Execution Modes#
Cosmos can run dbt
commands using five different approaches, called execution modes
:
local: Run
dbt
commands using a localdbt
installation (default)virtualenv: Run
dbt
commands from Python virtual environments managed by Cosmosdocker: Run
dbt
commands from Docker containers managed by Cosmos (requires a pre-existing Docker image)kubernetes: Run
dbt
commands from Kubernetes Pods managed by Cosmos (requires a pre-existing Docker image)aws_eks: Run
dbt
commands from AWS EKS Pods managed by Cosmos (requires a pre-existing Docker image)azure_container_instance: Run
dbt
commands from Azure Container Instances managed by Cosmos (requires a pre-existing Docker image)gcp_cloud_run_job: Run
dbt
commands from GCP Cloud Run Job instances managed by Cosmos (requires a pre-existing Docker image)airflow_async: (Experimental and introduced since Cosmos 1.7.0) Run the dbt resources from your dbt project asynchronously, by submitting the corresponding compiled SQLs to Apache Airflow’s Deferrable operators
The choice of the execution mode
can vary based on each user’s needs and concerns. For more details, check each execution mode described below.
Execution Mode |
Task Duration |
Environment Isolation |
Cosmos Profile Management |
---|---|---|---|
Local |
Fast |
None |
Yes |
Virtualenv |
Medium |
Lightweight |
Yes |
Docker |
Slow |
Medium |
No |
Kubernetes |
Slow |
High |
No |
AWS_EKS |
Slow |
High |
No |
Azure Container Instance |
Slow |
High |
No |
GCP Cloud Run Job Instance |
Slow |
High |
No |
Airflow Async |
Medium |
None |
Yes |
Local#
By default, Cosmos uses the local
execution mode.
The local
execution mode is the fastest way to run Cosmos operators since they don’t install dbt
nor build docker containers. However, it may not be an option for users using managed Airflow services such as
Google Cloud Composer, since Airflow and dbt
dependencies can conflict (Airflow and dbt dependencies conflicts), the user may not be able to install dbt
in a custom path.
The local
execution mode assumes a dbt
binary is reachable within the Airflow worker node.
If dbt
was not installed as part of the Cosmos packages,
users can define a custom path to dbt
by declaring the argument dbt_executable_path
.
Note
Starting in the 1.4 version, Cosmos tries to leverage the dbt partial parsing (partial_parse.msgpack
) to speed up task execution.
This feature is bound to dbt partial parsing limitations.
Learn more: Partial parsing.
When using the local
execution mode, Cosmos converts Airflow Connections into a native dbt
profiles file (profiles.yml
).
Example of how to use, for instance, when dbt
was installed together with Cosmos:
basic_cosmos_dag = DbtDag(
# dbt/cosmos-specific parameters
project_config=ProjectConfig(
DBT_ROOT_PATH / "jaffle_shop",
),
profile_config=profile_config,
operator_args={
"install_deps": True, # install any necessary dependencies before running any dbt command
"full_refresh": True, # used only in dbt commands that support this flag
},
# normal dag parameters
schedule_interval="@daily",
start_date=datetime(2023, 1, 1),
catchup=False,
dag_id="basic_cosmos_dag",
default_args={"retries": 2},
)
Virtualenv#
If you’re using managed Airflow on GCP (Cloud Composer), for instance, we recommend you use the virtualenv
execution mode.
The virtualenv
mode isolates the Airflow worker dependencies from dbt
by managing a Python virtual environment created during task execution and deleted afterwards.
In this case, users are responsible for declaring which version of dbt
they want to use by giving the argument py_requirements
. This argument can be set directly in operator instances or when instantiating DbtDag
and DbtTaskGroup
as part of operator_args
.
Similar to the local
execution mode, Cosmos converts Airflow Connections into a way dbt
understands them by creating a dbt
profile file (profiles.yml
).
Also similar to the local
execution mode, Cosmos will by default attempt to use a partial_parse.msgpack
if one exists to speed up parsing.
Some drawbacks of this approach:
It is slower than
local
because it creates a new Python virtual environment for each Cosmos dbt task run.If dbt is unavailable in the Airflow scheduler, the default
LoadMode.DBT_LS
will not work. In this scenario, users must use a parsing method that does not rely on dbt, such asLoadMode.MANIFEST
.Only
InvocationMode.SUBPROCESS
is supported currently, attempt to useInvocationMode.DBT_RUNNER
will raise error.
