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README.md

Dataform for CSA

Overview

This Dataform repo is provided to automate deployment of all CSA queries and underlying tables in BigQuery, while optimizing for query run-time performance and cost (data volume scanned). This Dataform project is targetted for customers using CSA queries for Log Analytics which is powered by BigQuery. Dataform is a service and an open-source data modeling framework to manage ELT process for your data. This particular Dataform project builds:

  • Summary tables incremented on a daily or hourly basis.
  • Lookup tables refreshed on daily or hourly basis (e.g. IP addresses with first and last seen).
  • Intermediary stats tables incremented on a daily basis (e.g. activity count average and stddev per user over a rolling window).
  • Report views for daily reporting based on summary tables, plus stats tables when applicable.
  • Alert queries for continuous alerting based on raw logs, plus lookup tables when applicable.
  • Workflow configurations to update above summary tables, lookups and stats tables on a daily, hourly or your own custom schedule.

To learn more about Dataform, see Overview of Dataform.

See Getting Started further below to deploy CSA with Dataform using either your local workstation or a hosted Dataform repository.

Prerequisite

Before you begin, you must have a linked BigQuery dataset with the _AllLogs view provided by Log Analytics. This view is the source data for all the tables and views that will be built by this Dataform. If you haven't already, make sure to:

  1. Route your logs to single log bucket destination
  2. Upgrade your log bucket to use Log Analytics
  3. Create a linked BigQuery dataset

For details about the general workflow to enable and aggregate logs in Google Cloud, see Security log analytics workflow as part of Google Cloud Architecture Center.

Configuration

Dataform configuration is controlled by values in dataform.json file, in particular the destination Google Cloud project (defaultDatabase), the destination BigQuery dataset (defaultSchema) and location (defaultLocation), and the custom variables listed in following section.

Variables

Variable Description Default value
logs_export_project Project where logs are exported, i.e. source project
logs_export_dataset BigQuery dataset where logs are exported, i.e. source dataset. Enter your BigQuery linked dataset of your Log Analytics-enabled log bucket
raw_lookback_days Lookback window for reports from raw data in number of days 90
summary_lookback_days Lookback window for creating summary tables from raw data in number of days 90
report_interval_days Report time interval in number of days 30
alert_interval_minutes Alert time interval in number of minutes 60

Datasets

Source datasets

  • definitions/sources/log_source.sqlx or _AllLogs: Default view of all logs in the BigQuery linked dataset of your Log Analytics-enabled log bucket. The full view ID used in the source declaration is <logs_export_project>.<logs_export_dataset>._AllLogs.

Destination datasets

  • defintions/summary/csa_<CSA_ID>_summary_[hourly|daily].sqlx: Summary table for a given CSA ID#. Depending on the use case, summary table are incremented hourly (e.g. network logs) or daily (e.g. admin activity logs). While configurable, the default summarization interval depends on the log volume to be summarized and the desired reporting granularity. For example, VPC flow logs are voluminous and typically reported on hourly basis for tracking traffic volume or number of connections, e.g. csa_6_01_summary_hourly.sqlx and csa_6_15_summary_hourly.sqlx.
  • defintions/summary/csa_<CSA_ID>_<entity>_lookup.sqlx: Lookup table for a given CSA ID# and a particular entity such as IP addresses (ips) or users (users). Lookup tables track historical entity information such as IP addresses and when they were first time and last time seen, to be used for threat reporting and alerting. For example, csa_5_31_ips_lookup tracks all IP addresses that have accessed any Cloud Storage object. This lookup csa_5_31_ips_lookup is used by csa_5_31_alert to flag any new connection from a never-before-seen IP address to a sensitive Cloud Storage object.
  • definitions/reports/csa_<CSA_ID>_report.sqlx: Report view for a given CSA ID# based on corresponding summary table, plus lookup table(s) when applicable. This applies to CSA auditing, investigation and reporting use cases.
  • definitions/alerts/csa_<CSA_ID>_alert.sqlx: Alert view for a given CSA ID# based on raw logs, plus lookup table(s) when applicable. This applies to CSA threat detections use cases.
  • definitions/raw/csa_<CSA_ID>_raw.sqlx: Raw view for a given CSA ID# based on raw logs. This view is equivalent to the original Log Analytics SQL query except for the variable raw_lookback_days lookback window. Raw views are disabled by default, and available for testing purposes by comparing its query results with the corresponding (optimized) query or alert view.

Dependency tree

The following shows a section of a compiled graph with all CSA tables and views in the target BigQuery dataset along with their dependencies all the way upstream to the source, that is _AllLogs view from the source BigQuery linked dataset.

Compiled Dataform graph

Getting started

There are two ways to get started:

You may want to use your local workstation to quickly get started with executing SQLX using only Dataform CLI and a locally cloned copy of this repo. This is particularly suited for CSA developers who prefer to use their favorite IDEs and terminal, and are looking for one-time or ad hoc Dataform executions for development, testing or prototyping purposes.

You would want to use the hosted Dataform repository to allow you not only to execute SQLX but also to schedule regular Dataform executions to keep these datasets up-to-date with latest logs. This is done using Dataform workflow configurations as documented below. This is particularly suited for CSA operators who need to run continuous Dataform executions for testing and production purposes.

Using local workstation (manual deployment)

Install Dataform CLI

  • In your favorite terminal, run the following command to install Dataform CLI:

      npm i -g @dataform/cli@^2.3.2

Update Dataform

  • Run the following command to CD into dataform project directory and update the Dataform framework:

      cd dataform
  npm i @dataform/core@^2.3.2

Create a credentials file

To connect to your BigQuery warehouse and deploy datasets, Dataform requires a credentials file.

