Mercurial > kallithea
view kallithea/lib/celerylib/tasks.py @ 6171:54545cc34c36
celery: import the whole celerylib - no cherry picking in tasks
No big deal, but arguably(?!) slightly prettier.
The database session handling should probably also be cleaned up - that is not
touched here but left as an exercise.
| author | Mads Kiilerich <madski@unity3d.com> |
|---|---|
| date | Tue, 06 Sep 2016 00:51:18 +0200 |
| parents | 82662f9faaf4 |
| children | eb1a4c3cb76c |
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# -*- coding: utf-8 -*- # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. """ kallithea.lib.celerylib.tasks ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Kallithea task modules, containing all task that suppose to be run by celery daemon This file was forked by the Kallithea project in July 2014. Original author and date, and relevant copyright and licensing information is below: :created_on: Oct 6, 2010 :author: marcink :copyright: (c) 2013 RhodeCode GmbH, and others. :license: GPLv3, see LICENSE.md for more details. """ import os import traceback import logging import rfc822 from time import mktime from operator import itemgetter from string import lower from pylons import config from kallithea import CELERY_ON from kallithea.lib import celerylib from kallithea.lib.helpers import person from kallithea.lib.rcmail.smtp_mailer import SmtpMailer from kallithea.lib.utils import setup_cache_regions, action_logger from kallithea.lib.utils2 import str2bool from kallithea.lib.vcs.utils import author_email from kallithea.lib.compat import json, OrderedDict from kallithea.lib.hooks import log_create_repository from kallithea.model.db import Statistics, Repository, User setup_cache_regions(config) # pragma: no cover __all__ = ['whoosh_index', 'get_commits_stats', 'send_email'] log = logging.getLogger(__name__) @celerylib.task @celerylib.locked_task @celerylib.dbsession def whoosh_index(repo_location, full_index): from kallithea.lib.indexers.daemon import WhooshIndexingDaemon DBS = celerylib.get_session() index_location = config['index_dir'] WhooshIndexingDaemon(index_location=index_location, repo_location=repo_location, sa=DBS) \ .run(full_index=full_index) @celerylib.task @celerylib.dbsession def get_commits_stats(repo_name, ts_min_y, ts_max_y, recurse_limit=100): DBS = celerylib.get_session() lockkey = celerylib.__get_lockkey('get_commits_stats', repo_name, ts_min_y, ts_max_y) lockkey_path = config['app_conf']['cache_dir'] log.info('running task with lockkey %s', lockkey) try: lock = l = celerylib.DaemonLock(file_=os.path.join(lockkey_path, lockkey)) # for js data compatibility cleans the key for person from ' akc = lambda k: person(k).replace('"', "") co_day_auth_aggr = {} commits_by_day_aggregate = {} repo = Repository.get_by_repo_name(repo_name) if repo is None: return True repo = repo.scm_instance repo_size = repo.count() # return if repo have no revisions if repo_size < 1: lock.release() return True skip_date_limit = True parse_limit = int(config['app_conf'].get('commit_parse_limit')) last_rev = None last_cs = None timegetter = itemgetter('time') dbrepo = DBS.query(Repository) \ .filter(Repository.repo_name == repo_name).scalar() cur_stats = DBS.query(Statistics) \ .filter(Statistics.repository == dbrepo).scalar() if cur_stats is not None: last_rev = cur_stats.stat_on_revision if last_rev == repo.get_changeset().revision and repo_size > 1: # pass silently without any work if we're not on first revision or # current state of parsing revision(from db marker) is the # last revision lock.release() return True if cur_stats: commits_by_day_aggregate = OrderedDict(json.loads( cur_stats.commit_activity_combined)) co_day_auth_aggr = json.loads(cur_stats.commit_activity) log.debug('starting parsing %s', parse_limit) lmktime = mktime last_rev = last_rev + 1 if last_rev >= 0 else 0 log.debug('Getting revisions from %s to %s', last_rev, last_rev + parse_limit ) for cs in repo[last_rev:last_rev + parse_limit]: log.debug('parsing %s', cs) last_cs = cs # remember last parsed changeset k = lmktime([cs.date.timetuple()[0], cs.date.timetuple()[1], cs.date.timetuple()[2], 0, 0, 0, 0, 0, 0]) if akc(cs.author) in co_day_auth_aggr: try: l = [timegetter(x) for x in co_day_auth_aggr[akc(cs.author)]['data']] time_pos = l.index(k) except ValueError: time_pos = None if time_pos >= 0 and time_pos is not None: datadict = \ co_day_auth_aggr[akc(cs.author)]['data'][time_pos] datadict["commits"] += 1 datadict["added"] += len(cs.added) datadict["changed"] += len(cs.changed) datadict["removed"] += len(cs.removed) else: if k >= ts_min_y and k <= ts_max_y or skip_date_limit: datadict = {"time": k, "commits": 1, "added": len(cs.added), "changed": len(cs.changed), "removed": len(cs.removed), } co_day_auth_aggr[akc(cs.author)]['data'] \ .append(datadict) else: if k >= ts_min_y and k <= ts_max_y or skip_date_limit: co_day_auth_aggr[akc(cs.author)] = { "label": akc(cs.author), "data": [{"time":k, "commits":1, "added":len(cs.added), "changed":len(cs.changed), "removed":len(cs.removed), }], "schema": ["commits"], } #gather all data by day if k in commits_by_day_aggregate: commits_by_day_aggregate[k] += 1 else: commits_by_day_aggregate[k] = 1 overview_data = sorted(commits_by_day_aggregate.items(), key=itemgetter(0)) if not co_day_auth_aggr: co_day_auth_aggr[akc(repo.contact)] = { "label": akc(repo.contact), "data": [0, 1], "schema": ["commits"], } stats = cur_stats if cur_stats else Statistics() stats.commit_activity = json.dumps(co_day_auth_aggr) stats.commit_activity_combined = json.dumps(overview_data) log.debug('last revision %s', last_rev) leftovers = len(repo.revisions[last_rev:]) log.debug('revisions to parse %s', leftovers) if last_rev == 0 or leftovers < parse_limit: log.debug('getting code trending stats') stats.languages = json.dumps(__get_codes_stats(repo_name)) try: stats.repository = dbrepo stats.stat_on_revision = last_cs.revision if last_cs else 0 DBS.add(stats) DBS.commit() except: log.error(traceback.format_exc()) DBS.rollback() lock.release() return False # final release lock.release() # execute another task if celery is enabled if len(repo.revisions) > 1 and CELERY_ON and recurse_limit > 0: get_commits_stats(repo_name, ts_min_y, ts_max_y, recurse_limit - 1) elif recurse_limit <= 0: log.debug('Not recursing - limit has been reached') else: log.debug('Not recursing') except celerylib.LockHeld: log.info('Task with key %s already running', lockkey) return 'Task with key %s already running' % lockkey @celerylib.task @celerylib.dbsession def send_email(recipients, subject, body='', html_body='', headers=None, author=None): """ Sends an email with defined parameters from the .ini files. :param recipients: list of recipients, if this is None, the defined email address from field 'email_to' and all admins is used instead :param subject: subject of the mail :param body: body of the mail :param html_body: html version of body :param headers: dictionary of prepopulated e-mail headers :param author: User object of the author of this mail, if known and relevant """ assert isinstance(recipients, list), recipients if headers is None: headers = {} else: # do not modify the original headers object passed by the caller headers = headers.copy() email_config = config email_prefix = email_config.get('email_prefix', '') if email_prefix: subject = "%s %s" % (email_prefix, subject) if not recipients: # if recipients are not defined we send to email_config + all admins recipients = [u.email for u in User.query() .filter(User.admin == True).all()] if email_config.get('email_to') is not None: recipients += [email_config.get('email_to')] # If there are still no recipients, there are no admins and no address # configured in email_to, so return. if not recipients: log.error("No recipients specified and no fallback available.") return False log.warning("No recipients specified for '%s' - sending to admins %s", subject, ' '.join(recipients)) # SMTP sender envelope_from = email_config.get('app_email_from', 'Kallithea') # 'From' header if author is not None: # set From header based on author but with a generic e-mail address # In case app_email_from is in "Some Name <e-mail>" format, we first # extract the e-mail address. envelope_addr = author_email(envelope_from) headers['From'] = '"%s" <%s>' % ( rfc822.quote('%s (no-reply)' % author.full_name_or_username), envelope_addr) user = email_config.get('smtp_username') passwd = email_config.get('smtp_password') mail_server = email_config.get('smtp_server') mail_port = email_config.get('smtp_port') tls = str2bool(email_config.get('smtp_use_tls')) ssl = str2bool(email_config.get('smtp_use_ssl')) debug = str2bool(email_config.get('debug')) smtp_auth = email_config.get('smtp_auth') logmsg = ("Mail details:\n" "recipients: %s\n" "headers: %s\n" "subject: %s\n" "body:\n%s\n" "html:\n%s\n" % (' '.join(recipients), headers, subject, body, html_body)) if mail_server: log.debug("Sending e-mail. " + logmsg) else: log.error("SMTP mail server not configured - cannot send e-mail.") log.warning(logmsg) return False try: m = SmtpMailer(envelope_from, user, passwd, mail_server, smtp_auth, mail_port, ssl, tls, debug=debug) m.send(recipients, subject, body, html_body, headers=headers) except: log.error('Mail sending failed') log.error(traceback.format_exc()) return False return True @celerylib.task @celerylib.dbsession def create_repo(form_data, cur_user): from kallithea.model.repo import RepoModel from kallithea.model.user import UserModel from kallithea.model.db