#
# Licensed to the Apache Software Foundation (ASF) under one
# or more contributor license agreements. See the NOTICE file
# distributed with this work for additional information
# regarding copyright ownership. The ASF licenses this file
# to you 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 contextlib
import getpass
import hashlib
import logging
import math
import os
import signal
import warnings
from datetime import datetime, timedelta
from typing import Any, Dict, Iterable, List, NamedTuple, Optional, Tuple, Union
from urllib.parse import quote
import dill
import jinja2
import lazy_object_proxy
import pendulum
from jinja2 import TemplateAssertionError, UndefinedError
from sqlalchemy import Column, Float, Index, Integer, PickleType, String, and_, func, or_
from sqlalchemy.exc import OperationalError
from sqlalchemy.orm import reconstructor, relationship
from sqlalchemy.orm.session import Session
from sqlalchemy.sql.elements import BooleanClauseList
from airflow import settings
from airflow.configuration import conf
from airflow.exceptions import (
AirflowException,
AirflowFailException,
AirflowRescheduleException,
AirflowSkipException,
AirflowSmartSensorException,
AirflowTaskTimeout,
)
from airflow.models.base import COLLATION_ARGS, ID_LEN, Base
from airflow.models.log import Log
from airflow.models.taskfail import TaskFail
from airflow.models.taskreschedule import TaskReschedule
from airflow.models.variable import Variable
from airflow.models.xcom import XCOM_RETURN_KEY, XCom
from airflow.plugins_manager import integrate_macros_plugins
from airflow.sentry import Sentry
from airflow.stats import Stats
from airflow.ti_deps.dep_context import DepContext
from airflow.ti_deps.dependencies_deps import REQUEUEABLE_DEPS, RUNNING_DEPS
from airflow.utils import timezone
from airflow.utils.email import send_email
from airflow.utils.helpers import is_container
from airflow.utils.log.logging_mixin import LoggingMixin
from airflow.utils.net import get_hostname
from airflow.utils.operator_helpers import context_to_airflow_vars
from airflow.utils.session import provide_session
from airflow.utils.sqlalchemy import UtcDateTime, with_row_locks
from airflow.utils.state import State
from airflow.utils.timeout import timeout
try:
from kubernetes.client.api_client import ApiClient
from airflow.kubernetes.kube_config import KubeConfig
from airflow.kubernetes.kubernetes_helper_functions import create_pod_id
from airflow.kubernetes.pod_generator import PodGenerator
except ImportError:
[docs]Context = Dict[str, Any]
[docs]_CURRENT_CONTEXT: List[Context] = []
[docs]log = logging.getLogger(__name__)
@contextlib.contextmanager
[docs]def set_current_context(context: Context):
"""
Sets the current execution context to the provided context object.
This method should be called once per Task execution, before calling operator.execute.
"""
_CURRENT_CONTEXT.append(context)
try:
yield context
finally:
expected_state = _CURRENT_CONTEXT.pop()
if expected_state != context:
log.warning(
"Current context is not equal to the state at context stack. Expected=%s, got=%s",
context,
expected_state,
)
[docs]def clear_task_instances(
tis,
session,
activate_dag_runs=True,
dag=None,
):
"""
Clears a set of task instances, but makes sure the running ones
get killed.
:param tis: a list of task instances
:param session: current session
:param activate_dag_runs: flag to check for active dag run
:param dag: DAG object
"""
job_ids = []
for ti in tis:
if ti.state == State.RUNNING:
if ti.job_id:
ti.state = State.SHUTDOWN
job_ids.append(ti.job_id)
else:
task_id = ti.task_id
if dag and dag.has_task(task_id):
task = dag.get_task(task_id)
ti.refresh_from_task(task)
task_retries = task.retries
ti.max_tries = ti.try_number + task_retries - 1
else:
# Ignore errors when updating max_tries if dag is None or
# task not found in dag since database records could be
# outdated. We make max_tries the maximum value of its
# original max_tries or the last attempted try number.
ti.max_tries = max(ti.max_tries, ti.prev_attempted_tries)
ti.state = State.NONE
session.merge(ti)
# Clear all reschedules related to the ti to clear
session.query(TR).filter(
TR.dag_id == ti.dag_id,
TR.task_id == ti.task_id,
TR.execution_date == ti.execution_date,
TR.try_number == ti.try_number,
).delete()
if job_ids:
from airflow.jobs.base_job import BaseJob
for job in session.query(BaseJob).filter(BaseJob.id.in_(job_ids)).all(): # noqa
job.state = State.SHUTDOWN
if activate_dag_runs and tis:
from airflow.models.dagrun import DagRun # Avoid circular import
drs = (
session.query(DagRun)
.filter(
DagRun.dag_id.in_({ti.dag_id for ti in tis}),
DagRun.execution_date.in_({ti.execution_date for ti in tis}),
)
.all()
)
for dr in drs:
dr.state = State.RUNNING
dr.start_date = timezone.utcnow()
[docs]class TaskInstanceKey(NamedTuple):
"""Key used to identify task instance."""
[docs] execution_date: datetime
@property
[docs] def primary(self) -> Tuple[str, str, datetime]:
"""Return task instance primary key part of the key"""
return self.dag_id, self.task_id, self.execution_date
@property
[docs] def reduced(self) -> 'TaskInstanceKey':
"""Remake the key by subtracting 1 from try number to match in memory information"""
return TaskInstanceKey(self.dag_id, self.task_id, self.execution_date, max(1, self.try_number - 1))
[docs] def with_try_number(self, try_number: int) -> 'TaskInstanceKey':
"""Returns TaskInstanceKey with provided ``try_number``"""
return TaskInstanceKey(self.dag_id, self.task_id, self.execution_date, try_number)
[docs]class TaskInstance(Base, LoggingMixin): # pylint: disable=R0902,R0904
"""
Task instances store the state of a task instance. This table is the
authority and single source of truth around what tasks have run and the
state they are in.
The SqlAlchemy model doesn't have a SqlAlchemy foreign key to the task or
dag model deliberately to have more control over transactions.
Database transactions on this table should insure double triggers and
any confusion around what task instances are or aren't ready to run
even while multiple schedulers may be firing task instances.
"""
[docs] __tablename__ = "task_instance"
[docs] task_id = Column(String(ID_LEN, **COLLATION_ARGS), primary_key=True)
[docs] dag_id = Column(String(ID_LEN, **COLLATION_ARGS), primary_key=True)
[docs] execution_date = Column(UtcDateTime, primary_key=True)
[docs] start_date = Column(UtcDateTime)
[docs] end_date = Column(UtcDateTime)
[docs] duration = Column(Float)
[docs] state = Column(String(20))
[docs] _try_number = Column('try_number', Integer, default=0)
[docs] max_tries = Column(Integer)
[docs] hostname = Column(String(1000))
[docs] unixname = Column(String(1000))
[docs] job_id = Column(Integer)
[docs] pool = Column(String(50), nullable=False)
[docs] pool_slots = Column(Integer, default=1)
[docs] queue = Column(String(256))
[docs] priority_weight = Column(Integer)
[docs] operator = Column(String(1000))
[docs] queued_dttm = Column(UtcDateTime)
[docs] queued_by_job_id = Column(Integer)
[docs] executor_config = Column(PickleType(pickler=dill))
[docs] external_executor_id = Column(String(ID_LEN, **COLLATION_ARGS))
# If adding new fields here then remember to add them to
# refresh_from_db() or they wont display in the UI correctly
[docs] __table_args__ = (
Index('ti_dag_state', dag_id, state),
Index('ti_dag_date', dag_id, execution_date),
Index('ti_state', state),
Index('ti_state_lkp', dag_id, task_id, execution_date, state),
Index('ti_pool', pool, state, priority_weight),
Index('ti_job_id', job_id),
)
[docs] dag_model = relationship(
"DagModel",
primaryjoin="TaskInstance.dag_id == DagModel.dag_id",
foreign_keys=dag_id,
uselist=False,
innerjoin=True,
)
def __init__(self, task, execution_date: datetime, state: Optional[str] = None):
super().__init__()
self.dag_id = task.dag_id
self.task_id = task.task_id
self.task = task
self.refresh_from_task(task)
self._log = logging.getLogger("airflow.task")
# make sure we have a localized execution_date stored in UTC
if execution_date and not timezone.is_localized(execution_date):
self.log.warning(
"execution date %s has no timezone information. Using default from dag or system",
execution_date,
)
if self.task.has_dag():
execution_date = timezone.make_aware(execution_date, self.task.dag.timezone)
else:
execution_date = timezone.make_aware(execution_date)
execution_date = timezone.convert_to_utc(execution_date)
self.execution_date = execution_date
self.try_number = 0
self.unixname = getpass.getuser()
if state:
self.state = state
self.hostname = ''
self.init_on_load()
# Is this TaskInstance being currently running within `airflow tasks run --raw`.
# Not persisted to the database so only valid for the current process
self.raw = False
# can be changed when calling 'run'
self.test_mode = False
@reconstructor
[docs] def init_on_load(self):
"""Initialize the attributes that aren't stored in the DB"""
self.test_mode = False # can be changed when calling 'run'
@property
[docs] def try_number(self):
"""
Return the try number that this task number will be when it is actually
run.
