salt/tests/integration/states/pkg.py

602 lines
24 KiB
Python

# -*- coding: utf-8 -*-
'''
tests for pkg state
'''
# Import python libs
from __future__ import absolute_import
import logging
import os
import time
# Import Salt Testing libs
from salttesting import skipIf
from salttesting.helpers import (
destructiveTest,
ensure_in_syspath,
requires_system_grains,
requires_salt_modules
)
ensure_in_syspath('../../')
# Import salt libs
import integration
import salt.utils
# Import 3rd-party libs
from salt.ext.six.moves import range # pylint: disable=import-error,redefined-builtin
log = logging.getLogger(__name__)
__testcontext__ = {}
_PKG_TARGETS = {
'Arch': ['python2-django', 'libpng'],
'Debian': ['python-plist', 'apg'],
'RedHat': ['xz-devel', 'zsh-html'],
'FreeBSD': ['aalib', 'pth'],
'SUSE': ['aalib', 'python-pssh'],
'MacOS': ['libpng', 'jpeg'],
}
_PKG_TARGETS_32 = {
'CentOS': 'xz-devel.i686'
}
# Test packages with dot in pkg name
# (https://github.com/saltstack/salt/issues/8614)
_PKG_TARGETS_DOT = {
'RedHat': {'5': 'python-migrate0.5',
'6': 'tomcat6-el-2.1-api',
'7': 'tomcat-el-2.2-api'}
}
# Test packages with epoch in version
# (https://github.com/saltstack/salt/issues/31619)
_PKG_TARGETS_EPOCH = {
'RedHat': {'7': 'comps-extras'},
}
def pkgmgr_avail(run_function, grains):
'''
Return True if the package manager is available for use
'''
def proc_fd_lsof(path):
'''
Return True if any entry in /proc/locks points to path. Example data:
.. code-block:: bash
# cat /proc/locks
1: FLOCK ADVISORY WRITE 596 00:0f:10703 0 EOF
2: FLOCK ADVISORY WRITE 14590 00:0f:11282 0 EOF
3: POSIX ADVISORY WRITE 653 00:0f:11422 0 EOF
'''
import glob
# https://www.centos.org/docs/5/html/5.2/Deployment_Guide/s2-proc-locks.html
locks = run_function('cmd.run', ['cat /proc/locks']).splitlines()
for line in locks:
fields = line.split()
try:
major, minor, inode = fields[5].split(':')
inode = int(inode)
except (IndexError, ValueError):
return False
for fd in glob.glob('/proc/*/fd'):
fd_path = os.path.realpath(fd)
# If the paths match and the inode is locked
if fd_path == path and os.stat(fd_path).st_ino == inode:
return True
return False
def get_lock(path):
'''
Return True if any locks are found for path
'''
# Try lsof if it's available
if salt.utils.which('lsof'):
lock = run_function('cmd.run', ['lsof {0}'.format(path)])
return True if len(lock) else False
# Try to find any locks on path from /proc/locks
elif grains.get('kernel') == 'Linux':
return proc_fd_lsof(path)
return False
if 'Debian' in grains.get('os_family', ''):
for path in ['/var/lib/apt/lists/lock']:
if get_lock(path):
return False
return True
def latest_version(run_function, *names):
'''
Helper function which ensures that we don't make any unnecessary calls to
pkg.latest_version to figure out what version we need to install. This
won't stop pkg.latest_version from being run in a pkg.latest state, but it
will reduce the amount of times we check the latest version here in the
test suite.
