This framework is used for building customized third-party packages and public Delphix packages for the Ubuntu-based Delphix Appliance. It also has the functionality to automatically sync third-party packages with the upstream projects.

1. System Requirements
2. Getting Started
3. Project Summary
4. Scripts
5. Environment Variables
6. Package Definition
   • Package Variables
   • Package Hooks
   • Package Environment Variables
   • Package WORKDIR
7. Adding New Packages
   • Third-party package
   • In-house package
8. Testing your changes
9. Versions and Branches
10. Contributing
11. Statement of Support
12. License

This framework is intended to be run on an Ubuntu 18.04 system with some basic developer packages installed, such as git, and passwordless sudo enabled. Note that it will automatically install various build-dependencies on the system, so as a safety precaution it is currently restricted to only run on an AWS instance to prevent developers accidentally running it on their personal machines. To bypass the safety check, you can run the following command before running any script:

export DISABLE_SYSTEM_CHECK=true

This quick tutorial shows how to build the packages managed by this framework.

You need a system that meets the requirements above. For Delphix developers, you should clone the bootstrap-18-04 group on DCoA.

Clone this repository on the build VM.

git clone https://github.com/delphix/linux-pkg.git

Run the setup script. It only needs to be run once after cloning the VM.

cd linux-pkg
./setup.sh

We can now build an arbitrary package. Any package in the packages directory would do. Let's pick cloud-init as an example:

./buildpkg.sh cloud-init

Packages will be stored in directory packages/cloud-init/tmp/artifacts/.

Linux-pkg also allows you to build a pre-defined list of packages. Package lists can be found in the package-lists directory. Let's try to build the "userland" package list:

./buildlist.sh userland

Note that the build of the "userland" list can take close to an hour. The artifacts for all the packages built will be located in directory artifacts/.

There are two main tasks that are performed by this framework: building lists of packages so that they can be later included in appliance-build, and keeping each package up-to-date with its upstream project by updating the appropriate git branches.

This task is relatively straight forward. Every package listed in the target package list is built and a metapackage is created with the build info of each package that was built. You can see section Scripts > buildlist.sh below for more details.

The idea behind this task is to reduce the amount of effort required to maintain third-party packages and keep them up-to-date. Note that this task does not apply to packages created and maintained by Delphix, but only to third-party packages that Delphix modifies. Instead of following a more conventional approach of using tarballs and patches with all its drawbacks, we've decided to leverage the advantages offered by revision control. As such, we've adopted a well defined branching model for each third-party package.

First of all, we have a Delphix repository on github for each third-party package that we build. Each repository has at least 2 branches: master and upstreams/master. The master branch of the package is the one we build, and contains Delphix changes. The upstreams/master branch is used to track the upstream version of the package. For packages that are not provided by Ubuntu but are available on git, the upstreams/master branch usually just tracks the master branch of the project. For packages that are provided by Ubuntu, the upstreams/master branch instead tracks the source package that is maintained by Ubuntu (i.e. the branch contains the files obtained from apt-get source <source-package>). This offers the advantage of using a version of the package tuned to work with our Ubuntu distribution.

When updating a package, we first check if the upstreams/master branch is up-to-date, by fetching the latest version of the upstream git repository or the Ubuntu source package. If changes are detected, we update upstreams/master.

The second step is to check if the master branch is up-to-date with upstreams/master. If it is already up-to-date, then we are done. If not, then we attempt merging upstreams/master into master.

If the merge is successful, then we attempt building the master branch. The merge is considered failed if the build fails, which means that the master branch of the main repository will not be updated.

Note that any updates are pushed independently to the upstreams/master and master branches of the Delphix repository for the package.

Although for now we only support auto-updating the master branch, the framework is designed so that other branches could also be auto-updated.

For additional details, you can see section Scripts > updatelist.sh below.

A set of scripts were created in this repository to allow easily building and updating packages both manually and through automation (e.g. Jenkins).

Installs dependencies for the build framework. Needs to be run once to configure the system, before any other scripts.

Builds a single package. Package name must match a directory under packages/.

./buildpkg.sh <package>

The build will look at packages/<package>/config.sh for instructions on where to fetch the package from and how build it. The build will be performed in packages/<package>/tmp/, and build artifacts for this package will be stored in the artifacts sub-directory.

buildpkg.sh includes additional options. The most common of them is -u, which will update the package with upstream. See section Updating third-party packages for more info.

