Splunk Platform Automator 2.2.1

Ever wanted to build a complex Splunk environment for testing, which looks as close as possible to a production deployment? Need to test a Splunk upgrade? See how Splunk indexer- or search head clustering works? Or just need to verify some configuration changes? This is the right place for you! The aim of this framework is to produce a Splunk environment in a fast and convenient way for testing purposes or maybe also for production use. The created Splunk installation and setup follows best practices. There are many ways to configure a Splunk environment in terms of configuration file locations, so this is just another example how to do it.

Splunk Platform Automator 2.2.1
- Table of Contents
Support
Features
- Roadmap
- Changelog
Installation
Upgrade
- Migrate existing Splunk Platform Automator Environments from 1.x to 2.x
Removed Biased Language
Building Windows Virtual Machine Template
Framework Usage
Known issues, limitations
- Supported Ansible Versions
License

Support

Note: This framework is not officially supported by Splunk. I am developing this on best effort in my spare time.

Features

Build complex, reproducible Splunk environments in one shot, including all roles available for Splunk Enterprise.
Building Cluster Manager, Indexer Clusters, Deployer, Search Head Clusters, Deployment Server, Universal Forwarders, Heavy Forwarders, License Manager and Monitoring Console. All ready to use.
Configuration done according best practices with configuration apps
Splunk environment definition stored in one simple yaml file
Example configuration files for different setups included
Deployment and configuration done with Ansible
Virtual hosts can be created by Vagrant
- Currently supports Virtualbox or AWS Cloud.
Can deploy Splunk on existing hosts (virtual or physical)
Developed and tested on MacOSX but should support Linux as well.

Roadmap

See the upcoming features in the Roadmap

Changelog

Implemented changes are to be found in the Changelog

Installation

The Framework is currently tested on Mac OSX and Linux, but any other Unix, which is supported by Virtualbox, should work too.

Framework Installation

Make sure you have Python 3.6+ installed. If not available for your distro, you can build your own Python version.
1. Install needed python libraries
Download and install Vagrant. Is you are using the AWS plugin, see version hints here
Install Ansible, I personally prefer Brew (on OSX) which makes it as easy as brew install ansible. For supported Ansible versions check here
Create a folder called Vagrant and change into it.
Download and extract a Splunk Platform Automator release here or clone from GitHub when using the master branch: git clone https://github.com/splunk/splunk-platform-automator.git
Create a folder called Software.
Download the tgz. archive for the Splunk Software and put in the Software directory
1. Splunk Enterprise
2. Splunk Universal Forwarder
Download Splunk Professional Services Best Practices Base Config Apps and extract them into the Software directory
1. Configurations Base Apps
2. Configurations Cluster Apps
If you have a Splunk License file, link it to the name Splunk_Enterprise.lic inside the Software directory.

Your directory structure should now look like this:

./Vagrant/splunk-platform-automator/...
./Vagrant/Software/Configurations - Base/...
./Vagrant/Software/Configurations - Index Replication/...
./Vagrant/Software/splunk-8.1.2-545206cc9f70-Linux-x86_64.tgz
./Vagrant/Software/splunkforwarder-8.1.2-545206cc9f70-Linux-x86_64.tgz
./Vagrant/Software/Splunk_Enterprise.lic

Install Virtualbox support (optional)

Download and install Virtualbox.
Install the Virtualbox plugin for Vagrant: vagrant plugin install vagrant-vbguest

Setup Windows Subsystem for Linux (WSL2)

The Windows Subsystem for Linux does allow to run Splunk Platform Automator on Windows. It even allows to create virtualbox hosts from it on the windows host directly.

Execute the steps above. To allow vagrant to talk to virtualbox follow the steps below.

