Gear/Introduction: Difference between revisions
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This is introduction to [[gear]] for the people who already have the RPM packaging experience and know how to use git. | This is an introduction to [[gear]] for the people who already have the RPM packaging experience and know how to use git. | ||
== Purpose of gear == | == Purpose of gear == | ||
Gear is a set of tools for maintenance and release management of RPM packages based on a git repository. A gear-enabled git repository of a software package combines | |||
* format of rules file | * software development history | ||
* modifications necessary to produce an RPM package | |||
* rules to bind software releases to specific RPM-based distribution releases | |||
Developers using Gear need to understand | |||
* a format of the rules file describing transformation procedures that convert a given git changeset and branches to a number of source files for a RPM package | |||
* utilities for building packages and working with source code (importing upstream sources and managing patches) | * utilities for building packages and working with source code (importing upstream sources and managing patches) | ||
== RPM-specific stuff == | == RPM-specific stuff == | ||
RPM source packages are built | RPM source packages are built using the following files: | ||
* .spec file, which is roughly debian/* without debian/patches/* | * .spec file, which is roughly debian/* without debian/patches/* | ||
* | * a number of source files/archives | ||
* | * optionally patches containing local fixes to the upstream source code | ||
Gear gives a way to automate generation of patches and source files off the git repostiory. | |||
the git | |||
== Working with upstream source code == | == Working with upstream source code == | ||
A source code of a project is generally tracked in a separate branch that could be synchronized with a corresponding upstream repository by traditional git tools. When the upstream of the project does not use a VCS that allows direct import into git, the source code can still be managed with archives and source RPM packages. | |||
=== SRPMs === | === SRPMs === | ||
Line 32: | Line 32: | ||
will import the given SRPMs to the branch ("srpms" by default) in the | will import the given SRPMs to the branch ("srpms" by default) in the | ||
repository ( | repository (This operation is similar to <tt>git-import-dsc</tt> from <tt>git-buildpackage</tt>). | ||
Importing SRPM creates git layout similar to the "Like SRPM" scenario | Importing SRPM creates a git layout similar to the "Like SRPM" scenario | ||
described below. | described below. | ||
Line 43: | Line 43: | ||
... | ... | ||
will update the subdirectory foo in git repository with contents of | will update the subdirectory foo in the git repository with the contents of | ||
tarball. This operation is similar to | the tarball. This operation is similar to <tt>git-import-orig</tt> from | ||
<tt> | <tt>git-buildpackage</tt>. As SRPMs may contain several sources, the source code is usually stored in a subdirectory of the repository. | ||
=== Upstream VCS === | === Upstream VCS === | ||
This should be obvious: just fetch/pull if upstream uses git, or use | This should be obvious: just fetch/pull if the upstream uses git, or use conversion tools (e.g. svn2git, cvs2git) if it has not yet migrated to git. | ||
== Packaging and patching == | == Packaging and patching == | ||
There are three major scenarios for keeping changes in the repository: | There are three major scenarios for keeping changes in the repository: | ||
* like SRPM | * Work with changes much like in SRPM era | ||
* patches in one branch | * Keep patches in one branch | ||
* patches in topic branches | * Keep patches in specialized topic branches | ||
=== Scenario 1. "Like SRPM" === | === Scenario 1. "Like SRPM" === | ||
This | This simple scenario where git is used just for keeping history, and the usual maintainer's workflow is not changed. | ||
history, and the usual maintainer's workflow is not changed. | |||
Branches in repository: | Branches in repository: | ||
Line 75: | Line 73: | ||
foo-another-fixed.patch (in master) | foo-another-fixed.patch (in master) | ||
git repository is generated by | git repository is generated by importing SRPMs or by creating from scratch. | ||
==== Importing tarball to the upstream branch ==== | ==== Importing tarball to the upstream branch ==== | ||
Use master branch to make it a bit easier | |||
$ mkdir foo | $ mkdir foo | ||
Line 85: | Line 83: | ||
$ git init foo | $ git init foo | ||
$ gear-update ../foo-1.0.tar.gz foo | $ gear-update ../foo-1.0.tar.gz foo | ||
$ git | $ git branch upstream | ||
==== | ==== Add spec and patches ==== | ||
$ vi foo.spec | $ vi foo.spec | ||
Line 93: | Line 91: | ||
$ vi foo-another-fixed.patch | $ vi foo-another-fixed.patch | ||