If the TaskInstance is currently running, this will match the column in the
database, in all other cases this will be incremented.
"""
# This is designed so that task logs end up in the right file.
# TODO: whether we need sensing here or not (in sensor and task_instance state machine)
if self.state in State.running:
return self._try_number
return self._try_number + 1
@try_number.setter
def try_number(self, value):
self._try_number = value
@property
[docs] def prev_attempted_tries(self):
"""
Based on this instance's try_number, this will calculate
the number of previously attempted tries, defaulting to 0.
"""
# Expose this for the Task Tries and Gantt graph views.
# Using `try_number` throws off the counts for non-running tasks.
# Also useful in error logging contexts to get
# the try number for the last try that was attempted.
# https://issues.apache.org/jira/browse/AIRFLOW-2143
return self._try_number
@property
[docs] def next_try_number(self):
"""Setting Next Try Number"""
return self._try_number + 1
[docs] def command_as_list( # pylint: disable=too-many-arguments
self,
mark_success=False,
ignore_all_deps=False,
ignore_task_deps=False,
ignore_depends_on_past=False,
ignore_ti_state=False,
local=False,
pickle_id=None,
raw=False,
job_id=None,
pool=None,
cfg_path=None,
):
"""
Returns a command that can be executed anywhere where airflow is
installed. This command is part of the message sent to executors by
the orchestrator.
"""
dag = self.task.dag
should_pass_filepath = not pickle_id and dag
if should_pass_filepath and dag.full_filepath != dag.filepath:
path = f"DAGS_FOLDER/{dag.filepath}"
elif should_pass_filepath and dag.full_filepath:
path = dag.full_filepath
else:
path = None
return TaskInstance.generate_command(
self.dag_id,
self.task_id,
self.execution_date,
mark_success=mark_success,
ignore_all_deps=ignore_all_deps,
ignore_task_deps=ignore_task_deps,
ignore_depends_on_past=ignore_depends_on_past,
ignore_ti_state=ignore_ti_state,
local=local,
pickle_id=pickle_id,
file_path=path,
raw=raw,
job_id=job_id,
pool=pool,
cfg_path=cfg_path,
)
@staticmethod
[docs] def generate_command(
dag_id: str, # pylint: disable=too-many-arguments
task_id: str,
execution_date: datetime,
mark_success: bool = False,
ignore_all_deps: bool = False,
ignore_depends_on_past: bool = False,
ignore_task_deps: bool = False,
ignore_ti_state: bool = False,
local: bool = False,
pickle_id: Optional[int] = None,
file_path: Optional[str] = None,
raw: bool = False,
job_id: Optional[str] = None,
pool: Optional[str] = None,
cfg_path: Optional[str] = None,
) -> List[str]:
"""
Generates the shell command required to execute this task instance.
:param dag_id: DAG ID
:type dag_id: str
:param task_id: Task ID
:type task_id: str
:param execution_date: Execution date for the task
:type execution_date: datetime
:param mark_success: Whether to mark the task as successful
:type mark_success: bool
:param ignore_all_deps: Ignore all ignorable dependencies.
Overrides the other ignore_* parameters.
:type ignore_all_deps: bool
:param ignore_depends_on_past: Ignore depends_on_past parameter of DAGs
(e.g. for Backfills)
:type ignore_depends_on_past: bool
:param ignore_task_deps: Ignore task-specific dependencies such as depends_on_past
and trigger rule
:type ignore_task_deps: bool
:param ignore_ti_state: Ignore the task instance's previous failure/success
:type ignore_ti_state: bool
:param local: Whether to run the task locally
:type local: bool
:param pickle_id: If the DAG was serialized to the DB, the ID
associated with the pickled DAG
:type pickle_id: Optional[int]
:param file_path: path to the file containing the DAG definition
:type file_path: Optional[str]
:param raw: raw mode (needs more details)
:type raw: Optional[bool]
:param job_id: job ID (needs more details)
:type job_id: Optional[int]
:param pool: the Airflow pool that the task should run in
:type pool: Optional[str]
:param cfg_path: the Path to the configuration file
:type cfg_path: Optional[str]
:return: shell command that can be used to run the task instance
:rtype: list[str]
"""
iso = execution_date.isoformat()
cmd = ["airflow", "tasks", "run", dag_id, task_id, iso]
if mark_success:
cmd.extend(["--mark-success"])
if pickle_id:
cmd.extend(["--pickle", str(pickle_id)])
if job_id:
cmd.extend(["--job-id", str(job_id)])
if ignore_all_deps:
cmd.extend(["--ignore-all-dependencies"])
if ignore_task_deps:
cmd.extend(["--ignore-dependencies"])
if ignore_depends_on_past:
cmd.extend(["--ignore-depends-on-past"])
if ignore_ti_state:
cmd.extend(["--force"])
if local:
cmd.extend(["--local"])
if pool:
cmd.extend(["--pool", pool])
if raw:
cmd.extend(["--raw"])
if file_path:
cmd.extend(["--subdir", file_path])
if cfg_path:
cmd.extend(["--cfg-path", cfg_path])
return cmd
@property
[docs] def log_filepath(self):
"""Filepath for TaskInstance"""
iso = self.execution_date.isoformat()
the_log = os.path.expanduser(conf.get('logging', 'BASE_LOG_FOLDER'))
return f"{the_log}/{self.dag_id}/{self.task_id}/{iso}.log"
@property
[docs] def log_url(self):
"""Log URL for TaskInstance"""
iso = quote(self.execution_date.isoformat())
base_url = conf.get('webserver', 'BASE_URL')
return base_url + f"/log?execution_date={iso}&task_id={self.task_id}&dag_id={self.dag_id}"
@property
[docs] def mark_success_url(self):
"""URL to mark TI success"""
iso = quote(self.execution_date.isoformat())
base_url = conf.get('webserver', 'BASE_URL')
return base_url + (
"/success"
f"?task_id={self.task_id}"
f"&dag_id={self.dag_id}"
f"&execution_date={iso}"
"&upstream=false"
"&downstream=false"
)
@provide_session
[docs] def current_state(self, session=None) -> str:
"""
Get the very latest state from the database, if a session is passed,
we use and looking up the state becomes part of the session, otherwise
a new session is used.
:param session: SQLAlchemy ORM Session
:type session: Session
"""
ti = (
session.query(TaskInstance)
.filter(
TaskInstance.dag_id == self.dag_id,
TaskInstance.task_id == self.task_id,
TaskInstance.execution_date == self.execution_date,
)
.all()
)
if ti:
state = ti[0].state
else:
state = None
return state
@provide_session
[docs] def error(self, session=None):
"""
Forces the task instance's state to FAILED in the database.
