diff --git a/swh/storage/cassandra/converters.py b/swh/storage/cassandra/converters.py index 595d78d7..d1d4cf50 100644 --- a/swh/storage/cassandra/converters.py +++ b/swh/storage/cassandra/converters.py @@ -1,76 +1,69 @@ # Copyright (C) 2019-2020 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 copy import json import attr +from copy import deepcopy from typing import Dict from swh.model.model import ( RevisionType, ObjectType, Revision, Release, ) from swh.model.hashutil import DEFAULT_ALGORITHMS from ..converters import git_headers_to_db, db_to_git_headers from .common import Row -def revision_to_db(revision: Revision) -> Revision: +class CassObject(dict): + __getattr__ = dict.__getitem__ + + +def revision_to_db(revision: Revision) -> CassObject: + # we use a deepcopy of the dict because we do not want to recurse the + # Model->dict conversion (to keep Timestamp & al. entities), BUT we do not + # want to modify original metadata (embedded in the Model entity), so we + # non-recursively convert it as a dict but make a deep copy. + db_revision = CassObject(deepcopy(attr.asdict(revision, recurse=False))) metadata = revision.metadata if metadata and 'extra_headers' in metadata: - metadata = copy.deepcopy(metadata) - metadata['extra_headers'] = git_headers_to_db( + db_revision['metadata']['extra_headers'] = git_headers_to_db( metadata['extra_headers']) + db_revision['metadata'] = json.dumps(db_revision['metadata']) + db_revision['type'] = db_revision['type'].value + return db_revision - revision = attr.evolve( - revision, - type=revision.type.value, - metadata=json.dumps(metadata), - ) - - return revision - -def revision_from_db(revision) -> Revision: - metadata = json.loads(revision.metadata) +def revision_from_db(**kwargs) -> Revision: + kwargs['metadata'] = metadata = json.loads(kwargs['metadata']) if metadata and 'extra_headers' in metadata: extra_headers = db_to_git_headers( metadata['extra_headers']) metadata['extra_headers'] = extra_headers - rev = attr.evolve( - revision, - type=RevisionType(revision.type), - metadata=metadata, - ) - - return rev + kwargs['type'] = RevisionType(kwargs['type']) + return Revision(**kwargs) -def release_to_db(release: Release) -> Release: - release = attr.evolve( - release, - target_type=release.target_type.value, - ) - return release +def release_to_db(release: Release) -> CassObject: + db_release = CassObject(attr.asdict(release, recurse=False)) + db_release['target_type'] = release.target_type.value + return db_release -def release_from_db(release: Release) -> Release: - release = attr.evolve( - release, - target_type=ObjectType(release.target_type), - ) - return release +def release_from_db(**kwargs) -> Release: + kwargs['target_type'] = ObjectType(kwargs['target_type']) + return Release(**kwargs) def row_to_content_hashes(row: Row) -> Dict[str, bytes]: """Convert cassandra row to a content hashes """ hashes = {} for algo in DEFAULT_ALGORITHMS: hashes[algo] = getattr(row, algo) return hashes diff --git a/swh/storage/cassandra/storage.py b/swh/storage/cassandra/storage.py index d45ffc77..7d03ec7b 100644 --- a/swh/storage/cassandra/storage.py +++ b/swh/storage/cassandra/storage.py @@ -1,988 +1,982 @@ # Copyright (C) 2019-2020 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 json import random import re from typing import Any, Dict, List, Iterable, Optional, Union import uuid import attr import dateutil from swh.model.model import ( Revision, Release, Directory, DirectoryEntry, Content, SkippedContent, OriginVisit, Snapshot, Origin ) from swh.model.hashutil import DEFAULT_ALGORITHMS from swh.storage.objstorage import ObjStorage from swh.storage.writer import JournalWriter from swh.storage.validate import convert_validation_exceptions from swh.storage.utils import now from ..exc import StorageArgumentException, HashCollision from .common import TOKEN_BEGIN, TOKEN_END from .converters import ( revision_to_db, revision_from_db, release_to_db, release_from_db, ) from .cql import CqlRunner from .schema import HASH_ALGORITHMS # Max block size of contents to return BULK_BLOCK_CONTENT_LEN_MAX = 10000 class CassandraStorage: def __init__(self, hosts, keyspace, objstorage, port=9042, journal_writer=None): self._cql_runner = CqlRunner(hosts, keyspace, port) self.journal_writer = JournalWriter(journal_writer) self.objstorage = ObjStorage(objstorage) def check_config(self, *, check_write): self._cql_runner.check_read() return True def _content_get_from_hash(self, algo, hash_) -> Iterable: """From the name of a hash algorithm and a value of that hash, looks up the "hash -> token" secondary table (content_by_{algo}) to get tokens. Then, looks up the main table (content) to get all contents with that token, and filters out contents whose hash doesn't match.""" found_tokens = self._cql_runner.content_get_tokens_from_single_hash( algo, hash_) for token in found_tokens: # Query the main table ('content'). res = self._cql_runner.content_get_from_token(token) for row in res: # re-check the the hash (in case of murmur3 collision) if getattr(row, algo) == hash_: yield row def _content_add(self, contents: List[Content], with_data: bool) -> Dict: # Filter-out content already in the database. contents = [c for c in contents if not self._cql_runner.content_get_from_pk(c.to_dict())] self.journal_writer.content_add(contents) if with_data: # First insert to the objstorage, if the endpoint is # `content_add` (as opposed to `content_add_metadata`). # TODO: this should probably be done in concurrently to inserting # in index tables (but still before the main table; so an entry is # only added to the main table after everything else was # successfully inserted. summary = self.objstorage.content_add( c for c in contents if c.status != 'absent') content_add_bytes = summary['content:add:bytes'] content_add = 0 for content in contents: content_add += 1 # Check for sha1 or sha1_git collisions. This test is not atomic # with the insertion, so it won't detect a collision if both # contents are inserted at the same time, but it's good enough. # # The proper way to do it would probably be a BATCH, but this # would be inefficient because of the number of partitions we # need to affect (len(HASH_ALGORITHMS)+1, which is currently 5) for algo in {'sha1', 'sha1_git'}: collisions = [] # Get tokens of 'content' rows with the same value for # sha1/sha1_git rows = self._content_get_from_hash( algo, content.get_hash(algo)) for row in rows: if getattr(row, algo) != content.get_hash(algo): # collision of token(partition key), ignore this # row continue for algo in HASH_ALGORITHMS: if getattr(row, algo) != content.get_hash(algo): # This hash didn't match; discard the row. collisions.append({ algo: getattr(row, algo) for algo in HASH_ALGORITHMS}) if collisions: collisions.append(content.hashes()) raise HashCollision( algo, content.get_hash(algo), collisions) (token, insertion_finalizer) = \ self._cql_runner.content_add_prepare(content) # Then add to index tables for algo in HASH_ALGORITHMS: self._cql_runner.content_index_add_one(algo, content, token) # Then to the main table insertion_finalizer() summary = { 'content:add': content_add, } if with_data: summary['content:add:bytes'] = content_add_bytes return summary def content_add(self, content: Iterable[Content]) -> Dict: contents = [attr.evolve(c, ctime=now()) for c in content] return self._content_add(list(contents), with_data=True) def content_update(self, content, keys=[]): raise NotImplementedError( 'content_update is not supported by the Cassandra backend') def content_add_metadata(self, content: Iterable[Content]) -> Dict: return self._content_add(list(content), with_data=False) def content_get(self, content): if len(content) > BULK_BLOCK_CONTENT_LEN_MAX: raise StorageArgumentException( "Sending at most %s contents." % BULK_BLOCK_CONTENT_LEN_MAX) yield from self.objstorage.content_get(content) def