Builds a list of packages and the assossiated metapackage. The list of packages is read from package-lists/build/{list}.pkgs and builds the packages listed there by invoking buildpkg.sh on each one of them. Once they are all built, it builds the metapackage, which stores the build info for each package that was built -- info such as git hash, git url and git branch.

./buildlist.sh <package list>

buildlist.sh doesn't take build options but can be configured by passing various environment variables. See section Environment Variables for more details.

Packages are built sequentially in the order defined in the pkgs file. If a package fails to build, the script exits immediately.

This is a wrapper script around buildlist.sh and was designed to be called by Jenkins. Any environment variables that are passed to jenkins-buildlist.sh are propagated to the child script. In addition, jenkins-buildlist.sh interprets environment variables specified in section Environment variables specific to jenkins-buildlist.

Updates all the packages listed in package list package-lists/update/{list}.pkgs:

./updatelist.sh [-n] <package list>

Here are the steps for updating one package:

1. Run buildpkg.sh -u <package>. This will attempt to update the upstreams/master branch, and then attempt to merge upstreams/master into master. If changes are detected on master, then the package will be built. If a package is listed in package-lists/auto-merge-blacklist.pkgs, then -M will be passed to buildpkg.sh and we will not attempt updating master.

2. If changes are detected for upstreams/master or master, push them to the default repository for the package (e.g. github.com/delphix/<package>). This is done by invoking push-updates.sh for each branch. Note that upstreams/master will be updated even if merge with master failed, allowing developers to later perform the merge manually.

Each package is processed independently, so a failure to update one package doesn't affect the update of other packages. A report is generated at the end.

updatelist.sh can be run in dry-run mode by passing -n so that package updates are not pushing to the target repository. Its behaviour can also be configured by passing various environment variables. See section Environment Variables for more details.

This is a wrapper script around updatelist.sh and was designed to be called by Jenkins. Any environment variables that are passed to jenkins-buildlist.sh are propagated to the child script.

This script pushes branch updates to the default repository for the package. It should be called after running buildpkg.sh -u <package>. The script should be invoked with:

./push-update.sh -u|-m <package>

Running it with -u will update upstreams/master and running it with -m will update master.

Note that credentials for a user that has permissions to push to the target repository must be passed. Passing the -n option does a dry-run, meaning that the target repository won't be updated (-n will be passed to git push).

There's a set of environment variables that can be set to modify the operation of some of the scripts defined above.

• DISABLE_SYSTEM_CHECK: Set to "true" to disable the check that makes sure we are running on an Ubuntu Bionic (18.04) system in AWS. Affects all scripts.

• DRY_RUN: Set to "true" to prevent updatelist.sh from updating production package repositories. updatelist.sh will invoke push-updates.sh with -n.

• PUSH_GIT_USER, PUSH_GIT_PASSWORD: Set to the git credentials used to push updates to package repositories. Affects updatelist.sh and push-updates.sh.

• DEFAULT_REVISION: Default revision to use for packages that do not have a revision defined. If not set, it will be auto-generated from the timestamp. Applies to buildpkg.sh and buildlist.sh.

• DEFAULT_BRANCH: Default git branch to use when fetching a package that does not have a branch explicitly defined. If not set, it will default to "master". Applies to buildpkg.sh and buildlist.sh.

• CHECKSTYLE: Applies to buildlist.sh. Passes -c to buildpkg.sh when CHECKSTYLE is "true" to execute the checkstyle hook when building a package. See Package Definition section for more details about the hook.

• TARGET_PLATFORMS: Some packages build kernel modules. This specifies which kernel versions to build those packages for and accepts a space-separated list of values. If the value is a platform, such as "aws" or "generic", then it will auto-determine the default kernel version for the provided platform. If TARGET_PLATFORMS is unset or "default", then it will build for all supported platforms.

• UPDATE_PACKAGE_NAME: Applies to updatelist.sh only. If this variable is set then updatelist.sh only updates the package specified by this variable.

• {PACKAGE}_GIT_URL, {PACKAGE}_GIT_BRANCH, {PACKAGE}_VERSION, {PACKAGE}_REVISION: Can be used to override defaults for a given package. {PACKAGE} is the package name in upper case with - converted to _. For instance CLOUD_INIT_GIT_BRANCH=feature1 would set the branch to fetch package cloud-init from to feature1. This is useful when running buildlist.sh to override defaults for multiple packages. Applies to both buildlist.sh and buildpkg.sh.

• SINGLE_PACKAGE_NAME: When running jenkins-buildlist.sh, other SINGLE_PACKAGE_{*} parameters mentioned below are used to override the defaults for this package.