:param session: SQLAlchemy ORM Session
:type session: Session
"""
self.log.error("Recording the task instance as FAILED")
self.state = State.FAILED
session.merge(self)
session.commit()
@provide_session
[docs] def refresh_from_db(self, session=None, lock_for_update=False) -> None:
"""
Refreshes the task instance from the database based on the primary key
:param session: SQLAlchemy ORM Session
:type session: Session
:param lock_for_update: if True, indicates that the database should
lock the TaskInstance (issuing a FOR UPDATE clause) until the
session is committed.
:type lock_for_update: bool
"""
self.log.debug("Refreshing TaskInstance %s from DB", self)
qry = session.query(TaskInstance).filter(
TaskInstance.dag_id == self.dag_id,
TaskInstance.task_id == self.task_id,
TaskInstance.execution_date == self.execution_date,
)
if lock_for_update:
ti = qry.with_for_update().first()
else:
ti = qry.first()
if ti:
# Fields ordered per model definition
self.start_date = ti.start_date
self.end_date = ti.end_date
self.duration = ti.duration
self.state = ti.state
# Get the raw value of try_number column, don't read through the
# accessor here otherwise it will be incremented by one already.
self.try_number = ti._try_number # noqa pylint: disable=protected-access
self.max_tries = ti.max_tries
self.hostname = ti.hostname
self.unixname = ti.unixname
self.job_id = ti.job_id
self.pool = ti.pool
self.pool_slots = ti.pool_slots or 1
self.queue = ti.queue
self.priority_weight = ti.priority_weight
self.operator = ti.operator
self.queued_dttm = ti.queued_dttm
self.pid = ti.pid
else:
self.state = None
self.log.debug("Refreshed TaskInstance %s", self)
[docs] def refresh_from_task(self, task, pool_override=None):
"""
Copy common attributes from the given task.
:param task: The task object to copy from
:type task: airflow.models.BaseOperator
:param pool_override: Use the pool_override instead of task's pool
:type pool_override: str
"""
self.queue = task.queue
self.pool = pool_override or task.pool
self.pool_slots = task.pool_slots
self.priority_weight = task.priority_weight_total
self.run_as_user = task.run_as_user
self.max_tries = task.retries
self.executor_config = task.executor_config
self.operator = task.task_type
@provide_session
[docs] def clear_xcom_data(self, session=None):
"""
Clears all XCom data from the database for the task instance
:param session: SQLAlchemy ORM Session
:type session: Session
"""
self.log.debug("Clearing XCom data")
session.query(XCom).filter(
XCom.dag_id == self.dag_id,
XCom.task_id == self.task_id,
XCom.execution_date == self.execution_date,
).delete()
session.commit()
self.log.debug("XCom data cleared")
@property
[docs] def key(self) -> TaskInstanceKey:
"""Returns a tuple that identifies the task instance uniquely"""
return TaskInstanceKey(self.dag_id, self.task_id, self.execution_date, self.try_number)
@provide_session
[docs] def set_state(self, state: str, session=None):
"""
Set TaskInstance state.
:param state: State to set for the TI
:type state: str
:param session: SQLAlchemy ORM Session
:type session: Session
"""
current_time = timezone.utcnow()
self.log.debug("Setting task state for %s to %s", self, state)
self.state = state
self.start_date = self.start_date or current_time
if self.state in State.finished or self.state == State.UP_FOR_RETRY:
self.end_date = self.end_date or current_time
self.duration = (self.end_date - self.start_date).total_seconds()
session.merge(self)
@property
[docs] def is_premature(self):
"""
Returns whether a task is in UP_FOR_RETRY state and its retry interval
has elapsed.
"""
# is the task still in the retry waiting period?
return self.state == State.UP_FOR_RETRY and not self.ready_for_retry()
@provide_session
[docs] def are_dependents_done(self, session=None):
"""
Checks whether the immediate dependents of this task instance have succeeded or have been skipped.
This is meant to be used by wait_for_downstream.
This is useful when you do not want to start processing the next
schedule of a task until the dependents are done. For instance,
if the task DROPs and recreates a table.
:param session: SQLAlchemy ORM Session
:type session: Session
"""
task = self.task
if not task.downstream_task_ids:
return True
ti = session.query(func.count(TaskInstance.task_id)).filter(
TaskInstance.dag_id == self.dag_id,
TaskInstance.task_id.in_(task.downstream_task_ids),
TaskInstance.execution_date == self.execution_date,
TaskInstance.state.in_([State.SKIPPED, State.SUCCESS]),
)
count = ti[0][0]
return count == len(task.downstream_task_ids)
@provide_session
[docs] def get_previous_ti(
self, state: Optional[str] = None, session: Session = None
) -> Optional['TaskInstance']:
"""
The task instance for the task that ran before this task instance.
:param state: If passed, it only take into account instances of a specific state.
:param session: SQLAlchemy ORM Session
"""
dag = self.task.dag
if dag:
dr = self.get_dagrun(session=session)
# LEGACY: most likely running from unit tests
if not dr:
# Means that this TaskInstance is NOT being run from a DR, but from a catchup
previous_scheduled_date = dag.previous_schedule(self.execution_date)
if not previous_scheduled_date:
return None
return TaskInstance(task=self.task, execution_date=previous_scheduled_date)
dr.dag = dag
# We always ignore schedule in dagrun lookup when `state` is given or `schedule_interval is None`.
# For legacy reasons, when `catchup=True`, we use `get_previous_scheduled_dagrun` unless
# `ignore_schedule` is `True`.
ignore_schedule = state is not None or dag.schedule_interval is None
if dag.catchup is True and not ignore_schedule:
last_dagrun = dr.get_previous_scheduled_dagrun(session=session)
else:
last_dagrun = dr.get_previous_dagrun(session=session, state=state)
if last_dagrun:
return last_dagrun.get_task_instance(self.task_id, session=session)
return None
@property
[docs] def previous_ti(self):
"""
This attribute is deprecated.
Please use `airflow.models.taskinstance.TaskInstance.get_previous_ti` method.
"""
warnings.warn(
"""
This attribute is deprecated.
Please use `airflow.models.taskinstance.TaskInstance.get_previous_ti` method.
""",
DeprecationWarning,
stacklevel=2,
)
return self.get_previous_ti()
@property
[docs] def previous_ti_success(self) -> Optional['TaskInstance']:
"""
This attribute is deprecated.
Please use `airflow.models.taskinstance.TaskInstance.get_previous_ti` method.
"""
warnings.warn(
"""
This attribute is deprecated.
Please use `airflow.models.taskinstance.TaskInstance.get_previous_ti` method.
""",
DeprecationWarning,
stacklevel=2,
)
return self.get_previous_ti(state=State.SUCCESS)
@provide_session
[docs] def get_previous_execution_date(
self,
state: Optional[str] = None,
session: Session = None,
) -> Optional[pendulum.DateTime]:
"""
The execution date from property previous_ti_success.
:param state: If passed, it only take into account instances of a specific state.
:param session: SQLAlchemy ORM Session
"""
self.log.debug("previous_execution_date was called")
prev_ti = self.get_previous_ti(state=state, session=session)
return prev_ti and pendulum.instance(prev_ti.execution_date)
@provide_session
[docs] def get_previous_start_date(
self, state: Optional[str] = None, session: Session = None
) -> Optional[pendulum.DateTime]:
"""
The start date from property previous_ti_success.
:param state: If passed, it only take into account instances of a specific state.
:param session: SQLAlchemy ORM Session
"""
self.log.debug("previous_start_date was called")
prev_ti = self.get_previous_ti(state=state, session=session)
return prev_ti and pendulum.instance(prev_ti.start_date)
@property
[docs] def previous_start_date_success(self) -> Optional[pendulum.DateTime]:
"""
This attribute is deprecated.
Please use `airflow.models.taskinstance.TaskInstance.get_previous_start_date` method.
"""
warnings.warn(
"""
This attribute is deprecated.
Please use `airflow.models.taskinstance.TaskInstance.get_previous_start_date` method.
""",
DeprecationWarning,
stacklevel=2,
)
return self.get_previous_start_date(state=State.SUCCESS)
@provide_session
[docs] def are_dependencies_met(self, dep_context=None, session=None, verbose=False):
"""
Returns whether or not all the conditions are met for this task instance to be run
given the context for the dependencies (e.g. a task instance being force run from
the UI will ignore some dependencies).
