#!/usr/bin/python3 # -*- coding: utf-8 -*- # # Copyright © 2015 Mattia Rizzolo # Copyright © 2015-2016 Holger Levsen # Based on reproducible_scheduler.sh © 2014-2015 Holger Levsen # Licensed under GPL-2 # # Depends: python3 python3-debian # # Schedule packages to be build. import sys import lzma import deb822 import aptsources.sourceslist import random import smtplib from subprocess import call from apt_pkg import version_compare from urllib.request import urlopen from sqlalchemy import sql from email.mime.text import MIMEText from reproducible_common import * from reproducible_html_live_status import generate_schedule from reproducible_html_packages import gen_packages_html from reproducible_html_packages import purge_old_pages """ How the scheduler chooses which limit to apply, based on the MAXIMA and LIMIT arrays: First, the scheduler is only started for an architecture if the number of currently scheduled packages is lower than MAXIMA*3. Then if the number of scheduled packages is higher than MAXIMA, only new versions are scheduled... Then, for each category (totally _untested_ packages, _new_ versions, _ftbfs_ and _depwait_ packages and _old_ versions) it depends on how many packages are already scheduled in that category, in a 3 steps process. Only when scheduling old versions MINIMUM_AGE is respected. Let's go by an example: 'unstable': {1: (250, 40), 2: (350, 20), '*': 5}, is translated to: if total < 250: 40 elif total < 350: 20 else: 5 * 1st step, if there are less than 250 packages in the queue, schedule 40 * 2nd step, if there are less than 350 packages in the queue, schedule 20 * 3rd step, schedule 5 So, the 3rd step happens only when there are more than 350 packages queued up. LIMITS_404 defines how many packages with status 404 are rescheduled at max. """ # only old packages older than this will be rescheduled MINIMUM_AGE = {'amd64': 21, 'i386': 21, 'armhf': 21} # maximum queue size, see explainations above MAXIMA = {'amd64': 750, 'i386': 750, 'armhf': 750} # limits, see explainations above LIMITS = { 'untested': { 'amd64': { 'testing': {'*': 440}, 'unstable': {'*': 440}, 'experimental': {'*': 440}, }, 'i386': { 'testing': {'*': 440}, 'unstable': {'*': 440}, 'experimental': {'*': 440}, }, 'armhf': { 'testing': {'*': 440}, 'unstable': {'*': 440}, 'experimental': {'*': 440}, }, }, 'new': { 'amd64': { 'testing': {1: (100, 250), 2: (200, 200), '*': 100}, 'unstable': {1: (100, 250), 2: (200, 200), '*': 150}, 'experimental': {1: (100, 250), 2: (200, 200), '*': 50}, }, 'i386': { 'testing': {1: (100, 250), 2: (200, 200), '*': 100}, 'unstable': {1: (100, 250), 2: (200, 200), '*': 150}, 'experimental': {1: (100, 250), 2: (200, 200), '*': 50}, }, 'armhf': { 'testing': {1: (100, 200), 2: (200, 200), '*': 50}, 'unstable': {1: (100, 200), 2: (200, 200), '*': 75}, 'experimental': {1: (100, 200), 2: (200, 200), '*': 25}, }, }, 'ftbfs': { 'amd64': { 'testing': {1: (700, 40), 2: (500, 20), '*': 5}, 'unstable': {1: (700, 40), 2: (500, 20), '*': 5}, 'experimental': {1: (700, 40), 2: (500, 20), '*': 2}, }, 'i386': { 'testing': {1: (700, 40), 2: (500, 20), '*': 5}, 'unstable': {1: (700, 40), 2: (500, 20), '*': 5}, 'experimental': {1: (700, 40), 2: (500, 20), '*': 2}, }, 'armhf': { 'testing': {1: (575, 20), 2: (450, 10), '*': 5}, 'unstable': {1: (575, 20), 2: (450, 10), '*': 5}, 'experimental': {1: (575, 20), 2: (450, 10), '*': 2}, } }, 'depwait': { 'amd64': { 'testing': {1: (700, 400), 2: (500, 200), '*': 50}, 'unstable': {1: (700, 400), 2: (500, 200), '*': 50}, 'experimental': {1: (700, 400), 2: (500, 200), '*': 20}, }, 'i386': { 'testing': {1: (700, 400), 2: (500, 200), '*': 50}, 'unstable': {1: (700, 400), 2: (500, 200), '*': 50}, 'experimental': {1: (700, 400), 2: (500, 200), '*': 20}, }, 'armhf': { 'testing': {1: (575, 200), 2: (450, 100), '*': 50}, 'unstable': {1: (575, 200), 2: (450, 100), '*': 50}, 'experimental': {1: (575, 200), 2: (450, 100), '*': 20}, } }, 'old': { 'amd64': { 'testing': {1: (300, 555), 2: (500, 444), '*': 0}, 'unstable': {1: (300, 1000), 2: (500, 888), '*': 0}, 'experimental': {1: (300, 70), 2: (500, 50), '*': 0}, }, 'i386': { 'testing': {1: (300, 555), 2: (500, 444), '*': 0}, 'unstable': {1: (300, 1000), 2: (500, 888), '*': 0}, 'experimental': {1: (300, 70), 2: (500, 50), '*': 0}, }, 'armhf': { 'testing': {1: (300, 555), 2: (500, 444), '*': 0}, 'unstable': {1: (300, 1000), 2: (500, 888), '*': 0}, 'experimental': {1: (300, 70), 2: (500, 50), '*': 0}, } } } # maximum amount of packages with status 404 which will be rescheduled LIMIT_404 = 255 class Limit: def __init__(self, arch, queue): self.arch = arch self.queue = queue def get_level(self, stage): try: return int(LIMITS[self.queue][self.arch][self.suite][stage][0]) except KeyError: log.error('No limit defined for the %s queue on %s/%s stage %s. ' 'Returning 1', self.queue, self.suite, self.arch, stage) return 1 except IndexError: log.critical('The limit is not in the format "(level, limit)". ' 'I can\'t guess what you want, giving up') sys.exit(1) def get_limit(self, stage): try: limit = LIMITS[self.queue][self.arch][self.suite][stage] limit = limit[1] except KeyError: log.error('No limit defined for the %s queue on %s/%s stage %s. ' 'Returning 1', self.queue, self.suite, self.arch, stage) return 1 except IndexError: log.critical('The limit is not in the format "(level, limit)". ' 'I can\'t guess what you want, giving up') sys.exit(1) except TypeError: # this is the case of the default target if isinstance(limit, int): pass else: raise return int(limit) def get_staged_limit(self, current_total): if current_total <= self.get_level(1): return self.get_limit(1) elif current_total <= self.get_level(2): return self.get_limit(2) else: return self.get_limit('*') def update_sources(suite): # download the sources file for this suite mirror = 'http://ftp.de.debian.org/debian' remotefile = mirror + '/dists/' + suite + '/main/source/Sources.xz' log.info('Downloading sources file for %s: %s', suite, remotefile) sources = lzma.decompress(urlopen(remotefile).read()).decode('utf8') log.debug('\tdownloaded') for arch in ARCHS: log.info('Updating sources db for %s/%s...', suite, arch) update_sources_db(suite, arch, sources) log.info('DB update done for %s/%s done at %s.', suite, arch, datetime.now()) def update_sources_db(suite, arch, sources): # extract relevant info (package name and version) from the sources file new_pkgs = [] for src in deb822.Sources.iter_paragraphs(sources.split('\n')): pkg = (src['Package'], src['Version'], suite, arch) new_pkgs.append(pkg) # get the current packages in the database query = "SELECT name, version, suite, architecture FROM sources " + \ "WHERE suite='{}' AND architecture='{}'".format(suite, arch) cur_pkgs = query_db(query) pkgs_to_add = [] updated_pkgs = [] different_pkgs = [x for x in new_pkgs if x not in cur_pkgs] log.debug('Packages different in the archive and in the db: %s', different_pkgs) for pkg in different_pkgs: # pkg: (name, version, suite, arch) query = "SELECT id, version, notify_maintainer FROM sources " + \ "WHERE name='{}' AND suite='{}' AND architecture='{}'" query = query.format(pkg[0], pkg[2], pkg[3]) try: result = query_db(query)[0] except IndexError: # new package pkgs_to_add.append({ 'name': pkg[0], 'version': pkg[1], 'suite': pkg[2], 'architecture': pkg[3], }) continue pkg_id = result[0] old_version = result[1] notify_maint = int(result[2]) if version_compare(pkg[1], old_version) > 0: log.debug('New version: ' + str(pkg) + ' (we had ' + old_version + ')') updated_pkgs.append({ 'update_id': pkg_id, 'name': pkg[0], 'version': pkg[1], 'suite': pkg[2], 'architecture': pkg[3], 'notify_maintainer': notify_maint, }) # Now actually update the database: sources_table = db_table('sources') # updated packages log.info('Pushing ' + str(len(updated_pkgs)) + ' updated packages to the database...') if updated_pkgs: transaction = conn_db.begin() update_query = sources_table.update().\ where(sources_table.c.id == sql.bindparam('update_id')) conn_db.execute(update_query, updated_pkgs) transaction.commit() # new packages if pkgs_to_add: log.info('Now inserting %i new sources in the database: %s', len(pkgs_to_add), pkgs_to_add) transaction = conn_db.begin() conn_db.execute(sources_table.insert(), pkgs_to_add) transaction.commit() # RM'ed packages cur_pkgs_name = [x[0] for x in cur_pkgs] new_pkgs_name = [x[0] for x in new_pkgs] rmed_pkgs = [x for x in cur_pkgs_name if x not in new_pkgs_name] log.info('Now deleting %i removed packages: %s', len(rmed_pkgs), rmed_pkgs) rmed_pkgs_id = [] pkgs_to_rm = [] query = "SELECT id FROM sources WHERE name='{}' AND suite='{}' " + \ "AND architecture='{}'" for pkg in rmed_pkgs: result = query_db(query.format(pkg, suite, arch)) rmed_pkgs_id.append({'deleteid': result[0][0]}) pkgs_to_rm.append({'name': pkg, 'suite': suite, 'architecture': arch}) log.debug('removed packages ID: %s', [str(x['deleteid']) for x in rmed_pkgs_id]) log.debug('removed packages: %s', pkgs_to_rm) if rmed_pkgs_id: transaction = conn_db.begin() results_table = db_table('results') schedule_table = db_table('schedule') notes_table = db_table('notes') removed_packages_table = db_table('removed_packages') delete_results_query = results_table.delete().\ where(results_table.c.package_id == sql.bindparam('deleteid')) delete_schedule_query = schedule_table.delete().\ where(schedule_table.c.package_id == sql.bindparam('deleteid')) delete_notes_query = notes_table.delete().\ where(notes_table.c.package_id == sql.bindparam('deleteid')) delete_sources_query = sources_table.delete().\ where(sources_table.c.id == sql.bindparam('deleteid')) conn_db.execute(delete_results_query, rmed_pkgs_id) conn_db.execute(delete_schedule_query, rmed_pkgs_id) conn_db.execute(delete_notes_query, rmed_pkgs_id) conn_db.execute(delete_sources_query, rmed_pkgs_id) conn_db.execute(removed_packages_table.insert(), pkgs_to_rm) transaction.commit() # finally check whether the db has the correct number of packages query = "SELECT count(*) FROM sources WHERE suite='{}' " + \ "AND architecture='{}'" pkgs_end = query_db(query.format(suite, arch)) count_new_pkgs = len(set([x[0] for x in new_pkgs])) if int(pkgs_end[0][0]) != count_new_pkgs: print_critical_message('AH! The number of source in the Sources file' + ' is different than the one in the DB!') log.critical('source in the debian archive for the %s suite: %s', suite, str(count_new_pkgs)) log.critical('source in the reproducible db for the %s suite: %s', suite, str(pkgs_end[0][0])) sys.exit(1) if pkgs_to_add: log.info('Building pages for the new packages') gen_packages_html([Package(x['name']) for x in pkgs_to_add], no_clean=True) def