# (c) 2015, Kevin Carter # # 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 . from __future__ import (absolute_import, division, print_function) __metaclass__ = type try: import ConfigParser except ImportError: import configparser as ConfigParser import datetime import io import json import os import pwd import re import time import yaml from ansible.plugins.action import ActionBase from ansible.utils.unicode import to_bytes, to_unicode from ansible import constants as C from ansible import errors CONFIG_TYPES = { 'ini': 'return_config_overrides_ini', 'json': 'return_config_overrides_json', 'yaml': 'return_config_overrides_yaml' } def _convert_2_string(item): """Return byte strings for all items. This will convert everything within a dict, list or unicode string such that the values will be encode('utf-8') where applicable. """ if isinstance(item, dict): # Old style dict comprehension for legacy python support return dict( (_convert_2_string(key), _convert_2_string(value)) for key, value in item.iteritems() ) elif isinstance(item, list): return [_convert_2_string(i) for i in item] elif isinstance(item, tuple): return tuple([_convert_2_string(i) for i in item]) elif isinstance(item, set): return item else: try: return item.encode('utf-8') except AttributeError: return str(item) class MultiKeyDict(dict): """Dictionary class which supports duplicate keys. This class allows for an item to be added into a standard python dictionary however if a key is created more than once the dictionary will convert the singular value to a python set. This set type forces all values to be a string. Example Usage: >>> z = MultiKeyDict() >>> z['a'] = 1 >>> z['b'] = ['a', 'b', 'c'] >>> z['c'] = {'a': 1} >>> print(z) ... {'a': 1, 'b': ['a', 'b', 'c'], 'c': {'a': 1}} >>> z['a'] = 2 >>> print(z) ... {'a': set(['1', '2']), 'c': {'a': 1}, 'b': ['a', 'b', 'c']} """ def __setitem__(self, key, value): if key in self: if isinstance(self[key], set): items = self[key] items.add(str(value)) super(MultiKeyDict, self).__setitem__(key, items) else: items = [str(value), str(self[key])] super(MultiKeyDict, self).__setitem__(key, set(items)) else: return dict.__setitem__(self, key, value) class ConfigTemplateParser(ConfigParser.RawConfigParser): """ConfigParser which supports multi key value. The parser will use keys with multiple variables in a set as a multiple key value within a configuration file. Default Configuration file: [DEFAULT] things = url1 url2 url3 other = 1,2,3 [section1] key = var1 key = var2 key = var3 Example Usage: >>> cp = ConfigTemplateParser(dict_type=MultiKeyDict) >>> cp.read('/tmp/test.ini') ... ['/tmp/test.ini'] >>> cp.get('DEFAULT', 'things') ... \nurl1\nurl2\nurl3 >>> cp.get('DEFAULT', 'other') ... '1,2,3' >>> cp.set('DEFAULT', 'key1', 'var1') >>> cp.get('DEFAULT', 'key1') ... 'var1' >>> cp.get('section1', 'key') ... {'var1', 'var2', 'var3'} >>> cp.set('section1', 'key', 'var4') >>> cp.get('section1', 'key') ... {'var1', 'var2', 'var3', 'var4'} >>> with open('/tmp/test2.ini', 'w') as f: ... cp.write(f) Output file: [DEFAULT] things = url1 url2 url3 key1 = var1 other = 1,2,3 [section1] key = var4 key = var1 key = var3 key = var2 """ def _write(self, fp, section, item, entry): if section: if (item is not None) or (self._optcre == self.OPTCRE): fp.write(entry) else: fp.write(entry) def _write_check(self, fp, key, value, section=False): if isinstance(value, set): for item in value: item = str(item).replace('\n', '\n\t') entry = "%s = %s\n" % (key, item) self._write(fp, section, item, entry) else: if isinstance(value, list): _value = [str(i.replace('\n', '\n\t')) for i in value] entry = '%s = %s\n' % (key, ','.join(_value)) else: entry = '%s = %s\n' % (key, str(value).replace('\n', '\n\t')) self._write(fp, section, value, entry) def write(self, fp): if self._defaults: fp.write("[%s]\n" % 'DEFAULT') for key, value in self._defaults.items(): self._write_check(fp, key=key, value=value) else: fp.write("\n") for section in self._sections: fp.write("[%s]\n" % section) for key, value in self._sections[section].items(): self._write_check(fp, key=key, value=value, section=True) else: fp.write("\n") def _read(self, fp, fpname): cursect = None optname = None lineno = 0 e = None while True: line = fp.readline() if not line: break lineno += 1 if line.strip() == '' or line[0] in '#;': continue if line.split(None, 1)[0].lower() == 'rem' and line[0] in "rR": continue if line[0].isspace() and