  1. Run the following command:

     dataform init-creds bigquery

  2. Follow the init-creds prompts that walks you through creating the credentials file .df-credentials.json

Warning: Do not accidentally commit that file to your repository. The repo .gitignore is configured to ignore the credentials file .df-credentials.json to help protect your access credentials.

Override dataform.json

You specify your source and target BigQuery datasets using dataform.json file. You can also override any other configuration variables defined in variables section.

  1. Open dataform.json using your favorite editor.
  2. Replace [PROJECT_ID] placeholder value for defaultDatabase with the ID of your Google Cloud Project containing your target BigQuery dataset.
  3. Replace csa default value for defaultSchema with the name of your target BigQuery dataset.
  4. Replace [LOGS_PROJECT_ID] placeholder value for logs_export_project variable, with the ID of the Google Cloud Project where raw logs currently reside.
  5. Replace [LOGS_DATASET_ID] placeholder value for logs_export_dataset variable, with the name of your source BigQuery dataset, i.e. the BigQuery linked dataset where raw logs are stored.

Compile Dataform code

  • To compile all .SQLX code without deploying datasets, run the following command

      dataform compile

For more details on common dataform compile command line options, refer to View compilation output

Execute Dataform code

  • To execute all .SQLX code and deploy or update all datasets in your target BigQuery dataset, run the following command:

      dataform run

For more details on common dataform run command line options, refer to Execute code

Using Dataform repository (continuous deployment)

Create and configure your Dataform respository

Use Cloud Console to create a Dataform repository. You will need to copy the contents of this CSA dataform folder and host it in your own Git repository to which you would connect your Dataform repository. You can then use the inline editor in Dataform UI to override dataform.json settings listed in the configuration section above. The automated workflows you deploy in this section will compile and execute Dataform on a scheduled basis in your Dataform repository (instead of your local workstation).

Schedule executions using Workflows and Cloud Scheduler

The daily-workflow.yaml and hourly-workflow.yaml files located in the workflows folder in this repository contain an example of using Workflows to execute the .SQLX code on a schedule. This is required to incrementally update the daily and hourly summary tables and their respective dependencies such as lookups and stats tables.

  1. Create a service account and grant it the following roles:

    • Dataform Editor so that it can access the Dataform repository, compile it, and invoke Dataform workflows in that repository.
    • Workflows Invoker so that it can trigger the Workflows workflows defined in daily-workflow.yaml and hourly-workflow.yaml YAML files.

  2. Cd into the workflows folder using cd workflows.

  3. Open the YAML files in your favorite editor, and replace [PROJECT_ID] placeholder value for with the ID of your Google Cloud project containing the Dataform repository, as well as [REGION] and [REPOSITORY] with the location and name of the repository.

  4. Deploy both workflows using the following gcloud commands:

    gcloud workflows deploy security-analytics-daily \
--source=daily-workflow.yaml \
--service-account=<SERVICE_ACCOUNT>@<PROJECT_ID>.iam.gserviceaccount.com 

gcloud workflows deploy security-analytics-hourly \
--source=hourly-workflow.yaml \
--service-account=<SERVICE_ACCOUNT>@<PROJECT_ID>.iam.gserviceaccount.com

    Replace the following:

    • <SERVICE_ACCOUNT>: the name of the service account created in step 1
    • <PROJECT_ID>: the ID of your Google Cloud project

  5. Deploy the scheduling tasks using

    gcloud scheduler jobs create http security-analytics-daily \
--schedule='0 0 * * *' \
--uri=https://workflowexecutions.googleapis.com/v1/projects/<PROJECT_ID>/locations/<REGION>/workflows/security-analytics-daily/executions \
--oauth-service-account-email=<SERVICE_ACCOUNT>@<PROJECT_ID>.iam.gserviceaccount.com

gcloud scheduler jobs create http security-analytics-houry \
--schedule='0 * * * *' \
--uri=https://workflowexecutions.googleapis.com/v1/projects/<PROJECT_ID>/locations/<REGION>/workflows/security-analytics-hourly/executions \
--oauth-service-account-email=<SERVICE_ACCOUNT>@<PROJECT_ID>.iam.gserviceaccount.com

    Replace the following:

    • <SERVICE_ACCOUNT>: the name of the service account created in step 1
    • <PROJECT_ID>: the ID of your Google Cloud project
    • <REGION>: the location of your Dataform repository e.g. 'us-central1'

Congratulations!

You have now set up two scheduled workflows to continously and incrementally update your datasets in order to keep your reports and views current:

  • security-analytics-daily: which runs every day at 12:00 AM UTC to update all daily summary tables and their dependencies (e.g. lookup and stats).
  • security-analytics-hourly: which runs every hour at minute 0 to update all hourly summary tables and their dependencies (e.g. lookup and stats).

See schedule executions with Workflows and Cloud Scheduler in Dataform docs for more information.

Note: you can alternatively schedule executions with Dataform workflow configurations using Cloud Console. You would set up two Dataform workflow configurations to deploy the two sets of SQL workflow actions for CSA: hourly and daily executions. However, the Workflows-based method used above is preferred since it provides:

  • Flexibility in designing your orchestration using Workflows steps. For example, in our case, there is an explicit step to first compile the Dataform repository before executing the Dataform workflow using that latest compilation result.
  • Easy integration with your existing CI/CD pipelines and Infrastructure-as-Code (IaC) given Workflows' declarative YAML file defintion and the fact it can be deployed via Terraform.