valitydev/salt
14
0
Fork 0
mirror of https://github.com/valitydev/salt.git synced 2024-11-08 09:23:56 +00:00
Code Issues Actions Packages Projects Releases Wiki Activity
13e8124031
salt/tests/unit/grains/test_core.py
rallytime 13e8124031
Merge branch '2017.7' into '2018.3' 
Due to the many merge conflicts created from #47106 against the 2017.7 branch
and #46002 against the 2018.3 branch, the changes from #47106 have been largely
removed from this merge forward and the HEAD of 2018.3 was taken.

A separate fix for Tornado 5.0 support will need to be made directly against the
2018.3 branch.

Conflicts:
  - doc/topics/development/conventions/formulas.rst
  - salt/master.py
  - salt/minion.py
  - salt/netapi/rest_tornado/saltnado.py
  - salt/states/zfs.py
  - salt/transport/ipc.py
  - salt/transport/tcp.py
  - salt/transport/zeromq.py
  - salt/utils/async.py
  - tests/support/helpers.py
  - tests/support/parser/cover.py
  - tests/unit/grains/test_core.py
  - tests/unit/modules/test_ssh.py
  - tests/unit/test_minion.py
  - tests/unit/utils/test_safe_walk.py
2018-04-27 13:38:35 -04:00

879 lines
37 KiB
Python
Raw Blame History

# -*- coding: utf-8 -*-
'''
:codeauthor: :email:`Erik Johnson <erik@saltstack.com>`
'''
# Import Python libs
from __future__ import absolute_import, print_function, unicode_literals
import logging
import os
# Import Salt Testing Libs
try:
import pytest
except ImportError as import_error:
pytest = None
from tests.support.mixins import LoaderModuleMockMixin
from tests.support.unit import TestCase, skipIf
from tests.support.mock import (
MagicMock,
patch,
mock_open,
NO_MOCK,
NO_MOCK_REASON
)
# Import Salt Libs
import salt.utils.files
import salt.utils.platform
import salt.grains.core as core
# Import 3rd-party libs
from salt.ext import six
if six.PY3:
import ipaddress
else:
import salt.ext.ipaddress as ipaddress
log = logging.getLogger(__name__)
# Globals
IPv4Address = ipaddress.IPv4Address
IPv6Address = ipaddress.IPv6Address
IP4_LOCAL = '127.0.0.1'
IP4_ADD1 = '10.0.0.1'
IP4_ADD2 = '10.0.0.2'
IP6_LOCAL = '::1'
IP6_ADD1 = '2001:4860:4860::8844'
IP6_ADD2 = '2001:4860:4860::8888'
IP6_ADD_SCOPE = 'fe80::6238:e0ff:fe06:3f6b%enp2s0'
OS_RELEASE_DIR = os.path.join(os.path.dirname(__file__), "os-releases")
@skipIf(NO_MOCK, NO_MOCK_REASON)
@skipIf(not pytest, False)
class CoreGrainsTestCase(TestCase, LoaderModuleMockMixin):
'''
Test cases for core grains
'''
def setup_loader_modules(self):
return {core: {}}
@patch("os.path.isfile")
def test_parse_etc_os_release(self, path_isfile_mock):
path_isfile_mock.side_effect = lambda x: x == "/usr/lib/os-release"
with salt.utils.files.fopen(os.path.join(OS_RELEASE_DIR, "ubuntu-17.10")) as os_release_file:
os_release_content = os_release_file.readlines()
with patch("salt.utils.files.fopen", mock_open()) as os_release_file:
os_release_file.return_value.__iter__.return_value = os_release_content
os_release = core._parse_os_release(["/etc/os-release", "/usr/lib/os-release"])
self.assertEqual(os_release, {
"NAME": "Ubuntu",
"VERSION": "17.10 (Artful Aardvark)",
"ID": "ubuntu",
"ID_LIKE": "debian",
"PRETTY_NAME": "Ubuntu 17.10",
"VERSION_ID": "17.10",
"HOME_URL": "https://www.ubuntu.com/",
"SUPPORT_URL": "https://help.ubuntu.com/",
"BUG_REPORT_URL": "https://bugs.launchpad.net/ubuntu/",
"PRIVACY_POLICY_URL": "https://www.ubuntu.com/legal/terms-and-policies/privacy-policy",
"VERSION_CODENAME": "artful",
"UBUNTU_CODENAME": "artful",
})
@patch("os.path.isfile")
def test_missing_os_release(self, path_isfile_mock):
path_isfile_mock.return_value = False
os_release = core._parse_os_release(["/etc/os-release", "/usr/lib/os-release"])
