# Copyright (C) 2015-2017 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 binascii import datetime import enum import functools import json import os import select import threading from contextlib import contextmanager import psycopg2 import psycopg2.extras TMP_CONTENT_TABLE = 'tmp_content' psycopg2.extras.register_uuid() def stored_procedure(stored_proc): """decorator to execute remote stored procedure, specified as argument Generally, the body of the decorated function should be empty. If it is not, the stored procedure will be executed first; the function body then. """ def wrap(meth): @functools.wraps(meth) def _meth(self, *args, **kwargs): cur = kwargs.get('cur', None) self._cursor(cur).execute('SELECT %s()' % stored_proc) meth(self, *args, **kwargs) return _meth return wrap def jsonize(value): """Convert a value to a psycopg2 JSON object if necessary""" if isinstance(value, dict): return psycopg2.extras.Json(value) return value def entry_to_bytes(entry): """Convert an entry coming from the database to bytes""" if isinstance(entry, memoryview): return entry.tobytes() if isinstance(entry, list): return [entry_to_bytes(value) for value in entry] return entry def line_to_bytes(line): """Convert a line coming from the database to bytes""" if not line: return line if isinstance(line, dict): return {k: entry_to_bytes(v) for k, v in line.items()} return line.__class__(entry_to_bytes(entry) for entry in line) def cursor_to_bytes(cursor): """Yield all the data from a cursor as bytes""" yield from (line_to_bytes(line) for line in cursor) class BaseDb: """Base class for swh.storage.*Db. cf. swh.storage.db.Db, swh.archiver.db.ArchiverDb """ @classmethod def connect(cls, *args, **kwargs): """factory method to create a DB proxy Accepts all arguments of psycopg2.connect; only some specific possibilities are reported below. Args: connstring: libpq2 connection string """ conn = psycopg2.connect(*args, **kwargs) return cls(conn) @classmethod def from_pool(cls, pool): return cls(pool.getconn(), pool=pool) def _cursor(self, cur_arg): """get a cursor: from cur_arg if given, or a fresh one otherwise meant to avoid boilerplate if/then/else in methods that proxy stored procedures """ if cur_arg is not None: return cur_arg # elif self.cur is not None: # return self.cur else: return self.conn.cursor() def __init__(self, conn, pool=None): """create a DB proxy Args: conn: psycopg2 connection to the SWH DB pool: psycopg2 pool of connections """ self.conn = conn self.pool = pool def __del__(self): if self.pool: self.pool.putconn(self.conn) @contextmanager def transaction(self): """context manager to execute within a DB transaction Yields: a psycopg2 cursor """ with self.conn.cursor() as cur: try: yield cur self.conn.commit() except Exception: if not self.conn.closed: self.conn.rollback() raise def copy_to(self, items, tblname, columns, cur=None, item_cb=None): """Copy items' entries to table tblname with columns information. Args: items (dict): dictionary of data to copy over tblname tblname (str): Destination table's name columns ([str]): keys to access data in items and also the column names in the destination table. item_cb (fn): optional function to apply to items's entry """ def escape(data): if data is None: return '' if isinstance(data, bytes): return '\\x%s' % binascii.hexlify(data).decode('ascii') elif isinstance(data, str): return '"%s"' % data.replace('"', '""') elif isinstance(data, datetime.datetime): # We escape twice to make sure the string generated by # isoformat gets escaped return escape(data.isoformat()) elif isinstance(data, dict): return escape(json.dumps(data)) elif isinstance(data, list): return escape("{%s}" % ','.join(escape(d) for d in data)) elif isinstance(data, psycopg2.extras.Range): # We escape twice