diff --git a/swh/indexer/indexer.py b/swh/indexer/indexer.py index 984ffbf..fd47856 100644 --- a/swh/indexer/indexer.py +++ b/swh/indexer/indexer.py @@ -1,613 +1,614 @@ # Copyright (C) 2016-2020 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 abc from contextlib import contextmanager import logging import os import shutil import tempfile from typing import Any, Dict, Generic, Iterator, List, Optional, Set, TypeVar, Union import warnings from swh.core import utils from swh.core.config import load_from_envvar, merge_configs from swh.indexer.storage import INDEXER_CFG_KEY, PagedResult, Sha1, get_indexer_storage from swh.indexer.storage.interface import IndexerStorageInterface from swh.model import hashutil from swh.model.model import Revision, Sha1Git from swh.objstorage.exc import ObjNotFoundError from swh.objstorage.factory import get_objstorage from swh.scheduler import CONFIG as SWH_CONFIG from swh.storage import get_storage from swh.storage.interface import StorageInterface @contextmanager def write_to_temp(filename: str, data: bytes, working_directory: str) -> Iterator[str]: """Write the sha1's content in a temporary file. Args: filename: one of sha1's many filenames data: the sha1's content to write in temporary file working_directory: the directory into which the file is written Returns: The path to the temporary file created. That file is filled in with the raw content's data. """ os.makedirs(working_directory, exist_ok=True) temp_dir = tempfile.mkdtemp(dir=working_directory) content_path = os.path.join(temp_dir, filename) with open(content_path, "wb") as f: f.write(data) yield content_path shutil.rmtree(temp_dir) DEFAULT_CONFIG = { INDEXER_CFG_KEY: {"cls": "memory"}, "storage": {"cls": "memory"}, "objstorage": {"cls": "memory"}, } TId = TypeVar("TId") """type of the ids of index()ed objects.""" TData = TypeVar("TData") """type of the objects passed to index().""" TResult = TypeVar("TResult") """return type of index()""" class BaseIndexer(Generic[TId, TData, TResult], metaclass=abc.ABCMeta): """Base class for indexers to inherit from. The main entry point is the :func:`run` function which is in charge of triggering the computations on the batch dict/ids received. Indexers can: - filter out ids whose data has already been indexed. - retrieve ids data from storage or objstorage - index this data depending on the object and store the result in storage. To implement a new object type indexer, inherit from the BaseIndexer and implement indexing: :meth:`~BaseIndexer.run`: object_ids are different depending on object. For example: sha1 for content, sha1_git for revision, directory, release, and id for origin To implement a new concrete indexer, inherit from the object level classes: :class:`ContentIndexer`, :class:`RevisionIndexer`, :class:`OriginIndexer`. Then you need to implement the following functions: :meth:`~BaseIndexer.filter`: filter out data already indexed (in storage). :meth:`~BaseIndexer.index_object`: compute index on id with data (retrieved from the storage or the objstorage by the id key) and return the resulting index computation. :meth:`~BaseIndexer.persist_index_computations`: persist the results of multiple index computations in the storage. The new indexer implementation can also override the following functions: :meth:`~BaseIndexer.prepare`: Configuration preparation for the indexer. When overriding, this must call the `super().prepare()` instruction. :meth:`~BaseIndexer.check`: Configuration check for the indexer. When overriding, this must call the `super().check()` instruction. :meth:`~BaseIndexer.register_tools`: This should return a dict of the tool(s) to use when indexing or filtering. """ results: List[TResult] USE_TOOLS = True catch_exceptions = True """Prevents exceptions in `index()` from raising too high. Set to False in tests to properly catch all exceptions.""" scheduler: Any storage: StorageInterface objstorage: Any idx_storage: IndexerStorageInterface def __init__(self, config=None, **kw) -> None: """Prepare and check that the indexer is ready to run. """ super().