# Copyright 2014 OpenStack Foundation # # 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 collections import datetime import json import logging import os import shutil import signal import shlex import socket import subprocess import tempfile import threading import time import traceback import git from urllib.parse import urlsplit from zuul.lib.yamlutil import yaml, UnsafeTag from zuul.lib.config import get_default from zuul.lib.statsd import get_statsd from zuul.lib import filecomments try: import ara.plugins.callbacks as ara_callbacks except ImportError: ara_callbacks = None import gear import zuul.merger.merger import zuul.ansible.logconfig from zuul.executor.sensors.cpu import CPUSensor from zuul.executor.sensors.hdd import HDDSensor from zuul.executor.sensors.pause import PauseSensor from zuul.executor.sensors.startingbuilds import StartingBuildsSensor from zuul.executor.sensors.ram import RAMSensor from zuul.lib import commandsocket BUFFER_LINES_FOR_SYNTAX = 200 COMMANDS = ['stop', 'pause', 'unpause', 'graceful', 'verbose', 'unverbose', 'keep', 'nokeep'] DEFAULT_FINGER_PORT = 7900 BLACKLISTED_ANSIBLE_CONNECTION_TYPES = [ 'network_cli', 'kubectl', 'project', 'namespace'] class StopException(Exception): """An exception raised when an inner loop is asked to stop.""" pass class ExecutorError(Exception): """A non-transient run-time executor error This class represents error conditions detected by the executor when preparing to run a job which we know are consistently fatal. Zuul should not reschedule the build in these cases. """ pass class RoleNotFoundError(ExecutorError): pass class DiskAccountant(object): ''' A single thread to periodically run du and monitor a base directory Whenever the accountant notices a dir over limit, it will call the given func with an argument of the job directory. That function should be used to remediate the problem, generally by killing the job producing the disk bloat). The function will be called every time the problem is noticed, so it should be handled synchronously to avoid stacking up calls. ''' log = logging.getLogger("zuul.ExecutorDiskAccountant") def __init__(self, jobs_base, limit, func, cache_dir, usage_func=None): ''' :param str jobs_base: absolute path name of dir to be monitored :param int limit: maximum number of MB allowed to be in use in any one subdir :param callable func: Function to call with overlimit dirs :param str cache_dir: absolute path name of dir to be passed as the first argument to du. This will ensure du does not count any hardlinks to files in this directory against a single job. :param callable usage_func: Optional function to call with usage for every dir _NOT_ over limit ''' # Don't cross the streams if cache_dir == jobs_base: raise Exception("Cache dir and jobs dir cannot be the same") self.thread = threading.Thread(target=self._run, name='diskaccountant') self.thread.daemon = True self._running = False self.jobs_base = jobs_base self.limit = limit self.func = func self.cache_dir = cache_dir self.usage_func = usage_func self.stop_event = threading.Event() def _run(self): while self._running: # Walk job base before = time.time() du = subprocess.Popen( ['du', '-m', '--max-depth=1', self.cache_dir, self.jobs_base], stdout=subprocess.PIPE, stderr=subprocess.DEVNULL) for line in du.stdout: (size, dirname) = line.rstrip().split() dirname = dirname.decode('utf8') if dirname == self.jobs_base or dirname == self.cache_dir: continue if os.path.dirname(dirname) == self.cache_dir: continue size = int(size) if size > self.limit: self.log.info( "{job} is using {size}MB (limit={limit})" .format(size=size, job=dirname, limit=self.limit)) self.func(dirname) elif self.usage_func: self.log.debug( "{job} is using {size}MB (limit={limit})" .format(size=size, job=dirname, limit=self.limit)) self.usage_func(dirname, size) du.wait() du.stdout.close() after = time.time() # Sleep half as long as that took, or 1s, whichever is longer delay_time = max((after - before) / 2, 1.0) self.stop_event.wait(delay_time) def start(self): if self.limit < 0: # No need to start if there is no limit. return self._running = True self.thread.start() def stop(self): if not self.running: return self._running = False self.stop_event.set() # We join here to avoid whitelisting the thread -- if it takes more # than 5s to stop in tests, there's a problem. self.thread.join(timeout=5) @property def running(self): return self._running class Watchdog(object): def __init__(self, timeout, function, args): self.timeout = timeout self.function = function self.args = args self.thread = threading.Thread(target=self._run, name='watchdog') self.thread.daemon = True self.timed_out = None def _run(self): while self._running and time.time() < self.end: time.sleep(10) if self._running: self.timed_out = True self.function(*self.args) else: # Only set timed_out to false if we aren't _running # anymore. This means that we stopped running not because # of a timeout but because normal execution ended. self.timed_out = False def start(self): self._running = True self.end = time.time() + self.timeout self.thread.start() def stop(self): self._running = False class SshAgent(object): log = logging.getLogger("zuul.ExecutorServer") def __init__(self): self.env = {} self.ssh_agent = None def start(self): if self.ssh_agent: return with open('/dev/null', 'r+') as devnull: ssh_agent = subprocess.Popen(['ssh-agent'], close_fds=True, stdout=subprocess.PIPE, stderr=devnull, stdin=devnull) (output, _) = ssh_agent.communicate() output = output.decode('utf8') for line in output.split("\n"): if '=' in line: line = line.split(";", 1)[0] (key, value) = line.split('=') self.env[key] = value self.log.info('Started SSH Agent, {}'.format(self.env)) def stop(self): if 'SSH_AGENT_PID' in self.env: try: os.kill(int(self.env['SSH_AGENT_PID']), signal.SIGTERM) except OSError: self.log.exception( 'Problem sending SIGTERM to agent {}'.format(self.env)) self.log.debug('Sent SIGTERM to SSH Agent, {}'.format(self.env)) self.env = {} def add(self, key_path): env = os.environ.copy() env.update(self.env) key_path = os.path.expanduser(key_path) self.log.debug('Adding SSH Key {}'.format(key_path)) try: subprocess.check_output(['ssh-add', key_path], env=env, stderr=subprocess.PIPE) except subprocess.CalledProcessError as e: self.log.exception('ssh-add failed. stdout: %s, stderr: %s', e.output, e.stderr) raise self.log.info('Added SSH Key {}'.format(key_path)) def addData(self, name, key_data): env = os.environ.copy() env.update(self.env) self.log.debug('Adding SSH Key {}'.format(name)) try: subprocess.check_output(['ssh-add', '-'], env=env, input=key_data.encode('utf8'), stderr=subprocess.PIPE) except subprocess.CalledProcessError as e: self.log.exception('ssh-add failed. stdout: %s, stderr: %s', e.output, e.stderr) raise self.log.info('Added SSH Key {}'.format(name)) def remove(self, key_path): env = os.environ.copy() env.update(self.env) key_path = os.path.expanduser(key_path) self.log.debug('Removing SSH Key {}'.format(key_path)) subprocess.check_output(['ssh-add', '-d', key_path], env=env, stderr=subprocess.PIPE) self.log.info('Removed SSH Key {}'.format(key_path)) def list(self): if 'SSH_AUTH_SOCK' not in self.env: return None env = os.environ.copy() env.update(self.env) result = [] for line in subprocess.Popen(['ssh-add', '-L'], env=env, stdout=subprocess.PIPE).stdout: line = line.decode('utf8') if line.strip() == 'The agent has no identities.': break result.append(line.strip()) return result class JobDirPlaybook(object): def __init__(self, root): self.root = root self.trusted = None self.project_canonical_name = None self.branch = None self.canonical_name_and_path = None self.path = None self.roles = [] self.roles_path = [] self.ansible_config = os.path.join(self.root, 'ansible.cfg') self.project_link = os.path.join(self.root, 'project') self.secrets_root = os.path.join(self.root, 'secrets') os.makedirs(self.secrets_root) self.secrets = os.path.join(self.secrets_root, 'secrets.yaml') self.secrets_content = None def addRole(self): count = len(self.roles) root = os.path.join(self.root, 'role_%i' % (count,)) os.makedirs(root) self.roles.append(root) return root class JobDir(object): def __init__(self, root, keep, build_uuid): ''' :param str root: Root directory for the individual job directories. Can be None to use the default system temp root directory. :param bool keep: If True, do not delete the job directory. :param str build_uuid: The unique build UUID. If supplied, this will be used as the temp job directory name. Using this will help the log streaming daemon find job logs. ''' # root # ansible (mounted in bwrap read-only) # logging.json # inventory.yaml # extra_vars.yaml # .ansible (mounted in bwrap read-write) # fact-cache/localhost # cp # playbook_0 (mounted in bwrap for each playbook read-only) # secrets.yaml # project -> ../trusted/project_0/... # role_0 -> ../trusted/project_0/... # trusted (mounted in bwrap read-only) # project_0 # # # untrusted (mounted in bwrap read-only) # project_0 # # # work (mounted in bwrap read-write) # .ssh # known_hosts # src # # # logs # job-output.txt # tmp # results.json self.keep = keep if root: tmpdir = root else: tmpdir = tempfile.gettempdir() self.root = os.path.join(tmpdir, build_uuid) os.mkdir(self.root, 0o700) self.work_root = os.path.join(self.root, 'work') os.makedirs(self.work_root) self.src_root = os.path.join(self.work_root, 'src') os.makedirs(self.src_root) self.log_root = os.path.join(self.work_root, 'logs') os.makedirs(self.log_root) # Create local tmp directory # NOTE(tobiash): This must live within the work root as it can be used # by ansible for temporary files which are path checked in untrusted # jobs. self.local_tmp = os.path.join(self.work_root, 'tmp') os.makedirs(self.local_tmp) self.ansible_root = os.path.join(self.root, 'ansible') os.makedirs(self.ansible_root) self.trusted_root = os.path.join(self.root, 'trusted') os.makedirs(self.trusted_root) self.untrusted_root = os.path.join(self.root, 'untrusted') os.makedirs(self.untrusted_root) ssh_dir = os.path.join(self.work_root, '.ssh') os.mkdir(ssh_dir, 0o700) # Create ansible cache directory self.ansible_cache_root = os.path.join(self.root, '.ansible') self.fact_cache = os.path.join(self.ansible_cache_root, 'fact-cache') os.makedirs(self.fact_cache) self.control_path = os.path.join(self.ansible_cache_root, 'cp') self.job_unreachable_file = os.path.join(self.ansible_cache_root, 'nodes.unreachable') os.makedirs(self.control_path) localhost_facts = os.path.join(self.fact_cache, 'localhost') # NOTE(pabelanger): We do not want to leak zuul-executor facts to other # playbooks now that smart fact gathering is enabled by default. We # can have ansible skip populating the cache with information by the # doing the following. with open(localhost_facts, 'w') as f: f.write('{"module_setup": true}') self.result_data_file = os.path.join(self.work_root, 'results.json') with open(self.result_data_file, 'w'): pass self.known_hosts = os.path.join(ssh_dir, 'known_hosts') self.inventory = os.path.join(self.ansible_root, 'inventory.yaml') self.extra_vars = os.path.join(self.ansible_root, 'extra_vars.yaml') self.setup_inventory = os.path.join(self.ansible_root, 'setup-inventory.yaml') self.logging_json = os.path.join(self.ansible_root, 'logging.json') self.playbooks = [] # The list of candidate playbooks self.pre_playbooks = [] self.post_playbooks = [] self.job_output_file = os.path.join(self.log_root, 'job-output.txt') # We need to create the job-output.txt upfront in order to close the # gap between url reporting and ansible creating the file. Otherwise # there is a period of time where the user can click on the live log # link on the status page but the log streaming fails because the file # is not there yet. with open(self.job_output_file, 'w') as job_output: job_output.write("{now} | Job console starting...\n".format( now=datetime.datetime.now() )) self.trusted_projects = [] self.trusted_project_index = {} self.untrusted_projects = [] self.untrusted_project_index = {} # Create a JobDirPlaybook for the Ansible setup run. This # doesn't use an actual playbook, but it lets us use the same # methods to write an ansible.cfg as the rest of the Ansible # runs. setup_root = os.path.join(self.ansible_root, 'setup_playbook') os.makedirs(setup_root) self.setup_playbook = JobDirPlaybook(setup_root) self.setup_playbook.trusted = True def addTrustedProject(self, canonical_name, branch): # Trusted projects are placed in their own directories so that # we can support using different branches of the same project # in different playbooks. count = len(self.trusted_projects) root = os.path.join(self.trusted_root, 'project_%i' % (count,)) os.makedirs(root) self.trusted_projects.append(root) self.trusted_project_index[(canonical_name, branch)] = root return root def getTrustedProject(self, canonical_name, branch): return self.trusted_project_index.get((canonical_name, branch)) def addUntrustedProject(self, canonical_name, branch): # Similar to trusted projects, but these hold checkouts of # projects which are allowed to have speculative changes # applied. They might, however, be different branches than # what is used in the working dir, so they need their own # location. Moreover, we might avoid mischief if a job alters # the contents of the working dir. count = len(self.untrusted_projects) root = os.path.join(self.untrusted_root, 'project_%i' % (count,)) os.makedirs(root) self.untrusted_projects.append(root) self.untrusted_project_index[(canonical_name, branch)] = root return root def getUntrustedProject(self, canonical_name, branch): return self.untrusted_project_index.get((canonical_name, branch)) def addPrePlaybook(self): count = len(self.pre_playbooks) root = os.path.join(self.ansible_root, 'pre_playbook_%i' % (count,)) os.makedirs(root) playbook = JobDirPlaybook(root) self.pre_playbooks.append(playbook) return playbook def addPostPlaybook(self): count = len(self.post_playbooks) root = os.path.join(self.ansible_root, 'post_playbook_%i' % (count,)) os.makedirs(root) playbook = JobDirPlaybook(root) self.post_playbooks.append(playbook) return playbook def addPlaybook(self): count = len(self.playbooks) root = os.path.join(self.ansible_root, 'playbook_%i' % (count,)) os.makedirs(root) playbook = JobDirPlaybook(root) self.playbooks.append(playbook) return playbook def cleanup(self): if not self.keep: shutil.rmtree(self.root) def __enter__(self): return self def __exit__(self, etype, value, tb): self.cleanup() class UpdateTask(object): def __init__(self, connection_name, project_name): self.connection_name = connection_name self.project_name = project_name self.canonical_name = None self.branches = None self.refs = None self.event = threading.Event() self.success = False def __eq__(self, other): if (other and other.connection_name == self.connection_name and other.project_name == self.project_name): return True return False def wait(self): self.event.wait() def setComplete(self): self.event.set() class DeduplicateQueue(object): def __init__(self): self.queue = collections.deque() self.condition = threading.Condition() def qsize(self): return len(self.queue) def put(self, item): # Returns the original item if added, or an equivalent item if # already enqueued. self.condition.acquire() ret = None try: for x in self.queue: if item == x: ret = x if ret is None: ret = item self.queue.append(item) self.condition.notify() finally: self.condition.release() return ret def get(self): self.condition.acquire() try: while True: try: ret = self.queue.popleft() return ret except IndexError: pass self.condition.wait() finally: self.condition.release() def _copy_ansible_files(python_module, target_dir): library_path = os.path.dirname(os.path.abspath(python_module.__file__)) for fn in os.listdir(library_path): if fn == "__pycache__": continue full_path = os.path.join(library_path, fn) if os.path.isdir(full_path): shutil.copytree(full_path, os.path.join(target_dir, fn)) else: shutil.copy(os.path.join(library_path, fn), target_dir) def check_varnames(var): # We block these in configloader, but block it here too to make # sure that a job doesn't pass variables named zuul or nodepool. if 'zuul' in var: raise Exception("Defining variables named 'zuul' is not allowed") if 'nodepool' in var: raise Exception("Defining variables named 'nodepool' is not allowed") def make_setup_inventory_dict(nodes): hosts = {} for node in nodes: if (node['host_vars']['ansible_connection'] in BLACKLISTED_ANSIBLE_CONNECTION_TYPES): continue hosts[node['name']] = node['host_vars'] inventory = { 'all': { 'hosts': hosts, } } return inventory def make_inventory_dict(nodes, args, all_vars): hosts = {} for node in nodes: hosts[node['name']] = node['host_vars'] zuul_vars = all_vars['zuul'] if 'message' in zuul_vars: zuul_vars['message'] = UnsafeTag(zuul_vars['message']) inventory = { 'all': { 'hosts': hosts, 'vars': all_vars, } } for group in args['groups']: if 'children' not in inventory['all']: inventory['all']['children'] = dict() group_hosts = {} for node_name in group['nodes']: group_hosts[node_name] = None group_vars = args['group_vars'].get(group['name'], {}).copy() check_varnames(group_vars) inventory['all']['children'].update({ group['name']: { 'hosts': group_hosts, 'vars': group_vars, }}) return inventory class AnsibleJobLogAdapter(logging.LoggerAdapter): def process(self, msg, kwargs): msg, kwargs = super(AnsibleJobLogAdapter, self).process(msg, kwargs) msg = '[build: %s] %s' % (kwargs['extra']['job'], msg) return msg, kwargs class AnsibleJob(object): RESULT_NORMAL = 1 RESULT_TIMED_OUT = 2 RESULT_UNREACHABLE = 3 RESULT_ABORTED = 4 RESULT_DISK_FULL = 5 RESULT_MAP = { RESULT_NORMAL: 'RESULT_NORMAL', RESULT_TIMED_OUT: 'RESULT_TIMED_OUT', RESULT_UNREACHABLE: 'RESULT_UNREACHABLE', RESULT_ABORTED: 'RESULT_ABORTED', RESULT_DISK_FULL: 'RESULT_DISK_FULL', } def __init__(self, executor_server, job): logger = logging.getLogger("zuul.AnsibleJob") self.log = AnsibleJobLogAdapter(logger, {'job': job.unique}) self.executor_server = executor_server self.job = job self.arguments = json.loads(job.arguments) self.jobdir = None self.proc = None self.proc_lock = threading.Lock() self.running = False self.started = False # Whether playbooks have started running self.time_starting_build = None self.paused = False self.aborted = False self.aborted_reason = None self._resume_event = threading.Event() self.thread = None self.project_info = {} self.private_key_file = get_default(self.executor_server.config, 'executor', 'private_key_file', '~/.ssh/id_rsa') self.winrm_key_file = get_default(self.executor_server.config, 'executor', 'winrm_cert_key_file', '~/.winrm/winrm_client_cert.key') self.winrm_pem_file = get_default(self.executor_server.config, 'executor', 'winrm_cert_pem_file', '~/.winrm/winrm_client_cert.pem') self.winrm_operation_timeout = get_default( self.executor_server.config, 'executor', 'winrm_operation_timeout_sec') self.winrm_read_timeout = get_default( self.executor_server.config, 'executor', 'winrm_read_timeout_sec') self.ssh_agent = SshAgent() self.executor_variables_file = None self.cpu_times = {'user': 0, 'system': 0, 'children_user': 0, 'children_system': 0} if self.executor_server.config.has_option('executor', 'variables'): self.executor_variables_file = self.executor_server.config.get( 'executor', 'variables') def run(self): self.running = True self.thread = threading.Thread(target=self.execute, name='build-%s' % self.job.unique) self.thread.start() def stop(self, reason=None): self.aborted = True self.aborted_reason = reason # if paused we need to resume the job so it can be stopped self.resume() self.abortRunningProc() def pause(self): self.log.info( "Pausing job %s for ref %s (change %s)" % ( self.arguments['zuul']['job'], self.arguments['zuul']['ref'], self.arguments['zuul']['change_url'])) with open(self.jobdir.job_output_file, 'a') as job_output: job_output.write( "{now} |\n" "{now} | Job paused\n".format(now=datetime.datetime.now())) self.paused = True data = {'paused': self.paused, 'data': self.getResultData()} self.job.sendWorkData(json.dumps(data)) self._resume_event.wait() def