# Copyright 2012-2015 Hewlett-Packard Development Company, L.P. # Copyright 2013 OpenStack Foundation # Copyright 2013 Antoine "hashar" Musso # Copyright 2013 Wikimedia Foundation Inc. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import json import logging import os import socket import sys import threading import time import traceback import urllib from apscheduler.schedulers.background import BackgroundScheduler from apscheduler.triggers.interval import IntervalTrigger from kazoo.exceptions import NotEmptyError from zuul import configloader, exceptions from zuul import version as zuul_version from zuul import rpclistener from zuul.lib import commandsocket from zuul.lib.ansible import AnsibleManager from zuul.lib.config import get_default from zuul.lib.gear_utils import getGearmanFunctions from zuul.lib.keystorage import FileKeyStorage, ZooKeeperKeyStorage from zuul.lib.logutil import get_annotated_logger from zuul.lib.queue import NamedQueue from zuul.lib.statsd import get_statsd, normalize_statsd_name import zuul.lib.queue import zuul.lib.repl from zuul import nodepool from zuul.executor.client import ExecutorClient from zuul.merger.client import MergeClient from zuul.model import ( Abide, Build, BuildCompletedEvent, BuildPausedEvent, BuildStartedEvent, BuildStatusEvent, Change, ChangeManagementEvent, DequeueEvent, EnqueueEvent, FilesChangesCompletedEvent, HoldRequest, MergeCompletedEvent, NodesProvisionedEvent, PromoteEvent, ReconfigureEvent, TenantReconfigureEvent, TimeDataBase, UnparsedAbideConfig, STATE_FAILED, ) from zuul.zk import ZooKeeperClient from zuul.zk.cleanup import SemaphoreCleanupLock, BuildRequestCleanupLock from zuul.zk.components import ( BaseComponent, ComponentRegistry, SchedulerComponent ) from zuul.zk.config_cache import UnparsedConfigCache from zuul.zk.event_queues import ( EventWatcher, TenantManagementEventQueue, TenantTriggerEventQueue, PipelineManagementEventQueue, PipelineResultEventQueue, PipelineTriggerEventQueue, TENANT_ROOT, ) from zuul.zk.exceptions import LockException from zuul.zk.layout import LayoutState, LayoutStateStore from zuul.zk.locks import ( tenant_read_lock, tenant_write_lock, pipeline_lock, management_queue_lock, trigger_queue_lock, ) from zuul.zk.nodepool import ZooKeeperNodepool COMMANDS = ['full-reconfigure', 'smart-reconfigure', 'stop', 'repl', 'norepl'] class Scheduler(threading.Thread): """The engine of Zuul. The Scheduler is responsible for receiving events and dispatching them to appropriate components (including pipeline managers, mergers and executors). It runs a single threaded main loop which processes events received one at a time and takes action as appropriate. Other parts of Zuul may run in their own thread, but synchronization is performed within the scheduler to reduce or eliminate the need for locking in most circumstances. The main daemon will have one instance of the Scheduler class running which will persist for the life of the process. The Scheduler instance is supplied to other Zuul components so that they can submit events or otherwise communicate with other components. """ log = logging.getLogger("zuul.Scheduler") _stats_interval = 30 _semaphore_cleanup_interval = IntervalTrigger(minutes=60, jitter=60) _config_cache_cleanup_interval = IntervalTrigger(minutes=60, jitter=60) _build_request_cleanup_interval = IntervalTrigger(seconds=60, jitter=5) _merger_client_class = MergeClient _executor_client_class = ExecutorClient def __init__(self, config, connections, app, testonly=False): threading.Thread.__init__(self) self.daemon = True self.hostname = socket.getfqdn() self.wake_event = threading.Event() self.layout_lock = threading.Lock() self.run_handler_lock = threading.Lock() self.command_map = { 'stop': self.stop, 'full-reconfigure': self.fullReconfigureCommandHandler, 'smart-reconfigure': self.smartReconfigureCommandHandler, 'repl': self.start_repl, 'norepl': self.stop_repl, } self._stopped = False self._zuul_app = app self.connections = connections self.statsd = get_statsd(config) self.rpc = rpclistener.RPCListener(config, self) self.rpc_slow = rpclistener.RPCListenerSlow(config, self) self.repl = None self.stats_thread = threading.Thread(target=self.runStats) self.stats_thread.daemon = True self.stop_event = threading.Event() self.apsched = BackgroundScheduler() # TODO(jeblair): fix this # Despite triggers being part of the pipeline, there is one trigger set # per scheduler. The pipeline handles the trigger filters but since # the events are handled by the scheduler itself it needs to handle # the loading of the triggers. # self.triggers['connection_name'] = triggerObject self.triggers = dict() self.config = config self.zk_client = ZooKeeperClient.fromConfig(self.config) self.zk_client.connect() self.zk_nodepool = ZooKeeperNodepool(self.zk_client) self.component_info = SchedulerComponent(self.zk_client, self.hostname) self.component_info.register() self.component_registry = ComponentRegistry(self.zk_client) self.unparsed_config_cache = UnparsedConfigCache(self.zk_client) # TODO (swestphahl): Remove after we've refactored reconfigurations # to be performed on the tenant level. self.reconfigure_event_queue = NamedQueue("ReconfigureEventQueue") self.result_event_queue = NamedQueue("ResultEventQueue") self.event_watcher = EventWatcher( self.zk_client, self.wake_event.set ) self.management_events = TenantManagementEventQueue.createRegistry( self.zk_client) self.pipeline_management_events = ( PipelineManagementEventQueue.createRegistry( self.zk_client ) ) self.trigger_events = TenantTriggerEventQueue.createRegistry( self.zk_client, self.connections ) self.pipeline_trigger_events = ( PipelineTriggerEventQueue.createRegistry( self.zk_client, self.connections ) ) self.pipeline_result_events = PipelineResultEventQueue.createRegistry( self.zk_client ) self.semaphore_cleanup_lock = SemaphoreCleanupLock(self.zk_client) self.build_request_cleanup_lock = BuildRequestCleanupLock( self.zk_client) self.abide = Abide() self.unparsed_abide = UnparsedAbideConfig() self.tenant_layout_state = LayoutStateStore(self.zk_client) if not testonly: time_dir = self._get_time_database_dir() self.time_database = TimeDataBase(time_dir) command_socket = get_default( self.config, 'scheduler', 'command_socket', '/var/lib/zuul/scheduler.socket') self.command_socket = commandsocket.CommandSocket(command_socket) if zuul_version.is_release is False: self.zuul_version = "%s %s" % (zuul_version.release_string, zuul_version.git_version) else: self.zuul_version = zuul_version.release_string self.last_reconfigured = None self.use_relative_priority = False if self.config.has_option('scheduler', 'relative_priority'): if self.config.getboolean('scheduler', 'relative_priority'): self.use_relative_priority = True web_root = get_default(self.config, 'web', 'root', None) if web_root: web_root = urllib.parse.urljoin(web_root, 't/{tenant.name}/') self.web_root = web_root default_ansible_version = get_default( self.config, 'scheduler', 'default_ansible_version', None) self.ansible_manager = AnsibleManager( default_version=default_ansible_version) if not testonly: self.executor = self._executor_client_class(self.config, self) self.merger = self._merger_client_class(self.config, self) self.nodepool = nodepool.Nodepool( self.zk_client, self.hostname, self.statsd, self) def start(self): super(Scheduler, self).start() self.keystore = ZooKeeperKeyStorage( self.zk_client, password=self._get_key_store_password(), backup=FileKeyStorage(self._get_key_dir())) self._command_running = True self.log.debug("Starting command processor") self.command_socket.start() self.command_thread = threading.Thread(target=self.runCommand, name='command') self.command_thread.daemon = True self.command_thread.start() self.rpc.start() self.rpc_slow.start() self.stats_thread.start() self.apsched.start() # Start an anonymous thread to perform initial cleanup, then # schedule later cleanup tasks. t = threading.Thread(target=self.startCleanup, name='cleanup start') t.daemon = True t.start() self.component_info.state = self.component_info.RUNNING def