salt/tests/integration/modules/state.py

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# -*- coding: utf-8 -*-
# Import python libs
import os
import shutil
# Import Salt Testing libs
from salttesting import skipIf
from salttesting.helpers import ensure_in_syspath
ensure_in_syspath('../../')
# Import salt libs
import integration
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import salt.utils
from salt.modules.virtualenv_mod import KNOWN_BINARY_NAMES
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class StateModuleTest(integration.ModuleCase,
integration.SaltReturnAssertsMixIn):
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'''
Validate the test module
'''
maxDiff = None
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def test_show_highstate(self):
'''
state.show_highstate
'''
high = self.run_function('state.show_highstate')
destpath = os.path.join(integration.SYS_TMP_DIR, 'testfile')
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self.assertTrue(isinstance(high, dict))
self.assertTrue(destpath in high)
self.assertEqual(high[destpath]['__env__'], 'base')
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def test_show_lowstate(self):
'''
state.show_lowstate
'''
low = self.run_function('state.show_lowstate')
self.assertTrue(isinstance(low, list))
self.assertTrue(isinstance(low[0], dict))
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def test_catch_recurse(self):
'''
state.show_sls used to catch a recursive ref
'''
err = self.run_function('state.sls', mods='recurse_fail')
self.assertIn('recursive', err[0])
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def test_no_recurse(self):
'''
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verify that a sls structure is NOT a recursive ref
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'''
sls = self.run_function('state.show_sls', mods='recurse_ok')
self.assertIn('snmpd', sls)
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def test_no_recurse_two(self):
'''
verify that a sls structure is NOT a recursive ref
'''
sls = self.run_function('state.show_sls', mods='recurse_ok_two')
self.assertIn('/etc/nagios/nrpe.cfg', sls)
def test_issue_1896_file_append_source(self):
'''
Verify that we can append a file's contents
'''
testfile = os.path.join(integration.TMP, 'test.append')
if os.path.isfile(testfile):
os.unlink(testfile)
ret = self.run_function('state.sls', mods='testappend')
self.assertSaltTrueReturn(ret)
ret = self.run_function('state.sls', mods='testappend.step-1')
self.assertSaltTrueReturn(ret)
ret = self.run_function('state.sls', mods='testappend.step-2')
self.assertSaltTrueReturn(ret)
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self.assertMultiLineEqual('''\
# set variable identifying the chroot you work in (used in the prompt below)
if [ -z "$debian_chroot" ] && [ -r /etc/debian_chroot ]; then
debian_chroot=$(cat /etc/debian_chroot)
fi
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# enable bash completion in interactive shells
if [ -f /etc/bash_completion ] && ! shopt -oq posix; then
. /etc/bash_completion
fi
''', salt.utils.fopen(testfile, 'r').read())
# Re-append switching order
ret = self.run_function('state.sls', mods='testappend.step-2')
self.assertSaltTrueReturn(ret)
ret = self.run_function('state.sls', mods='testappend.step-1')
self.assertSaltTrueReturn(ret)
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self.assertMultiLineEqual('''\
# set variable identifying the chroot you work in (used in the prompt below)
if [ -z "$debian_chroot" ] && [ -r /etc/debian_chroot ]; then
debian_chroot=$(cat /etc/debian_chroot)
fi
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# enable bash completion in interactive shells
if [ -f /etc/bash_completion ] && ! shopt -oq posix; then
. /etc/bash_completion
fi
''', salt.utils.fopen(testfile, 'r').read())
def test_issue_1876_syntax_error(self):
'''
verify that we catch the following syntax error::
/tmp/salttest/issue-1876:
file:
- managed
- source: salt://testfile
file.append:
- text: foo
'''
testfile = os.path.join(integration.TMP, 'issue-1876')
sls = self.run_function('state.sls', mods='issue-1876')
self.assertIn(
'Name "{0}" in sls "issue-1876" contains multiple state decs of '
'the same type'.format(testfile),
sls
)
def test_issue_1879_too_simple_contains_check(self):
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contents = '''\
# set variable identifying the chroot you work in (used in the prompt below)
if [ -z "$debian_chroot" ] && [ -r /etc/debian_chroot ]; then
debian_chroot=$(cat /etc/debian_chroot)
fi
# enable bash completion in interactive shells
if [ -f /etc/bash_completion ] && ! shopt -oq posix; then
. /etc/bash_completion
fi
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'''
testfile = os.path.join(integration.TMP, 'issue-1879')
# Delete if exiting
if os.path.isfile(testfile):
os.unlink(testfile)
# Create the file
ret = self.run_function('state.sls', mods='issue-1879', timeout=120)
self.assertSaltTrueReturn(ret)
# The first append
ret = self.run_function(
'state.sls', mods='issue-1879.step-1', timeout=120
)
self.assertSaltTrueReturn(ret)
# The second append
ret = self.run_function(
'state.sls', mods='issue-1879.step-2', timeout=120
)
self.assertSaltTrueReturn(ret)
