# (c) 2012-2014, Michael DeHaan # # This file is part of Ansible # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see . # Make coding more python3-ish from __future__ import (absolute_import, division, print_function) __metaclass__ = type import base64 import json import os import pipes import random import re import stat import tempfile import time from abc import ABCMeta, abstractmethod from ansible.compat.six import binary_type, text_type, iteritems, with_metaclass from ansible import constants as C from ansible.errors import AnsibleError, AnsibleConnectionFailure from ansible.executor.module_common import modify_module from ansible.parsing.utils.jsonify import jsonify from ansible.utils.unicode import to_bytes, to_unicode try: from __main__ import display except ImportError: from ansible.utils.display import Display display = Display() class ActionBase(with_metaclass(ABCMeta, object)): ''' This class is the base class for all action plugins, and defines code common to all actions. The base class handles the connection by putting/getting files and executing commands based on the current action in use. ''' def __init__(self, task, connection, play_context, loader, templar, shared_loader_obj): self._task = task self._connection = connection self._play_context = play_context self._loader = loader self._templar = templar self._shared_loader_obj = shared_loader_obj # Backwards compat: self._display isn't really needed, just import the global display and use that. self._display = display self._supports_check_mode = True @abstractmethod def run(self, tmp=None, task_vars=None): """ Action Plugins should implement this method to perform their tasks. Everything else in this base class is a helper method for the action plugin to do that. :kwarg tmp: Temporary directory. Sometimes an action plugin sets up a temporary directory and then calls another module. This parameter allows us to reuse the same directory for both. :kwarg task_vars: The variables (host vars, group vars, config vars, etc) associated with this task. :returns: dictionary of results from the module Implementors of action modules may find the following variables especially useful: * Module parameters. These are stored in self._task.args """ # store the module invocation details into the results results = {} if self._task.async == 0: results['invocation'] = dict( module_name = self._task.action, module_args = self._task.args, ) return results def _configure_module(self, module_name, module_args, task_vars=None): ''' Handles the loading and templating of the module code through the modify_module() function. ''' if task_vars is None: task_vars = dict() # Search module path(s) for named module. for mod_type in self._connection.module_implementation_preferences: # Check to determine if PowerShell modules are supported, and apply # some fixes (hacks) to module name + args. if mod_type == '.ps1': # win_stat, win_file, and win_copy are not just like their # python counterparts but they are compatible enough for our # internal usage if module_name in ('stat', 'file', 'copy') and self._task.action != module_name: module_name = 'win_%s' % module_name # Remove extra quotes surrounding path parameters before sending to module. if module_name in ('win_stat', 'win_file', 'win_copy', 'slurp') and module_args and hasattr(self._connection._shell, '_unquote'): for key in ('src', 'dest', 'path'): if key in module_args: module_args[key] = self._connection._shell._unquote(module_args[key]) module_path = self._shared_loader_obj.module_loader.find_plugin(module_name, mod_type) if module_path: break else: # This is a for-else: http://bit.ly/1ElPkyg # Use Windows version of ping module to check module paths when # using a connection that supports .ps1 suffixes. We check specifically # for win_ping here, otherwise the code would look for ping.ps1 if '.ps1' in self._connection.module_implementation_preferences: ping_module = 'win_ping' else: ping_module = 'ping' module_path2 = self._shared_loader_obj.module_loader.find_plugin(ping_module, self._connection.module_implementation_preferences) if module_path2 is not None: raise AnsibleError("The module %s was not found in configured module paths" % (module_name)) else: raise AnsibleError("The module %s was not found in configured module paths. " "Additionally, core modules are missing. If this is a checkout, " "run 'git submodule update --init --recursive' to correct this problem." % (module_name)) # insert shared code and arguments into the module (module_data, module_style, module_shebang) = modify_module(module_path, module_args, task_vars=task_vars) return (module_style, module_shebang, module_data) def _compute_environment_string(self): ''' Builds the environment string to be used when executing the remote task. ''' final_environment = dict() if self._task.environment is not None: environments = self._task.environment if not isinstance(environments, list): environments = [ environments ] # the environments as inherited need to be reversed, to make # sure we merge in the parent's values first so those in the # block then task 'win' in precedence environments.reverse() for environment in environments: if environment is None: continue temp_environment = self._templar.template(environment) if not isinstance(temp_environment, dict): raise AnsibleError("environment must be a dictionary, received %s (%s)" % (temp_environment, type(temp_environment))) # very deliberately using update here instead of combine_vars, as # these environment settings should not need to merge sub-dicts final_environment.update(temp_environment) final_environment = self._templar.template(final_environment) return self._connection._shell.env_prefix(**final_environment) def _early_needs_tmp_path(self): ''' Determines if a temp path should be created before the action is executed. ''' return getattr(self, 'TRANSFERS_FILES', False) def _late_needs_tmp_path(self, tmp, module_style): ''' Determines if a temp path is required after some early actions have already taken place. ''' if tmp and "tmp" in tmp: # tmp has already been created return False if not self._connection.has_pipelining or not self._play_context.pipelining or C.DEFAULT_KEEP_REMOTE_FILES or self._play_context.become_method == 'su': # tmp is necessary to store the module source code # or we want to keep the files on the target system return True if module_style != "new": # even when conn has pipelining, old style modules need tmp to store arguments return True return False def _make_tmp_path(self): ''' Create and return a temporary path on a remote box. ''' basefile = 'ansible-tmp-%s-%s' % (time.time(), random.randint(0, 2**48)) use_system_tmp = False if self._play_context.become and self._play_context.become_user != 'root': use_system_tmp = True tmp_mode = None if self._play_context.remote_user != 'root' or self._play_context.become and self._play_context.become_user != 'root': tmp_mode = 0o755 cmd = self._connection._shell.mkdtemp(basefile, use_system_tmp, tmp_mode) result = self._low_level_execute_command(cmd, sudoable=False) # error handling on this seems a little aggressive? if result['rc'] != 0: if result['rc'] == 5: output = 'Authentication failure.' elif result['rc'] == 255 and self._connection.transport in ('ssh',): if self._play_context.verbosity > 3: output = u'SSH encountered an unknown error. The output was:\n%s%s' % (result['stdout'], result['stderr']) else: output = (u'SSH encountered an unknown error during the connection.' ' We recommend you re-run the command using -vvvv, which will enable SSH debugging output to help diagnose the issue') elif u'No space left on device' in result['stderr']: output = result['stderr'] else: output = ('Authentication or permission failure.' ' In some cases, you may have been able to authenticate and did not have permissions on the remote directory.' ' Consider changing the remote temp path in ansible.cfg to a path rooted in "/tmp".' ' Failed command was: %s, exited with result %d' % (cmd, result['rc'])) if 'stdout' in result and result['stdout'] != u'': output = output + u": %s" % result['stdout'] raise AnsibleConnectionFailure(output) try: rc = self._connection._shell.join_path(result['stdout'].strip(), u'').splitlines()[-1] except IndexError: # stdout was empty or just space, set to / to trigger error in next if rc = '/' # Catch failure conditions, files should never be # written to locations in /. if rc == '/': raise AnsibleError('failed to resolve remote temporary directory from %s: `%s` returned empty string' % (basefile, cmd)) return rc def _remove_tmp_path(self, tmp_path): '''Remove a temporary path we created. ''' if tmp_path and "-tmp-" in tmp_path: cmd = self._connection._shell.remove(tmp_path, recurse=True) # If we have gotten here we have a working ssh