| # pylint: disable-msg=C0111 |
| |
| """Database model classes for the scheduler. |
| |
| Contains model classes abstracting the various DB tables used by the scheduler. |
| These overlap the Django models in basic functionality, but were written before |
| the Django models existed and have not yet been phased out. Some of them |
| (particularly HostQueueEntry and Job) have considerable scheduler-specific logic |
| which would probably be ill-suited for inclusion in the general Django model |
| classes. |
| |
| Globals: |
| _notify_email_statuses: list of HQE statuses. each time a single HQE reaches |
| one of these statuses, an email will be sent to the job's email_list. |
| comes from global_config. |
| _base_url: URL to the local AFE server, used to construct URLs for emails. |
| _db: DatabaseConnection for this module. |
| _drone_manager: reference to global DroneManager instance. |
| """ |
| |
| import datetime, itertools, logging, os, re, sys, time, weakref |
| from autotest_lib.client.common_lib import global_config, host_protections |
| from autotest_lib.client.common_lib import utils |
| from autotest_lib.client.common_lib import control_data |
| from autotest_lib.client.common_lib.cros.graphite import stats |
| from autotest_lib.frontend.afe import models, model_attributes |
| from autotest_lib.scheduler import drone_manager, email_manager |
| from autotest_lib.scheduler import rdb_lib |
| from autotest_lib.scheduler import scheduler_config |
| from autotest_lib.scheduler import scheduler_lib |
| from autotest_lib.server.cros import provision |
| |
| |
| _notify_email_statuses = [] |
| _base_url = None |
| |
| _db = None |
| _drone_manager = None |
| |
| def initialize(): |
| global _db |
| _db = scheduler_lib.ConnectionManager().get_connection() |
| |
| notify_statuses_list = global_config.global_config.get_config_value( |
| scheduler_config.CONFIG_SECTION, "notify_email_statuses", |
| default='') |
| global _notify_email_statuses |
| _notify_email_statuses = [status for status in |
| re.split(r'[\s,;:]', notify_statuses_list.lower()) |
| if status] |
| |
| # AUTOTEST_WEB.base_url is still a supported config option as some people |
| # may wish to override the entire url. |
| global _base_url |
| config_base_url = global_config.global_config.get_config_value( |
| scheduler_config.CONFIG_SECTION, 'base_url', default='') |
| if config_base_url: |
| _base_url = config_base_url |
| else: |
| # For the common case of everything running on a single server you |
| # can just set the hostname in a single place in the config file. |
| server_name = global_config.global_config.get_config_value( |
| 'SERVER', 'hostname') |
| if not server_name: |
| logging.critical('[SERVER] hostname missing from the config file.') |
| sys.exit(1) |
| _base_url = 'http://%s/afe/' % server_name |
| |
| initialize_globals() |
| |
| |
| def initialize_globals(): |
| global _drone_manager |
| _drone_manager = drone_manager.instance() |
| |
| |
| class DelayedCallTask(object): |
| """ |
| A task object like AgentTask for an Agent to run that waits for the |
| specified amount of time to have elapsed before calling the supplied |
| callback once and finishing. If the callback returns anything, it is |
| assumed to be a new Agent instance and will be added to the dispatcher. |
| |
| @attribute end_time: The absolute posix time after which this task will |
| call its callback when it is polled and be finished. |
| |
| Also has all attributes required by the Agent class. |
| """ |
| def __init__(self, delay_seconds, callback, now_func=None): |
| """ |
| @param delay_seconds: The delay in seconds from now that this task |
| will call the supplied callback and be done. |
| @param callback: A callable to be called by this task once after at |
| least delay_seconds time has elapsed. It must return None |
| or a new Agent instance. |
| @param now_func: A time.time like function. Default: time.time. |
| Used for testing. |
| """ |
| assert delay_seconds > 0 |
| assert callable(callback) |
| if not now_func: |
| now_func = time.time |
| self._now_func = now_func |
| self._callback = callback |
| |
| self.end_time = self._now_func() + delay_seconds |
| |
| # These attributes are required by Agent. |
| self.aborted = False |
| self.host_ids = () |
| self.success = False |
| self.queue_entry_ids = () |
| self.num_processes = 0 |
| |
| |
| def poll(self): |
| if not self.is_done() and self._now_func() >= self.end_time: |
| self._callback() |
| self.success = True |
| |
| |
| def is_done(self): |
| return self.success or self.aborted |
| |
| |
| def abort(self): |
| self.aborted = True |
| |
| |
| class DBError(Exception): |
| """Raised by the DBObject constructor when its select fails.""" |
| |
| |
| class DBObject(object): |
| """A miniature object relational model for the database.""" |
| |
| # Subclasses MUST override these: |
| _table_name = '' |
| _fields = () |
| |
| # A mapping from (type, id) to the instance of the object for that |
| # particular id. This prevents us from creating new Job() and Host() |
| # instances for every HostQueueEntry object that we instantiate as |
| # multiple HQEs often share the same Job. |
| _instances_by_type_and_id = weakref.WeakValueDictionary() |
| _initialized = False |
| |
| |
| def __new__(cls, id=None, **kwargs): |
| """ |
| Look to see if we already have an instance for this particular type |
| and id. If so, use it instead of creating a duplicate instance. |
| """ |
| if id is not None: |
| instance = cls._instances_by_type_and_id.get((cls, id)) |
| if instance: |
| return instance |
| return super(DBObject, cls).__new__(cls, id=id, **kwargs) |
| |
| |
| def __init__(self, id=None, row=None, new_record=False, always_query=True): |
| assert bool(id) or bool(row) |
| if id is not None and row is not None: |
| assert id == row[0] |
| assert self._table_name, '_table_name must be defined in your class' |
| assert self._fields, '_fields must be defined in your class' |
| if not new_record: |
| if self._initialized and not always_query: |
| return # We've already been initialized. |
| if id is None: |
| id = row[0] |
