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OpenMetadata/openmetadata-docs/content/connectors/pipeline/dagster/cli.md
Onkar Ravgan 5d6e18dc28
Fix 10642: Mark delete entities and tags toggle (#10695) 
* Added mark delete logic

* Final test and optimization

* After merge fixes

* Added include tags for dash pipelines dbt

* added docs and fixed test

* Fixed py tests

* Added UI changes for following newly added fields:
- markDeletedDashboards
- markDeletedMlModels
- markDeletedPipelines
- markDeletedTopics
- includeTags

* Fixed failing unit tests

* updated json files of localization for other languages

* Improved localization changes

* added localization changes for other languages

* Updated mark deleted desc

* updated the ingestion fields descriptions in the ingestion form for UI

* automated localization changes for other languages

* updated descriptions for includeTags field for dbtPipeline and databaseServiceMetadataPipeline json

* fixed issue where includeTags field was being sent in the dbtConfigSource

* Added flow to input taxonomy while adding BigQuery service.

---------

Co-authored-by: Aniket Katkar <aniketkatkar97@gmail.com>
2023-03-29 12:41:44 +05:30

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title slug
Run Dagster Connector using the CLI /connectors/pipeline/dagster/cli

Run Dagster using the metadata CLI

In this section, we provide guides and references to use the Dagster connector.

Configure and schedule Dagster metadata and profiler workflows from the OpenMetadata UI:

Requirements

To deploy OpenMetadata, check the Deployment guides.

To run the Ingestion via the UI you'll need to use the OpenMetadata Ingestion Container, which comes shipped with custom Airflow plugins to handle the workflow deployment.

Python Requirements

To run the Dagster ingestion, you will need to install:

pip3 install "openmetadata-ingestion[dagster]"

Metadata Ingestion

All connectors are defined as JSON Schemas. Here you can find the structure to create a connection to Dagster.

In order to create and run a Metadata Ingestion workflow, we will follow the steps to create a YAML configuration able to connect to the source, process the Entities if needed, and reach the OpenMetadata server.

The workflow is modeled around the following JSON Schema

1. Define the YAML Config

This is a sample config for Dagster:

source:
  type: dagster
  serviceName: dagster_source
  serviceConnection:
    config:
      type: Dagster
        host: "https://<yourorghere>.dagster.cloud/prod" # or http://127.0.0.1:3000
        token: token
  sourceConfig:
    config:
      type: PipelineMetadata
      # markDeletedPipelines: True
      # includeTags: True
      # includeLineage: true
      # pipelineFilterPattern:
      #   includes:
      #     - pipeline1
      #     - pipeline2
      #   excludes:
      #     - pipeline3
      #     - pipeline4
sink:
  type: metadata-rest
  config: {}
workflowConfig:
  # loggerLevel: DEBUG  # DEBUG, INFO, WARN or ERROR
  openMetadataServerConfig:
    hostPort: <OpenMetadata host and port>
    authProvider: <OpenMetadata auth provider>

Source Configuration - Service Connection

If dagster is deployed on localhost and entering https://localhost:3000 into host gives a connection refused error, please enter https://127.0.0.1:3000 into the host and try again.

  • ServiceConnection
    • Host: Host of the dagster eg.https://localhost:300 or https://127.0.0.1:3000 or https://<yourorghere>.dagster.cloud/prod
    • Token : Need pass token if connecting to dagster cloud instance

Source Configuration - Source Config

The sourceConfig is defined here:

  • dbServiceNames: Database Service Name for the creation of lineage, if the source supports it.
  • pipelineFilterPattern : Note that the pipelineFilterPattern support regex as include or exclude. E.g.,
  • includeTags: Set the Include tags toggle to control whether or not to include tags as part of metadata ingestion.
  • markDeletedPipelines: Set the Mark Deleted Pipelines toggle to flag pipelines as soft-deleted if they are not present anymore in the source system.
pipelineFilterPattern:
  includes:
    - users
    - type_test

Sink Configuration

To send the metadata to OpenMetadata, it needs to be specified as type: metadata-rest.

Workflow Configuration

The main property here is the openMetadataServerConfig, where you can define the host and security provider of your OpenMetadata installation.

For a simple, local installation using our docker containers, this looks like:

workflowConfig:
  openMetadataServerConfig:
    hostPort: 'http://localhost:8585/api'
    authProvider: openmetadata
    securityConfig:
      jwtToken: '{bot_jwt_token}'

We support different security providers. You can find their definitions here. You can find the different implementation of the ingestion below.

Openmetadata JWT Auth

workflowConfig:
  openMetadataServerConfig:
    hostPort: 'http://localhost:8585/api'
    authProvider: openmetadata
    securityConfig:
      jwtToken: '{bot_jwt_token}'

Auth0 SSO

workflowConfig:
  openMetadataServerConfig:
    hostPort: 'http://localhost:8585/api'
    authProvider: auth0
    securityConfig:
      clientId: '{your_client_id}'
      secretKey: '{your_client_secret}'
      domain: '{your_domain}'

Azure SSO

workflowConfig:
  openMetadataServerConfig:
    hostPort: 'http://localhost:8585/api'
    authProvider: azure
    securityConfig:
      clientSecret: '{your_client_secret}'
      authority: '{your_authority_url}'
      clientId: '{your_client_id}'
      scopes:
        - your_scopes

Custom OIDC SSO

workflowConfig:
  openMetadataServerConfig:
    hostPort: 'http://localhost:8585/api'
    authProvider: custom-oidc
    securityConfig:
      clientId: '{your_client_id}'
      secretKey: '{your_client_secret}'
      domain: '{your_domain}'

Google SSO

workflowConfig:
  openMetadataServerConfig:
    hostPort: 'http://localhost:8585/api'
    authProvider: google
    securityConfig:
      secretKey: '{path-to-json-creds}'

Okta SSO

workflowConfig:
  openMetadataServerConfig:
    hostPort: http://localhost:8585/api
    authProvider: okta
    securityConfig:
      clientId: "{CLIENT_ID - SPA APP}"
      orgURL: "{ISSUER_URL}/v1/token"
      privateKey: "{public/private keypair}"
      email: "{email}"
      scopes:
        - token

Amazon Cognito SSO

The ingestion can be configured by Enabling JWT Tokens

workflowConfig:
  openMetadataServerConfig:
    hostPort: 'http://localhost:8585/api'
    authProvider: auth0
    securityConfig:
      clientId: '{your_client_id}'
      secretKey: '{your_client_secret}'
      domain: '{your_domain}'

OneLogin SSO

Which uses Custom OIDC for the ingestion

workflowConfig:
  openMetadataServerConfig:
    hostPort: 'http://localhost:8585/api'
    authProvider: custom-oidc
    securityConfig:
      clientId: '{your_client_id}'
      secretKey: '{your_client_secret}'
      domain: '{your_domain}'

KeyCloak SSO

Which uses Custom OIDC for the ingestion

workflowConfig:
  openMetadataServerConfig:
    hostPort: 'http://localhost:8585/api'
    authProvider: custom-oidc
    securityConfig:
      clientId: '{your_client_id}'
      secretKey: '{your_client_secret}'
      domain: '{your_domain}'

2. Run with the CLI

First, we will need to save the YAML file. Afterward, and with all requirements installed, we can run:

metadata ingest -c <path-to-yaml>

Note that from connector to connector, this recipe will always be the same. By updating the YAML configuration, you will be able to extract metadata from different sources.