content_get_partition( self, partition_id: int, nb_partitions: int, limit: int = 1000, page_token: str = None): if limit is None: raise StorageArgumentException('limit should not be None') # Compute start and end of the range of tokens covered by the # requested partition partition_size = (TOKEN_END-TOKEN_BEGIN)//nb_partitions range_start = TOKEN_BEGIN + partition_id*partition_size range_end = TOKEN_BEGIN + (partition_id+1)*partition_size # offset the range start according to the `page_token`. if page_token is not None: if not (range_start <= int(page_token) <= range_end): raise StorageArgumentException('Invalid page_token.') range_start = int(page_token) # Get the first rows of the range rows = self._cql_runner.content_get_token_range( range_start, range_end, limit) rows = list(rows) if len(rows) == limit: next_page_token: Optional[str] = str(rows[-1].tok+1) else: next_page_token = None return { 'contents': [row._asdict() for row in rows if row.status != 'absent'], 'next_page_token': next_page_token, } def content_get_metadata( self, contents: List[bytes]) -> Dict[bytes, List[Dict]]: result: Dict[bytes, List[Dict]] = {sha1: [] for sha1 in contents} for sha1 in contents: # Get all (sha1, sha1_git, sha256, blake2s256) whose sha1 # matches the argument, from the index table ('content_by_sha1') for row in self._content_get_from_hash('sha1', sha1): content_metadata = row._asdict() content_metadata.pop('ctime') result[content_metadata['sha1']].append(content_metadata) return result def content_find(self, content): # Find an algorithm that is common to all the requested contents. # It will be used to do an initial filtering efficiently. filter_algos = list(set(content).intersection(HASH_ALGORITHMS)) if not filter_algos: raise StorageArgumentException( 'content keys must contain at least one of: ' '%s' % ', '.join(sorted(HASH_ALGORITHMS))) common_algo = filter_algos[0] results = [] rows = self._content_get_from_hash( common_algo, content[common_algo]) for row in rows: # Re-check all the hashes, in case of collisions (either of the # hash of the partition key, or the hashes in it) for algo in HASH_ALGORITHMS: if content.get(algo) and getattr(row, algo) != content[algo]: # This hash didn't match; discard the row. break else: # All hashes match, keep this row. results.append({ **row._asdict(), 'ctime': row.ctime.replace(tzinfo=datetime.timezone.utc) }) return results def content_missing(self, content, key_hash='sha1'): for cont in content: res = self.content_find(cont) if not res: yield cont[key_hash] if any(c['status'] == 'missing' for c in res): yield cont[key_hash] def content_missing_per_sha1(self, contents): return self.content_missing([{'sha1': c for c in contents}]) def content_missing_per_sha1_git(self, contents): return self.content_missing([{'sha1_git': c for c in contents}], key_hash='sha1_git') def content_get_random(self): return self._cql_runner.content_get_random().sha1_git def _skipped_content_get_from_hash(self, algo, hash_) -> Iterable: """From the name of a hash algorithm and a value of that hash, looks up the "hash -> token" secondary table (skipped_content_by_{algo}) to get tokens. Then, looks up the main table (content) to get all contents with that token, and filters out contents whose hash doesn't match.""" found_tokens = \ self._cql_runner.skipped_content_get_tokens_from_single_hash( algo, hash_) for token in found_tokens: # Query the main table ('content'). res = self._cql_runner.skipped_content_get_from_token(token) for row in res: # re-check the the hash (in case of murmur3 collision) if getattr(row, algo) == hash_: yield row def _skipped_content_add(self, contents: Iterable[SkippedContent]) -> Dict: # Filter-out content already in the database. contents = [ c for c in contents if not self._cql_runner.skipped_content_get_from_pk(c.to_dict())] self.journal_writer.skipped_content_add(contents) for content in contents: # Compute