rpmvenv
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kevinconway
RPM packager for Python virtualenv.
======= rpmvenv
RPM package helper which support packaging Python virtual environments.
-
Basic Usage <#basic-usage>_ -
Customizing <#customizing>_-
Core <#core>_ -
Blocks <#blocks>_ -
File Permissions <#file-permissions>_ -
Additional Files <#additional-files>_ -
Python Virtualenv <#python-virtualenv>_ -
CLI Flags And Environment Variables <#cli-flags-and-environment-variables>_ -
Additional Options <#additional-options>_
-
-
NOTE: python 2 support <#note-python-2-support>_ -
NOTE: manylinux <#note-manylinux>_ -
NOTE: unicode <#note-unicode>_ -
NOTE: system python <#note-system-python>_ -
NOTE: bdist eggs with scripts <#note-bdist-eggs-with-scripts>_ -
Testing <#testing>_ -
License <#license>_ -
Contributing <#contributing>_
Basic Usage
In order to package a Python project in an RPM containing a virtualenv drop a file in your repository root with a '.json' extensions and the following content. Change the values where appropriate.
.. code-block:: javascript
{
"extensions": {
"enabled": [
"python_venv",
"blocks"
]
},
"core": {
"group": "Application/System",
"license": "MIT",
"name": "some-rpm-package-name",
"summary": "short package summary",
"version": "1.2.3"
},
"python_venv": {
"name": "name_of_venv_dir_to_create",
"path": "/path/where/to/install/venv"
},
"blocks": {
"desc": [
"some long package description",
"each array element is a new line"
]
}
}
Make sure rpmbuild <http://www.rpm.org>_ is installed.
With the configuration file in place run the command line tool installed with
the package to generate the RPM.
.. code-block:: shell
rpmvenv path/to/the/config.json
This will generate a new RPM and place it in your current working directory.
Customizing
While the above example will generate an installable RPM it has limitations. For example, it does not set the user/group ownership of the packaged files, it does not include non-Python files such as init scripts, and it does not perform any post install actions. This project uses a plugin system for adding and enabling extra functionality. For convenience, some features ship with the project already.
Core
The 'core' extension is always enabled. This extension provides the options for interacting with all the required RPM SPEC file tags like "Version" or "Url". Current core options:
.. code-block:: javascript
{"core":{
// The name of the RPM file which is generated.
"name": "some-pkg-name",
// The RPM version to build.
"version": "1.2.3",
// The release number for the RPM. Default is 1.
"release": "1",
// The short package summary.
"summary": "a package for code",
// The RPM package group in which this package belongs.
"group": "Application/System",
// The license under which the package is distributed.
"license": "MIT",
// The URL of the package source.
"url": "https://projectsite.com",
// The path to the package source. Defaults to the parent of the config.
"source": "/path/to/my/source",
// The name of the buildroot directory to use. Default is random temp dir.
"buildroot": "%(mktemp -ud %{_tmppath}/%{SOURCE0}-%{version}-%{release}-XXXXXX)",
// System dependencies.
"requires": [],
// Conflicting packages.
"conflicts": [],
// Packages to mark as obsolete.
"obsoletes": [],
// Virtual packages satisfied by this RPM.
"provides": []
}}
Blocks
RPM files contain several sections, or blocks, which can contain multi-line content. Most blocks contain shell code used to build and install a project. This extension is enabled by adding 'blocks' to the list of enabled extensions. Each block configuration item is a list of strings. Each string represents a line in the body of the block.
.. code-block:: javascript
{"blocks" {
// Shell to execute on post-install.
"post": [],
// Shell to execute on post-uninstall.
"postun": [],
// Shell to execute on pre-install.
"pre": [],
// Shell to execute on pre-uninstall.
"preun": [],
// Shell to execute during the prep phase.
"prep": [],
// Shell to execute during the build phase.
"build": [],
// Shell to execute during the install phase.
"install": [],
// Shell to execute during the clean phase.
"clean": [],
// Long form description of the package.
"desc": [],
// A list of files which are included in the package.
"files": [],
// A list of the changes that have been done
"changelog": [],
}}
File Permissions
This extension will set the user and group ownership properties of all files included with the package. It is enabled by adding 'file_permissions' to the list of enabled extensions.