| # Tell future constructors to use us instead of re-querying while |
| # this instance is still around. |
| self._instances_by_type_and_id[(type(self), id)] = self |
| |
| self.__table = self._table_name |
| |
| self.__new_record = new_record |
| |
| if row is None: |
| row = self._fetch_row_from_db(id) |
| |
| if self._initialized: |
| differences = self._compare_fields_in_row(row) |
| if differences: |
| logging.warning( |
| 'initialized %s %s instance requery is updating: %s', |
| type(self), self.id, differences) |
| self._update_fields_from_row(row) |
| self._initialized = True |
| |
| |
| @classmethod |
| def _clear_instance_cache(cls): |
| """Used for testing, clear the internal instance cache.""" |
| cls._instances_by_type_and_id.clear() |
| |
| |
| def _fetch_row_from_db(self, row_id): |
| sql = 'SELECT * FROM %s WHERE ID=%%s' % self.__table |
| rows = _db.execute(sql, (row_id,)) |
| if not rows: |
| raise DBError("row not found (table=%s, row id=%s)" |
| % (self.__table, row_id)) |
| return rows[0] |
| |
| |
| def _assert_row_length(self, row): |
| assert len(row) == len(self._fields), ( |
| "table = %s, row = %s/%d, fields = %s/%d" % ( |
| self.__table, row, len(row), self._fields, len(self._fields))) |
| |
| |
| def _compare_fields_in_row(self, row): |
| """ |
| Given a row as returned by a SELECT query, compare it to our existing in |
| memory fields. Fractional seconds are stripped from datetime values |
| before comparison. |
| |
| @param row - A sequence of values corresponding to fields named in |
| The class attribute _fields. |
| |
| @returns A dictionary listing the differences keyed by field name |
| containing tuples of (current_value, row_value). |
| """ |
| self._assert_row_length(row) |
| differences = {} |
| datetime_cmp_fmt = '%Y-%m-%d %H:%M:%S' # Leave off the microseconds. |
| for field, row_value in itertools.izip(self._fields, row): |
| current_value = getattr(self, field) |
| if (isinstance(current_value, datetime.datetime) |
| and isinstance(row_value, datetime.datetime)): |
| current_value = current_value.strftime(datetime_cmp_fmt) |
| row_value = row_value.strftime(datetime_cmp_fmt) |
| if current_value != row_value: |
| differences[field] = (current_value, row_value) |
| return differences |
| |
| |
| def _update_fields_from_row(self, row): |
| """ |
| Update our field attributes using a single row returned by SELECT. |
| |
| @param row - A sequence of values corresponding to fields named in |
| the class fields list. |
| """ |
| self._assert_row_length(row) |
| |
| self._valid_fields = set() |
| for field, value in itertools.izip(self._fields, row): |
| setattr(self, field, value) |
| self._valid_fields.add(field) |
| |
| self._valid_fields.remove('id') |
| |
| |
| def update_from_database(self): |
| assert self.id is not None |
| row = self._fetch_row_from_db(self.id) |
| self._update_fields_from_row(row) |
| |
| |
| def count(self, where, table = None): |
| if not table: |
| table = self.__table |
| |
| rows = _db.execute(""" |
| SELECT count(*) FROM %s |
| WHERE %s |
| """ % (table, where)) |
| |
| assert len(rows) == 1 |
| |
| return int(rows[0][0]) |
| |
| |
| def update_field(self, field, value): |
| assert field in self._valid_fields |
| |
| if getattr(self, field) == value: |
| return |
| |
| query = "UPDATE %s SET %s = %%s WHERE id = %%s" % (self.__table, field) |
| _db.execute(query, (value, self.id)) |
| |
| setattr(self, field, value) |
| |
| |
| def save(self): |
| if self.__new_record: |
| keys = self._fields[1:] # avoid id |
| columns = ','.join([str(key) for key in keys]) |
| values = [] |
| for key in keys: |
| value = getattr(self, key) |
| if value is None: |
| values.append('NULL') |
| else: |
| values.append('"%s"' % value) |
| values_str = ','.join(values) |
| query = ('INSERT INTO %s (%s) VALUES (%s)' % |
| (self.__table, columns, values_str)) |
| _db.execute(query) |
| # Update our id to the one the database just assigned to us. |
| self.id = _db.execute('SELECT LAST_INSERT_ID()')[0][0] |
| |
| |
| def delete(self): |
| self._instances_by_type_and_id.pop((type(self), id), None) |
| self._initialized = False |
| self._valid_fields.clear() |
| query = 'DELETE FROM %s WHERE id=%%s' % self.__table |
| _db.execute(query, (self.id,)) |
| |
| |
| @staticmethod |
| def _prefix_with(string, prefix): |
| if string: |
| string = prefix + string |
| return string |
| |
| |
| @classmethod |
| def fetch(cls, where='', params=(), joins='', order_by=''): |
| """ |
| Construct instances of our class based on the given database query. |
| |
| @yields One class instance for each row fetched. |
| """ |
| order_by = cls._prefix_with(order_by, 'ORDER BY ') |
| where = cls._prefix_with(where, 'WHERE ') |
| query = ('SELECT %(table)s.* FROM %(table)s %(joins)s ' |
| '%(where)s %(order_by)s' % {'table' : cls._table_name, |
| 'joins' : joins, |
| 'where' : where, |
| 'order_by' : order_by}) |
| rows = _db.execute(query, params) |
| return [cls(id=row[0], row=row) for row in rows] |
| |
| |
| class IneligibleHostQueue(DBObject): |
| _table_name = 'afe_ineligible_host_queues' |
| _fields = ('id', 'job_id', 'host_id') |
| |
| |
| class AtomicGroup(DBObject): |
| _table_name = 'afe_atomic_groups' |
| _fields = ('id', 'name', 'description', 'max_number_of_machines', |
| 'invalid') |
| |
| |
| class Label(DBObject): |
| _table_name = 'afe_labels' |
| _fields = ('id', 'name', 'kernel_config', 'platform', 'invalid', |
| 'only_if_needed', 'atomic_group_id') |
| |
| |
| def __repr__(self): |
| return 'Label(name=%r, id=%d, atomic_group_id=%r)' % ( |
| self.name, self.id, self.atomic_group_id) |
| |
| |
| class Host(DBObject): |
| _table_name = 'afe_hosts' |
| _fields = ('id', 'hostname', 'locked', 'synch_id', 'status', |
| 'invalid', 'protection', 'locked_by_id', 'lock_time', 'dirty', |
| 'leased') |
| _timer = stats.Timer("scheduler_models.Host") |
| |
| |
| @_timer.decorate |
| def set_status(self,status): |
| logging.info('%s -> %s', self.hostname, status) |
| self.update_field('status',status) |
| # Noticed some time jumps after the last log message. |
| logging.debug('Host Set Status Complete') |
| |
| |
| def platform_and_labels(self): |