token of the row in the main table (token, insertion_finalizer) = \ self._cql_runner.skipped_content_add_prepare(content) # Then add to index tables for algo in HASH_ALGORITHMS: self._cql_runner.skipped_content_index_add_one( algo, content, token) # Then to the main table insertion_finalizer() return { 'skipped_content:add': len(contents) } def skipped_content_add(self, content: Iterable[SkippedContent]) -> Dict: contents = [attr.evolve(c, ctime=now()) for c in content] return self._skipped_content_add(contents) def skipped_content_missing(self, contents): for content in contents: if not self._cql_runner.skipped_content_get_from_pk(content): yield {algo: content[algo] for algo in DEFAULT_ALGORITHMS} def directory_add(self, directories: Iterable[Directory]) -> Dict: directories = list(directories) # Filter out directories that are already inserted. missing = self.directory_missing([dir_.id for dir_ in directories]) directories = [dir_ for dir_ in directories if dir_.id in missing] self.journal_writer.directory_add(directories) for directory in directories: # Add directory entries to the 'directory_entry' table for entry in directory.entries: self._cql_runner.directory_entry_add_one({ **entry.to_dict(), 'directory_id': directory.id }) # Add the directory *after* adding all the entries, so someone # calling snapshot_get_branch in the meantime won't end up # with half the entries. self._cql_runner.directory_add_one(directory.id) return {'directory:add': len(missing)} def directory_missing(self, directories): return self._cql_runner.directory_missing(directories) def _join_dentry_to_content(self, dentry): keys = ( 'status', 'sha1', 'sha1_git', 'sha256', 'length', ) ret = dict.fromkeys(keys) ret.update(dentry.to_dict()) if ret['type'] == 'file': content = self.content_find({'sha1_git': ret['target']}) if content: content = content[0] for key in keys: ret[key] = content[key] return ret def _directory_ls(self, directory_id, recursive, prefix=b''): if self.directory_missing([directory_id]): return rows = list(self._cql_runner.directory_entry_get([directory_id])) for row in rows: # Build and yield the directory entry dict entry = row._asdict() del entry['directory_id'] entry = DirectoryEntry.from_dict(entry) ret = self._join_dentry_to_content(entry) ret['name'] = prefix + ret['name'] ret['dir_id'] = directory_id yield ret if recursive and ret['type'] == 'dir': yield from self._directory_ls( ret['target'], True, prefix + ret['name'] + b'/') def directory_entry_get_by_path(self, directory, paths): return self._directory_entry_get_by_path(directory, paths, b'') def _directory_entry_get_by_path(self, directory, paths, prefix): if not paths: return contents = list(self.directory_ls(directory)) if not contents: return def _get_entry(entries, name): """Finds the entry with the requested name, prepends the prefix (to get its full path), and returns it. If no entry has that name, returns None.""" for entry in entries: if entry['name'] == name: entry = entry.copy() entry['name'] = prefix + entry['name'] return entry first_item = _get_entry(contents, paths[0]) if len(paths) == 1: return first_item if not first_item or first_item['type'] != 'dir': return return self._directory_entry_get_by_path( first_item['target'], paths[1:], prefix + paths[0] + b'/') def directory_ls(self, directory, recursive=False): yield from self._directory_ls(directory, recursive) def directory_get_random(self): return self._cql_runner.directory_get_random().id def revision_add(self, revisions: Iterable[Revision]) -> Dict: revisions = list(revisions) # Filter-out revisions already in the database missing = self.revision_missing([rev.id for rev in revisions]) revisions = [rev for rev in revisions if rev.id in missing] - self.journal_writer.revision_add(revisions) for revision in revisions: - revision = revision_to_db(revision) - if revision: + revobject = revision_to_db(revision) + if revobject: # Add parents first - for (rank, parent) in enumerate(revision.parents): + for (rank, parent) in enumerate(revobject['parents']): self._cql_runner.revision_parent_add_one( - revision.id, rank, parent) + revobject['id'], rank, parent) # Then write the main revision row. # Writing this after all parents were written ensures that # read endpoints don't return a partial view while writing # the parents - self._cql_runner.revision_add_one(revision) + self._cql_runner.revision_add_one(revobject) return {'revision:add': len(revisions)} def revision_missing(self, revisions): return self._cql_runner.revision_missing(revisions) def revision_get(self, revisions): rows = self._cql_runner.revision_get(revisions) revs = {} for row in rows: # TODO: use a single query to get all parents? # (it might have lower latency, but requires more code and more # bandwidth, because revision id would be part of each returned # row) parent_rows = self._cql_runner.revision_parent_get(row.id) # parent_rank is the clustering key, so results are already # sorted by rank. parents = [row.parent_id for row in parent_rows] - - rev = Revision(**row._asdict(), parents=parents) - - rev = revision_from_db(rev) + rev = revision_from_db(**row._asdict(), parents=parents) revs[rev.id] = rev.to_dict() for rev_id in revisions: yield revs.get(rev_id) def _get_parent_revs(self, rev_ids, seen, limit, short): if limit and len(seen) >= limit: return rev_ids = [id_ for id_ in rev_ids if id_ not in seen] if not rev_ids: return seen |= set(rev_ids) # We need this query, even if short=True, to return consistent # results (ie. not return only a subset of a revision's parents # if it is being written) if short: rows = self._cql_runner.revision_get_ids(rev_ids) else: rows = self._cql_runner.revision_get(rev_ids) for row in rows: # TODO: use a single query to get all parents? # (it might have less latency, but requires less code and more # bandwidth (because revision id would be part of each returned # row) parent_rows = self._cql_runner.revision_parent_get(row.id) # parent_rank is the clustering key, so results are already # sorted by rank. parents = [row.parent_id for row in parent_rows] if short: yield (row.id, parents) else: - rev = revision_from_db(Revision( - **row._asdict(), parents=parents)) + rev = revision_from_db( + **row._asdict(), parents=parents) yield rev.to_dict() yield from self._get_parent_revs(parents, seen, limit, short) def revision_log(self, revisions, limit=None): seen = set() yield from self._get_parent_revs(revisions, seen, limit, False) def revision_shortlog(self, revisions, limit=None): seen = set() yield from self._get_parent_revs(revisions, seen, limit, True) def revision_get_random(self): return self._cql_runner.revision_get_random().id def release_add(self, releases: Iterable[Release]) -> Dict: missing = self.release_missing([rel.id for rel in releases]) releases = [rel for rel in releases if rel.id in missing] self.journal_writer.release_add(releases) for release in releases: if release: - release = release_to_db(release) - self._cql_runner.release_add_one(release) + self._cql_runner.release_add_one(release_to_db(release)) return {'release:add': len(missing)} def release_missing(self, releases): return self._cql_runner.release_missing(releases) def release_get(self, releases): rows = self._cql_runner.release_get(releases) rels = {} for row in rows: - release = Release(**row._asdict()) - release = release_from_db(release) + release = release_from_db(**row._asdict()) rels[row.id] = release.to_dict() for rel_id in releases: yield rels.get(rel_id) def release_get_random(self): return self._cql_runner.release_get_random().id def snapshot_add(self, snapshots: Iterable[Snapshot]) -> Dict: missing = self._cql_runner.snapshot_missing( [snp.id for snp in snapshots]) snapshots = [snp for snp in snapshots if snp.id in missing] for snapshot in snapshots: self.journal_writer.snapshot_add(snapshot) # Add branches for (branch_name, branch) in snapshot.branches.items(): if branch is None: target_type = None target = None else: target_type = branch.target_type.value target = branch.target self._cql_runner.snapshot_branch_add_one({ 'snapshot_id': snapshot.id, 'name': branch_name, 'target_type': target_type, 'target': target, }) # Add the snapshot *after* adding all the branches, so someone # calling snapshot_get_branch in the meantime won't end up # with half the branches. self._cql_runner.snapshot_add_one(snapshot.id) return {'snapshot:add': len(snapshots)} def snapshot_missing(self, snapshots): return self._cql_runner.snapshot_missing(snapshots) def snapshot_get(self, snapshot_id): return self.snapshot_get_branches(snapshot_id) def snapshot_get_by_origin_visit(self, origin, visit): try: visit = self._cql_runner.origin_visit_get_one(origin, visit) except IndexError: return None return self.snapshot_get(visit.snapshot) def snapshot_get_latest(self, origin, allowed_statuses=None): visit = self.origin_visit_get_latest( origin, allowed_statuses=allowed_statuses, require_snapshot=True) if visit: assert visit['snapshot'] if self._cql_runner.snapshot_missing([visit['snapshot']]): raise StorageArgumentException( 'Visit references unknown snapshot') return self.snapshot_get_branches(visit['snapshot']) def snapshot_count_branches(self, snapshot_id): if self._cql_runner.snapshot_missing([snapshot_id]): # Makes sure we don't fetch branches for a snapshot that is # being added. return None rows = list(self._cql_runner.snapshot_count_branches(snapshot_id)) assert len(rows) == 1 (nb_none, counts) = rows[0].counts counts = dict(counts) if nb_none: counts[None] = nb_none return counts def snapshot_get_branches(self, snapshot_id, branches_from=b'', branches_count=1000, target_types=None): if self._cql_runner.snapshot_missing([snapshot_id]): # Makes sure we don't fetch branches for a snapshot that is # being added. return None branches = [] while len(branches) < branches_count+1: new_branches = list(self._cql_runner.snapshot_branch_get( snapshot_id, branches_from, branches_count+1)) if not new_branches: break branches_from = new_branches[-1].name new_branches_filtered = new_branches # Filter by target_type if target_types: new_branches_filtered = [ branch for branch in new_branches_filtered if branch.target is not None and branch.target_type in target_types] branches.extend(new_branches_filtered) if len(new_branches) < branches_count+1: break if len(branches) > branches_count: last_branch = branches.pop(-1).name else: last_branch = None branches = { branch.name: { 'target': branch.target, 'target_type': branch.target_type, } if branch.target else None for branch in branches } return { 'id': snapshot_id, 'branches': branches, 'next_branch': last_branch, } def snapshot_get_random(self): return self._cql_runner.snapshot_get_random().id def object_find_by_sha1_git(self, ids): results = {id_: [] for id_ in ids} missing_ids = set(ids) # Mind the order, revision is the most likely one for a given ID, # so we check revisions first. queries = [ ('revision', self._cql_runner.revision_missing), ('release', self._cql_runner.release_missing), ('content', self._cql_runner.content_missing_by_sha1_git), ('directory', self._cql_runner.directory_missing), ] for (object_type, query_fn) in queries: found_ids = missing_ids - set(query_fn(missing_ids)) for sha1_git in found_ids: results[sha1_git].append({ 'sha1_git': sha1_git, 'type': object_type, }) missing_ids.remove(sha1_git) if not missing_ids: # We found everything, skipping the next queries. break return results def origin_get(self, origins): if isinstance(origins, dict): # Old API return_single = True origins = [origins] else: return_single = False if any('id' in origin for origin in origins): raise StorageArgumentException('Origin ids are not supported.') results = [self.origin_get_one(origin) for origin in origins] if return_single: assert len(results) == 1 return