resume(self): if not self.paused: return self.log.info( "Resuming job %s for ref %s (change %s)" % ( self.arguments['zuul']['job'], self.arguments['zuul']['ref'], self.arguments['zuul']['change_url'])) with open(self.jobdir.job_output_file, 'a') as job_output: job_output.write( "{now} | Job resumed\n" "{now} |\n".format(now=datetime.datetime.now())) self.paused = False self._resume_event.set() def wait(self): if self.thread: self.thread.join() def execute(self): try: self.time_starting_build = time.monotonic() self.ssh_agent.start() self.ssh_agent.add(self.private_key_file) for key in self.arguments.get('ssh_keys', []): self.ssh_agent.addData(key['name'], key['key']) self.jobdir = JobDir(self.executor_server.jobdir_root, self.executor_server.keep_jobdir, str(self.job.unique)) self._execute() except ExecutorError as e: result_data = json.dumps(dict(result='ERROR', error_detail=e.args[0])) self.log.debug("Sending result: %s" % (result_data,)) self.job.sendWorkComplete(result_data) except Exception: self.log.exception("Exception while executing job") self.job.sendWorkException(traceback.format_exc()) finally: self.running = False if self.jobdir: try: self.jobdir.cleanup() except Exception: self.log.exception("Error cleaning up jobdir:") if self.ssh_agent: try: self.ssh_agent.stop() except Exception: self.log.exception("Error stopping SSH agent:") try: self.executor_server.finishJob(self.job.unique) except Exception: self.log.exception("Error finalizing job thread:") def _execute(self): args = self.arguments self.log.info( "Beginning job %s for ref %s (change %s)" % ( args['zuul']['job'], args['zuul']['ref'], args['zuul']['change_url'])) self.log.debug("Job root: %s" % (self.jobdir.root,)) tasks = [] projects = set() # Make sure all projects used by the job are updated... for project in args['projects']: self.log.debug("Updating project %s" % (project,)) tasks.append(self.executor_server.update( project['connection'], project['name'])) projects.add((project['connection'], project['name'])) # ...as well as all playbook and role projects. repos = [] playbooks = (args['pre_playbooks'] + args['playbooks'] + args['post_playbooks']) for playbook in playbooks: repos.append(playbook) repos += playbook['roles'] for repo in repos: self.log.debug("Updating playbook or role %s" % (repo['project'],)) key = (repo['connection'], repo['project']) if key not in projects: tasks.append(self.executor_server.update(*key)) projects.add(key) for task in tasks: task.wait() if not task.success: raise ExecutorError( 'Failed to update project %s' % task.canonical_name) self.project_info[task.canonical_name] = { 'refs': task.refs, 'branches': task.branches, } self.log.debug("Git updates complete") merger = self.executor_server._getMerger( self.jobdir.src_root, self.executor_server.merge_root, self.log) repos = {} for project in args['projects']: self.log.debug("Cloning %s/%s" % (project['connection'], project['name'],)) repo = merger.getRepo(project['connection'], project['name']) repos[project['canonical_name']] = repo # The commit ID of the original item (before merging). Used # later for line mapping. item_commit = None merge_items = [i for i in args['items'] if i.get('number')] if merge_items: item_commit = self.doMergeChanges(merger, merge_items, args['repo_state']) if item_commit is None: # There was a merge conflict and we have already sent # a work complete result, don't run any jobs return state_items = [i for i in args['items'] if not i.get('number')] if state_items: merger.setRepoState(state_items, args['repo_state']) for project in args['projects']: repo = repos[project['canonical_name']] # If this project is the Zuul project and this is a ref # rather than a change, checkout the ref. if (project['canonical_name'] == args['zuul']['project']['canonical_name'] and (not args['zuul'].get('branch')) and args['zuul'].get('ref')): ref = args['zuul']['ref'] else: ref = None selected_ref, selected_desc = self.resolveBranch( project['canonical_name'], ref, args['branch'], args['override_branch'], args['override_checkout'], project['override_branch'], project['override_checkout'], project['default_branch']) self.log.info("Checking out %s %s %s", project['canonical_name'], selected_desc, selected_ref) repo.checkout(selected_ref) # Update the inventory variables to indicate the ref we # checked out p = args['zuul']['projects'][project['canonical_name']] p['checkout'] = selected_ref # Set the URL of the origin remote for each repo to a bogus # value. Keeping the remote allows tools to use it to determine # which commits are part of the current change. for repo in repos.values(): repo.setRemoteUrl('file:///dev/null') # This prepares each playbook and the roles needed for each. self.preparePlaybooks(args) self.prepareAnsibleFiles(args) self.writeLoggingConfig() data = { # TODO(mordred) worker_name is needed as a unique name for the # client to use for cancelling jobs on an executor. It's defaulting # to the hostname for now, but in the future we should allow # setting a per-executor override so that one can run more than # one executor on a host. 'worker_name': self.executor_server.hostname, 'worker_hostname': self.executor_server.hostname, 'worker_log_port': self.executor_server.log_streaming_port } if self.executor_server.log_streaming_port != DEFAULT_FINGER_PORT: data['url'] = "finger://{hostname}:{port}/{uuid}".format( hostname=data['worker_hostname'], port=data['worker_log_port'], uuid=self.job.unique) else: data['url'] = 'finger://{hostname}/{uuid}'.format( hostname=data['worker_hostname'], uuid=self.job.unique) self.job.sendWorkData(json.dumps(data)) self.job.sendWorkStatus(0, 100) result = self.runPlaybooks(args) # Stop the persistent SSH connections. setup_status, setup_code = self.runAnsibleCleanup( self.jobdir.setup_playbook) if self.aborted_reason == self.RESULT_DISK_FULL: result = 'DISK_FULL' data = self.getResultData() warnings = [] self.mapLines(merger, args, data, item_commit, warnings) result_data = json.dumps(dict(result=result, warnings=warnings, data=data)) self.log.debug("Sending result: %s" % (result_data,)) self.job.sendWorkComplete(result_data) def getResultData(self): data = {} try: with open(self.jobdir.result_data_file) as f: file_data = f.read() if file_data: data = json.loads(file_data) except Exception: self.log.exception("Unable to load result data:") return data def mapLines(self, merger, args, data, commit, warnings): # The data and warnings arguments are mutated in this method. # If we received file comments, map the line numbers before # we send the result. fc = data.get('zuul', {}).get('file_comments') if not fc: return disable = data.get('zuul', {}).get('disable_file_comment_line_mapping') if disable: return try: filecomments.validate(fc) except Exception as e: warnings.append("Job %s: validation error in file comments: %s" % (args['zuul']['job'], str(e))) del data['zuul']['file_comments'] return repo = None for project in args['projects']: if (project['canonical_name'] != args['zuul']['project']['canonical_name']): continue repo = merger.getRepo(project['connection'], project['name']) # If the repo doesn't exist, abort if not repo: return # Check out the selected ref again in case the job altered the # repo state. p = args['zuul']['projects'][project['canonical_name']] selected_ref = p['checkout'] self.log.info("Checking out %s %s for line mapping", project['canonical_name'], selected_ref) try: repo.checkout(selected_ref) except Exception: # If checkout fails, abort self.log.exception("Error checking out repo for line mapping") warnings.append("Job %s: unable to check out repo " "for file comments" % (args['zuul']['job'])) return lines = filecomments.extractLines(fc) new_lines = {} for (filename, lineno) in lines: try: new_lineno = repo.mapLine(commit, filename, lineno) except Exception as e: # Log at debug level since it's likely a job issue self.log.debug("Error mapping line:", exc_info=True) if isinstance(e, git.GitCommandError): msg = e.stderr else: msg = str(e) warnings.append("Job %s: unable to map line " "for file comments: %s" % (args['zuul']['job'], msg)) new_lineno = None if new_lineno is not None: new_lines[(filename, lineno)] = new_lineno filecomments.updateLines(fc, new_lines) def doMergeChanges(self, merger, items, repo_state): try: ret = merger.mergeChanges(items, repo_state=repo_state) except ValueError: # Return ABORTED so that we'll try again. At this point all of # the refs we're trying to merge should be valid refs. If we # can't fetch them, it should resolve itself. self.log.exception("Could not fetch refs to merge from remote") result = dict(result='ABORTED') self.job.sendWorkComplete(json.dumps(result)) return None if not ret: # merge conflict result = dict(result='MERGER_FAILURE') if self.executor_server.statsd: base_key = "zuul.executor.{hostname}.merger" self.executor_server.statsd.incr(base_key + ".FAILURE") self.job.sendWorkComplete(json.dumps(result)) return None if self.executor_server.statsd: base_key = "zuul.executor.