self.assertEqual(os_release, {})
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_gnu_slash_linux_in_os_name(self):
'''
Test to return a list of all enabled services
'''
_path_exists_map = {
'/proc/1/cmdline': False
}
_path_isfile_map = {}
_cmd_run_map = {
'dpkg --print-architecture': 'amd64'
}
path_exists_mock = MagicMock(side_effect=lambda x: _path_exists_map[x])
path_isfile_mock = MagicMock(
side_effect=lambda x: _path_isfile_map.get(x, False)
)
cmd_run_mock = MagicMock(
side_effect=lambda x: _cmd_run_map[x]
)
empty_mock = MagicMock(return_value={})
orig_import = __import__
if six.PY2:
built_in = '__builtin__'
else:
built_in = 'builtins'
def _import_mock(name, *args):
if name == 'lsb_release':
raise ImportError('No module named lsb_release')
return orig_import(name, *args)
# Skip the first if statement
with patch.object(salt.utils.platform, 'is_proxy',
MagicMock(return_value=False)):
# Skip the selinux/systemd stuff (not pertinent)
with patch.object(core, '_linux_bin_exists',
MagicMock(return_value=False)):
# Skip the init grain compilation (not pertinent)
with patch.object(os.path, 'exists', path_exists_mock):
# Ensure that lsb_release fails to import
with patch('{0}.__import__'.format(built_in),
side_effect=_import_mock):
# Skip all the /etc/*-release stuff (not pertinent)
with patch.object(os.path, 'isfile', path_isfile_mock):
# Mock linux_distribution to give us the OS name
# that we want.
distro_mock = MagicMock(
return_value=('Debian GNU/Linux', '8.3', '')
)
with patch.object(
core,
'linux_distribution',
distro_mock):
# Make a bunch of functions return empty dicts,
# we don't care about these grains for the
# purposes of this test.
with patch.object(
core,
'_linux_cpudata',
empty_mock):
with patch.object(
core,
'_linux_gpu_data',
empty_mock):
with patch.object(
core,
'_memdata',
empty_mock):
with patch.object(
core,
'_hw_data',
empty_mock):
with patch.object(
core,
'_virtual',
empty_mock):
with patch.object(
core,
'_ps',
empty_mock):
# Mock the osarch
with patch.dict(
core.__salt__,
{'cmd.run': cmd_run_mock}):
os_grains = core.os_data()
self.assertEqual(os_grains.get('os_family'), 'Debian')
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_suse_os_from_cpe_data(self):
'''
Test if 'os' grain is parsed from CPE_NAME of /etc/os-release
'''
_path_exists_map = {
'/proc/1/cmdline': False
}
_os_release_map = {
'NAME': 'SLES',
'VERSION': '12-SP1',
'VERSION_ID': '12.1',
'PRETTY_NAME': 'SUSE Linux Enterprise Server 12 SP1',
'ID': 'sles',
'ANSI_COLOR': '0;32',
'CPE_NAME': 'cpe:/o:suse:sles:12:sp1'
}
path_exists_mock = MagicMock(side_effect=lambda x: _path_exists_map[x])
empty_mock = MagicMock(return_value={})
osarch_mock = MagicMock(return_value="amd64")
os_release_mock = MagicMock(return_value=_os_release_map)
orig_import = __import__
if six.PY2:
built_in = '__builtin__'
else:
built_in = 'builtins'
def _import_mock(name, *args):
if name == 'lsb_release':
raise ImportError('No module named lsb_release')
return orig_import(name, *args)
# Skip the first if statement
with patch.object(salt.utils.platform, 'is_proxy',
MagicMock(return_value=False)):
# Skip the selinux/systemd stuff (not pertinent)
with patch.object(core, '_linux_bin_exists',
MagicMock(return_value=False)):
# Skip the init grain compilation (not pertinent)
with patch.object(os.path, 'exists', path_exists_mock):
# Ensure that lsb_release fails to import
with patch('{0}.__import__'.format(built_in),
side_effect=_import_mock):
# Skip all the /etc/*-release stuff (not pertinent)
with patch.object(os.path, 'isfile', MagicMock(return_value=False)):
with patch.object(core, '_parse_os_release', os_release_mock):
