Install and configure the forwarder
This document describes how to install and configure the Google Security Operations forwarder on Linux and Windows systems using Docker.
The forwarder is a software component that you can install on a machine or device, like a server, within your network. It collects log data and forwards that data to your Google SecOps instance.
You can use the forwarder to send logs directly from your environment to Google SecOps, without the need for cloud buckets or third-party APIs for unsupported log types. The forwarder serves as a ready-to-deploy solution, eliminating the need for manual integration with the ingestion API.
Google SecOps provides a Docker container for secure forwarder deployment. You can run and manage the Docker container on either physical or virtual machines.
System requirements
The following are general recommendations. For recommendations specific to your system, contact Google SecOps Support.
Linux system
The forwarder is supported on various Linux distributions such as Debian, Ubuntu,
Red Hat, and Suse. For optimal performance, it is recommended to use Docker
version 20.10.21
or later.
RAM: 1 GB RAM is required for each collected data type that Google SecOps accepts for ingestion. For example, if you specify four different collectors, you need 4 GB RAM to collect data for all four.
CPU: Two CPUs are sufficient to handle up to 10,000 events per second (EPS) across all data types. If you anticipate your forwarder handling more than 10,000 EPS, allocate four to six CPUs.
Disk: 20 GB of disk space is recommended, regardless of how much data the forwarder handles.
Windows system
Forwarder is supported on Microsoft Windows Server 2022. For optimal performance,
it is recommended to use Docker version 20.10.21
or later.
RAM: 1.5 GB RAM is required for each collected data type that Google SecOps accepts for ingestion. For example, if you specify four different collectors, you need 6 GB RAM to collect data for all four.
CPU: Two CPUs are sufficient to handle up to 10,000 events per second (EPS) across all data types. If you anticipate your forwarder handling more than 10,000 EPS, allocate four to six CPUs.
Disk: 20 GB of disk space is recommended, regardless of how much data the forwarder handles.
Before you begin
Before starting your forwarder implementation, take the following into consideration.
Google IP address ranges
When configuring the forwarder, you may need to adjust firewall settings that involve specifying IP address ranges. The default domain IP ranges used by Google APIs and services are allocated dynamically and change often. See Obtain Google IP address ranges for more information.
Verify the firewall configuration
If your forwarder container is behind any firewalls or authenticated proxies, you'll need to open access to the following hosts:
Connection Type | Destination | Port |
TCP | malachiteingestion-pa.googleapis.com | 443 |
TCP | asia-northeast1-malachiteingestion-pa.googleapis.com | 443 |
TCP | asia-south1-malachiteingestion-pa.googleapis.com | 443 |
TCP | asia-southeast1-malachiteingestion-pa.googleapis.com | 443 |
TCP | australia-southeast1-malachiteingestion-pa.googleapis.com | 443 |
TCP | europe-malachiteingestion-pa.googleapis.com | 443 |
TCP | europe-west2-malachiteingestion-pa.googleapis.com | 443 |
TCP | europe-west3-malachiteingestion-pa.googleapis.com | 443 |
TCP | europe-west6-malachiteingestion-pa.googleapis.com | 443 |
TCP | europe-west9-malachiteingestion-pa.googleapis.com | 443 |
TCP | europe-west12-malachiteingestion-pa.googleapis.com | 443 |
TCP | me-central1-malachiteingestion-pa.googleapis.com | 443 |
TCP | me-central2-malachiteingestion-pa.googleapis.com | 443 |
TCP | me-west1-malachiteingestion-pa.googleapis.com | 443 |
TCP | northamerica-northeast2-malachiteingestion-pa.googleapis.com | 443 |
TCP | southamerica-east1-malachiteingestion-pa.googleapis.com | 443 |
TCP | accounts.google.com | 443 |
TCP | gcr.io | 443 |
TCP | cloud.google.com/artifact-registry | 443 |
TCP | oauth2.googleapis.com | 443 |
TCP | storage.googleapis.com | 443 |
Plan your implementation
Before you begin configuring the forwarder, plan your implementation. This will help you align your data sources and configuration attributes with your security objectives, infrastructure capabilities, and scalability requirements.