:param dep_context: The execution context that determines the dependencies that
should be evaluated.
:type dep_context: DepContext
:param session: database session
:type session: sqlalchemy.orm.session.Session
:param verbose: whether log details on failed dependencies on
info or debug log level
:type verbose: bool
"""
dep_context = dep_context or DepContext()
failed = False
verbose_aware_logger = self.log.info if verbose else self.log.debug
for dep_status in self.get_failed_dep_statuses(dep_context=dep_context, session=session):
failed = True
verbose_aware_logger(
"Dependencies not met for %s, dependency '%s' FAILED: %s",
self,
dep_status.dep_name,
dep_status.reason,
)
if failed:
return False
verbose_aware_logger("Dependencies all met for %s", self)
return True
@provide_session
[docs] def get_failed_dep_statuses(self, dep_context=None, session=None):
"""Get failed Dependencies"""
dep_context = dep_context or DepContext()
for dep in dep_context.deps | self.task.deps:
for dep_status in dep.get_dep_statuses(self, session, dep_context):
self.log.debug(
"%s dependency '%s' PASSED: %s, %s",
self,
dep_status.dep_name,
dep_status.passed,
dep_status.reason,
)
if not dep_status.passed:
yield dep_status
[docs] def __repr__(self):
return f"<TaskInstance: {self.dag_id}.{self.task_id} {self.execution_date} [{self.state}]>"
[docs] def next_retry_datetime(self):
"""
Get datetime of the next retry if the task instance fails. For exponential
backoff, retry_delay is used as base and will be converted to seconds.
"""
delay = self.task.retry_delay
if self.task.retry_exponential_backoff:
# If the min_backoff calculation is below 1, it will be converted to 0 via int. Thus,
# we must round up prior to converting to an int, otherwise a divide by zero error
# will occur in the modded_hash calculation.
min_backoff = int(math.ceil(delay.total_seconds() * (2 ** (self.try_number - 2))))
# deterministic per task instance
ti_hash = int(
hashlib.sha1(
"{}#{}#{}#{}".format(
self.dag_id, self.task_id, self.execution_date, self.try_number # noqa
).encode('utf-8')
).hexdigest(),
16,
)
# between 1 and 1.0 * delay * (2^retry_number)
modded_hash = min_backoff + ti_hash % min_backoff
# timedelta has a maximum representable value. The exponentiation
# here means this value can be exceeded after a certain number
# of tries (around 50 if the initial delay is 1s, even fewer if
# the delay is larger). Cap the value here before creating a
# timedelta object so the operation doesn't fail.
delay_backoff_in_seconds = min(modded_hash, timedelta.max.total_seconds() - 1)
delay = timedelta(seconds=delay_backoff_in_seconds)
if self.task.max_retry_delay:
delay = min(self.task.max_retry_delay, delay)
return self.end_date + delay
[docs] def ready_for_retry(self):
"""
Checks on whether the task instance is in the right state and timeframe
to be retried.
"""
return self.state == State.UP_FOR_RETRY and self.next_retry_datetime() < timezone.utcnow()
@provide_session
[docs] def get_dagrun(self, session: Session = None):
"""
Returns the DagRun for this TaskInstance
:param session: SQLAlchemy ORM Session
:return: DagRun
"""
from airflow.models.dagrun import DagRun # Avoid circular import
dr = (
session.query(DagRun)
.filter(DagRun.dag_id == self.dag_id, DagRun.execution_date == self.execution_date)
.first()
)
return dr
@provide_session
[docs] def check_and_change_state_before_execution( # pylint: disable=too-many-arguments
self,
verbose: bool = True,
ignore_all_deps: bool = False,
ignore_depends_on_past: bool = False,
ignore_task_deps: bool = False,
ignore_ti_state: bool = False,
mark_success: bool = False,
test_mode: bool = False,
job_id: Optional[str] = None,
pool: Optional[str] = None,
session=None,
) -> bool:
"""
Checks dependencies and then sets state to RUNNING if they are met. Returns
True if and only if state is set to RUNNING, which implies that task should be
executed, in preparation for _run_raw_task
:param verbose: whether to turn on more verbose logging
:type verbose: bool
:param ignore_all_deps: Ignore all of the non-critical dependencies, just runs
:type ignore_all_deps: bool
:param ignore_depends_on_past: Ignore depends_on_past DAG attribute
:type ignore_depends_on_past: bool
:param ignore_task_deps: Don't check the dependencies of this TaskInstance's task
:type ignore_task_deps: bool
:param ignore_ti_state: Disregards previous task instance state
:type ignore_ti_state: bool
:param mark_success: Don't run the task, mark its state as success
:type mark_success: bool
:param test_mode: Doesn't record success or failure in the DB
:type test_mode: bool
:param job_id: Job (BackfillJob / LocalTaskJob / SchedulerJob) ID
:type job_id: str
:param pool: specifies the pool to use to run the task instance
:type pool: str
:param session: SQLAlchemy ORM Session
:type session: Session
:return: whether the state was changed to running or not
:rtype: bool
"""
task = self.task
self.refresh_from_task(task, pool_override=pool)
self.test_mode = test_mode
self.refresh_from_db(session=session, lock_for_update=True)
self.job_id = job_id
self.hostname = get_hostname()
if not ignore_all_deps and not ignore_ti_state and self.state == State.SUCCESS:
Stats.incr('previously_succeeded', 1, 1)
# TODO: Logging needs cleanup, not clear what is being printed
hr_line_break = "\n" + ("-" * 80) # Line break
if not mark_success:
# Firstly find non-runnable and non-requeueable tis.
# Since mark_success is not set, we do nothing.
non_requeueable_dep_context = DepContext(
deps=RUNNING_DEPS - REQUEUEABLE_DEPS,
ignore_all_deps=ignore_all_deps,
ignore_ti_state=ignore_ti_state,
ignore_depends_on_past=ignore_depends_on_past,
ignore_task_deps=ignore_task_deps,
)
if not self.are_dependencies_met(
dep_context=non_requeueable_dep_context, session=session, verbose=True
):
session.commit()
return False
# For reporting purposes, we report based on 1-indexed,
# not 0-indexed lists (i.e. Attempt 1 instead of
# Attempt 0 for the first attempt).
# Set the task start date. In case it was re-scheduled use the initial
# start date that is recorded in task_reschedule table
self.start_date = timezone.utcnow()
if self.state == State.UP_FOR_RESCHEDULE:
task_reschedule: TR = TR.query_for_task_instance(self, session=session).first()
if task_reschedule:
self.start_date = task_reschedule.start_date
# Secondly we find non-runnable but requeueable tis. We reset its state.
# This is because we might have hit concurrency limits,
# e.g. because of backfilling.
dep_context = DepContext(
deps=REQUEUEABLE_DEPS,
ignore_all_deps=ignore_all_deps,
ignore_depends_on_past=ignore_depends_on_past,
ignore_task_deps=ignore_task_deps,
ignore_ti_state=ignore_ti_state,
)
if not self.are_dependencies_met(dep_context=dep_context, session=session, verbose=True):
self.state = State.NONE
self.log.warning(hr_line_break)
self.log.warning(
"Rescheduling due to concurrency limits reached "
"at task runtime. Attempt %s of "
"%s. State set to NONE.",
self.try_number,
self.max_tries + 1,
)
self.log.warning(hr_line_break)
self.queued_dttm = timezone.utcnow()
session.merge(self)
session.commit()
return False
# print status message
self.log.info(hr_line_break)
self.log.info("Starting attempt %s of %s", self.try_number, self.max_tries + 1)
self.log.info(hr_line_break)
self._try_number += 1
if not test_mode:
session.add(Log(State.RUNNING, self))
self.state = State.RUNNING
self.pid = os.getpid()
self.end_date = None
if not test_mode:
session.merge(self)
session.commit()
# Closing all pooled connections to prevent
# "max number of connections reached"
settings.engine.dispose() # type: ignore
if verbose:
if mark_success:
self.log.info("Marking success for %s on %s", self.task, self.execution_date)
else:
self.log.info("Executing %s on %s", self.task, self.execution_date)
return True
[docs] def _date_or_empty(self, attr):
if hasattr(self, attr):
date = getattr(self, attr)
if date:
return date.strftime('%Y%m%dT%H%M%S')
return ''
@provide_session
@Sentry.enrich_errors
[docs] def _run_raw_task(
self,
mark_success: bool = False,
test_mode: bool = False,
job_id: Optional[str] = None,
pool: Optional[str] = None,
session=None,
) -> None:
"""
Immediately runs the task (without checking or changing db state
before execution) and then sets the appropriate final state after
completion and runs any post-execute callbacks. Meant to be called
only after another function changes the state to running.