# Mock linux_distribution to give us the OS
# name that we want.
distro_mock = MagicMock(
return_value=('SUSE Linux Enterprise Server ', '12', 'x86_64')
)
with patch.object(core, 'linux_distribution', distro_mock):
with patch.object(core, '_linux_gpu_data', empty_mock):
with patch.object(core, '_hw_data', empty_mock):
with patch.object(core, '_linux_cpudata', empty_mock):
with patch.object(core, '_virtual', empty_mock):
# Mock the osarch
with patch.dict(core.__salt__, {'cmd.run': osarch_mock}):
os_grains = core.os_data()
self.assertEqual(os_grains.get('os_family'), 'Suse')
self.assertEqual(os_grains.get('os'), 'SUSE')
def _run_os_grains_tests(self, os_release_filename, os_release_map, expectation):
path_isfile_mock = MagicMock(side_effect=lambda x: x in os_release_map.get('files', []))
empty_mock = MagicMock(return_value={})
osarch_mock = MagicMock(return_value="amd64")
if os_release_filename:
os_release_data = core._parse_os_release(
[os.path.join(OS_RELEASE_DIR, os_release_filename)])
else:
os_release_data = os_release_map.get('os_release_file', {})
os_release_mock = MagicMock(return_value=os_release_data)
orig_import = __import__
if six.PY2:
built_in = '__builtin__'
else:
built_in = 'builtins'
def _import_mock(name, *args):
if name == 'lsb_release':
raise ImportError('No module named lsb_release')
return orig_import(name, *args)
# Skip the first if statement
with patch.object(salt.utils.platform, 'is_proxy',
MagicMock(return_value=False)):
# Skip the selinux/systemd stuff (not pertinent)
with patch.object(core, '_linux_bin_exists',
MagicMock(return_value=False)):
# Skip the init grain compilation (not pertinent)
with patch.object(os.path, 'exists', path_isfile_mock):
# Ensure that lsb_release fails to import
with patch('{0}.__import__'.format(built_in),
side_effect=_import_mock):
# Skip all the /etc/*-release stuff (not pertinent)
with patch.object(os.path, 'isfile', path_isfile_mock):
with patch.object(core, '_parse_os_release', os_release_mock):