stop(self): self._stopped = True self.component_info.state = self.component_info.STOPPED self.stop_event.set() self.stopConnections() self.wake_event.set() self.stats_thread.join() self.apsched.shutdown() self.rpc.stop() self.rpc.join() self.rpc_slow.stop() self.rpc_slow.join() self.stop_repl() self._command_running = False self.command_socket.stop() self.command_thread.join() self.zk_client.disconnect() def runCommand(self): while self._command_running: try: command = self.command_socket.get().decode('utf8') if command != '_stop': self.command_map[command]() except Exception: self.log.exception("Exception while processing command") def stopConnections(self): self.connections.stop() def runStats(self): while not self.stop_event.wait(self._stats_interval): try: self._runStats() except Exception: self.log.exception("Error in periodic stats:") def _runStats(self): if not self.statsd: return executor_stats_default = { "online": 0, "accepting": 0, "queued": 0, "running": 0 } # Calculate the executor and merger stats executors_online = 0 executors_accepting = 0 executors_unzoned_online = 0 executors_unzoned_accepting = 0 # zone -> accepting|online zoned_executor_stats = {} zoned_executor_stats.setdefault(None, executor_stats_default.copy()) mergers_online = 0 for executor_component in self.component_registry.all("executor"): if executor_component.allow_unzoned or not executor_component.zone: if executor_component.state == BaseComponent.RUNNING: executors_unzoned_online += 1 if executor_component.accepting_work: executors_unzoned_accepting += 1 else: zone_stats = zoned_executor_stats.setdefault( executor_component.zone, executor_stats_default.copy()) if executor_component.state == BaseComponent.RUNNING: zone_stats["online"] += 1 if executor_component.accepting_work: zone_stats["accepting"] += 1 # An executor with merger capabilities does also count as merger if executor_component.process_merge_jobs: mergers_online += 1 # TODO(corvus): Remove for 5.0: executors_online += 1 if executor_component.accepting_work: executors_accepting += 1 for merger_component in self.component_registry.all("merger"): if merger_component.state == BaseComponent.RUNNING: mergers_online += 1 # Get all builds so we can filter by state and zone for build_request in self.executor.executor_api.inState(): zone = build_request.zone zone_stats = zoned_executor_stats.setdefault( executor_component.zone, executor_stats_default.copy()) if build_request.state == build_request.REQUESTED: zone_stats['queued'] += 1 if build_request.state in ( build_request.RUNNING, build_request.PAUSED): zone_stats['running'] += 1 # Publish the executor stats self.statsd.gauge('zuul.executors.unzoned.accepting', executors_unzoned_accepting) self.statsd.gauge('zuul.executors.unzoned.online', executors_unzoned_online) self.statsd.gauge('zuul.executors.unzoned.jobs_running', zoned_executor_stats[None]['running']) self.statsd.gauge('zuul.executors.unzoned.jobs_queued', zoned_executor_stats[None]['queued']) # TODO(corvus): Remove for 5.0: self.statsd.gauge('zuul.executors.jobs_running', zoned_executor_stats[None]['running']) self.statsd.gauge('zuul.executors.jobs_queued', zoned_executor_stats[None]['queued']) for zone, stats in zoned_executor_stats.items(): if zone is None: continue self.statsd.gauge( f'zuul.executors.zone.{normalize_statsd_name(zone)}.accepting', stats["accepting"], ) self.statsd.gauge( f'zuul.executors.zone.{normalize_statsd_name(zone)}.online', stats["online"], ) self.statsd.gauge( 'zuul.executors.zone.' f'{normalize_statsd_name(zone)}.jobs_running', stats['running']) self.statsd.gauge( 'zuul.executors.zone.' f'{normalize_statsd_name(zone)}.jobs_queued', stats['queued']) # TODO(corvus): Remove for 5.0: self.statsd.gauge('zuul.executors.accepting', executors_accepting) self.statsd.gauge('zuul.executors.online', executors_online) # Publish the merger stats self.statsd.gauge('zuul.mergers.online', mergers_online) functions = getGearmanFunctions(self.rpc.gearworker.gearman) functions.update(getGearmanFunctions(self.rpc_slow.gearworker.gearman)) merge_queue = 0 merge_running = 0 for (name, (queued, running, registered)) in functions.items(): if name == 'merger:merge': mergers_online = registered if name.startswith('merger:'): merge_queue += queued - running merge_running += running self.statsd.gauge('zuul.mergers.jobs_running', merge_running) self.statsd.gauge('zuul.mergers.jobs_queued', merge_queue) self.statsd.gauge('zuul.scheduler.eventqueues.result', self.result_event_queue.qsize()) self.statsd.gauge('zuul.scheduler.eventqueues.management', self.reconfigure_event_queue.qsize()) base = 'zuul.scheduler.eventqueues.connection' for connection in self.connections.connections.values(): queue = connection.getEventQueue() if queue is not None: self.statsd.gauge(f'{base}.{connection.connection_name}', len(queue)) for tenant in self.abide.tenants.values(): self.statsd.gauge(f"zuul.tenant.{tenant.name}.management_events", len(self.management_events[tenant.name])) self.statsd.gauge(f"zuul.tenant.{tenant.name}.trigger_events", len(self.trigger_events[tenant.name])) trigger_event_queues = self.pipeline_trigger_events[tenant.name] result_event_queues = self.pipeline_result_events[tenant.name] management_event_queues = ( self.pipeline_management_events[tenant.name] ) for pipeline in tenant.layout.pipelines.values(): base = f"zuul.tenant.{tenant.name}.pipeline.{pipeline.name}" self.statsd.gauge(f"{base}.trigger_events", len(trigger_event_queues[pipeline.name])) self.statsd.gauge(f"{base}.result_events", len(result_event_queues[pipeline.name])) self.statsd.gauge(f"{base}.management_events", len(management_event_queues[pipeline.name])) def startCleanup(self): # Run the first cleanup immediately after the first # reconfiguration. while not self.stop_event.wait(0): if not self.last_reconfigured: time.sleep(0.1) continue try: self._runSemaphoreCleanup() except Exception: self.log.exception("Error in semaphore cleanup:") try: self._runBuildRequestCleanup() except Exception: self.log.exception("Error in build request cleanup:") self.apsched.add_job(self._runSemaphoreCleanup, trigger=self._semaphore_cleanup_interval) self.apsched.add_job(self._runBuildRequestCleanup, trigger=self._build_request_cleanup_interval) self.apsched.add_job(self._runConfigCacheCleanup, trigger=self._config_cache_cleanup_interval) return def _runSemaphoreCleanup(self): # Get the layout lock to make sure the abide doesn't change # under us. with self.layout_lock: if self.semaphore_cleanup_lock.acquire(blocking=False): try: self.log.debug("Starting semaphore cleanup") for tenant in self.abide.tenants.values(): try: tenant.semaphore_handler.cleanupLeaks() except Exception: self.log.exception("Error in semaphore cleanup:") finally: self.semaphore_cleanup_lock.release() def _runConfigCacheCleanup(self): with self.layout_lock: try: self.log.debug("Starting config cache cleanup") cached_projects = set( self.unparsed_config_cache.listCachedProjects()) active_projects = set( self.abide.unparsed_project_branch_cache.keys()) unused_projects = cached_projects - active_projects for project_cname in unused_projects: self.unparsed_config_cache.clearCache(project_cname) except Exception: self.log.exception("Error in config cache cleanup:") def _runBuildRequestCleanup(self): # If someone else is running the cleanup, skip it. if self.build_request_cleanup_lock.acquire(blocking=False): try: self.log.debug("Starting build request cleanup") self.executor.cleanupLostBuildRequests() finally: self.build_request_cleanup_lock.release() def addTriggerEvent(self, driver_name, event): event.arrived_at_scheduler_timestamp = time.time() for tenant in self.abide.tenants.values(): trusted, project = tenant.getProject(event.canonical_project_name) if project is None: continue self.trigger_events[tenant.name].put(driver_name, event) def addChangeManagementEvent(self, event): tenant_name = event.tenant_name pipeline_name = event.pipeline_name tenant = self.abide.tenants.get(tenant_name) if tenant is None: raise ValueError(f'Unknown tenant {event.tenant_name}') pipeline = tenant.layout.pipelines.get(pipeline_name) if pipeline is None: raise ValueError(f'Unknown pipeline {event.pipeline_name}') self.pipeline_management_events[tenant_name][pipeline_name].put( event, needs_result=False ) def _reportBuildStats(self, build): # Note, as soon as the result is set, other threads may act # upon this, even though the event hasn't been fully # processed. This could result in race conditions when e.g. skipping # child jobs via zuul_return. Therefore we must delay setting the # result to the main event loop. try: if self.statsd and build.pipeline: tenant = build.pipeline.tenant jobname = build.job.name.replace('.', '_').replace('/', '_') hostname = (build.build_set.item.change.project. canonical_hostname.replace('.', '_')) projectname = (build.build_set.item.change.project.name. replace('.', '_').replace('/', '_')) branchname = (getattr(build.build_set.item.change, 'branch', ''). replace('.', '_').replace('/', '_')) basekey = 'zuul.tenant.