# Does it match?
try:
self.assertMultiLineEqual(
contents,
salt.utils.fopen(testfile, 'r').read()
)
# Make sure we don't re-append existing text
ret = self.run_function(
'state.sls', mods='issue-1879.step-1', timeout=120
)
self.assertSaltTrueReturn(ret)
ret = self.run_function(
'state.sls', mods='issue-1879.step-2', timeout=120
)
self.assertSaltTrueReturn(ret)
self.assertMultiLineEqual(
contents,
salt.utils.fopen(testfile, 'r').read()
)
except Exception:
if os.path.exists(testfile):
shutil.copy(testfile, testfile + '.bak')
raise
finally:
if os.path.exists(testfile):
os.unlink(testfile)
def test_include(self):
fnames = (
os.path.join(integration.SYS_TMP_DIR, 'include-test'),
os.path.join(integration.SYS_TMP_DIR, 'to-include-test')
)
exclude_test_file = os.path.join(
integration.SYS_TMP_DIR, 'exclude-test'
)
try:
ret = self.run_function('state.sls', mods='include-test')
self.assertSaltTrueReturn(ret)
for fname in fnames:
self.assertTrue(os.path.isfile(fname))
self.assertFalse(os.path.isfile(exclude_test_file))
finally:
for fname in list(fnames) + [exclude_test_file]:
if os.path.isfile(fname):
os.remove(fname)
def test_exclude(self):
fnames = (
os.path.join(integration.SYS_TMP_DIR, 'include-test'),
os.path.join(integration.SYS_TMP_DIR, 'exclude-test')
)
to_include_test_file = os.path.join(
integration.SYS_TMP_DIR, 'to-include-test'
)
try:
ret = self.run_function('state.sls', mods='exclude-test')
self.assertSaltTrueReturn(ret)
for fname in fnames:
self.assertTrue(os.path.isfile(fname))
self.assertFalse(os.path.isfile(to_include_test_file))
finally:
for fname in list(fnames) + [to_include_test_file]:
if os.path.isfile(fname):
os.remove(fname)
@skipIf(salt.utils.which_bin(KNOWN_BINARY_NAMES) is None, 'virtualenv not installed')
def test_issue_2068_template_str(self):
venv_dir = os.path.join(
integration.SYS_TMP_DIR, 'issue-2068-template-str'
)
try:
ret = self.run_function(
'state.sls', mods='issue-2068-template-str-no-dot',
timeout=120
)
self.assertSaltTrueReturn(ret)
finally:
if os.path.isdir(venv_dir):
shutil.rmtree(venv_dir)
# Let's load the template from the filesystem. If running this state
# with state.sls works, so should using state.template_str
template_path = os.path.join(
os.path.dirname(os.path.dirname(__file__)),
'files', 'file', 'base', 'issue-2068-template-str-no-dot.sls'
)
template = salt.utils.fopen(template_path, 'r').read()
try:
ret = self.run_function(
'state.template_str', [template], timeout=120
)
self.assertSaltTrueReturn(ret)
self.assertTrue(
os.path.isfile(os.path.join(venv_dir, 'bin', 'pep8'))
)
finally:
if os.path.isdir(venv_dir):
shutil.rmtree(venv_dir)
# Now using state.template
try:
ret = self.run_function(
'state.template', [template_path], timeout=120
)
self.assertSaltTrueReturn(ret)
finally:
if os.path.isdir(venv_dir):
shutil.rmtree(venv_dir)
# Now the problematic #2068 including dot's
try:
ret = self.run_function(
'state.sls', mods='issue-2068-template-str', timeout=120
)
self.assertSaltTrueReturn(ret)
finally:
if os.path.isdir(venv_dir):
shutil.rmtree(venv_dir)
# Let's load the template from the filesystem. If running this state
# with state.sls works, so should using state.template_str
template_path = os.path.join(
os.path.dirname(os.path.dirname(__file__)),
'files', 'file', 'base', 'issue-2068-template-str.sls'
)
template = salt.utils.fopen(template_path, 'r').read()
try:
ret = self.run_function(
'state.template_str', [template], timeout=120
)
self.assertSaltTrueReturn(ret)
self.assertTrue(
os.path.isfile(os.path.join(venv_dir, 'bin', 'pep8'))
)
finally:
if os.path.isdir(venv_dir):
shutil.rmtree(venv_dir)
# Now using state.template
try:
ret = self.run_function(
'state.template', [template_path], timeout=120
)
self.assertSaltTrueReturn(ret)
finally:
if os.path.isdir(venv_dir):
shutil.rmtree(venv_dir)
def test_template_invalid_items(self):
TEMPLATE = '''\
{0}:
- issue-2068-template-str
/tmp/test-template-invalid-items:
file:
- managed
- source: salt://testfile
'''
for item in ('include', 'exclude', 'extends'):
ret = self.run_function(
'state.template_str', [TEMPLATE.format(item)]
)
self.assertTrue(isinstance(ret, list))
self.assertNotEqual(ret, [])
self.assertEqual(
['The \'{0}\' declaration found on \'<template-str>\' is '
'invalid when rendering single templates'.format(item)],
ret
)
def test_pydsl(self):
'''
Test the basics of the pydsl
'''
ret = self.run_function('state.sls', mods='pydsl-1')
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self.assertSaltTrueReturn(ret)
def test_issues_7905_and_8174_sls_syntax_error(self):
'''
Call sls file with yaml syntax error.
Ensure theses errors are detected and presented to the user without
stack traces.
'''
ret = self.run_function('state.sls', mods='syntax.badlist')
self.assertEqual(ret, [
'The state "A" in sls syntax.badlist is not formed as a list'
])
ret = self.run_function('state.sls', mods='syntax.badlist2')
self.assertEqual(ret, [
'The state "C" in sls syntax.badlist2 is not formed as a list'
])
def test_requisites_mixed_require_prereq_use(self):
'''
Call sls file containing several requisites.
'''
expected_simple_result = {
'cmd_|-A_|-echo A_|-run': {
'__run_num__': 2,
'comment': 'Command "echo A" run',
'result': True},
'cmd_|-B_|-echo B_|-run': {
'__run_num__': 1,
'comment': 'Command "echo B" run',
'result': True},
'cmd_|-C_|-echo C_|-run': {
'__run_num__': 0,
'comment': 'Command "echo C" run',
'result': True}
}
expected_result = {
'cmd_|-A_|-echo A fifth_|-run': {
'__run_num__': 4,
'comment': 'Command "echo A fifth" run',
'result': True},
'cmd_|-B_|-echo B third_|-run': {
'__run_num__': 2,
'comment': 'Command "echo B third" run',
'result': True},
'cmd_|-C_|-echo C second_|-run': {
'__run_num__': 1,
'comment': 'Command "echo C second" run',
'result': True},
'cmd_|-D_|-echo D first_|-run': {
'__run_num__': 0,
'comment': 'Command "echo D first" run',
'result': True},
'cmd_|-E_|-echo E fourth_|-run': {
'__run_num__': 3,
'comment': 'Command "echo E fourth" run',
'result': True}
}
expected_req_use_result = {
'cmd_|-A_|-echo A_|-run': {
'__run_num__': 1,
'comment': 'Command "echo A" run',
'result': True},
'cmd_|-B_|-echo B_|-run': {
'__run_num__': 4,
'comment': 'Command "echo B" run',
'result': True},
'cmd_|-C_|-echo C_|-run': {
'__run_num__': 0,
'comment': 'Command "echo C" run',
'result': True},
'cmd_|-D_|-echo D_|-run': {
'__run_num__': 5,
'comment': 'Command "echo D" run',
'result': True},
'cmd_|-E_|-echo E_|-run': {
'__run_num__': 2,
'comment': 'Command "echo E" run',
'result': True},
'cmd_|-F_|-echo F_|-run': {
'__run_num__': 3,
'comment': 'Command "echo F" run',
'result': True}
}
result = {}
ret = self.run_function('state.sls', mods='requisites.mixed_simple')
for item, descr in ret.iteritems():
result[item] = {
'__run_num__': descr['__run_num__'],
'comment': descr['comment'],
'result': descr['result']
}
self.assertEqual(expected_simple_result, result)
# test Traceback recursion prereq+require #8785
# TODO: this is actually failing badly
#ret = self.run_function('state.sls', mods='requisites.prereq_require_recursion_error2')
#self.assertEqual(
