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community.general/plugins/modules/packaging/os/openbsd_pkg.py
Felix Fontein cf5e371dd4
Fix various module docs. (#4887) (#4890)
(cherry picked from commit 2dcdd2faca)
2022-06-22 23:03:00 +02:00

654 lines
26 KiB
Python

#!/usr/bin/python
# -*- coding: utf-8 -*-
# (c) 2013, Patrik Lundin <patrik@sigterm.se>
#
# 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: openbsd_pkg
author:
- Patrik Lundin (@eest)
short_description: Manage packages on OpenBSD
description:
- Manage packages on OpenBSD using the pkg tools.
requirements:
- python >= 2.5
options:
name:
description:
- A name or a list of names of the packages.
required: yes
type: list
elements: str
state:
description:
- C(present) will make sure the package is installed.
C(latest) will make sure the latest version of the package is installed.
C(absent) will make sure the specified package is not installed.
choices: [ absent, latest, present, installed, removed ]
default: present
type: str
build:
description:
- Build the package from source instead of downloading and installing
a binary. Requires that the port source tree is already installed.
Automatically builds and installs the 'sqlports' package, if it is
not already installed.
- Mutually exclusive with I(snapshot).
type: bool
default: no
snapshot:
description:
- Force C(%c) and C(%m) to expand to C(snapshots), even on a release kernel.
- Mutually exclusive with I(build).
type: bool
default: no
version_added: 1.3.0
ports_dir:
description:
- When used in combination with the C(build) option, allows overriding
the default ports source directory.
default: /usr/ports
type: path
clean:
description:
- When updating or removing packages, delete the extra configuration
file(s) in the old packages which are annotated with @extra in
the packaging-list.
type: bool
default: no
quick:
description:
- Replace or delete packages quickly; do not bother with checksums
before removing normal files.
type: bool
default: no
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.
'''
EXAMPLES = '''
- name: Make sure nmap is installed
community.general.openbsd_pkg:
name: nmap
state: present
- name: Make sure nmap is the latest version
community.general.openbsd_pkg:
name: nmap
state: latest
- name: Make sure nmap is not installed
community.general.openbsd_pkg:
name: nmap
state: absent
- name: Make sure nmap is installed, build it from source if it is not
community.general.openbsd_pkg:
name: nmap
state: present
build: yes
- name: Specify a pkg flavour with '--'
community.general.openbsd_pkg:
name: vim--no_x11
state: present
- name: Specify the default flavour to avoid ambiguity errors
community.general.openbsd_pkg:
name: vim--
state: present
- name: Specify a package branch (requires at least OpenBSD 6.0)
community.general.openbsd_pkg:
name: python%3.5
state: present
- name: Update all packages on the system
community.general.openbsd_pkg:
name: '*'
state: latest
- name: Purge a package and it's configuration files
community.general.openbsd_pkg:
name: mpd
clean: yes
state: absent
- name: Quickly remove a package without checking checksums
community.general.openbsd_pkg:
name: qt5
quick: yes
state: absent
'''
import os
import platform
import re
import shlex
import sqlite3
from ansible.module_utils.basic import AnsibleModule
from ansible_collections.community.general.plugins.module_utils.version import LooseVersion
# Function used for executing commands.
def execute_command(cmd, module):
# Break command line into arguments.
# This makes run_command() use shell=False which we need to not cause shell
# expansion of special characters like '*'.
cmd_args = shlex.split(cmd)
return module.run_command(cmd_args)
# Function used to find out if a package is currently installed.
def get_package_state(names, pkg_spec, module):
info_cmd = 'pkg_info -Iq'
for name in names:
command = "%s inst:%s" % (info_cmd, name)
rc, stdout, stderr = execute_command(command, module)
if stderr:
module.fail_json(msg="failed in get_package_state(): " + stderr)
if stdout:
# If the requested package name is just a stem, like "python", we may
# find multiple packages with that name.
pkg_spec[name]['installed_names'] = stdout.splitlines()
module.debug("get_package_state(): installed_names = %s" % pkg_spec[name]['installed_names'])
pkg_spec[name]['installed_state'] = True
else:
pkg_spec[name]['installed_state'] = False
# Function used to make sure a package is present.
def package_present(names, pkg_spec, module):
build = module.params['build']
for name in names:
# It is possible package_present() has been called from package_latest().
# In that case we do not want to operate on the whole list of names,
# only the leftovers.
if pkg_spec['package_latest_leftovers']:
if name not in pkg_spec['package_latest_leftovers']:
module.debug("package_present(): ignoring '%s' which is not a package_latest() leftover" % name)
continue
else:
module.debug("package_present(): handling package_latest() leftovers, installing '%s'" % name)
if module.check_mode:
install_cmd = 'pkg_add -Imn'
else:
if build is True:
port_dir = "%s/%s" % (module.params['ports_dir'], get_package_source_path(name, pkg_spec, module))
if os.path.isdir(port_dir):
if pkg_spec[name]['flavor']:
flavors = pkg_spec[name]['flavor'].replace('-', ' ')
install_cmd = "cd %s && make clean=depends && FLAVOR=\"%s\" make install && make clean=depends" % (port_dir, flavors)
elif pkg_spec[name]['subpackage']:
install_cmd = "cd %s && make clean=depends && SUBPACKAGE=\"%s\" make install && make clean=depends" % (port_dir,
pkg_spec[name]['subpackage'])
else:
install_cmd = "cd %s && make install && make clean=depends" % (port_dir)
else:
module.fail_json(msg="the port source directory %s does not exist" % (port_dir))
else:
install_cmd = 'pkg_add -Im'
if module.params['snapshot'] is True:
install_cmd += ' -Dsnap'
if pkg_spec[name]['installed_state'] is False:
# Attempt to install the package
if build is True and not module.check_mode:
(pkg_spec[name]['rc'], pkg_spec[name]['stdout'], pkg_spec[name]['stderr']) = module.run_command(install_cmd, module, use_unsafe_shell=True)
else:
(pkg_spec[name]['rc'], pkg_spec[name]['stdout'], pkg_spec[name]['stderr']) = execute_command("%s %s" % (install_cmd, name), module)
# The behaviour of pkg_add is a bit different depending on if a
# specific version is supplied or not.
#
# When a specific version is supplied the return code will be 0 when
# a package is found and 1 when it is not. If a version is not
# supplied the tool will exit 0 in both cases.
#
# It is important to note that "version" relates to the
# packages-specs(7) notion of a version. If using the branch syntax
# (like "python%3.5") even though a branch name may look like a
# version string it is not used an one by pkg_add.
if pkg_spec[name]['version'] or build is True:
# Depend on the return code.
module.debug("package_present(): depending on return code for name '%s'" % name)
if pkg_spec[name]['rc']:
pkg_spec[name]['changed'] = False
else:
# Depend on stderr instead.
module.debug("package_present(): depending on stderr for name '%s'" % name)
if pkg_spec[name]['stderr']:
# There is a corner case where having an empty directory in
# installpath prior to the right location will result in a
# "file:/local/package/directory/ is empty" message on stderr
# while still installing the package, so we need to look for
# for a message like "packagename-1.0: ok" just in case.
match = re.search(r"\W%s-[^:]+: ok\W" % re.escape(pkg_spec[name]['stem']), pkg_spec[name]['stdout'])
if match:
# It turns out we were able to install the package.
module.debug("package_present(): we were able to install package for name '%s'" % name)
pkg_spec[name]['changed'] = True
else:
# We really did fail, fake the return code.
module.debug("package_present(): we really did fail for name '%s'" % name)
pkg_spec[name]['rc'] = 1
pkg_spec[name]['changed'] = False
else:
module.debug("package_present(): stderr was not set for name '%s'" % name)
if pkg_spec[name]['rc'] == 0:
pkg_spec[name]['changed'] = True
else:
pkg_spec[name]['rc'] = 0
pkg_spec[name]['stdout'] = ''
pkg_spec[name]['stderr'] = ''
pkg_spec[name]['changed'] = False
# Function used to make sure a package is the latest available version.
def package_latest(names, pkg_spec, module):
if module.params['build'] is True:
module.fail_json(msg="the combination of build=%s and state=latest is not supported" % module.params['build'])
upgrade_cmd = 'pkg_add -um'
if module.check_mode:
upgrade_cmd += 'n'
if module.params['clean']:
upgrade_cmd += 'c'
if module.params['quick']:
upgrade_cmd += 'q'
if module.params['snapshot']:
upgrade_cmd += ' -Dsnap'
for name in names:
if pkg_spec[name]['installed_state'] is True:
# Attempt to upgrade the package.
(pkg_spec[name]['rc'], pkg_spec[name]['stdout'], pkg_spec[name]['stderr']) = execute_command("%s %s" % (upgrade_cmd, name), module)
# Look for output looking something like "nmap-6.01->6.25: ok" to see if
# something changed (or would have changed). Use \W to delimit the match
# from progress meter output.
pkg_spec[name]['changed'] = False
for installed_name in pkg_spec[name]['installed_names']:
module.debug("package_latest(): checking for pre-upgrade package name: %s" % installed_name)
match = re.search(r"\W%s->.+: ok\W" % re.escape(installed_name), pkg_spec[name]['stdout'])
if match:
module.debug("package_latest(): pre-upgrade package name match: %s" % installed_name)
pkg_spec[name]['changed'] = True
break
# FIXME: This part is problematic. Based on the issues mentioned (and
# handled) in package_present() it is not safe to blindly trust stderr
# as an indicator that the command failed, and in the case with
# empty installpath directories this will break.
#
# For now keep this safeguard here, but ignore it if we managed to
# parse out a successful update above. This way we will report a
# successful run when we actually modify something but fail
# otherwise.
if pkg_spec[name]['changed'] is not True:
if pkg_spec[name]['stderr']:
pkg_spec[name]['rc'] = 1
else:
# Note packages that need to be handled by package_present
module.debug("package_latest(): package '%s' is not installed, will be handled by package_present()" % name)
pkg_spec['package_latest_leftovers'].append(name)
# If there were any packages that were not installed we call
# package_present() which will handle those.
if pkg_spec['package_latest_leftovers']:
module.debug("package_latest(): calling package_present() to handle leftovers")
package_present(names, pkg_spec, module)
# Function used to make sure a package is not installed.
def package_absent(names, pkg_spec, module):
remove_cmd = 'pkg_delete -I'
if module.check_mode:
remove_cmd += 'n'
if module.params['clean']:
remove_cmd += 'c'
if module.params['quick']:
remove_cmd += 'q'
for name in names:
if pkg_spec[name]['installed_state'] is True:
# Attempt to remove the package.
(pkg_spec[name]['rc'], pkg_spec[name]['stdout'], pkg_spec[name]['stderr']) = execute_command("%s %s" % (remove_cmd, name), module)
if pkg_spec[name]['rc'] == 0:
pkg_spec[name]['changed'] = True
else:
pkg_spec[name]['changed'] = False
else:
pkg_spec[name]['rc'] = 0
pkg_spec[name]['stdout'] = ''
pkg_spec[name]['stderr'] = ''
pkg_spec[name]['changed'] = False
# Function used to parse the package name based on packages-specs(7).
# The general name structure is "stem-version[-flavors]".
#
# Names containing "%" are a special variation not part of the
# packages-specs(7) syntax. See pkg_add(1) on OpenBSD 6.0 or later for a
# description.
def parse_package_name(names, pkg_spec, module):
# Initialize empty list of package_latest() leftovers.
pkg_spec['package_latest_leftovers'] = []
for name in names:
module.debug("parse_package_name(): parsing name: %s" % name)
# Do some initial matches so we can base the more advanced regex on that.
version_match = re.search("-[0-9]", name)
versionless_match = re.search("--", name)
# Stop if someone is giving us a name that both has a version and is
# version-less at the same time.
if version_match and versionless_match:
module.fail_json(msg="package name both has a version and is version-less: " + name)
# All information for a given name is kept in the pkg_spec keyed by that name.
pkg_spec[name] = {}
# If name includes a version.
if version_match:
match = re.search("^(?P<stem>[^%]+)-(?P<version>[0-9][^-]*)(?P<flavor_separator>-)?(?P<flavor>[a-z].*)?(%(?P<branch>.+))?$", name)
if match:
pkg_spec[name]['stem'] = match.group('stem')
pkg_spec[name]['version_separator'] = '-'
pkg_spec[name]['version'] = match.group('version')
pkg_spec[name]['flavor_separator'] = match.group('flavor_separator')
pkg_spec[name]['flavor'] = match.group('flavor')
pkg_spec[name]['branch'] = match.group('branch')
pkg_spec[name]['style'] = 'version'
module.debug("version_match: stem: %(stem)s, version: %(version)s, flavor_separator: %(flavor_separator)s, "
"flavor: %(flavor)s, branch: %(branch)s, style: %(style)s" % pkg_spec[name])
else:
module.fail_json(msg="unable to parse package name at version_match: " + name)