Example of how to use:
@dag(
schedule_interval="@daily",
start_date=datetime(2023, 1, 1),
catchup=False,
)
def example_virtualenv() -> None:
start_task = EmptyOperator(task_id="start-venv-examples")
end_task = EmptyOperator(task_id="end-venv-examples")
# This first task group creates a new Cosmos virtualenv every time a task is run
# and deletes it afterwards
# It is much slower than if the user sets the `virtualenv_dir`
tmp_venv_task_group = DbtTaskGroup(
group_id="tmp-venv-group",
# dbt/cosmos-specific parameters
project_config=ProjectConfig(
DBT_ROOT_PATH / "jaffle_shop",
),
profile_config=profile_config,
execution_config=ExecutionConfig(
execution_mode=ExecutionMode.VIRTUALENV,
# Without setting virtualenv_dir="/some/path/persistent-venv",
# Cosmos creates a new Python virtualenv for each dbt task being executed
),
operator_args={
"py_system_site_packages": False,
"py_requirements": ["dbt-postgres"],
"install_deps": True,
"emit_datasets": False, # Example of how to not set inlets and outlets
},
)
# The following task group reuses the Cosmos-managed Python virtualenv across multiple tasks.
# It runs approximately 70% faster than the previous TaskGroup.
cached_venv_task_group = DbtTaskGroup(
group_id="cached-venv-group",
# dbt/cosmos-specific parameters
project_config=ProjectConfig(
DBT_ROOT_PATH / "jaffle_shop",
),
profile_config=profile_config,
execution_config=ExecutionConfig(
execution_mode=ExecutionMode.VIRTUALENV,
# We can set the argument `virtualenv_dir` if we want Cosmos to create one Python virtualenv
# and reuse that to run all the dbt tasks within the same worker node
virtualenv_dir=Path("/tmp/persistent-venv2"),
),
operator_args={
"py_system_site_packages": False,
"py_requirements": ["dbt-postgres"],
"install_deps": True,
},
)
start_task >> [tmp_venv_task_group, cached_venv_task_group] >> end_task
example_virtualenv()
Docker#
The docker
approach assumes users have a previously created Docker image, which should contain all the dbt
pipelines and a profiles.yml
, managed by the user.
The user has better environment isolation than when using local
or virtualenv
modes, but also more responsibility (ensuring the Docker container used has up-to-date files and managing secrets potentially in multiple places).
The other challenge with the docker
approach is if the Airflow worker is already running in Docker, which sometimes can lead to challenges running Docker in Docker.
This approach can be significantly slower than virtualenv
since it may have to build the Docker
container, which is slower than creating a Virtualenv with dbt-core
.
If dbt is unavailable in the Airflow scheduler, the default LoadMode.DBT_LS
will not work. In this scenario, users must use a parsing method that does not rely on dbt, such as LoadMode.MANIFEST
.
Check the step-by-step guide on using the docker
execution mode at Docker Execution Mode.
Example DAG:
docker_cosmos_dag = DbtDag(
# ...
execution_config=ExecutionConfig(
execution_mode=ExecutionMode.DOCKER,
),
operator_args={
"image": "dbt-jaffle-shop:1.0.0",
"network_mode": "bridge",
},
)
Kubernetes#
The kubernetes
approach is a very isolated way of running dbt
since the dbt
run commands from within a Kubernetes Pod, usually in a separate host.
It assumes the user has a Kubernetes cluster. It also expects the user to ensure the Docker container has up-to-date dbt
pipelines and profiles, potentially leading the user to declare secrets in two places (Airflow and Docker container).
The Kubernetes
deployment may be slower than Docker
and Virtualenv
assuming that the container image is built (which is slower than creating a Python virtualenv
and installing dbt-core
) and the Airflow task needs to spin up a new Pod
in Kubernetes.
Check the step-by-step guide on using the kubernetes
execution mode at Kubernetes Execution Mode.
Example DAG:
load_seeds = DbtSeedKubernetesOperator(
task_id="load_seeds",
project_dir="dags/dbt/jaffle_shop",
get_logs=True,
schema="public",
image=DBT_IMAGE,
is_delete_operator_pod=False,
secrets=[postgres_password_secret, postgres_host_secret],
profile_config=ProfileConfig(
profile_name="postgres_profile",
target_name="dev",
profile_mapping=PostgresUserPasswordProfileMapping(
conn_id="postgres_default",
profile_args={
"schema": "public",
},
),
),
)
AWS_EKS#
The aws_eks
approach is very similar to the kubernetes
approach, but it is specifically designed to run on AWS EKS clusters.
It uses the EKSPodOperator
to run the dbt commands. You need to provide the cluster_name
in your operator_args to connect to the AWS EKS cluster.
Example DAG:
postgres_password_secret = Secret(
deploy_type="env",
deploy_target="POSTGRES_PASSWORD",
secret="postgres-secrets",
key="password",
)
docker_cosmos_dag = DbtDag(
# ...
execution_config=ExecutionConfig(
execution_mode=ExecutionMode.AWS_EKS,
),
operator_args={
"image": "dbt-jaffle-shop:1.0.0",
"cluster_name": CLUSTER_NAME,
"get_logs": True,
"is_delete_operator_pod": False,
"secrets": [postgres_password_secret],
},
)
Azure Container Instance#
Added in version 1.4.