| """ |
| Returns a tuple (platform_name, list_of_all_label_names). |
| """ |
| rows = _db.execute(""" |
| SELECT afe_labels.name, afe_labels.platform |
| FROM afe_labels |
| INNER JOIN afe_hosts_labels ON |
| afe_labels.id = afe_hosts_labels.label_id |
| WHERE afe_hosts_labels.host_id = %s |
| ORDER BY afe_labels.name |
| """, (self.id,)) |
| platform = None |
| all_labels = [] |
| for label_name, is_platform in rows: |
| if is_platform: |
| platform = label_name |
| all_labels.append(label_name) |
| return platform, all_labels |
| |
| |
| _ALPHANUM_HOST_RE = re.compile(r'^([a-z-]+)(\d+)$', re.IGNORECASE) |
| |
| |
| @classmethod |
| def cmp_for_sort(cls, a, b): |
| """ |
| A comparison function for sorting Host objects by hostname. |
| |
| This strips any trailing numeric digits, ignores leading 0s and |
| compares hostnames by the leading name and the trailing digits as a |
| number. If both hostnames do not match this pattern, they are simply |
| compared as lower case strings. |
| |
| Example of how hostnames will be sorted: |
| |
| alice, host1, host2, host09, host010, host10, host11, yolkfolk |
| |
| This hopefully satisfy most people's hostname sorting needs regardless |
| of their exact naming schemes. Nobody sane should have both a host10 |
| and host010 (but the algorithm works regardless). |
| """ |
| lower_a = a.hostname.lower() |
| lower_b = b.hostname.lower() |
| match_a = cls._ALPHANUM_HOST_RE.match(lower_a) |
| match_b = cls._ALPHANUM_HOST_RE.match(lower_b) |
| if match_a and match_b: |
| name_a, number_a_str = match_a.groups() |
| name_b, number_b_str = match_b.groups() |
| number_a = int(number_a_str.lstrip('0')) |
| number_b = int(number_b_str.lstrip('0')) |
| result = cmp((name_a, number_a), (name_b, number_b)) |
| if result == 0 and lower_a != lower_b: |
| # If they compared equal above but the lower case names are |
| # indeed different, don't report equality. abc012 != abc12. |
| return cmp(lower_a, lower_b) |
| return result |
| else: |
| return cmp(lower_a, lower_b) |
| |
| |
| class HostQueueEntry(DBObject): |
| _table_name = 'afe_host_queue_entries' |
| _fields = ('id', 'job_id', 'host_id', 'status', 'meta_host', |
| 'active', 'complete', 'deleted', 'execution_subdir', |
| 'atomic_group_id', 'aborted', 'started_on') |
| _timer = stats.Timer('scheduler_models.HostQueueEntry') |
| |
| |
| def __init__(self, id=None, row=None, **kwargs): |
| assert id or row |
| super(HostQueueEntry, self).__init__(id=id, row=row, **kwargs) |
| self.job = Job(self.job_id) |
| |
| if self.host_id: |
| self.host = rdb_lib.get_hosts([self.host_id])[0] |
| self.host.dbg_str = self.get_dbg_str() |
| else: |
| self.host = None |
| |
| if self.atomic_group_id: |
| self.atomic_group = AtomicGroup(self.atomic_group_id, |
| always_query=False) |
| else: |
| self.atomic_group = None |
| |
| |
| @classmethod |
| def clone(cls, template): |
| """ |
| Creates a new row using the values from a template instance. |
| |
| The new instance will not exist in the database or have a valid |
| id attribute until its save() method is called. |
| """ |
| assert isinstance(template, cls) |
| new_row = [getattr(template, field) for field in cls._fields] |
| clone = cls(row=new_row, new_record=True) |
| clone.id = None |
| return clone |
| |
| |
| def _view_job_url(self): |
| return "%s#tab_id=view_job&object_id=%s" % (_base_url, self.job.id) |
| |
| |
| def get_labels(self): |
| """ |
| Get all labels associated with this host queue entry (either via the |
| meta_host or as a job dependency label). The labels yielded are not |
| guaranteed to be unique. |
| |
| @yields Label instances associated with this host_queue_entry. |
| """ |
| if self.meta_host: |
| yield Label(id=self.meta_host, always_query=False) |
| labels = Label.fetch( |
| joins="JOIN afe_jobs_dependency_labels AS deps " |
| "ON (afe_labels.id = deps.label_id)", |
| where="deps.job_id = %d" % self.job.id) |
| for label in labels: |
| yield label |
| |
| |
| def set_host(self, host): |
| if host: |
| logging.info('Assigning host %s to entry %s', host.hostname, self) |
| self.update_field('host_id', host.id) |
| self.block_host(host.id) |
| else: |
| logging.info('Releasing host from %s', self) |
| self.unblock_host(self.host.id) |
| self.update_field('host_id', None) |
| |
| self.host = host |
| |
| |
| def block_host(self, host_id): |
| logging.info("creating block %s/%s", self.job.id, host_id) |
| row = [0, self.job.id, host_id] |
| block = IneligibleHostQueue(row=row, new_record=True) |
| block.save() |
| |
| |
| def unblock_host(self, host_id): |
| logging.info("removing block %s/%s", self.job.id, host_id) |
| blocks = IneligibleHostQueue.fetch( |
| 'job_id=%d and host_id=%d' % (self.job.id, host_id)) |
| for block in blocks: |
| block.delete() |
| |
| |
| def set_execution_subdir(self, subdir=None): |
| if subdir is None: |
| assert self.host |
| subdir = self.host.hostname |
| self.update_field('execution_subdir', subdir) |
| |
| |
| def _get_hostname(self): |
| if self.host: |
| return self.host.hostname |
| return 'no host' |
| |
| |
| def get_dbg_str(self): |
| """Get a debug string to identify this host. |
| |
| @return: A string containing the hqe and job id. |
| """ |
| try: |
| return 'HQE: %s, for job: %s' % (self.id, self.job_id) |
| except AttributeError as e: |
| return 'HQE has not been initialized yet: %s' % e |
| |
| |
| def __str__(self): |
| flags = [] |
| if self.active: |
| flags.append('active') |
| if self.complete: |
| flags.append('complete') |
| if self.deleted: |
| flags.append('deleted') |
| if self.aborted: |
| flags.append('aborted') |
| flags_str = ','.join(flags) |
| if flags_str: |
| flags_str = ' [%s]' % flags_str |
| return ("%s and host: %s has status:%s%s" % |
| (self.get_dbg_str(), self._get_hostname(), self.status, |
| flags_str)) |
| |
| |
| @_timer.decorate |
| def set_status(self, status): |
| logging.info("%s -> %s", self, status) |
| |
| self.update_field('status', status) |
| # Noticed some time jumps after last logging message. |
| logging.debug('Update Field Complete') |
| |
| active = (status in models.HostQueueEntry.ACTIVE_STATUSES) |
