[1] == "data", "Got exception %r in Thread%s" % (r1[2], r1[0]) assert r2[1] == "data", "Got exception %r in Thread%s" % (r2[2], r2[0]) @pytest.mark.db class TestPgStorage: """This class is dedicated for the rare case where the schema needs to be altered dynamically. Otherwise, the tests could be blocking when ran altogether. """ def test_content_update_with_new_cols(self, swh_storage, sample_data_model): content, content2 = sample_data_model["content"][:2] swh_storage.journal_writer.journal = None # TODO, not supported with db_transaction(swh_storage) as (_, cur): cur.execute( """alter table content add column test text default null, add column test2 text default null""" ) swh_storage.content_add([content]) cont = content.to_dict() cont["test"] = "value-1" cont["test2"] = "value-2" swh_storage.content_update([cont], keys=["test", "test2"]) with db_transaction(swh_storage) as (_, cur): cur.execute( """SELECT sha1, sha1_git, sha256, length, status, test, test2 FROM content WHERE sha1 = %s""", (cont["sha1"],), ) datum = cur.fetchone() assert datum == ( cont["sha1"], cont["sha1_git"], cont["sha256"], cont["length"], "visible", cont["test"], cont["test2"], ) with db_transaction(swh_storage) as (_, cur): cur.execute( """alter table content drop column test, drop column test2""" ) def test_content_add_db(self, swh_storage, sample_data_model): content = sample_data_model["content"][0] actual_result = swh_storage.content_add([content]) assert actual_result == { "content:add": 1, "content:add:bytes": content.length, } if hasattr(swh_storage, "objstorage"): assert content.sha1 in swh_storage.objstorage.objstorage with db_transaction(swh_storage) as (_, cur): cur.execute( "SELECT sha1, sha1_git, sha256, length, status" " FROM content WHERE sha1 = %s", (content.sha1,), ) datum = cur.fetchone() assert datum == ( content.sha1, content.sha1_git, content.sha256, content.length, "visible", ) contents = [ obj for (obj_type, obj) in swh_storage.journal_writer.journal.objects if obj_type == "content" ] assert len(contents) == 1 assert contents[0] == attr.evolve(content, data=None) def test_content_add_metadata_db(self, swh_storage, sample_data_model): content = attr.evolve(sample_data_model["content"][0], data=None, ctime=now()) actual_result = swh_storage.content_add_metadata([content]) assert actual_result == { "content:add": 1, } if hasattr(swh_storage, "objstorage"): assert content.sha1 not in swh_storage.objstorage.objstorage with db_transaction(swh_storage) as (_, cur): cur.execute( "SELECT sha1, sha1_git, sha256, length, status" " FROM content WHERE sha1 = %s", (content.sha1,), ) datum = cur.fetchone() assert datum == ( content.sha1, content.sha1_git, content.sha256, content.length, "visible", ) contents = [ obj for (obj_type, obj) in swh_storage.journal_writer.journal.objects if obj_type == "content" ] assert len(contents) == 1 assert contents[0] == content def test_skipped_content_add_db(self, swh_storage, sample_data_model): content, cont2 = sample_data_model["skipped_content"][:2] content2 = attr.evolve(cont2, blake2s256=None) actual_result = swh_storage.skipped_content_add([content, content, content2]) assert 2 <= actual_result.pop("skipped_content:add") <= 3 assert actual_result == {} with db_transaction(swh_storage) as (_, cur): cur.execute( "SELECT sha1, sha1_git, sha256, blake2s256, " "length, status, reason " "FROM skipped_content ORDER BY sha1_git" ) dbdata = cur.fetchall() assert len(dbdata) == 2 assert dbdata[0] == ( content.sha1, content.sha1_git, content.sha256, content.blake2s256, content.length, "absent", "Content too long", ) assert dbdata[1] == ( content2.sha1, content2.sha1_git, content2.sha256, content2.blake2s256, content2.length, "absent", "Content too long", ) def test_clear_buffers(self, swh_storage): """Calling clear buffers on real storage does nothing """ assert swh_storage.clear_buffers() is None def test_flush(self, swh_storage): """Calling clear buffers on real storage does nothing """ assert swh_storage.flush() == {}