# If name includes no version but is version-less ("--").
elif versionless_match:
match = re.search("^(?P<stem>[^%]+)--(?P<flavor>[a-z].*)?(%(?P<branch>.+))?$", name)
if match:
pkg_spec[name]['stem'] = match.group('stem')
pkg_spec[name]['version_separator'] = '-'
pkg_spec[name]['version'] = None
pkg_spec[name]['flavor_separator'] = '-'
pkg_spec[name]['flavor'] = match.group('flavor')
pkg_spec[name]['branch'] = match.group('branch')
pkg_spec[name]['style'] = 'versionless'
module.debug("versionless_match: stem: %(stem)s, flavor: %(flavor)s, branch: %(branch)s, style: %(style)s" % pkg_spec[name])
else:
module.fail_json(msg="unable to parse package name at versionless_match: " + name)
# If name includes no version, and is not version-less, it is all a
# stem, possibly with a branch (%branchname) tacked on at the
# end.
else:
match = re.search("^(?P<stem>[^%]+)(%(?P<branch>.+))?$", name)
if match:
pkg_spec[name]['stem'] = match.group('stem')
pkg_spec[name]['version_separator'] = None
pkg_spec[name]['version'] = None
pkg_spec[name]['flavor_separator'] = None
pkg_spec[name]['flavor'] = None
pkg_spec[name]['branch'] = match.group('branch')
pkg_spec[name]['style'] = 'stem'
module.debug("stem_match: stem: %(stem)s, branch: %(branch)s, style: %(style)s" % pkg_spec[name])
else:
module.fail_json(msg="unable to parse package name at else: " + name)
# Verify that the managed host is new enough to support branch syntax.
if pkg_spec[name]['branch']:
branch_release = "6.0"
if LooseVersion(platform.release()) < LooseVersion(branch_release):
module.fail_json(msg="package name using 'branch' syntax requires at least OpenBSD %s: %s" % (branch_release, name))
# Sanity check that there are no trailing dashes in flavor.
# Try to stop strange stuff early so we can be strict later.
if pkg_spec[name]['flavor']:
match = re.search("-$", pkg_spec[name]['flavor'])
if match:
module.fail_json(msg="trailing dash in flavor: " + pkg_spec[name]['flavor'])
# Function used for figuring out the port path.
def get_package_source_path(name, pkg_spec, module):
pkg_spec[name]['subpackage'] = None
if pkg_spec[name]['stem'] == 'sqlports':
return 'databases/sqlports'
else:
# try for an exact match first
sqlports_db_file = '/usr/local/share/sqlports'
if not os.path.isfile(sqlports_db_file):
module.fail_json(msg="sqlports file '%s' is missing" % sqlports_db_file)
conn = sqlite3.connect(sqlports_db_file)
first_part_of_query = 'SELECT fullpkgpath, fullpkgname FROM ports WHERE fullpkgname'
query = first_part_of_query + ' = ?'
module.debug("package_package_source_path(): exact query: %s" % query)
cursor = conn.execute(query, (name,))
results = cursor.fetchall()
# next, try for a fuzzier match
if len(results) < 1:
looking_for = pkg_spec[name]['stem'] + (pkg_spec[name]['version_separator'] or '-') + (pkg_spec[name]['version'] or '%')
query = first_part_of_query + ' LIKE ?'
if pkg_spec[name]['flavor']:
looking_for += pkg_spec[name]['flavor_separator'] + pkg_spec[name]['flavor']
module.debug("package_package_source_path(): fuzzy flavor query: %s" % query)
cursor = conn.execute(query, (looking_for,))
elif pkg_spec[name]['style'] == 'versionless':
query += ' AND fullpkgname NOT LIKE ?'
module.debug("package_package_source_path(): fuzzy versionless query: %s" % query)
cursor = conn.execute(query, (looking_for, "%s-%%" % looking_for,))
else:
module.debug("package_package_source_path(): fuzzy query: %s" % query)
cursor = conn.execute(query, (looking_for,))
results = cursor.fetchall()
# error if we don't find exactly 1 match
conn.close()
if len(results) < 1:
module.fail_json(msg="could not find a port by the name '%s'" % name)
if len(results) > 1:
matches = map(lambda x: x[1], results)
module.fail_json(msg="too many matches, unsure which to build: %s" % ' OR '.join(matches))
# there's exactly 1 match, so figure out the subpackage, if any, then return
fullpkgpath = results[0][0]
parts = fullpkgpath.split(',')
if len(parts) > 1 and parts[1][0] == '-':
pkg_spec[name]['subpackage'] = parts[1]
return parts[0]
# Function used for upgrading all installed packages.
def upgrade_packages(pkg_spec, module):
if module.check_mode:
upgrade_cmd = 'pkg_add -Imnu'
else:
upgrade_cmd = 'pkg_add -Imu'
if module.params['snapshot']:
upgrade_cmd += ' -Dsnap'