:param mark_success: Don't run the task, mark its state as success
:type mark_success: bool
:param test_mode: Doesn't record success or failure in the DB
:type test_mode: bool
:param pool: specifies the pool to use to run the task instance
:type pool: str
:param session: SQLAlchemy ORM Session
:type session: Session
"""
task = self.task
self.test_mode = test_mode
self.refresh_from_task(task, pool_override=pool)
self.refresh_from_db(session=session)
self.job_id = job_id
self.hostname = get_hostname()
context = {} # type: Dict
actual_start_date = timezone.utcnow()
Stats.incr(f'ti.start.{task.dag_id}.{task.task_id}')
try:
if not mark_success:
context = self.get_template_context()
self._prepare_and_execute_task_with_callbacks(context, task)
self.refresh_from_db(lock_for_update=True)
self.state = State.SUCCESS
except AirflowSmartSensorException as e:
self.log.info(e)
return
except AirflowSkipException as e:
# Recording SKIP
# log only if exception has any arguments to prevent log flooding
if e.args:
self.log.info(e)
self.refresh_from_db(lock_for_update=True)
self.state = State.SKIPPED
self.log.info(
'Marking task as SKIPPED. '
'dag_id=%s, task_id=%s, execution_date=%s, start_date=%s, end_date=%s',
self.dag_id,
self.task_id,
self._date_or_empty('execution_date'),
self._date_or_empty('start_date'),
self._date_or_empty('end_date'),
)
except AirflowRescheduleException as reschedule_exception:
self.refresh_from_db()
self._handle_reschedule(actual_start_date, reschedule_exception, test_mode)
return
except AirflowFailException as e:
self.refresh_from_db()
self.handle_failure(e, test_mode, context, force_fail=True)
raise
except AirflowException as e:
self.refresh_from_db()
# for case when task is marked as success/failed externally
# current behavior doesn't hit the success callback
if self.state in {State.SUCCESS, State.FAILED}:
return
else:
self.handle_failure(e, test_mode, context)
raise
except (Exception, KeyboardInterrupt) as e:
self.handle_failure(e, test_mode, context)
raise
finally:
Stats.incr(f'ti.finish.{task.dag_id}.{task.task_id}.{self.state}')
self._run_success_callback(context, task)
# Recording SUCCESS
self.end_date = timezone.utcnow()
self.log.info(
'Marking task as SUCCESS. '
'dag_id=%s, task_id=%s, execution_date=%s, start_date=%s, end_date=%s',
self.dag_id,
self.task_id,
self._date_or_empty('execution_date'),
self._date_or_empty('start_date'),
self._date_or_empty('end_date'),
)
self.set_duration()
if not test_mode:
session.add(Log(self.state, self))
session.merge(self)
session.commit()
if not test_mode:
self._run_mini_scheduler_on_child_tasks(session)
@provide_session
@Sentry.enrich_errors
[docs] def _run_mini_scheduler_on_child_tasks(self, session=None) -> None:
if conf.getboolean('scheduler', 'schedule_after_task_execution', fallback=True):
from airflow.models.dagrun import DagRun # Avoid circular import
try:
# Re-select the row with a lock
dag_run = with_row_locks(
session.query(DagRun).filter_by(
dag_id=self.dag_id,
execution_date=self.execution_date,
)
).one()
# Get a partial dag with just the specific tasks we want to
# examine. In order for dep checks to work correctly, we
# include ourself (so TriggerRuleDep can check the state of the
# task we just executed)
partial_dag = self.task.dag.partial_subset(
self.task.downstream_task_ids,
include_downstream=False,
include_upstream=False,
include_direct_upstream=True,
)
dag_run.dag = partial_dag
info = dag_run.task_instance_scheduling_decisions(session)
skippable_task_ids = {
task_id
for task_id in partial_dag.task_ids
if task_id not in self.task.downstream_task_ids
}
schedulable_tis = [ti for ti in info.schedulable_tis if ti.task_id not in skippable_task_ids]
for schedulable_ti in schedulable_tis:
if not hasattr(schedulable_ti, "task"):
schedulable_ti.task = self.task.dag.get_task(schedulable_ti.task_id)
num = dag_run.schedule_tis(schedulable_tis)
self.log.info("%d downstream tasks scheduled from follow-on schedule check", num)
session.commit()
except OperationalError as e:
# Any kind of DB error here is _non fatal_ as this block is just an optimisation.
self.log.info(
f"Skipping mini scheduling run due to exception: {e.statement}",
exc_info=True,
)
session.rollback()
[docs] def _prepare_and_execute_task_with_callbacks(self, context, task):
"""Prepare Task for Execution"""
from airflow.models.renderedtifields import RenderedTaskInstanceFields
task_copy = task.prepare_for_execution()
self.task = task_copy
def signal_handler(signum, frame): # pylint: disable=unused-argument
self.log.error("Received SIGTERM. Terminating subprocesses.")
task_copy.on_kill()
raise AirflowException("Task received SIGTERM signal")
signal.signal(signal.SIGTERM, signal_handler)
# Don't clear Xcom until the task is certain to execute
self.clear_xcom_data()
with Stats.timer(f'dag.{task_copy.dag_id}.{task_copy.task_id}.duration'):
self.render_templates(context=context)
RenderedTaskInstanceFields.write(RenderedTaskInstanceFields(ti=self, render_templates=False))
RenderedTaskInstanceFields.delete_old_records(self.task_id, self.dag_id)
# Export context to make it available for operators to use.
airflow_context_vars = context_to_airflow_vars(context, in_env_var_format=True)
self.log.info(
"Exporting the following env vars:\n%s",
'\n'.join([f"{k}={v}" for k, v in airflow_context_vars.items()]),
)
os.environ.update(airflow_context_vars)
# Run pre_execute callback
task_copy.pre_execute(context=context)
# Run on_execute callback
self._run_execute_callback(context, task)
if task_copy.is_smart_sensor_compatible():
# Try to register it in the smart sensor service.
registered = False
try:
registered = task_copy.register_in_sensor_service(self, context)
except Exception as e:
self.log.warning(
"Failed to register in sensor service.Continue to run task in non smart sensor mode."
)
self.log.exception(e, exc_info=True)
if registered:
# Will raise AirflowSmartSensorException to avoid long running execution.
self._update_ti_state_for_sensing()
# Execute the task
with set_current_context(context):
result = self._execute_task(context, task_copy)
# Run post_execute callback
task_copy.post_execute(context=context, result=result)
Stats.incr(f'operator_successes_{self.task.task_type}', 1, 1)
Stats.incr('ti_successes')
@provide_session
[docs] def _update_ti_state_for_sensing(self, session=None):
self.log.info('Submitting %s to sensor service', self)
self.state = State.SENSING
self.start_date = timezone.utcnow()
session.merge(self)
session.commit()
# Raise exception for sensing state
raise AirflowSmartSensorException("Task successfully registered in smart sensor.")
