# -*- coding: utf-8 -*- """ :codeauthor: Pedro Algarvio (pedro@algarvio.me) ==================================== Custom Salt TestCase Implementations ==================================== Custom reusable :class:`TestCase` implementations. """ from __future__ import absolute_import, unicode_literals import errno import logging import os import re import subprocess import sys import tempfile import textwrap import time from datetime import datetime, timedelta import salt.utils.files from salt.ext import six from salt.ext.six.moves import cStringIO from tests.support.cli_scripts import ScriptPathMixin from tests.support.helpers import RedirectStdStreams, requires_sshd_server from tests.support.mixins import ( AdaptedConfigurationTestCaseMixin, SaltClientTestCaseMixin, SaltMultimasterClientTestCaseMixin, ) from tests.support.paths import CODE_DIR, INTEGRATION_TEST_DIR, PYEXEC, SCRIPT_DIR from tests.support.processes import terminate_process from tests.support.runtests import RUNTIME_VARS from tests.support.unit import TestCase STATE_FUNCTION_RUNNING_RE = re.compile( r"""The function (?:"|')(?P.*)(?:"|') is running as PID """ r"(?P[\d]+) and was started at (?P.*) with jid (?P[\d]+)" ) log = logging.getLogger(__name__) class ShellTestCase(TestCase, AdaptedConfigurationTestCaseMixin, ScriptPathMixin): """ Execute a test for a shell command """ def run_salt(self, arg_str, with_retcode=False, catch_stderr=False, timeout=15): r''' Run the ``salt`` CLI tool with the provided arguments .. code-block:: python class MatchTest(ShellTestCase): def test_list(self): """ test salt -L matcher """ data = self.run_salt('-L minion test.ping') data = '\n'.join(data) self.assertIn('minion', data) ''' arg_str = "-c {0} -t {1} {2}".format( RUNTIME_VARS.TMP_CONF_DIR, timeout, arg_str ) return self.run_script( "salt", arg_str, with_retcode=with_retcode, catch_stderr=catch_stderr, timeout=timeout, ) def run_ssh( self, arg_str, with_retcode=False, timeout=25, catch_stderr=False, wipe=False, raw=False, roster_file=None, ssh_opts="", **kwargs ): """ Execute salt-ssh """ if not roster_file: roster_file = os.path.join(RUNTIME_VARS.TMP_CONF_DIR, "roster") arg_str = "{0} {1} -c {2} -i --priv {3} --roster-file {4} {5} localhost {6} --out=json".format( " -W" if wipe else "", " -r" if raw else "", RUNTIME_VARS.TMP_CONF_DIR, os.path.join(RUNTIME_VARS.TMP_CONF_DIR, "key_test"), roster_file, ssh_opts, arg_str, ) return self.run_script( "salt-ssh", arg_str, with_retcode=with_retcode, catch_stderr=catch_stderr, raw=True, timeout=timeout, **kwargs ) def run_run( self, arg_str, with_retcode=False, catch_stderr=False, asynchronous=False, timeout=60, config_dir=None, **kwargs ): """ Execute salt-run """ asynchronous = kwargs.get("async", asynchronous) arg_str = "-c {0}{async_flag} -t {timeout} {1}".format( config_dir or RUNTIME_VARS.TMP_CONF_DIR, arg_str, timeout=timeout, async_flag=" --async" if asynchronous else "", ) return self.run_script( "salt-run", arg_str, with_retcode=with_retcode, catch_stderr=catch_stderr, timeout=timeout, ) def run_run_plus(self, fun, *arg, **kwargs): """ Execute the runner function and return the return data and output in a dict """ ret = {"fun": fun} # Late import import salt.config import salt.output import salt.runner from salt.ext.six.moves import cStringIO opts = salt.config.master_config(self.get_config_file_path("master")) opts_arg = list(arg) if kwargs: opts_arg.append({"__kwarg__": True}) opts_arg[-1].update(kwargs) opts.update({"doc": False, "fun": fun, "arg": opts_arg}) with RedirectStdStreams(): runner = salt.runner.Runner(opts) ret["return"] = runner.run() try: ret["jid"] = runner.jid except AttributeError: ret["jid"] = None # Compile output # TODO: Support outputters other than nested opts["color"] = False opts["output_file"] = cStringIO() try: salt.output.display_output(ret["return"], opts=opts) ret["out"] = opts["output_file"].getvalue() finally: opts["output_file"].close() return ret def run_key(self, arg_str, catch_stderr=False, with_retcode=False): """ Execute salt-key """ arg_str = "-c {0} {1}".format(RUNTIME_VARS.TMP_CONF_DIR, arg_str) return self.run_script( "salt-key", arg_str, catch_stderr=catch_stderr, with_retcode=with_retcode ) def run_cp(self, arg_str, with_retcode=False, catch_stderr=False): """ Execute salt-cp """ arg_str = "--config-dir {0} {1}".format(RUNTIME_VARS.TMP_CONF_DIR, arg_str) return self.run_script( "salt-cp", arg_str, with_retcode=with_retcode, catch_stderr=catch_stderr ) def run_call( self, arg_str, with_retcode=False, catch_stderr=False, local=False, timeout=15, config_dir=None, ): if not config_dir: config_dir = RUNTIME_VARS.TMP_MINION_CONF_DIR arg_str = "{0} --config-dir {1} {2}".format( "--local" if local else "", config_dir, arg_str ) return self.run_script( "salt-call", arg_str, with_retcode=with_retcode, catch_stderr=catch_stderr, timeout=timeout, ) def assertRunCall(self, arg_str, **kwargs): """ Assert no error code was returned with run_call, give stderr as error message """ stdout, stderr, retcode = self.run_call( arg_str, catch_stderr=True, with_retcode=True, **kwargs ) if stderr: log.warning(stderr) self.assertFalse(retcode, stderr) return stdout def run_cloud(self, arg_str, catch_stderr=False, timeout=None): """ Execute salt-cloud """ arg_str = "-c {0} {1}".format(RUNTIME_VARS.TMP_CONF_DIR, arg_str) return self.run_script("salt-cloud", arg_str, catch_stderr, timeout) def run_script( self, script, arg_str, catch_stderr=False, with_retcode=False, catch_timeout=False, # FIXME A timeout of zero or disabling timeouts may not return results! timeout=15, raw=False, popen_kwargs=None, log_output=None, **kwargs ): """ Execute a script with the given argument string The ``log_output`` argument is ternary, it can be True, False, or None. If the value is boolean, then it forces the results to either be logged or not logged. If it is None, then the return code of the subprocess determines whether or not to log results. """ import salt.utils.platform script_path = self.get_script_path(script) if not os.path.isfile(script_path): return False popen_kwargs = popen_kwargs or {} if salt.utils.platform.is_windows(): cmd = "python " if "cwd" not in popen_kwargs: popen_kwargs["cwd"] = os.getcwd() if "env" not in popen_kwargs: popen_kwargs["env"] = os.environ.copy() if sys.version_info[0] < 3: popen_kwargs["env"][b"PYTHONPATH"] = CODE_DIR.encode() else: popen_kwargs["env"]["PYTHONPATH"] = CODE_DIR else: cmd = "PYTHONPATH=" python_path = os.environ.get("PYTHONPATH", None) if python_path is not None: cmd += "{0}:".format(python_path) if sys.version_info[0] < 3: cmd += "{0} ".format(":".join(sys.path[1:])) else: cmd += "{0} ".format(":".join(sys.path[0:])) cmd += "python{0}.{1} ".format(*sys.version_info) cmd += "{0} ".format(script_path) cmd += "{0} ".format(arg_str) if kwargs: # late import import salt.utils.json for key, value in kwargs.items(): cmd += "'{0}={1} '".format(key, salt.utils.json.dumps(value)) tmp_file = tempfile.SpooledTemporaryFile() popen_kwargs = dict( {"shell": True, "stdout": tmp_file, "universal_newlines": True}, **popen_kwargs ) if catch_stderr is True: popen_kwargs["stderr"] = subprocess.PIPE if not sys.platform.lower().startswith("win"): popen_kwargs["close_fds"] = True def detach_from_parent_group(): # detach from parent group (no more inherited signals!) os.setpgrp() popen_kwargs["preexec_fn"] = detach_from_parent_group def format_return(retcode, stdout, stderr=None, timed_out=False): """ DRY helper to log script result if it failed, and then return the desired output based on whether or not stderr was desired, and wither or not a retcode was desired. """ log_func = log.debug if timed_out: log.error( "run_script timed out after %d seconds (process