Determine the data to be ingested
Identify the most relevant data sources for your forwarder from the following options:
Splunk: Ideal if you already use Splunk for log management.
Syslog: Versatile for system and application logs from various devices.
File: Flexible for ingesting any log file.
Packet: Offers deep network visibility by capturing raw traffic.
Kafka: Ideal for high-volume and real-time log aggregation from distributed systems.
WebProxy: Ideal for insights into web traffic and user behaviour.
Limitation
Data feeds have a maximum log line size of 4 MB.
Determine the configuration
Before installing the forwarder, determine the following key attributes to ensure a successful implementation.
Data compression
Data or log compression reduces network bandwidth consumption when transferring logs to Google SecOps. However, it might cause an increase in CPU usage. The optimal balance between bandwidth savings and CPU usage depends on multiple factors like log type, compressibility of the data, available CPU resources, and your network bandwidth constraints.
For example, text-based logs typically compress well and can provide substantial bandwidth savings with low CPU usage, while encrypted or binary data might not compress efficiently and might incur higher CPU usage.
By default, log compression is disabled. Evaluate the trade-off based on your specific environment and the nature of your log data.
Disk buffering
It is recommended to enable disk buffering. Disk buffering lets you buffer backlogged messages to disk instead of memory, safeguarding against data loss in case of forwarder or host crashes. However, enabling disk buffering can impact performance.
If disk buffering is disabled, the forwarder allocates 1 GB of memory (RAM) for each log type (for example, per connector). The maximum allowed memory for disk buffering is 4 GB.
Regular expression filters
Regular expression filters enable you to filter logs by matching patterns against the raw log data. The filters use the RE2 syntax. The filters must include a regular expression and, optionally, define a behavior when there is a match.
Arbitrary labels
Labels are used to attach custom metadata to logs using key-value pairs. You can configure labels for an entire forwarder or within a specific collector of the forwarder. If both are present, collector level labels override forwarder level labels if keys overlap.
Namespaces
You can use namespace labels to identify logs from distinct network segments and to deconflict overlapping IP addresses. You can configure a namespace label for an entire forwarder or within a specific collector of the forwarder. If both are present, collector-level namespace overrides forwarder-level namespace.
Log type
Google SecOps supports a variety of log types. For a comprehensive list, see Supported data sets.
Load balancing and high availability options
Load balancing is supported only for the syslog collection type.
The forwarder can be deployed in environments where a layer 4 load balancer is installed between the data source and forwarder instances. This lets you distribute log collection across multiple forwarders, enhancing reliability by redirecting logs to a different forwarder in case of a failure.
The forwarder has a built-in HTTP server that responds to health checks from load balancers and prevents log loss during startup and shutdown. You can configure the HTTP server, load balancing, and high availability options to specify timeout durations and status codes for health checks. This configuration is compatible with both container-based deployments and load balancers.
Setting | Description |
---|---|
Graceful timeout | The amount of time for which new connections are accepted after the
forwarder returns an unready status in response to a health check.
This is also the time to wait between receiving a signal to stop and
actually beginning the shutdown of the server itself. This gives the
load balancer time to remove the forwarder from the pool.Valid values are in seconds. For example, to specify 10 seconds, type 10.
Decimal values are not allowed.Default: 15 seconds |
Drain timeout | The amount of time the forwarder waits for active connections to
close on their own before they are closed by the
server. For example, to specify 5 seconds, type 5.