==== | ==== Add gear/rules ==== | ||
The .gear/rules will have the following | The .gear/rules will have the following content: | ||
copy: foo-something-fixed.patch | copy: foo-something-fixed.patch | ||
Line 101: | Line 99: | ||
tar.gz: foo | tar.gz: foo | ||
This | This sample rules file describes a source tarball from a <tt>foo</tt> directory and two patches. | ||
Specfile is picked up automatically if there is only .spec in the root | Specfile is picked up automatically if there is only .spec in the root | ||
Line 109: | Line 106: | ||
==== Commiting the stuff ==== | ==== Commiting the stuff ==== | ||
Gear is relying on the whole history being recorded by git. This means that any changes you'd like to see in RPM, must be committed to the repository. | |||
$ git add . # Commit entire workdir | $ git add . # Commit the entire workdir | ||
$ gear-commit # this is wrapper around git-commit which uses the last | $ gear-commit # this is a wrapper around git-commit which uses the last | ||
# changelog entry as a commit message. | # changelog entry as a commit message. | ||
=== Scenario 2. "Small fixes" === | === Scenario 2. "Small fixes" === | ||
This is | This scenario is useful for packages which deviate from upstream with a small number of non-overlapping | ||
fixes here and there. This is also easiest scenario to use. | fixes here and there. This is also the easiest scenario to use. | ||
Branches in repository: | Branches in repository: | ||
Line 146: | Line 143: | ||
This will generate foo.tar, containing upstream source code, taken from | This will generate foo.tar, containing upstream source code, taken from | ||
the tag <tt>v${version}</tt>, where version is parsed from the <tt>foo.spec</tt>, and the diff | the tag <tt>v${version}</tt>, where version is parsed from the <tt>foo.spec</tt>, and the diff is containing the difference between the directory foo in <tt>v${version}</tt> tag and current content of the directory foo. | ||
and the | |||
Gear does not use real git tags, but instead it uses the tags stored in <tt>.gear/tags</tt>. The reason for that is to keep packages reproduceable over time as tags may move but SHA1 labels recorded at the time of run of <tt>gear-update-tag</tt> will be able to address original changesets properly. | |||
The <tt>gear-update-tag</tt> utility writes down SHA1 lables of all tags referenced in package process to <tt>.gear/tags</tt>. | |||
$ gear-update-tag --all | $ gear-update-tag --all | ||
Line 161: | Line 155: | ||
$ git-commit .gear/tags -m 'tags updated' | $ git-commit .gear/tags -m 'tags updated' | ||
==== Rebasing to new upstream version ==== | ==== Rebasing to a new upstream version ==== | ||
$ git merge upstream | $ git merge upstream | ||
Line 167: | Line 161: | ||
$ gear-commit | $ gear-commit | ||
That's all! As patches are stored in git branch, it's easy to update to | That's all! As patches are stored in a git branch, it's easy to update to | ||
new upstream version: merge will detect | a new upstream version: merge will detect most incosistences. As an | ||
additional bonus, if upstream uses git as well, patches forwarded | additional bonus, if the upstream uses git as well, patches forwarded | ||
upstream and accepted there will not generate conflicts on merge. | upstream and accepted there will not generate conflicts on merge. | ||
Line 181: | Line 175: | ||
=== Scenario 3. "Full-blown development" === | === Scenario 3. "Full-blown development" === | ||
This is scenario for the packages | This is a scenario for the packages where downstream maintainers do a lot of work (e.g. kernel) or they are upstream themselves. In this case each separate feature is maintained in a separate branch and gear rules are used to automatically produce patches for RPM. | ||
(e.g. kernel). | |||
Branches: | Branches: | ||
Line 194: | Line 187: | ||
foo/ (in upstream, patched in topic-*, master) | foo/ (in upstream, patched in topic-*, master) | ||
.gear/rules (in master) | .gear/rules (in master) | ||
foo.spec (in master) | |||
==== Working on package ==== | ==== Working on package ==== | ||
All the work is done in topic branches, each is dedicated | All the work is done in topic branches, each is dedicated to some feature: | ||
$ git checkout topic-A | $ git checkout topic-A | ||
Line 206: | Line 199: | ||
... | ... | ||
As patches may overlap, some conflict resolution | As patches may overlap, some conflict resolution needs to be | ||
involved. The naive approach would be using the following branching | involved. The naive approach would be using the following branching | ||
scheme: | scheme: | ||
Line 216: | Line 209: | ||
\--> master | \--> master | ||
And then generating patch-per-topic by using .gear/rules. This will not | And then generating patch-per-topic by using .gear/rules. This will not always work, as the generated patches might conflict. | ||