'''
key = 'latest_version'
if key not in __testcontext__:
__testcontext__[key] = {}
targets = [x for x in names if x not in __testcontext__[key]]
if targets:
result = run_function('pkg.latest_version', targets, refresh=False)
try:
__testcontext__[key].update(result)
except ValueError:
# Only a single target, pkg.latest_version returned a string
__testcontext__[key][targets[0]] = result
ret = dict([(x, __testcontext__[key][x]) for x in names])
if len(names) == 1:
return ret[names[0]]
return ret
@destructiveTest
@requires_salt_modules('pkg.version', 'pkg.latest_version')
class PkgTest(integration.ModuleCase,
integration.SaltReturnAssertsMixIn):
'''
pkg.installed state tests
'''
def setUp(self):
'''
Ensure that we only refresh the first time we run a test
'''
super(PkgTest, self).setUp()
if 'refresh' not in __testcontext__:
self.run_function('pkg.refresh_db')
__testcontext__['refresh'] = True
@skipIf(salt.utils.is_windows(), 'minion is windows')
@requires_system_grains
def test_pkg_001_installed(self, grains=None):
'''
This is a destructive test as it installs and then removes a package
'''
# Skip test if package manager not available
if not pkgmgr_avail(self.run_function, self.run_function('grains.items')):
self.skipTest('Package manager is not available')
os_family = grains.get('os_family', '')
pkg_targets = _PKG_TARGETS.get(os_family, [])
# Make sure that we have targets that match the os_family. If this
# fails then the _PKG_TARGETS dict above needs to have an entry added,
# with two packages that are not installed before these tests are run
self.assertTrue(pkg_targets)
target = pkg_targets[0]
version = self.run_function('pkg.version', [target])
# If this assert fails, we need to find new targets, this test needs to
# be able to test successful installation of packages, so this package
# needs to not be installed before we run the states below
self.assertFalse(version)
ret = self.run_state('pkg.installed', name=target, refresh=False)
self.assertSaltTrueReturn(ret)
ret = self.run_state('pkg.removed', name=target)
self.assertSaltTrueReturn(ret)
@skipIf(salt.utils.is_windows(), 'minion is windows')
@requires_system_grains
def test_pkg_002_installed_with_version(self, grains=None):
'''
This is a destructive test as it installs and then removes a package
'''
# Skip test if package manager not available
if not pkgmgr_avail(self.run_function, self.run_function('grains.items')):
self.skipTest('Package manager is not available')
os_family = grains.get('os_family', '')
pkg_targets = _PKG_TARGETS.get(os_family, [])
# Don't perform this test on FreeBSD since version specification is not
# supported.
if os_family == 'FreeBSD':
return
# Make sure that we have targets that match the os_family. If this
# fails then the _PKG_TARGETS dict above needs to have an entry added,
# with two packages that are not installed before these tests are run
self.assertTrue(pkg_targets)
if os_family == 'Arch':
for idx in range(13):
if idx == 12:
raise Exception('Package database locked after 60 seconds, '
'bailing out')
if not os.path.isfile('/var/lib/pacman/db.lck'):
break
time.sleep(5)
target = pkg_targets[0]
version = latest_version(self.run_function, target)
# If this assert fails, we need to find new targets, this test needs to
# be able to test successful installation of packages, so this package
# needs to not be installed before we run the states below
self.assertTrue(version)
ret = self.run_state('pkg.installed',
name=target,
version=version,
refresh=False)
self.assertSaltTrueReturn(ret)
ret = self.run_state('pkg.removed', name=target)
self.assertSaltTrueReturn(ret)
@skipIf(salt.utils.is_windows(), 'minion is windows')
@requires_system_grains
def test_pkg_003_installed_multipkg(self, grains=None):
'''
This is a destructive test as it installs and then removes two packages
'''
# Skip test if package manager not available
if not pkgmgr_avail(self.run_function, self.run_function('grains.items')):
self.skipTest('Package manager is not available')
os_family = grains.get('os_family', '')
pkg_targets = _PKG_TARGETS.get(os_family, [])
# Make sure that we have targets that match the os_family. If this
# fails then the _PKG_TARGETS dict above needs to have an entry added,
# with two packages that are not installed before these tests are run
self.assertTrue(pkg_targets)
version = self.run_function('pkg.version', pkg_targets)
# If this assert fails, we need to find new targets, this test needs to
# be able to test successful installation of packages, so these
# packages need to not be installed before we run the states below
self.assertFalse(any(version.values()))
ret = self.run_state('pkg.installed',
name=None,
pkgs=pkg_targets,
refresh=False)
self.assertSaltTrueReturn(ret)
ret = self.run_state('pkg.removed', name=None, pkgs=pkg_targets)
self.assertSaltTrueReturn(ret)
@skipIf(salt.utils.is_windows(), 'minion is windows')
@requires_system_grains
def test_pkg_004_installed_multipkg_with_version(self, grains=None):
'''
This is a destructive test as it installs and then removes two packages
'''
# Skip test if package manager not available
if not pkgmgr_avail(self.run_function, self.run_function('grains.items')):
self.skipTest('Package manager is not available')
os_family = grains.get('os_family', '')
pkg_targets = _PKG_TARGETS.get(os_family, [])