# Mock linux_distribution to give us the OS
# name that we want.
distro_mock = MagicMock(
return_value=os_release_map['linux_distribution']
)
with patch('salt.utils.files.fopen', mock_open()) as suse_release_file:
suse_release_file.return_value.__iter__.return_value = \
os_release_map.get('suse_release_file', '').splitlines()
with patch.object(core, 'linux_distribution', distro_mock):
with patch.object(core, '_linux_gpu_data', empty_mock):
with patch.object(core, '_linux_cpudata', empty_mock):
with patch.object(core, '_virtual', empty_mock):
# Mock the osarch
with patch.dict(core.__salt__, {'cmd.run': osarch_mock}):
os_grains = core.os_data()
grains = {k: v for k, v in os_grains.items()
if k in set(["os", "os_family", "osfullname", "oscodename", "osfinger",
"osrelease", "osrelease_info", "osmajorrelease"])}
self.assertEqual(grains, expectation)
def _run_suse_os_grains_tests(self, os_release_map, expectation):
os_release_map['linux_distribution'] = ('SUSE test', 'version', 'arch')
expectation['os'] = 'SUSE'
expectation['os_family'] = 'Suse'
self._run_os_grains_tests(None, os_release_map, expectation)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_suse_os_grains_sles11sp3(self):
'''
Test if OS grains are parsed correctly in SLES 11 SP3
'''
_os_release_map = {
'suse_release_file': '''SUSE Linux Enterprise Server 11 (x86_64)
VERSION = 11
PATCHLEVEL = 3
''',
'files': ["/etc/SuSE-release"],
}
expectation = {
'oscodename': 'SUSE Linux Enterprise Server 11 SP3',
'osfullname': "SLES",
'osrelease': '11.3',
'osrelease_info': (11, 3),
'osmajorrelease': 11,
'osfinger': 'SLES-11',
}
self._run_suse_os_grains_tests(_os_release_map, expectation)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_suse_os_grains_sles11sp4(self):
'''
Test if OS grains are parsed correctly in SLES 11 SP4
'''
_os_release_map = {
'os_release_file': {
'NAME': 'SLES',
'VERSION': '11.4',
'VERSION_ID': '11.4',
'PRETTY_NAME': 'SUSE Linux Enterprise Server 11 SP4',
'ID': 'sles',
'ANSI_COLOR': '0;32',
'CPE_NAME': 'cpe:/o:suse:sles:11:4'
},
}
expectation = {
'oscodename': 'SUSE Linux Enterprise Server 11 SP4',
'osfullname': "SLES",
'osrelease': '11.4',
'osrelease_info': (11, 4),
'osmajorrelease': 11,
'osfinger': 'SLES-11',
}
self._run_suse_os_grains_tests(_os_release_map, expectation)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_suse_os_grains_sles12(self):
'''
Test if OS grains are parsed correctly in SLES 12
'''
_os_release_map = {
'os_release_file': {
'NAME': 'SLES',
'VERSION': '12',
'VERSION_ID': '12',
'PRETTY_NAME': 'SUSE Linux Enterprise Server 12',
'ID': 'sles',
'ANSI_COLOR': '0;32',
'CPE_NAME': 'cpe:/o:suse:sles:12'
},
}
expectation = {
'oscodename': 'SUSE Linux Enterprise Server 12',
'osfullname': "SLES",
'osrelease': '12',
'osrelease_info': (12,),
'osmajorrelease': 12,
'osfinger': 'SLES-12',
}
self._run_suse_os_grains_tests(_os_release_map, expectation)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_suse_os_grains_sles12sp1(self):
'''
Test if OS grains are parsed correctly in SLES 12 SP1
'''
_os_release_map = {
'os_release_file': {
'NAME': 'SLES',
'VERSION': '12-SP1',
'VERSION_ID': '12.1',
'PRETTY_NAME': 'SUSE Linux Enterprise Server 12 SP1',
'ID': 'sles',
'ANSI_COLOR': '0;32',
'CPE_NAME': 'cpe:/o:suse:sles:12:sp1'
},
}
expectation = {
'oscodename': 'SUSE Linux Enterprise Server 12 SP1',
'osfullname': "SLES",
'osrelease': '12.1',
'osrelease_info': (12, 1),
'osmajorrelease': 12,
'osfinger': 'SLES-12',
}
self._run_suse_os_grains_tests(_os_release_map, expectation)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_suse_os_grains_opensuse_leap_42_1(self):
'''