| complete = (status in models.HostQueueEntry.COMPLETE_STATUSES) |
| assert not (active and complete) |
| |
| self.update_field('active', active) |
| self.update_field('complete', complete) |
| |
| if complete: |
| self._on_complete(status) |
| self._email_on_job_complete() |
| |
| should_email_status = (status.lower() in _notify_email_statuses or |
| 'all' in _notify_email_statuses) |
| if should_email_status: |
| self._email_on_status(status) |
| logging.debug('HQE Set Status Complete') |
| |
| |
| def _on_complete(self, status): |
| if status is not models.HostQueueEntry.Status.ABORTED: |
| self.job.stop_if_necessary() |
| |
| if not self.execution_subdir: |
| return |
| # unregister any possible pidfiles associated with this queue entry |
| for pidfile_name in drone_manager.ALL_PIDFILE_NAMES: |
| pidfile_id = _drone_manager.get_pidfile_id_from( |
| self.execution_path(), pidfile_name=pidfile_name) |
| _drone_manager.unregister_pidfile(pidfile_id) |
| |
| |
| def _get_status_email_contents(self, status, summary=None, hostname=None): |
| """ |
| Gather info for the status notification e-mails. |
| |
| If needed, we could start using the Django templating engine to create |
| the subject and the e-mail body, but that doesn't seem necessary right |
| now. |
| |
| @param status: Job status text. Mandatory. |
| @param summary: Job summary text. Optional. |
| @param hostname: A hostname for the job. Optional. |
| |
| @return: Tuple (subject, body) for the notification e-mail. |
| """ |
| job_stats = Job(id=self.job.id).get_execution_details() |
| |
| subject = ('Autotest | Job ID: %s "%s" | Status: %s ' % |
| (self.job.id, self.job.name, status)) |
| |
| if hostname is not None: |
| subject += '| Hostname: %s ' % hostname |
| |
| if status not in ["1 Failed", "Failed"]: |
| subject += '| Success Rate: %.2f %%' % job_stats['success_rate'] |
| |
| body = "Job ID: %s\n" % self.job.id |
| body += "Job name: %s\n" % self.job.name |
| if hostname is not None: |
| body += "Host: %s\n" % hostname |
| if summary is not None: |
| body += "Summary: %s\n" % summary |
| body += "Status: %s\n" % status |
| body += "Results interface URL: %s\n" % self._view_job_url() |
| body += "Execution time (HH:MM:SS): %s\n" % job_stats['execution_time'] |
| if int(job_stats['total_executed']) > 0: |
| body += "User tests executed: %s\n" % job_stats['total_executed'] |
| body += "User tests passed: %s\n" % job_stats['total_passed'] |
| body += "User tests failed: %s\n" % job_stats['total_failed'] |
| body += ("User tests success rate: %.2f %%\n" % |
| job_stats['success_rate']) |
| |
| if job_stats['failed_rows']: |
| body += "Failures:\n" |
| body += job_stats['failed_rows'] |
| |
| return subject, body |
| |
| |
| def _email_on_status(self, status): |
| hostname = self._get_hostname() |
| subject, body = self._get_status_email_contents(status, None, hostname) |
| email_manager.manager.send_email(self.job.email_list, subject, body) |
| |
| |
| def _email_on_job_complete(self): |
| if not self.job.is_finished(): |
| return |
| |
| summary = [] |
| hosts_queue = HostQueueEntry.fetch('job_id = %s' % self.job.id) |
| for queue_entry in hosts_queue: |
| summary.append("Host: %s Status: %s" % |
| (queue_entry._get_hostname(), |
| queue_entry.status)) |
| |
| summary = "\n".join(summary) |
| status_counts = models.Job.objects.get_status_counts( |
| [self.job.id])[self.job.id] |
| status = ', '.join('%d %s' % (count, status) for status, count |
| in status_counts.iteritems()) |
| |
| subject, body = self._get_status_email_contents(status, summary, None) |
| email_manager.manager.send_email(self.job.email_list, subject, body) |
| |
| |
| def schedule_pre_job_tasks(self): |
| logging.info("%s/%s/%s (job %s, entry %s) scheduled on %s, status=%s", |
| self.job.name, self.meta_host, self.atomic_group_id, |
| self.job.id, self.id, self.host.hostname, self.status) |
| |
| self._do_schedule_pre_job_tasks() |
| |
| |
| def _do_schedule_pre_job_tasks(self): |
| self.job.schedule_pre_job_tasks(queue_entry=self) |
| |
| |
| def requeue(self): |
| assert self.host |
| self.set_status(models.HostQueueEntry.Status.QUEUED) |
| self.update_field('started_on', None) |
| # verify/cleanup failure sets the execution subdir, so reset it here |
| self.set_execution_subdir('') |
| if self.meta_host: |
| self.set_host(None) |
| |
| |
| @property |
| def aborted_by(self): |
| self._load_abort_info() |
| return self._aborted_by |
| |
| |
| @property |
| def aborted_on(self): |
| self._load_abort_info() |
| return self._aborted_on |
| |
| |
| def _load_abort_info(self): |
| """ Fetch info about who aborted the job. """ |
| if hasattr(self, "_aborted_by"): |
| return |
| rows = _db.execute(""" |
| SELECT afe_users.login, |
| afe_aborted_host_queue_entries.aborted_on |
| FROM afe_aborted_host_queue_entries |
| INNER JOIN afe_users |
| ON afe_users.id = afe_aborted_host_queue_entries.aborted_by_id |
| WHERE afe_aborted_host_queue_entries.queue_entry_id = %s |
| """, (self.id,)) |
| if rows: |
| self._aborted_by, self._aborted_on = rows[0] |
| else: |
| self._aborted_by = self._aborted_on = None |
| |
| |
| def on_pending(self): |
| """ |
| Called when an entry in a synchronous job has passed verify. If the |
| job is ready to run, sets the entries to STARTING. Otherwise, it leaves |
| them in PENDING. |
| """ |
| self.set_status(models.HostQueueEntry.Status.PENDING) |
| self.host.set_status(models.Host.Status.PENDING) |
| |
| # Some debug code here: sends an email if an asynchronous job does not |
| # immediately enter Starting. |
| # TODO: Remove this once we figure out why asynchronous jobs are getting |
| # stuck in Pending. |
| self.job.run_if_ready(queue_entry=self) |
| if (self.job.synch_count == 1 and |
| self.status == models.HostQueueEntry.Status.PENDING): |
| subject = 'Job %s (id %s)' % (self.job.name, self.job.id) |
| message = 'Asynchronous job stuck in Pending' |
| email_manager.manager.enqueue_notify_email(subject, message) |
| |
| |
| def abort(self, dispatcher): |
| assert self.aborted and not self.complete |
| |
| Status = models.HostQueueEntry.Status |
| if self.status in (Status.GATHERING, Status.PARSING, Status.ARCHIVING): |