work, as the generated patches | |||
To address the issue branching off each feature topic could be used: | |||
* upstream | * upstream | ||
Line 226: | Line 218: | ||
\-> master | \-> master | ||
And gear-merge(1) utility merges the branches as described in | And gear-merge(1) utility merges the branches as described in .gear/merge file: | ||
.gear/merge file: | |||
merge: upstream topic-A | merge: upstream topic-A | ||
Line 233: | Line 224: | ||
merge: topic-B master | merge: topic-B master | ||
After using this utility (and resolving all conflicts | After using this utility (and resolving all possible conflicts), master branch gets a cumulative change. | ||
branch gets a cumulative change. | |||
==== .gear/rules ==== | ==== .gear/rules ==== | ||
The .gear/rules file will be exactly the same as for previous scenario, | The .gear/rules file will be exactly the same as for the previous scenario, | ||
so the gear-update-tag(1) is also required: | so the gear-update-tag(1) is also required: | ||
Line 244: | Line 234: | ||
diff: diff: v@version@:foo foo | diff: diff: v@version@:foo foo | ||
==== Rebasing to new upstream version ==== | ==== Rebasing to a new upstream version ==== | ||
$ ... # obtain the new upstream code in upstream branch | $ ... # obtain the new upstream code in upstream branch | ||
Line 262: | Line 252: | ||
$ gear-hsh | $ gear-hsh | ||
<tt>gear-hsh</tt> first uses .gear/rules file to produce all needed parts of a SRPM. After that gear will supply a created SRPM to a [[hasher]] build environment. | |||
There are also | There are also other build commands: gear-rpm (uses <tt>rpmbuild</tt> instead of [[hasher]]) and gear-remote-hsh/gear-remote-rpm, which use remote host for actual building (communicating over SSH). | ||
[[ru:Руководство по gear]] | |||
[[Category:Sisyphus]] | [[Category:Sisyphus]] | ||
[[Category:Devel]] | [[Category:Devel]] |
Latest revision as of 01:22, 19 February 2015
This is an introduction to gear for the people who already have the RPM packaging experience and know how to use git.
Purpose of gear
Gear is a set of tools for maintenance and release management of RPM packages based on a git repository. A gear-enabled git repository of a software package combines
- software development history
- modifications necessary to produce an RPM package
- rules to bind software releases to specific RPM-based distribution releases
Developers using Gear need to understand
- a format of the rules file describing transformation procedures that convert a given git changeset and branches to a number of source files for a RPM package
- utilities for building packages and working with source code (importing upstream sources and managing patches)
RPM-specific stuff
RPM source packages are built using the following files:
- .spec file, which is roughly debian/* without debian/patches/*
- a number of source files/archives
- optionally patches containing local fixes to the upstream source code
Gear gives a way to automate generation of patches and source files off the git repostiory.
Working with upstream source code
A source code of a project is generally tracked in a separate branch that could be synchronized with a corresponding upstream repository by traditional git tools. When the upstream of the project does not use a VCS that allows direct import into git, the source code can still be managed with archives and source RPM packages.
SRPMs
$ gear-srpmimport some-0.1.src.rpm $ gear-srpmimport some-0.2.src.rpm ...
will import the given SRPMs to the branch ("srpms" by default) in the repository (This operation is similar to git-import-dsc from git-buildpackage).
Importing SRPM creates a git layout similar to the "Like SRPM" scenario described below.
Tarballs
$ gear-update foo-0.2.tar.gz foo $ gear-update foo-2.0.tar.gz foo ...
will update the subdirectory foo in the git repository with the contents of the tarball. This operation is similar to git-import-orig from git-buildpackage. As SRPMs may contain several sources, the source code is usually stored in a subdirectory of the repository.
Upstream VCS
This should be obvious: just fetch/pull if the upstream uses git, or use conversion tools (e.g. svn2git, cvs2git) if it has not yet migrated to git.
Packaging and patching
There are three major scenarios for keeping changes in the repository:
- Work with changes much like in SRPM era
- Keep patches in one branch
- Keep patches in specialized topic branches
Scenario 1. "Like SRPM"
This simple scenario where git is used just for keeping history, and the usual maintainer's workflow is not changed.
Branches in repository:
master upstream
Tree layout:
foo/ (in upstream, master) .gear/rules (in master) foo.spec (in master) foo-something-fixed.patch (in master) foo-another-fixed.patch (in master)
git repository is generated by importing SRPMs or by creating from scratch.