{hostname}.merger" self.executor_server.statsd.incr(base_key + ".SUCCESS") recent = ret[3] orig_commit = ret[4] for key, commit in recent.items(): (connection, project, branch) = key repo = merger.getRepo(connection, project) repo.setRef('refs/heads/' + branch, commit) return orig_commit def resolveBranch(self, project_canonical_name, ref, zuul_branch, job_override_branch, job_override_checkout, project_override_branch, project_override_checkout, project_default_branch): branches = self.project_info[project_canonical_name]['branches'] refs = self.project_info[project_canonical_name]['refs'] selected_ref = None selected_desc = None if project_override_checkout in refs: selected_ref = project_override_checkout selected_desc = 'project override ref' elif project_override_branch in branches: selected_ref = project_override_branch selected_desc = 'project override branch' elif job_override_checkout in refs: selected_ref = job_override_checkout selected_desc = 'job override ref' elif job_override_branch in branches: selected_ref = job_override_branch selected_desc = 'job override branch' elif ref and ref.startswith('refs/heads/'): selected_ref = ref[len('refs/heads/'):] selected_desc = 'branch ref' elif ref and ref.startswith('refs/tags/'): selected_ref = ref[len('refs/tags/'):] selected_desc = 'tag ref' elif zuul_branch and zuul_branch in branches: selected_ref = zuul_branch selected_desc = 'zuul branch' elif project_default_branch in branches: selected_ref = project_default_branch selected_desc = 'project default branch' else: raise ExecutorError("Project %s does not have the " "default branch %s" % (project_canonical_name, project_default_branch)) return (selected_ref, selected_desc) def getAnsibleTimeout(self, start, timeout): if timeout is not None: now = time.time() elapsed = now - start timeout = timeout - elapsed return timeout def runPlaybooks(self, args): result = None # Run the Ansible 'setup' module on all hosts in the inventory # at the start of the job with a 60 second timeout. If we # aren't able to connect to all the hosts and gather facts # within that timeout, there is likely a network problem # between here and the hosts in the inventory; return them and # reschedule the job. setup_status, setup_code = self.runAnsibleSetup( self.jobdir.setup_playbook) if setup_status != self.RESULT_NORMAL or setup_code != 0: return result pre_failed = False success = False if self.executor_server.statsd: key = "zuul.executor.{hostname}.starting_builds" self.executor_server.statsd.timing( key, (time.monotonic() - self.time_starting_build) * 1000) self.started = True time_started = time.time() # timeout value is "total" job timeout which accounts for # pre-run and run playbooks. post-run is different because # it is used to copy out job logs and we want to do our best # to copy logs even when the job has timed out. job_timeout = args['timeout'] for index, playbook in enumerate(self.jobdir.pre_playbooks): # TODOv3(pabelanger): Implement pre-run timeout setting. ansible_timeout = self.getAnsibleTimeout(time_started, job_timeout) pre_status, pre_code = self.runAnsiblePlaybook( playbook, ansible_timeout, phase='pre', index=index) if pre_status != self.RESULT_NORMAL or pre_code != 0: # These should really never fail, so return None and have # zuul try again pre_failed = True break self.log.debug( "Overall ansible cpu times: user=%.2f, system=%.2f, " "children_user=%.2f, children_system=%.2f" % (self.cpu_times['user'], self.cpu_times['system'], self.cpu_times['children_user'], self.cpu_times['children_system'])) if not pre_failed: for index, playbook in enumerate(self.jobdir.playbooks): ansible_timeout = self.getAnsibleTimeout( time_started, job_timeout) job_status, job_code = self.runAnsiblePlaybook( playbook, ansible_timeout, phase='run', index=index) if job_status == self.RESULT_ABORTED: return 'ABORTED' elif job_status == self.RESULT_TIMED_OUT: # Set the pre-failure flag so this doesn't get # overridden by a post-failure. pre_failed = True result = 'TIMED_OUT' break elif job_status == self.RESULT_NORMAL: success = (job_code == 0) if success: result = 'SUCCESS' else: result = 'FAILURE' break else: # The result of the job is indeterminate. Zuul will # run it again. return None # check if we need to pause here result_data = self.getResultData() pause = result_data.get('zuul', {}).get('pause') if pause: self.pause() post_timeout = args['post_timeout'] unreachable = False for index, playbook in enumerate(self.jobdir.post_playbooks): # Post timeout operates a little differently to the main job # timeout. We give each post playbook the full post timeout to # do its job because post is where you'll often record job logs # which are vital to understanding why timeouts have happened in # the first place. post_status, post_code = self.runAnsiblePlaybook( playbook, post_timeout, success, phase='post', index=index) if post_status == self.RESULT_ABORTED: return 'ABORTED' if post_status == self.RESULT_UNREACHABLE: # In case we encounter unreachable nodes we need to return None # so the job can be retried. However in the case of post # playbooks we should still try to run all playbooks to get a # chance to upload logs. unreachable = True if post_status != self.RESULT_NORMAL or post_code != 0: success = False # If we encountered a pre-failure, that takes # precedence over the post result. if not pre_failed: result = 'POST_FAILURE' if (index + 1) == len(self.jobdir.post_playbooks): self._logFinalPlaybookError() if unreachable: return None return result def _logFinalPlaybookError(self): # Failures in the final post playbook can include failures # uploading logs, which makes diagnosing issues difficult. # Grab the output from the last playbook from the json # file and log it. json_output = self.jobdir.job_output_file.replace('txt', 'json') self.log.debug("Final playbook failed") if not os.path.exists(json_output): self.log.debug("JSON logfile {logfile} is missing".format( logfile=json_output)) return try: output = json.load(open(json_output, 'r')) last_playbook = output[-1] # Transform json to yaml - because it's easier to read and given # the size of the data it'll be extra-hard to read this as an # all on one line stringified nested dict. yaml_out = yaml.safe_dump(last_playbook, default_flow_style=False) for line in yaml_out.split('\n'): self.log.debug(line) except Exception: self.log.exception( "Could not decode json from {logfile}".format( logfile=json_output)) def getHostList(self, args): hosts = [] for node in args['nodes']: # NOTE(mordred): This assumes that the nodepool launcher # and the zuul executor both have similar network # characteristics, as the launcher will do a test for ipv6 # viability and if so, and if the node has an ipv6 # address, it will be the interface_ip. force-ipv4 can be # set to True in the clouds.yaml for a cloud if this # results in the wrong thing being in interface_ip # TODO(jeblair): Move this notice to the docs. for name in node['name']: ip = node.get('interface_ip') port = node.get('connection_port', node.get('ssh_port', 22)) host_vars = args['host_vars'].get(name, {}).copy() check_varnames(host_vars) host_vars.update(dict( ansible_host=ip, ansible_user=self.executor_server.default_username, ansible_port=port, nodepool=dict( label=node.get('label'), az=node.get('az'), cloud=node.get('cloud'), provider=node.get('provider'), region=node.get('region'), host_id=node.get('host_id'), interface_ip=node.get('interface_ip'), public_ipv4=node.get('public_ipv4'), private_ipv4=node.get('private_ipv4'), public_ipv6=node.get('public_ipv6')))) username = node.get('username') if username: host_vars['ansible_user'] = username connection_type = node.get('connection_type') if connection_type: host_vars['ansible_connection'] = connection_type if connection_type == "winrm": host_vars['ansible_winrm_transport'] = 'certificate' host_vars['ansible_winrm_cert_pem'] = \ self.winrm_pem_file host_vars['ansible_winrm_cert_key_pem'] = \ self.winrm_key_file # NOTE(tobiash): This is necessary when using default # winrm self-signed certificates. This is probably what # most installations want so hard code this here for # now. host_vars['ansible_winrm_server_cert_validation'] = \ 'ignore' if self.winrm_operation_timeout is not None: host_vars['ansible_winrm_operation_timeout_sec'] =\ self.winrm_operation_timeout if self.winrm_read_timeout is not None: host_vars['ansible_winrm_read_timeout_sec'] = \ self.winrm_read_timeout host_keys = [] for key in node.get('host_keys', []): if port != 22: host_keys.append("[%s]:%s %s" % (ip, port, key)) else: host_keys.append("%s %s" % (ip, key)) hosts.append(dict( name=name, host_vars=host_vars, host_keys=host_keys)) return hosts def _blockPluginDirs(self, path): '''Prevent execution of playbooks or roles with plugins Plugins are loaded from roles and also if there is a plugin dir adjacent to the playbook. Throw an error if the path contains a location that would cause a plugin to get loaded. ''' for entry in os.listdir(path): entry = os.path.join(path, entry) if os.path.isdir(entry) and entry.endswith('_plugins'): raise ExecutorError( "Ansible plugin dir %s found adjacent to playbook %s in " "non-trusted repo." % (entry, path)) def findPlaybook(self, path, trusted=False): if os.path.exists(path): if not trusted: # Plugins can be defined in multiple locations within the # playbook's subtree. # # 1. directly within the playbook: # block playbook_dir/*_plugins # # 2. within a role defined in playbook_dir/: # block playbook_dir/*/*_plugins # # 3. within a role defined in playbook_dir/roles/: # block playbook_dir/roles/*/*_plugins playbook_dir = os.path.dirname(os.path.abspath(path)) paths_to_check = [] def addPathsToCheck(root_dir): if os.path.isdir(root_dir): for entry in os.listdir(root_dir): entry = os.path.join(root_dir, entry) if os.path.isdir(entry): paths_to_check.append(entry) # handle case 1 paths_to_check.append(playbook_dir) # handle case 2 addPathsToCheck(playbook_dir) # handle case 3 addPathsToCheck(os.path.join(playbook_dir, 'roles')) for path_to_check in paths_to_check: self._blockPluginDirs(path_to_check) return path raise ExecutorError("Unable to find playbook %s" % path) def preparePlaybooks(self, args): self.writeAnsibleConfig(self.jobdir.setup_playbook) for playbook in args['pre_playbooks']: jobdir_playbook = self.jobdir.addPrePlaybook() self.preparePlaybook(jobdir_playbook, playbook, args) job_playbook = None for playbook in args['playbooks']: jobdir_playbook = self.jobdir.addPlaybook() self.preparePlaybook(jobdir_playbook, playbook, args) if jobdir_playbook.path is not None: if job_playbook is None: job_playbook = jobdir_playbook if job_playbook is None: raise ExecutorError("No playbook specified") for playbook in args['post_playbooks']: jobdir_playbook = self.jobdir.addPostPlaybook() self.preparePlaybook(jobdir_playbook, playbook, args) def preparePlaybook(self, jobdir_playbook, playbook, args): # Check out the playbook repo if needed and set the path to # the playbook that should be run. self.log.debug("Prepare playbook repo for %s: %s@%s" % (playbook['trusted'] and 'trusted' or 