[docs] def _run_success_callback(self, context, task):
"""Functions that need to be run if Task is successful"""
# Success callback
try:
if task.on_success_callback:
task.on_success_callback(context)
except Exception as exc: # pylint: disable=broad-except
self.log.error("Failed when executing success callback")
self.log.exception(exc)
[docs] def _execute_task(self, context, task_copy):
"""Executes Task (optionally with a Timeout) and pushes Xcom results"""
# If a timeout is specified for the task, make it fail
# if it goes beyond
if task_copy.execution_timeout:
try:
with timeout(task_copy.execution_timeout.total_seconds()):
result = task_copy.execute(context=context)
except AirflowTaskTimeout:
task_copy.on_kill()
raise
else:
result = task_copy.execute(context=context)
# If the task returns a result, push an XCom containing it
if task_copy.do_xcom_push and result is not None:
self.xcom_push(key=XCOM_RETURN_KEY, value=result)
return result
[docs] def _run_execute_callback(self, context, task):
"""Functions that need to be run before a Task is executed"""
try:
if task.on_execute_callback:
task.on_execute_callback(context)
except Exception as exc: # pylint: disable=broad-except
self.log.error("Failed when executing execute callback")
self.log.exception(exc)
@provide_session
[docs] def run( # pylint: disable=too-many-arguments
self,
verbose: bool = True,
ignore_all_deps: bool = False,
ignore_depends_on_past: bool = False,
ignore_task_deps: bool = False,
ignore_ti_state: bool = False,
mark_success: bool = False,
test_mode: bool = False,
job_id: Optional[str] = None,
pool: Optional[str] = None,
session=None,
) -> None:
"""Run TaskInstance"""
res = self.check_and_change_state_before_execution(
verbose=verbose,
ignore_all_deps=ignore_all_deps,
ignore_depends_on_past=ignore_depends_on_past,
ignore_task_deps=ignore_task_deps,
ignore_ti_state=ignore_ti_state,
mark_success=mark_success,
test_mode=test_mode,
job_id=job_id,
pool=pool,
session=session,
)
if res:
self._run_raw_task(
mark_success=mark_success, test_mode=test_mode, job_id=job_id, pool=pool, session=session
)
[docs] def dry_run(self):
"""Only Renders Templates for the TI"""
task = self.task
task_copy = task.prepare_for_execution()
self.task = task_copy
self.render_templates()
task_copy.dry_run()
@provide_session
[docs] def _handle_reschedule(self, actual_start_date, reschedule_exception, test_mode=False, session=None):
# Don't record reschedule request in test mode
if test_mode:
return
self.end_date = timezone.utcnow()
self.set_duration()
# Log reschedule request
session.add(
TaskReschedule(
self.task,
self.execution_date,
self._try_number,
actual_start_date,
self.end_date,
reschedule_exception.reschedule_date,
)
)
# set state
self.state = State.UP_FOR_RESCHEDULE
# Decrement try_number so subsequent runs will use the same try number and write
# to same log file.
self._try_number -= 1
session.merge(self)
session.commit()
self.log.info('Rescheduling task, marking task as UP_FOR_RESCHEDULE')
@provide_session
[docs] def handle_failure(self, error, test_mode=None, context=None, force_fail=False, session=None):
"""Handle Failure for the TaskInstance"""
if test_mode is None:
test_mode = self.test_mode
if context is None:
context = self.get_template_context()
self.log.exception(error)
task = self.task
self.end_date = timezone.utcnow()
self.set_duration()
Stats.incr(f'operator_failures_{task.task_type}', 1, 1)
Stats.incr('ti_failures')
if not test_mode:
session.add(Log(State.FAILED, self))
# Log failure duration
session.add(TaskFail(task, self.execution_date, self.start_date, self.end_date))
if context is not None:
context['exception'] = error
# Set state correctly and figure out how to log it,
# what callback to call if any, and how to decide whether to email
# Since this function is called only when the TaskInstance state is running,
# try_number contains the current try_number (not the next). We
# only mark task instance as FAILED if the next task instance
# try_number exceeds the max_tries ... or if force_fail is truthy
if force_fail or not self.is_eligible_to_retry():
self.state = State.FAILED
if force_fail:
log_message = "Immediate failure requested. Marking task as FAILED."
else:
log_message = "Marking task as FAILED."
email_for_state = task.email_on_failure
callback = task.on_failure_callback
else:
self.state = State.UP_FOR_RETRY
log_message = "Marking task as UP_FOR_RETRY."
email_for_state = task.email_on_retry
callback = task.on_retry_callback
self.log.info(
'%s dag_id=%s, task_id=%s, execution_date=%s, start_date=%s, end_date=%s',
log_message,
self.dag_id,
self.task_id,
self._safe_date('execution_date', '%Y%m%dT%H%M%S'),
self._safe_date('start_date', '%Y%m%dT%H%M%S'),
self._safe_date('end_date', '%Y%m%dT%H%M%S'),
)
if email_for_state and task.email:
try:
self.email_alert(error)
except Exception as exec2: # pylint: disable=broad-except
self.log.error('Failed to send email to: %s', task.email)
self.log.exception(exec2)
# Handling callbacks pessimistically
if callback:
try:
callback(context)
except Exception as exec3: # pylint: disable=broad-except
self.log.error("Failed at executing callback")
self.log.exception(exec3)
if not test_mode:
session.merge(self)
session.commit()
[docs] def is_eligible_to_retry(self):
"""Is task instance is eligible for retry"""
return self.task.retries and self.try_number <= self.max_tries
[docs] def _safe_date(self, date_attr, fmt):
result = getattr(self, date_attr, None)
if result is not None:
return result.strftime(fmt)
return ''
@provide_session
[docs] def get_template_context(self, session=None) -> Context: # pylint: disable=too-many-locals
"""Return TI Context"""
task = self.task
from airflow import macros
integrate_macros_plugins()
params = {} # type: Dict[str, Any]
run_id = ''
dag_run = None
if hasattr(task, 'dag'):
if task.dag.params:
params.update(task.dag.params)
from airflow.models.dagrun import DagRun # Avoid circular import
dag_run = (
session.query(DagRun)
.filter_by(dag_id=task.dag.dag_id, execution_date=self.execution_date)
.first()
)
run_id = dag_run.run_id if dag_run else None
session.expunge_all()
session.commit()
ds = self.execution_date.strftime('%Y-%m-%d')
ts = self.execution_date.isoformat()
yesterday_ds = (self.execution_date - timedelta(1)).strftime('%Y-%m-%d')
tomorrow_ds = (self.execution_date + timedelta(1)).strftime('%Y-%m-%d')
# For manually triggered dagruns that aren't run on a schedule, next/previous
# schedule dates don't make sense, and should be set to execution date for
# consistency with how execution_date is set for manually triggered tasks, i.e.
# triggered_date == execution_date.
if dag_run and dag_run.external_trigger:
prev_execution_date = self.execution_date
next_execution_date = self.execution_date
else:
prev_execution_date = task.dag.previous_schedule(self.execution_date)
next_execution_date = task.dag.following_schedule(self.execution_date)
next_ds = None
next_ds_nodash = None
if next_execution_date:
next_ds = next_execution_date.strftime('%Y-%m-%d')
next_ds_nodash = next_ds.replace('-', '')
next_execution_date = pendulum.instance(next_execution_date)
prev_ds = None
prev_ds_nodash = None
if prev_execution_date:
prev_ds = prev_execution_date.strftime('%Y-%m-%d')
prev_ds_nodash = prev_ds.replace('-', '')
prev_execution_date = pendulum.instance(prev_execution_date)
ds_nodash = ds.replace('-', '')
ts_nodash = self.execution_date.strftime('%Y%m%dT%H%M%S')
ts_nodash_with_tz = ts.replace('-', '').replace(':', '')
yesterday_ds_nodash = yesterday_ds.replace('-', '')
tomorrow_ds_nodash = tomorrow_ds.replace('-', '')
ti_key_str = "{dag_id}__{task_id}__{ds_nodash}".format(
dag_id=task.dag_id, task_id=task.task_id, ds_nodash=ds_nodash
)
if task.params:
params.update(task.params)
if conf.getboolean('core', 'dag_run_conf_overrides_params'):
self.overwrite_params_with_dag_run_conf(params=params, dag_run=dag_run)
class VariableAccessor:
"""
Wrapper around Variable. This way you can get variables in
templates by using ``{{ var.value.variable_name }}`` or
``{{ var.value.get('variable_name', 'fallback') }}``.