# ret,
# ['A recursive requisite was found, SLS "requisites.prereq_require_recursion_error2" ID "B" ID "A"']
#)
# test Infinite recursion prereq+require #8785 v2
# TODO: this is actually failing badly
#ret = self.run_function('state.sls', mods='requisites.prereq_require_recursion_error3')
#self.assertEqual(
# ret,
# ['A recursive requisite was found, SLS "requisites.prereq_require_recursion_error2" ID "B" ID "A"']
#)
# test Infinite recursion prereq+require #8785 v3
# TODO: this is actually failing badly, and expected result is maybe not a recursion
#ret = self.run_function('state.sls', mods='requisites.prereq_require_recursion_error4')
#self.assertEqual(
# ret,
# ['A recursive requisite was found, SLS "requisites.prereq_require_recursion_error2" ID "B" ID "A"']
#)
# undetected infinite loopS prevents this test from running...
# TODO: this is actually failing badly
#result = {}
#ret = self.run_function('state.sls', mods='requisites.mixed_complex1')
#for item, descr in ret.iteritems():
# result[item] = {
# '__run_num__': descr['__run_num__'],
# 'comment': descr['comment'],
# 'result': descr['result']
# }
#self.assertEqual(expected_result, result)
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def test_requisites_require_ordering_and_errors(self):
'''
Call sls file containing several require_in and require.
Ensure that some of them are failing and that the order is right.
'''
expected_result = {
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'cmd_|-A_|-echo A fifth_|-run': {
'__run_num__': 4,
'comment': 'Command "echo A fifth" run',
'result': True
},
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'cmd_|-B_|-echo B second_|-run': {
'__run_num__': 1,
'comment': 'Command "echo B second" run',
'result': True
},
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'cmd_|-C_|-echo C third_|-run': {
'__run_num__': 2,
'comment': 'Command "echo C third" run',
'result': True
},
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'cmd_|-D_|-echo D first_|-run': {
'__run_num__': 0,
'comment': 'Command "echo D first" run',
'result': True
},
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'cmd_|-E_|-echo E fourth_|-run': {
'__run_num__': 3,
'comment': 'Command "echo E fourth" run',
'result': True
},
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'cmd_|-F_|-echo F_|-run': {
'__run_num__': 5,
'comment': 'The following requisites were not found:\n'
+ ' require:\n'
+ ' foobar: A\n',
'result': False
},
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'cmd_|-G_|-echo G_|-run': {
'__run_num__': 6,
'comment': 'The following requisites were not found:\n'
+ ' require:\n'
+ ' cmd: Z\n',
'result': False
},
'cmd_|-H_|-echo H_|-run': {
'__run_num__': 7,
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'comment': 'The following requisites were not found:\n'
+ ' require:\n'
+ ' cmd: Z\n',
'result': False
}
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}
result = {}
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ret = self.run_function('state.sls', mods='requisites.require')
for item, descr in ret.iteritems():
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result[item] = {
'__run_num__': descr['__run_num__'],
'comment': descr['comment'],
'result': descr['result']
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}
self.assertEqual(expected_result, result)
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ret = self.run_function('state.sls', mods='requisites.require_error1')
self.assertEqual(ret, [
'Cannot extend ID W in "base:requisites.require_error1".'
+ ' It is not part of the high state.'