# Don't perform this test on FreeBSD since version specification is not
# supported.
if os_family == 'FreeBSD':
return
# Make sure that we have targets that match the os_family. If this
# fails then the _PKG_TARGETS dict above needs to have an entry added,
# with two packages that are not installed before these tests are run
self.assertTrue(bool(pkg_targets))
if os_family == 'Arch':
for idx in range(13):
if idx == 12:
raise Exception('Package database locked after 60 seconds, '
'bailing out')
if not os.path.isfile('/var/lib/pacman/db.lck'):
break
time.sleep(5)
version = latest_version(self.run_function, pkg_targets[0])
# If this assert fails, we need to find new targets, this test needs to
# be able to test successful installation of packages, so these
# packages need to not be installed before we run the states below
self.assertTrue(bool(version))
pkgs = [{pkg_targets[0]: version}, pkg_targets[1]]
ret = self.run_state('pkg.installed',
name=None,
pkgs=pkgs,
refresh=False)
self.assertSaltTrueReturn(ret)
ret = self.run_state('pkg.removed', name=None, pkgs=pkg_targets)
self.assertSaltTrueReturn(ret)
@skipIf(salt.utils.is_windows(), 'minion is windows')
@requires_system_grains
def test_pkg_005_installed_32bit(self, grains=None):
'''
This is a destructive test as it installs and then removes a package
'''
# Skip test if package manager not available
if not pkgmgr_avail(self.run_function, self.run_function('grains.items')):
self.skipTest('Package manager is not available')
os_name = grains.get('os', '')
target = _PKG_TARGETS_32.get(os_name, '')
# _PKG_TARGETS_32 is only populated for platforms for which Salt has to
# munge package names for 32-bit-on-x86_64 (Currently only Ubuntu and
# RHEL-based). Don't actually perform this test on other platforms.
if target:
# CentOS 5 has .i386 arch designation for 32-bit pkgs
if os_name == 'CentOS' \
and grains['osrelease'].startswith('5.'):
target = target.replace('.i686', '.i386')
version = self.run_function('pkg.version', [target])
# If this assert fails, we need to find a new target. This test
# needs to be able to test successful installation of packages, so
# the target needs to not be installed before we run the states
# below
self.assertFalse(bool(version))
ret = self.run_state('pkg.installed',
name=target,
refresh=False)
self.assertSaltTrueReturn(ret)
ret = self.run_state('pkg.removed', name=target)
self.assertSaltTrueReturn(ret)
@skipIf(salt.utils.is_windows(), 'minion is windows')
@requires_system_grains
def test_pkg_006_installed_32bit_with_version(self, grains=None):
'''
This is a destructive test as it installs and then removes a package
'''
# Skip test if package manager not available
if not pkgmgr_avail(self.run_function, self.run_function('grains.items')):
self.skipTest('Package manager is not available')
os_name = grains.get('os', '')
target = _PKG_TARGETS_32.get(os_name, '')