%s' % tenant.name pipekey = '%s.pipeline.%s' % (basekey, build.pipeline.name) # zuul.tenant..pipeline..all_jobs key = '%s.all_jobs' % pipekey self.statsd.incr(key) jobkey = '%s.project.%s.%s.%s.job.%s' % ( pipekey, hostname, projectname, branchname, jobname) # zuul.tenant..pipeline..project. # ...job.. key = '%s.%s' % ( jobkey, 'RETRY' if build.result is None else build.result ) if build.result in ['SUCCESS', 'FAILURE'] and build.start_time: dt = int((build.end_time - build.start_time) * 1000) self.statsd.timing(key, dt) self.statsd.incr(key) # zuul.tenant..pipeline..project. # ...job..wait_time if build.start_time: key = '%s.wait_time' % jobkey dt = int((build.start_time - build.execute_time) * 1000) self.statsd.timing(key, dt) except Exception: self.log.exception("Exception reporting runtime stats") def onMergeCompleted(self, build_set, merged, updated, commit, files, repo_state, item_in_branches): tenant_name = build_set.item.pipeline.tenant.name pipeline_name = build_set.item.pipeline.name event = MergeCompletedEvent( build_set.uuid, merged, updated, commit, files, repo_state, item_in_branches, ) self.pipeline_result_events[tenant_name][pipeline_name].put(event) def onFilesChangesCompleted(self, build_set, files): tenant_name = build_set.item.pipeline.tenant.name pipeline_name = build_set.item.pipeline.name event = FilesChangesCompletedEvent(build_set.uuid, files) self.pipeline_result_events[tenant_name][pipeline_name].put(event) def onNodesProvisioned(self, req): event = NodesProvisionedEvent(req) self.result_event_queue.put(event) self.wake_event.set() def reconfigureTenant(self, tenant, project, event): self.log.debug("Submitting tenant reconfiguration event for " "%s due to event %s in project %s", tenant.name, event, project) branch = event.branch if event is not None else None event = TenantReconfigureEvent( tenant.name, project.canonical_name, branch ) self.management_events[tenant.name].put(event, needs_result=False) def fullReconfigureCommandHandler(self): self._zuul_app.fullReconfigure() def smartReconfigureCommandHandler(self): self._zuul_app.smartReconfigure() def start_repl(self): if self.repl: return self.repl = zuul.lib.repl.REPLServer(self) self.repl.start() def stop_repl(self): if not self.repl: return self.repl.stop() self.repl = None def prime(self, config): self.log.debug("Priming scheduler config") self._doReconfigureEvent(ReconfigureEvent()) self.log.debug("Config priming complete") self.last_reconfigured = int(time.time()) def reconfigure(self, config, smart=False): self.log.debug("Submitting reconfiguration event") event = ReconfigureEvent(smart=smart) event.ack_ref = threading.Event() self.reconfigure_event_queue.put(event) self.wake_event.set() self.log.debug("Waiting for reconfiguration") event.ack_ref.wait() self.log.debug("Reconfiguration complete") self.last_reconfigured = int(time.time()) # TODOv3(jeblair): reconfigure time should be per-tenant def autohold(self, tenant_name, project_name, job_name, ref_filter, reason, count, node_hold_expiration): key = (tenant_name, project_name, job_name, ref_filter) self.log.debug("Autohold requested for %s", key) request = HoldRequest() request.tenant = tenant_name request.project = project_name request.job = job_name request.ref_filter = ref_filter request.reason = reason request.max_count = count max_hold = get_default( self.config, 'scheduler', 'max_hold_expiration', 0) default_hold = get_default( self.config, 'scheduler', 'default_hold_expiration', max_hold) # If the max hold is not infinite, we need to make sure that # our default value does not exceed it. if max_hold and default_hold != max_hold and (default_hold == 0 or default_hold > max_hold): default_hold = max_hold # Set node_hold_expiration to default if no value is supplied if node_hold_expiration is None: node_hold_expiration = default_hold # Reset node_hold_expiration to max if it exceeds the max elif max_hold and (node_hold_expiration == 0 or node_hold_expiration > max_hold): node_hold_expiration = max_hold request.node_expiration = node_hold_expiration # No need to lock it since we are creating a new one. self.zk_nodepool.storeHoldRequest(request) def autohold_list(self): ''' Return current hold requests as a list of dicts. ''' data = [] for request_id in self.zk_nodepool.getHoldRequests(): request = self.zk_nodepool.getHoldRequest(request_id) if not request: continue data.append(request.toDict()) return data def autohold_info(self, hold_request_id): ''' Get autohold request details. :param str hold_request_id: The unique ID of the request to delete. ''' try: hold_request = self.zk_nodepool.getHoldRequest(hold_request_id) except Exception: self.log.exception( "Error retrieving autohold ID %s:", hold_request_id) return {} if hold_request is None: return {} return hold_request.toDict() def autohold_delete(self, hold_request_id): ''' Delete an autohold request. :param str hold_request_id: The unique ID of the request to delete. ''' hold_request = None try: hold_request = self.zk_nodepool.getHoldRequest(hold_request_id) except Exception: self.log.exception( "Error retrieving autohold ID %s:", hold_request_id) if not hold_request: self.log.info("Ignored request to remove invalid autohold ID %s", hold_request_id) return self.log.debug("Removing autohold %s", hold_request) try: self.zk_nodepool.deleteHoldRequest(hold_request) except Exception: self.log.exception( "Error removing autohold request %s:", hold_request) def promote(self, tenant_name, pipeline_name, change_ids): event = PromoteEvent(tenant_name, pipeline_name, change_ids) result = self.management_events[tenant_name].put(event) self.log.debug("Waiting for promotion") result.wait() self.log.debug("Promotion complete") def dequeue(self, tenant_name, pipeline_name, project_name, change, ref): # We need to do some pre-processing here to get the correct # form of the project hostname and name based on un-known # inputs. tenant = self.abide.tenants.get(tenant_name) if tenant is None: raise ValueError(f'Unknown tenant {tenant_name}') (trusted, project) = tenant.getProject(project_name) if project is None: raise ValueError(f'Unknown project {project_name}') event = DequeueEvent(tenant_name, pipeline_name, project.canonical_hostname, project.name, change, ref) result = self.management_events[tenant_name].put(event) self.log.debug("Waiting for dequeue") result.wait() self.log.debug("Dequeue complete") def enqueue(self, tenant_name, pipeline_name, project_name, change, ref, oldrev, newrev): # We need to do some pre-processing here to get the correct # form of the project hostname and name based on un-known # inputs. tenant = self.abide.tenants.get(tenant_name) if tenant is None: raise ValueError(f'Unknown tenant {tenant_name}') (trusted, project) = tenant.getProject(project_name) if project is None: raise ValueError(f'Unknown project {project_name}') event = EnqueueEvent(tenant_name, pipeline_name, project.canonical_hostname, project.name, change, ref, oldrev, newrev) result = self.management_events[tenant_name].put(event) self.log.debug("Waiting for enqueue") result.wait() self.log.debug("Enqueue complete") def _get_time_database_dir(self): state_dir = get_default(self.config, 'scheduler', 'state_dir', '/var/lib/zuul', expand_user=True) d = os.path.join(state_dir, 'times') if not os.path.exists(d): os.mkdir(d) return d def _get_key_store_password(self): try: return self.config["keystore"]["password"] except KeyError: raise RuntimeError("No key store password configured!") def _get_key_dir(self): state_dir = get_default(self.config, 'scheduler', 'state_dir', '/var/lib/zuul', expand_user=True) key_dir = os.path.join(state_dir, 'keys') if not os.path.exists(key_dir): os.mkdir(key_dir, 0o700) st = os.stat(key_dir) mode = st.st_mode & 0o777 if mode != 0o700: raise Exception("Project key directory %s must be mode 0700; " "current mode is %o" % (key_dir, mode)) return key_dir def _checkTenantSourceConf(self, config): tenant_config = None script = False if self.config.has_option( 'scheduler', 'tenant_config'): tenant_config = self.config.get( 'scheduler', 'tenant_config') if self.config.has_option( 'scheduler', 'tenant_config_script'): if tenant_config: raise Exception( "tenant_config and tenant_config_script options " "are exclusive.") tenant_config = self.config.get( 'scheduler', 'tenant_config_script') script = True if not tenant_config: raise Exception( "tenant_config or tenant_config_script option " "is missing from the configuration.") return tenant_config, script def validateTenants(self, config, tenants_to_validate): self.config = config with self.layout_lock: self.log.info("Config validation beginning") start = time.monotonic() loader = configloader.ConfigLoader( self.connections, self, self.merger, self.keystore) tenant_config, script = self._checkTenantSourceConf(self.config) unparsed_abide = loader.readConfig(tenant_config, from_script=script) available_tenants = list(unparsed_abide.tenants) tenants_to_load = tenants_to_validate or available_tenants if not set(tenants_to_load).issubset(available_tenants): invalid = tenants_to_load.difference(available_tenants) raise RuntimeError(f"Invalid tenant(s) found: {invalid}") abide = Abide() loader.loadAdminRules(abide, unparsed_abide) loader.loadTPCs(abide, unparsed_abide) for tenant_name in tenants_to_load: loader.loadTenant(abide, tenant_name, self.ansible_manager, unparsed_abide, cache_ltime=None) loading_errors = [] for tenant in abide.tenants.values(): for error in tenant.layout.loading_errors: loading_errors.append(repr(error)) if loading_errors: summary = '\n\n\n'.join(loading_errors) raise configloader.ConfigurationSyntaxError( f"Configuration errors: {summary}") duration = round(time.monotonic() - start, 3) self.log.info("Config validation complete (duration: %s seconds)", duration) def _doReconfigureEvent(self, event): # This is called in the scheduler loop after another thread submits # a request reconfigured_tenants = [] with self.layout_lock: self.config = self._zuul_app.config self.log.info("Reconfiguration beginning (smart=%s)", event.smart) start = time.monotonic() # Reload the ansible manager in case the default ansible version # changed. default_ansible_version = get_default( self.config, 'scheduler', 'default_ansible_version', None) self.ansible_manager = AnsibleManager( default_version=default_ansible_version) if not event.smart: for connection in self.connections.connections.values(): self.log.debug("Clear cache for: %s" % connection) connection.clearCache() loader = configloader.ConfigLoader( self.connections, self, self.merger, self.keystore) tenant_config, script = self._checkTenantSourceConf(self.config) old_unparsed_abide = self.unparsed_abide self.unparsed_abide = loader.readConfig( tenant_config, from_script=script) # We need to handle new and deleted tenants, so we need to process # all tenants currently known and the new ones. tenant_names = {t for t in self.abide.tenants} tenant_names.update(self.unparsed_abide.tenants.keys()) # Remove TPCs of deleted tenants deleted_tenants = tenant_names.difference( self.unparsed_abide.tenants.keys()) for tenant_name in deleted_tenants: self.abide.clearTPCs(tenant_name) loader.loadTPCs(self.abide, self.unparsed_abide) loader.loadAdminRules(self.abide, self.unparsed_abide) cache_ltime = event.zuul_event_ltime if not event.smart: self.abide.unparsed_project_branch_cache.clear() # Force a reload of the config via the mergers cache_ltime = None for tenant_name in tenant_names: if event.smart: old_tenant = old_unparsed_abide.tenants.get(tenant_name) new_tenant = self.unparsed_abide.tenants.get(tenant_name) if old_tenant == new_tenant: continue old_tenant = self.abide.tenants.get(tenant_name) with tenant_write_lock(self.zk_client, tenant_name): tenant = loader.loadTenant(self.abide, tenant_name, self.ansible_manager, self.unparsed_abide, cache_ltime=cache_ltime) reconfigured_tenants.append(tenant_name) if tenant is not None: self._reconfigureTenant(tenant, old_tenant) else: self._reconfigureDeleteTenant(old_tenant) duration = round(time.monotonic() - start, 3) self.log.info("Reconfiguration complete (smart: %s, " "duration: %s seconds)", event.smart, duration) if event.smart: self.log.info("Reconfigured tenants: %s", reconfigured_tenants) def _doTenantReconfigureEvent(self, event): # This is called in the scheduler loop after another thread submits # a request with self.layout_lock: self.log.info("Tenant reconfiguration beginning for %s due to " "projects %s", event.tenant_name, event.project_branches) start = time.monotonic() # If a change landed to a project, clear out the cached # config of the changed branch before reconfiguring. for project_name, branch_name in event.project_branches: self.log.debug("Clearing unparsed config: %s @%s", project_name, branch_name) self.abide.clearUnparsedBranchCache(project_name, branch_name) with self.unparsed_config_cache.writeLock(project_name): self.unparsed_config_cache.clearCache(project_name, branch_name) loader = configloader.ConfigLoader( self.connections, self, self.merger, self.keystore) old_tenant = self.abide.tenants.get(event.tenant_name) loader.loadTPCs(self.abide, self.unparsed_abide, [event.tenant_name]) with tenant_write_lock(self.zk_client, event.tenant_name): loader.loadTenant(self.abide, event.tenant_name, self.ansible_manager, self.unparsed_abide, cache_ltime=event.zuul_event_ltime) tenant = self.abide.tenants[event.tenant_name] self._reconfigureTenant(tenant, old_tenant) duration = round(time.monotonic() - start, 3) self.log.info("Tenant reconfiguration complete for %s (duration: %s " "seconds)", event.tenant_name, duration) def _reenqueueGetProject(self, tenant, item): project = item.change.project # Attempt to get the same project as the one passed in. If # the project is now found on a different connection, return # the new version of the project. If it is no longer # available (due to a connection being removed), return None. (trusted, new_project) = tenant.getProject(project.canonical_name) if new_project: return new_project if item.live: return None # If this is a non-live item we may be looking at a # "foreign" project, ie, one which is not defined in the # config but is constructed ad-hoc to satisfy a # cross-repo-dependency. Find the corresponding live item # and use its source. child = item while child and not child.live: # This assumes that the queue does not branch behind this # item, which is currently true for non-live items; if # that changes, this traversal will need to be more # complex. if child.items_behind: child = child.items_behind[0] else: child = None if child is item: return None if child and child.live: (child_trusted, child_project) = tenant.getProject( child.change.project.canonical_name) if child_project: source = child_project.source new_project = source.getProject(project.name) return new_project return None def _reenqueueTenant(self, old_tenant, tenant): for name, new_pipeline in tenant.layout.pipelines.items(): old_pipeline = old_tenant.layout.pipelines.get(name) if not old_pipeline: self.log.warning("No old pipeline matching %s found " "when reconfiguring" % name) continue self.log.debug("Re-enqueueing changes for pipeline %s" % name) # TODO(jeblair): This supports an undocument