configuration. # If ssh breaks we could leave tmp directories out on the remote system. self._low_level_execute_command(cmd, sudoable=False) def _transfer_data(self, remote_path, data): ''' Copies the module data out to the temporary module path. ''' if isinstance(data, dict): data = jsonify(data) afd, afile = tempfile.mkstemp() afo = os.fdopen(afd, 'w') try: data = to_bytes(data, errors='strict') afo.write(data) except Exception as e: #raise AnsibleError("failure encoding into utf-8: %s" % str(e)) raise AnsibleError("failure writing module data to temporary file for transfer: %s" % str(e)) afo.flush() afo.close() try: self._connection.put_file(afile, remote_path) finally: os.unlink(afile) return remote_path def _remote_chmod(self, mode, path, sudoable=False): ''' Issue a remote chmod command ''' cmd = self._connection._shell.chmod(mode, path) res = self._low_level_execute_command(cmd, sudoable=sudoable) return res def _remote_checksum(self, path, all_vars): ''' Takes a remote checksum and returns 1 if no file ''' python_interp = all_vars.get('ansible_python_interpreter', 'python') cmd = self._connection._shell.checksum(path, python_interp) data = self._low_level_execute_command(cmd, sudoable=True) try: data2 = data['stdout'].strip().splitlines()[-1] if data2 == u'': # this may happen if the connection to the remote server # failed, so just return "INVALIDCHECKSUM" to avoid errors return "INVALIDCHECKSUM" else: return data2.split()[0] except IndexError: display.warning(u"Calculating checksum failed unusually, please report this to " u"the list so it can be fixed\ncommand: %s\n----\noutput: %s\n----\n" % (to_unicode(cmd), data)) # this will signal that it changed and allow things to keep going return "INVALIDCHECKSUM" def _remote_expand_user(self, path): ''' takes a remote path and performs tilde expansion on the remote host ''' if not path.startswith('~'): # FIXME: Windows paths may start with "~ instead of just ~ return path # FIXME: Can't use os.path.sep for Windows paths. split_path = path.split(os.path.sep, 1) expand_path = split_path[0] if expand_path == '~': if self._play_context.become and self._play_context.become_user: expand_path = '~%s' % self._play_context.become_user cmd = self._connection._shell.expand_user(expand_path) data = self._low_level_execute_command(cmd, sudoable=False) #initial_fragment = utils.last_non_blank_line(data['stdout']) initial_fragment = data['stdout'].strip().splitlines()[-1] if not initial_fragment: # Something went wrong trying to expand the path remotely. Return # the original string return path if len(split_path) > 1: return self._connection._shell.join_path(initial_fragment, *split_path[1:]) else: return initial_fragment def _filter_leading_non_json_lines(self, data): ''' Used to avoid random output from SSH at the top of JSON output, like messages from tcagetattr, or where dropbear spews MOTD on every single command (which is nuts). need to filter anything which starts not with '{', '[', ', '=' or is an empty line. filter only leading lines since multiline JSON is valid. ''' idx = 0 for line in data.splitlines(True): if line.startswith((u'{', u'[')): break idx = idx + len(line) return data[idx:] def _strip_success_message(self, data): ''' Removes the BECOME-SUCCESS message from the data. ''' if data.strip().startswith('BECOME-SUCCESS-'): data = re.sub(r'^((\r)?\n)?BECOME-SUCCESS.*(\r)?\n', '', data) return data def _execute_module(self, module_name=None, module_args=None, tmp=None, task_vars=None, persist_files=False, delete_remote_tmp=True): ''' Transfer and run a module along with its arguments. ''' if task_vars is None: task_vars = dict() # if a module name was not specified for this execution, use # the action from the task if module_name is None: module_name = self._task.action if module_args is None: module_args = self._task.args # set check mode in the module arguments, if required if self._play_context.check_mode: if not self._supports_check_mode: raise AnsibleError("check mode is not supported for this operation") module_args['_ansible_check_mode'] = True else: module_args['_ansible_check_mode'] = False # set no log in the module arguments, if required module_args['_ansible_no_log'] = self._play_context.no_log or C.DEFAULT_NO_TARGET_SYSLOG # set debug in the module arguments, if required module_args['_ansible_debug'] = C.DEFAULT_DEBUG # let module know we are in diff mode