here too, so that we make sure # everything gets passed to copy properly return escape( '%s%s,%s%s' % ( '[' if data.lower_inc else '(', '-infinity' if data.lower_inf else escape(data.lower), 'infinity' if data.upper_inf else escape(data.upper), ']' if data.upper_inc else ')', ) ) elif isinstance(data, enum.IntEnum): return escape(int(data)) else: # We don't escape here to make sure we pass literals properly return str(data) read_file, write_file = os.pipe() def writer(): cursor = self._cursor(cur) with open(read_file, 'r') as f: cursor.copy_expert('COPY %s (%s) FROM STDIN CSV' % ( tblname, ', '.join(columns)), f) write_thread = threading.Thread(target=writer) write_thread.start() try: with open(write_file, 'w') as f: for d in items: if item_cb is not None: item_cb(d) line = [escape(d.get(k)) for k in columns] f.write(','.join(line)) f.write('\n') finally: # No problem bubbling up exceptions, but we still need to make sure # we finish copying, even though we're probably going to cancel the # transaction. write_thread.join() def mktemp(self, tblname, cur=None): self._cursor(cur).execute('SELECT swh_mktemp(%s)', (tblname,)) class Db(BaseDb): """Proxy to the SWH DB, with wrappers around stored procedures """ def mktemp_dir_entry(self, entry_type, cur=None): self._cursor(cur).execute('SELECT swh_mktemp_dir_entry(%s)', (('directory_entry_%s' % entry_type),)) @stored_procedure('swh_mktemp_revision') def mktemp_revision(self, cur=None): pass @stored_procedure('swh_mktemp_release') def mktemp_release(self, cur=None): pass @stored_procedure('swh_mktemp_occurrence_history') def mktemp_occurrence_history(self, cur=None): pass @stored_procedure('swh_mktemp_snapshot_branch') def mktemp_snapshot_branch(self, cur=None): pass @stored_procedure('swh_mktemp_entity_lister') def mktemp_entity_lister(self, cur=None): pass @stored_procedure('swh_mktemp_entity_history') def mktemp_entity_history(self, cur=None): pass @stored_procedure('swh_mktemp_bytea') def mktemp_bytea(self, cur=None): pass def register_listener(self, notify_queue, cur=None): """Register a listener for NOTIFY queue `notify_queue`""" self._cursor(cur).execute("LISTEN %s" % notify_queue) def listen_notifies(self, timeout): """Listen to notifications for `timeout` seconds""" if select.select([self.conn], [], [], timeout) == ([], [], []): return else: self.conn.poll() while self.conn.notifies: yield self.conn.notifies.pop(0) @stored_procedure('swh_content_add') def content_add_from_temp(self, cur=None): pass @stored_procedure('swh_directory_add') def directory_add_from_temp(self, cur=None): pass @stored_procedure('swh_skipped_content_add') def skipped_content_add_from_temp(self, cur=None): pass @stored_procedure('swh_revision_add') def revision_add_from_temp(self, cur=None): pass @stored_procedure('swh_release_add') def release_add_from_temp(self, cur=None): pass @stored_procedure('swh_occurrence_history_add') def occurrence_history_add_from_temp(self, cur=None): pass @stored_procedure('swh_entity_history_add') def entity_history_add_from_temp(self, cur=None): pass def store_tmp_bytea(self, ids, cur=None): """Store the given identifiers in a new tmp_bytea table""" cur = self._cursor(cur) self.mktemp_bytea(cur) self.copy_to(({'id': elem} for elem in ids), 'tmp_bytea', ['id'], cur) def content_update_from_temp(self, keys_to_update, cur=None): cur = self._cursor(cur) cur.execute("""select swh_content_update(ARRAY[%s] :: text[])""" % keys_to_update) content_get_metadata_keys = [ 'sha1', 'sha1_git', 'sha256', 'blake2s256', 'length', 'status'] skipped_content_keys = [ 'sha1', 'sha1_git', 'sha256', 'blake2s256', 'length', 'reason', 'status', 'origin'] def content_get_metadata_from_temp(self, cur=None): cur = self._cursor(cur) cur.execute("""select t.id as sha1, %s from tmp_bytea t