and # unanticipated hack to create a static window. If we # really want to support this, maybe we should have a # 'static' type? But it may be in use in the wild, so we # should allow this at least until there's an upgrade # path. if (new_pipeline.window and new_pipeline.window_increase_type == 'exponential' and new_pipeline.window_decrease_type == 'exponential' and new_pipeline.window_increase_factor == 1 and new_pipeline.window_decrease_factor == 1): static_window = True else: static_window = False if old_pipeline.window and (not static_window): new_pipeline.window = max(old_pipeline.window, new_pipeline.window_floor) items_to_remove = [] builds_to_cancel = [] requests_to_cancel = [] for shared_queue in old_pipeline.queues: last_head = None # Attempt to keep window sizes from shrinking where possible project, branch = shared_queue.project_branches[0] new_queue = new_pipeline.getQueue(project, branch) if new_queue and shared_queue.window and (not static_window): new_queue.window = max(shared_queue.window, new_queue.window_floor) for item in shared_queue.queue: # If the old item ahead made it in, re-enqueue # this one behind it. new_project = self._reenqueueGetProject( tenant, item) if item.item_ahead in items_to_remove: old_item_ahead = None item_ahead_valid = False else: old_item_ahead = item.item_ahead item_ahead_valid = True item.item_ahead = None item.items_behind = [] reenqueued = False if new_project: item.change.project = new_project item.pipeline = None item.queue = None if not old_item_ahead or not last_head: last_head = item try: reenqueued = new_pipeline.manager.reEnqueueItem( item, last_head, old_item_ahead, item_ahead_valid=item_ahead_valid) except Exception: self.log.exception( "Exception while re-enqueing item %s", item) if reenqueued: for build in item.current_build_set.getBuilds(): new_job = item.getJob(build.job.name) if new_job: build.job = new_job else: item.removeBuild(build) builds_to_cancel.append(build) for request_job, request in \ item.current_build_set.node_requests.items(): new_job = item.getJob(request_job) if not new_job: requests_to_cancel.append( (item.current_build_set, request)) else: items_to_remove.append(item) for item in items_to_remove: self.log.info( "Removing item %s during reconfiguration" % (item,)) for build in item.current_build_set.getBuilds(): builds_to_cancel.append(build) for request_job, request in \ item.current_build_set.node_requests.items(): requests_to_cancel.append( ( item.current_build_set, request, item.getJob(request_job), ) ) for build in builds_to_cancel: self.log.info( "Canceling build %s during reconfiguration" % (build,)) self.cancelJob(build.build_set, build.job, build=build) for build_set, request, request_job in requests_to_cancel: self.log.info( "Canceling node request %s during reconfiguration", request) self.cancelJob(build_set, request_job) for name, old_pipeline in old_tenant.layout.pipelines.items(): new_pipeline = tenant.layout.pipelines.get(name) if not new_pipeline: self._reconfigureDeletePipeline(old_pipeline) def _reconfigureTenant(self, tenant, old_tenant=None): # This is called from _doReconfigureEvent while holding the # layout lock if old_tenant: self._reenqueueTenant(old_tenant, tenant) # TODOv3(jeblair): update for tenants # self.maintainConnectionCache() self.connections.reconfigureDrivers(tenant) # TODOv3(jeblair): remove postconfig calls? for pipeline in tenant.layout.pipelines.values(): for trigger in pipeline.triggers: trigger.postConfig(pipeline) for reporter in pipeline.actions: reporter.postConfig() layout_state = LayoutState( tenant_name=tenant.name, hostname=self.hostname, last_reconfigured=int(time.time()), ) self.tenant_layout_state[tenant.name] = layout_state if self.statsd: try: for pipeline in tenant.layout.pipelines.values(): items = len([x for x in pipeline.getAllItems() if x.live]) # stats.gauges.zuul.tenant..pipeline. # .current_changes key = 'zuul.tenant.%s.pipeline.%s' % ( tenant.name, pipeline.name) self.statsd.gauge(key + '.current_changes', items) except Exception: self.log.exception("Exception reporting initial " "pipeline stats:") def _reconfigureDeleteTenant(self, tenant): # Called when a tenant is deleted during reconfiguration self.log.info("Removing tenant %s during reconfiguration" % (tenant,)) for pipeline in tenant.layout.pipelines.values(): self._reconfigureDeletePipeline(pipeline) # Delete the tenant root path for this tenant in ZooKeeper to remove # all tenant specific event queues try: self.zk_client.client.delete(f"{TENANT_ROOT}/{tenant.name}", recursive=True) except NotEmptyError: # In case a build result has been submitted during the # reconfiguration, this cleanup will fail. We handle this in a # periodic cleanup job. pass def _reconfigureDeletePipeline(self, pipeline): self.log.info("Removing pipeline %s during reconfiguration" % (pipeline,)) for shared_queue in pipeline.queues: builds_to_cancel = [] requests_to_cancel = [] for item in shared_queue.queue: item.item_ahead = None item.items_behind = [] self.log.info( "Removing item %s during reconfiguration" % (item,)) for build in item.current_build_set.getBuilds(): builds_to_cancel.append(build) for request_job, request in \ item.current_build_set.node_requests.items(): requests_to_cancel.append( ( item.current_build_set, request, item.getJob(request_job), ) ) for build in builds_to_cancel: self.log.info( "Canceling build %s during reconfiguration" % (build,)) self.cancelJob(build.build_set, build.job, build=build, force=True) for build_set, request, request_job in requests_to_cancel: self.log.info( "Canceling node request %s during reconfiguration", request) self.cancelJob(build_set, request_job, force=True) def _doPromoteEvent(self, event): tenant = self.abide.tenants.get(event.tenant_name) pipeline = tenant.layout.pipelines[event.pipeline_name] change_ids = [c.split(',') for c in event.change_ids] items_to_enqueue = [] change_queue = None for shared_queue in pipeline.queues: if change_queue: break for item in shared_queue.queue: if (item.change.number == change_ids[0][0] and item.change.patchset == change_ids[0][1]): change_queue = shared_queue break if not change_queue: raise Exception("Unable to find shared change queue for %s" % event.change_ids[0]) for number, patchset in change_ids: found = False for item in change_queue.queue: if (item.change.number == number and item.change.patchset == patchset): found = True items_to_enqueue.append(item) break if not found: raise Exception("Unable to find %s,%s in queue %s" % (number, patchset, change_queue)) for item in change_queue.queue[:]: if item not in items_to_enqueue: items_to_enqueue.append(item) pipeline.manager.cancelJobs(item) pipeline.manager.dequeueItem(item) for item in items_to_enqueue: pipeline.manager.addChange( item.change, event, enqueue_time=item.enqueue_time, quiet=True, ignore_requirements=True) def _doDequeueEvent(self, event): tenant = self.abide.tenants.get(event.tenant_name) if tenant is None: raise ValueError('Unknown tenant %s' % event.tenant_name) pipeline = tenant.layout.pipelines.get(event.pipeline_name) if pipeline is None: raise ValueError('Unknown pipeline %s' % event.pipeline_name) canonical_name = event.project_hostname + '/' + event.project_name (trusted, project) = tenant.getProject(canonical_name) if project is None: raise ValueError('Unknown project %s' % event.project_name) change = project.source.getChange(event) if change.project.name != project.name: if event.change: item = 'Change %s' % event.change else: item = 'Ref %s' % event.ref raise Exception('%s does not belong to project "%s"' % (item, project.name)) for shared_queue in pipeline.queues: for item in shared_queue.queue: if item.change.project != change.project: continue if (isinstance(item.change, Change) and item.change.number == change.number and item.change.patchset == change.patchset) or\ (item.change.ref == change.ref): pipeline.manager.removeItem(item) return raise Exception("Unable to find shared change queue for %s:%s" % (event.project_name, event.change or event.ref)) def _doEnqueueEvent(self, event): tenant = self.abide.tenants.get(event.tenant_name) if tenant is None: raise ValueError(f'Unknown tenant {event.tenant_name}') pipeline = tenant.layout.pipelines.get(event.pipeline_name) if pipeline is None: raise ValueError(f'Unknown pipeline {event.pipeline_name}') canonical_name = event.project_hostname + '/' + event.project_name (trusted, project) = tenant.getProject(canonical_name) if project is None: raise ValueError(f'Unknown project {event.project_name}') try: change = project.source.getChange(event, refresh=True) except Exception as exc: raise ValueError('Unknown change') from exc if change.project.name != project.name: raise Exception( f'Change {change} does not belong to project "{project.name}"') self.log.debug("Event %s for change %s was directly assigned " "to pipeline %s", event, change, self) pipeline.manager.addChange(change, event, ignore_requirements=True) def _areAllBuildsComplete(self): self.log.debug("Checking if all builds are complete") if self.merger.areMergesOutstanding(): self.log.debug("Waiting on merger") return False waiting = False for tenant in self.abide.tenants.values(): for pipeline in tenant.layout.pipelines.values(): for item in pipeline.getAllItems(): for build in item.current_build_set.getBuilds(): if build.result is None: self.log.debug("%s waiting on %s" % (pipeline.manager, build)) waiting = True if not waiting: self.log.debug("All builds are complete") return True return False def run(self): if self.statsd: self.log.debug("Statsd enabled") else: self.log.debug("Statsd not configured") while True: self.log.debug("Run handler sleeping") self.wake_event.wait() self.wake_event.clear() if self._stopped: self.log.debug("Run handler stopping") return self.log.debug("Run handler awake") self.run_handler_lock.acquire() try: if not self._stopped: self.process_reconfigure_queue() # TODO(swestphahl): Remove legacy result event queue after # NodesProvisionedEvents are dispatched via Zookeeper. if not self._stopped: self.process_result_queue() # Process tenant management events separate from other events # as they might reload the tenant. for tenant in self.abide.tenants.values(): if not self._stopped: # This will also forward events for the pipelines # (e.g. enqueue or dequeue events) to the matching # pipeline event queues that are processed afterwards. self.process_tenant_management_queue(tenant) for tenant in self.abide.tenants.values(): try: with tenant_read_lock( self.zk_client, tenant.name, blocking=False ): if not self._stopped: # This will forward trigger events to pipeline # event queues that are processed below. self.process_tenant_trigger_queue(tenant) self.process_pipelines(tenant) except LockException: self.log.debug("Skipping locked tenant %s", tenant.name) except Exception: self.log.exception("Exception in run handler:") # There may still be more events to process self.wake_event.set() finally: self.run_handler_lock.release() def process_pipelines(self, tenant): for pipeline in tenant.layout.pipelines.values(): if self._stopped: return try: with pipeline_lock( self.zk_client, tenant.name, pipeline.name, blocking=False ): self._process_pipeline(tenant, pipeline) except LockException: self.log.debug("Skipping locked pipeline %s in tenant %s", pipeline.name, tenant.name) def _process_pipeline(self, tenant, pipeline): self.process_pipeline_management_queue(tenant, pipeline) # Give result events priority -- they let us stop builds, whereas # trigger events cause us to execute builds. self.process_pipeline_result_queue(tenant, pipeline) self.process_pipeline_trigger_queue(tenant, pipeline) try: while not self._stopped and pipeline.manager.processQueue(): pass except Exception: self.log.exception("Exception in pipeline processing:") pipeline.state = pipeline.STATE_ERROR # Continue processing other pipelines+tenants else: pipeline.state = pipeline.STATE_NORMAL def maintainConnectionCache(self): # TODOv3(jeblair): update for tenants relevant = set() for tenant in self.abide.tenants.values(): for pipeline in tenant.layout.pipelines.values(): self.log.debug("Gather relevant cache items for: %s" % pipeline) for item in pipeline.getAllItems(): relevant.add(item.change) relevant.update(item.change.getRelatedChanges()) for connection in self.connections.values(): connection.maintainCache(relevant) self.log.debug( "End maintain connection cache for: %s" % connection) self.log.debug("Connection cache size: %s" % len(relevant)) def process_tenant_trigger_queue(self, tenant): try: with trigger_queue_lock( self.zk_client, tenant.name, blocking=False ): for event in self.trigger_events[tenant.name]: log = get_annotated_logger(self.log, event.zuul_event_id) log.debug("Forwarding trigger event %s", event) try: self._forward_trigger_event(event, tenant) except Exception: log.exception("Unable to forward event %s " "to tenant %s", event, tenant.name) finally: self.trigger_events[tenant.name].ack(event) except LockException: self.log.debug("Skipping locked trigger event queue in tenant %s", tenant.name) def _forward_trigger_event(self, event, tenant): log = get_annotated_logger(self.log, event.zuul_event_id) trusted, project = tenant.getProject(event.canonical_project_name) if project is None: return try: change = project.source.getChange(event) except exceptions.ChangeNotFound as e: log.debug("Unable to get change %s from source %s", e.change, project.source) return reconfigure_tenant = False if ((event.branch_updated and hasattr(change, 'files') and change.updatesConfig(tenant)) or (event.branch_deleted and self.abide.hasUnparsedBranchCache(project.canonical_name, event.branch))): reconfigure_tenant = True # The branch_created attribute is also true when a tag is # created. Since we load config only from branches only trigger # a tenant reconfiguration if the branch is set as well. if event.branch_created and event.branch: reconfigure_tenant = True # If the driver knows the branch but we don't have a config, we # also need to reconfigure. This happens if a GitHub branch # was just configured as protected without a push in between. if (event.branch in project.source.getProjectBranches( project, tenant) and not self.abide.hasUnparsedBranchCache( project.canonical_name, event.branch)): reconfigure_tenant = True # If the branch is unprotected and unprotected branches # are excluded from the tenant for that project skip reconfig. if (reconfigure_tenant and not event.branch_protected and tenant.getExcludeUnprotectedBranches(project)): reconfigure_tenant = False if reconfigure_tenant: # The change that just landed updates the config # or a branch was just created or deleted. Clear # out cached data for this project and perform a # reconfiguration. self.reconfigureTenant(tenant, change.project, event) for pipeline in tenant.layout.pipelines.values(): if ( pipeline.manager.eventMatches(event, change) or pipeline.manager.isChangeAlreadyInPipeline(change) or pipeline.manager.findOldVersionOfChangeAlreadyInQueue( change ) ): self.pipeline_trigger_events[tenant.name][ pipeline.name ].put(event.driver_name, event) def process_pipeline_trigger_queue(self, tenant, pipeline): for event in self.pipeline_trigger_events[tenant.name][pipeline.name]: if self._stopped: return log = get_annotated_logger(self.log, event.zuul_event_id) log.debug("Processing trigger event %s", event) try: self._process_trigger_event(tenant, pipeline, event) finally: self.pipeline_trigger_events[tenant.name][ pipeline.name ].ack(event) def _process_trigger_event(self, tenant, pipeline, event): log = get_annotated_logger( self.log, event.zuul_event_id ) trusted, project = tenant.getProject(event.canonical_project_name) if project is None: return try: change = project.source.getChange(event) except exceptions.ChangeNotFound as e: log.debug("Unable to get change %s from source %s", e.change, project.source) return if event.isPatchsetCreated(): pipeline.manager.removeOldVersionsOfChange( change, event) elif event.isChangeAbandoned(): pipeline.manager.removeAbandonedChange(change, event) if pipeline.manager.eventMatches(event, change): pipeline.manager.addChange(change, event) def