**username**: Username to connect to SQLite. Blank for in-memory database.
{% /codeInfo %}
{% codeInfo srNumber=2 %}
**password**: Password to connect to SQLite. Blank for in-memory database.
{% /codeInfo %}
{% codeInfo srNumber=3 %}
**hostPort**: Enter the hostname and port number for your SQLite deployment in the Host and Port field.
{% /codeInfo %}
{% codeInfo srNumber=4 %}
**database**: The database of the data source is an optional parameter, if you would like to restrict the metadata reading to a single database. If left blank, OpenMetadata ingestion attempts to scan all the databases.
{% /codeInfo %}
{% codeInfo srNumber=5 %}
**databaseMode**: How to run the SQLite database. :memory: by default.
{% /codeInfo %}
#### Source Configuration - Source Config
{% codeInfo srNumber=6 %}
The `sourceConfig` is defined [here](https://github.com/open-metadata/OpenMetadata/blob/main/openmetadata-spec/src/main/resources/json/schema/metadataIngestion/databaseServiceMetadataPipeline.json):
**markDeletedTables**: To flag tables as soft-deleted if they are not present anymore in the source system.
**includeTables**: true or false, to ingest table data. Default is true.
**includeViews**: true or false, to ingest views definitions.
**databaseFilterPattern**, **schemaFilterPattern**, **tableFilternPattern**: Note that the filter supports regex as include or exclude. You can find examples [here](/connectors/ingestion/workflows/metadata/filter-patterns/database)
{% /codeInfo %}
#### Sink Configuration
{% codeInfo srNumber=7 %}
To send the metadata to OpenMetadata, it needs to be specified as `type: metadata-rest`.
**Connection Options (Optional)**: Enter the details for any additional connection options that can be sent to Athena during the connection. These details must be added as Key-Value pairs.
{% /codeInfo %}
{% codeInfo srNumber=10 %}
**Connection Arguments (Optional)**: Enter the details for any additional connection arguments such as security or protocol configs that can be sent to Athena during the connection. These details must be added as Key-Value pairs.
- In case you are using Single-Sign-On (SSO) for authentication, add the `authenticator` details in the Connection Arguments as a Key-Value pair as follows: `"authenticator" : "sso_login_url"`
First, we will need to save the YAML file. Afterward, and with all requirements installed, we can run:
```bash
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.
## Query Usage
The Query Usage workflow will be using the `query-parser` processor.
After running a Metadata Ingestion workflow, we can run Query Usage workflow.
While the `serviceName` will be the same to that was used in Metadata Ingestion, so the ingestion bot can get the `serviceConnection` details from the server.
### 1. Define the YAML Config
This is a sample config for SQLite Usage:
{% codePreview %}
{% codeInfoContainer %}
{% codeInfo srNumber=15 %}
#### Source Configuration - Source Config
You can find all the definitions and types for the `sourceConfig` [here](https://github.com/open-metadata/OpenMetadata/blob/main/openmetadata-spec/src/main/resources/json/schema/metadataIngestion/databaseServiceQueryUsagePipeline.json).
**queryLogDuration**: Configuration to tune how far we want to look back in query logs to process usage data.
{% /codeInfo %}
{% codeInfo srNumber=16 %}
**stageFileLocation**: Temporary file name to store the query logs before processing. Absolute file path required.
{% /codeInfo %}
{% codeInfo srNumber=17 %}
**resultLimit**: Configuration to set the limit for query logs
{% /codeInfo %}
{% codeInfo srNumber=18 %}
**queryLogFilePath**: Configuration to set the file path for query logs
{% /codeInfo %}
{% codeInfo srNumber=19 %}
#### Processor, Stage and Bulk Sink Configuration
To specify where the staging files will be located.
Note that the location is a directory that will be cleaned at the end of the ingestion.
{% /codeInfo %}
{% codeInfo srNumber=20 %}
#### 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:
{% /codeInfo %}
{% /codeInfoContainer %}
{% codeBlock fileName="filename.yaml" %}
```yaml
source:
type: sqlite-usage
serviceName: <servicename>
sourceConfig:
config:
type: DatabaseUsage
```
```yaml {% srNumber=15 %}
# Number of days to look back
queryLogDuration: 7
```
```yaml {% srNumber=16 %}
# This is a directory that will be DELETED after the usage runs
stageFileLocation: <pathtostorethestagefile>
```
```yaml {% srNumber=17 %}
# resultLimit: 1000
```
```yaml {% srNumber=18 %}
# If instead of getting the query logs from the database we want to pass a file with the queries
# queryLogFilePath: path-to-file
```
```yaml {% srNumber=19 %}
processor:
type: query-parser
config: {}
stage:
type: table-usage
config:
filename: /tmp/sqlite_usage
bulkSink:
type: metadata-usage
config:
filename: /tmp/sqlite_usage
```
```yaml {% srNumber=20 %}
workflowConfig:
# loggerLevel: DEBUG # DEBUG, INFO, WARN or ERROR
openMetadataServerConfig:
hostPort: <OpenMetadatahostandport>
authProvider: <OpenMetadataauthprovider>
```
{% /codeBlock %}
{% /codePreview %}
### 2. Run with the CLI
There is an extra requirement to run the Usage pipelines. You will need to install:
After saving the YAML config, we will run the command the same way we did for the metadata ingestion:
```bash
metadata ingest -c <path-to-yaml>
```
## Data Profiler
The Data Profiler workflow will be using the `orm-profiler` processor.