Test if OS grains are parsed correctly in openSUSE Leap 42.1
'''
_os_release_map = {
'os_release_file': {
'NAME': 'openSUSE Leap',
'VERSION': '42.1',
'VERSION_ID': '42.1',
'PRETTY_NAME': 'openSUSE Leap 42.1 (x86_64)',
'ID': 'opensuse',
'ANSI_COLOR': '0;32',
'CPE_NAME': 'cpe:/o:opensuse:opensuse:42.1'
},
}
expectation = {
'oscodename': 'openSUSE Leap 42.1 (x86_64)',
'osfullname': "Leap",
'osrelease': '42.1',
'osrelease_info': (42, 1),
'osmajorrelease': 42,
'osfinger': 'Leap-42',
}
self._run_suse_os_grains_tests(_os_release_map, expectation)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_suse_os_grains_tumbleweed(self):
'''
Test if OS grains are parsed correctly in openSUSE Tumbleweed
'''
_os_release_map = {
'os_release_file': {
'NAME': 'openSUSE',
'VERSION': 'Tumbleweed',
'VERSION_ID': '20160504',
'PRETTY_NAME': 'openSUSE Tumbleweed (20160504) (x86_64)',
'ID': 'opensuse',
'ANSI_COLOR': '0;32',
'CPE_NAME': 'cpe:/o:opensuse:opensuse:20160504'
},
}
expectation = {
'oscodename': 'openSUSE Tumbleweed (20160504) (x86_64)',
'osfullname': "Tumbleweed",
'osrelease': '20160504',
'osrelease_info': (20160504,),
'osmajorrelease': 20160504,
'osfinger': 'Tumbleweed-20160504',
}
self._run_suse_os_grains_tests(_os_release_map, expectation)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_debian_7_os_grains(self):
'''
Test if OS grains are parsed correctly in Debian 7 "wheezy"
'''
_os_release_map = {
'linux_distribution': ('debian', '7.11', ''),
}
expectation = {
'os': 'Debian',
'os_family': 'Debian',
'oscodename': 'wheezy',
'osfullname': 'Debian GNU/Linux',
'osrelease': '7',
'osrelease_info': (7,),
'osmajorrelease': 7,
'osfinger': 'Debian-7',
}
self._run_os_grains_tests("debian-7", _os_release_map, expectation)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_debian_8_os_grains(self):
'''
Test if OS grains are parsed correctly in Debian 8 "jessie"
'''
_os_release_map = {
'linux_distribution': ('debian', '8.10', ''),
}
expectation = {
'os': 'Debian',
'os_family': 'Debian',
'oscodename': 'jessie',
'osfullname': 'Debian GNU/Linux',
'osrelease': '8',
'osrelease_info': (8,),
'osmajorrelease': 8,
'osfinger': 'Debian-8',
}
self._run_os_grains_tests("debian-8", _os_release_map, expectation)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_debian_9_os_grains(self):
'''
Test if OS grains are parsed correctly in Debian 9 "stretch"
'''
_os_release_map = {
'linux_distribution': ('debian', '9.3', ''),
}
expectation = {
'os': 'Debian',
'os_family': 'Debian',
'oscodename': 'stretch',
'osfullname': 'Debian GNU/Linux',
'osrelease': '9',
'osrelease_info': (9,),
'osmajorrelease': 9,
'osfinger': 'Debian-9',
}
self._run_os_grains_tests("debian-9", _os_release_map, expectation)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_ubuntu_xenial_os_grains(self):
'''
Test if OS grains are parsed correctly in Ubuntu 16.04 "Xenial Xerus"
'''
_os_release_map = {
'linux_distribution': ('Ubuntu', '16.04', 'xenial'),
}
expectation = {
'os': 'Ubuntu',
'os_family': 'Debian',
'oscodename': 'xenial',
'osfullname': 'Ubuntu',
'osrelease': '16.04',
'osrelease_info': (16, 4),
'osmajorrelease': 16,
'osfinger': 'Ubuntu-16.04',
}
self._run_os_grains_tests("ubuntu-16.04", _os_release_map, expectation)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_ubuntu_artful_os_grains(self):
'''
Test if OS grains are parsed correctly in Ubuntu 17.10 "Artful Aardvark"
'''
_os_release_map = {
'linux_distribution': ('Ubuntu', '17.10', 'artful'),
}
expectation = {
'os': 'Ubuntu',
'os_family': 'Debian',
'oscodename': 'artful',
'osfullname': 'Ubuntu',
'osrelease': '17.10',
'osrelease_info': (17, 10),
'osmajorrelease': 17,