process_tenant_management_queue(self, tenant): try: with management_queue_lock( self.zk_client, tenant.name, blocking=False ): self._process_tenant_management_queue(tenant) except LockException: self.log.debug("Skipping locked management event queue" " in tenant %s", tenant.name) def _process_tenant_management_queue(self, tenant): for event in self.management_events[tenant.name]: event_forwarded = False try: if isinstance(event, TenantReconfigureEvent): self._doTenantReconfigureEvent(event) elif isinstance(event, (PromoteEvent, ChangeManagementEvent)): event_forwarded = self._forward_management_event(event) else: self.log.error("Unable to handle event %s", event) finally: if event_forwarded: self.management_events[tenant.name].ackWithoutResult( event) else: self.management_events[tenant.name].ack(event) def _forward_management_event(self, event): event_forwarded = False try: tenant = self.abide.tenants.get(event.tenant_name) if tenant is None: raise ValueError(f'Unknown tenant {event.tenant_name}') pipeline = tenant.layout.pipelines.get(event.pipeline_name) if pipeline is None: raise ValueError(f'Unknown pipeline {event.pipeline_name}') self.pipeline_management_events[tenant.name][ pipeline.name ].put(event) event_forwarded = True except Exception: event.exception( "".join( traceback.format_exception(*sys.exc_info()) ) ) return event_forwarded def process_reconfigure_queue(self): while not self.reconfigure_event_queue.empty() and not self._stopped: self.log.debug("Fetching reconfiguration event") event = self.reconfigure_event_queue.get() try: if isinstance(event, ReconfigureEvent): self._doReconfigureEvent(event) else: self.log.error("Unable to handle event %s", event) finally: if event.ack_ref: event.ack_ref.set() self.reconfigure_event_queue.task_done() def process_pipeline_management_queue(self, tenant, pipeline): for event in self.pipeline_management_events[tenant.name][ pipeline.name ]: if self._stopped: return log = get_annotated_logger(self.log, event.zuul_event_id) log.debug("Processing management event %s", event) try: self._process_management_event(event) finally: self.pipeline_management_events[tenant.name][ pipeline.name ].ack(event) def _process_management_event(self, event): try: if isinstance(event, PromoteEvent): self._doPromoteEvent(event) elif isinstance(event, DequeueEvent): self._doDequeueEvent(event) elif isinstance(event, EnqueueEvent): self._doEnqueueEvent(event) else: self.log.error("Unable to handle event %s" % event) except Exception: self.log.exception("Exception in management event:") event.exception( "".join(traceback.format_exception(*sys.exc_info())) ) def process_pipeline_result_queue(self, tenant, pipeline): for event in self.pipeline_result_events[tenant.name][pipeline.name]: if self._stopped: return log = get_annotated_logger( self.log, event=getattr(event, "zuul_event_id", None), build=getattr(event, "build", None), ) log.debug("Processing result event %s", event) try: self._process_result_event(event, pipeline) finally: self.pipeline_result_events[tenant.name][ pipeline.name ].ack(event) def process_result_queue(self): # TODO (felix): The old result event queue is still used for the nodes # provisioned results and will be removed once we move those to ZK as # well. while not self.result_event_queue.empty() and not self._stopped: self.log.debug("Fetching result event") event = self.result_event_queue.get() try: if isinstance(event, NodesProvisionedEvent): self._doNodesProvisionedEvent(event) else: self.log.error("Unable to handle event %s", event) finally: self.result_event_queue.task_done() def _process_result_event(self, event, pipeline): if isinstance(event, BuildStartedEvent): self._doBuildStartedEvent(event) elif isinstance(event, BuildStatusEvent): self._doBuildStatusEvent(event) elif isinstance(event, BuildPausedEvent): self._doBuildPausedEvent(event) elif isinstance(event, BuildCompletedEvent): self._doBuildCompletedEvent(event) if isinstance(event, MergeCompletedEvent): self._doMergeCompletedEvent(event, pipeline) elif isinstance(event, FilesChangesCompletedEvent): self._doFilesChangesCompletedEvent(event, pipeline) else: self.log.error("Unable to handle event %s", event) def _doBuildStartedEvent(self, event): build = self.executor.builds.get(event.build) if not build: return build.start_time = event.data["start_time"] # Update information about worker if event.data: # Noop builds don't provide any event data build.worker.updateFromData(event.data) log = get_annotated_logger(self.log, build.zuul_event_id) if build.build_set is not build.build_set.item.current_build_set: log.warning("Build %s is not in the current build set", build) return pipeline = build.build_set.item.pipeline if not pipeline: log.warning("Build %s is not associated with a pipeline", build) return try: build.estimated_time = float(self.time_database.getEstimatedTime( build)) except Exception: log.exception("Exception estimating build time:") pipeline.manager.onBuildStarted(build) def _doBuildStatusEvent(self, event): build = self.executor.builds.get(event.build) if not build: return # Allow URL to be updated build.url = event.data.get('url', build.url) def _doBuildPausedEvent(self, event): build = self.executor.builds.get(event.build) if not build: return # Setting paused is deferred to event processing stage to avoid a race # with child job skipping. build.paused = True build.result_data = event.data.get("data", {}) build.secret_result_data = event.data.get("secret_data", {}) log = get_annotated_logger(self.log, build.zuul_event_id) if build.build_set is not build.build_set.item.current_build_set: log.warning("Build %s is not in the current build set", build) try: self.executor.cancel(build) except Exception: log.exception( "Exception while canceling paused build %s", build) return pipeline = build.build_set.item.pipeline if not pipeline: log.warning("Build %s is not associated with a pipeline", build) try: self.executor.cancel(build) except Exception: log.exception( "Exception while canceling paused build %s", build) return pipeline.manager.onBuildPaused(build) def _doBuildCompletedEvent(self, event): # Get the local build object from the executor client build = self.executor.builds.get(event.build) if not build: self.log.error("Unable to find build %s", event.build) return log = get_annotated_logger( self.log, event=build.zuul_event_id, build=build.uuid ) event_result = event.result build.node_labels = event_result.get("node_labels", []) build.node_name = event_result.get("node_name") result = event_result.get("result") build.error_detail = event_result.get("error_detail") if result is None: build.retry = True if result == "ABORTED": # Always retry if the executor just went away build.retry = True if result == "MERGER_FAILURE": # The build result MERGER_FAILURE is a bit misleading here # because when we got here we know that there are no merge # conflicts. Instead this is most likely caused by some # infrastructure failure. This can be anything like connection # issue, drive corruption, full disk, corrupted git cache, etc. # This may or may not be a recoverable failure so we should # retry here respecting the max retries. But to be able to # distinguish from RETRY_LIMIT which normally indicates pre # playbook failures we keep the build result after the max # attempts. if ( build.build_set.getTries(build.job.name) < build.job.attempts ): build.retry = True result_data = event_result.get("data", {}) secret_result_data = event_result.get("secret_data", {}) warnings = event_result.get("warnings", []) log.info("Build complete, result %s, warnings %s", result, warnings) if build.retry: result = "RETRY" # If the build was canceled, we did actively cancel the job so # don't overwrite the result and don't retry. if build.canceled: result = build.result or "CANCELED" build.retry = False build.end_time = event_result["end_time"] build.result_data = result_data build.secret_result_data = secret_result_data build.build_set.warning_messages.extend(warnings) build.held = event_result.get("held") build.result = result self._reportBuildStats(build) # In case