'untrusted', playbook['project'], playbook['branch'])) source = self.executor_server.connections.getSource( playbook['connection']) project = source.getProject(playbook['project']) branch = playbook['branch'] jobdir_playbook.trusted = playbook['trusted'] jobdir_playbook.branch = branch jobdir_playbook.project_canonical_name = project.canonical_name jobdir_playbook.canonical_name_and_path = os.path.join( project.canonical_name, playbook['path']) path = None if not jobdir_playbook.trusted: path = self.checkoutUntrustedProject(project, branch, args) else: path = self.checkoutTrustedProject(project, branch) path = os.path.join(path, playbook['path']) jobdir_playbook.path = self.findPlaybook( path, trusted=jobdir_playbook.trusted) # If this playbook doesn't exist, don't bother preparing # roles. if not jobdir_playbook.path: return for role in playbook['roles']: self.prepareRole(jobdir_playbook, role, args) secrets = playbook['secrets'] if secrets: check_varnames(secrets) jobdir_playbook.secrets_content = yaml.safe_dump( secrets, default_flow_style=False) self.writeAnsibleConfig(jobdir_playbook) def checkoutTrustedProject(self, project, branch): root = self.jobdir.getTrustedProject(project.canonical_name, branch) if not root: root = self.jobdir.addTrustedProject(project.canonical_name, branch) self.log.debug("Cloning %s@%s into new trusted space %s", project, branch, root) merger = self.executor_server._getMerger( root, self.executor_server.merge_root, self.log) merger.checkoutBranch(project.connection_name, project.name, branch) else: self.log.debug("Using existing repo %s@%s in trusted space %s", project, branch, root) path = os.path.join(root, project.canonical_hostname, project.name) return path def checkoutUntrustedProject(self, project, branch, args): root = self.jobdir.getUntrustedProject(project.canonical_name, branch) if not root: root = self.jobdir.addUntrustedProject(project.canonical_name, branch) # If the project is in the dependency chain, clone from # there so we pick up any speculative changes, otherwise, # clone from the cache. merger = None for p in args['projects']: if (p['connection'] == project.connection_name and p['name'] == project.name): # We already have this repo prepared self.log.debug("Found workdir repo for untrusted project") merger = self.executor_server._getMerger( root, self.jobdir.src_root, self.log) break if merger is None: merger = self.executor_server._getMerger( root, self.executor_server.merge_root, self.log) self.log.debug("Cloning %s@%s into new untrusted space %s", project, branch, root) merger.checkoutBranch(project.connection_name, project.name, branch) else: self.log.debug("Using existing repo %s@%s in trusted space %s", project, branch, root) path = os.path.join(root, project.canonical_hostname, project.name) return path def prepareRole(self, jobdir_playbook, role, args): if role['type'] == 'zuul': root = jobdir_playbook.addRole() self.prepareZuulRole(jobdir_playbook, role, args, root) def findRole(self, path, trusted=False): d = os.path.join(path, 'tasks') if os.path.isdir(d): # This is a bare role if not trusted: self._blockPluginDirs(path) # None signifies that the repo is a bare role return None d = os.path.join(path, 'roles') if os.path.isdir(d): # This repo has a collection of roles if not trusted: self._blockPluginDirs(d) for entry in os.listdir(d): entry_path = os.path.join(d, entry) if os.path.isdir(entry_path): self._blockPluginDirs(entry_path) return d # It is neither a bare role, nor a collection of roles raise RoleNotFoundError("Unable to find role in %s" % (path,)) def prepareZuulRole(self, jobdir_playbook, role, args, root): self.log.debug("Prepare zuul role for %s" % (role,)) # Check out the role repo if needed source = self.executor_server.connections.getSource( role['connection']) project = source.getProject(role['project']) name = role['target_name'] path = None # Find the branch to use for this role. We should generally # follow the normal fallback procedure, unless this role's # project is the playbook's project, in which case we should # use the playbook branch. if jobdir_playbook.project_canonical_name == project.canonical_name: branch = jobdir_playbook.branch self.log.debug("Role project is playbook project, " "using playbook branch %s", branch) else: # Find if the project is one of the job-specified projects. # If it is, we can honor the project checkout-override options. args_project = {} for p in args['projects']: if (p['canonical_name'] == project.canonical_name): args_project = p break branch, selected_desc = self.resolveBranch( project.canonical_name, None, args['branch'], args['override_branch'], args['override_checkout'], args_project.get('override_branch'), args_project.get('override_checkout'), role['project_default_branch']) self.log.debug("Role using %s %s", selected_desc, branch) if not jobdir_playbook.trusted: path = self.checkoutUntrustedProject(project, branch, args) else: path = self.checkoutTrustedProject(project, branch) # The name of the symlink is the requested name of the role # (which may be the repo name or may be something else; this # can come into play if this is a bare role). link = os.path.join(root, name) link = os.path.realpath(link) if not link.startswith(os.path.realpath(root)): raise ExecutorError("Invalid role name %s" % name) os.symlink(path, link) try: role_path = self.findRole(link, trusted=jobdir_playbook.trusted) except RoleNotFoundError: if role['implicit']: self.log.debug("Implicit role not found in %s", link) return raise if role_path is None: # In the case of a bare role, add the containing directory role_path = root self.log.debug("Adding role path %s", role_path) jobdir_playbook.roles_path.append(role_path) def prepareKubeConfig(self, data): kube_cfg_path = os.path.join(self.jobdir.work_root, ".kube", "config") if os.path.exists(kube_cfg_path): kube_cfg = yaml.safe_load(open(kube_cfg_path)) else: os.makedirs(os.path.dirname(kube_cfg_path), exist_ok=True) kube_cfg = { 'apiVersion': 'v1', 'kind': 'Config', 'preferences': {}, 'users': [], 'clusters': [], 'contexts': [], 'current-context': None, } # Add cluster cluster_name = urlsplit(data['host']).netloc.replace('.', '-') cluster = { 'server': data['host'], } if data.get('ca_crt'): cluster['certificate-authority-data'] = data['ca_crt'] if data['skiptls']: cluster['insecure-skip-tls-verify'] = True kube_cfg['clusters'].append({ 'name': cluster_name, 'cluster': cluster, }) # Add user user_name = "%s:%s" % (data['namespace'], data['user']) kube_cfg['users'].append({ 'name': user_name, 'user': { 'token': data['token'], }, }) # Add context data['context_name'] = "%s/%s" % (user_name, cluster_name) kube_cfg['contexts'].append({ 'name': data['context_name'], 'context': { 'user': user_name, 'cluster': cluster_name, 'namespace': data['namespace'] } }) if not kube_cfg['current-context']: kube_cfg['current-context'] = data['context_name'] with open(kube_cfg_path, "w") as of: of.write(yaml.safe_dump(kube_cfg, default_flow_style=False)) def prepareAnsibleFiles(self, args): all_vars = args['vars'].copy() check_varnames(all_vars) # TODO(mordred) Hack to work around running things with python3 all_vars['ansible_python_interpreter'] = '/usr/bin/python2' all_vars['zuul'] = args['zuul'].copy() all_vars['zuul']['executor'] = dict( hostname=self.executor_server.hostname, src_root=self.jobdir.src_root, log_root=self.jobdir.log_root, work_root=self.jobdir.work_root, result_data_file=self.jobdir.result_data_file, inventory_file=self.jobdir.inventory) resources_nodes = [] all_vars['zuul']['resources'] = {} for node in args['nodes']: if node.get('connection_type') in ( 'namespace', 'project', 'kubectl'): # TODO: decrypt resource data using scheduler key data = node['connection_port'] # Setup kube/config file self.prepareKubeConfig(data) # Convert connection_port in kubectl connection parameters node['connection_port'] = None node['kubectl_namespace'] = data['namespace'] node['kubectl_context'] = data['context_name'] # Add node information to zuul_resources all_vars['zuul']['resources'][node['name'][0]] = { 'namespace': data['namespace'], 'context': data['context_name'], } if node['connection_type'] in ('project', 'namespace'): # Project are special nodes that are not the inventory resources_nodes.append(node) else: # Add the real pod name to the resources_var all_vars['zuul']['resources'][ node['name'][0]]['pod'] = data['pod'] # Remove resource node from nodes list for node in resources_nodes: args['nodes'].remove(node) nodes = self.getHostList(args) setup_inventory = make_setup_inventory_dict(nodes) inventory = make_inventory_dict(nodes, args, all_vars) with open(self.jobdir.setup_inventory, 'w') as setup_inventory_yaml: setup_inventory_yaml.write( yaml.safe_dump(setup_inventory, default_flow_style=False)) with open(self.jobdir.inventory, 'w') as inventory_yaml: inventory_yaml.write( yaml.safe_dump(inventory, default_flow_style=False)) with open(self.jobdir.known_hosts, 'w') as known_hosts: for node in nodes: for key in node['host_keys']: known_hosts.write('%s\n' % key) with open(self.jobdir.extra_vars, 'w') as extra_vars: extra_vars.write( yaml.safe_dump(args['extra_vars'], default_flow_style=False)) def writeLoggingConfig(self): self.log.debug("Writing logging config for job %s %s", self.jobdir.job_output_file, self.jobdir.logging_json) logging_config = zuul.ansible.logconfig.JobLoggingConfig( job_output_file=self.jobdir.job_output_file) logging_config.writeJson(self.jobdir.logging_json) def writeAnsibleConfig(self, jobdir_playbook): trusted = jobdir_playbook.trusted # TODO(mordred) This should likely be extracted into a more generalized # mechanism for deployers being able to add callback # plugins. if ara_callbacks: callback_path = '%s:%s' % ( self.executor_server.callback_dir, os.path.dirname(ara_callbacks.