"""
def __init__(self):
self.var = None
def __getattr__(
self,
item: str,
):
self.var = Variable.get(item)
return self.var
def __repr__(self):
return str(self.var)
@staticmethod
def get(
item: str,
# pylint: disable=protected-access
default_var: Any = Variable._Variable__NO_DEFAULT_SENTINEL, # noqa
):
"""Get Airflow Variable value"""
return Variable.get(item, default_var=default_var)
class VariableJsonAccessor:
"""
Wrapper around Variable. This way you can get variables in
templates by using ``{{ var.json.variable_name }}`` or
``{{ var.json.get('variable_name', {'fall': 'back'}) }}``.
"""
def __init__(self):
self.var = None
def __getattr__(
self,
item: str,
):
self.var = Variable.get(item, deserialize_json=True)
return self.var
def __repr__(self):
return str(self.var)
@staticmethod
def get(
item: str,
# pylint: disable=protected-access
default_var: Any = Variable._Variable__NO_DEFAULT_SENTINEL, # noqa
):
"""Get Airflow Variable after deserializing JSON value"""
return Variable.get(item, default_var=default_var, deserialize_json=True)
return {
'conf': conf,
'dag': task.dag,
'dag_run': dag_run,
'ds': ds,
'ds_nodash': ds_nodash,
'execution_date': pendulum.instance(self.execution_date),
'inlets': task.inlets,
'macros': macros,
'next_ds': next_ds,
'next_ds_nodash': next_ds_nodash,
'next_execution_date': next_execution_date,
'outlets': task.outlets,
'params': params,
'prev_ds': prev_ds,
'prev_ds_nodash': prev_ds_nodash,
'prev_execution_date': prev_execution_date,
'prev_execution_date_success': lazy_object_proxy.Proxy(
lambda: self.get_previous_execution_date(state=State.SUCCESS)
),
'prev_start_date_success': lazy_object_proxy.Proxy(
lambda: self.get_previous_start_date(state=State.SUCCESS)
),
'run_id': run_id,
'task': task,
'task_instance': self,
'task_instance_key_str': ti_key_str,
'test_mode': self.test_mode,
'ti': self,
'tomorrow_ds': tomorrow_ds,
'tomorrow_ds_nodash': tomorrow_ds_nodash,
'ts': ts,
'ts_nodash': ts_nodash,
'ts_nodash_with_tz': ts_nodash_with_tz,
'var': {
'json': VariableJsonAccessor(),
'value': VariableAccessor(),
},
'yesterday_ds': yesterday_ds,
'yesterday_ds_nodash': yesterday_ds_nodash,
}
[docs] def get_rendered_template_fields(self):
"""Fetch rendered template fields from DB"""
from airflow.models.renderedtifields import RenderedTaskInstanceFields
rendered_task_instance_fields = RenderedTaskInstanceFields.get_templated_fields(self)
if rendered_task_instance_fields:
for field_name, rendered_value in rendered_task_instance_fields.items():
setattr(self.task, field_name, rendered_value)
else:
try:
self.render_templates()
except (TemplateAssertionError, UndefinedError) as e:
raise AirflowException(
"Webserver does not have access to User-defined Macros or Filters "
"when Dag Serialization is enabled. Hence for the task that have not yet "
"started running, please use 'airflow tasks render' for debugging the "
"rendering of template_fields."
) from e
[docs] def get_rendered_k8s_spec(self):
"""Fetch rendered template fields from DB"""
from airflow.models.renderedtifields import RenderedTaskInstanceFields
rendered_k8s_spec = RenderedTaskInstanceFields.get_k8s_pod_yaml(self)
if not rendered_k8s_spec:
try:
rendered_k8s_spec = self.render_k8s_pod_yaml()
except (TemplateAssertionError, UndefinedError) as e:
raise AirflowException(f"Unable to render a k8s spec for this taskinstance: {e}") from e
return rendered_k8s_spec
[docs] def overwrite_params_with_dag_run_conf(self, params, dag_run):
"""Overwrite Task Params with DagRun.conf"""
if dag_run and dag_run.conf:
self.log.debug("Updating task params (%s) with DagRun.conf (%s)", params, dag_run.conf)
params.update(dag_run.conf)
[docs] def render_templates(self, context: Optional[Context] = None) -> None:
"""Render templates in the operator fields."""
if not context:
context = self.get_template_context()
self.task.render_template_fields(context)
[docs] def render_k8s_pod_yaml(self) -> Optional[dict]:
"""Render k8s pod yaml"""
kube_config = KubeConfig()
pod = PodGenerator.construct_pod(
dag_id=self.dag_id,
task_id=self.task_id,
pod_id=create_pod_id(self.dag_id, self.task_id),
try_number=self.try_number,
kube_image=kube_config.kube_image,
date=self.execution_date,
args=self.command_as_list(),
pod_override_object=PodGenerator.from_obj(self.executor_config),
scheduler_job_id="worker-config",
namespace=kube_config.executor_namespace,
base_worker_pod=PodGenerator.deserialize_model_file(kube_config.pod_template_file),
)
settings.pod_mutation_hook(pod)
sanitized_pod = ApiClient().sanitize_for_serialization(pod)
return sanitized_pod
[docs] def get_email_subject_content(self, exception):
"""Get the email subject content for exceptions."""
# For a ti from DB (without ti.task), return the default value
# Reuse it for smart sensor to send default email alert
use_default = not hasattr(self, 'task')
exception_html = str(exception).replace('\n', '<br>')
default_subject = 'Airflow alert: {{ti}}'
# For reporting purposes, we report based on 1-indexed,
# not 0-indexed lists (i.e. Try 1 instead of
# Try 0 for the first attempt).
default_html_content = (
'Try {{try_number}} out of {{max_tries + 1}}<br>'
'Exception:<br>{{exception_html}}<br>'
'Log: <a href="{{ti.log_url}}">Link</a><br>'
'Host: {{ti.hostname}}<br>'
'Log file: {{ti.log_filepath}}<br>'
'Mark success: <a href="{{ti.mark_success_url}}">Link</a><br>'
)
default_html_content_err = (
'Try {{try_number}} out of {{max_tries + 1}}<br>'
'Exception:<br>Failed attempt to attach error logs<br>'
'Log: <a href="{{ti.log_url}}">Link</a><br>'
'Host: {{ti.hostname}}<br>'
'Log file: {{ti.log_filepath}}<br>'
'Mark success: <a href="{{ti.mark_success_url}}">Link</a><br>'
)
if use_default:
jinja_context = {'ti': self}
# This function is called after changing the state
# from State.RUNNING so need to subtract 1 from self.try_number.
jinja_context.update(
dict(
exception=exception,
exception_html=exception_html,
try_number=self.try_number - 1,
max_tries=self.max_tries,
)
)
jinja_env = jinja2.Environment(
loader=jinja2.FileSystemLoader(os.path.dirname(__file__)), autoescape=True
)
subject = jinja_env.from_string(default_subject).render(**jinja_context)
html_content = jinja_env.from_string(default_html_content).render(**jinja_context)
html_content_err = jinja_env.from_string(default_html_content_err).render(**jinja_context)
else:
jinja_context = self.get_template_context()
jinja_context.update(
dict(
exception=exception,
exception_html=exception_html,
try_number=self.try_number - 1,
max_tries=self.max_tries,
)
)
jinja_env = self.task.get_template_env()
def render(key, content):
if conf.has_option('email', key):
path = conf.get('email', key)
with open(path) as f:
content = f.read()
return jinja_env.from_string(content).render(**jinja_context)
subject = render('subject_template', default_subject)
html_content = render('html_content_template', default_html_content)
html_content_err = render('html_content_template', default_html_content_err)
return subject, html_content, html_content_err
[docs] def email_alert(self, exception):
"""Send alert email with exception information."""
subject, html_content, html_content_err = self.get_email_subject_content(exception)
try:
send_email(self.task.email, subject, html_content)
except Exception:
send_email(self.task.email, subject, html_content_err)
[docs] def set_duration(self) -> None:
"""Set TI duration"""
if self.end_date and self.start_date:
self.duration = (self.end_date - self.start_date).total_seconds()
else:
self.duration = None
self.log.debug("Task Duration set to %s", self.duration)
@provide_session
[docs] def xcom_push(
self,
key: str,
value: Any,
execution_date: Optional[datetime] = None,
session: Session = None,
) -> None:
"""
Make an XCom available for tasks to pull.