Create /etc/wsl.conf and reboot WSL (wsl --shutdown)

[automount]
options = "metadata"

Enable WSL2 port forwarding by installing a vagrant plugin with: vagrant plugin install virtualbox_WSL2
Add Environment Variables in WSL (maybe to your ~/.bashrc)

export VAGRANT_WSL_ENABLE_WINDOWS_ACCESS="1"
export PATH="$PATH:/mnt/c/Program Files/Oracle/VirtualBox"

Install and configure AWS support (optional)

Install the aws vagrant plugin: vagrant plugin install vagrant-aws. The plugin is not maintained anymore and has issues with newer vagrant versions on OSX. The last working version of vagrant is 2.3.4
Download the vagrant dummy box for aws: vagrant box add aws-dummy https://github.com/mitchellh/vagrant-aws/raw/master/dummy.box
Generate AWS ACCESS Keys, described here
Optional, but recommended:
1. Add AWS_ACCESS_KEY_ID= as environment variable
2. Add AWS_SECRET_ACCESS_KEY= as environment variable
Create an ssh key pair described here and store the public key on your disk for later reference in the config file
Create an AWS security group and name it for example 'Splunk_Basic' and add the following TCP ports

Example Basic AWS Security Group 'Splunk_Basic'

Inbound Rules

Type	Protocol	Port Range	Source	Description
All TCP	TCP	0 - 65535	172.31.0.0/16	Allow all internal traffic
Custom TCP	TCP	8000	0.0.0.0/0	Splunk Web Interface
SSH	TCP	22	0.0.0.0/0	SSH to all hosts

Outbound Rules

Type	Protocol	Port Range	Destination	Description
All Traffic	All	All	0.0.0.0/0	Allow all traffic

Upgrade

To upgrade your Splunk Platform Automator, just update your local code from the repo

git pull

Migrate existing Splunk Platform Automator Environments from 1.x to 2.x

From Splunk Platform Automator 2.0 the Framework does use an Ansible Inventory Plugin to build the inventory on the fly during execution. The local inventory directory does only hold minimum settings based on the virtualization you choose. The rest calculated in flight and not stored somewhere.

You can verify your inventory with

ansible-inventory --list --export

Migrate splunk_config.yml

The steps here apply to all environments.

You have to add the plugin setting to the top of your config file

# splunk_config.yml
plugin: splunk-platform-automator

Migrate Virtualbox Environments

The steps here only apply if your current environment is built on virtualbox.

Cleanup unneeded entries from the ansible inventory

rm -rf inventory/group*

Move the setting start_ip in the general section to the virtualbox section.

Migrate AWS Environments

The steps here only apply if your current environment is built on AWS.

Cleanup unneeded entries from the ansible inventory

rm -rf inventory/*

Build the config/aws_ec2.yml config file

vagrant status

Get the GUID from config/aws_ec2.yml at tag:SplunkEnvID: and add a tag SplunkEnvID to every host in your AWS environment with that GUID
Create also a tag SplunkHostname for every AWS host with the name of your hosts from the splunk_hosts section

If you have the aws cli available, this can be done with the following one liner

for machine in $(ls -1d .vagrant/machines/*); do aws ec2 create-tags --resources $(cat $machine/aws/id) --tags Key=SplunkHostname,Value=$(basename $machine) Key=SplunkEnvID,Value=$(grep "tag:SplunkEnvID:" config/aws_ec2.yml | cut -d: -f3 | tr -d " ") Key=Name,Value=$(basename $machine) --no-cli-pager; done

Migrate Environments where ansible only is used

The steps here only apply if your current environment is not built with vagrant.

The process is not so traight forward, since I do not know how you built your ansible inventory. Basically, you have to make sure everything you defined in your inventory files is reflected in the splunk_config.yml file.

Before you upgrade your splunk automator environment, you have to export the inventory to a file

ansible-inventory --list --export > inventory_1.txt

Migrate all settings to the splunk_config.yml file
Remove the complete inventory

rm -rf inventory/*

After the upgrade and building of your splunk_config.yml, you can check the new inventory with the ansible-inventory command and compare it with your dump from version 1.x

Removed Biased Language

With Splunk 9.x some configuration terms have been renamed and are considered deprecated. The Base Config Apps habe been changed and need to be updated and some apps have been renamed. Please download the latest version. The Splunk Platform Automator Framework does taking care of this automatically when Splunk version 9.x or higher is installed. Existing installation are working as is but the settings should be changed manually in the apps.