Similar to the kubernetes
approach, using Azure Container Instances
as the execution mode gives a very isolated way of running dbt
, since the dbt
run itself is run within a container running in an Azure Container Instance.
This execution mode requires the user has an Azure environment that can be used to run Azure Container Groups in (see Azure Container Instance Execution Mode for more details on the exact requirements). Similarly to the Docker
and Kubernetes
execution modes, a Docker container should be available, containing the up-to-date dbt
pipelines and profiles.
Each task will create a new container on Azure, giving full isolation. This, however, comes at the cost of speed, as this separation of tasks introduces some overhead. Please checkout the step-by-step guide for using Azure Container Instance as the execution mode
docker_cosmos_dag = DbtDag(
# ...
execution_config=ExecutionConfig(
execution_mode=ExecutionMode.AZURE_CONTAINER_INSTANCE
),
operator_args={
"ci_conn_id": "aci",
"registry_conn_id": "acr",
"resource_group": "my-rg",
"name": "my-aci-{{ ti.task_id.replace('.','-').replace('_','-') }}",
"region": "West Europe",
"image": "dbt-jaffle-shop:1.0.0",
},
)
GCP Cloud Run Job#
Added in version 1.7.
The gcp_cloud_run_job
execution mode is particularly useful for users who prefer to run their dbt
commands on Google Cloud infrastructure, taking advantage of Cloud Run’s scalability, isolation, and managed service capabilities.
For the gcp_cloud_run_job
execution mode to work, a Cloud Run Job instance must first be created using a previously built Docker container. This container should include the latest dbt
pipelines and profiles. You can find more details in the Cloud Run Job creation guide .
This execution mode allows users to run dbt
core CLI commands in a Google Cloud Run Job instance. This mode leverages the CloudRunExecuteJobOperator
from the Google Cloud Airflow provider to execute commands within a Cloud Run Job instance, where dbt
is already installed. Similarly to the Docker
and Kubernetes
execution modes, a Docker container should be available, containing the up-to-date dbt
pipelines and profiles.
Each task will create a new Cloud Run Job execution, giving full isolation. The separation of tasks adds extra overhead; however, that can be mitigated by using the concurrency
parameter in DbtDag
, which will result in parallelized execution of dbt
models.
gcp_cloud_run_job_cosmos_dag = DbtDag(
# ...
execution_config=ExecutionConfig(execution_mode=ExecutionMode.GCP_CLOUD_RUN_JOB),
operator_args={
"project_id": "my-gcp-project-id",
"region": "europe-west1",
"job_name": "my-crj-{{ ti.task_id.replace('.','-').replace('_','-') }}",
},
)
Airflow Async (experimental)#
Added in version 1.7.0.
(Experimental) The airflow_async
execution mode is a way to run the dbt resources from your dbt project using Apache Airflow’s
Deferrable operators.
This execution mode could be preferred when you’ve long running resources and you want to run them asynchronously by
leveraging Airflow’s deferrable operators. With that, you would be able to potentially observe higher throughput of tasks
as more dbt nodes will be run in parallel since they won’t be blocking Airflow’s worker slots.
In this mode, Cosmos adds a new operator, DbtCompileAirflowAsyncOperator
, as a root task in the DbtDag or DbtTaskGroup. The task runs
the dbt compile
command on your dbt project which then outputs compiled SQLs in the project’s target directory.
As part of the same task run, these compiled SQLs are then stored remotely to a remote path set using the
remote_target_path: configuration. The remote path is then used by the subsequent tasks in the DAG to
fetch (from the remote path) and run the compiled SQLs asynchronously using e.g. the DbtRunAirflowAsyncOperator
.
You may observe that the compile task takes a bit longer to run due to the latency of storing the compiled SQLs
remotely (e.g. for the classic jaffle_shop
dbt project, upon compiling it produces about 31 files measuring about 124KB in total, but on a local
machine it took approximately 25 seconds for the task to compile & upload the compiled SQLs to the remote path).,
however, it is still a win as it is one-time overhead and the subsequent tasks run asynchronously utilising the Airflow’s
deferrable operators and supplying to them those compiled SQLs.
Note that currently, the airflow_async
execution mode has the following limitations and is released as Experimental:
Airflow 2.8 or higher required: This mode relies on Airflow’s Object Storage feature, introduced in Airflow 2.8, to store and retrieve compiled SQLs.
Limited to dbt models: Only dbt resource type models are run asynchronously using Airflow deferrable operators. Other resource types are executed synchronously, similar to the local execution mode.
BigQuery support only: This mode only supports BigQuery as the target database. If a different target is specified, Cosmos will throw an error indicating the target database is unsupported in this mode.
