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community.general/plugins/modules/packaging/os/flatpak.py
patchback[bot] 203747027e
Move licenses to LICENSES/, run add-license.py, add LICENSES/MIT.txt (#5065) (#5068)
* Move licenses to LICENSES/, run add-license.py, add LICENSES/MIT.txt.

* Replace 'Copyright:' with 'Copyright'

sed -i 's|Copyright:\(.*\)|Copyright\1|' $(rg -l 'Copyright:')

Co-authored-by: Maxwell G <gotmax@e.email>
(cherry picked from commit 123c7efe5e)

Co-authored-by: Felix Fontein <felix@fontein.de>
2022-08-05 13:17:19 +02:00

343 lines
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Python

#!/usr/bin/python
# -*- coding: utf-8 -*-
# Copyright (c) 2017 John Kwiatkoski (@JayKayy) <jkwiat40@gmail.com>
# Copyright (c) 2018 Alexander Bethke (@oolongbrothers) <oolongbrothers@gmx.net>
# Copyright (c) 2017 Ansible Project
# GNU General Public License v3.0+ (see LICENSES/GPL-3.0-or-later.txt or https://www.gnu.org/licenses/gpl-3.0.txt)
# SPDX-License-Identifier: GPL-3.0-or-later
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
DOCUMENTATION = r'''
---
module: flatpak
short_description: Manage flatpaks
description:
- Allows users to add or remove flatpaks.
- See the M(community.general.flatpak_remote) module for managing flatpak remotes.
author:
- John Kwiatkoski (@JayKayy)
- Alexander Bethke (@oolongbrothers)
requirements:
- flatpak
options:
executable:
description:
- The path to the C(flatpak) executable to use.
- By default, this module looks for the C(flatpak) executable on the path.
type: path
default: flatpak
method:
description:
- The installation method to use.
- Defines if the I(flatpak) is supposed to be installed globally for the whole C(system)
or only for the current C(user).
type: str
choices: [ system, user ]
default: system
name:
description:
- The name of the flatpak to manage. To operate on several packages this
can accept a list of packages.
- When used with I(state=present), I(name) can be specified as a URL to a
C(flatpakref) file or the unique reverse DNS name that identifies a flatpak.
- Both C(https://) and C(http://) URLs are supported.
- When supplying a reverse DNS name, you can use the I(remote) option to specify on what remote
to look for the flatpak. An example for a reverse DNS name is C(org.gnome.gedit).
- When used with I(state=absent), it is recommended to specify the name in the reverse DNS
format.
- When supplying a URL with I(state=absent), the module will try to match the
installed flatpak based on the name of the flatpakref to remove it. However, there is no
guarantee that the names of the flatpakref file and the reverse DNS name of the installed
flatpak do match.
type: list
elements: str
required: true
no_dependencies:
description:
- If installing runtime dependencies should be omitted or not
- This parameter is primarily implemented for integration testing this module.
There might however be some use cases where you would want to have this, like when you are
packaging your own flatpaks.
type: bool
default: false
version_added: 3.2.0
remote:
description:
- The flatpak remote (repository) to install the flatpak from.
- By default, C(flathub) is assumed, but you do need to add the flathub flatpak_remote before
you can use this.
- See the M(community.general.flatpak_remote) module for managing flatpak remotes.
type: str
default: flathub
state:
description:
- Indicates the desired package state.
choices: [ absent, present ]
type: str
default: present
'''
EXAMPLES = r'''
- name: Install the spotify flatpak
community.general.flatpak:
name: https://s3.amazonaws.com/alexlarsson/spotify-repo/spotify.flatpakref
state: present
- name: Install the gedit flatpak package without dependencies (not recommended)
community.general.flatpak:
name: https://git.gnome.org/browse/gnome-apps-nightly/plain/gedit.flatpakref
state: present
no_dependencies: true
- name: Install the gedit package from flathub for current user
community.general.flatpak:
name: org.gnome.gedit
state: present
method: user
- name: Install the Gnome Calendar flatpak from the gnome remote system-wide
community.general.flatpak:
name: org.gnome.Calendar
state: present
remote: gnome
- name: Install multiple packages
community.general.flatpak:
name:
- org.gimp.GIMP
- org.inkscape.Inkscape
- org.mozilla.firefox
- name: Remove the gedit flatpak
community.general.flatpak:
name: org.gnome.gedit
state: absent
- name: Remove multiple packages
community.general.flatpak:
name:
- org.gimp.GIMP
- org.inkscape.Inkscape
- org.mozilla.firefox
state: absent
'''
RETURN = r'''
command:
description: The exact flatpak command that was executed
returned: When a flatpak command has been executed
type: str
sample: "/usr/bin/flatpak install --user --nontinteractive flathub org.gnome.Calculator"
msg:
description: Module error message
returned: failure
type: str
sample: "Executable '/usr/local/bin/flatpak' was not found on the system."
rc:
description: Return code from flatpak binary
returned: When a flatpak command has been executed
type: int
sample: 0
stderr:
description: Error output from flatpak binary
returned: When a flatpak command has been executed
type: str
sample: "error: Error searching remote flathub: Can't find ref org.gnome.KDE"
stdout:
description: Output from flatpak binary
returned: When a flatpak command has been executed
type: str
sample: "org.gnome.Calendar/x86_64/stable\tcurrent\norg.gnome.gitg/x86_64/stable\tcurrent\n"
'''
from ansible.module_utils.six.moves.urllib.parse import urlparse
from ansible.module_utils.basic import AnsibleModule
from ansible_collections.community.general.plugins.module_utils.version import LooseVersion