Those settings have been changed:

server.conf[clustering]
- mode = manager or peer
- master_uri -> manager_uri
server.conf[clustermaster:<name>] -> [clustermanager:<name>]
server.conf[license]
- master_uri -> manager_uri
outputs.conf[indexer_discovery:<name>]
- master_uri -> manager_uri

Due to this some roles have been renamed in the config file. Please update your exsiting configs:

cluster_master -> cluster_manager
license_master -> license_manager

Building Windows Virtual Machine Template

To build your own windows vagrant image follow Setup Windows Vagrant image

Framework Usage

First start and initialization

Run vagrant the first time to initialize itself and create needed directories. You must execute vagrant always in side the Splunk Platform Automator directory where the Vagrantfile sits, otherwise it will not work correctly. You will see the usage page, when executing vagrant without options.

cd splunk-platform-automator
vagrant

Copy a configuration file

There is one single configuration file, where all settings for your deployment are defined. Copy one configuration file from the examples to config/splunk_config.yml and adjust the setting to your needs. For a standard setup you should be fine with most of the default settings, but there are a lot of things you can adjust for special cases. See the configuration description file, where all existing values are described.

AWS: See instruction here when deploying into Amazon Cloud. You can start with splunk_config_aws.yml for a simple environment. Copy splunk_idxclusters, splunk_shclusters and splunk_hosts sections from other examples for more complex deployments.

Start the deployment

When building virtual machines (for virtualbox) the first time it will pull an os image from the internet. The box images are cached here: ~/.vagrant.d/boxes.

Create the Virtual Machines

vagrant up

Run Ansible playbooks to deploy and configure the Splunk software

The vagrant up command only creates the virtual machines. To deploy Splunk afterwards, run this command:

ansible-playbook ansible/deploy_site.yml

To run both steps with one command use:

vagrant up; ansible-playbook ansible/deploy_site.yml

Stop hosts

This will gracefully shutdown all the virtual machines.

vagrant halt

Destroy hosts

You can destroy all the virtual machines with one command.

vagrant destroy [-f] [<hostname>]

Rerun provisioning

Ansible playbooks can be run over and over again. If the virtual machine is already built, you can rerun the playbooks on a certain host again. This can be needed if something fails and you fixed the error.

ansible-playbook ansible/deploy_site.yml [--limit <hostname>]

Login to the hosts

Login to Splunk Browser Interface

To login to one of the hosts just open the index.html file created in the splunk-platform-automator/config directory. You will find links to every role of your deployment. If something changes along the way and you need to update the linkpage just call this playbook:

ansible-playbook ansible/create_linkpage.yml

Login by SSH

Vagrant deployes an ssh key for the vagrant user to login without a password.

vagrant ssh <hostname>

Environment Users

User vagrant

Vagrant uses a dedicated user to work inside the virtual machines. The user name is vagrant and has sudo rights to switch to root or other users.

User splunk

Splunk Enterprise is installed and run as user splunk. You can switch to this user by sudo su - splunk. For convenience, I have added some command aliases to the user vagrant and user splunk.

alias

Copy files

You can copy files from your host system to the virtual nodes with the vagrant command. You need to install the vagrant plugin vagrant-scp to have this feature available. Check Vagrant Docs on how to do this.

vagrant scp <files> <target_on_dest> [vm_name]

scp example

vagrant scp ../app_dir/splunk-add-on-for-unix-and-linux_831.tgz /var/tmp uf

Deploying on Amazon Cloud

Splunk Platform Automator can talk to the AWS cloud and create virtual machines with Splunk in the cloud. Vagrant is using the plugin vagrant-aws for that. Follow these steps to setup Splunk Platform Automator for AWS. In the example there is a simple network setup, with only one Security group, covering all ports. More complex network setups should be possible, but make sure the host, where Splunk Platform Automator is running does have ssh access to all instances.