__file__)) else: callback_path = self.executor_server.callback_dir with open(jobdir_playbook.ansible_config, 'w') as config: config.write('[defaults]\n') config.write('inventory = %s\n' % self.jobdir.inventory) config.write('local_tmp = %s\n' % self.jobdir.local_tmp) config.write('retry_files_enabled = False\n') config.write('gathering = smart\n') config.write('fact_caching = jsonfile\n') config.write('fact_caching_connection = %s\n' % self.jobdir.fact_cache) config.write('library = %s\n' % self.executor_server.library_dir) config.write('command_warnings = False\n') config.write('callback_plugins = %s\n' % callback_path) config.write('stdout_callback = zuul_stream\n') config.write('filter_plugins = %s\n' % self.executor_server.filter_dir) # bump the timeout because busy nodes may take more than # 10s to respond config.write('timeout = 30\n') # We need at least the general action dir as this overwrites the # command action plugin for log streaming. action_dirs = [self.executor_server.action_dir_general] if not trusted: action_dirs.append(self.executor_server.action_dir) config.write('lookup_plugins = %s\n' % self.executor_server.lookup_dir) config.write('action_plugins = %s\n' % ':'.join(action_dirs)) if jobdir_playbook.roles_path: config.write('roles_path = %s\n' % ':'.join( jobdir_playbook.roles_path)) # On playbooks with secrets we want to prevent the # printing of args since they may be passed to a task or a # role. Otherwise, printing the args could be useful for # debugging. config.write('display_args_to_stdout = %s\n' % str(not jobdir_playbook.secrets_content)) # Increase the internal poll interval of ansible. # The default interval of 0.001s is optimized for interactive # ui at the expense of CPU load. As we have a non-interactive # automation use case a longer poll interval is more suitable # and reduces CPU load of the ansible process. config.write('internal_poll_interval = 0.01\n') config.write('[ssh_connection]\n') # NOTE(pabelanger): Try up to 3 times to run a task on a host, this # helps to mitigate UNREACHABLE host errors with SSH. config.write('retries = 3\n') # NB: when setting pipelining = True, keep_remote_files # must be False (the default). Otherwise it apparently # will override the pipelining option and effectively # disable it. Pipelining has a side effect of running the # command without a tty (ie, without the -tt argument to # ssh). We require this behavior so that if a job runs a # command which expects interactive input on a tty (such # as sudo) it does not hang. config.write('pipelining = True\n') config.write('control_path_dir = %s\n' % self.jobdir.control_path) ssh_args = "-o ControlMaster=auto -o ControlPersist=60s " \ "-o ServerAliveInterval=60 " \ "-o UserKnownHostsFile=%s" % self.jobdir.known_hosts config.write('ssh_args = %s\n' % ssh_args) def _ansibleTimeout(self, msg): self.log.warning(msg) self.abortRunningProc() def abortRunningProc(self): with self.proc_lock: if not self.proc: self.log.debug("Abort: no process is running") return self.log.debug("Abort: sending kill signal to job " "process group") try: pgid = os.getpgid(self.proc.pid) os.killpg(pgid, signal.SIGKILL) except Exception: self.log.exception("Exception while killing ansible process:") def runAnsible(self, cmd, timeout, playbook, wrapped=True): config_file = playbook.ansible_config env_copy = os.environ.copy() env_copy.update(self.ssh_agent.env) if ara_callbacks: env_copy['ARA_LOG_CONFIG'] = self.jobdir.logging_json env_copy['ZUUL_JOB_LOG_CONFIG'] = self.jobdir.logging_json env_copy['ZUUL_JOBDIR'] = self.jobdir.root env_copy['TMP'] = self.jobdir.local_tmp pythonpath = env_copy.get('PYTHONPATH') if pythonpath: pythonpath = [pythonpath] else: pythonpath = [] pythonpath = [self.executor_server.ansible_dir] + pythonpath env_copy['PYTHONPATH'] = os.path.pathsep.join(pythonpath) if playbook.trusted: opt_prefix = 'trusted' else: opt_prefix = 'untrusted' ro_paths = get_default(self.executor_server.config, 'executor', '%s_ro_paths' % opt_prefix) rw_paths = get_default(self.executor_server.config, 'executor', '%s_rw_paths' % opt_prefix) ro_paths = ro_paths.split(":") if ro_paths else [] rw_paths = rw_paths.split(":") if rw_paths else [] ro_paths.append(self.executor_server.ansible_dir) ro_paths.append(self.jobdir.ansible_root) ro_paths.append(self.jobdir.trusted_root) ro_paths.append(self.jobdir.untrusted_root) ro_paths.append(playbook.root) rw_paths.append(self.jobdir.ansible_cache_root) if self.executor_variables_file: ro_paths.append(self.executor_variables_file) secrets = {} if playbook.secrets_content: secrets[playbook.secrets] = playbook.secrets_content if wrapped: wrapper = self.executor_server.execution_wrapper else: wrapper = self.executor_server.connections.drivers['nullwrap'] context = wrapper.getExecutionContext(ro_paths, rw_paths, secrets) popen = context.getPopen( work_dir=self.jobdir.work_root, ssh_auth_sock=env_copy.get('SSH_AUTH_SOCK')) env_copy['ANSIBLE_CONFIG'] = config_file # NOTE(pabelanger): Default HOME variable to jobdir.work_root, as it is # possible we don't bind mount current zuul user home directory. env_copy['HOME'] = self.jobdir.work_root with self.proc_lock: if self.aborted: return (self.RESULT_ABORTED, None) self.log.debug("Ansible command: ANSIBLE_CONFIG=%s %s", config_file, " ".join(shlex.quote(c) for c in cmd)) self.proc = popen( cmd, cwd=self.jobdir.work_root, stdin=subprocess.DEVNULL, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, preexec_fn=os.setsid, env=env_copy, ) syntax_buffer = [] ret = None if timeout: watchdog = Watchdog(timeout, self._ansibleTimeout, ("Ansible timeout exceeded: %s" % timeout,)) watchdog.start() try: # Use manual idx instead of enumerate so that RESULT lines # don't count towards BUFFER_LINES_FOR_SYNTAX idx = 0 for line in iter(self.proc.stdout.readline, b''): if line.startswith(b'RESULT'): # TODO(mordred) Process result commands if sent continue else: idx += 1 if idx < BUFFER_LINES_FOR_SYNTAX: syntax_buffer.append(line) line = line[:1024].rstrip() self.log.debug("Ansible output: %s" % (line,)) self.log.debug("Ansible output terminated") cpu_times = self.proc.cpu_times() self.log.debug("Ansible cpu times: user=%.2f, system=%.2f, " "children_user=%.2f, " "children_system=%.2f" % (cpu_times.user, cpu_times.system, cpu_times.children_user, cpu_times.children_system)) self.cpu_times['user'] += cpu_times.user self.cpu_times['system'] += cpu_times.system self.cpu_times['children_user'] += cpu_times.children_user self.cpu_times['children_system'] += cpu_times.children_system ret = self.proc.wait() self.log.debug("Ansible exit code: %s" % (ret,)) finally: if timeout: watchdog.stop() self.log.debug("Stopped watchdog") self.log.debug("Stopped disk job killer") with self.proc_lock: self.proc.stdout.close() self.proc = None if timeout and watchdog.timed_out: return (self.RESULT_TIMED_OUT, None) # Note: Unlike documented ansible currently wrongly returns 4 on # unreachable so we have the zuul_unreachable callback module that # creates the file job-output.unreachable in case there were # unreachable nodes. This can be removed once ansible returns a # distinct value for unreachable. if ret == 3 or os.path.exists(self.jobdir.job_unreachable_file): # AnsibleHostUnreachable: We had a network issue connecting to # our zuul-worker. return (self.RESULT_UNREACHABLE, None) elif ret == -9: # Received abort request. return (self.RESULT_ABORTED, None) elif ret == 1: with open(self.jobdir.job_output_file, 'a') as job_output: found_marker = False for line in syntax_buffer: if line.startswith(b'ERROR!'): found_marker = True if not found_marker: continue job_output.write("{now} | {line}\n".format( now=datetime.datetime.now(), line=line.decode('utf-8').rstrip())) elif ret == 4: # Ansible could not parse the yaml. self.log.debug("Ansible parse error") # TODO(mordred) If/when we rework use of logger in ansible-playbook # we'll want to change how this works to use that as well. For now, # this is what we need to do. # TODO(mordred) We probably want to put this into the json output # as well. with open(self.jobdir.job_output_file, 'a') as job_output: job_output.write("{now} | ANSIBLE PARSE ERROR\n".format( now=datetime.datetime.now())) for line in syntax_buffer: job_output.write("{now} | {line}\n".format( now=datetime.datetime.now(), line=line.decode('utf-8').rstrip())) elif ret == 250: # Unexpected error from ansible with open(self.jobdir.job_output_file, 'a') as job_output: job_output.write("{now} | UNEXPECTED ANSIBLE ERROR\n".format( now=datetime.datetime.now())) found_marker = False for line in syntax_buffer: if line.startswith(b'ERROR! Unexpected Exception'): found_marker = True if not found_marker: continue job_output.write("{now} | {line}\n".format( now=datetime.datetime.now(), line=line.decode('utf-8').rstrip())) elif ret == 2: with open(self.jobdir.job_output_file, 'a') as job_output: found_marker = False for line in syntax_buffer: # This is a workaround to detect winrm connection failures # that are not detected by ansible. These can be detected # if the string 'FATAL ERROR DURING FILE TRANSFER' is in # the ansible output. In this case we should treat the # host as unreachable and retry the job. if b'FATAL ERROR DURING FILE TRANSFER' in line: return self.RESULT_UNREACHABLE, None # Extract errors for special cases that are treated like # task errors by Ansible (e.g. missing role when using # 'include_role'). if line.startswith(b'ERROR!'): found_marker = True if not found_marker: continue job_output.write("{now} | {line}\n".format( now=datetime.datetime.now(), line=line.decode('utf-8').rstrip())) return (self.RESULT_NORMAL, ret) def runAnsibleSetup(self, playbook): if self.executor_server.verbose: verbose = '-vvv' else: verbose = '-v' cmd = ['ansible', '*', verbose, '-m', 'setup', '-i', self.jobdir.setup_inventory, '-a', 'gather_subset=!all'] if self.executor_variables_file is not None: cmd.extend(['-e@%s' % self.executor_variables_file]) result, code = self.runAnsible( cmd=cmd, timeout=self.executor_server.setup_timeout, playbook=playbook, wrapped=False) self.log.debug("Ansible complete, result %s code %s" % ( self.RESULT_MAP[result], code)) if self.executor_server.statsd: base_key = "zuul.executor.{hostname}.phase.setup" self.executor_server.statsd.incr(base_key + ".