#!/usr/bin/python # -*- coding: utf-8 -*- # Copyright: (c) 2012, Afterburn # Copyright: (c) 2013, Aaron Bull Schaefer # Copyright: (c) 2015, Indrajit Raychaudhuri # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt) from __future__ import absolute_import, division, print_function __metaclass__ = type DOCUMENTATION = ''' --- module: pacman short_description: Manage packages with I(pacman) description: - Manage packages with the I(pacman) package manager, which is used by Arch Linux and its variants. author: - Indrajit Raychaudhuri (@indrajitr) - Aaron Bull Schaefer (@elasticdog) - Maxime de Roucy (@tchernomax) options: name: description: - Name or list of names of the package(s) or file(s) to install, upgrade, or remove. Can't be used in combination with C(upgrade). aliases: [ package, pkg ] type: list elements: str state: description: - Whether to install (C(present) or C(installed), C(latest)), or remove (C(absent) or C(removed)) a package. - C(present) and C(installed) will simply ensure that a desired package is installed. - C(latest) will update the specified package if it is not of the latest available version. - C(absent) and C(removed) will remove the specified package. default: present choices: [ absent, installed, latest, present, removed ] type: str force: description: - When removing package, force remove package, without any checks. Same as `extra_args="--nodeps --nodeps"`. When update_cache, force redownload repo databases. Same as `update_cache_extra_args="--refresh --refresh"`. default: no type: bool executable: description: - Name of binary to use. This can either be C(pacman) or a pacman compatible AUR helper. - Beware that AUR helpers might behave unexpectedly and are therefore not recommended. default: pacman type: str version_added: 3.1.0 extra_args: description: - Additional option to pass to pacman when enforcing C(state). default: type: str update_cache: description: - Whether or not to refresh the master package lists. - This can be run as part of a package installation or as a separate step. - Alias C(update-cache) has been deprecated and will be removed in community.general 5.0.0. default: no type: bool aliases: [ update-cache ] update_cache_extra_args: description: - Additional option to pass to pacman when enforcing C(update_cache). default: type: str upgrade: description: - Whether or not to upgrade the whole system. Can't be used in combination with C(name). default: no type: bool upgrade_extra_args: description: - Additional option to pass to pacman when enforcing C(upgrade). default: type: str notes: - When used with a C(loop:) each package will be processed individually, it is much more efficient to pass the list directly to the I(name) option. - To use an AUR helper (I(executable) option), a few extra setup steps might be required beforehand. For example, a dedicated build user with permissions to install packages could be necessary. ''' RETURN = ''' packages: description: a list of packages that have been changed returned: when upgrade is set to yes type: list sample: [ package, other-package ] ''' EXAMPLES = ''' - name: Install package foo from repo community.general.pacman: name: foo state: present - name: Install package bar from file community.general.pacman: name: ~/bar-1.0-1-any.pkg.tar.xz state: present - name: Install package foo from repo and bar from file community.general.pacman: name: - foo - ~/bar-1.0-1-any.pkg.tar.xz state: present - name: Install package from AUR using a Pacman compatible AUR helper community.general.pacman: name: foo state: present executable: yay extra_args: --builddir /var/cache/yay - name: Upgrade package foo community.general.pacman: name: foo state: latest update_cache: yes - name: Remove packages foo and bar community.general.pacman: name: - foo - bar state: absent - name: Recursively remove package baz community.general.pacman: name: baz state: absent extra_args: --recursive - name: Run the equivalent of "pacman -Sy" as a separate step community.general.pacman: update_cache: yes - name: Run the equivalent of "pacman -Su" as a separate step community.general.pacman: upgrade: yes - name: Run the equivalent of "pacman -Syu" as a separate step community.general.pacman: update_cache: yes upgrade: yes - name: Run the equivalent of "pacman -Rdd", force remove package baz community.general.pacman: name: baz state: absent force: yes ''' import re from ansible.module_utils.basic import AnsibleModule def get_version(pacman_output): """Take pacman -Q or pacman -S output and get the Version""" fields = pacman_output.split() if len(fields) == 2: return fields[1] return None def get_name(module, pacman_output): """Take pacman -Q or pacman -S output and get the package name""" fields = pacman_output.split() if len(fields) == 2: return fields[0] module.fail_json(msg="get_name: fail to retrieve package name from pacman output") def query_package(module, pacman_path, name, state="present"): """Query the package status in both the local system and the repository. Returns a boolean to indicate if the package is installed, a second boolean to indicate if the package is up-to-date and