After running a Metadata Ingestion workflow, we can run Data Profiler workflow.
While the `serviceName` will be the same to that was used in Metadata Ingestion, so the ingestion bot can get the `serviceConnection` details from the server.
### 1. Define the YAML Config
This is a sample config for the profiler:
{% codePreview %}
{% codeInfoContainer %}
{% codeInfo srNumber=21 %}
#### Source Configuration - Source Config
You can find all the definitions and types for the `sourceConfig` [here](https://github.com/open-metadata/OpenMetadata/blob/main/openmetadata-spec/src/main/resources/json/schema/metadataIngestion/databaseServiceProfilerPipeline.json).
**generateSampleData**: Option to turn on/off generating sample data.
{% /codeInfo %}
{% codeInfo srNumber=22 %}
**profileSample**: Percentage of data or no. of rows we want to execute the profiler and tests on.
{% /codeInfo %}
{% codeInfo srNumber=23 %}
**threadCount**: Number of threads to use during metric computations.
{% /codeInfo %}
{% codeInfo srNumber=24 %}
**processPiiSensitive**: Optional configuration to automatically tag columns that might contain sensitive information.
{% /codeInfo %}
{% codeInfo srNumber=25 %}
**confidence**: Set the Confidence value for which you want the column to be marked
{% /codeInfo %}
{% codeInfo srNumber=26 %}
**timeoutSeconds**: Profiler Timeout in Seconds
{% /codeInfo %}
{% codeInfo srNumber=27 %}
**databaseFilterPattern**: Regex to only fetch databases that matches the pattern.
{% /codeInfo %}
{% codeInfo srNumber=28 %}
**schemaFilterPattern**: Regex to only fetch tables or databases that matches the pattern.
{% /codeInfo %}
{% codeInfo srNumber=29 %}
**tableFilterPattern**: Regex to only fetch tables or databases that matches the pattern.
{% /codeInfo %}
{% codeInfo srNumber=30 %}
#### Processor Configuration
Choose the `orm-profiler`. Its config can also be updated to define tests from the YAML itself instead of the UI:
**tableConfig**: `tableConfig` allows you to set up some configuration at the table level.
{% /codeInfo %}
{% codeInfo srNumber=31 %}
#### Sink Configuration
To send the metadata to OpenMetadata, it needs to be specified as `type: metadata-rest`.
{% /codeInfo %}
{% codeInfo srNumber=32 %}
#### 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:
{% /codeInfo %}
{% /codeInfoContainer %}
{% codeBlock fileName="filename.yaml" %}
```yaml
source:
type: sqlite
serviceName: local_sqlite
sourceConfig:
config:
type: Profiler
```
```yaml {% srNumber=21 %}
generateSampleData: true
```
```yaml {% srNumber=22 %}
# profileSample: 85
```
```yaml {% srNumber=23 %}
# threadCount: 5
```
```yaml {% srNumber=24 %}
processPiiSensitive: false
```
```yaml {% srNumber=25 %}
# confidence: 80
```
```yaml {% srNumber=26 %}
# timeoutSeconds: 43200
```
```yaml {% srNumber=27 %}
# databaseFilterPattern:
# includes:
# - database1
# - database2
# excludes:
# - database3
# - database4
```
```yaml {% srNumber=28 %}
# schemaFilterPattern:
# includes:
# - schema1
# - schema2
# excludes:
# - schema3
# - schema4
```
```yaml {% srNumber=29 %}
# tableFilterPattern:
# includes:
# - table1
# - table2
# excludes:
# - table3
# - table4
```
```yaml {% srNumber=30 %}
processor:
type: orm-profiler
config: {} # Remove braces if adding properties
# tableConfig:
# - fullyQualifiedName: <tablefqn>
# profileSample: <numberbetween0and99> # default
# profileSample: <numberbetween0and99> # default will be 100 if omitted
- You can learn more about how to configure and run the Profiler Workflow to extract Profiler data and execute the Data Quality from [here](/connectors/ingestion/workflows/profiler)
### 2. Prepare the Profiler DAG
Here, we follow a similar approach as with the metadata and usage pipelines, although we will use a different Workflow class:
{% codePreview %}
{% codeInfoContainer %}
{% codeInfo srNumber=33 %}
#### Import necessary modules
The `ProfilerWorkflow` class that is being imported is a part of a metadata orm_profiler framework, which defines a process of extracting Profiler data.
Here we are also importing all the basic requirements to parse YAMLs, handle dates and build our DAG.
{% /codeInfo %}
{% codeInfo srNumber=34 %}
**Default arguments for all tasks in the Airflow DAG.**
- Default arguments dictionary contains default arguments for tasks in the DAG, including the owner's name, email address, number of retries, retry delay, and execution timeout.
{% /codeInfo %}
{% codeInfo srNumber=35 %}
- **config**: Specifies config for the profiler as we prepare above.
{% /codeInfo %}
{% codeInfo srNumber=36 %}
- **metadata_ingestion_workflow()**: This code defines a function `metadata_ingestion_workflow()` that loads a YAML configuration, creates a `ProfilerWorkflow` object, executes the workflow, checks its status, prints the status to the console, and stops the workflow.
{% /codeInfo %}
{% codeInfo srNumber=37 %}
- **DAG**: creates a DAG using the Airflow framework, and tune the DAG configurations to whatever fits with your requirements
- For more Airflow DAGs creation details visit [here](https://airflow.apache.org/docs/apache-airflow/stable/core-concepts/dags.html#declaring-a-dag).