])
# issue #8235
# FIXME: Why is require enforcing list syntax while require_in does not?
# And why preventing it?
# Currently this state fails, should return C/B/A
result = {}
ret = self.run_function('state.sls', mods='requisites.require_simple_nolist')
self.assertEqual(ret, [
'The require statement in state "B" in sls '
+ '"requisites.require_simple_nolist" needs to be formed as a list'
])
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# commented until a fix is made for issue #8772
# TODO: this test actually fails
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#ret = self.run_function('state.sls', mods='requisites.require_error2')
#self.assertEqual(ret, [
# 'Cannot extend state foobar for ID A in "base:requisites.require_error2".'
# + ' It is not part of the high state.'
#])
ret = self.run_function('state.sls', mods='requisites.require_recursion_error1')
self.assertEqual(
ret,
['A recursive requisite was found, SLS "requisites.require_recursion_error1" ID "B" ID "A"']
)
def test_requisites_full_sls(self):
'''
Teste the sls special command in requisites
'''
expected_result = {
'cmd_|-A_|-echo A_|-run': {
'__run_num__': 2,
'comment': 'Command "echo A" run',
'result': True},
'cmd_|-B_|-echo B_|-run': {
'__run_num__': 0,
'comment': 'Command "echo B" run',
'result': True},
'cmd_|-C_|-echo C_|-run': {
'__run_num__': 1,
'comment': 'Command "echo C" run',
'result': True},
}
result = {}
ret = self.run_function('state.sls', mods='requisites.fullsls_require')
for item, descr in ret.iteritems():
result[item] = {
'__run_num__': descr['__run_num__'],
'comment': descr['comment'],
'result': descr['result']
}
self.assertEqual(expected_result, result)
# TODO: not done
#ret = self.run_function('state.sls', mods='requisites.fullsls_require_in')
#self.assertEqual(['sls command can only be used with require requisite'], ret)
# issue #8233: traceback on prereq sls
# TODO: not done
#ret = self.run_function('state.sls', mods='requisites.fullsls_prereq')
#self.assertEqual(['sls command can only be used with require requisite'], ret)
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def test_requisites_prereq_simple_ordering_and_errors(self):
'''
Call sls file containing several prereq_in and prereq.
Ensure that some of them are failing and that the order is right.
'''
expected_result_simple = {
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'cmd_|-A_|-echo A third_|-run': {
'__run_num__': 2,
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'comment': 'Command "echo A third" run',
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'result': True},
'cmd_|-B_|-echo B first_|-run': {
'__run_num__': 0,
'comment': 'Command "echo B first" run',
'result': True},
'cmd_|-C_|-echo C second_|-run': {
'__run_num__': 1,
'comment': 'Command "echo C second" run',
'result': True},
'cmd_|-I_|-echo I_|-run': {
'__run_num__': 3,
'comment': 'The following requisites were not found:\n'
+ ' prereq:\n'
+ ' cmd: Z\n',
'result': False},
'cmd_|-J_|-echo J_|-run': {
'__run_num__': 4,
'comment': 'The following requisites were not found:\n'
+ ' prereq:\n'
+ ' foobar: A\n',
'result': False}
}
expected_result_simple2 = {
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'cmd_|-A_|-echo A_|-run': {
'__run_num__': 1,
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'comment': 'Command "echo A" run',
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'result': True},
'cmd_|-B_|-echo B_|-run': {
'__run_num__': 2,
'comment': 'Command "echo B" run',
'result': True},
'cmd_|-C_|-echo C_|-run': {
'__run_num__': 0,
'comment': 'Command "echo C" run',
'result': True},
'cmd_|-D_|-echo D_|-run': {
'__run_num__': 3,
'comment': 'Command "echo D" run',
'result': True},
'cmd_|-E_|-echo E_|-run': {
'__run_num__': 4,
'comment': 'Command "echo E" run',
'result': True}
}
expected_result_complex = {
'cmd_|-A_|-echo A fourth_|-run': {
'__run_num__': 3,
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'comment': 'Command "echo A fourth" run',
'result': True},
'cmd_|-B_|-echo B first_|-run': {
'__run_num__': 0,
'comment': 'Command "echo B first" run',
'result': True},
'cmd_|-C_|-echo C second_|-run': {
'__run_num__': 1,
'comment': 'Command "echo C second" run',
'result': True},
'cmd_|-D_|-echo D third_|-run': {
'__run_num__': 2,
'comment': 'Command "echo D third" run',
'result': True},
}
result = {}
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ret = self.run_function('state.sls', mods='requisites.prereq_simple')
for item, descr in ret.iteritems():
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result[item] = {
'__run_num__': descr['__run_num__'],
'comment': descr['comment'],
'result': descr['result']
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}
self.assertEqual(expected_result_simple, result)