%s" % self.RESULT_MAP[result]) return result, code def runAnsibleCleanup(self, playbook): # TODO(jeblair): This requires a bugfix in Ansible 2.4 # Once this is used, increase the controlpersist timeout. return (self.RESULT_NORMAL, 0) if self.executor_server.verbose: verbose = '-vvv' else: verbose = '-v' cmd = ['ansible', '*', verbose, '-m', 'meta', '-a', 'reset_connection'] result, code = self.runAnsible( cmd=cmd, timeout=60, playbook=playbook, wrapped=False) self.log.debug("Ansible complete, result %s code %s" % ( self.RESULT_MAP[result], code)) if self.executor_server.statsd: base_key = "zuul.executor.{hostname}.phase.cleanup" self.executor_server.statsd.incr(base_key + ".%s" % self.RESULT_MAP[result]) return result, code def emitPlaybookBanner(self, playbook, step, phase, result=None): # This is used to print a header and a footer, respectively at the # beginning and the end of each playbook execution. # We are doing it from the executor rather than from a callback because # the parameters are not made available to the callback until it's too # late. phase = phase or '' trusted = playbook.trusted trusted = 'trusted' if trusted else 'untrusted' branch = playbook.branch playbook = playbook.canonical_name_and_path if phase and phase != 'run': phase = '{phase}-run'.format(phase=phase) phase = phase.upper() if result is not None: result = self.RESULT_MAP[result] msg = "{phase} {step} {result}: [{trusted} : {playbook}@{branch}]" msg = msg.format(phase=phase, step=step, result=result, trusted=trusted, playbook=playbook, branch=branch) else: msg = "{phase} {step}: [{trusted} : {playbook}@{branch}]" msg = msg.format(phase=phase, step=step, trusted=trusted, playbook=playbook, branch=branch) with open(self.jobdir.job_output_file, 'a') as job_output: job_output.write("{now} | {msg}\n".format( now=datetime.datetime.now(), msg=msg)) def runAnsiblePlaybook(self, playbook, timeout, success=None, phase=None, index=None): if self.executor_server.verbose: verbose = '-vvv' else: verbose = '-v' cmd = ['ansible-playbook', verbose, playbook.path] if playbook.secrets_content: cmd.extend(['-e', '@' + playbook.secrets]) cmd.extend(['-e', '@' + self.jobdir.extra_vars]) if success is not None: cmd.extend(['-e', 'zuul_success=%s' % str(bool(success))]) if phase: cmd.extend(['-e', 'zuul_execution_phase=%s' % phase]) if index is not None: cmd.extend(['-e', 'zuul_execution_phase_index=%s' % index]) cmd.extend(['-e', 'zuul_execution_trusted=%s' % str(playbook.trusted)]) cmd.extend([ '-e', 'zuul_execution_canonical_name_and_path=%s' % playbook.canonical_name_and_path]) cmd.extend(['-e', 'zuul_execution_branch=%s' % str(playbook.branch)]) if self.executor_variables_file is not None: cmd.extend(['-e@%s' % self.executor_variables_file]) self.emitPlaybookBanner(playbook, 'START', phase) result, code = self.runAnsible( cmd=cmd, timeout=timeout, playbook=playbook) self.log.debug("Ansible complete, result %s code %s" % ( self.RESULT_MAP[result], code)) if self.executor_server.statsd: base_key = "zuul.executor.{hostname}.phase.{phase}" self.executor_server.statsd.incr( base_key + ".{result}", result=self.RESULT_MAP[result], phase=phase or 'unknown') self.emitPlaybookBanner(playbook, 'END', phase, result=result) return result, code class ExecutorMergeWorker(gear.TextWorker): def __init__(self, executor_server, *args, **kw): self.zuul_executor_server = executor_server super(ExecutorMergeWorker, self).__init__(*args, **kw) def handleNoop(self, packet): # Wait until the update queue is empty before responding while self.zuul_executor_server.update_queue.qsize(): time.sleep(1) with self.zuul_executor_server.merger_lock: super(ExecutorMergeWorker, self).handleNoop(packet) class ExecutorExecuteWorker(gear.TextWorker): def __init__(self, executor_server, *args, **kw): self.zuul_executor_server = executor_server super(ExecutorExecuteWorker, self).__init__(*args, **kw) def handleNoop(self, packet): # Delay our response to running a new job based on the number # of jobs we're currently running, in an attempt to spread # load evenly among executors. workers = len(self.zuul_executor_server.job_workers) delay = (workers ** 2) / 1000.0 time.sleep(delay) return super(ExecutorExecuteWorker, self).handleNoop(packet) class ExecutorServer(object): log = logging.getLogger("zuul.ExecutorServer") _job_class = AnsibleJob def __init__(self, config, connections={}, jobdir_root=None, keep_jobdir=False, log_streaming_port=DEFAULT_FINGER_PORT): self.config = config self.keep_jobdir = keep_jobdir self.jobdir_root = jobdir_root # TODOv3(mordred): make the executor name more unique -- # perhaps hostname+pid. self.hostname = get_default(self.config, 'executor', 'hostname', socket.getfqdn()) self.log_streaming_port = log_streaming_port self.merger_lock = threading.Lock() self.governor_lock = threading.Lock() self.run_lock = threading.Lock() self.verbose = False self.command_map = dict( stop=self.stop, pause=self.pause, unpause=self.unpause, graceful=self.graceful, verbose=self.verboseOn, unverbose=self.verboseOff, keep=self.keep, nokeep=self.nokeep, ) statsd_extra_keys = {'hostname': self.hostname} self.statsd = get_statsd(config, statsd_extra_keys) self.merge_root = get_default(self.config, 'executor', 'git_dir', '/var/lib/zuul/executor-git') self.default_username = get_default(self.config, 'executor', 'default_username', 'zuul') self.disk_limit_per_job = int(get_default(self.config, 'executor', 'disk_limit_per_job', 250)) self.setup_timeout = int(get_default(self.config, 'executor', 'ansible_setup_timeout', 60)) self.zone = get_default(self.config, 'executor', 'zone') self.merge_email = get_default(self.config, 'merger', 'git_user_email') self.merge_name = get_default(self.config, 'merger', 'git_user_name') self.merge_speed_limit = get_default( config, 'merger', 'git_http_low_speed_limit', '1000') self.merge_speed_time = get_default( config, 'merger', 'git_http_low_speed_time', '30') self.git_timeout = get_default(config, 'merger', 'git_timeout', 300) # If the execution driver ever becomes configurable again, # this is where it would happen. execution_wrapper_name = 'bubblewrap' self.accepting_work = False self.execution_wrapper = connections.drivers[execution_wrapper_name] self.connections = connections # This merger and its git repos are used to maintain # up-to-date copies of all the repos that are used by jobs, as # well as to support the merger:cat functon to supply # configuration information to Zuul when it starts. self.merger = self._getMerger(self.merge_root, None) self.update_queue = DeduplicateQueue() command_socket = get_default( self.config, 'executor', 'command_socket', '/var/lib/zuul/executor.socket') self.command_socket = commandsocket.CommandSocket(command_socket) state_dir = get_default(self.config, 'executor', 'state_dir', '/var/lib/zuul', expand_user=True) ansible_dir = os.path.join(state_dir, 'ansible') self.ansible_dir = ansible_dir if os.path.exists(ansible_dir): shutil.rmtree(ansible_dir) zuul_dir = os.path.join(ansible_dir, 'zuul') plugin_dir = os.path.join(zuul_dir, 'ansible') os.makedirs(plugin_dir, mode=0o0755) self.library_dir = os.path.join(plugin_dir, 'library') self.action_dir = os.path.join(plugin_dir, 'action') self.action_dir_general = os.path.join(plugin_dir, 'actiongeneral') self.callback_dir = os.path.join(plugin_dir, 'callback') self.lookup_dir = os.path.join(plugin_dir, 'lookup') self.filter_dir = os.path.join(plugin_dir, 'filter') _copy_ansible_files(zuul.ansible, plugin_dir) # We're copying zuul.ansible.* into a directory we are going # to add to pythonpath, so our plugins can "import # zuul.ansible". But we're not installing all of zuul, so # create a __init__.py file for the stub "zuul" module. with open(os.path.join(zuul_dir, '__init__.py'), 'w'): pass # If keep is not set, ensure the job dir is empty on startup, # in case we were uncleanly shut down. if not self.keep_jobdir: for fn in os.listdir(self.jobdir_root): if not os.path.isdir(fn): continue self.log.info("Deleting stale jobdir %s", fn) shutil.rmtree(os.path.join(self.jobdir_root, fn)) self.job_workers = {} self.disk_accountant = DiskAccountant(self.jobdir_root, self.disk_limit_per_job, self.stopJobDiskFull, self.merge_root) self.pause_sensor = PauseSensor() cpu_sensor = CPUSensor(config) self.sensors = [ cpu_sensor, HDDSensor(config), self.pause_sensor, RAMSensor(config), StartingBuildsSensor(self, cpu_sensor.max_load_avg) ] def _getMerger(self, root, cache_root, logger=None): return zuul.merger.merger.Merger( root, self.connections, self.merge_email, self.merge_name, self.merge_speed_limit, self.merge_speed_time, cache_root, logger, execution_context=True, git_timeout=self.git_timeout) def start(self): self._running = True self._command_running = True server = self.config.get('gearman', 'server') port = get_default(self.config, 'gearman', 'port', 4730) ssl_key = get_default(self.config, 'gearman', 'ssl_key') ssl_cert = get_default(self.config, 'gearman', 'ssl_cert') ssl_ca = get_default(self.config, 'gearman', 'ssl_ca') self.merger_worker = ExecutorMergeWorker(self, 'Zuul Executor Merger') self.merger_worker.addServer(server, port, ssl_key, ssl_cert, ssl_ca, keepalive=True, tcp_keepidle=60, tcp_keepintvl=30, tcp_keepcnt=5) self.executor_worker = ExecutorExecuteWorker( self, 'Zuul Executor Server') self.executor_worker.addServer(server, port, ssl_key, ssl_cert, ssl_ca, keepalive=True, tcp_keepidle=60, tcp_keepintvl=30, tcp_keepcnt=5) self.log.debug("Waiting for server") self.merger_worker.waitForServer() self.executor_worker.waitForServer() self.log.debug("Registering") self.register() 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.log.debug("Starting worker") self.update_thread = threading.Thread(target=self._updateLoop, name='update') self.update_thread.daemon = True self.update_thread.start() self.merger_thread = threading.Thread(target=self.run_merger, name='merger') self.merger_thread.daemon = True self.merger_thread.start() self.executor_thread = threading.Thread(target=self.run_executor, name='executor') self.executor_thread.daemon = True self.executor_thread.start() self.governor_stop_event = threading.Event() self.governor_thread = threading.Thread(target=self.run_governor, name='governor') self.governor_thread.daemon = True self.governor_thread.start() self.disk_accountant.start() def register(self): self.register_work() self.executor_worker.registerFunction("executor:resume:%s" % self.hostname) self.executor_worker.registerFunction("executor:stop:%s" % self.hostname) self.merger_worker.registerFunction("merger:merge") self.merger_worker.registerFunction("merger:cat") self.merger_worker.registerFunction("merger:refstate") self.merger_worker.registerFunction("merger:fileschanges") def register_work(self): if self._running: self.accepting_work = True function_name = 'executor:execute' if self.zone: function_name += ':%s' % self.zone self.executor_worker.registerFunction(function_name) # TODO(jeblair): Update geard to send a noop after # registering for a job which is in the queue, then remove # this API violation. self.executor_worker._sendGrabJobUniq() def unregister_work(self): self.accepting_work = False function_name = 'executor:execute' if self.zone: function_name += ':%s' % self.zone self.executor_worker.unRegisterFunction(function_name) def stop(self): self.log.debug("Stopping") self.disk_accountant.stop() # The governor can change function registration, so make sure # it has stopped. self.governor_stop_event.set() self.governor_thread.join() # Stop accepting new jobs self.merger_worker.setFunctions([]) self.executor_worker.setFunctions([]) # Tell the executor worker to abort any jobs it just accepted, # and grab the list of currently running job workers. with self.run_lock: self._running = False self._command_running = False workers = list(self.job_workers.values()) for job_worker in workers: try: job_worker.stop() except Exception: self.log.exception("Exception sending stop command " "to worker:") for job_worker in workers: try: job_worker.wait() except Exception: self.log.exception("Exception waiting for worker " "to stop:") # Now that we aren't accepting any new jobs, and all of the # running jobs have stopped, tell the update processor to # stop. self.update_queue.put(None) # All job results should have been sent by now, shutdown the # gearman workers. self.merger_worker.shutdown() self.executor_worker.shutdown() if self.statsd: base_key = 'zuul.executor.{hostname}' self.statsd.gauge(base_key + '.load_average', 0) self.statsd.gauge(base_key + '.pct_used_ram', 0) self.statsd.gauge(base_key + '.running_builds', 0) self.command_socket.stop() self.log.debug("Stopped") def join(self): self.governor_thread.join() self.update_thread.join() self.merger_thread.join() self.executor_thread.join() def pause(self): self.pause_sensor.pause = True def unpause(self): self.pause_sensor.pause = False def graceful(self): # TODOv3: implement pass def verboseOn(self): self.verbose = True def verboseOff(self): self.verbose = False def keep(self): self.keep_jobdir = True def nokeep(self): self.keep_jobdir = False 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 _updateLoop(self): while True: try: self._innerUpdateLoop() except StopException: return except Exception: self.log.exception("Exception in update thread:") def _innerUpdateLoop(self): # Inside of a loop that keeps the main repositories up to date task = self.update_queue.get() if task is None: # We are asked to stop raise StopException() try: with self.merger_lock: self.log.info("Updating repo %s/%s", task.connection_name, task.project_name) self.merger.updateRepo(task.connection_name, task.project_name) repo = self.merger.getRepo( task.connection_name, task.project_name) source = self.connections.getSource(task.connection_name) project = source.getProject(task.project_name) task.canonical_name = project.canonical_name task.branches = repo.getBranches() task.refs = [r.name for r in repo.getRefs()] self.log.debug("Finished updating repo %s/%s", task.connection_name, task.project_name) task.success = True except Exception: self.log.exception('Got exception while updating repo %s/%s', task.connection_name, task.project_name) finally: task.setComplete() def update(self, connection_name, project_name): # Update a repository in the main merger task = UpdateTask(connection_name, project_name) task = self.update_queue.put(task) return task def run_merger(self): self.log.debug("Starting merger listener") while self._running: try: job = self.merger_worker.getJob() try: self.mergerJobDispatch(job) except Exception: self.log.exception("Exception while running job") job.sendWorkException( traceback.format_exc().encode('utf8')) except gear.InterruptedError: pass except Exception: self.log.exception("Exception while getting job") def mergerJobDispatch(self, job): if job.name == 'merger:cat': self.log.debug("Got cat job: %s" % job.unique) self.cat(job) elif job.name == 'merger:merge': self.log.debug("Got merge job: %s" % job.unique) self.merge(job) elif job.name == 'merger:refstate': self.log.debug("Got refstate job: %s" % job.unique) self.refstate(job) elif job.name == 'merger:fileschanges': self.log.debug("Got fileschanges job: %s" % job.unique) self.fileschanges(job) else: self.log.error("Unable to handle job %s" % job.name) job.sendWorkFail() def run_executor(self): self.log.debug("Starting executor listener") while self._running: try: job = self.executor_worker.getJob() try: self.executorJobDispatch(job) except Exception: self.log.exception("Exception while running job") job.sendWorkException( traceback.format_exc().encode('utf8')) except gear.InterruptedError: pass except Exception: self.log.exception("Exception while getting job") def executorJobDispatch(self, job): with self.run_lock: if not self._running: job.sendWorkFail() return function_name = 'executor:execute' if self.zone: function_name += ':%s' % self.zone if job.name == (function_name): self.log.debug("Got %s job: %s" % (function_name, job.unique)) self.executeJob(job) elif job.name.startswith('executor:resume'): self.log.debug("Got resume job: %s" % job.unique) self.resumeJob(job) elif job.name.startswith('executor:stop'): self.log.debug("Got stop job: %s" % job.unique) self.stopJob(job) else: self.log.error("Unable to handle job %s" % job.name) job.sendWorkFail() def executeJob(self, job): if self.statsd: base_key = 'zuul.executor.{hostname}' self.statsd.incr(base_key + '.builds') self.job_workers[job.unique] = self._job_class(self, job) # Run manageLoad before starting the thread mostly for the # benefit of the unit tests to make the calculation of the # number of starting jobs more deterministic. self.manageLoad() self.job_workers[job.unique].run() def run_governor(self): while not self.governor_stop_event.wait(10): try: self.manageLoad() except Exception: self.log.exception("Exception in governor thread:") def manageLoad(self): ''' Apply some heuristics to decide whether or not we should be asking for more jobs ''' with self.governor_lock: return self._manageLoad() def _manageLoad(self): if self.accepting_work: # Don't unregister if we don't have any active jobs. for sensor in self.sensors: ok, message = sensor.isOk() if not ok: self.log.info( "Unregistering due to {}".format(message)) self.unregister_work() break else: reregister = True limits = [] for sensor in self.sensors: ok, message = sensor.isOk() limits.append(message) if not ok: reregister = False break if reregister: self.log.info("Re-registering as job is within its limits " "{}".format(", ".join(limits))) self.register_work() if self.statsd: base_key = 'zuul.executor.{hostname}' for sensor in self.sensors: sensor.reportStats(self.statsd, base_key) def finishJob(self, unique): del(self.job_workers[unique]) def stopJobDiskFull(self, jobdir): unique = os.path.basename(jobdir) self.stopJobByUnique(unique, reason=AnsibleJob.RESULT_DISK_FULL) def resumeJob(self, job): try: args = json.loads(job.arguments) self.log.debug("Resume job with arguments: %s" % (args,)) unique = args['uuid'] self.resumeJobByUnique(unique) finally: job.sendWorkComplete() def stopJob(self, job): try: args = json.loads(job.arguments) self.log.debug("Stop job with arguments: %s" % (args,)) unique = args['uuid'] self.stopJobByUnique(unique) finally: job.sendWorkComplete() def resumeJobByUnique(self, unique): job_worker = self.job_workers.get(unique) if not job_worker: self.log.debug("Unable to find worker for job %s" % (unique,)) return try: job_worker.resume() except Exception: self.log.exception("Exception sending resume command " "to worker:") def stopJobByUnique(self, unique, reason=None): job_worker = self.job_workers.get(unique) if not job_worker: self.log.debug("Unable to find worker for job %s" % (unique,)) return try: job_worker.stop(reason) except Exception: self.log.exception("Exception sending stop command " "to worker:") def cat(self, job): args = json.loads(job.arguments) task = self.update(args['connection'], args['project']) task.wait() with self.merger_lock: files = self.merger.getFiles(args['connection'], args['project'], args['branch'], args['files'], args.get('dirs', [])) result = dict(updated=True, files=files) job.sendWorkComplete(json.dumps(result)) def fileschanges(self, job): args = json.loads(job.arguments) task = self.update(args['connection'], args['project']) task.wait() with self.merger_lock: files = self.merger.getFilesChanges( args['connection'], args['project'], args['branch'], args['tosha']) result = dict(updated=True, files=files) job.sendWorkComplete(json.dumps(result)) def refstate(self, job): args = json.loads(job.arguments) with self.merger_lock: success, repo_state = self.merger.getRepoState(args['items']) result = dict(updated=success, repo_state=repo_state) job.sendWorkComplete(json.dumps(result)) def merge(self, job): args = json.loads(job.arguments) with self.merger_lock: ret = self.merger.mergeChanges(args['items'], args.get('files'), args.get('dirs', []), args.get('repo_state')) result = dict(merged=(ret is not None)) if ret is None: result['commit'] = result['files'] = result['repo_state'] = None else: (result['commit'], result['files'], result['repo_state'], recent, orig_commit) = ret job.sendWorkComplete(json.dumps(result))