left join content on t.id = content.sha1 """ % ', '.join(self.content_get_metadata_keys[1:])) yield from cursor_to_bytes(cur) def content_missing_from_temp(self, cur=None): cur = self._cursor(cur) cur.execute("""SELECT sha1, sha1_git, sha256, blake2s256 FROM swh_content_missing()""") yield from cursor_to_bytes(cur) def content_missing_per_sha1_from_temp(self, cur=None): cur = self._cursor(cur) cur.execute("""SELECT * FROM swh_content_missing_per_sha1()""") yield from cursor_to_bytes(cur) def skipped_content_missing_from_temp(self, cur=None): cur = self._cursor(cur) cur.execute("""SELECT sha1, sha1_git, sha256, blake2s256 FROM swh_skipped_content_missing()""") yield from cursor_to_bytes(cur) def occurrence_get(self, origin_id, cur=None): """Retrieve latest occurrence's information by origin_id. """ cur = self._cursor(cur) cur.execute("""SELECT origin, branch, target, target_type, (select max(date) from origin_visit where origin=%s) as date FROM occurrence WHERE origin=%s """, (origin_id, origin_id)) yield from cursor_to_bytes(cur) def snapshot_exists(self, snapshot_id, cur=None): """Check whether a snapshot with the given id exists""" cur = self._cursor(cur) cur.execute("""SELECT 1 FROM snapshot where id=%s""", (snapshot_id,)) return bool(cur.fetchone()) def snapshot_add(self, origin, visit, snapshot_id, cur=None): """Add a snapshot for origin/visit from the temporary table""" cur = self._cursor(cur) cur.execute("""SELECT swh_snapshot_add(%s, %s, %s)""", (origin, visit, snapshot_id)) snapshot_get_cols = ['snapshot_id', 'name', 'target', 'target_type'] def snapshot_get_by_id(self, snapshot_id, cur=None): cur = self._cursor(cur) query = """\ SELECT %s FROM swh_snapshot_get_by_id(%%s) """ % ', '.join(self.snapshot_get_cols) cur.execute(query, (snapshot_id,)) yield from cursor_to_bytes(cur) def snapshot_get_by_origin_visit(self, origin_id, visit_id, cur=None): cur = self._cursor(cur) query = """\ SELECT swh_snapshot_get_by_origin_visit(%s, %s) """ cur.execute(query, (origin_id, visit_id)) ret = cur.fetchone() if ret: return line_to_bytes(ret)[0] content_find_cols = ['sha1', 'sha1_git', 'sha256', 'blake2s256', 'length', 'ctime', 'status'] def content_find(self, sha1=None, sha1_git=None, sha256=None, blake2s256=None, cur=None): """Find the content optionally on a combination of the following checksums sha1, sha1_git, sha256 or blake2s256. Args: sha1: sha1 content git_sha1: the sha1 computed `a la git` sha1 of the content sha256: sha256 content blake2s256: blake2s256 content Returns: The tuple (sha1, sha1_git, sha256, blake2s256) if found or None. """ cur = self._cursor(cur) cur.execute("""SELECT %s FROM swh_content_find(%%s, %%s, %%s, %%s) LIMIT 1""" % ','.join(self.content_find_cols), (sha1, sha1_git, sha256, blake2s256)) content = line_to_bytes(cur.fetchone()) if set(content) == {None}: return None else: return content def directory_get_from_temp(self, cur=None): cur = self._cursor(cur) cur.execute('''SELECT id, file_entries, dir_entries, rev_entries FROM swh_directory_get()''') yield from cursor_to_bytes(cur) def directory_missing_from_temp(self, cur=None): cur = self._cursor(cur) cur.execute('SELECT * FROM swh_directory_missing()') yield from cursor_to_bytes(cur) directory_ls_cols = ['dir_id', 'type', 'target', 'name', 'perms', 'status', 'sha1', 'sha1_git', 'sha256', 'length'] def directory_walk_one(self, directory, cur=None): cur = self._cursor(cur) cols = ', '.join(self.directory_ls_cols) query = 'SELECT %s FROM swh_directory_walk_one(%%s)' % cols cur.execute(query, (directory,)) yield from cursor_to_bytes(cur) def directory_walk(self, directory, cur=None): cur = self._cursor(cur) cols = ', '.join(self.directory_ls_cols) query = 'SELECT %s FROM swh_directory_walk(%%s)' % cols cur.execute(query, (directory,)) yield from