# Create a minimal pkg_spec entry for '*' to store return values.
pkg_spec['*'] = {}
# Attempt to upgrade all packages.
pkg_spec['*']['rc'], pkg_spec['*']['stdout'], pkg_spec['*']['stderr'] = execute_command("%s" % upgrade_cmd, module)
# Try to find any occurrence of a package changing version like:
# "bzip2-1.0.6->1.0.6p0: ok".
match = re.search(r"\W\w.+->.+: ok\W", pkg_spec['*']['stdout'])
if match:
pkg_spec['*']['changed'] = True
else:
pkg_spec['*']['changed'] = False
# It seems we can not trust the return value, so depend on the presence of
# stderr to know if something failed.
if pkg_spec['*']['stderr']:
pkg_spec['*']['rc'] = 1
else:
pkg_spec['*']['rc'] = 0
# ===========================================
# Main control flow.
def main():
module = AnsibleModule(
argument_spec=dict(
name=dict(type='list', elements='str', required=True),
state=dict(type='str', default='present', choices=['absent', 'installed', 'latest', 'present', 'removed']),
build=dict(type='bool', default=False),
snapshot=dict(type='bool', default=False),
ports_dir=dict(type='path', default='/usr/ports'),
quick=dict(type='bool', default=False),
clean=dict(type='bool', default=False),
),
mutually_exclusive=[['snapshot', 'build']],
supports_check_mode=True
)
name = module.params['name']
state = module.params['state']
build = module.params['build']
ports_dir = module.params['ports_dir']
rc = 0
stdout = ''
stderr = ''
result = {}
result['name'] = name
result['state'] = state
result['build'] = build
# The data structure used to keep track of package information.
pkg_spec = {}
if build is True:
if not os.path.isdir(ports_dir):
module.fail_json(msg="the ports source directory %s does not exist" % (ports_dir))
# build sqlports if its not installed yet
parse_package_name(['sqlports'], pkg_spec, module)
get_package_state(['sqlports'], pkg_spec, module)
if not pkg_spec['sqlports']['installed_state']:
module.debug("main(): installing 'sqlports' because build=%s" % module.params['build'])
package_present(['sqlports'], pkg_spec, module)
asterisk_name = False
for n in name:
if n == '*':
if len(name) != 1:
module.fail_json(msg="the package name '*' can not be mixed with other names")
asterisk_name = True
if asterisk_name:
if state != 'latest':
module.fail_json(msg="the package name '*' is only valid when using state=latest")
else:
# Perform an upgrade of all installed packages.
upgrade_packages(pkg_spec, module)
else:
# Parse package names and put results in the pkg_spec dictionary.
parse_package_name(name, pkg_spec, module)
# Not sure how the branch syntax is supposed to play together
# with build mode. Disable it for now.
for n in name:
if pkg_spec[n]['branch'] and module.params['build'] is True:
module.fail_json(msg="the combination of 'branch' syntax and build=%s is not supported: %s" % (module.params['build'], n))
# Get state for all package names.
get_package_state(name, pkg_spec, module)
# Perform requested action.
if state in ['installed', 'present']:
package_present(name, pkg_spec, module)
elif state in ['absent', 'removed']:
package_absent(name, pkg_spec, module)
elif state == 'latest':
package_latest(name, pkg_spec, module)
# The combined changed status for all requested packages. If anything
# is changed this is set to True.
combined_changed = False
# The combined failed status for all requested packages. If anything
# failed this is set to True.
combined_failed = False
# We combine all error messages in this comma separated string, for example:
# "msg": "Can't find nmapp\n, Can't find nmappp\n"
combined_error_message = ''
# Loop over all requested package names and check if anything failed or
# changed.
for n in name:
if pkg_spec[n]['rc'] != 0:
combined_failed = True
if pkg_spec[n]['stderr']:
if combined_error_message:
combined_error_message += ", %s" % pkg_spec[n]['stderr']
else:
combined_error_message = pkg_spec[n]['stderr']
else:
if combined_error_message:
combined_error_message += ", %s" % pkg_spec[n]['stdout']
else:
combined_error_message = pkg_spec[n]['stdout']
if pkg_spec[n]['changed'] is True:
combined_changed = True
# If combined_error_message contains anything at least some part of the
# list of requested package names failed.
if combined_failed:
module.fail_json(msg=combined_error_message, **result)
result['changed'] = combined_changed
module.exit_json(**result)
if __name__ == '__main__':
main()