:param key: A key for the XCom
:type key: str
:param value: A value for the XCom. The value is pickled and stored
in the database.
:type value: any picklable object
:param execution_date: if provided, the XCom will not be visible until
this date. This can be used, for example, to send a message to a
task on a future date without it being immediately visible.
:type execution_date: datetime
:param session: Sqlalchemy ORM Session
:type session: Session
"""
if execution_date and execution_date < self.execution_date:
raise ValueError(
'execution_date can not be in the past (current '
'execution_date is {}; received {})'.format(self.execution_date, execution_date)
)
XCom.set(
key=key,
value=value,
task_id=self.task_id,
dag_id=self.dag_id,
execution_date=execution_date or self.execution_date,
session=session,
)
@provide_session
[docs] def xcom_pull( # pylint: disable=inconsistent-return-statements
self,
task_ids: Optional[Union[str, Iterable[str]]] = None,
dag_id: Optional[str] = None,
key: str = XCOM_RETURN_KEY,
include_prior_dates: bool = False,
session: Session = None,
) -> Any:
"""
Pull XComs that optionally meet certain criteria.
The default value for `key` limits the search to XComs
that were returned by other tasks (as opposed to those that were pushed
manually). To remove this filter, pass key=None (or any desired value).
If a single task_id string is provided, the result is the value of the
most recent matching XCom from that task_id. If multiple task_ids are
provided, a tuple of matching values is returned. None is returned
whenever no matches are found.
:param key: A key for the XCom. If provided, only XComs with matching
keys will be returned. The default key is 'return_value', also
available as a constant XCOM_RETURN_KEY. This key is automatically
given to XComs returned by tasks (as opposed to being pushed
manually). To remove the filter, pass key=None.
:type key: str
:param task_ids: Only XComs from tasks with matching ids will be
pulled. Can pass None to remove the filter.
:type task_ids: str or iterable of strings (representing task_ids)
:param dag_id: If provided, only pulls XComs from this DAG.
If None (default), the DAG of the calling task is used.
:type dag_id: str
:param include_prior_dates: If False, only XComs from the current
execution_date are returned. If True, XComs from previous dates
are returned as well.
:type include_prior_dates: bool
:param session: Sqlalchemy ORM Session
:type session: Session
"""
if dag_id is None:
dag_id = self.dag_id
query = XCom.get_many(
execution_date=self.execution_date,
key=key,
dag_ids=dag_id,
task_ids=task_ids,
include_prior_dates=include_prior_dates,
session=session,
)
# Since we're only fetching the values field, and not the
# whole class, the @recreate annotation does not kick in.
# Therefore we need to deserialize the fields by ourselves.
if is_container(task_ids):
vals_kv = {
result.task_id: XCom.deserialize_value(result)
for result in query.with_entities(XCom.task_id, XCom.value)
}
values_ordered_by_id = [vals_kv.get(task_id) for task_id in task_ids]
return values_ordered_by_id
else:
xcom = query.with_entities(XCom.value).first()
if xcom:
return XCom.deserialize_value(xcom)
@provide_session
[docs] def get_num_running_task_instances(self, session):
"""Return Number of running TIs from the DB"""
# .count() is inefficient
return (
session.query(func.count())
.filter(
TaskInstance.dag_id == self.dag_id,
TaskInstance.task_id == self.task_id,
TaskInstance.state == State.RUNNING,
)
.scalar()
)
[docs] def init_run_context(self, raw=False):
"""Sets the log context."""
self.raw = raw
self._set_context(self)
@staticmethod
[docs] def filter_for_tis(tis: Iterable[Union["TaskInstance", TaskInstanceKey]]) -> Optional[BooleanClauseList]:
"""Returns SQLAlchemy filter to query selected task instances"""
if not tis:
return None
# DictKeys type, (what we often pass here from the scheduler) is not directly indexable :(
first = list(tis)[0]
dag_id = first.dag_id
execution_date = first.execution_date
first_task_id = first.task_id
# Common path optimisations: when all TIs are for the same dag_id and execution_date, or same dag_id
# and task_id -- this can be over 150x for huge numbers of TIs (20k+)
if all(t.dag_id == dag_id and t.execution_date == execution_date for t in tis):
return and_(
TaskInstance.dag_id == dag_id,
TaskInstance.execution_date == execution_date,
TaskInstance.task_id.in_(t.task_id for t in tis),
)
if all(t.dag_id == dag_id and t.task_id == first_task_id for t in tis):
return and_(
TaskInstance.dag_id == dag_id,
TaskInstance.execution_date.in_(t.execution_date for t in tis),
TaskInstance.task_id == first_task_id,
)
return or_(
and_(
TaskInstance.dag_id == ti.dag_id,
TaskInstance.task_id == ti.task_id,
TaskInstance.execution_date == ti.execution_date,
)
for ti in tis
)
# State of the task instance.
# Stores string version of the task state.
[docs]TaskInstanceStateType = Tuple[TaskInstanceKey, str]
[docs]class SimpleTaskInstance:
"""
Simplified Task Instance.
Used to send data between processes via Queues.
"""
def __init__(self, ti: TaskInstance):
self._dag_id: str = ti.dag_id
self._task_id: str = ti.task_id
self._execution_date: datetime = ti.execution_date
self._start_date: datetime = ti.start_date
self._end_date: datetime = ti.end_date
self._try_number: int = ti.try_number
self._state: str = ti.state
self._executor_config: Any = ti.executor_config
self._run_as_user: Optional[str] = None
if hasattr(ti, 'run_as_user'):
self._run_as_user = ti.run_as_user
self._pool: str = ti.pool
self._priority_weight: Optional[int] = None
if hasattr(ti, 'priority_weight'):
self._priority_weight = ti.priority_weight
self._queue: str = ti.queue
self._key = ti.key
# pylint: disable=missing-docstring
@property
[docs] def dag_id(self) -> str:
return self._dag_id
@property
[docs] def task_id(self) -> str:
return self._task_id
@property
[docs] def execution_date(self) -> datetime:
return self._execution_date
@property
[docs] def start_date(self) -> datetime:
return self._start_date
@property
[docs] def end_date(self) -> datetime:
return self._end_date
@property
[docs] def try_number(self) -> int:
return self._try_number
@property
[docs] def state(self) -> str:
return self._state
@property
[docs] def pool(self) -> str:
return self._pool
@property
[docs] def priority_weight(self) -> Optional[int]:
return self._priority_weight
@property
[docs] def queue(self) -> str:
return self._queue
@property
[docs] def key(self) -> TaskInstanceKey:
return self._key
@property
[docs] def executor_config(self):
return self._executor_config
@provide_session
[docs] def construct_task_instance(self, session=None, lock_for_update=False) -> TaskInstance:
"""
Construct a TaskInstance from the database based on the primary key
:param session: DB session.
:param lock_for_update: if True, indicates that the database should
lock the TaskInstance (issuing a FOR UPDATE clause) until the
session is committed.
:return: the task instance constructed
"""
qry = session.query(TaskInstance).filter(
TaskInstance.dag_id == self._dag_id,
TaskInstance.task_id == self._task_id,
TaskInstance.execution_date == self._execution_date,
)
if lock_for_update:
ti = qry.with_for_update().first()
else:
ti = qry.first()
return ti
globals()['kcah_acitats'[::-1].upper()] = False
if STATICA_HACK: # pragma: no cover
# Let pylint know about these relationships, without introducing an import cycle
from sqlalchemy.orm import relationship
from airflow.job.base_job import BaseJob
from airflow.models.dagrun import DagRun
[docs] TaskInstance.dag_run = relationship(DagRun)
TaskInstance.queued_by_job = relationship(BaseJob)