cursor_to_bytes(cur) def directory_entry_get_by_path(self, directory, paths, cur=None): """Retrieve a directory entry by path. """ cur = self._cursor(cur) cols = ', '.join(self.directory_ls_cols) query = ( 'SELECT %s FROM swh_find_directory_entry_by_path(%%s, %%s)' % cols) cur.execute(query, (directory, paths)) data = cur.fetchone() if set(data) == {None}: return None return line_to_bytes(data) def revision_missing_from_temp(self, cur=None): cur = self._cursor(cur) cur.execute('SELECT id FROM swh_revision_missing() as r(id)') yield from cursor_to_bytes(cur) revision_add_cols = [ 'id', 'date', 'date_offset', 'date_neg_utc_offset', 'committer_date', 'committer_date_offset', 'committer_date_neg_utc_offset', 'type', 'directory', 'message', 'author_fullname', 'author_name', 'author_email', 'committer_fullname', 'committer_name', 'committer_email', 'metadata', 'synthetic', ] revision_get_cols = revision_add_cols + [ 'author_id', 'committer_id', 'parents'] def origin_visit_add(self, origin, ts, cur=None): """Add a new origin_visit for origin origin at timestamp ts with status 'ongoing'. Args: origin: origin concerned by the visit ts: the date of the visit Returns: The new visit index step for that origin """ cur = self._cursor(cur) self._cursor(cur).execute('SELECT swh_origin_visit_add(%s, %s)', (origin, ts)) return cur.fetchone()[0] def origin_visit_update(self, origin, visit_id, status, metadata, cur=None): """Update origin_visit's status.""" cur = self._cursor(cur) update = """UPDATE origin_visit SET status=%s, metadata=%s WHERE origin=%s AND visit=%s""" cur.execute(update, (status, jsonize(metadata), origin, visit_id)) origin_visit_get_cols = ['origin', 'visit', 'date', 'status', 'metadata', 'snapshot'] def origin_visit_get_all(self, origin_id, last_visit=None, limit=None, cur=None): """Retrieve all visits for origin with id origin_id. Args: origin_id: The occurrence's origin Yields: The occurrence's history visits """ cur = self._cursor(cur) if last_visit: extra_condition = 'and visit > %s' args = (origin_id, last_visit, limit) else: extra_condition = '' args = (origin_id, limit) query = """\ SELECT %s, (select id from snapshot where object_id = snapshot_id) as snapshot FROM origin_visit WHERE origin=%%s %s order by date, visit asc limit %%s""" % ( ', '.join(self.origin_visit_get_cols[:-1]), extra_condition ) cur.execute(query, args) yield from cursor_to_bytes(cur) def origin_visit_get(self, origin_id, visit_id, cur=None): """Retrieve information on visit visit_id of origin origin_id. Args: origin_id: the origin concerned visit_id: The visit step for that origin Returns: The origin_visit information """ cur = self._cursor(cur) query = """\ SELECT %s, (select id from snapshot where object_id = snapshot_id) as snapshot FROM origin_visit WHERE origin = %%s AND visit = %%s """ % (', '.join(self.origin_visit_get_cols[:-1])) cur.execute(query, (origin_id, visit_id)) r = cur.fetchall() if not r: return None return line_to_bytes(r[0]) def origin_visit_get_latest_snapshot(self, origin_id, allowed_statuses=None, cur=None): """Retrieve the most recent origin_visit which references a snapshot Args: origin_id: the origin concerned allowed_statuses: the visit statuses allowed for the returned visit Returns: The origin_visit information, or None if no visit matches. """ cur = self._cursor(cur) extra_clause = "" if allowed_statuses: extra_clause = cur.mogrify("AND status IN %s", (tuple(allowed_statuses),)).decode() query = """\ SELECT %s, (select id from snapshot where object_id = snapshot_id) as snapshot FROM origin_visit WHERE origin = %%s AND snapshot_id is not null %s ORDER BY date, visit DESC LIMIT 1 """ % (', '.join(self.origin_visit_get_cols[:-1]), extra_clause) cur.execute(query, (origin_id,)) r = cur.fetchone() if not r: return None return line_to_bytes(r) occurrence_cols = ['origin', 'branch', 'target', 'target_type'] def occurrence_by_origin_visit(self, origin_id, visit_id, cur=None): """Retrieve all occurrences for a particular origin_visit. Args: origin_id: the origin concerned visit_id: The visit step for that origin Yields: The occurrence's history visits """ cur = self._cursor(cur) query = """\ SELECT %s FROM swh_occurrence_by_origin_visit(%%s, %%s) """ % (', '.join(self.occurrence_cols)) cur.execute(query, (origin_id, visit_id)) yield from cursor_to_bytes(cur) def revision_get_from_temp(self, cur=None): cur = self._cursor(cur) query = 'SELECT %s FROM swh_revision_get()' % ( ', '.join(self.revision_get_cols)) cur.execute(query) yield from cursor_to_bytes(cur) def revision_log(self, root_revisions, limit=None, cur=None): cur = self._cursor(cur) query = """SELECT %s FROM swh_revision_log(%%s, %%s) """ % ', '.join(self.revision_get_cols) cur.execute(query, (root_revisions, limit)) yield from cursor_to_bytes(cur) revision_shortlog_cols = ['id', 'parents'] def revision_shortlog(self, root_revisions, limit=None, cur=None): cur = self._cursor(cur) query = """SELECT %s FROM swh_revision_list(%%s, %%s) """ % ', '.join(self.revision_shortlog_cols) cur.execute(query, (root_revisions, limit)) yield from cursor_to_bytes(cur) def release_missing_from_temp(self, cur=None): cur = self._cursor(cur) cur.execute('SELECT id FROM swh_release_missing() as r(id)') yield from cursor_to_bytes(cur) object_find_by_sha1_git_cols = ['sha1_git', 'type', 'id', 'object_id'] def object_find_by_sha1_git(self, ids, cur=None): cur = self._cursor(cur) self.store_tmp_bytea(ids, cur) query = 'select %s from swh_object_find_by_sha1_git()' % ( ', '.join(self.object_find_by_sha1_git_cols) ) cur.execute(query) yield from cursor_to_bytes(cur) def stat_counters(self, cur=None): cur = self._cursor(cur) cur.execute('SELECT * FROM swh_stat_counters()') yield from cur fetch_history_cols = ['origin', 'date', 'status', 'result', 'stdout', 'stderr', 'duration'] def create_fetch_history(self, fetch_history, cur=None): """Create a fetch_history entry with the data in fetch_history""" cur = self._cursor(cur) query = '''INSERT INTO fetch_history (%s) VALUES (%s) RETURNING id''' % ( ','.join(self.fetch_history_cols), ','.join(['%s'] * len(self.fetch_history_cols)) ) cur.execute(query, [fetch_history.get(col) for col in self.fetch_history_cols]) return cur.fetchone()[0] def get_fetch_history(self, fetch_history_id, cur=None): """Get a fetch_history entry with the given id""" cur = self._cursor(cur) query = '''SELECT %s FROM fetch_history WHERE id=%%s''' % ( ', '.join(self.fetch_history_cols), ) cur.execute(query, (fetch_history_id,)) data = cur.fetchone() if not data: return None ret = {'id': fetch_history_id} for i, col in enumerate(self.fetch_history_cols): ret[col] = data[i] return ret def update_fetch_history(self, fetch_history, cur=None): """Update the fetch_history entry from the data in fetch_history""" cur = self._cursor(cur) query = '''UPDATE fetch_history SET %s WHERE id=%%s''' % ( ','.join('%s=%%s' % col for col in self.fetch_history_cols) ) cur.execute(query, [jsonize(fetch_history.get(col)) for col in self.fetch_history_cols + ['id']]) base_entity_cols = ['uuid', 'parent', 'name', 'type', 'description', 'homepage', 'active', 'generated', 'lister_metadata', 'metadata'] entity_cols = base_entity_cols + ['last_seen', 'last_id'] entity_history_cols = base_entity_cols + ['id', 'validity'] def origin_add(self, type, url, cur=None): """Insert a new origin and return the new identifier.""" insert = """INSERT INTO origin (type, url) values (%s, %s) RETURNING id""" cur.execute(insert, (type, url)) return cur.fetchone()[0] origin_cols = ['id', 'type', 'url', 'lister', 'project'] def