print_schedule_result(suite, arch, criteria, packages): ''' `packages` is the usual list-of-tuples returned by SQL queries, where the first item is the id and the second one the package name ''' log.info('Criteria: ' + criteria) log.info('Suite/Arch: ' + suite + '/' + arch) log.info('Amount: ' + str(len(packages))) log.info('Packages: ' + ' '.join([x[1] for x in packages])) def queue_packages(all_pkgs, packages, date): date = date.strftime('%Y-%m-%d %H:%M') pkgs = [x for x in packages if x[0] not in all_pkgs] if len(pkgs) > 0: log.info('The following ' + str(len(pkgs)) + ' source packages have ' + 'been queued up for scheduling at ' + date + ': ' + ' '.join([str(x[1]) for x in pkgs])) all_pkgs.update({x[0]: date for x in pkgs}) return all_pkgs def schedule_packages(packages): pkgs = [{'package_id': x, 'date_scheduled': packages[x]} for x in packages.keys()] log.debug('IDs about to be scheduled: %s', packages.keys()) if pkgs: conn_db.execute(db_table('schedule').insert(), pkgs) def add_up_numbers(packages, arch): packages_sum = '+'.join([str(len(packages[x])) for x in SUITES]) if packages_sum == '0+0+0': packages_sum = '0' return packages_sum def query_untested_packages(suite, arch, limit): criteria = 'not tested before, randomly sorted' query = """SELECT DISTINCT sources.id, sources.name FROM sources WHERE sources.suite='{suite}' AND sources.architecture='{arch}' AND sources.id NOT IN (SELECT schedule.package_id FROM schedule) AND sources.id NOT IN (SELECT results.package_id FROM results) ORDER BY random() LIMIT {limit}""".format(suite=suite, arch=arch, limit=limit) packages = query_db(query) print_schedule_result(suite, arch, criteria, packages) return packages def query_new_versions(suite, arch, limit): criteria = 'tested before, new version available, sorted by last build date' query = """SELECT s.id, s.name, s.version, r.version, max(r.build_date) max_date FROM sources AS s JOIN results AS r ON s.id = r.package_id WHERE s.suite='{suite}' AND s.architecture='{arch}' AND s.version != r.version AND r.status != 'blacklisted' AND s.id IN (SELECT package_id FROM results) AND s.id NOT IN (SELECT schedule.package_id FROM schedule) GROUP BY s.id, s.name, s.version, r.version ORDER BY max_date LIMIT {limit}""".format(suite=suite, arch=arch, limit=limit) pkgs = query_db(query) # the next line avoids constant rescheduling of packages: # packages in our repository != sid or testing, # so they will always be selected by the query above # so we only accept them if there version is greater than the already tested one packages = [(x[0], x[1]) for x in pkgs if version_compare(x[2], x[3]) > 0] print_schedule_result(suite, arch, criteria, packages) return packages def query_old_ftbfs_versions(suite, arch, limit): criteria = 'status ftbfs, no bug filed, tested at least 3 days ago, ' + \ 'no new version available, sorted by last build date' date = (datetime.now()-timedelta(days=3)).strftime('%Y-%m-%d %H:%M') query = """SELECT s.id, s.name, max(r.build_date) max_date FROM sources AS s JOIN results AS r ON s.id = r.package_id JOIN notes AS n ON n.package_id=s.id WHERE s.suite='{suite}' AND s.architecture='{arch}' AND r.status='FTBFS' AND ( n.bugs = '[]' OR n.bugs IS NULL ) AND r.build_date < '{date}' AND s.id NOT IN (SELECT schedule.package_id FROM schedule) GROUP BY s.id, s.name ORDER BY max_date LIMIT {limit}""".format(suite=suite, arch=arch, limit=limit, date=date) packages = query_db(query) print_schedule_result(suite, arch, criteria, packages) return packages def query_old_depwait_versions(suite, arch, limit): criteria = 