• SINGLE_PACKAGE_GIT_URL, SINGLE_PACKAGE_GIT_BRANCH, SINGLE_PACKAGE_VERSION, SINGLE_PACKAGE_REVISION: Applies to jenkins-buildlist.sh only. Those are equivalent to the {PACKAGE}_{*} variables described previously but apply to the package passed in SINGLE_PACKAGE_NAME. They are added for convenience when using Jenkins.

• CUSTOM_BUILDER_ENV: Applies to jenkins-buildlist.sh only. This is a multi-line field that takes one {PACKAGE}_{*}=value entry per line and is parsed by jenkins-buildlist.sh to set the specified {PACKAGE}_{*} environment variables. This can be used to set any number of {PACKAGE}_{*} variables from Jenkins.

For each package built by this framework, there must be a file named packages/<package>/config.sh. It defines some default variables and various hooks for building the package. When buildpkg.sh is invoked for building a package, it calls load_package_config(), which sources the appropriate config.sh file and then executes the various hooks defined for the package. The bash library lib/common.sh contains various functions that can be called from the hooks or the various scripts.

Here is a list of variables that can be defined for a package:

• DEFAULT_PACKAGE_GIT_URL: (Mandatory) Git repository to fetch the package source code from. This is also the repository that is used when pushing changes with the push-updates.sh script. Note that this must be an https:// URL. One exception is if the source of the package being built isn't fetched from git. In this case, set this to "none".

• DEFAULT_PACKAGE_GIT_BRANCH: (Optional) Default git branch to use when fetching from or pushing to DEFAULT_PACKAGE_GIT_URL. This should be typically left unset. The branch to fetch the package from defaults to the value of the environment variable DEFAULT_BRANCH, which itself defaults to "master".

• DEFAULT_PACKAGE_VERSION: (Optional) The version of the package is set to this value when it is built. Note: If this field is not set, then you should provide a mechanism in the build hook to auto-determine the version from the source code.

• DEFAULT_PACKAGE_REVISION: (Optional) The revision of the package is set to this value when it is built (note that the full version of a package is "VERSION-REVISION"). If unset, it defaults to value of environment variable DEFAULT_REVISION.

• UPSTREAM_SOURCE_PACKAGE: (Optional) Third-party packages that have an update_upstream hook and are updated from an Ubuntu source package should set this to the name of the source package.

• UPSTREAM_GIT_URL, UPSTREAM_GIT_BRANCH: (Optional) Third-party packages that have an update_upstream hook and are updated from a git repository should set this to the upstream git url and branch.

This is a list of hooks that can be defined for a package. Those are simply bash functions that are called by buildpkg.sh.

The prepare() hook is optional. It is called before calling the build hook and normally installs the build dependencies for the package.

The fetch() hook is optional, as a default is provided and should be used. It is called when fetching the source code of the package to build or to update. The repository is cloned into packages/<package>/tmp/repo and checked out as branch repo-HEAD. If we are performing a package update, then we also fetch the upstreams/master branch into upstream-HEAD. The default should only be overridden when not fetching the package source from git.

The build() hook is mandatory. It is responsible for building the package and storing the build products into packages/<package>/tmp/artifacts/.

The checkstyle() hook is optional. It is called before building the package if -c is provided to buildpkg.sh.

The update_upstream() hook should only be defined for third party packages that need to be auto-updated. It is responsible for fetching the latest upstream source code on top of branch upstream-HEAD of our fetched repository in packages/<package>/tmp/repo. Note that any changes should be rebased on top of the upstreams/master branch. If changes are detected, file packages/<package>/tmp/upstream-updated should be created.

After the update_upstream() hook is called, and if changes are detected, buildpkg.sh will proceed to merge the upstream-HEAD branch into repo-HEAD and build the resulting code.

In addition to any variables defined by the package itself, a few environment variables are set-up by the framework. Here is a quick list:

• PACKAGE: The name of the package being built.

• PACKAGE_GIT_URL, PACKAGE_GIT_BRANCH, PACKAGE_VERSION, PACKAGE_REVISION: Those variables are set by the framework depending on the corresponding DEFAULT_{*} variables defined in the package's config.sh and on other environment variables that are passed to the framework. For more details, refer to get_package_config_from_env() in lib/config.sh.

• WORKDIR: Directory where the package is fetched, built, etc. See Package WORKDIR.

• KERNEL_VERSIONS: Space separated list of kernel versions that the package should be built for. determine_kernel_versions() must be called before using this variable.