__init__() if config is not None: self.config = config elif SWH_CONFIG: self.config = SWH_CONFIG.copy() else: self.config = load_from_envvar() self.config = merge_configs(DEFAULT_CONFIG, self.config) self.prepare() self.check() self.log.debug("%s: config=%s", self, self.config) def prepare(self) -> None: """Prepare the indexer's needed runtime configuration. Without this step, the indexer cannot possibly run. """ config_storage = self.config.get("storage") if config_storage: self.storage = get_storage(**config_storage) self.objstorage = get_objstorage(**self.config["objstorage"]) idx_storage = self.config[INDEXER_CFG_KEY] self.idx_storage = get_indexer_storage(**idx_storage) _log = logging.getLogger("requests.packages.urllib3.connectionpool") _log.setLevel(logging.WARN) self.log = logging.getLogger("swh.indexer") if self.USE_TOOLS: self.tools = list(self.register_tools(self.config.get("tools", []))) self.results = [] @property def tool(self) -> Dict: return self.tools[0] def check(self) -> None: """Check the indexer's configuration is ok before proceeding. If ok, does nothing. If not raise error. """ if self.USE_TOOLS and not self.tools: raise ValueError("Tools %s is unknown, cannot continue" % self.tools) def _prepare_tool(self, tool: Dict[str, Any]) -> Dict[str, Any]: """Prepare the tool dict to be compliant with the storage api. """ return {"tool_%s" % key: value for key, value in tool.items()} def register_tools( self, tools: Union[Dict[str, Any], List[Dict[str, Any]]] ) -> List[Dict[str, Any]]: """Permit to register tools to the storage. Add a sensible default which can be overridden if not sufficient. (For now, all indexers use only one tool) Expects the self.config['tools'] property to be set with one or more tools. Args: tools: Either a dict or a list of dict. Returns: list: List of dicts with additional id key. Raises: ValueError: if not a list nor a dict. """ if isinstance(tools, list): tools = list(map(self._prepare_tool, tools)) elif isinstance(tools, dict): tools = [self._prepare_tool(tools)] else: raise ValueError("Configuration tool(s) must be a dict or list!") if tools: return self.idx_storage.indexer_configuration_add(tools) else: return [] def index(self, id: TId, data: Optional[TData], **kwargs) -> List[TResult]: """Index computation for the id and associated raw data. Args: id: identifier or Dict object data: id's data from storage or objstorage depending on object type Returns: dict: a dict that makes sense for the :meth:`.persist_index_computations` method. """ raise NotImplementedError() def filter(self, ids: List[TId]) -> Iterator[TId]: """Filter missing ids for that particular indexer. Args: ids: list of ids Yields: iterator of missing ids """ yield from ids @abc.abstractmethod def persist_index_computations(self, results: List[TResult]) -> Dict[str, int]: """Persist the computation resulting from the index. Args: results: List of results. One result is the result of the index function. Returns: a summary dict of what has been inserted in the storage """ return {} class ContentIndexer(BaseIndexer[Sha1, bytes, TResult], Generic[TResult]): """A content indexer working on a list of ids directly. To work on indexer partition, use the :class:`ContentPartitionIndexer` instead. Note: :class:`ContentIndexer` is not an instantiable object. To use it, one should inherit from this class and override the methods mentioned in the :class:`BaseIndexer` class. """ def run(self, ids: List[Sha1], **kwargs) -> Dict: """Given a list of ids: - retrieve the content from the storage - execute the indexing computations - store the results Args: ids (Iterable[Union[bytes, str]]): sha1's identifier list **kwargs: passed to the `index` method Returns: A summary Dict of the task's status """ if "policy_update" in kwargs: warnings.warn( "'policy_update' argument is deprecated and ignored.", DeprecationWarning, ) del kwargs["policy_update"] sha1s = [ hashutil.hash_to_bytes(id_) if isinstance(id_, str) else id_ for id_ in ids ] results = [] summary: Dict = {"status": "uneventful"} try: for sha1 in sha1s: try: raw_content = self.objstorage.get(sha1) except ObjNotFoundError: self.log.warning( "Content %s not found in objstorage" % hashutil.hash_to_hex(sha1) ) continue res = self.index(sha1, raw_content, **kwargs) if res: # If no results, skip it results.extend(res) summary["status"] = "eventful" summary = self.persist_index_computations(results) self.results = results except Exception: if not self.catch_exceptions: raise self.log.exception("Problem when reading contents metadata.") summary["status"] = "failed" return summary class ContentPartitionIndexer(BaseIndexer[Sha1, bytes, TResult], Generic[TResult]): """A content partition indexer. This expects as input a partition_id and a nb_partitions. This will then index the contents within that partition. To work on a list of ids, use the :class:`ContentIndexer` instead. Note: :class:`ContentPartitionIndexer` is not an instantiable object. To use it, one should inherit from this class and override the methods mentioned in the :class:`BaseIndexer` class. """ @abc.abstractmethod def indexed_contents_in_partition( self, partition_id: int, nb_partitions: int, page_token: Optional[str] = None ) -> PagedResult[Sha1]: """Retrieve indexed contents within range [start, end]. Args: partition_id: Index of the partition to fetch nb_partitions: Total number of partitions to split into page_token: opaque token used for pagination Returns: PagedResult of Sha1. If next_page_token is None, there is no more data to fetch """ pass def _list_contents_to_index( self, partition_id: int, nb_partitions: int, indexed: Set[Sha1] ) -> Iterator[Sha1]: """Compute from storage the new contents to index in the partition_id . The already indexed contents are skipped. Args: partition_id: Index of the partition to fetch data from nb_partitions: Total number of partition indexed: Set of content already indexed. Yields: Sha1 id (bytes) of contents to index """ if not isinstance(partition_id, int) or not isinstance(nb_partitions, int): raise TypeError( f"identifiers must be int, not {partition_id!r} and {nb_partitions!r}." ) next_page_token = None while True: result = self.storage.content_get_partition( partition_id, nb_partitions, page_token=next_page_token ) contents = result.results for c in contents: _id = hashutil.hash_to_bytes(c.sha1) if _id in indexed: continue yield _id next_page_token = result.next_page_token if next_page_token is None: break def _index_contents( self, partition_id: int, nb_partitions: int, indexed: Set[Sha1], **kwargs: Any ) -> Iterator[TResult]: """Index the contents within the partition_id. Args: start: Starting bound from range identifier end: End range identifier indexed: Set of content already indexed. Yields: indexing result as dict to persist in the indexer backend """ for sha1 in self._list_contents_to_index(partition_id, nb_partitions, indexed): try: raw_content = self.objstorage.get(sha1) except ObjNotFoundError: self.log.warning(f"Content {sha1.hex()} not found in objstorage") continue yield from self.index(sha1, raw_content, **kwargs) def _index_with_skipping_already_done( self, partition_id: int, nb_partitions: int ) -> Iterator[TResult]: """Index not already indexed contents within the partition partition_id Args: partition_id: Index of the partition to fetch nb_partitions: Total number of partitions to split into Yields: indexing result as dict to persist in the indexer backend """ next_page_token = None contents = set() while True: indexed_page = self.indexed_contents_in_partition( partition_id, nb_partitions, page_token=next_page_token ) for sha1 in indexed_page.results: contents.add(sha1) - yield from self._index_contents(partition_id, nb_partitions, contents) next_page_token = indexed_page.next_page_token if next_page_token is None: break + return self._index_contents(partition_id, nb_partitions, contents) + def run( self, partition_id: int, nb_partitions: int, skip_existing: bool = True, **kwargs, ) -> Dict: """Given a partition of content ids, index the contents within. Either the indexer is incremental (filter out existing computed data) or it computes everything from scratch. Args: partition_id: Index of the partition to fetch nb_partitions: Total number of partitions to split into skip_existing: Skip existing indexed data (default) or not **kwargs: passed to the `index` method Returns: dict with the indexing task status """ summary: Dict[str, Any] = {"status": "uneventful"} count = 0 try: if skip_existing: gen = self._index_with_skipping_already_done( partition_id, nb_partitions ) else: gen = self._index_contents(partition_id, nb_partitions, indexed=set([])) count_object_added_key: Optional[str] = None for contents in utils.grouper(gen, n=self.config["write_batch_size"]): res = self.persist_index_computations(list(contents)) if not count_object_added_key: count_object_added_key = list(res.keys())[0] count += res[count_object_added_key] if count > 0: summary["status"] = "eventful" except Exception: if not self.catch_exceptions: raise self.log.exception("Problem when computing metadata.") summary["status"] = "failed" if count > 0 and count_object_added_key: summary[count_object_added_key] = count return summary class OriginIndexer(BaseIndexer[str, None, TResult], Generic[TResult]): """An object type indexer, inherits from the :class:`BaseIndexer` and implements Origin indexing using the run method Note: the :class:`OriginIndexer` is not an instantiable object. To use it in another context one should inherit from this class and override the methods mentioned in the :class:`BaseIndexer` class. """ def run(self, origin_urls: List[str], **kwargs) -> Dict: """Given a list of origin urls: - retrieve origins from storage - execute the indexing computations - store the results Args: origin_urls: list of origin urls. **kwargs: passed to the `index` method """ if "policy_update" in kwargs: warnings.warn( "'policy_update' argument is deprecated and ignored.", DeprecationWarning, ) del kwargs["policy_update"] summary: Dict[str, Any] = {"status": "uneventful"} try: results = self.index_list(origin_urls, **kwargs) except Exception: if not self.catch_exceptions: raise summary["status"] = "failed" return summary summary_persist = self.persist_index_computations(results) self.results = results if summary_persist: for value in summary_persist.values(): if value > 0: summary["status"] = "eventful" summary.update(summary_persist) return summary def index_list(self, origin_urls: List[str], **kwargs) -> List[TResult]: results = [] for origin_url in origin_urls: try: results.extend(self.index(origin_url, **kwargs)) except Exception: self.log.exception("Problem when processing origin %s", origin_url) raise return results class RevisionIndexer(BaseIndexer[Sha1Git, Revision, TResult], Generic[TResult]): """An object type indexer, inherits from the :class:`BaseIndexer` and implements Revision indexing using the run method Note: the :class:`RevisionIndexer` is not an instantiable object. To use it in another context one should inherit from this class and override the methods mentioned in the :class:`BaseIndexer` class. """ def run(self, ids: List[Sha1Git], **kwargs) -> Dict: """Given a list of sha1_gits: - retrieve revisions from storage - execute the indexing computations - store the results Args: ids: sha1_git's identifier list """ if "policy_update" in kwargs: warnings.warn( "'policy_update' argument is deprecated and ignored.", DeprecationWarning, ) del kwargs["policy_update"] summary: Dict[str, Any] = {"status": "uneventful"} results = [] revision_ids = [ hashutil.hash_to_bytes(id_) if isinstance(id_, str) else id_ for id_ in ids ] for (rev_id, rev) in zip(revision_ids, self.storage.revision_get(revision_ids)): if not rev: # TODO: call self.index() with rev=None? self.log.warning( "Revision %s not found in storage", hashutil.hash_to_hex(rev_id) ) continue try: results.extend(self.index(rev_id, rev)) except Exception: if not self.catch_exceptions: raise self.log.exception("Problem when processing revision") summary["status"] = "failed" return summary summary_persist = self.persist_index_computations(results) if summary_persist: for value in summary_persist.values(): if value > 0: summary["status"] = "eventful" summary.update(summary_persist) self.results = results return summary diff --git