Decimal values are not allowed.Default: 10 seconds |
Port | The port number that the HTTP server listens on for health checks
from the load balancer. The value must be between 1,024 to 65,535. Default: 8080 |
IP address or hostname | The IP address or a hostname that can be resolved to an IP address,
that the server should listen to. Default: 0.0.0.0 (the local system) |
Read timeout | Used to tune the HTTP server. Typically, does not need to be changed
from the default setting. The maximum time allowed to read
the entire request, both the header and the body. You can set both
the read timeout field and the read header
timeout field. Default: 3 seconds |
Read header timeout | Used to tune the HTTP server. Typically, does not need to be changed
from the default setting. The maximum time allowed to read
request headers. The connection's read deadline is reset after
reading the header. Default: 3 seconds |
Write timeout | Used to tune the HTTP server. Typically, does not need to be changed
from the default setting. The maximum time allowed to send
a response. It is reset when a new request header is read. Default: 3 seconds |
Idle timeout | Used to tune the HTTP server. Typically, does not need to be changed
from the default setting. The maximum time to wait for the
next request when idle connections are enabled. If the idle
timeout field is set to zero, the value of the read
timeout field is used. If both are zero, the read
header timeout field is used. Default: 3 seconds |
Available status code | The status code the forwarder returns when a liveness check is
received and the forwarder is available. Container schedulers and
orchestrators often send liveness checks. Default: 204 |
Ready status code | The status code that the forwarder returns when it is ready to accept
traffic in either of the following situations:
|
Unready status code | The status code the forwarder returns when it is not ready to accept
traffic. Default: 503 |
Step 1: Define the forwarder configuration
Each deployed forwarder requires a forwarder configuration file. A forwarder configuration file specifies the settings to transfer the data to your Google SecOps instance. We recommend that you generate a new configuration file for every host to maintain clear distinctions between the collectors associated with each one.
Google Cloud customizes these configuration files with specific metadata for each forwarder instance. You can modify these files to match your specific requirements and incorporate details about the types of logs you want to ingest.
You can generate a forwarder configuration file either through the UI, through the API, or manually.
The UI provides a graphical interface for configuring forwarders and is the recommended method for creating a forwarder configuration. This is the easiest way to get started and does not require any programming. To download the configuration file using the Google SecOps user interface, see Manage forwarder configurations through the Google SecOps UI.
The API provides a programmatic way to configure forwarders. To download forwarder configuration programmatically, see Forwarder Management API.
You can create the configuration file manually and add the configuration options to it. We recommend using the UI method for generating the configuration file to ensure accuracy and minimize potential errors. To generate the file manually, see Manage forwarder configuration file manually.
Step 2: Install Docker
This section describes how to install Docker on your system.
Linux system
Docker is open source and all the necessary documentation is available from the open source Docker community. For instructions on Docker installation, see Install Docker Engine.
To check if Docker is installed properly on your system, execute the following command (requires elevated privileges):
docker ps
The following response indicates that Docker has been installed properly:
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
Windows system
Start Windows PowerShell with administrator privileges and check network connectivity to Google Cloud by following these steps:
Click Start.
Type
PowerShell
and right-click Windows PowerShell.Click Run as administrator.
Run the following command:
C:\> test-netconnection <host> -port <port>
The command output indicates that the
TcpTestSucceeded
status istrue
.Example:
C:\> test-netconnection malachiteingestion-pa.googleapis.com -port 443 ComputerName : malachiteingestion-pa.googleapis.com RemoteAddress : 198.51.100.1 RemotePort : 443 InterfaceAlias : Ethernet SourceAddress : 203.0.113.1 TcpTestSucceeded : True
To install Docker, do the following on your Windows server.
Enable the Microsoft Windows container feature:
Install-WindowsFeature containers -Restart
Execute the following command in PowerShell Administrator mode to install Docker CE:
Invoke-WebRequest -UseBasicParsing "https://raw.githubusercontent.com/microsoft/Windows-Containers/Main/helpful_tools/Install-DockerCE/install-docker-ce.ps1" -o install-docker-ce.ps1 .\install-docker-ce.ps1
Test the Docker command line interface by running the command
docker ps
, which returns a list of running containers. If Docker is not installed properly, an error is displayed.For more information, see Get started: Prep Windows for containers.
For enterprise deployments, install Mirantis Container Runtime, also known as Docker EE.