Each package is being fetched, built and updated in directory linux-pkg/packages/<package>/tmp/, referred to as WORKDIR.

The following sub-directories are created in WORKDIR:

• repo: where the repository is fetched and built.

• artifacts: where the build artifacts are stored.

• source: where the source package is fetched when updating upstream from a source package.

The following files are used as status indicators in WORKDIR:

• building: created when package is being built, deleted on success.

• updating-upstream: created when updating upstream branch, deleted on success.

• merging: created when package is being merged with upstream branch, deleted on success.

• upstream-updated: created if upstream-HEAD has updates that should be pushed.

• repo-updated: created if repo-HEAD has updates that should be pushed, following a merge.

Finally, when building a package, build info should be stored in the build_info file under WORKDIR. To store some default git info, store_git_info() can be called. build_info files for each package are consumed by the metapackage when running buildlist.sh.

When considering adding a new package, the workflow will depend on whether the package is a third-party package or in-house package.

Note For Delphix Employees: If you are thinking of adding a new package to this framework, you should first read the Delphix Open-Source Policy.

If the package is already provided by Ubuntu, it's recommended to use the source package as the package name. You can get the source package name for a given package by running:

sudo apt update
sudo apt show <package name> | grep Source

It is possible that the source package is not provided and so the command above will not return anything, in which case you can use <package name> as the name of the package.

Once you've decided on a package name (we shall refer to it as <package>), create a directory for it: packages/<package>/.

Next step is to create a new file: packages/<package>/config.sh. You can copy the template from template/config.sh. To get started, all we need to provide is info on where to fetch the upstream source code from.

If you are using an Ubuntu source package, you'll only need to specify the name of the source package:

UPSTREAM_SOURCE_PACKAGE="<source package name>"

If the upstream source code is instead to be retrieved from a git repository, then you need to provide the git details:

UPSTREAM_GIT_URL="<git url>"
UPSTREAM_GIT_BRANCH="<git branch>"

Note that steps 3 to 5 are most useful when getting a third party package from an Ubuntu source package. When the third party package is fetched from git, you may simply fork the upstream repository and add an upstreams/master branch that points to the master branch; you can then update DEFAULT_PACKAGE_GIT_URL in config.sh to your forked git repository and skip to step 6.

You can fetch the upstream source code by running:

./buildpkg.sh -i <package>

This will automatically fetch the code into packages/<package>/tmp/repo and initialize it as a git repository.

The next steps will require you to provide a git repository for your local version of the package. For development purposes you should create an empty repository on github, and then put the url into config.sh. Note that the URL should start with https://.

e.g.

DEFAULT_PACKAGE_GIT_URL="https://github.com/<developer>/<package>"

Note that the branch will default to master unless DEFAULT_PACKAGE_GIT_BRANCH is also provided.

Next step is to push the upstream code to the newly created repository using the push-update.sh script. The script will need to be called twice: once for the upstreams/master branch and once for the master branch. It will also prompt you for your git credentials.

./push-updates -u <package>
./push-updates -m <package>

In this step you'll need to define a few hooks in config.sh. In the hooks you can leverage convenience functions provided by lib/common.sh.

To build the package you'll most likely need to install some build dependencies. If that is the case, you should add a prepare() hook that will install those build dependencies. For an Ubuntu source package, those dependencies can be installed by calling install_source_package_build_deps(). For other packages, you can usually find the build dependencies in the project's README. It is recommended to use the install_pkgs() function to install packages.

Next step is to add a build() hook. It is recommended to use the dpkg_buildpackage_default() function.

Then you'll need to provide the version of the package. For packages created from an Ubuntu source package, it is advised to use the same version as was set in the source package. For other packages you can use any version you like (e.g. 1.0.0). The version must be provided with:

DEFAULT_PACKAGE_VERSION="<version>"

Note that if you are using an Ubuntu source package, you should now be ready to build the package.

For a package that doesn't have a debian metadata directory already defined in its source tree, you'll need to create it, and push the changes to the master branch of your developer repository. See Common Steps > Creating debian metadirectory for more details.

Once this is all ready, you can try building the package by running:

./buildpkg.sh <package>

If you want the package to be automatically updated with upstream (strongly recommended), you'll need to add the update_upstream() hook to config.sh. You should use the following functions provided by lib/common.sh:

• update_upstream_from_source_package() if UPSTREAM_SOURCE_PACKAGE is set.

• update_upstream_from_git() if UPSTREAM_GIT_URL & UPSTREAM_GIT_BRANCH are set.