'status depwait, no bug filed, tested at least 2 days ago, ' + \ 'no new version available, sorted by last build date' date = (datetime.now()-timedelta(days=2)).strftime('%Y-%m-%d %H:%M') query = """SELECT s.id, s.name, max(r.build_date) max_date FROM sources AS s JOIN results AS r ON s.id = r.package_id WHERE s.suite='{suite}' AND s.architecture='{arch}' AND r.status='depwait' AND r.build_date < '{date}' AND s.id NOT IN (SELECT schedule.package_id FROM schedule) GROUP BY s.id, s.name ORDER BY max_date LIMIT {limit}""".format(suite=suite, arch=arch, limit=limit, date=date) packages = query_db(query) print_schedule_result(suite, arch, criteria, packages) return packages def query_old_versions(suite, arch, limit): criteria = """tested at least {minimum_age} days ago, no new version available, sorted by last build date""".format(minimum_age=MINIMUM_AGE[arch]) date = (datetime.now()-timedelta(days=MINIMUM_AGE[arch]))\ .strftime('%Y-%m-%d %H:%M') query = """SELECT s.id, s.name, max(r.build_date) max_date FROM sources AS s JOIN results AS r ON s.id = r.package_id WHERE s.suite='{suite}' AND s.architecture='{arch}' AND r.status != 'blacklisted' AND r.build_date < '{date}' AND s.id NOT IN (SELECT schedule.package_id FROM schedule) GROUP BY s.id, s.name ORDER BY max_date LIMIT {limit}""".format(suite=suite, arch=arch, date=date, limit=limit) packages = query_db(query) print_schedule_result(suite, arch, criteria, packages) return packages def query_404_versions(suite, arch, limit): criteria = """tested at least a day ago, status 404, sorted by last build date""" date = (datetime.now()-timedelta(days=1)).strftime('%Y-%m-%d %H:%M') query = """SELECT s.id, s.name, max(r.build_date) max_date FROM sources AS s JOIN results AS r ON s.id = r.package_id WHERE s.suite='{suite}' AND s.architecture='{arch}' AND r.status = '404' AND r.build_date < '{date}' AND s.id NOT IN (SELECT schedule.package_id FROM schedule) GROUP BY s.id, s.name ORDER BY max_date LIMIT {limit}""".format(suite=suite, arch=arch, limit=limit, date=date) packages = query_db(query) print_schedule_result(suite, arch, criteria, packages) return packages def schedule_untested_packages(arch, total): packages = {} limit = Limit(arch, 'untested') for suite in SUITES: limit.suite = suite many_untested = limit.get_limit('*') log.info('Requesting %s untested packages in %s/%s...', many_untested, suite, arch) packages[suite] = query_untested_packages(suite, arch, many_untested) log.info('Received ' + str(len(packages[suite])) + ' untested packages in ' + suite + '/' + arch + 'to schedule.') log.info('--------------------------------------------------------------') msg = add_up_numbers(packages, arch) if msg != '0': msg += ' new packages' else: msg = '' return packages, msg def schedule_new_versions(arch, total): packages = {} limit = Limit(arch, 'new') for suite in SUITES: limit.suite = suite many_new = limit.get_staged_limit(total) log.info('Requesting %s new versions in %s/%s...', many_new, suite, arch) packages[suite] = query_new_versions(suite, arch, many_new) log.info('Received ' + str(len(packages[suite])) + ' new packages in ' + suite + '/' + arch + ' to schedule.') log.info('--------------------------------------------------------------') msg = add_up_numbers(packages, arch) if msg != '0': msg += ' new versions' else: msg = '' return packages, msg def schedule_old_ftbfs_versions(arch, total): packages = {} limit = Limit(arch, 'ftbfs') for suite in SUITES: limit.suite = suite old_ftbfs = limit.get_staged_limit(total) log.info('Requesting %s old ftbfs