a third boolean to indicate whether online information were available """ if state == "present": lcmd = "%s --query %s" % (pacman_path, name) lrc, lstdout, lstderr = module.run_command(lcmd, check_rc=False) if lrc != 0: # package is not installed locally return False, False, False else: # a non-zero exit code doesn't always mean the package is installed # for example, if the package name queried is "provided" by another package installed_name = get_name(module, lstdout) if installed_name != name: return False, False, False # get the version installed locally (if any) lversion = get_version(lstdout) rcmd = "%s --sync --print-format \"%%n %%v\" %s" % (pacman_path, name) rrc, rstdout, rstderr = module.run_command(rcmd, check_rc=False) # get the version in the repository rversion = get_version(rstdout) if rrc == 0: # Return True to indicate that the package is installed locally, and the result of the version number comparison # to determine if the package is up-to-date. return True, (lversion == rversion), False # package is installed but cannot fetch remote Version. Last True stands for the error return True, True, True def update_package_db(module, pacman_path): if module.params['force']: module.params["update_cache_extra_args"] += " --refresh --refresh" cmd = "%s --sync --refresh %s" % (pacman_path, module.params["update_cache_extra_args"]) rc, stdout, stderr = module.run_command(cmd, check_rc=False) if rc == 0: return True else: module.fail_json(msg="could not update package db") def upgrade(module, pacman_path): cmdupgrade = "%s --sync --sysupgrade --quiet --noconfirm %s" % (pacman_path, module.params["upgrade_extra_args"]) cmdneedrefresh = "%s --query --upgrades" % (pacman_path) rc, stdout, stderr = module.run_command(cmdneedrefresh, check_rc=False) data = stdout.split('\n') data.remove('') packages = [] diff = { 'before': '', 'after': '', } if rc == 0: # Match lines of `pacman -Qu` output of the form: # (package name) (before version-release) -> (after version-release) # e.g., "ansible 2.7.1-1 -> 2.7.2-1" regex = re.compile(r'([\w+\-.@]+) (\S+-\S+) -> (\S+-\S+)') for p in data: m = regex.search(p) packages.append(m.group(1)) if module._diff: diff['before'] += "%s-%s\n" % (m.group(1), m.group(2)) diff['after'] += "%s-%s\n" % (m.group(1), m.group(3)) if module.check_mode: module.exit_json(changed=True, msg="%s package(s) would be upgraded" % (len(data)), packages=packages, diff=diff) rc, stdout, stderr = module.run_command(cmdupgrade, check_rc=False) if rc == 0: module.exit_json(changed=True, msg='System upgraded', packages=packages, diff=diff) else: module.fail_json(msg="Could not upgrade") else: module.exit_json(changed=False, msg='Nothing to upgrade', packages=packages) def remove_packages(module, pacman_path, packages): data = [] diff = { 'before': '', 'after': '', } if module.params["force"]: module.params["extra_args"] += " --nodeps --nodeps" remove_c = 0 # Using a for loop in case of error, we can report the package that failed for package in packages: # Query the package first, to see if we even need to remove installed, updated, unknown = query_package(module, pacman_path, package) if not installed: continue cmd = "%s --remove --noconfirm --noprogressbar %s %s" % (pacman_path, module.params["extra_args"], package) rc, stdout, stderr = module.run_command(cmd, check_rc=False) if rc != 0: module.fail_json(msg="failed to remove %s" % (package)) if module._diff: d = stdout.split('\n')[2].split(' ')[2:] for i, pkg in enumerate(d): d[i] = re.sub('-[0-9].*$', '', d[i].split('/')[-1]) diff['before'] += "%s\n" % pkg data.append('\n'.join(d)) remove_c += 1 if remove_c > 0: module.exit_json(changed=True, msg="removed %s package(s)" % remove_c, diff=diff) module.exit_json(changed=False, msg="package(s) already absent") def install_packages(module, pacman_path, state, packages, package_files): install_c = 0 package_err = [] message = "" data = [] diff = { 'before': '', 'after': '', } to_install_repos = [] to_install_files = [] for i, package in enumerate(packages): # if the package is installed and state == present or state == latest and is up-to-date then skip installed, updated, latestError = query_package(module, pacman_path, package) if latestError and state == 'latest': package_err.append(package) if installed and (state == 'present' or (state == 'latest' and updated)): continue if package_files[i]: to_install_files.append(package_files[i]) else: to_install_repos.append(package) if to_install_repos: cmd = "%s --sync --noconfirm --noprogressbar --needed %s %s" % (pacman_path, module.params["extra_args"], " ".join(to_install_repos)) rc, stdout, stderr = module.run_command(cmd, check_rc=False) if rc != 0: module.fail_json(msg="failed to install %s: %s" % (" ".join(to_install_repos), stderr)) # As we pass `--needed` to pacman returns a single line of ` there is nothing to do` if no change is performed. # The check for > 3 is here because we pick the 4th line in normal operation. if len(stdout.split('\n')) > 3: data = stdout.split('\n')[3].split(' ')[2:] data = [i for i in data if i != ''] for i, pkg in enumerate(data): data[i] = re.sub('-[0-9].