# _PKG_TARGETS_32 is only populated for platforms for which Salt has to
# munge package names for 32-bit-on-x86_64 (Currently only Ubuntu and
# RHEL-based). Don't actually perform this test on other platforms.
if target:
if grains.get('os_family', '') == 'Arch':
for idx in range(13):
if idx == 12:
raise Exception('Package database locked after 60 seconds, '
'bailing out')
if not os.path.isfile('/var/lib/pacman/db.lck'):
break
time.sleep(5)
# CentOS 5 has .i386 arch designation for 32-bit pkgs
if os_name == 'CentOS' \
and grains['osrelease'].startswith('5.'):
target = target.replace('.i686', '.i386')
version = latest_version(self.run_function, target)
# If this assert fails, we need to find a new target. This test
# needs to be able to test successful installation of the package, so
# the target needs to not be installed before we run the states
# below
self.assertTrue(bool(version))
ret = self.run_state('pkg.installed',
name=target,
version=version,
refresh=False)
self.assertSaltTrueReturn(ret)
ret = self.run_state('pkg.removed', name=target)
self.assertSaltTrueReturn(ret)
@skipIf(salt.utils.is_windows(), 'minion is windows')
@requires_system_grains
def test_pkg_007_with_dot_in_pkgname(self, grains=None):
'''
This tests for the regression found in the following issue:
https://github.com/saltstack/salt/issues/8614
This is a destructive test as it installs a package
'''
# Skip test if package manager not available
if not pkgmgr_avail(self.run_function, self.run_function('grains.items')):
self.skipTest('Package manager is not available')
os_family = grains.get('os_family', '')
os_version = grains.get('osmajorrelease')
target = _PKG_TARGETS_DOT.get(os_family, {}).get(os_version)
if target:
version = latest_version(self.run_function, target)
# If this assert fails, we need to find a new target. This test
# needs to be able to test successful installation of the package, so
# the target needs to not be installed before we run the
# pkg.installed state below
self.assertTrue(bool(version))
ret = self.run_state('pkg.installed', name=target, refresh=False)
self.assertSaltTrueReturn(ret)
ret = self.run_state('pkg.removed', name=target)
self.assertSaltTrueReturn(ret)
@skipIf(salt.utils.is_windows(), 'minion is windows')
@requires_system_grains
def test_pkg_008_epoch_in_version(self, grains=None):
'''
This tests for the regression found in the following issue:
https://github.com/saltstack/salt/issues/8614
This is a destructive test as it installs a package
'''
# Skip test if package manager not available
if not pkgmgr_avail(self.run_function, self.run_function('grains.items')):
self.skipTest('Package manager is not available')
os_family = grains.get('os_family', '')
os_version = grains.get('osmajorrelease')
target = _PKG_TARGETS_EPOCH.get(os_family, {}).get(os_version)
if target:
version = latest_version(self.run_function, target)
# If this assert fails, we need to find a new target. This test
# needs to be able to test successful installation of the package, so
# the target needs to not be installed before we run the
# pkg.installed state below
self.assertTrue(bool(version))
ret = self.run_state('pkg.installed',
name=target,
version=version,
refresh=False)
self.assertSaltTrueReturn(ret)
ret = self.run_state('pkg.removed', name=target)
self.assertSaltTrueReturn(ret)
@skipIf(salt.utils.is_windows(), 'minion is windows')
def test_pkg_009_latest_with_epoch(self):
'''
This tests for the following issue:
https://github.com/saltstack/salt/issues/31014
This is a destructive test as it installs a package
'''
# Skip test if package manager not available
if not pkgmgr_avail(self.run_function, self.run_function('grains.items')):
self.skipTest('Package manager is not available')
ret = self.run_state('pkg.installed',
name='bash-completion',
refresh=False)
self.assertSaltTrueReturn(ret)
@skipIf(salt.utils.is_windows(), 'minion is windows')
@requires_salt_modules('pkg.info_installed')
def test_pkg_010_latest_with_epoch_and_info_installed(self):
'''
Need to check to ensure the package has been
installed after the pkg_latest_epoch sls
file has been run. This needs to be broken up into
a seperate method so I can add the requires_salt_modules
decorator to only the pkg.info_installed command.