results[0] else: return results def origin_get_one(self, origin: Dict[str, Any]) -> Optional[ Dict[str, Any]]: if 'id' in origin: raise StorageArgumentException('Origin ids are not supported.') if 'url' not in origin: raise StorageArgumentException('Missing origin url') rows = self._cql_runner.origin_get_by_url(origin['url']) rows = list(rows) if rows: assert len(rows) == 1 result = rows[0]._asdict() return { 'url': result['url'], } else: return None def origin_get_by_sha1(self, sha1s): results = [] for sha1 in sha1s: rows = self._cql_runner.origin_get_by_sha1(sha1) if rows: results.append({'url': rows.one().url}) else: results.append(None) return results def origin_list(self, page_token: Optional[str] = None, limit: int = 100 ) -> dict: # Compute what token to begin the listing from start_token = TOKEN_BEGIN if page_token: start_token = int(page_token) if not (TOKEN_BEGIN <= start_token <= TOKEN_END): raise StorageArgumentException('Invalid page_token.') rows = self._cql_runner.origin_list(start_token, limit) rows = list(rows) if len(rows) == limit: next_page_token: Optional[str] = str(rows[-1].tok+1) else: next_page_token = None return { 'origins': [{'url': row.url} for row in rows], 'next_page_token': next_page_token, } def origin_search(self, url_pattern, offset=0, limit=50, regexp=False, with_visit=False): # TODO: remove this endpoint, swh-search should be used instead. origins = self._cql_runner.origin_iter_all() if regexp: pat = re.compile(url_pattern) origins = [orig for orig in origins if pat.search(orig.url)] else: origins = [orig for orig in origins if url_pattern in orig.url] if with_visit: origins = [orig for orig in origins if orig.next_visit_id > 1] return [ { 'url': orig.url, } for orig in origins[offset:offset+limit]] def origin_add(self, origins: Iterable[Origin]) -> List[Dict]: results = [] for origin in origins: self.origin_add_one(origin) results.append(origin.to_dict()) return results def origin_add_one(self, origin: Origin) -> str: known_origin = self.origin_get_one(origin.to_dict()) if known_origin: origin_url = known_origin['url'] else: self.journal_writer.origin_add_one(origin) self._cql_runner.origin_add_one(origin) origin_url = origin.url return origin_url def origin_visit_add(self, origin_url: str, date: Union[str, datetime.datetime], type: str) -> OriginVisit: if isinstance(date, str): # FIXME: Converge on iso8601 at some point date = dateutil.parser.parse(date) elif not isinstance(date, datetime.datetime): raise StorageArgumentException( 'Date must be a datetime or a string') if not self.origin_get_one({'url': origin_url}): raise StorageArgumentException( 'Unknown origin %s', origin_url) visit_id = self._cql_runner.origin_generate_unique_visit_id(origin_url) with convert_validation_exceptions(): visit = OriginVisit.from_dict({ 'origin': origin_url, 'date': date, 'type': type, 'status': 'ongoing', 'snapshot': None, 'metadata': None, 'visit': visit_id }) self.journal_writer.origin_visit_add(visit) self._cql_runner.origin_visit_add_one(visit) return visit def origin_visit_update( self, origin: str, visit_id: int, status: str, metadata: Optional[Dict] = None, snapshot: Optional[bytes] = None, date: Optional[datetime.datetime] = None): origin_url = origin # TODO: rename the argument # Get the existing data of the visit row = self._cql_runner.origin_visit_get_one(origin_url, visit_id) if not row: raise StorageArgumentException('This origin visit does not exist.') with convert_validation_exceptions(): visit = OriginVisit.from_dict(self._format_origin_visit_row(row)) updates: Dict[str, Any] = { 'status': status } if metadata: updates['metadata'] = metadata if snapshot: updates['snapshot'] = snapshot with convert_validation_exceptions(): visit = attr.evolve(visit, **updates) self.journal_writer.origin_visit_update(visit) self._cql_runner.origin_visit_update(origin_url, visit_id, updates) def origin_visit_upsert(self, visits: Iterable[OriginVisit]) -> None: for visit in visits: if visit.visit is None: raise StorageArgumentException( f'Missing visit id for visit {visit}') self.journal_writer.origin_visit_upsert(visits) for visit in visits: self._cql_runner.origin_visit_upsert(visit) @staticmethod def _format_origin_visit_row(visit): return { **visit._asdict(), 'origin': visit.origin, 'date': visit.date.replace(tzinfo=datetime.timezone.utc), 'metadata': (json.loads(visit.metadata) if visit.metadata else None), } def origin_visit_get( self, origin: str, last_visit: Optional[int] = None, limit: Optional[int] = None) -> Iterable[Dict[str, Any]]: rows = self._cql_runner.origin_visit_get(origin, last_visit, limit) yield from map(self._format_origin_visit_row, rows) def origin_visit_find_by_date( self, origin: str, visit_date: datetime.datetime) -> Optional[Dict[str, Any]]: # Iterator over all the visits of the origin # This should be ok for now, as there aren't too many visits # per origin. visits = list(self._cql_runner.origin_visit_get_all(origin)) def key(visit): dt = visit.date.replace(tzinfo=datetime.timezone.utc) - visit_date return (abs(dt), -visit.visit) if visits: visit = min(visits, key=key) return visit._asdict() return None def origin_visit_get_by( self, origin: str, visit: int) -> Optional[Dict[str, Any]]: visit = self._cql_runner.origin_visit_get_one(origin, visit) if visit: return self._format_origin_visit_row(visit) return None def origin_visit_get_latest( self, origin: str, allowed_statuses: Optional[List[str]] = None, require_snapshot: bool = False) -> Optional[Dict[str, Any]]: visit = self._cql_runner.origin_visit_get_latest( origin, allowed_statuses=allowed_statuses, require_snapshot=require_snapshot) if visit: return self._format_origin_visit_row(visit) return None def origin_visit_get_random(self, type: str) -> Optional[Dict[str, Any]]: back_in_the_day = now() - datetime.timedelta(weeks=12) # 3 months back # Random position to start iteration at start_token = random.randint(TOKEN_BEGIN, TOKEN_END) # Iterator over all visits, ordered by token(origins) then visit_id rows = self._cql_runner.origin_visit_iter(start_token) for row in rows: visit = self._format_origin_visit_row(row) if visit['date'] > back_in_the_day \ and visit['status'] == 'full': return visit else: return None def tool_add(self, tools): inserted = [] for tool in tools: tool = tool.copy() tool_json = tool.copy() tool_json['configuration'] = json.dumps( tool['configuration'], sort_keys=True).encode() id_ = self._cql_runner.tool_get_one_uuid(**tool_json) if not id_: id_ = uuid.uuid1() tool_json['id'] = id_ self._cql_runner.tool_by_uuid_add_one(tool_json) self._cql_runner.tool_add_one(tool_json) tool['id'] = id_ inserted.append(tool) return inserted def tool_get(self, tool): id_ = self._cql_runner.tool_get_one_uuid( tool['name'], tool['version'], json.dumps(tool['configuration'], sort_keys=True).encode()) if id_: tool = tool.copy() tool['id'] = id_ return tool else: return None def stat_counters(self): rows = self._cql_runner.stat_counters() keys = ( 'content', 'directory', 'origin', 'origin_visit', 'release', 'revision', 'skipped_content', 'snapshot') stats = {key: 0 for key in keys} stats.update({row.object_type: row.count for row in rows}) return stats def refresh_stat_counters(self): pass def origin_metadata_add(self, origin_url, ts, provider, tool, metadata): # TODO raise NotImplementedError('not yet supported for Cassandra') def origin_metadata_get_by(self, origin_url, provider_type=None): # TODO raise NotImplementedError('not yet supported for Cassandra') def metadata_provider_add(self, provider_name, provider_type, provider_url, metadata): # TODO raise NotImplementedError('not yet supported for Cassandra') def metadata_provider_get(self, provider_id): # TODO raise NotImplementedError('not yet supported for Cassandra') def metadata_provider_get_by(self, provider): # TODO raise NotImplementedError('not yet supported for Cassandra')