packages in %s/%s...', old_ftbfs, suite, arch) packages[suite] = query_old_ftbfs_versions(suite, arch, old_ftbfs) log.info('Received ' + str(len(packages[suite])) + ' old ftbfs packages in ' + suite + '/' + arch + ' to schedule.') log.info('--------------------------------------------------------------') msg = add_up_numbers(packages, arch) if msg != '0': msg += ' ftbfs without bugs filed' else: msg = '' return packages, msg def schedule_old_depwait_versions(arch, total): packages = {} limit = Limit(arch, 'depwait') for suite in SUITES: limit.suite = suite old_depwait = limit.get_staged_limit(total) log.info('Requesting %s old depwait packages in %s/%s...', old_depwait, suite, arch) packages[suite] = query_old_depwait_versions(suite, arch, old_depwait) log.info('Received ' + str(len(packages[suite])) + ' old depwait packages in ' + suite + '/' + arch + ' to schedule.') log.info('--------------------------------------------------------------') msg = add_up_numbers(packages, arch) if msg != '0': msg += ' in depwait state' else: msg = '' return packages, msg def schedule_old_versions(arch, total): packages = {} limit = Limit(arch, 'old') for suite in SUITES: limit.suite = suite many_old = limit.get_staged_limit(total) log.info('Requesting %s old packages in %s/%s...', many_old, suite, arch) packages[suite] = query_old_versions(suite, arch, many_old) log.info('Received ' + str(len(packages[suite])) + ' old packages in ' + suite + '/' + arch + ' to schedule.') log.info('--------------------------------------------------------------') msg = add_up_numbers(packages, arch) if msg != '0': msg += ' known versions' else: msg = '' return packages, msg def schedule_404_versions(arch, total): packages = {} for suite in SUITES: log.info('Requesting 404 packages in %s/%s...', suite, arch) packages[suite] = query_404_versions(suite, arch, LIMIT_404) log.info('Received ' + str(len(packages[suite])) + ' 404 packages in ' + suite + '/' + arch + ' to schedule.') log.info('--------------------------------------------------------------') msg = add_up_numbers(packages, arch) if msg != '0': msg += ' with status \'404\'' else: msg = '' return packages, msg def scheduler(arch): query = "SELECT count(*) " + \ "FROM schedule AS p JOIN sources AS s ON p.package_id=s.id " + \ "WHERE s.architecture='{arch}'" total = int(query_db(query.format(arch=arch))[0][0]) log.info('==============================================================') log.info('Currently scheduled packages in all suites on ' + arch + ': ' + str(total)) if total > MAXIMA[arch]: log.info(str(total) + ' packages already scheduled' + ', only scheduling new versions.') empty_pkgs = {} for suite in SUITES: empty_pkgs[suite] = [] untested, msg_untested = empty_pkgs, '' new, msg_new = schedule_new_versions(arch, total) old_ftbfs, msg_old_ftbfs = empty_pkgs, '' old_depwait, msg_old_depwait = empty_pkgs, '' old, msg_old = empty_pkgs, '' four04, msg_404 = empty_pkgs, '' else: log.info(str(total) + ' packages already scheduled' + ', scheduling some more...') untested, msg_untested = schedule_untested_packages(arch, total) new, msg_new = schedule_new_versions(arch, total+len(untested)) old_ftbfs, msg_old_ftbfs = schedule_old_ftbfs_versions(arch, total+len(untested)+len(new)) old_depwait, msg_old_depwait = schedule_old_depwait_versions(arch, total+len(untested)+len(new)+len(old_ftbfs)) four04, msg_404 = schedule_404_versions(arch, total+len(untested)+len(new)+len(old_ftbfs)+len(old_depwait)) old, msg_old = schedule_old_versions(arch, total+len(untested)+len(new)+len(old_ftbfs)+len(old_depwait)+len(four04)) now_queued_here = {} # make sure to schedule packages in unstable first # (but keep the view ordering everywhere else) priotized_suite_order = ['unstable'] for suite in SUITES: if suite not in priotized_suite_order: priotized_suite_order.append(suite) for suite in priotized_suite_order: query = "SELECT count(*) " \ "FROM schedule AS p JOIN sources AS s ON p.package_id=s.id " \ "WHERE s.suite='{suite}' AND s.architecture='{arch}'" query = query.format(suite=suite, arch=arch) now_queued_here[suite] = int(query_db(query)[0][0]) + \ len(untested[suite]+new[suite]+old[suite]) # schedule packages differently in the queue... to_be_scheduled = queue_packages({}, untested[suite], datetime.now()) assert(isinstance(to_be_scheduled, dict)) to_be_scheduled = queue_packages(to_be_scheduled, new[suite], datetime.now()+timedelta(minutes=-720)) to_be_scheduled = queue_packages(to_be_scheduled, old_ftbfs[suite], datetime.now()+timedelta(minutes=360)) to_be_scheduled = queue_packages(to_be_scheduled, old_depwait[suite], datetime.now()+timedelta(minutes=360)) to_be_scheduled = queue_packages(to_be_scheduled, old[suite], datetime.now()+timedelta(minutes=720)) to_be_scheduled = queue_packages(to_be_scheduled, four04[suite], datetime.now()) schedule_packages(to_be_scheduled) # update the scheduled page generate_schedule(arch) # from reproducible_html_indexes # build the message text for this arch message = ' - ' + arch + ': ' if msg_untested: message += msg_untested + ', ' if msg_new: message += msg_new + ', ' if msg_404: message += msg_404 + ', ' if msg_old_ftbfs: message += msg_old_ftbfs + ', ' if msg_old_depwait: message += msg_old_depwait + ', ' if msg_old: message += msg_old + ', ' total = [now_queued_here[x] for x in SUITES] message += ' for ' + str(sum(total)) message += ' or ' + '+'.join([str(now_queued_here[x]) for x in SUITES]) message += ' packages in total.' log.info('Scheduling for architecture ' + arch + ' done.') log.info('--------------------------------------------------------------') # only notifiy irc if there were packages scheduled in any suite for x in SUITES: if len(untested[x])+len(new[x])+len(old[x])+len(old_ftbfs[x])+len(old_depwait[x]) > 0: return message return '' if __name__ == '__main__': log.info('Updating sources tables for all suites.') for suite in SUITES: update_sources(suite) log.info('Sources for suite %s done at %s.', suite, datetime.now()) purge_old_pages() query = "SELECT count(*) " + \ "FROM schedule AS p JOIN sources AS s ON s.id=p.package_id " + \ "WHERE s.architecture='{}'" message = '' for arch in ARCHS: log.info('Scheduling for %s...', arch) overall = int(query_db(query.format(arch))[0][0]) if overall > (MAXIMA[arch]*3): log.info('%s packages already scheduled for %s, nothing to do.', overall, arch) continue log.info('%s packages already scheduled for %s, probably scheduling some ' 'more...', overall, arch) message += scheduler(arch) log.info('Arch %s scheduled at %s.', arch, datetime.now()) if message != '': # build the kgb message text message = 'Scheduled in ' + '+'.join(SUITES) + ':' + message log.info(message) # irc_msg(message, channel='debian-reproducible-changes') # send mail instead of notifying via irc, less intrusive msg = MIMEText(message) mail_from = 'jenkins@jenkins.debian.net' mail_to = 'qa-jenkins-scm@lists.alioth.debian.org' msg['From'] = mail_from msg['To'] = mail_to msg['Subject'] = 'packages scheduled for reproducible Debian' s = smtplib.SMTP('localhost') s.sendmail(mail_from, [mail_to], msg.as_string()) s.quit()