| # do nothing; post-job tasks will finish and then mark this entry |
| # with status "Aborted" and take care of the host |
| return |
| |
| if self.status in (Status.STARTING, Status.PENDING, Status.RUNNING, |
| Status.WAITING): |
| # If hqe is in any of these status, it should not have any |
| # unfinished agent before it can be aborted. |
| agents = dispatcher.get_agents_for_entry(self) |
| # Agent with finished task can be left behind. This is added to |
| # handle the special case of aborting hostless job in STARTING |
| # status, in which the agent has only a HostlessQueueTask |
| # associated. The finished HostlessQueueTask will be cleaned up in |
| # the next tick, so it's safe to leave the agent there. Without |
| # filtering out finished agent, HQE abort won't be able to proceed. |
| assert all([agent.is_done() for agent in agents]) |
| # If hqe is still in STARTING status, it may not have assigned a |
| # host yet. |
| if self.host: |
| self.host.set_status(models.Host.Status.READY) |
| elif (self.status == Status.VERIFYING or |
| self.status == Status.RESETTING): |
| models.SpecialTask.objects.create( |
| task=models.SpecialTask.Task.CLEANUP, |
| host=models.Host.objects.get(id=self.host.id), |
| requested_by=self.job.owner_model()) |
| elif self.status == Status.PROVISIONING: |
| models.SpecialTask.objects.create( |
| task=models.SpecialTask.Task.REPAIR, |
| host=models.Host.objects.get(id=self.host.id), |
| requested_by=self.job.owner_model()) |
| |
| self.set_status(Status.ABORTED) |
| self.job.abort_delay_ready_task() |
| |
| |
| def get_group_name(self): |
| atomic_group = self.atomic_group |
| if not atomic_group: |
| return '' |
| |
| # Look at any meta_host and dependency labels and pick the first |
| # one that also specifies this atomic group. Use that label name |
| # as the group name if possible (it is more specific). |
| for label in self.get_labels(): |
| if label.atomic_group_id: |
| assert label.atomic_group_id == atomic_group.id |
| return label.name |
| return atomic_group.name |
| |
| |
| def execution_tag(self): |
| SQL_SUSPECT_ENTRIES = ('SELECT * FROM afe_host_queue_entries WHERE ' |
| 'complete!=1 AND execution_subdir="" AND ' |
| 'status!="Queued";') |
| SQL_FIX_SUSPECT_ENTRY = ('UPDATE afe_host_queue_entries SET ' |
| 'status="Aborted" WHERE id=%s;') |
| try: |
| assert self.execution_subdir |
| except AssertionError: |
| # TODO(scottz): Remove temporary fix/info gathering pathway for |
| # crosbug.com/31595 once issue is root caused. |
| logging.error('No execution_subdir for host queue id:%s.', self.id) |
| logging.error('====DB DEBUG====\n%s', SQL_SUSPECT_ENTRIES) |
| for row in _db.execute(SQL_SUSPECT_ENTRIES): |
| logging.error(row) |
| logging.error('====DB DEBUG====\n') |
| fix_query = SQL_FIX_SUSPECT_ENTRY % self.id |
| logging.error('EXECUTING: %s', fix_query) |
| _db.execute(SQL_FIX_SUSPECT_ENTRY % self.id) |
| raise AssertionError(('self.execution_subdir not found. ' |
| 'See log for details.')) |
| |
| return "%s/%s" % (self.job.tag(), self.execution_subdir) |
| |
| |
| def execution_path(self): |
| return self.execution_tag() |
| |
| |
| def set_started_on_now(self): |
| self.update_field('started_on', datetime.datetime.now()) |
| |
| |
| def is_hostless(self): |
| return (self.host_id is None |
| and self.meta_host is None |
| and self.atomic_group_id is None) |
| |
| |
| class Job(DBObject): |
| _table_name = 'afe_jobs' |
| _fields = ('id', 'owner', 'name', 'priority', 'control_file', |
| 'control_type', 'created_on', 'synch_count', 'timeout', |
| 'run_verify', 'email_list', 'reboot_before', 'reboot_after', |
| 'parse_failed_repair', 'max_runtime_hrs', 'drone_set_id', |
| 'parameterized_job_id', 'max_runtime_mins', 'parent_job_id', |
| 'test_retry', 'run_reset', 'timeout_mins') |
| _timer = stats.Timer("scheduler_models.Job") |
| |
| # This does not need to be a column in the DB. The delays are likely to |
| # be configured short. If the scheduler is stopped and restarted in |
| # the middle of a job's delay cycle, the delay cycle will either be |
| # repeated or skipped depending on the number of Pending machines found |
| # when the restarted scheduler recovers to track it. Not a problem. |
| # |
| # A reference to the DelayedCallTask that will wake up the job should |
| # no other HQEs change state in time. Its end_time attribute is used |
| # by our run_with_ready_delay() method to determine if the wait is over. |
| _delay_ready_task = None |
| |
| # TODO(gps): On scheduler start/recovery we need to call HQE.on_pending() on |
| # all status='Pending' atomic group HQEs incase a delay was running when the |
| # scheduler was restarted and no more hosts ever successfully exit Verify. |
| |
| def __init__(self, id=None, row=None, **kwargs): |
| assert id or row |
| super(Job, self).__init__(id=id, row=row, **kwargs) |
| self._owner_model = None # caches model instance of owner |
| self.update_image_path = None # path of OS image to install |
| |
| |
| def model(self): |
| return models.Job.objects.get(id=self.id) |
| |
| |
| def owner_model(self): |
| # work around the fact that the Job owner field is a string, not a |
| # foreign key |
| if not self._owner_model: |
| self._owner_model = models.User.objects.get(login=self.owner) |
| return self._owner_model |
| |
| |
| def is_server_job(self): |
| return self.control_type == control_data.CONTROL_TYPE.SERVER |
| |
| |
| def tag(self): |
| return "%s-%s" % (self.id, self.owner) |
| |
| |
| def get_host_queue_entries(self): |
| rows = _db.execute(""" |
| SELECT * FROM afe_host_queue_entries |
| WHERE job_id= %s |
| """, (self.id,)) |
| entries = [HostQueueEntry(row=i) for i in rows] |
| |
| assert len(entries)>0 |
| |
| return entries |
| |
| |
| def is_image_update_job(self): |
| """ |
| Discover if the current job requires an OS update. |
| |
| @return: True/False if OS should be updated before job is run. |
| """ |
| # All image update jobs have the parameterized_job_id set. |
| if not self.parameterized_job_id: |
| return False |
| |
| # Retrieve the ID of the ParameterizedJob this job is an instance of. |