To prepare the configuration file for Amazon deployments

Take the AWS example and fill in the values you like in the 'aws' section. You need at least:
- access_key_id, secret_access_key if not specified as ENV vars.
- keypair_name
- ssh_private_key_path
- security_groups
- you can use the new 'splunk_download' section in 'splunk_defaults', if you do not want to upload the splunk binaries from your host all the time. This will download them from splunk.com instead.

You can copy splunk_hosts and cluster configs from other example files to the AWS template to create more complex environments. There can be all configuration option used, which are described in the vargant-aws plugin. They can also set individually on the splunk hosts, if needed. Just add a aws: section to the host.

Ansible playbooks only

You can also use the ansible playbooks without vagrant. For that you have to create your virtual or physical machines by other means. You can use the ansible playbooks to deploy the Splunk roles onto the existing servers. Specify the hostnames in the splunk_config.yml file in the splunk_hosts section. Ansible needs to know where to connect to via ssh to run the playbooks. For this you need to create some custom variables in the splunk_config.yml file.

As a minimum specify the ssh user for ansible and the ssh private key which has been deployed on the systems. This user must be able to elevate to the root user with sudo.

custom:
  ansible_user: ansible
  ansible_ssh_private_key_file: '~/.ssh/id_rsa'

If you have host specific variables the custom section can also be added on host level. This could be for example ansible_host if different from the hostname. Also check configuration description

You can verify things like this first with an ansible ping:

ansible -m ping all

And then some more ansible prerequisites with this playbook

ansible-playbook ansible/test_ansible_prereqs.yml

Build your own Python version

You can build your own python version, if you need a specific python version or your local one is outdated. Please install the needed development tools in order to be able to compile stuff.

This examples installs Python 3.9.9 into your home directory.

cd
mkdir tmp
mkdir -p ~/Python/3.9.9
cd tmp
wget https://www.python.org/ftp/python/3.9.9/Python-3.9.9.tgz
tar -xzf Python-3.9.9.tgz
cd Python-3.9.9/
./configure --prefix=~/Python/3.9.9 --with-ensurepip=install
make
make install

Create vitualenv for specific Ansible version

If you need a specific Ansible version you can create it inside a virtualenv environment. This can be useful when deploying older linux images, which too old python versions.

python3 -m venv ansible_414
source ansible_414/bin/activate
python -m pip install ansible==7.7.0 # (which is ansible 2.14.10)

Install needed python libraries

You must install some additional modules for Splunk Platform Automator to work

python -m pip install jmespath # required for json_query calls
python -m pip install lxml     # required for license file checks
python -m pip install boto3    # required for ec2 (aws) plugin

Check the ansible version.

ansible --version

If the version is not correct, open a new terminal and activate the virtual environment again with the command from above.

source ansible_414/bin/activate

Known issues, limitations

Ubuntu 20.04 fails on checking the systemd settings and needs a more current ansible version. See service_facts broken in Ubuntu 20.04
ulimit settings not working on Ubuntu 14 (without systemd)
Forwarding data from a universal forwarder to a heavy forwarder cannot be configured in the config file. This must be done manually after installation.
Virtualbox: Virtual host startup does not respond sometimes, if it fails, recreate the host again.
Virtualbox has some issues with clock time skew, when not using virtualbox additions. I added a workaround with forcing time clock sync every 5 minutes. A working internet connection on the Virtualbox host is needed.
AWS: Due to security reasons the login page with the admin password information has been disabled and https is enabled with splunk's own self signed certs.
AWS: OS images (AMI) do not have ntp configured by default. This will be added in Splunk Platform Automator later.

Supported Ansible Versions

The following Ansible versions are tested and working with Splunk Platform Automator, but any newer version should work as well.

❌ Ansible 2.7.x (EOL)
❌ Ansible 2.8.x (EOL)
❌ Ansible 2.9.x (EOL)
✅ Ansible 2.10.x (EOL)
✅ Ansible 2.11.x (EOL)
✅ Ansible 2.12.x (EOL)
✅ Ansible 2.13.x (EOL)
✅ Ansible 2.14.x
✅ Ansible 2.15.x
✅ Ansible 2.16.x

Check the Ansible Support Matrix for the most current information.

License

Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at

http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.