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Delphix Appliance Build

This repository contains the code used to build the Ubuntu-based Delphix Appliance, leveraging open-source tools such as Debian's live-build, Docker, Ansible, OpenZFS, and others. It is capable of producing virtual machine images containing the Delphix Dynamic Data Platform, that are capable of running in cloud and non-cloud hypervisors alike (e.g. Amazon EC2, Microsoft Azure, VMware, OpenStack).

Quickstart (for the impatient)

Run this command on "dlpxdc.co" to create the VM used to do the build:

$ dc clone-latest --size COMPUTE_LARGE bootstrap-18-04 $USER-bootstrap

Log into that VM using the "ubuntu" user, and run these commands:

$ git clone https://github.com/delphix/appliance-build.git
$ cd appliance-build
$ ansible-playbook bootstrap/playbook.yml
$ sudo ./gradlew buildInternalMinimalKvm
$ sudo qemu-system-x86_64 -nographic -m 1G \
> -drive file=live-build/build/artifacts/internal-minimal-kvm.qcow2

To exit "qemu", use "Ctrl-A X".

Build Requirements

The Delphix Appliance build system has the following assuptions about the environment from which it will be executed:

  1. Ansible must be installed and available to be used on the host that'll run the build. An Ansible playbook is included in this repository, which captures nearly all of the runtime dependencies needed to execute the build. It is assumed that this playbook will be used to configure the host that's used to execute the build.

  2. The host that's used to execute the build must have access to Delphix's Artifactory service, as well as Delphix's AWS S3 buckets; generally this is accomplished by running the build within Delphix's VPN. This is required so that the build can download Delphix's Java distribution stored in Artifactory, along with the Delphix specific packages stored in S3.

Getting Started

The following section will attempt to outline the steps required to execute the build, resulting in the Delphix Appliance virtual machine images.

Step 1: Create Docker Host using DCenter on AWS

Delphix maintains the "bootstrap-18-04" group in DCenter on AWS that fulfills the required build dependencies previously described. Thus, the first step is to use this group to create the host that will be used to execute the build. This can be done as usual, using "dc clone-latest".

Example commands running on "dlpxdc.co":

$ export DLPX_DC_INSTANCE_PUB_KEY=~/.ssh/id_rsa.pub
$ dc clone-latest --size COMPUTE_LARGE bootstrap-18-04 ps-build

Use the "ubuntu" user to log in to the VM after it's cloned; all of the following steps assume their being run on the cloned VM.

Step 2: Clone "appliance-build" Repository

Once the "bootstrap" DCenter on AWS VM is created, the "appliance-build" repository needs to be populated on it. Generally this is done using "git" primitives, e.g. "git clone", "git checkout", etc. For this example, we'll do a new "git clone" of the upstream repository:

$ git clone https://github.com/delphix/appliance-build.git
$ cd appliance-build

Step 3: Configure "bootstrap" VM

Next, we need to apply the "bootstrap" Ansible configuration, which will verify all the necessary build dependencies are fulfilled, while also correcting any deficencies that may exist. This is easily done like so:

$ ansible-playbook bootstrap/playbook.yml

Step 4: Run Live Build

Now, with the "bootstrap" VM properly configured, we can run the build:

$ sudo ./gradlew ...

Each variant will have ansible roles applied according to playbooks in per variant directories under live-build/variants. An appliance can be built by invoking the gradle task for the variant and platform desired. The task name has the form 'build<Variant><Platform>'. For instance, the task to build the 'internal-minimal' variant for KVM is 'buildInternalMinimalKvm':

$ sudo ./gradlew buildInternalMinimalKvm

When this completes, the newly built VM artifacts will be contained in the "live-build/build/artifacts/" directory:

$ ls -lh live-build/build/artifacts/
total 1.9G
-rw-r--r-- 1 root root 275M Jan 11 22:31 internal-minimal-kvm.debs.tar.gz
-rw-r--r-- 1 root root 636M Jan 11 22:33 internal-minimal-kvm.qcow2

The appliance produced will contain a kernel optimized for the specified platform (which can be one of 'aws', 'azure', 'esx', 'gcp', or 'kvm'). The appliance will also contain kernel modules built for that optimized kernel, and perhaps some other modules relevant to that platform only.

Step 5: Use QEMU for Boot Verfication

Once the live-build artifacts have been generated, we can then leverage the "qemu" tool to test the "qcow2" artifact:

$ sudo qemu-system-x86_64 -nographic -m 1G \
> -drive file=live-build/build/artifacts/internal-minimal-kvm.qcow2

This will attempt to boot the "qcow2" VM image, minimally verifying that any changes to the build don't cause a boot failure. Further, after the image boots (assuming it boots successfully), one can log in via the console (username and password are both 'delphix') and perform any post-boot verification that's required (e.g. verify certain packages are installed, etc).