'osfinger': 'Ubuntu-17.10',
}
self._run_os_grains_tests("ubuntu-17.10", _os_release_map, expectation)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_linux_memdata(self):
'''
Test memdata on Linux systems
'''
_path_exists_map = {
'/proc/1/cmdline': False,
'/proc/meminfo': True
}
_path_isfile_map = {
'/proc/meminfo': True
}
_cmd_run_map = {
'dpkg --print-architecture': 'amd64',
'rpm --eval %{_host_cpu}': 'x86_64'
}
path_exists_mock = MagicMock(side_effect=lambda x: _path_exists_map[x])
path_isfile_mock = MagicMock(
side_effect=lambda x: _path_isfile_map.get(x, False)
)
cmd_run_mock = MagicMock(
side_effect=lambda x: _cmd_run_map[x]
)
empty_mock = MagicMock(return_value={})
_proc_meminfo_file = '''MemTotal: 16277028 kB
SwapTotal: 4789244 kB'''
orig_import = __import__
if six.PY2:
built_in = '__builtin__'
else:
built_in = 'builtins'
def _import_mock(name, *args):
if name == 'lsb_release':
raise ImportError('No module named lsb_release')
return orig_import(name, *args)
# Skip the first if statement
with patch.object(salt.utils.platform, 'is_proxy',
MagicMock(return_value=False)):
# Skip the selinux/systemd stuff (not pertinent)
with patch.object(core, '_linux_bin_exists',
MagicMock(return_value=False)):
# Skip the init grain compilation (not pertinent)
with patch.object(os.path, 'exists', path_exists_mock):
# Ensure that lsb_release fails to import
with patch('{0}.__import__'.format(built_in),
side_effect=_import_mock):
# Skip all the /etc/*-release stuff (not pertinent)
with patch.object(os.path, 'isfile', path_isfile_mock):
# Make a bunch of functions return empty dicts,
# we don't care about these grains for the
# purposes of this test.
with patch.object(
core,
'_linux_cpudata',
empty_mock):
with patch.object(
core,
'_linux_gpu_data',
empty_mock):
with patch('salt.utils.files.fopen', mock_open()) as _proc_meminfo:
_proc_meminfo.return_value.__iter__.return_value = _proc_meminfo_file.splitlines()
with patch.object(
core,
'_hw_data',
empty_mock):
with patch.object(
core,
'_virtual',
empty_mock):
with patch.object(
core,
'_ps',
empty_mock):
# Mock the osarch
with patch.dict(
core.__salt__,
{'cmd.run': cmd_run_mock}):
os_grains = core.os_data()
self.assertEqual(os_grains.get('mem_total'), 15895)
self.assertEqual(os_grains.get('swap_total'), 4676)
@skipIf(salt.utils.platform.is_windows(), 'System is Windows')
def test_bsd_memdata(self):
'''
Test to memdata on *BSD systems
'''
_path_exists_map = {}
_path_isfile_map = {}
_cmd_run_map = {
'freebsd-version -u': '10.3-RELEASE',
'/sbin/sysctl -n hw.physmem': '2121781248',
'/sbin/sysctl -n vm.swap_total': '419430400'
}
path_exists_mock = MagicMock(side_effect=lambda x: _path_exists_map[x])
path_isfile_mock = MagicMock(
side_effect=lambda x: _path_isfile_map.get(x, False)
)
cmd_run_mock = MagicMock(
side_effect=lambda x: _cmd_run_map[x]
)
empty_mock = MagicMock(return_value={})
mock_freebsd_uname = ('FreeBSD',
'freebsd10.3-hostname-8148',
'10.3-RELEASE',
'FreeBSD 10.3-RELEASE #0 r297264: Fri Mar 25 02:10:02 UTC 2016 root@releng1.nyi.freebsd.org:/usr/obj/usr/src/sys/GENERIC',
'amd64',
'amd64')
with patch('platform.uname',
MagicMock(return_value=mock_freebsd_uname)):
with patch.object(salt.utils.platform, 'is_linux',
MagicMock(return_value=False)):
with patch.object(salt.utils.platform, 'is_freebsd',
MagicMock(return_value=True)):
# Skip the first if statement
with patch.object(salt.utils.platform, 'is_proxy',
MagicMock(return_value=False)):
# Skip the init grain compilation (not pertinent)
with patch.object(os.path, 'exists', path_exists_mock):
with patch('salt.utils.path.which') as mock:
mock.return_value = '/sbin/sysctl'