ProfileMapping parameter required: You need to specify the
ProfileMapping
parameter in theProfileConfig
for your DAG. Refer to the example DAG below for details on setting this parameter.Supports only full_refresh models: Currently, only
full_refresh
models are supported. To enable this, passfull_refresh=True
in theoperator_args
of theDbtDag
orDbtTaskGroup
. Refer to the example DAG below for details on setting this parameter.location parameter required: You must specify the location of the BigQuery dataset in the
operator_args
of theDbtDag
orDbtTaskGroup
. The example DAG below provides guidance on this.No dataset emission: The async run operators do not currently emit datasets, meaning that Data-Aware Scheduling is not supported at this time. Future releases will address this limitation.
To start leveraging async execution mode that is currently supported for the BigQuery profile type targets you need to install Cosmos with the below additional dependencies:
astronomer-cosmos[dbt-bigquery, google]
Example DAG:
simple_dag_async = DbtDag(
# dbt/cosmos-specific parameters
project_config=ProjectConfig(
DBT_ROOT_PATH / "original_jaffle_shop",
),
profile_config=profile_config,
execution_config=ExecutionConfig(
execution_mode=ExecutionMode.AIRFLOW_ASYNC,
),
render_config=RenderConfig(
select=["path:models"],
# test_behavior=TestBehavior.NONE
),
# normal dag parameters
schedule_interval=None,
start_date=datetime(2023, 1, 1),
catchup=False,
dag_id="simple_dag_async",
tags=["simple"],
operator_args={"full_refresh": True, "location": "northamerica-northeast1"},
)
Known Issue:
The dag test
command failed with the following error, likely because the trigger does not fully initialize during the dag test
, leading to an uninitialized task instance.
This causes the BigQuery trigger to attempt accessing parameters of the Task Instance that are not properly initialized.
[2024-10-01T18:19:09.726+0530] {base_events.py:1738} ERROR - unhandled exception during asyncio.run() shutdown
task: <Task finished name='Task-46' coro=<<async_generator_athrow without __name__>()> exception=AttributeError("'NoneType' object has no attribute 'dag_id'")>
Traceback (most recent call last):
File "/Users/pankaj/Documents/astro_code/astronomer-cosmos/devenv/lib/python3.9/site-packages/airflow/providers/google/cloud/triggers/bigquery.py", line 138, in run
yield TriggerEvent(
asyncio.exceptions.CancelledError
During handling of the above exception, another exception occurred:
Traceback (most recent call last):
File "/Users/pankaj/Documents/astro_code/astronomer-cosmos/devenv/lib/python3.9/site-packages/airflow/providers/google/cloud/triggers/bigquery.py", line 157, in run
if self.job_id and self.cancel_on_kill and self.safe_to_cancel():
File "/Users/pankaj/Documents/astro_code/astronomer-cosmos/devenv/lib/python3.9/site-packages/airflow/providers/google/cloud/triggers/bigquery.py", line 126, in safe_to_cancel
task_instance = self.get_task_instance() # type: ignore[call-arg]
File "/Users/pankaj/Documents/astro_code/astronomer-cosmos/devenv/lib/python3.9/site-packages/airflow/utils/session.py", line 97, in wrapper
return func(*args, session=session, **kwargs)
File "/Users/pankaj/Documents/astro_code/astronomer-cosmos/devenv/lib/python3.9/site-packages/airflow/providers/google/cloud/triggers/bigquery.py", line 102, in get_task_instance
TaskInstance.dag_id == self.task_instance.dag_id,
AttributeError: 'NoneType' object has no attribute 'dag_id'
Invocation Modes#
Added in version 1.4.
For ExecutionMode.LOCAL
execution mode, Cosmos supports two invocation modes for running dbt:
InvocationMode.SUBPROCESS
: In this mode, Cosmos runs dbt cli commands using the Pythonsubprocess
module and parses the output to capture logs and to raise exceptions.InvocationMode.DBT_RUNNER
: In this mode, Cosmos uses thedbtRunner
available for dbt programmatic invocations to run dbt commands. In order to use this mode, dbt must be installed in the same local environment. This mode does not have the overhead of spawning new subprocesses or parsing the output of dbt commands and is faster thanInvocationMode.SUBPROCESS
. This mode requires dbt version 1.5.0 or higher. It is up to the user to resolve Airflow and dbt dependencies conflicts when using this mode.
The invocation mode can be set in the ExecutionConfig
as shown below:
from cosmos.constants import InvocationMode
dag = DbtDag(
# ...
execution_config=ExecutionConfig(
execution_mode=ExecutionMode.LOCAL,
invocation_mode=InvocationMode.DBT_RUNNER,
),
)
If the invocation mode is not set, Cosmos will attempt to use InvocationMode.DBT_RUNNER
if dbt is installed in the same environment as the worker, otherwise it will fall back to InvocationMode.SUBPROCESS
.