| rows = _db.execute(""" |
| SELECT test_id |
| FROM afe_parameterized_jobs |
| WHERE id = %s |
| """, (self.parameterized_job_id,)) |
| if not rows: |
| return False |
| test_id = rows[0][0] |
| |
| # Retrieve the ID of the known autoupdate_ParameterizedJob. |
| rows = _db.execute(""" |
| SELECT id |
| FROM afe_autotests |
| WHERE name = 'autoupdate_ParameterizedJob' |
| """) |
| if not rows: |
| return False |
| update_id = rows[0][0] |
| |
| # If the IDs are the same we've found an image update job. |
| if test_id == update_id: |
| # Finally, get the path to the OS image to install. |
| rows = _db.execute(""" |
| SELECT parameter_value |
| FROM afe_parameterized_job_parameters |
| WHERE parameterized_job_id = %s |
| """, (self.parameterized_job_id,)) |
| if rows: |
| # Save the path in update_image_path to use later as a command |
| # line parameter to autoserv. |
| self.update_image_path = rows[0][0] |
| return True |
| |
| return False |
| |
| |
| def get_execution_details(self): |
| """ |
| Get test execution details for this job. |
| |
| @return: Dictionary with test execution details |
| """ |
| def _find_test_jobs(rows): |
| """ |
| Here we are looking for tests such as SERVER_JOB and CLIENT_JOB.* |
| Those are autotest 'internal job' tests, so they should not be |
| counted when evaluating the test stats. |
| |
| @param rows: List of rows (matrix) with database results. |
| """ |
| job_test_pattern = re.compile('SERVER|CLIENT\\_JOB\.[\d]') |
| n_test_jobs = 0 |
| for r in rows: |
| test_name = r[0] |
| if job_test_pattern.match(test_name): |
| n_test_jobs += 1 |
| |
| return n_test_jobs |
| |
| stats = {} |
| |
| rows = _db.execute(""" |
| SELECT t.test, s.word, t.reason |
| FROM tko_tests AS t, tko_jobs AS j, tko_status AS s |
| WHERE t.job_idx = j.job_idx |
| AND s.status_idx = t.status |
| AND j.afe_job_id = %s |
| ORDER BY t.reason |
| """ % self.id) |
| |
| failed_rows = [r for r in rows if not r[1] == 'GOOD'] |
| |
| n_test_jobs = _find_test_jobs(rows) |
| n_test_jobs_failed = _find_test_jobs(failed_rows) |
| |
| total_executed = len(rows) - n_test_jobs |
| total_failed = len(failed_rows) - n_test_jobs_failed |
| |
| if total_executed > 0: |
| success_rate = 100 - ((total_failed / float(total_executed)) * 100) |
| else: |
| success_rate = 0 |
| |
| stats['total_executed'] = total_executed |
| stats['total_failed'] = total_failed |
| stats['total_passed'] = total_executed - total_failed |
| stats['success_rate'] = success_rate |
| |
| status_header = ("Test Name", "Status", "Reason") |
| if failed_rows: |
| stats['failed_rows'] = utils.matrix_to_string(failed_rows, |
| status_header) |
| else: |
| stats['failed_rows'] = '' |
| |
| time_row = _db.execute(""" |
| SELECT started_time, finished_time |
| FROM tko_jobs |
| WHERE afe_job_id = %s |
| """ % self.id) |
| |
| if time_row: |
| t_begin, t_end = time_row[0] |
| try: |
| delta = t_end - t_begin |
| minutes, seconds = divmod(delta.seconds, 60) |
| hours, minutes = divmod(minutes, 60) |
| stats['execution_time'] = ("%02d:%02d:%02d" % |
| (hours, minutes, seconds)) |
| # One of t_end or t_begin are None |
| except TypeError: |
| stats['execution_time'] = '(could not determine)' |
| else: |
| stats['execution_time'] = '(none)' |
| |
| return stats |
| |
| |
| @_timer.decorate |
| def set_status(self, status, update_queues=False): |
| self.update_field('status',status) |
| |
| if update_queues: |
| for queue_entry in self.get_host_queue_entries(): |
| queue_entry.set_status(status) |
| |
| |
| def keyval_dict(self): |
| return self.model().keyval_dict() |
| |
| |
| def _atomic_and_has_started(self): |
| """ |
| @returns True if any of the HostQueueEntries associated with this job |
| have entered the Status.STARTING state or beyond. |
| """ |
| atomic_entries = models.HostQueueEntry.objects.filter( |
| job=self.id, atomic_group__isnull=False) |
| if atomic_entries.count() <= 0: |
| return False |
| |
| # These states may *only* be reached if Job.run() has been called. |
| started_statuses = (models.HostQueueEntry.Status.STARTING, |
| models.HostQueueEntry.Status.RUNNING, |
| models.HostQueueEntry.Status.COMPLETED) |
| |
| started_entries = atomic_entries.filter(status__in=started_statuses) |
| return started_entries.count() > 0 |
| |
| |
| def _hosts_assigned_count(self): |
| """The number of HostQueueEntries assigned a Host for this job.""" |
| entries = models.HostQueueEntry.objects.filter(job=self.id, |
| host__isnull=False) |
| return entries.count() |
| |
| |
| def _pending_count(self): |
| """The number of HostQueueEntries for this job in the Pending state.""" |
| pending_entries = models.HostQueueEntry.objects.filter( |
| job=self.id, status=models.HostQueueEntry.Status.PENDING) |
| return pending_entries.count() |
| |
| |
| def _max_hosts_needed_to_run(self, atomic_group): |
| """ |
| @param atomic_group: The AtomicGroup associated with this job that we |
| are using to set an upper bound on the threshold. |
| @returns The maximum number of HostQueueEntries assigned a Host before |
| this job can run. |
| """ |
| return min(self._hosts_assigned_count(), |
| atomic_group.max_number_of_machines) |
| |
| |
| def _min_hosts_needed_to_run(self): |
| """Return the minumum number of hsots needed to run this job.""" |
| return self.synch_count |
| |
| |
| def is_ready(self): |
| # NOTE: Atomic group jobs stop reporting ready after they have been |
| # started to avoid launching multiple copies of one atomic job. |
| # Only possible if synch_count is less than than half the number of |
| # machines in the atomic group. |
| pending_count = self._pending_count() |
| atomic_and_has_started = self._atomic_and_has_started() |
| ready = (pending_count >= self.synch_count |
| and not atomic_and_has_started) |
| |
| if not ready: |
| logging.info( |
| 'Job %s not ready: %s pending, %s required ' |
| '(Atomic and started: %s)', |
| self, pending_count, self.synch_count, |
| atomic_and_has_started) |
| |
| return ready |
| |
| |
| def num_machines(self, clause = None): |
| sql = "job_id=%s" % self.id |
| if clause: |
| sql += " AND (%s)" % clause |
| return self.count(sql, table='afe_host_queue_entries') |