# Make a bunch of functions return empty dicts,
# we don't care about these grains for the
# purposes of this test.
with patch.object(
core,
'_bsd_cpudata',
empty_mock):
with patch.object(
core,
'_hw_data',
empty_mock):
with patch.object(
core,
'_virtual',
empty_mock):
with patch.object(
core,
'_ps',
empty_mock):
# Mock the osarch
with patch.dict(
core.__salt__,
{'cmd.run': cmd_run_mock}):
os_grains = core.os_data()
self.assertEqual(os_grains.get('mem_total'), 2023)
self.assertEqual(os_grains.get('swap_total'), 400)
@skipIf(salt.utils.platform.is_windows(), 'System is Windows')
def test_docker_virtual(self):
'''
Test if OS grains are parsed correctly in Ubuntu Xenial Xerus
'''
with patch.object(os.path, 'isdir', MagicMock(return_value=False)):
with patch.object(os.path,
'isfile',
MagicMock(side_effect=lambda x: True if x == '/proc/1/cgroup' else False)):
for cgroup_substr in (':/system.slice/docker', ':/docker/',
':/docker-ce/'):
cgroup_data = \
'10:memory{0}a_long_sha256sum'.format(cgroup_substr)
log.debug(
'Testing Docker cgroup substring \'%s\'', cgroup_substr)
with patch('salt.utils.files.fopen', mock_open(read_data=cgroup_data)):
with patch.dict(core.__salt__, {'cmd.run_all': MagicMock()}):
self.assertEqual(
core._virtual({'kernel': 'Linux'}).get('virtual_subtype'),
'Docker'
)
def _check_ipaddress(self, value, ip_v):
'''
check if ip address in a list is valid
'''
for val in value:
assert isinstance(val, six.string_types)
ip_method = 'is_ipv{0}'.format(ip_v)
self.assertTrue(getattr(salt.utils.network, ip_method)(val))
def _check_empty(self, key, value, empty):
'''
if empty is False and value does not exist assert error
if empty is True and value exists assert error
'''
if not empty and not value:
raise Exception("{0} is empty, expecting a value".format(key))
elif empty and value:
raise Exception("{0} is suppose to be empty. value: {1} \
exists".format(key, value))
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_fqdn_return(self):
'''
test ip4 and ip6 return values
'''
net_ip4_mock = [IP4_LOCAL, IP4_ADD1, IP4_ADD2]
net_ip6_mock = [IP6_LOCAL, IP6_ADD1, IP6_ADD2]
self._run_fqdn_tests(net_ip4_mock, net_ip6_mock,
ip4_empty=False, ip6_empty=False)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_fqdn6_empty(self):
'''
test when ip6 is empty
'''
net_ip4_mock = [IP4_LOCAL, IP4_ADD1, IP4_ADD2]
net_ip6_mock = []
self._run_fqdn_tests(net_ip4_mock, net_ip6_mock,
ip4_empty=False)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_fqdn4_empty(self):
'''
test when ip4 is empty
'''
net_ip4_mock = []
net_ip6_mock = [IP6_LOCAL, IP6_ADD1, IP6_ADD2]
self._run_fqdn_tests(net_ip4_mock, net_ip6_mock,
ip6_empty=False)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