*$', '', data[i].split('/')[-1]) if module._diff: diff['after'] += "%s\n" % pkg install_c += len(to_install_repos) if to_install_files: cmd = "%s --upgrade --noconfirm --noprogressbar --needed %s %s" % (pacman_path, module.params["extra_args"], " ".join(to_install_files)) rc, stdout, stderr = module.run_command(cmd, check_rc=False) if rc != 0: module.fail_json(msg="failed to install %s: %s" % (" ".join(to_install_files), stderr)) # As we pass `--needed` to pacman returns a single line of ` there is nothing to do` if no change is performed. # The check for > 3 is here because we pick the 4th line in normal operation. if len(stdout.split('\n')) > 3: data = stdout.split('\n')[3].split(' ')[2:] data = [i for i in data if i != ''] for i, pkg in enumerate(data): data[i] = re.sub('-[0-9].*$', '', data[i].split('/')[-1]) if module._diff: diff['after'] += "%s\n" % pkg install_c += len(to_install_files) if state == 'latest' and len(package_err) > 0: message = "But could not ensure 'latest' state for %s package(s) as remote version could not be fetched." % (package_err) if install_c > 0: module.exit_json(changed=True, msg="installed %s package(s). %s" % (install_c, message), diff=diff) module.exit_json(changed=False, msg="package(s) already installed. %s" % (message), diff=diff) def check_packages(module, pacman_path, packages, state): would_be_changed = [] diff = { 'before': '', 'after': '', 'before_header': '', 'after_header': '' } for package in packages: installed, updated, unknown = query_package(module, pacman_path, package) if ((state in ["present", "latest"] and not installed) or (state == "absent" and installed) or (state == "latest" and not updated)): would_be_changed.append(package) if would_be_changed: if state == "absent": state = "removed" if module._diff and (state == 'removed'): diff['before_header'] = 'removed' diff['before'] = '\n'.join(would_be_changed) + '\n' elif module._diff and ((state == 'present') or (state == 'latest')): diff['after_header'] = 'installed' diff['after'] = '\n'.join(would_be_changed) + '\n' module.exit_json(changed=True, msg="%s package(s) would be %s" % ( len(would_be_changed), state), diff=diff) else: module.exit_json(changed=False, msg="package(s) already %s" % state, diff=diff) def expand_package_groups(module, pacman_path, pkgs): expanded = [] __, stdout, __ = module.run_command([pacman_path, "--sync", "--groups", "--quiet"], check_rc=True) available_groups = stdout.splitlines() for pkg in pkgs: if pkg: # avoid empty strings if pkg in available_groups: # A group was found matching the package name: expand it cmd = [pacman_path, "--sync", "--groups", "--quiet", pkg] rc, stdout, stderr = module.run_command(cmd, check_rc=True) expanded.extend([name.strip() for name in stdout.splitlines()]) else: expanded.append(pkg) return expanded def main(): module = AnsibleModule( argument_spec=dict( name=dict(type='list', elements='str', aliases=['pkg', 'package']), state=dict(type='str', default='present', choices=['present', 'installed', 'latest', 'absent', 'removed']), force=dict(type='bool', default=False), executable=dict(type='str', default='pacman'), extra_args=dict(type='str', default=''), upgrade=dict(type='bool', default=False), upgrade_extra_args=dict(type='str', default=''), update_cache=dict( type='bool', default=False, aliases=['update-cache'], deprecated_aliases=[dict(name='update-cache', version='5.0.0', collection_name='community.general')]), update_cache_extra_args=dict(type='str', default=''), ), required_one_of=[['name', 'update_cache', 'upgrade']], mutually_exclusive=[['name', 'upgrade']], supports_check_mode=True, ) module.run_command_environ_update = dict(LC_ALL='C') p = module.params # find pacman binary pacman_path = module.get_bin_path(p['executable'], True) # normalize the state parameter if p['state'] in ['present', 'installed']: p['state'] = 'present' elif p['state'] in ['absent', 'removed']: p['state'] = 'absent' if p["update_cache"] and not module.check_mode: update_package_db(module, pacman_path) if not (p['name'] or p['upgrade']): module.exit_json(changed=True, msg='Updated the package master lists') if p['update_cache'] and module.check_mode and not (p['name'] or p['upgrade']): module.exit_json(changed=True, msg='Would have updated the package cache') if p['upgrade']: upgrade(module, pacman_path) if p['name']: pkgs = expand_package_groups(module, pacman_path, p['name']) pkg_files = [] for i, pkg in enumerate(pkgs): if not pkg: # avoid empty strings continue elif re.match(r".*\.pkg\.tar(\.(gz|bz2|xz|lrz|lzo|Z|zst))?$", pkg): # The package given is a filename, extract the raw pkg name from # it and store the filename pkg_files.append(pkg) pkgs[i] = re.sub(r'-[0-9].*$', '', pkgs[i].split('/')[-1]) else: pkg_files.append(None) if module.check_mode: check_packages(module, pacman_path, pkgs, p['state']) if p['state'] in ['present', 'latest']: install_packages(module, pacman_path, p['state'], pkgs, pkg_files) elif p['state'] == 'absent': remove_packages(module, pacman_path, pkgs) else: module.exit_json(changed=False, msg="No package specified to work on.") if __name__ == "__main__": main()