Step 3: Install the forwarder
This section describes how to install the forwarder using a Docker container.
Step 3a: Move configuration files to forwarder directory
The first step in the forwarder installation process involves placing the necessary configuration files within the designated forwarder directory.
Linux system
Place the configuration files in the forwarder directory by following these steps:
Connect to the Linux forwarder host using terminal.
Change directory to the home directory that runs the Docker container.
Create a directory to store the forwarder configuration files.
mkdir /opt/chronicle/'CONFIG'
You can replace the directory name,
CONFIG
with any name of your choice. Ensure that you use the same directory name while running thedocker run
command.Change the directory.
cd /opt/chronicle/config
After the files are transferred, ensure that the configuration files are located in the
/opt/chronicle/config
directory.ls -l
Windows system
Create a C:\config
folder and place the configuration files in it. You can
replace the folder name, config
, with any name of your choice. Ensure
that you use the same folder name while running the docker run
command.
Step 3b: Run the forwarder
After the configuration files are placed within the designated forwarder directory, you can start the forwarder or upgrade to the latest version of the Google SecOps container.
If you are upgrading the container, clean up any previous Docker runs by executing the following commands.
docker stop 'cfps'
docker rm 'cfps'
In the example, the Docker container name is cfps
.
To start the forwarder for the first time or to upgrade to the latest version of the Google SecOps container, do the following:
Obtain the latest Docker image from Google Cloud:
Linux system:
docker pull gcr.io/chronicle-container/cf_production_stable
Windows system:
docker pull gcr.io/chronicle-container/cf_production_stable_windows
Start the forwarder from the Docker container:
Linux system:
docker run \ --detach \ --name cfps \ --restart=always \ --log-opt max-size=100m \ --log-opt max-file=10 \ --net=host \ -v /opt/chronicle/config:/opt/chronicle/external \ gcr.io/chronicle-container/cf_production_stable
Windows system:
docker run ` --detach ` --name cfps ` --restart=always ` --log-opt max-size=100m ` --log-opt max-file=10 ` -p 0.0.0.0:10515-10520:10515-10520/udp ` -v C:\config\:C:/opt/chronicle/external ` gcr.io/chronicle-container/cf_production_stable_windows
The --log-opt
options are available since Docker
1.13. These options limit the size of the container log files and
must be used as long as the Docker version that you use supports them.
Manage the forwarder
The following sections provide guidance on managing your forwarder.
View forwarder logs
To view the forwarder logs, execute the following command:
docker logs cfps
To view the path of the file in which the logs are stored, execute the following command:
docker inspect --format='{{.LogPath}}' CONTAINER_NAME
To view the live running logs, execute the following command:
docker logs cfps -f
To store the logs in a file, execute the following command:
docker logs cfps &> logs.txt
Uninstall the forwarder
The following Docker commands help you to stop, uninstall, or remove the forwarder.
To stop or uninstall the forwarder container, execute the following command:
docker stop cfps
To remove the forwarder container, execute the following command:
docker rm cfps
Update the forwarder
The forwarder consists of two components, each with an update process as follows:
Forwarder Bundle: This component is updated automatically, eliminating the need for a restart.
Forwarder Docker image: Updates to this component are performed manually. You'll need to stop the current forwarder instance and start a new one, as described in Step 3b.
Forwarder ingestion guides for specific datasets
To learn how a particular dataset is ingested using forwarders, see the following:
- Install Carbon Black Event Forwarder
- Collect Cisco ASA firewall logs
- Collect Corelight Sensor logs
- Collect Fluentd logs
- Collect Linux auditd and Unix system logs
- Collect Microsoft Windows AD data
- Collect Microsoft Windows DHCP data
- Collect Microsoft Windows DNS data
- Collect Microsoft Windows Event data
- Collect Microsoft Windows Sysmon data
- Collect osquery logs
- Collect OSSEC logs
- Collect Palo Alto Networks firewall logs
- Collect Splunk CIM logs
- Collect Zeek logs