See Common Steps > Add package to package-lists.

See section Testing Your Changes.

See Common Steps > Make the package official.

Steps for adding an in-house package are slightly different than for a third-party package.

This example assumes that the source code for the project is already present in a git repository and contains a Makefile with instructions to compile the project. If the debian metadata directory is not in the source tree, see Common Steps > Creating debian metadirectory.

We will refer to the name you picked for your package as <package>. Make sure the name doesn't conflict with an existing Ubuntu package.

You'll need to create a new directory: packages/<package>/ and add a new config.sh file in it. You can copy the template from template/config.sh. In config.sh, you'll need to define two variables:

• DEFAULT_PACKAGE_GIT_URL: the https:// git URL for the source code of the package.

• DEFAULT_PACKAGE_VERSION: the version of the package. If unsure, just use 1.0.0.

e.g.:

DEFAULT_PACKAGE_GIT_URL="https://delphix.gitlab.com/<user>/<package>"
DEFAULT_PACKAGE_VERSION="1.0.0"

If your package needs some build dependencies, you'll want to add a prepare() hook to config.sh which will install those build dependencies. It is recommended to use the install_pkgs() function provided by lib/common.sh. Next step is to add a build() hook. It is recommended to use the dpkg_buildpackage_default() function provided by lib/common.sh.

Once those hooks are set-up, you can try building your package by running:

./buildpkg.sh <package>

See Common Steps > Make the package official

Those steps apply to both third-party and in-house packages.

You can refer to the Debian Maintainer Guide here. Note that packages built by gradle, such as the delphix-sso-app, do not require a debian metadirectory.

• Add the new package to the appropriate build list in package-lists/build/. Most packages that will be deployed on the Delphix Appliance should be added to the userland.pkgs list.

• If this is a third-party package that is to be auto-updated by updatelist.sh, it should also be added to package-lists/update/userland.pkgs.

• To make sure that the new package is included in the Delphix Appliance by appliance-build, it should be added as a dependency to an existing package such as delphix-platform or delphix-virtualization.

Note: this step only applies to Delphix.

Once your new package builds and has been tested in the product, the next step is to create an official repository for it.

1. First, you should read Delphix Open-Source Policy if you haven't already, and provide the necessary info so that a github.com/delphix/<package> repository can be created for it. You'll need to push the master branch from your developer repository, as well as the upstreams/master branch if it is a third-party package. Note that if you have modified master (i.e. it diverges from upstreams/master), you should submit your changes for review before pushing them.

2. If this is a third-party package that is to be auto-updated by Delphix automation, you should also make sure the github.com/delphix-devops-bot user is added as a collaborator to the repository.

3. Update DEFAULT_PACKAGE_GIT_URL in packages/<package>/config.sh to the official repository.

If you are not making any changes to linux-pkg, only changes to a given package managed by linux-pkg:

1. Run git-ab-pre-push from your package's repository.

More instructions available here.

If you are adding a new package, changing the linux-pkg framework, or changing the build definition (config.sh file) of a package, you should perform the following steps:

1. On your build VM, in the linux-pkg repository, run checkstyle:

   make clean
   make check
   

2. Run the Jenkins build jobs for the userland and kernel build lists.

3. Run the Jenkins update job for the userland update list.

More instructions available here.

The framework is designed in a way to allow easy integration with the Delphix release process. The idea is that both the package build artifacts (.debs) and package source code should be available for each Delphix release. This should hold for both in-house and third-party packages.

Regarding the build artifacts, those should be taken care of by the existing Delphix build artifacts storage policy, available here. The relevant code for managing the build artifacts is outside of the scope of this project and lies in the devops-gate.

Regarding the source code, we expect that each package repository and the linux-pkg repository itself follows the Delphix branching policy outlined here. When creating a new branch or release for the Delphix Appliance, an external script should create the relevant branch or tag for each repository. The branch or tag should then be passed to the build in the DEFAULT_BRANCH environment variable.

When building packages for an older version of the Delphix Appliance, the build image will need to be picked accordingly. We are currently using bootstrap-18-04, but this will not be the case anymore once we switch to a newer Ubuntu distribution.

Regarding auto-update of third-party packages, we'll most likely want to enable support for other branches than master, especially stage ones. This way we'd be able to automatically pull in security updates for our third-party packages that track Ubuntu source packages.

This means that we will also need integration with our Ubuntu package mirrors. The auto-update process will need to track the proper archive when fetching source packages.

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.

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.

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