To exit "qemu", one can use "Ctrl-A X".

Building an Upgrade Image

An upgrade image for a particular variant can be built by running the 'buildUpgradeImage<Variant>' tasks. For instance, the task to build an upgrade image for the internal-minimal variant is 'buildUpgradeImageInternalMinimal':

$ sudo DELPHIX_PLATFORMS='kvm aws' ./gradlew buildUpgradeImageInternalMinimal

An upgrade image can contain the necessary packages to upgrade appliances running on multiple different platforms. Which platforms are supported by a particular upgrade image is determined by the list of platforms specified in the DELPHIX_PLATFORMS environment variable. When the build completes, the upgrade image can be found in the "build/artifacts" directory:

$ ls -lh build/artifacts/
total 837M
-rw-r--r-- 1 root root 837M Jan 11 22:35 internal-minimal.upgrade.tar

Using Gradle

As noted in the previous sections, the build logic is implemented using Gradle. The most commonly used tasks are likely to be

  • build<Variant><Platform> - Builds the given variant of the appliance for the given platform
  • buildUpgradeImage<Variant> - Builds an upgrade image for the given variant
  • check - Runs all style checks
  • format - Runs all code formatting tasks
  • clean - Removes all existing build artifacts

The complete list of tasks can be listed using the 'tasks' task:

$ ./gradlew tasks

Creating new build variants

This repository contains different build variants which are used to generate customized images, leveraging different Ansible roles to customize those variants. The following instructions can be used to create a new build variant and roles.

Step 1. Create the build variant

The different variants are located in the "live-build/variants" directory:

$ ls -l live-build/variants
total 0
drwxr-xr-x  5 root  root  160 Jun  4 22:56 external-standard
drwxr-xr-x  5 root  root  160 Jun  4 22:56 internal-dev
drwxr-xr-x  5 root  root  160 Jun  4 22:56 internal-minimal
drwxr-xr-x  5 root  root  160 Jun  4 22:56 internal-qa

To create a new variant, run the "create-variant.sh" script. Note that variant names use the "internal" and "external" prefixes:

$ ./scripts/create-variant.sh internal-dcenter

Step 2. Create and populate the ansible role directory

The new variant that was just created may require some customizations applied to it, that are specific to this new variant. In order to apply these customization, a new Ansible role can be created and used. All existing Ansible roles that are used to customize existing build variants are located in the "live-build/misc/ansible-roles" directory, and follow the standard Ansible role directory structure (i.e. tasks, handlers, files, etc.)

To create a new Ansible role, a new Ansible role directory will need to be created. In this example, the name of our Ansible role will be "appliance-build.dcenter" to match the name of our variant:

$ mkdir -p live-build/misc/ansible-roles/appliance-build.dcenter/tasks

There are many roles that exist in "live-build/misc/ansible-roles" which can serve as good examples.

Step 3. Update the variant configuration

With the role[s] created, you can populate the "playbook.yml" file in the new variant's "ansible" directory:

$ ls -l live-build/variants/internal-dcenter/ansible
total 8
-rw-r--r--  1 root  root  891 Jun 29 14:43 playbook.yml
lrwxr-xr-x  1 root  root   27 Jun 19 19:17 roles -> ../../../misc/ansible-roles

For this example, we add our new role to the playboodk as shown below:

---
- hosts: all
  connection: chroot
  gather_facts: no
  vars:
    ansible_python_interpreter: /usr/bin/python3
  roles:
    - appliance-build.minimal-common
    - appliance-build.minimal-internal
    - appliance-build.dcenter

Step 4. Build the variant

See the instructions above to setup your build environment and kick off the build:

$ sudo ./gradlew buildInternalDcenterEsx

Contributing

All contributors are required to sign the Delphix Contributor Agreement prior to contributing code to an open source repository. This process is handled automatically by cla-assistant. Simply open a pull request and a bot will automatically check to see if you have signed the latest agreement. If not, you will be prompted to do so as part of the pull request process.

This project operates under the Delphix Code of Conduct. By participating in this project you agree to abide by its terms.

Statement of Support

This software is provided as-is, without warranty of any kind or commercial support through Delphix. See the associated license for additional details. Questions, issues, feature requests, and contributions should be directed to the community as outlined in the Delphix Community Guidelines.

License

This is code is licensed under the Apache License 2.0. Full license is available here.