.. code-block:: javascript
{"file_permissions": {
// The name of the user who should own the files.
"user": "webserver",
// The name of the group which should own the files.
"group": "webserver",
// If true, the user will be created during install if missing.
"create_user": false,
// If true, the group will be created during install if missing.
"create_group": false,
}}
Additional Files
This extension will allow for packaging any files even if they are not a part of the built project. This extension is enabled by adding "file_extras" in the list of enabled extensions. This extension also requires that 'file_permissions' be enabled. It uses the same user and group to assign ownership of the extra files. Source paths are relative to the root.
.. code-block:: javascript
{"file_extras": {
"files": [
{
"src": "somedir/project_init_script",
"dest": "etc/init.d/project",
},
{
"src": "somedir/readme",
"dest": "usr/share/doc/project/readme",
"doc": true
},
{
"src": "somedir/project.conf",
"dest": "etc/project.conf",
// valid options include true, "noreplace", and "missingok"
"config": "noreplace"
},
// source:destination pairs (deprecated)
"somedir/project_init_script:etc/init.d/project"
]
}}
Python Virtualenv
This extension automates generating an RPM from a Python virtualenv. It is enabled by adding 'python_venv' to the list of enabled extensions.
.. code-block:: javascript
{"python_venv": {
// The executable to use for creating a venv.
"cmd": "virtualenv",
// Flags to pass to the venv during creation.
"flags": ["--always-copy"],
// The name of the installed venv.
"name": "project_venv",
// The path in which to install the venv.
"path": "/usr/share/python",
// The python executable to use in the venv.
"python": "python3.9",
// Optional flag to enable building an rpm with, without a setup.py file. Default is true if not present.
"require_setup_py": true,
// Names of requirements files to install in the venv.
"requirements": ["requirements.txt"],
// Flags to pass to pip during pip install calls.
"pip_flags": "--index-url https://internal-pypi-server.org",
// Optional flag to enable, disable binary striping. Default is true if not present.
"strip_binaries": true,
// Optional flag to install the distribution into the venv with
// pip install, rather than setup.py install. Default is false if
// not present.
"use_pip_install": false,
// Optional flag to remove compiled bytecode from venv.
// It will reduce size of resulting package. Default is false if not present.
"remove_pycache": false,
}}
CLI Flags And Environment Variables
In addition to adding the above sections to a configuration file, all values may also be given as command line flags to the 'rpmvenv' command as well as environment variables.
Command line flags follow a common pattern: '--extension_name_option_name'. A common use for this feature is setting the RPM package version over the CLI rather than hard coding it into a configuration file.
.. code-block:: shell
rpmvenv /path/to/some/config.json --core_version="$(date -u +%Y.%m.%d.%H.%M.%S)"
This CLI argument pattern may be used to set any options. Alternatively, environment variables can also be set using a similar naming scheme: 'export RPMVENV_EXTENSION_NAME_OPTION_NAME=""'. Setting the version with environment variables, for example:
.. code-block:: shell
RPMVENV_CORE_VERSION="$(date -u +%Y.%m.%d.%H.%M.%S)" \
rpmvenv /path/to/some/config.json
The precedence order for options is configuration file, environment variables, then CLI flags. That is, environment variables will always override items in the configuration file and CLI flags will override both the file and the environment variables.
Additional Options
In addition to the options for modifying the spec file, the following are also available as CLI flags:
-
--source
The path to a Python source repository. By default, this value resolves to the directory containing the specified configuration file. It can be overridden if the Python source is not adjacent the configuration file.
-
--destination
The directory in which to place the RPM. The default value is the current working directory.
-
--spec
This flag disables the actual build in favour of printing the spec file contents to stdout. Use this option if you need to manually verify the spec file before running a build.
-
--verbose
Normally, the stdout and stderr of the rpmbuild call are captured unless there is an exception. Adding this flag enables the real-time output from the rpmbuild command.
NOTE: python 2 support
Python 2, itself, was discontinued on 2020-01-01. Since then, libraries that
rpmvenv depends on have started breaking compatibility with Python 2 or even
adding code that prevents the use of that library in Python 2 regardless of
compatibility. It has also become increasingly difficult to support code that
works from Python 2.6 to the most recent versions of Python 3.