killed)", timeout ) log_func = log.error if log_output is True or timed_out or (log_output is None and retcode != 0): log_func( "run_script results for: %s %s\n" "return code: %s\n" "stdout:\n" "%s\n\n" "stderr:\n" "%s", script, arg_str, retcode, stdout, stderr, ) stdout = stdout or "" stderr = stderr or "" if not raw: stdout = stdout.splitlines() stderr = stderr.splitlines() ret = [stdout] if catch_stderr: ret.append(stderr) if with_retcode: ret.append(retcode) if catch_timeout: ret.append(timed_out) return ret[0] if len(ret) == 1 else tuple(ret) process = subprocess.Popen(cmd, **popen_kwargs) if timeout is not None: stop_at = datetime.now() + timedelta(seconds=timeout) term_sent = False while True: process.poll() time.sleep(0.1) if datetime.now() <= stop_at: # We haven't reached the timeout yet if process.returncode is not None: break else: terminate_process(process.pid, kill_children=True) return format_return( process.returncode, *process.communicate(), timed_out=True ) tmp_file.seek(0) if sys.version_info >= (3,): try: out = tmp_file.read().decode(__salt_system_encoding__) except (NameError, UnicodeDecodeError): # Let's cross our fingers and hope for the best out = tmp_file.read().decode("utf-8") else: out = tmp_file.read() if catch_stderr: if sys.version_info < (2, 7): # On python 2.6, the subprocess'es communicate() method uses # select which, is limited by the OS to 1024 file descriptors # We need more available descriptors to run the tests which # need the stderr output. # So instead of .communicate() we wait for the process to # finish, but, as the python docs state "This will deadlock # when using stdout=PIPE and/or stderr=PIPE and the child # process generates enough output to a pipe such that it # blocks waiting for the OS pipe buffer to accept more data. # Use communicate() to avoid that." <- a catch, catch situation # # Use this work around were it's needed only, python 2.6 process.wait() err = process.stderr.read() else: _, err = process.communicate() # Force closing stderr/stdout to release file descriptors if process.stdout is not None: process.stdout.close() if process.stderr is not None: process.stderr.close() # pylint: disable=maybe-no-member try: return format_return(process.returncode, out, err or "") finally: try: if os.path.exists(tmp_file.name): if isinstance(tmp_file.name, six.string_types): # tmp_file.name is an int when using SpooledTemporaryFiles # int types cannot be used with os.remove() in Python 3 os.remove(tmp_file.name) else: # Clean up file handles tmp_file.close() process.terminate() except OSError as err: # process already terminated pass # pylint: enable=maybe-no-member # TODO Remove this? process.communicate() if process.stdout is not None: process.stdout.close() try: return format_return(process.returncode, out) finally: try: if os.path.exists(tmp_file.name): if isinstance(tmp_file.name, six.string_types): # tmp_file.name is an int when using SpooledTemporaryFiles # int types cannot be used with os.remove() in Python 3 os.remove(tmp_file.name) else: # Clean up file handles tmp_file.close() process.terminate() except OSError as err: # process already terminated pass class MultiMasterTestShellCase(ShellTestCase): """ Execute a test for a shell command when running multi-master tests """ @property def config_dir(self): return RUNTIME_VARS.TMP_MM_CONF_DIR class ShellCase(ShellTestCase, AdaptedConfigurationTestCaseMixin, ScriptPathMixin): """ Execute a test for a shell command """ _code_dir_ = CODE_DIR _script_dir_ = SCRIPT_DIR _python_executable_ = PYEXEC RUN_TIMEOUT = 500 def chdir(self, dirname): try: os.chdir(dirname) except OSError: os.chdir(INTEGRATION_TEST_DIR) def run_salt( # pylint: disable=arguments-differ self, arg_str, with_retcode=False, catch_stderr=False, timeout=RUN_TIMEOUT, popen_kwargs=None, ): """ Execute salt """ arg_str = "-c {0} -t {1} {2}".format( RUNTIME_VARS.TMP_CONF_DIR, timeout, arg_str ) ret = self.run_script( "salt", arg_str, with_retcode=with_retcode, catch_stderr=catch_stderr, timeout=timeout, popen_kwargs=popen_kwargs, ) log.debug("Result of run_salt for command '%s': %s", arg_str, ret) return ret def run_spm( self, arg_str, with_retcode=False, catch_stderr=False, timeout=RUN_TIMEOUT ): # pylint: disable=arguments-differ """ Execute spm """ ret = self.run_script( "spm", arg_str, with_retcode=with_retcode, catch_stderr=catch_stderr, timeout=timeout, ) log.debug("Result of run_spm for command '%s': %s", arg_str, ret) return ret def run_ssh( # pylint: disable=arguments-differ self, arg_str, with_retcode=False, catch_stderr=False, # pylint: disable=W0221 timeout=RUN_TIMEOUT, wipe=True, raw=False, roster_file=None, ssh_opts="", **kwargs ): """ Execute salt-ssh """ if not roster_file: roster_file = os.path.join(RUNTIME_VARS.TMP_CONF_DIR, "roster") arg_str = "{0} -ldebug{1} -c {2} -i --priv {3} --roster-file {4} {5} --out=json localhost {6}".format( " -W" if wipe else "", " -r" if raw else "", RUNTIME_VARS.TMP_CONF_DIR, os.path.join(RUNTIME_VARS.TMP_CONF_DIR, "key_test"), roster_file, ssh_opts, arg_str, ) ret = self.run_script( "salt-ssh", arg_str, with_retcode=with_retcode, catch_stderr=catch_stderr, timeout=timeout, raw=True, **kwargs ) log.debug("Result of run_ssh for command '%s %s': %s", arg_str, kwargs, ret) return ret def run_run( self, arg_str, with_retcode=False, catch_stderr=False, asynchronous=False, timeout=RUN_TIMEOUT, config_dir=None, **kwargs ): """ Execute salt-run """ asynchronous = kwargs.get("async", asynchronous) arg_str = "-c {0}{async_flag} -t {timeout} {1}".format( config_dir or RUNTIME_VARS.TMP_CONF_DIR, arg_str, timeout=timeout, async_flag=" --async" if asynchronous else "", ) ret = self.run_script( "salt-run", arg_str, with_retcode=with_retcode, catch_stderr=catch_stderr, timeout=timeout + 10, ) log.debug("Result of run_run for command '%s': %s", arg_str, ret) return ret def run_run_plus(self, fun, *arg, **kwargs): """ Execute the runner function and return the return data and output in a dict """ # Late import import salt.runner import salt.output ret = {"fun": fun} from_scratch = bool(kwargs.pop("__reload_config", False)) # Have to create an empty dict and then update it, as the result from # self.get_config() is an ImmutableDict which cannot be updated. opts = {} opts.update(self.get_config("client_config", from_scratch=from_scratch)) opts_arg = list(arg) if kwargs: opts_arg.append({"__kwarg__": True}) opts_arg[-1].update(kwargs) opts.update({"doc": False, "fun": fun, "arg": opts_arg}) with RedirectStdStreams(): runner = salt.runner.Runner(opts) ret["return"] = runner.run() try: ret["jid"] = runner.jid except AttributeError: ret["jid"] = None # Compile output # TODO: Support outputters other than nested opts["color"] = False opts["output_file"] = cStringIO() try: salt.output.display_output(ret["return"], opts=opts) ret["out"] = opts["output_file"].getvalue().splitlines() finally: opts["output_file"].close() log.debug( "Result of run_run_plus for fun '%s' with arg '%s': %s", fun, opts_arg, ret ) return ret def run_key( # pylint: disable=arguments-differ self, arg_str, catch_stderr=False, with_retcode=False, timeout=RUN_TIMEOUT, ): """ Execute salt-key """ arg_str = "-c {0} {1}".format(RUNTIME_VARS.TMP_CONF_DIR, arg_str) ret = self.run_script( "salt-key", arg_str, catch_stderr=catch_stderr, with_retcode=with_retcode, timeout=timeout, ) log.debug("Result of run_key for command '%s': %s", arg_str, ret) return ret def run_cp( # pylint: disable=arguments-differ self, arg_str, with_retcode=False, catch_stderr=False, timeout=RUN_TIMEOUT, ): """ Execute salt-cp """ # Note: not logging result of run_cp because it will log a bunch of # bytes which will not be very helpful. arg_str = "--config-dir {0} {1}".format(RUNTIME_VARS.TMP_CONF_DIR, arg_str) return self.run_script( "salt-cp", arg_str, with_retcode=with_retcode, catch_stderr=catch_stderr, timeout=timeout, ) def run_call( self, arg_str, with_retcode=False, catch_stderr=False, local=False, timeout=RUN_TIMEOUT, config_dir=None, ): """ Execute salt-call. """ if not config_dir: config_dir = RUNTIME_VARS.TMP_MINION_CONF_DIR arg_str = "{0} --config-dir {1} {2}".format( "--local" if local else "", config_dir, arg_str ) ret = self.run_script( "salt-call", arg_str, with_retcode=with_retcode, catch_stderr=catch_stderr, timeout=timeout, ) log.debug("Result of run_call for command '%s': %s", arg_str, ret) return ret # pylint: enable=arguments-differ def run_cloud(self, arg_str, catch_stderr=False, timeout=RUN_TIMEOUT): """ Execute salt-cloud """ arg_str = "-c {0} {1}".format(RUNTIME_VARS.TMP_CONF_DIR, arg_str) ret = self.run_script("salt-cloud", arg_str, catch_stderr, timeout=timeout) log.debug("Result of run_cloud for command '%s': %s", arg_str, ret) return ret class SPMTestUserInterface(object): """ Test user interface to SPMClient """ def __init__(self): self._status = [] self._confirm = [] self._error = [] def status(self, msg): self._status.append(msg) def confirm(self, action): self._confirm.append(action) def error(self, msg): self._error.append(msg) class SPMCase(TestCase, AdaptedConfigurationTestCaseMixin): """ Class for handling spm commands """ def _spm_build_files(self, config): self.formula_dir = os.path.join( " ".join(config["file_roots"]["base"]), "formulas" ) self.formula_sls_dir = os.path.join(self.formula_dir, "apache") self.formula_sls = os.path.join(self.formula_sls_dir, "apache.sls") self.formula_file = os.path.join(self.formula_dir, "FORMULA") dirs = [self.formula_dir, self.formula_sls_dir] for f_dir in dirs: os.makedirs(f_dir) with salt.utils.files.fopen(self.formula_sls, "w") as fp: fp.write( textwrap.dedent( """\ install-apache: pkg.installed: - name: apache2 """ ) ) with salt.utils.files.fopen(self.formula_file, "w") as fp: fp.write( textwrap.dedent( """\ name: apache os: RedHat, Debian, Ubuntu, Suse, FreeBSD os_family: RedHat, Debian, Suse, FreeBSD version: 201506 release: 2 summary: Formula for installing Apache description: Formula for installing Apache """ ) ) def _spm_config(self, assume_yes=True): self._tmp_spm = tempfile.mkdtemp() config = self.get_temp_config( "minion", **{ "spm_logfile": os.path.join(self._tmp_spm, "log"), "spm_repos_config": os.path.join(self._tmp_spm, "etc", "spm.repos"), "spm_cache_dir": os.path.join(self._tmp_spm, "cache"), "spm_build_dir": os.path.join(self._tmp_spm, "build"), "spm_build_exclude": ["apache/.git"], "spm_db_provider": "sqlite3", "spm_files_provider": "local", "spm_db": os.path.join(self._tmp_spm, "packages.db"), "extension_modules": os.path.join(self._tmp_spm, "modules"), "file_roots": {"base": [self._tmp_spm]}, "formula_path": os.path.join(self._tmp_spm, "salt"), "pillar_path": os.path.join(self._tmp_spm, "pillar"), "reactor_path": os.path.join(self._tmp_spm, "reactor"), "assume_yes": True if assume_yes else False, "force": False, "verbose": False, "cache": "localfs", "cachedir": os.path.join(self._tmp_spm, "cache"), "spm_repo_dups": "ignore", "spm_share_dir": os.path.join(self._tmp_spm, "share"), } ) import salt.utils.yaml if not os.path.isdir(config["formula_path"]): os.makedirs(config["formula_path"]) with salt.utils.files.fopen(os.path.join(self._tmp_spm, "spm"), "w") as fp: salt.utils.yaml.safe_dump(config, fp) return config def _spm_create_update_repo(self, config): build_spm = self.run_spm("build", self.config, self.formula_dir) c_repo = self.run_spm("create_repo", self.config, self.config["spm_build_dir"]) repo_conf_dir = self.config["spm_repos_config"] + ".d" os.makedirs(repo_conf_dir) with salt.utils.files.fopen(os.path.join(repo_conf_dir, "spm.repo"), "w") as fp: fp.write( textwrap.dedent( """\ local_repo: url: file://{0} """.format( self.config["spm_build_dir"] ) ) ) u_repo = self.run_spm("update_repo", self.config) def _spm_client(self, config): import salt.spm self.ui = SPMTestUserInterface() client = salt.spm.SPMClient(self.ui, config) return client def run_spm(self, cmd, config, arg=None): client = self._spm_client(config) client.run([cmd, arg]) client._close() return self.ui._status class ModuleCase(TestCase, SaltClientTestCaseMixin): """ Execute a module function """ def wait_for_all_jobs(self, minions=("minion", "sub_minion",), sleep=0.3): """ Wait for all jobs currently running on the list of minions to finish """ for minion in minions: while True: ret = self.run_function( "saltutil.running", minion_tgt=minion, timeout=300 ) if ret: log.debug("Waiting for minion's jobs: %s", minion) time.sleep(sleep) else: break def minion_run(self, _function, *args, **kw): """ Run a single salt function on the 'minion' target and condition the return down to match the behavior of the raw function call """ return self.run_function(_function, args, **kw) def run_function( self, function, arg=(), minion_tgt="minion", timeout=300, master_tgt=None, **kwargs ): """ Run a single salt function and condition the return down to match the behavior of the raw function call """ known_to_return_none = ( "data.get", "file.chown", "file.chgrp", "pkg.refresh_db", "ssh.recv_known_host_entries", "time.sleep", ) if "f_arg" in kwargs: kwargs["arg"] = kwargs.pop("f_arg") if "f_timeout" in kwargs: kwargs["timeout"] = kwargs.pop("f_timeout") client = self.client if master_tgt is None else self.clients[master_tgt] log.debug( "Running client.cmd(minion_tgt=%r, function=%r, arg=%r, timeout=%r, kwarg=%r)", minion_tgt, function, arg, timeout, kwargs, ) orig = client.cmd(minion_tgt, function, arg, timeout=timeout, kwarg=kwargs) if RUNTIME_VARS.PYTEST_SESSION: fail_or_skip_func = self.fail else: fail_or_skip_func = self.skipTest if minion_tgt not in orig: fail_or_skip_func( "WARNING(SHOULD NOT HAPPEN #1935): Failed to get a reply " "from the minion '{0}'. Command output: {1}".format(minion_tgt, orig) ) elif orig[minion_tgt] is None and function not in known_to_return_none: fail_or_skip_func( "WARNING(SHOULD NOT HAPPEN #1935): Failed to get '{0}' from " "the minion '{1}'. Command output: {2}".format( function, minion_tgt, orig ) ) # Try to match stalled state functions orig[minion_tgt] = self._check_state_return(orig[minion_tgt]) return orig[minion_tgt] def run_state(self, function, **kwargs): """ Run the state.single command and return the state return structure """ ret = self.run_function("state.single", [function], **kwargs) return self._check_state_return(ret) def _check_state_return(self, ret): if isinstance(ret, dict): # This is the supposed return format for state calls return ret if isinstance(ret, list): jids = [] # These are usually errors for item in ret[:]: if not isinstance(item, six.string_types): # We don't know how to handle this continue match = STATE_FUNCTION_RUNNING_RE.match(item) if not match: # We don't know how to handle this continue jid = match.group("jid") if jid in jids: continue jids.append(jid) job_data = self.run_function("saltutil.find_job", [jid]) job_kill = self.run_function("saltutil.kill_job", [jid]) msg = ( "A running state.single was found causing a state lock. " "Job details: '{0}' Killing Job Returned: '{1}'".format( job_data, job_kill ) ) ret.append( "[TEST SUITE ENFORCED]{0}" "[/TEST SUITE ENFORCED]".format(msg) ) return ret class MultimasterModuleCase(ModuleCase, SaltMultimasterClientTestCaseMixin): """ Execute a module function """ def run_function( self, function, arg=(), minion_tgt="mm-minion", timeout=300, master_tgt="mm-master", **kwargs ): """ Run a single salt function and condition the return down to match the behavior of the raw function call """ known_to_return_none = ( "data.get", "file.chown", "file.chgrp", "pkg.refresh_db", "ssh.recv_known_host_entries", "time.sleep", ) if minion_tgt == "mm-sub-minion": known_to_return_none += ("mine.update",) if "f_arg" in kwargs: kwargs["arg"] = kwargs.pop("f_arg") if "f_timeout" in kwargs: kwargs["timeout"] = kwargs.pop("f_timeout") if master_tgt is None: client = self.clients["mm-master"] elif isinstance(master_tgt, int): client = self.clients[list(self.clients)[master_tgt]] else: client = self.clients[master_tgt] orig = client.cmd(minion_tgt, function, arg, timeout=timeout, kwarg=kwargs) if RUNTIME_VARS.PYTEST_SESSION: fail_or_skip_func = self.fail else: fail_or_skip_func = self.skipTest if minion_tgt not in orig: fail_or_skip_func( "WARNING(SHOULD NOT HAPPEN #1935): Failed to get a reply " "from the minion '{0}'. Command output: {1}".format(minion_tgt, orig) ) elif orig[minion_tgt] is None and function not in known_to_return_none: fail_or_skip_func( "WARNING(SHOULD NOT HAPPEN #1935): Failed to get '{0}' from " "the minion '{1}'. Command output: {2}".format( function, minion_tgt, orig ) ) # Try to match stalled state functions orig[minion_tgt] = self._check_state_return(orig[minion_tgt]) return orig[minion_tgt] def run_function_all_masters( self, function, arg=(), minion_tgt="mm-minion", timeout=300, **kwargs ): """ Run a single salt function from all the masters in multimaster environment and condition the return down to match the behavior of the raw function call """ ret = [] for master_id in self.clients: ret.append( self.run_function( function, arg=arg, minion_tgt=minion_tgt, timeout=timeout, master_tgt=master_id, **kwargs ) ) return ret class SyndicCase(TestCase, SaltClientTestCaseMixin): """ Execute a syndic based execution test """ _salt_client_config_file_name_ = "syndic_master" def run_function(self, function, arg=(), timeout=90): """ Run a single salt function and condition the return down to match the behavior of the raw function call """ orig = self.client.cmd("minion", function, arg, timeout=timeout) if RUNTIME_VARS.PYTEST_SESSION: fail_or_skip_func = self.fail else: fail_or_skip_func = self.skipTest if "minion" not in orig: fail_or_skip_func( "WARNING(SHOULD NOT HAPPEN #1935): Failed to get a reply " "from the minion. Command output: {0}".format(orig) ) return orig["minion"] @requires_sshd_server class SSHCase(ShellCase): """ Execute a command via salt-ssh """ def _arg_str(self, function, arg): return "{0} {1}".format(function, " ".join(arg)) def run_function( self, function, arg=(), timeout=180, wipe=True, raw=False, **kwargs ): """ We use a 180s timeout here, which some slower systems do end up needing """ ret = self.run_ssh( self._arg_str(function, arg), timeout=timeout, wipe=wipe, raw=raw, **kwargs ) log.debug( "SSHCase run_function executed %s with arg %s and kwargs %s", function, arg, kwargs, ) log.debug("SSHCase JSON return: %s", ret) # Late import import salt.utils.json try: return salt.utils.json.loads(ret)["localhost"] except Exception: # pylint: disable=broad-except return ret def custom_roster(self, new_roster, data): """ helper method to create a custom roster to use for a ssh test """ roster = os.path.join(RUNTIME_VARS.TMP_CONF_DIR, "roster") with salt.utils.files.fopen(roster, "r") as fp_: conf = salt.utils.yaml.safe_load(fp_) conf["localhost"].update(data) with salt.utils.files.fopen(new_roster, "w") as fp_: salt.utils.yaml.safe_dump(conf, fp_) class ClientCase(AdaptedConfigurationTestCaseMixin, TestCase): """ A base class containing relevant options for starting the various Salt Python API entrypoints """ def get_opts(self): # Late import import salt.config return salt.config.client_config(self.get_config_file_path("master")) def mkdir_p(self, path): try: os.makedirs(path) except OSError as exc: # Python >2.5 if exc.errno == errno.EEXIST and os.path.isdir(path): pass else: raise