a/swh/indexer/tests/test_indexer.py b/swh/indexer/tests/test_indexer.py index 10e7155..a5ff13e 100644 --- a/swh/indexer/tests/test_indexer.py +++ b/swh/indexer/tests/test_indexer.py @@ -1,106 +1,157 @@ # 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 typing import Any, Dict, List, Optional from unittest.mock import Mock import pytest from swh.indexer.indexer import ( ContentIndexer, ContentPartitionIndexer, OriginIndexer, RevisionIndexer, ) from swh.indexer.storage import PagedResult, Sha1 +from swh.model.model import Content from .utils import BASE_TEST_CONFIG class _TestException(Exception): pass class CrashingIndexerMixin: USE_TOOLS = False def index( self, id: Any, data: Optional[Any] = None, **kwargs ) -> List[Dict[str, Any]]: raise _TestException() def persist_index_computations(self, results) -> Dict[str, int]: return {} def indexed_contents_in_partition( self, partition_id: int, nb_partitions: int, page_token: Optional[str] = None ) -> PagedResult[Sha1]: raise _TestException() class CrashingContentIndexer(CrashingIndexerMixin, ContentIndexer): pass class CrashingContentPartitionIndexer(CrashingIndexerMixin, ContentPartitionIndexer): pass class CrashingRevisionIndexer(CrashingIndexerMixin, RevisionIndexer): pass class CrashingOriginIndexer(CrashingIndexerMixin, OriginIndexer): pass +class TrivialContentPartitionIndexer(ContentPartitionIndexer[str]): + USE_TOOLS = False + + def index(self, id: bytes, data: Optional[bytes], **kwargs) -> List[str]: + return ["indexed " + id.decode()] + + def indexed_contents_in_partition( + self, partition_id: int, nb_partitions: int, page_token: Optional[str] = None + ) -> PagedResult[Sha1]: + if page_token is None: + return PagedResult(results=[b"excluded hash"], next_page_token="not none") + elif page_token == "not none": + return PagedResult(results=[b"other excluded hash"], next_page_token=None) + else: + assert False, page_token + + def persist_index_computations(self, results: List[str]) -> Dict[str, int]: + self._results.append(results) # type: ignore + return {"nb_added": len(results)} + + def test_content_indexer_catch_exceptions(): indexer = CrashingContentIndexer(config=BASE_TEST_CONFIG) indexer.objstorage = Mock() indexer.objstorage.get.return_value = b"content" assert indexer.run([b"foo"]) == {"status": "failed"} indexer.catch_exceptions = False with pytest.raises(_TestException): indexer.run([b"foo"]) def test_revision_indexer_catch_exceptions(): indexer = CrashingRevisionIndexer(config=BASE_TEST_CONFIG) indexer.storage = Mock() indexer.storage.revision_get.return_value = ["rev"] assert indexer.run([b"foo"]) == {"status": "failed"} indexer.catch_exceptions = False with pytest.raises(_TestException): indexer.run([b"foo"]) def test_origin_indexer_catch_exceptions(): indexer = CrashingOriginIndexer(config=BASE_TEST_CONFIG) assert indexer.run(["http://example.org"]) == {"status": "failed"} indexer.catch_exceptions = False with pytest.raises(_TestException): indexer.run(["http://example.org"]) def test_content_partition_indexer_catch_exceptions(): indexer = CrashingContentPartitionIndexer( config={**BASE_TEST_CONFIG, "write_batch_size": 42} ) assert indexer.run(0, 42) == {"status": "failed"} indexer.catch_exceptions = False with pytest.raises(_TestException): indexer.run(0, 42) + + +def test_content_partition_indexer(): + # TODO: simplify the mocking in this test + indexer = TrivialContentPartitionIndexer( + config={**BASE_TEST_CONFIG, "write_batch_size": 10,} # doesn't matter + ) + indexer.catch_exceptions = False + indexer._results = [] + indexer.storage = Mock() + indexer.storage.content_get_partition = lambda *args, **kwargs: PagedResult( + results=[ + Content(sha1=c, sha1_git=c, sha256=c, blake2s256=c, length=42) + for c in [ + b"hash1", + b"excluded hash", + b"hash2", + b"other excluded hash", + b"hash3", + ] + ], + next_page_token=None, + ) + indexer.objstorage = Mock() + indexer.objstorage.get = lambda id: b"foo" + nb_partitions = 1 + partition_id = 0 + indexer.run(partition_id, nb_partitions) + assert indexer._results == [["indexed hash1", "indexed hash2", "indexed hash3"]]