the build didn't show up on any executor, the node request # does still exist, so we have to make sure it is removed from ZK. request = build.build_set.getJobNodeRequest(build.job.name) if request: self.nodepool.deleteNodeRequest(request) # The build is completed and the nodes were already returned by the # executor. For consistency, also remove the node request from the # build set. build.build_set.removeJobNodeRequest(build.job.name) # The test suite expects the build to be removed from the # internal dict after it's added to the report queue. self.executor.removeBuild(build) if build.build_set is not build.build_set.item.current_build_set: log.debug("Build %s is not in the current build set", build) return pipeline = build.build_set.item.pipeline if not pipeline: log.warning("Build %s is not associated with a pipeline", build) return if build.end_time and build.start_time and build.result: duration = build.end_time - build.start_time try: self.time_database.update(build, duration, build.result) except Exception: log.exception("Exception recording build time:") pipeline.manager.onBuildCompleted(build) def _getBuildSetFromPipeline(self, event, pipeline): if not pipeline: self.log.warning( "Build set %s is not associated with a pipeline", event.build_set_uuid, ) return for item in pipeline.getAllItems(): # If the provided buildset UUID doesn't match any current one, # we assume that it's not current anymore. if item.current_build_set.uuid == event.build_set_uuid: return item.current_build_set self.log.warning("Build set %s is not current", event.build_set_uuid) def _doMergeCompletedEvent(self, event, pipeline): build_set = self._getBuildSetFromPipeline(event, pipeline) if not build_set: return pipeline.manager.onMergeCompleted(event, build_set) def _doFilesChangesCompletedEvent(self, event, pipeline): build_set = self._getBuildSetFromPipeline(event, pipeline) if not build_set: return pipeline.manager.onFilesChangesCompleted(event, build_set) def _doNodesProvisionedEvent(self, event): request = event.request request_id = event.request_id tenant_name = request.tenant_name pipeline_name = request.pipeline_name log = get_annotated_logger(self.log, request.event_id) ready = self.nodepool.checkNodeRequest(request, request_id) if not ready: return # If the request failed, we must directly delete it as the nodes will # never be accepted. if request.state == STATE_FAILED: self.nodepool.deleteNodeRequest(request) # Look up the pipeline by its name # TODO (felix): The pipeline lookup can be removed once the # NodesProvisionedEvents are in ZooKeeper. pipeline = None tenant = self.abide.tenants.get(tenant_name) for pl in tenant.layout.pipelines.values(): if pl.name == pipeline_name: pipeline = pl break build_set = self._getBuildSetFromPipeline(event, pipeline) if not build_set: if request.fulfilled: self.nodepool.returnNodeSet(request.nodeset, zuul_event_id=request.event_id) return if request.job_name not in [x.name for x in build_set.item.getJobs()]: log.warning("Item %s does not contain job %s " "for node request %s", build_set.item, request.job_name, request) build_set.removeJobNodeRequest(request.job_name) if request.fulfilled: self.nodepool.returnNodeSet(request.nodeset, zuul_event_id=request.event_id) return pipeline.manager.onNodesProvisioned(event, build_set) def formatStatusJSON(self, tenant_name): # TODOv3(jeblair): use tenants data = {} data['zuul_version'] = self.zuul_version websocket_url = get_default(self.config, 'web', 'websocket_url', None) data['trigger_event_queue'] = {} data['trigger_event_queue']['length'] = len( self.trigger_events[tenant_name]) data['result_event_queue'] = {} data['result_event_queue']['length'] = \ self.result_event_queue.qsize() data['management_event_queue'] = {} data['management_event_queue']['length'] = len( self.management_events[tenant_name] ) + self.reconfigure_event_queue.qsize() data['connection_event_queues'] = {} for connection in self.connections.connections.values(): queue = connection.getEventQueue() if queue is not None: data['connection_event_queues'][connection.connection_name] = { 'length': len(queue), } layout_state = self.tenant_layout_state.get(tenant_name) if layout_state: data['last_reconfigured'] = layout_state.last_reconfigured * 1000 pipelines = [] data['pipelines'] = pipelines tenant = self.abide.tenants.get(tenant_name) if not tenant: if tenant_name not in self.unparsed_abide.tenants: return json.dumps({ "message": "Unknown tenant", "code": 404 }) self.log.warning("Tenant %s isn't loaded" % tenant_name) return json.dumps({ "message": "Tenant %s isn't ready" % tenant_name, "code": 204 }) trigger_event_queues = self.pipeline_trigger_events[tenant_name] result_event_queues = self.pipeline_result_events[tenant_name] management_event_queues = self.pipeline_management_events[tenant_name] for pipeline in tenant.layout.pipelines.values(): status = pipeline.formatStatusJSON(websocket_url) status['trigger_events'] = len( trigger_event_queues[pipeline.name]) status['result_events'] = len( result_event_queues[pipeline.name]) status['management_events'] = len( management_event_queues[pipeline.name]) pipelines.append(status) return json.dumps(data) def onChangeUpdated(self, change, event): """Remove stale dependency references on change update. When a change is updated with a new patchset, other changes in the system may still have a reference to the old patchset in their dependencies. Search for those (across all sources) and mark that their dependencies are out of date. This will cause them to be refreshed the next time the queue processor examines them. """ log = get_annotated_logger(self.log, event) log.debug("Change %s has been updated, clearing dependent " "change caches", change) for source in self.connections.getSources(): for other_change in source.getCachedChanges(): if other_change.commit_needs_changes is None: continue for dep in other_change.commit_needs_changes: if change.isUpdateOf(dep): other_change.refresh_deps = True change.refresh_deps = True def cancelJob(self, buildset, job, build=None, final=False, force=False): """Cancel a running build Set final to true to create a fake build result even if the job has not run. TODO: explain this better. Set force to true to forcibly release build resources without waiting for a result from the executor. Use this when removing pipelines. """ item = buildset.item log = get_annotated_logger(self.log, item.event) job_name = job.name try: # Cancel node request if needed req = buildset.getJobNodeRequest(job_name) if req: self.nodepool.cancelRequest(req) buildset.removeJobNodeRequest(job_name) # Cancel build if needed build = build or buildset.getBuild(job_name) if build: was_running = False try: was_running = self.executor.cancel(build) except Exception: log.exception( "Exception while canceling build %s for change %s", build, item.change) if (not was_running) or force: nodeset = buildset.getJobNodeSet(job_name) if nodeset: self.nodepool.returnNodeSet( nodeset, zuul_event_id=item.event) # In the unlikely case that a build is removed and # later added back, make sure we clear out the nodeset # so it gets requested again. try: buildset.removeJobNodeSet(job_name) except Exception: log.exception( "Exception while removing nodeset from build %s " "for change %s", build, build.build_set.item.change) if build.result is None: build.result = 'CANCELED' if force: # Directly delete the build rather than putting a # CANCELED event in the result event queue since # the result event queue won't be processed # anymore once the pipeline is removed. try: del self.executor.builds[build.uuid] except KeyError: pass else: nodeset = buildset.getJobNodeSet(job_name) if nodeset: self.nodepool.returnNodeSet( nodeset, zuul_event_id=item.event) if final: # If final is set make sure that the job is not resurrected # later by re-requesting nodes. fakebuild = Build(job, item.current_build_set, None) fakebuild.result = 'CANCELED' buildset.addBuild(fakebuild) finally: # Release the semaphore in any case tenant = buildset.item.pipeline.tenant tenant.semaphore_handler.release(item, job)