origin_get_with(self, type, url, cur=None): """Retrieve the origin id from its type and url if found.""" cur = self._cursor(cur) query = """SELECT %s FROM origin WHERE type=%%s AND url=%%s """ % ','.join(self.origin_cols) cur.execute(query, (type, url)) data = cur.fetchone() if data: return line_to_bytes(data) return None def origin_get(self, id, cur=None): """Retrieve the origin per its identifier. """ cur = self._cursor(cur) query = """SELECT %s FROM origin WHERE id=%%s """ % ','.join(self.origin_cols) cur.execute(query, (id,)) data = cur.fetchone() if data: return line_to_bytes(data) return None def origin_search(self, url_pattern, offset=0, limit=50, regexp=False, cur=None): """Search for origins whose urls contain a provided string pattern or match a provided regular expression. The search is performed in a case insensitive way. Args: url_pattern: the string pattern to search for in origin urls offset: number of found origins to skip before returning results limit: the maximum number of found origins to return regexp: if True, consider the provided pattern as a regular expression and returns origins whose urls match it """ cur = self._cursor(cur) origin_cols = ','.join(self.origin_cols) query = """SELECT %s FROM origin WHERE url %s %%s ORDER BY id OFFSET %%s LIMIT %%s""" if not regexp: query = query % (origin_cols, 'ILIKE') query_params = ('%'+url_pattern+'%', offset, limit) else: query = query % (origin_cols, '~*') query_params = (url_pattern, offset, limit) cur.execute(query, query_params) yield from cursor_to_bytes(cur) person_cols = ['fullname', 'name', 'email'] person_get_cols = person_cols + ['id'] def person_add(self, person, cur=None): """Add a person identified by its name and email. Returns: The new person's id """ cur = self._cursor(cur) query_new_person = '''\ INSERT INTO person(%s) VALUES (%s) RETURNING id''' % ( ', '.join(self.person_cols), ', '.join('%s' for i in range(len(self.person_cols))) ) cur.execute(query_new_person, [person[col] for col in self.person_cols]) return cur.fetchone()[0] def person_get(self, ids, cur=None): """Retrieve the persons identified by the list of ids. """ cur = self._cursor(cur) query = """SELECT %s FROM person WHERE id IN %%s""" % ', '.join(self.person_get_cols) cur.execute(query, (tuple(ids),)) yield from cursor_to_bytes(cur) release_add_cols = [ 'id', 'target', 'target_type', 'date', 'date_offset', 'date_neg_utc_offset', 'name', 'comment', 'synthetic', 'author_fullname', 'author_name', 'author_email', ] release_get_cols = release_add_cols + ['author_id'] def release_get_from_temp(self, cur=None): cur = self._cursor(cur) query = ''' SELECT %s FROM swh_release_get() ''' % ', '.join(self.release_get_cols) cur.execute(query) yield from cursor_to_bytes(cur) def release_get_by(self, origin_id, limit=None, cur=None): """Retrieve a release by occurrence criterion (only origin right now) Args: - origin_id: The origin to look for. """ cur = self._cursor(cur) query = """ SELECT %s FROM swh_release_get_by(%%s) LIMIT %%s """ % ', '.join(self.release_get_cols) cur.execute(query, (origin_id, limit)) yield from cursor_to_bytes(cur) def revision_get_by(self, origin_id, branch_name, datetime, limit=None, cur=None): """Retrieve a revision by occurrence criterion. Args: - origin_id: The origin to look for - branch_name: the branch name to look for - datetime: the lower bound of timerange to look for. - limit: limit number of results to return The upper bound being now. """ cur = self._cursor(cur) if branch_name and isinstance(branch_name, str): branch_name = branch_name.encode('utf-8') query = ''' SELECT %s FROM swh_revision_get_by(%%s, %%s, %%s) LIMIT %%s ''' % ', '.join(self.revision_get_cols) cur.execute(query, (origin_id, branch_name, datetime, limit)) yield from cursor_to_bytes(cur) def