OUTDATED_FLATPAK_VERSION_ERROR_MESSAGE = "Unknown option --columns=application"
def install_flat(module, binary, remote, names, method, no_dependencies):
"""Add new flatpaks."""
global result
uri_names = []
id_names = []
for name in names:
if name.startswith('http://') or name.startswith('https://'):
uri_names.append(name)
else:
id_names.append(name)
base_command = [binary, "install", "--{0}".format(method)]
flatpak_version = _flatpak_version(module, binary)
if LooseVersion(flatpak_version) < LooseVersion('1.1.3'):
base_command += ["-y"]
else:
base_command += ["--noninteractive"]
if no_dependencies:
base_command += ["--no-deps"]
if uri_names:
command = base_command + uri_names
_flatpak_command(module, module.check_mode, command)
if id_names:
command = base_command + [remote] + id_names
_flatpak_command(module, module.check_mode, command)
result['changed'] = True
def uninstall_flat(module, binary, names, method):
"""Remove existing flatpaks."""
global result
installed_flat_names = [
_match_installed_flat_name(module, binary, name, method)
for name in names
]
command = [binary, "uninstall"]
flatpak_version = _flatpak_version(module, binary)
if LooseVersion(flatpak_version) < LooseVersion('1.1.3'):
command += ["-y"]
else:
command += ["--noninteractive"]
command += ["--{0}".format(method)] + installed_flat_names
_flatpak_command(module, module.check_mode, command)
result['changed'] = True
def flatpak_exists(module, binary, names, method):
"""Check if the flatpaks are installed."""
command = [binary, "list", "--{0}".format(method), "--app"]
output = _flatpak_command(module, False, command)
installed = []
not_installed = []
for name in names:
parsed_name = _parse_flatpak_name(name).lower()
if parsed_name in output.lower():
installed.append(name)
else:
not_installed.append(name)
return installed, not_installed
def _match_installed_flat_name(module, binary, name, method):
# This is a difficult function, since if the user supplies a flatpakref url,
# we have to rely on a naming convention:
# The flatpakref file name needs to match the flatpak name
global result
parsed_name = _parse_flatpak_name(name)
# Try running flatpak list with columns feature
command = [binary, "list", "--{0}".format(method), "--app", "--columns=application"]
_flatpak_command(module, False, command, ignore_failure=True)
if result['rc'] != 0 and OUTDATED_FLATPAK_VERSION_ERROR_MESSAGE in result['stderr']:
# Probably flatpak before 1.2
matched_flatpak_name = \
_match_flat_using_flatpak_column_feature(module, binary, parsed_name, method)
else:
# Probably flatpak >= 1.2
matched_flatpak_name = \
_match_flat_using_outdated_flatpak_format(module, binary, parsed_name, method)
if matched_flatpak_name:
return matched_flatpak_name
else:
result['msg'] = "Flatpak removal failed: Could not match any installed flatpaks to " +\
"the name `{0}`. ".format(_parse_flatpak_name(name)) +\
"If you used a URL, try using the reverse DNS name of the flatpak"
module.fail_json(**result)
def _match_flat_using_outdated_flatpak_format(module, binary, parsed_name, method):
global result
command = [binary, "list", "--{0}".format(method), "--app", "--columns=application"]
output = _flatpak_command(module, False, command)
for row in output.split('\n'):
if parsed_name.lower() == row.lower():
return row
def _match_flat_using_flatpak_column_feature(module, binary, parsed_name, method):
global result
command = [binary, "list", "--{0}".format(method), "--app"]
output = _flatpak_command(module, False, command)
for row in output.split('\n'):
if parsed_name.lower() in row.lower():
return row.split()[0]
def _parse_flatpak_name(name):
if name.startswith('http://') or name.startswith('https://'):
file_name = urlparse(name).path.split('/')[-1]
file_name_without_extension = file_name.split('.')[0:-1]
common_name = ".".join(file_name_without_extension)
else:
common_name = name
return common_name
def _flatpak_version(module, binary):
global result
command = [binary, "--version"]
output = _flatpak_command(module, False, command)
version_number = output.split()[1]
return version_number
def _flatpak_command(module, noop, command, ignore_failure=False):
global result
result['command'] = ' '.join(command)
if noop:
result['rc'] = 0
return ""
result['rc'], result['stdout'], result['stderr'] = module.run_command(
command, check_rc=not ignore_failure
)
return result['stdout']
def main():
# This module supports check mode
module = AnsibleModule(
argument_spec=dict(
name=dict(type='list', elements='str', required=True),
remote=dict(type='str', default='flathub'),
method=dict(type='str', default='system',
choices=['user', 'system']),
state=dict(type='str', default='present',
choices=['absent', 'present']),
no_dependencies=dict(type='bool', default=False),
executable=dict(type='path', default='flatpak')
),
supports_check_mode=True,
)
name = module.params['name']
state = module.params['state']
remote = module.params['remote']
no_dependencies = module.params['no_dependencies']
method = module.params['method']
executable = module.params['executable']
binary = module.get_bin_path(executable, None)
global result
result = dict(
changed=False
)
# If the binary was not found, fail the operation
if not binary:
module.fail_json(msg="Executable '%s' was not found on the system." % executable, **result)
installed, not_installed = flatpak_exists(module, binary, name, method)
if state == 'present' and not_installed:
install_flat(module, binary, remote, not_installed, method, no_dependencies)
elif state == 'absent' and installed:
uninstall_flat(module, binary, installed, method)
module.exit_json(**result)
if __name__ == '__main__':
main()