module_args['_ansible_diff'] = self._play_context.diff # let module know our verbosity module_args['_ansible_verbosity'] = self._display.verbosity (module_style, shebang, module_data) = self._configure_module(module_name=module_name, module_args=module_args, task_vars=task_vars) if not shebang: raise AnsibleError("module (%s) is missing interpreter line" % module_name) # a remote tmp path may be necessary and not already created remote_module_path = None args_file_path = None if not tmp and self._late_needs_tmp_path(tmp, module_style): tmp = self._make_tmp_path() if tmp: remote_module_filename = self._connection._shell.get_remote_filename(module_name) remote_module_path = self._connection._shell.join_path(tmp, remote_module_filename) if module_style in ['old', 'non_native_want_json']: # we'll also need a temp file to hold our module arguments args_file_path = self._connection._shell.join_path(tmp, 'args') if remote_module_path or module_style != 'new': display.debug("transferring module to remote") self._transfer_data(remote_module_path, module_data) if module_style == 'old': # we need to dump the module args to a k=v string in a file on # the remote system, which can be read and parsed by the module args_data = "" for k,v in iteritems(module_args): args_data += '%s="%s" ' % (k, pipes.quote(text_type(v))) self._transfer_data(args_file_path, args_data) elif module_style == 'non_native_want_json': self._transfer_data(args_file_path, json.dumps(module_args)) display.debug("done transferring module to remote") environment_string = self._compute_environment_string() if tmp and "tmp" in tmp and self._play_context.become and self._play_context.become_user != 'root': # deal with possible umask issues once sudo'ed to other user self._remote_chmod('a+r', remote_module_path) if args_file_path is not None: self._remote_chmod('a+r', args_file_path) cmd = "" in_data = None if self._connection.has_pipelining and self._play_context.pipelining and not C.DEFAULT_KEEP_REMOTE_FILES and module_style == 'new': in_data = module_data else: if remote_module_path: cmd = remote_module_path rm_tmp = None if tmp and "tmp" in tmp and not C.DEFAULT_KEEP_REMOTE_FILES and not persist_files and delete_remote_tmp: if not self._play_context.become or self._play_context.become_user == 'root': # not sudoing or sudoing to root, so can cleanup files in the same step rm_tmp = tmp cmd = self._connection._shell.build_module_command(environment_string, shebang, cmd, arg_path=args_file_path, rm_tmp=rm_tmp) cmd = cmd.strip() sudoable = True if module_name == "accelerate": # always run the accelerate module as the user # specified in the play, not the sudo_user sudoable = False res = self._low_level_execute_command(cmd, sudoable=sudoable, in_data=in_data) if tmp and "tmp" in tmp and not C.DEFAULT_KEEP_REMOTE_FILES and not persist_files and delete_remote_tmp: if self._play_context.become and self._play_context.become_user != 'root': # not sudoing to root, so maybe can't delete files as that other user # have to clean up temp files as original user in a second step cmd2 = self._connection._shell.remove(tmp, recurse=True) self._low_level_execute_command(cmd2, sudoable=False) try: data = json.loads(self._filter_leading_non_json_lines(res.get('stdout', u''))) except ValueError: # not valid json, lets try to capture error data = dict(failed=True, parsed=False) if 'stderr' in res and res['stderr'].startswith(u'Traceback'): data['exception'] = res['stderr'] else: data['msg'] = "MODULE FAILURE" data['module_stdout'] = res.get('stdout', u'') if 'stderr' in res: data['module_stderr'] = res['stderr'] # pre-split stdout into lines, if stdout is in the data and there # isn't already a stdout_lines value there if 'stdout' in data and 'stdout_lines' not in data: data['stdout_lines'] = data.get('stdout', u'').splitlines() display.debug("done with _execute_module (%s, %s)" % (module_name, module_args)) return data def _low_level_execute_command(self, cmd, sudoable=True, in_data=None, executable=C.DEFAULT_EXECUTABLE, encoding_errors='replace'): ''' This is the function which executes the low level shell command, which may be commands to create/remove directories for temporary files, or to run the module code or python directly when pipelining. :kwarg encoding_errors: If the value returned by the command isn't utf-8 then we have to figure out how to transform it to unicode. If the