entity_get(self, uuid, cur=None): """Retrieve the entity and its parent hierarchy chain per uuid. """ cur = self._cursor(cur) cur.execute("""SELECT %s FROM swh_entity_get(%%s)""" % ( ', '.join(self.entity_cols)), (uuid, )) yield from cursor_to_bytes(cur) def entity_get_one(self, uuid, cur=None): """Retrieve a single entity given its uuid. """ cur = self._cursor(cur) cur.execute("""SELECT %s FROM entity WHERE uuid = %%s""" % ( ', '.join(self.entity_cols)), (uuid, )) data = cur.fetchone() if not data: return None return line_to_bytes(data) def origin_metadata_add(self, origin, ts, provider, tool, metadata, cur=None): """ Add an origin_metadata for the origin at ts with provider, tool and metadata. Args: origin (int): the origin's id for which the metadata is added ts (datetime): time when the metadata was found provider (int): the metadata provider identifier tool (int): the tool's identifier used to extract metadata metadata (jsonb): the metadata retrieved at the time and location Returns: id (int): the origin_metadata unique id """ cur = self._cursor(cur) insert = """INSERT INTO origin_metadata (origin_id, discovery_date, provider_id, tool_id, metadata) values (%s, %s, %s, %s, %s) RETURNING id""" cur.execute(insert, (origin, ts, provider, tool, jsonize(metadata))) return cur.fetchone()[0] origin_metadata_get_cols = ['id', 'origin_id', 'discovery_date', 'tool_id', 'metadata', 'provider_id', 'provider_name', 'provider_type', 'provider_url'] def origin_metadata_get_by(self, origin_id, provider_type=None, cur=None): """Retrieve all origin_metadata entries for one origin_id """ cur = self._cursor(cur) if not provider_type: query = '''SELECT %s FROM swh_origin_metadata_get_by_origin( %%s)''' % (','.join( self.origin_metadata_get_cols)) cur.execute(query, (origin_id, )) else: query = '''SELECT %s FROM swh_origin_metadata_get_by_provider_type( %%s, %%s)''' % (','.join( self.origin_metadata_get_cols)) cur.execute(query, (origin_id, provider_type)) yield from cursor_to_bytes(cur) tool_cols = ['id', 'name', 'version', 'configuration'] @stored_procedure('swh_mktemp_tool') def mktemp_tool(self, cur=None): pass def tool_add_from_temp(self, cur=None): cur = self._cursor(cur) cur.execute("SELECT %s from swh_tool_add()" % ( ','.join(self.tool_cols), )) yield from cursor_to_bytes(cur) def tool_get(self, name, version, configuration, cur=None): cur = self._cursor(cur) cur.execute('''select %s from tool where name=%%s and version=%%s and configuration=%%s''' % ( ','.join(self.tool_cols)), (name, version, configuration)) data = cur.fetchone() if not data: return None return line_to_bytes(data) metadata_provider_cols = ['id', 'provider_name', 'provider_type', 'provider_url', 'metadata'] def metadata_provider_add(self, provider_name, provider_type, provider_url, metadata, cur=None): """Insert a new provider and return the new identifier.""" cur = self._cursor(cur) insert = """INSERT INTO metadata_provider (provider_name, provider_type, provider_url, metadata) values (%s, %s, %s, %s) RETURNING id""" cur.execute(insert, (provider_name, provider_type, provider_url, jsonize(metadata))) return cur.fetchone()[0] def metadata_provider_get(self, provider_id, cur=None): cur = self._cursor(cur) cur.execute('''select %s from metadata_provider where provider_id=%%s ''' % ( ','.join(self.metadata_provider_cols)), (provider_id, )) data = cur.fetchone() if not data: return None return line_to_bytes(data) def metadata_provider_get_by(self, provider_name, provider_url, cur=None): cur = self._cursor(cur) cur.execute('''select %s from metadata_provider where provider_name=%%s and provider_url=%%s''' % ( ','.join(self.metadata_provider_cols)), (provider_name, provider_url)) data = cur.fetchone() if not data: return None return line_to_bytes(data)