| |
| |
| def num_queued(self): |
| return self.num_machines('not complete') |
| |
| |
| def num_active(self): |
| return self.num_machines('active') |
| |
| |
| def num_complete(self): |
| return self.num_machines('complete') |
| |
| |
| def is_finished(self): |
| return self.num_complete() == self.num_machines() |
| |
| |
| def _not_yet_run_entries(self, include_verifying=True): |
| statuses = [models.HostQueueEntry.Status.QUEUED, |
| models.HostQueueEntry.Status.PENDING] |
| if include_verifying: |
| statuses.append(models.HostQueueEntry.Status.VERIFYING) |
| return models.HostQueueEntry.objects.filter(job=self.id, |
| status__in=statuses) |
| |
| |
| def _stop_all_entries(self): |
| entries_to_stop = self._not_yet_run_entries( |
| include_verifying=False) |
| for child_entry in entries_to_stop: |
| assert not child_entry.complete, ( |
| '%s status=%s, active=%s, complete=%s' % |
| (child_entry.id, child_entry.status, child_entry.active, |
| child_entry.complete)) |
| if child_entry.status == models.HostQueueEntry.Status.PENDING: |
| child_entry.host.status = models.Host.Status.READY |
| child_entry.host.save() |
| child_entry.status = models.HostQueueEntry.Status.STOPPED |
| child_entry.save() |
| |
| |
| def stop_if_necessary(self): |
| not_yet_run = self._not_yet_run_entries() |
| if not_yet_run.count() < self.synch_count: |
| self._stop_all_entries() |
| |
| |
| def _next_group_name(self, group_name=''): |
| """@returns a directory name to use for the next host group results.""" |
| if group_name: |
| # Sanitize for use as a pathname. |
| group_name = group_name.replace(os.path.sep, '_') |
| if group_name.startswith('.'): |
| group_name = '_' + group_name[1:] |
| # Add a separator between the group name and 'group%d'. |
| group_name += '.' |
| group_count_re = re.compile(r'%sgroup(\d+)' % re.escape(group_name)) |
| query = models.HostQueueEntry.objects.filter( |
| job=self.id).values('execution_subdir').distinct() |
| subdirs = (entry['execution_subdir'] for entry in query) |
| group_matches = (group_count_re.match(subdir) for subdir in subdirs) |
| ids = [int(match.group(1)) for match in group_matches if match] |
| if ids: |
| next_id = max(ids) + 1 |
| else: |
| next_id = 0 |
| return '%sgroup%d' % (group_name, next_id) |
| |
| |
| def get_group_entries(self, queue_entry_from_group): |
| """ |
| @param queue_entry_from_group: A HostQueueEntry instance to find other |
| group entries on this job for. |
| |
| @returns A list of HostQueueEntry objects all executing this job as |
| part of the same group as the one supplied (having the same |
| execution_subdir). |
| """ |
| execution_subdir = queue_entry_from_group.execution_subdir |
| return list(HostQueueEntry.fetch( |
| where='job_id=%s AND execution_subdir=%s', |
| params=(self.id, execution_subdir))) |
| |
| |
| def _should_run_cleanup(self, queue_entry): |
| if self.reboot_before == model_attributes.RebootBefore.ALWAYS: |
| return True |
| elif self.reboot_before == model_attributes.RebootBefore.IF_DIRTY: |
| return queue_entry.host.dirty |
| return False |
| |
| |
| def _should_run_verify(self, queue_entry): |
| do_not_verify = (queue_entry.host.protection == |
| host_protections.Protection.DO_NOT_VERIFY) |
| if do_not_verify: |
| return False |
| # If RebootBefore is set to NEVER, then we won't run reset because |
| # we can't cleanup, so we need to weaken a Reset into a Verify. |
| weaker_reset = (self.run_reset and |
| self.reboot_before == model_attributes.RebootBefore.NEVER) |
| return self.run_verify or weaker_reset |
| |
| |
| def _should_run_reset(self, queue_entry): |
| can_verify = (queue_entry.host.protection != |
| host_protections.Protection.DO_NOT_VERIFY) |
| can_reboot = self.reboot_before != model_attributes.RebootBefore.NEVER |
| return (can_reboot and can_verify and (self.run_reset or |
| (self._should_run_cleanup(queue_entry) and |
| self._should_run_verify(queue_entry)))) |
| |
| |
| def _should_run_provision(self, queue_entry): |
| """ |
| Determine if the queue_entry needs to have a provision task run before |
| it to provision queue_entry.host. |
| |
| @param queue_entry: The host queue entry in question. |
| @returns: True if we should schedule a provision task, False otherwise. |
| |
| """ |
| # If we get to this point, it means that the scheduler has already |
| # vetted that all the unprovisionable labels match, so we can just |
| # find all labels on the job that aren't on the host to get the list |
| # of what we need to provision. (See the scheduling logic in |
| # host_scheduler.py:is_host_eligable_for_job() where we discard all |
| # actionable labels when assigning jobs to hosts.) |
| job_labels = {x.name for x in queue_entry.get_labels()} |
| _, host_labels = queue_entry.host.platform_and_labels() |
| # If there are any labels on the job that are not on the host and they |
| # are labels that provisioning knows how to change, then that means |
| # there is provisioning work to do. If there's no provisioning work to |
| # do, then obviously we have no reason to schedule a provision task! |
| diff = job_labels - set(host_labels) |
| if any([provision.Provision.acts_on(x) for x in diff]): |
| return True |
| return False |
| |
| |
| def _queue_special_task(self, queue_entry, task): |
| """ |
| Create a special task and associate it with a host queue entry. |
| |
| @param queue_entry: The queue entry this special task should be |
| associated with. |
| @param task: One of the members of the enum models.SpecialTask.Task. |
| @returns: None |
| |
| """ |
| models.SpecialTask.objects.create( |
| host=models.Host.objects.get(id=queue_entry.host_id), |
| queue_entry=queue_entry, task=task) |
| |
| |
| def schedule_pre_job_tasks(self, queue_entry): |
| """ |
| Queue all of the special tasks that need to be run before a host |
| queue entry may run. |
| |
| If no special taskes need to be scheduled, then |on_pending| will be |
| called directly. |
| |
| @returns None |
| |
| """ |
| task_queued = False |
| hqe_model = models.HostQueueEntry.objects.get(id=queue_entry.id) |
| |
| if self._should_run_reset(queue_entry): |
| self._queue_special_task(hqe_model, models.SpecialTask.Task.RESET) |