'''
# Skip test if package manager not available
if not pkgmgr_avail(self.run_function, self.run_function('grains.items')):
self.skipTest('Package manager is not available')
package = 'bash-completion'
pkgquery = 'version'
ret = self.run_function('pkg.info_installed', [package])
self.assertTrue(pkgquery in str(ret))
@skipIf(salt.utils.is_windows(), 'minion is windows')
@requires_system_grains
def test_pkg_011_latest(self, grains=None):
'''
This tests pkg.latest with a package that has no epoch (or a zero
epoch).
'''
# Skip test if package manager not available
if not pkgmgr_avail(self.run_function, self.run_function('grains.items')):
self.skipTest('Package manager is not available')
os_family = grains.get('os_family', '')
pkg_targets = _PKG_TARGETS.get(os_family, [])
# Make sure that we have targets that match the os_family. If this
# fails then the _PKG_TARGETS dict above needs to have an entry added,
# with two packages that are not installed before these tests are run
self.assertTrue(pkg_targets)
target = pkg_targets[0]
version = latest_version(self.run_function, target)
# If this assert fails, we need to find new targets, this test needs to
# be able to test successful installation of packages, so this package
# needs to not be installed before we run the states below
self.assertTrue(version)
ret = self.run_state('pkg.latest', name=target, refresh=False)
self.assertSaltTrueReturn(ret)
ret = self.run_state('pkg.removed', name=target)
self.assertSaltTrueReturn(ret)
@skipIf(salt.utils.is_windows(), 'minion is windows')
@requires_system_grains
def test_pkg_012_latest_only_upgrade(self, grains=None):
'''
WARNING: This test will pick a package with an available upgrade (if
there is one) and upgrade it to the latest version.
'''
os_family = grains.get('os_family', '')
if os_family != 'Debian':
self.skipTest('Minion is not Debian/Ubuntu')
# Skip test if package manager not available
if not pkgmgr_avail(self.run_function, self.run_function('grains.items')):
self.skipTest('Package manager is not available')
pkg_targets = _PKG_TARGETS.get(os_family, [])
# Make sure that we have targets that match the os_family. If this
# fails then the _PKG_TARGETS dict above needs to have an entry added,
# with two packages that are not installed before these tests are run
self.assertTrue(pkg_targets)
target = pkg_targets[0]
version = latest_version(self.run_function, target)
# If this assert fails, we need to find new targets, this test needs to
# be able to test that the state fails when you try to run the state
# with only_upgrade=True on a package which is not already installed,
# so the targeted package needs to not be installed before we run the
# state below.
self.assertTrue(version)
ret = self.run_state('pkg.latest', name=target, refresh=False,
only_upgrade=True)
self.assertSaltFalseReturn(ret)
# Now look for updates and try to run the state on a package which is
# already up-to-date.
installed_pkgs = self.run_function('pkg.list_pkgs')
updates = self.run_function('pkg.list_upgrades', refresh=False)
for pkgname in updates:
if pkgname in installed_pkgs:
target = pkgname
break
else:
target = ''
log.warning(
'No available upgrades to installed packages, skipping '
'only_upgrade=True test with already-installed package. For '
'best results run this test on a machine with upgrades '
'available.'
)
if target:
ret = self.run_state('pkg.latest', name=target, refresh=False,
only_upgrade=True)
self.assertSaltTrueReturn(ret)
new_version = self.run_function('pkg.version', [target])
self.assertEqual(new_version, updates[target])
ret = self.run_state('pkg.latest', name=target, refresh=False,
only_upgrade=True)
self.assertEqual(
ret['pkg_|-{0}_|-{0}_|-latest'.format(target)]['comment'],
'Package {0} is already up-to-date'.format(target)
)
if __name__ == '__main__':
from integration import run_tests
run_tests(PkgTest)