The last releases that support Python 2 are version 0.27.0 and 1.0.0. These
are both the same release. There will be no more releases in the 0.x or 1.x
ranges.
If you are using Python 2 then here is an example requirements.txt that has
dependencies pinned to the last known versions that support Python 2:
::
jinja2==2.11.3
venvctrl>=0.5.0,<2.0.0
argparse>=1.4.0,<2.0.0
confpy>=0.11.0,<2.0.0
ordereddict>=1.1.0,<2.0.0
semver>=2.9.1,<3.0.0
NOTE: manylinux
As of 2019-05-26, the issue with packages generated as part of the
manylinux <https://github.com/pypa/manylinux>_ project appears to have
been resolved. This means wheels containing universal linux binaries should
work as expected without any special options being enabled for rpmvenv.
For background, an issue was opened on 2017-02-01 that reported broken builds
when one of the project dependencies was built using manylinux. The root cause
appeared to be an incompatiblity between manylinux binaries and the standard
strip system utility. Without being able to strip the binaries we were
unable to remove metadata from those files which included the temporary RPM
build root. RPM builds automatically fail if any file within the package
contains a reference to the build root.
A test has been added to this project's suite that will fail if the manylinux
project issue with strip regresses. If the issues does regress you can
restore your builds by adding strip_binaries=false to the venv section of
your configuration and setting the QA_SKIP_BUILD_ROOT=1 environment variable
before running rpmvenv. The strip_binaries=false disables the call to
strip and the QA_SKIP_BUILD_ROOT=1 variable disables the RPM tool's check
for build root.
NOTE: unicode
An issue was opened on 2018-09-01 showing a conflict between some Python
packages and some environments. Notably, CentOS (and possibly others) default
to having a global system encoding value set to ASCII rather than UTF-8.
Python2.X opens files using the system encoding which results in several errors
if any of the source code files contain non-ASCII characters. If you encounter
this issue then the easiest way to resolve it is to set the
LC_ALL=en_US.UTF-8 variable before running rpmvenv. This will adjust the
global setting and enable processing of non-ASCII encoded files.
NOTE: system python
An issue was opened on 2017-05-18 showing a build failure wnen using the
default Python installations for some versions of CentOS, Fedora, and RedHat.
The issue manifests during the creation of the virtualenv and appears as
something like ImportError: No module named \'time\' or other error messages
referencing Python built-ins. The cause appears to related to an
unresolved issue <https://github.com/pypa/virtualenv/issues/565>_ between the
affected system distribution provided Python installations and virtualenv.
The only known fix for this issue is to re-build Python from source for any
affected system.
NOTE: bdist eggs with scripts
An issue was opened on 2019-01-28 showing a build failure whenever the usual
python setup.py install line was executed for a project that both contained
scripts and triggered the bdist packaging path for an egg. For unknown
reasons, the bdist egg package both installs scripts in the relevant bin
directory and retrains a copy within the egg directory. rpmvenv rewrites
the shebang paths in bin but does not account for the second copy in the
bdist egg directory. The result is a build failure because the build root is
referenced in a file.
The way to resolve this issue is to use the "use_pip_install": true option
which switches the installation method from python setup.py install to
pip install .. These two methods result in different installation behavior
because pip will always generate a wheel rather than an egg which does not
suffer from this issue.
Testing
The included tests are written using py.test. There is also an included tox.ini which is configured to run the tests in addition to style checks. By default, the integration tests run using rpmvenv as the target project to build. However, any project with a requirements.txt file in the repository root can be specified with the '--python-git-url' flag while running the tests.
License
::
(MIT License)
Copyright (C) 2015 Kevin Conway
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to
deal in the Software without restriction, including without limitation the
rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
sell copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
IN THE SOFTWARE.
Contributing
All contributions to this project are protected under the agreement found in
the CONTRIBUTING file. All contributors should read the agreement but, as
a summary::
You give us the rights to maintain and distribute your code and we promise
to maintain an open source distribution of anything you contribute.
kevinconway