# same test, but not using lists in yaml syntax
# TODO: issue #8235, prereq ignored when not used in list syntax
# Currently fails badly with :
# TypeError encountered executing state.sls: string indices must be integers, not str.
#result = {}
#expected_result_simple.pop('cmd_|-I_|-echo I_|-run')
#expected_result_simple.pop('cmd_|-J_|-echo J_|-run')
#ret = self.run_function('state.sls', mods='requisites.prereq_simple_nolist')
#for item, descr in ret.iteritems():
# result[item] = {
# '__run_num__': descr['__run_num__'],
# 'comment': descr['comment'],
# 'result': descr['result']
# }
#self.assertEqual(expected_result_simple, result)
result = {}
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ret = self.run_function('state.sls', mods='requisites.prereq_simple2')
for item, descr in ret.iteritems():
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result[item] = {
'__run_num__': descr['__run_num__'],
'comment': descr['comment'],
'result': descr['result']
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}
self.assertEqual(expected_result_simple2, result)
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#ret = self.run_function('state.sls', mods='requisites.prereq_error_nolist')
#self.assertEqual(
# ret,
# ['Cannot extend ID Z in "base:requisites.prereq_error_nolist".'
# + ' It is not part of the high state.']
#)
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ret = self.run_function('state.sls', mods='requisites.prereq_compile_error1')
self.assertEqual(
ret['cmd_|-B_|-echo B_|-run']['comment'],
'The following requisites were not found:\n'
+ ' prereq:\n'
+ ' foobar: A\n'
)
ret = self.run_function('state.sls', mods='requisites.prereq_compile_error2')
self.assertEqual(
ret['cmd_|-B_|-echo B_|-run']['comment'],
'The following requisites were not found:\n'
+ ' prereq:\n'
+ ' foobar: C\n'
)
# issue #8211, chaining complex prereq & prereq_in
# TODO: Actually this test fails
#result = {}
#ret = self.run_function('state.sls', mods='requisites.prereq_complex')
#for item, descr in ret.iteritems():
# result[item] = {
# '__run_num__': descr['__run_num__'],
# 'comment': descr['comment'],
# 'result': descr['result']
# }
#self.assertEqual(expected_result_complex, result)
# issue #8210 : prereq recursion undetected
# TODO: this test fails
#ret = self.run_function('state.sls', mods='requisites.prereq_recursion_error')
#self.assertEqual(
# ret,
# ['A recursive requisite was found, SLS "requisites.prereq_recursion_error" ID "B" ID "A"']
#)
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def test_requisites_use(self):
'''
Call sls file containing several use_in and use.
'''
# TODO issue #8235 & #8774 some examples are still commented in the test file
ret = self.run_function('state.sls', mods='requisites.use')
for item, descr in ret.iteritems():
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self.assertEqual(descr['comment'], 'onlyif execution failed')
# TODO: issue #8802 : use recursions undetected
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# issue is closed as use does not actually inherit requisites
# if chain-use is added after #8774 resolution theses tests would maybe become useful
#ret = self.run_function('state.sls', mods='requisites.use_recursion')
#self.assertEqual(ret, [
# 'A recursive requisite was found, SLS "requisites.use_recursion"'
# + ' ID "B" ID "A"'
#])
#ret = self.run_function('state.sls', mods='requisites.use_recursion2')
#self.assertEqual(ret, [
# 'A recursive requisite was found, SLS "requisites.use_recursion2"'
# + ' ID "C" ID "A"'
#])
#ret = self.run_function('state.sls', mods='requisites.use_auto_recursion')
#self.assertEqual(ret, [
# 'A recursive requisite was found, SLS "requisites.use_recursion"'
# + ' ID "A" ID "A"'
#])
def test_get_file_from_env_in_top_match(self):
tgt = os.path.join(integration.SYS_TMP_DIR, 'prod-cheese-file')
try:
ret = self.run_function(
'state.highstate', minion_tgt='sub_minion'
)
self.assertSaltTrueReturn(ret)
self.assertTrue(os.path.isfile(tgt))
with salt.utils.fopen(tgt, 'r') as cheese:
data = cheese.read()
self.assertIn('Gromit', data)
self.assertIn('Comte', data)
finally:
os.unlink(tgt)
if __name__ == '__main__':
from integration import run_tests
run_tests(StateModuleTest)