value is just going to be displayed to the user (or discarded) then the default of 'replace' is fine. If the data is used as a key or is going to be written back out to a file verbatim, then this won't work. May have to use some sort of replacement strategy (python3 could use surrogateescape) ''' if executable is not None and self._connection.allow_executable: cmd = executable + ' -c ' + pipes.quote(cmd) display.debug("_low_level_execute_command(): starting") if not cmd: # this can happen with powershell modules when there is no analog to a Windows command (like chmod) display.debug("_low_level_execute_command(): no command, exiting") return dict(stdout='', stderr='') allow_same_user = C.BECOME_ALLOW_SAME_USER same_user = self._play_context.become_user == self._play_context.remote_user if sudoable and self._play_context.become and (allow_same_user or not same_user): display.debug("_low_level_execute_command(): using become for this command") cmd = self._play_context.make_become_cmd(cmd, executable=executable) display.debug("_low_level_execute_command(): executing: %s" % (cmd,)) rc, stdout, stderr = self._connection.exec_command(cmd, in_data=in_data, sudoable=sudoable) # stdout and stderr may be either a file-like or a bytes object. # Convert either one to a text type if isinstance(stdout, binary_type): out = to_unicode(stdout, errors=encoding_errors) elif not isinstance(stdout, text_type): out = to_unicode(b''.join(stdout.readlines()), errors=encoding_errors) else: out = stdout if isinstance(stderr, binary_type): err = to_unicode(stderr, errors=encoding_errors) elif not isinstance(stderr, text_type): err = to_unicode(b''.join(stderr.readlines()), errors=encoding_errors) else: err = stderr if rc is None: rc = 0 display.debug("_low_level_execute_command() done: rc=%d, stdout=%s, stderr=%s" % (rc, stdout, stderr)) return dict(rc=rc, stdout=out, stdout_lines=out.splitlines(), stderr=err) def _get_first_available_file(self, faf, of=None, searchdir='files'): display.deprecated("first_available_file, use with_first_found or lookup('first_found',...) instead") for fn in faf: fnt = self._templar.template(fn) if self._task._role is not None: lead = self._task._role._role_path else: lead = fnt fnd = self._loader.path_dwim_relative(lead, searchdir, fnt) if not os.path.exists(fnd) and of is not None: if self._task._role is not None: lead = self._task._role._role_path else: lead = of fnd = self._loader.path_dwim_relative(lead, searchdir, of) if os.path.exists(fnd): return fnd return None def _get_diff_data(self, destination, source, task_vars, source_file=True): diff = {} display.debug("Going to peek to see if file has changed permissions") peek_result = self._execute_module(module_name='file', module_args=dict(path=destination, diff_peek=True), task_vars=task_vars, persist_files=True) if not('failed' in peek_result and peek_result['failed']) or peek_result.get('rc', 0) == 0: if peek_result['state'] == 'absent': diff['before'] = '' elif peek_result['appears_binary']: diff['dst_binary'] = 1 elif peek_result['size'] > C.MAX_FILE_SIZE_FOR_DIFF: diff['dst_larger'] = C.MAX_FILE_SIZE_FOR_DIFF else: display.debug("Slurping the file %s" % source) dest_result = self._execute_module(module_name='slurp', module_args=dict(path=destination), task_vars=task_vars, persist_files=True) if 'content' in dest_result: dest_contents = dest_result['content'] if dest_result['encoding'] == 'base64': dest_contents = base64.b64decode(dest_contents) else: raise AnsibleError("unknown encoding in content option, failed: %s" % dest_result) diff['before_header'] = destination diff['before'] = dest_contents if source_file: display.debug("Reading local copy of the file %s" % source) try: src = open(source) src_contents = src.read(8192) st = os.stat(source) except Exception as e: raise AnsibleError("Unexpected error while reading source (%s) for diff: %s " % (source, str(e))) if "\x00" in src_contents: diff['src_binary'] = 1 elif st[stat.ST_SIZE] > C.MAX_FILE_SIZE_FOR_DIFF: diff['src_larger'] = C.MAX_FILE_SIZE_FOR_DIFF else: diff['after_header'] = source diff['after'] = src_contents else: display.debug("source of file passed in") diff['after_header'] = 'dynamically generated' diff['after'] = source if self._play_context.no_log and 'after' in diff: diff["after"] = " [[ Diff output has been hidden because 'no_log: true' was specified for this result ]]" return diff