| task_queued = True |
| else: |
| if self._should_run_cleanup(queue_entry): |
| self._queue_special_task(hqe_model, |
| models.SpecialTask.Task.CLEANUP) |
| task_queued = True |
| if self._should_run_verify(queue_entry): |
| self._queue_special_task(hqe_model, |
| models.SpecialTask.Task.VERIFY) |
| task_queued = True |
| |
| if self._should_run_provision(queue_entry): |
| self._queue_special_task(hqe_model, |
| models.SpecialTask.Task.PROVISION) |
| task_queued = True |
| |
| if not task_queued: |
| queue_entry.on_pending() |
| |
| |
| def _assign_new_group(self, queue_entries, group_name=''): |
| if len(queue_entries) == 1: |
| group_subdir_name = queue_entries[0].host.hostname |
| else: |
| group_subdir_name = self._next_group_name(group_name) |
| logging.info('Running synchronous job %d hosts %s as %s', |
| self.id, [entry.host.hostname for entry in queue_entries], |
| group_subdir_name) |
| |
| for queue_entry in queue_entries: |
| queue_entry.set_execution_subdir(group_subdir_name) |
| |
| |
| def _choose_group_to_run(self, include_queue_entry): |
| """ |
| @returns A tuple containing a list of HostQueueEntry instances to be |
| used to run this Job, a string group name to suggest giving |
| to this job in the results database. |
| """ |
| atomic_group = include_queue_entry.atomic_group |
| chosen_entries = [include_queue_entry] |
| if atomic_group: |
| num_entries_wanted = atomic_group.max_number_of_machines |
| else: |
| num_entries_wanted = self.synch_count |
| num_entries_wanted -= len(chosen_entries) |
| |
| if num_entries_wanted > 0: |
| where_clause = 'job_id = %s AND status = "Pending" AND id != %s' |
| pending_entries = list(HostQueueEntry.fetch( |
| where=where_clause, |
| params=(self.id, include_queue_entry.id))) |
| |
| # Sort the chosen hosts by hostname before slicing. |
| def cmp_queue_entries_by_hostname(entry_a, entry_b): |
| return Host.cmp_for_sort(entry_a.host, entry_b.host) |
| pending_entries.sort(cmp=cmp_queue_entries_by_hostname) |
| chosen_entries += pending_entries[:num_entries_wanted] |
| |
| # Sanity check. We'll only ever be called if this can be met. |
| if len(chosen_entries) < self.synch_count: |
| message = ('job %s got less than %s chosen entries: %s' % ( |
| self.id, self.synch_count, chosen_entries)) |
| logging.error(message) |
| email_manager.manager.enqueue_notify_email( |
| 'Job not started, too few chosen entries', message) |
| return [] |
| |
| group_name = include_queue_entry.get_group_name() |
| |
| self._assign_new_group(chosen_entries, group_name=group_name) |
| return chosen_entries |
| |
| |
| def run_if_ready(self, queue_entry): |
| """ |
| Run this job by kicking its HQEs into status='Starting' if enough |
| hosts are ready for it to run. |
| |
| Cleans up by kicking HQEs into status='Stopped' if this Job is not |
| ready to run. |
| """ |
| if not self.is_ready(): |
| self.stop_if_necessary() |
| elif queue_entry.atomic_group: |
| self.run_with_ready_delay(queue_entry) |
| else: |
| self.run(queue_entry) |
| |
| |
| def run_with_ready_delay(self, queue_entry): |
| """ |
| Start a delay to wait for more hosts to enter Pending state before |
| launching an atomic group job. Once set, the a delay cannot be reset. |
| |
| @param queue_entry: The HostQueueEntry object to get atomic group |
| info from and pass to run_if_ready when the delay is up. |
| |
| @returns An Agent to run the job as appropriate or None if a delay |
| has already been set. |
| """ |
| assert queue_entry.job_id == self.id |
| assert queue_entry.atomic_group |
| delay = scheduler_config.config.secs_to_wait_for_atomic_group_hosts |
| over_max_threshold = (self._pending_count() >= |
| self._max_hosts_needed_to_run(queue_entry.atomic_group)) |
| delay_expired = (self._delay_ready_task and |
| time.time() >= self._delay_ready_task.end_time) |
| |
| # Delay is disabled or we already have enough? Do not wait to run. |
| if not delay or over_max_threshold or delay_expired: |
| self.run(queue_entry) |
| else: |
| queue_entry.set_status(models.HostQueueEntry.Status.WAITING) |
| |
| |
| def request_abort(self): |
| """Request that this Job be aborted on the next scheduler cycle.""" |
| self.model().abort() |
| |
| |
| def schedule_delayed_callback_task(self, queue_entry): |
| queue_entry.set_status(models.HostQueueEntry.Status.PENDING) |
| |
| if self._delay_ready_task: |
| return None |
| |
| delay = scheduler_config.config.secs_to_wait_for_atomic_group_hosts |
| |
| def run_job_after_delay(): |
| logging.info('Job %s done waiting for extra hosts.', self) |
| # Check to see if the job is still relevant. It could have aborted |
| # while we were waiting or hosts could have disappearred, etc. |
| if self._pending_count() < self._min_hosts_needed_to_run(): |
| logging.info('Job %s had too few Pending hosts after waiting ' |
| 'for extras. Not running.', self) |
| self.request_abort() |
| return |
| return self.run(queue_entry) |
| |
| logging.info('Job %s waiting up to %s seconds for more hosts.', |
| self.id, delay) |
| self._delay_ready_task = DelayedCallTask(delay_seconds=delay, |
| callback=run_job_after_delay) |
| return self._delay_ready_task |
| |
| |
| def run(self, queue_entry): |
| """ |
| @param queue_entry: The HostQueueEntry instance calling this method. |
| """ |
| if queue_entry.atomic_group and self._atomic_and_has_started(): |
| logging.error('Job.run() called on running atomic Job %d ' |
| 'with HQE %s.', self.id, queue_entry) |
| return |
| queue_entries = self._choose_group_to_run(queue_entry) |
| if queue_entries: |
| self._finish_run(queue_entries) |
| |
| |
| def _finish_run(self, queue_entries): |
| for queue_entry in queue_entries: |
| queue_entry.set_status(models.HostQueueEntry.Status.STARTING) |
| self.abort_delay_ready_task() |
| |
| |
| def abort_delay_ready_task(self): |
| """Abort the delayed task associated with this job, if any.""" |
| if self._delay_ready_task: |
| # Cancel any pending callback that would try to run again |
| # as we are already running. |
| self._delay_ready_task.abort() |
| |
| |
| def __str__(self): |
| return '%s-%s' % (self.id, self.owner) |