Importing tarball to the upstream branch
Use master branch to make it a bit easier
$ mkdir foo $ cd foo $ git init foo $ gear-update ../foo-1.0.tar.gz foo $ git branch upstream
Add spec and patches
$ vi foo.spec $ vi foo-something-fixed.patch $ vi foo-another-fixed.patch
Add gear/rules
The .gear/rules will have the following content:
copy: foo-something-fixed.patch copy: foo-another-fixed.patch tar.gz: foo
This sample rules file describes a source tarball from a foo directory and two patches.
Specfile is picked up automatically if there is only .spec in the root directory fo git.
Commiting the stuff
Gear is relying on the whole history being recorded by git. This means that any changes you'd like to see in RPM, must be committed to the repository.
$ git add . # Commit the entire workdir $ gear-commit # this is a wrapper around git-commit which uses the last # changelog entry as a commit message.
Scenario 2. "Small fixes"
This scenario is useful for packages which deviate from upstream with a small number of non-overlapping fixes here and there. This is also the easiest scenario to use.
Branches in repository:
master upstream
Tree layout:
foo/ (in upstream, patched in master) .gear/rules (in master) foo.spec (in master)
Working on package
$ git checkout master $ vim ... # hack-hack $ git add ... # add new files if needed (optional) $ git commit
All the changes are applied just on top of the upstream source code.
.gear/rules
The .gear/rules file will be of the following form:
tar: v@version@:foo diff: diff: v@version@:foo foo
This will generate foo.tar, containing upstream source code, taken from the tag v${version}, where version is parsed from the foo.spec, and the diff is containing the difference between the directory foo in v${version} tag and current content of the directory foo.
Gear does not use real git tags, but instead it uses the tags stored in .gear/tags. The reason for that is to keep packages reproduceable over time as tags may move but SHA1 labels recorded at the time of run of gear-update-tag will be able to address original changesets properly.
The gear-update-tag utility writes down SHA1 lables of all tags referenced in package process to .gear/tags.
$ gear-update-tag --all
Don't forget to commit the changes after updating:
$ git-commit .gear/tags -m 'tags updated'
Rebasing to a new upstream version
$ git merge upstream ... Fix conflicts, update changelog, remove unnecesary patches etc ... $ gear-commit
That's all! As patches are stored in a git branch, it's easy to update to a new upstream version: merge will detect most incosistences. As an additional bonus, if the upstream uses git as well, patches forwarded upstream and accepted there will not generate conflicts on merge.
New package revision
$ vim ... # hack-hack, update changelog $ gear-commit
Also simple.
Scenario 3. "Full-blown development"
This is a scenario for the packages where downstream maintainers do a lot of work (e.g. kernel) or they are upstream themselves. In this case each separate feature is maintained in a separate branch and gear rules are used to automatically produce patches for RPM.
Branches:
upstream topic-A topic-B ... master
Tree layout:
foo/ (in upstream, patched in topic-*, master) .gear/rules (in master) foo.spec (in master)
Working on package
All the work is done in topic branches, each is dedicated to some feature:
$ git checkout topic-A $ vim ... # hack-hack-hack $ git commit $ git checkout topic-B ...
As patches may overlap, some conflict resolution needs to be involved. The naive approach would be using the following branching scheme:
* upstream | \--> topic-A \--> topic-B \--> master
And then generating patch-per-topic by using .gear/rules. This will not always work, as the generated patches might conflict.
To address the issue branching off each feature topic could be used:
* upstream \-> topic-A \-> topic-B \-> master
And gear-merge(1) utility merges the branches as described in .gear/merge file:
merge: upstream topic-A merge: topic-A topic-B merge: topic-B master
After using this utility (and resolving all possible conflicts), master branch gets a cumulative change.
.gear/rules
The .gear/rules file will be exactly the same as for the previous scenario, so the gear-update-tag(1) is also required:
tar: v@version@:foo diff: diff: v@version@:foo foo
Rebasing to a new upstream version
$ ... # obtain the new upstream code in upstream branch $ gear-merge ... Fix conflicts, update changelog, remove unnecessary patches etc... $ gear-commit
Due to gear-merge, it's only necessary to fix the conflicts once.
New package revision
$ vim ... # hack-hack, commit $ gear-merge
Builds
$ gear-hsh
gear-hsh first uses .gear/rules file to produce all needed parts of a SRPM. After that gear will supply a created SRPM to a hasher build environment.
There are also other build commands: gear-rpm (uses rpmbuild instead of hasher) and gear-remote-hsh/gear-remote-rpm, which use remote host for actual building (communicating over SSH).