import json import logging from calendar import timegm from peewee import JOIN, fn, PeeweeException from datetime import datetime, timedelta from cachetools import lru_cache import data from data.database import (LogEntry, LogEntryKind, User, RepositoryActionCount, db, LogEntry3, LogEntry3) from data.model import config, user, DataModelException logger = logging.getLogger(__name__) ACTIONS_ALLOWED_WITHOUT_AUDIT_LOGGING = ['pull_repo'] def _logs_query(selections, start_time=None, end_time=None, performer=None, repository=None, namespace=None, ignore=None, model=LogEntry3, id_range=None): """ Returns a query for selecting logs from the table, with various options and filters. """ # TODO(LogMigrate): Remove the branch once we're back on a single table. assert (start_time is not None and end_time is not None) or (id_range is not None) joined = (model.select(*selections).switch(model)) if id_range is not None: joined = joined.where(model.id >= id_range[0], model.id <= id_range[1]) else: joined = joined.where(model.datetime >= start_time, model.datetime < end_time) if repository: joined = joined.where(model.repository == repository) if performer: joined = joined.where(model.performer == performer) if namespace and not repository: namespace_user = user.get_user_or_org(namespace) if namespace_user is None: raise DataModelException('Invalid namespace requested') joined = joined.where(model.account == namespace_user.id) if ignore: kind_map = get_log_entry_kinds() ignore_ids = [kind_map[kind_name] for kind_name in ignore] joined = joined.where(~(model.kind << ignore_ids)) return joined @lru_cache(maxsize=1) def get_log_entry_kinds(): kind_map = {} for kind in LogEntryKind.select(): kind_map[kind.id] = kind.name kind_map[kind.name] = kind.id return kind_map def _get_log_entry_kind(name): kinds = get_log_entry_kinds() return kinds[name] def get_aggregated_logs(start_time, end_time, performer=None, repository=None, namespace=None, ignore=None, model=LogEntry3): """ Returns the count of logs, by kind and day, for the logs matching the given filters. """ # TODO(LogMigrate): Remove the branch once we're back on a single table. date = db.extract_date('day', model.datetime) selections = [model.kind, date.alias('day'), fn.Count(model.id).alias('count')] query = _logs_query(selections, start_time, end_time, performer, repository, namespace, ignore, model=model) return query.group_by(date, model.kind) def get_logs_query(start_time=None, end_time=None, performer=None, repository=None, namespace=None, ignore=None, model=LogEntry3, id_range=None): """ Returns the logs matching the given filters. """ # TODO(LogMigrate): Remove the branch once we're back on a single table. Performer = User.alias() Account = User.alias() selections = [model, Performer] if namespace is None and repository is None: selections.append(Account) query = _logs_query(selections, start_time, end_time, performer, repository, namespace, ignore, model=model, id_range=id_range) query = (query.switch(model).join(Performer, JOIN.LEFT_OUTER, on=(model.performer == Performer.id).alias('performer'))) if namespace is None and repository is None: query = (query.switch(model).join(Account, JOIN.LEFT_OUTER, on=(model.account == Account.id).alias('account'))) return query def _json_serialize(obj): if isinstance(obj, datetime): return timegm(obj.utctimetuple()) return obj def log_action(kind_name, user_or_organization_name, performer=None, repository=None, ip=None, metadata={}, timestamp=None): """ Logs an entry in the LogEntry table. """ if not timestamp: timestamp = datetime.today() account = None if user_or_organization_name is not None: account = User.get(User.username == user_or_organization_name).id else: account = config.app_config.get('SERVICE_LOG_ACCOUNT_ID') if account is None: account = user.get_minimum_user_id() if performer is not None: performer = performer.id if repository is not None: repository = repository.id kind = _get_log_entry_kind(kind_name) metadata_json = json.dumps(metadata, default=_json_serialize) log_data = { 'kind': kind, 'account': account, 'performer': performer, 'repository': repository, 'ip': ip, 'metadata_json': metadata_json, 'datetime': timestamp } try: LogEntry3.create(**log_data) except PeeweeException as ex: strict_logging_disabled = config.app_config.get('ALLOW_PULLS_WITHOUT_STRICT_LOGGING') if strict_logging_disabled and kind_name in ACTIONS_ALLOWED_WITHOUT_AUDIT_LOGGING: logger.exception('log_action failed', extra=({'exception': ex}).update(log_data)) else: raise def get_stale_logs_start_id(model): """ Gets the oldest log entry. """ # TODO(LogMigrate): Remove the branch once we're back on a single table. try: return (model.select(model.id).order_by(model.id).limit(1).tuples())[0][0] except IndexError: return None def get_stale_logs_cutoff_id(cutoff_date, model): """ Gets the most recent ID created before the cutoff_date. """ # TODO(LogMigrate): Remove the branch once we're back on a single table. try: return (model.select(fn.Max(model.id)).where(model.datetime <= cutoff_date) .tuples())[0][0] except IndexError: return None def get_stale_logs(start_id, end_id, model): """ Returns all the logs with IDs between start_id and end_id inclusively. """ # TODO(LogMigrate): Remove the branch once we're back on a single table. return model.select().where((model.id >= start_id), (model.id <= end_id)) def delete_stale_logs(start_id, end_id, model): """ Deletes all the logs with IDs between start_id and end_id. """ # TODO(LogMigrate): Remove the branch once we're back on a single table. model.delete().where((model.id >= start_id), (model.id <= end_id)).execute() def get_repository_action_counts(repo, start_date): """ Returns the daily aggregated action counts for the given repository, starting at the given start date. """ return RepositoryActionCount.select().where(RepositoryActionCount.repository == repo, RepositoryActionCount.date >= start_date) def get_repositories_action_sums(repository_ids): """ Returns a map from repository ID to total actions within that repository in the last week. """ if not repository_ids: return {} # Filter the join to recent entries only. last_week = datetime.now() - timedelta(weeks=1) tuples = (RepositoryActionCount.select(RepositoryActionCount.repository, fn.Sum(RepositoryActionCount.count)) .where(RepositoryActionCount.repository << repository_ids) .where(RepositoryActionCount.date >= last_week) .group_by(RepositoryActionCount.repository).tuples()) action_count_map = {} for record in tuples: action_count_map[record[0]] = record[1] return action_count_map def get_minimum_id_for_logs(start_time, repository_id=None, namespace_id=None, model=LogEntry3): """ Returns the minimum ID for logs matching the given repository or namespace in the logs table, starting at the given start time. """ # First try bounded by a day. Most repositories will meet this criteria, and therefore # can make a much faster query. day_after = start_time + timedelta(days=1) result = _get_bounded_id(fn.Min, model.datetime >= start_time, repository_id, namespace_id, model.datetime < day_after, model=model) if result is not None: return result return _get_bounded_id(fn.Min, model.datetime >= start_time, repository_id, namespace_id, model=model) def get_maximum_id_for_logs(end_time, repository_id=None, namespace_id=None, model=LogEntry3): """ Returns the maximum ID for logs matching the given repository or namespace in the logs table, ending at the given end time. """ # First try bounded by a day. Most repositories will meet this criteria, and therefore # can make a much faster query. day_before = end_time - timedelta(days=1) result = _get_bounded_id(fn.Max, model.datetime <= end_time, repository_id, namespace_id, model.datetime > day_before, model=model) if result is not None: return result return _get_bounded_id(fn.Max, model.datetime <= end_time, repository_id, namespace_id, model=model) def _get_bounded_id(fn, filter_clause, repository_id, namespace_id, reduction_clause=None, model=LogEntry3): assert (namespace_id is not None) or (repository_id is not None) query = (model .select(fn(model.id)) .where(filter_clause)) if reduction_clause is not None: query = query.where(reduction_clause) if repository_id is not None: query = query.where(model.repository == repository_id) else: query = query.where(model.account == namespace_id) row = query.tuples()[0] if not row: return None return row[0]