def test_fqdn_all_empty(self):
'''
test when both ip4 and ip6 are empty
'''
net_ip4_mock = []
net_ip6_mock = []
self._run_fqdn_tests(net_ip4_mock, net_ip6_mock)
def _run_fqdn_tests(self, net_ip4_mock, net_ip6_mock,
ip6_empty=True, ip4_empty=True):
def _check_type(key, value, ip4_empty, ip6_empty):
'''
check type and other checks
'''
assert isinstance(value, list)
if '4' in key:
self._check_empty(key, value, ip4_empty)
self._check_ipaddress(value, ip_v='4')
elif '6' in key:
self._check_empty(key, value, ip6_empty)
self._check_ipaddress(value, ip_v='6')
ip4_mock = [(2, 1, 6, '', (IP4_ADD1, 0)),
(2, 3, 0, '', (IP4_ADD2, 0))]
ip6_mock = [(10, 1, 6, '', (IP6_ADD1, 0, 0, 0)),
(10, 3, 0, '', (IP6_ADD2, 0, 0, 0))]
with patch.dict(core.__opts__, {'ipv6': False}):
with patch.object(salt.utils.network, 'ip_addrs',
MagicMock(return_value=net_ip4_mock)):
with patch.object(salt.utils.network, 'ip_addrs6',
MagicMock(return_value=net_ip6_mock)):
with patch.object(core.socket, 'getaddrinfo', side_effect=[ip4_mock, ip6_mock]):
get_fqdn = core.ip_fqdn()
ret_keys = ['fqdn_ip4', 'fqdn_ip6', 'ipv4', 'ipv6']
for key in ret_keys:
value = get_fqdn[key]
_check_type(key, value, ip4_empty, ip6_empty)
@skipIf(not salt.utils.platform.is_linux(), 'System is not Linux')
@patch.object(salt.utils.platform, 'is_windows', MagicMock(return_value=False))
@patch('salt.grains.core.__opts__', {'ipv6': False})
def test_dns_return(self):
'''
test the return for a dns grain. test for issue:
https://github.com/saltstack/salt/issues/41230
'''
resolv_mock = {'domain': '', 'sortlist': [], 'nameservers':
[ipaddress.IPv4Address(IP4_ADD1),
ipaddress.IPv6Address(IP6_ADD1),
IP6_ADD_SCOPE], 'ip4_nameservers':
[ipaddress.IPv4Address(IP4_ADD1)],
'search': ['test.saltstack.com'], 'ip6_nameservers':
[ipaddress.IPv6Address(IP6_ADD1),
IP6_ADD_SCOPE], 'options': []}
ret = {'dns': {'domain': '', 'sortlist': [], 'nameservers':
[IP4_ADD1, IP6_ADD1,
IP6_ADD_SCOPE], 'ip4_nameservers':
[IP4_ADD1], 'search': ['test.saltstack.com'],
'ip6_nameservers': [IP6_ADD1, IP6_ADD_SCOPE],
'options': []}}
with patch.object(salt.utils.dns, 'parse_resolv', MagicMock(return_value=resolv_mock)):
assert core.dns() == ret
def test_core_virtual(self):
'''
test virtual grain with cmd virt-what
'''
virt = 'kvm'
with patch.object(salt.utils, 'is_windows',
MagicMock(return_value=False)):
with patch.object(salt.utils, 'which',
MagicMock(return_value=True)):
with patch.dict(core.__salt__, {'cmd.run_all':
MagicMock(return_value={'pid': 78,
'retcode': 0,
'stderr': '',
'stdout': virt})}):
osdata = {'kernel': 'test', }
ret = core._virtual(osdata)
self.assertEqual(ret['virtual'], virt)
Reference in New Issue View Git Blame Copy Permalink