import Setting DBS = celerylib.get_session() cur_user = UserModel(DBS)._get_user(cur_user) owner = cur_user repo_name = form_data['repo_name'] repo_name_full = form_data['repo_name_full'] repo_type = form_data['repo_type'] description = form_data['repo_description'] private = form_data['repo_private'] clone_uri = form_data.get('clone_uri') repo_group = form_data['repo_group'] landing_rev = form_data['repo_landing_rev'] copy_fork_permissions = form_data.get('copy_permissions') copy_group_permissions = form_data.get('repo_copy_permissions') fork_of = form_data.get('fork_parent_id') state = form_data.get('repo_state', Repository.STATE_PENDING) # repo creation defaults, private and repo_type are filled in form defs = Setting.get_default_repo_settings(strip_prefix=True) enable_statistics = defs.get('repo_enable_statistics') enable_locking = defs.get('repo_enable_locking') enable_downloads = defs.get('repo_enable_downloads') try: repo = RepoModel(DBS)._create_repo( repo_name=repo_name_full, repo_type=repo_type, description=description, owner=owner, private=private, clone_uri=clone_uri, repo_group=repo_group, landing_rev=landing_rev, fork_of=fork_of, copy_fork_permissions=copy_fork_permissions, copy_group_permissions=copy_group_permissions, enable_statistics=enable_statistics, enable_locking=enable_locking, enable_downloads=enable_downloads, state=state ) action_logger(cur_user, 'user_created_repo', form_data['repo_name_full'], '', DBS) DBS.commit() # now create this repo on Filesystem RepoModel(DBS)._create_filesystem_repo( repo_name=repo_name, repo_type=repo_type, repo_group=RepoModel(DBS)._get_repo_group(repo_group), clone_uri=clone_uri, ) repo = Repository.get_by_repo_name(repo_name_full) log_create_repository(repo.get_dict(), created_by=owner.username) # update repo changeset caches initially repo.update_changeset_cache() # set new created state repo.set_state(Repository.STATE_CREATED) DBS.commit() except Exception as e: log.warning('Exception %s occurred when forking repository, ' 'doing cleanup...' % e) # rollback things manually ! repo = Repository.get_by_repo_name(repo_name_full) if repo: Repository.delete(repo.repo_id) DBS.commit() RepoModel(DBS)._delete_filesystem_repo(repo) raise return True @celerylib.task @celerylib.dbsession def create_repo_fork(form_data, cur_user): """ Creates a fork of repository using interval VCS methods :param form_data: :param cur_user: """ from kallithea.model.repo import RepoModel from kallithea.model.user import UserModel DBS = celerylib.get_session() base_path = Repository.base_path() cur_user = UserModel(DBS)._get_user(cur_user) repo_name = form_data['repo_name'] # fork in this case repo_name_full = form_data['repo_name_full'] repo_type = form_data['repo_type'] owner = cur_user private = form_data['private'] clone_uri = form_data.get('clone_uri') repo_group = form_data['repo_group'] landing_rev = form_data['landing_rev'] copy_fork_permissions = form_data.get('copy_permissions') try: fork_of = RepoModel(DBS)._get_repo(form_data.get('fork_parent_id')) RepoModel(DBS)._create_repo( repo_name=repo_name_full, repo_type=repo_type, description=form_data['description'], owner=owner, private=private, clone_uri=clone_uri, repo_group=repo_group, landing_rev=landing_rev, fork_of=fork_of, copy_fork_permissions=copy_fork_permissions ) action_logger(cur_user, 'user_forked_repo:%s' % repo_name_full, fork_of.repo_name, '', DBS) DBS.commit() update_after_clone = form_data['update_after_clone'] # FIXME - unused! source_repo_path = os.path.join(base_path, fork_of.repo_name) # now create this repo on Filesystem RepoModel(DBS)._create_filesystem_repo( repo_name=repo_name, repo_type=repo_type, repo_group=RepoModel(DBS)._get_repo_group(repo_group), clone_uri=source_repo_path, ) repo = Repository.get_by_repo_name(repo_name_full) log_create_repository(repo.get_dict(), created_by=owner.username) # update repo changeset caches initially repo.update_changeset_cache() # set new created state repo.set_state(Repository.STATE_CREATED) DBS.commit() except Exception as e: log.warning('Exception %s occurred when forking repository, ' 'doing cleanup...' % e) #rollback things manually ! repo = Repository.get_by_repo_name(repo_name_full) if repo: Repository.delete(repo.repo_id) DBS.commit() RepoModel(DBS)._delete_filesystem_repo(repo) raise return True def __get_codes_stats(repo_name): from kallithea.config.conf import LANGUAGES_EXTENSIONS_MAP repo = Repository.get_by_repo_name(repo_name).scm_instance tip = repo.get_changeset() code_stats = {} def aggregate(cs): for f in cs[2]: ext = lower(f.extension) if ext in LANGUAGES_EXTENSIONS_MAP.keys() and not f.is_binary: if ext in code_stats: code_stats[ext] += 1 else: code_stats[ext] = 1 map(aggregate, tip.walk('/')) return code_stats or {}