cursect is not None and optname: value = line.strip() if value: if isinstance(cursect[optname], set): _temp_item = list(cursect[optname]) del cursect[optname] cursect[optname] = _temp_item elif isinstance(cursect[optname], (str, unicode)): _temp_item = [cursect[optname]] del cursect[optname] cursect[optname] = _temp_item cursect[optname].append(value) else: mo = self.SECTCRE.match(line) if mo: sectname = mo.group('header') if sectname in self._sections: cursect = self._sections[sectname] elif sectname == 'DEFAULT': cursect = self._defaults else: cursect = self._dict() self._sections[sectname] = cursect optname = None elif cursect is None: raise ConfigParser.MissingSectionHeaderError( fpname, lineno, line ) else: mo = self._optcre.match(line) if mo: optname, vi, optval = mo.group('option', 'vi', 'value') optname = self.optionxform(optname.rstrip()) if optval is not None: if vi in ('=', ':') and ';' in optval: pos = optval.find(';') if pos != -1 and optval[pos - 1].isspace(): optval = optval[:pos] optval = optval.strip() if optval == '""': optval = '' cursect[optname] = optval else: if not e: e = ConfigParser.ParsingError(fpname) e.append(lineno, repr(line)) if e: raise e all_sections = [self._defaults] all_sections.extend(self._sections.values()) for options in all_sections: for name, val in options.items(): if isinstance(val, list): _temp_item = '\n'.join(val) del options[name] options[name] = _temp_item class ActionModule(ActionBase): TRANSFERS_FILES = True def return_config_overrides_ini(self, config_overrides, resultant): """Returns string value from a modified config file. :param config_overrides: ``dict`` :param resultant: ``str`` || ``unicode`` :returns: ``str`` """ # If there is an exception loading the RawConfigParser The config obj # is loaded again without the extra option. This is being done to # support older python. try: config = ConfigTemplateParser( allow_no_value=True, dict_type=MultiKeyDict ) config.optionxform = str except Exception: config = ConfigTemplateParser(dict_type=MultiKeyDict) config_object = io.BytesIO(str(resultant)) config.readfp(config_object) for section, items in config_overrides.items(): # If the items value is not a dictionary it is assumed that the # value is a default item for this config type. if not isinstance(items, dict): if isinstance(items, list): items = ','.join(_convert_2_string(items)) self._option_write( config, 'DEFAULT', str(section), items ) else: # Attempt to add a section to the config file passing if # an error is raised that is related to the section # already existing. try: config.add_section(section.encode('utf-8')) except (ConfigParser.DuplicateSectionError, ValueError): pass for key, value in items.items(): try: self._option_write(config, section, key, value) except ConfigParser.NoSectionError as exp: error_msg = str(exp) error_msg += ( ' Try being more explicit with your override' 'data. Sections are case sensitive.' ) raise errors.AnsibleModuleError(error_msg) else: config_object.close() resultant_bytesio = io.BytesIO() try: config.write(resultant_bytesio) return resultant_bytesio.getvalue() finally: resultant_bytesio.close() @staticmethod def _option_write(config, section, key, value): config.remove_option(str(section), str(key)) try: if not any(i for i in value.values()): value = set(value) except AttributeError: pass if isinstance(value, set): config.set(str(section), str(key), value) elif isinstance(value, list): config.set(str(section), str(key), ','.join(str(i) for i in value)) else: config.set(str(section), str(key), str(value)) def return_config_overrides_json(self, config_overrides, resultant): """Returns config json Its important to note that file ordering will not be preserved as the information within the json file will be sorted by keys. :param config_overrides: ``dict`` :param resultant: ``str`` || ``unicode`` :returns: ``str`` """ original_resultant = json.loads(resultant) merged_resultant = self._merge_dict( base_items=original_resultant, new_items=config_overrides ) return json.dumps( merged_resultant, indent=4, sort_keys=True ) def return_config_overrides_yaml(self, config_overrides, resultant): """Return config yaml. :param config_overrides: ``dict`` :param resultant: ``str`` || ``unicode`` :returns: ``str`` """ original_resultant = yaml.safe_load(resultant) merged_resultant = self._merge_dict( base_items=original_resultant, new_items=config_overrides ) return yaml.safe_dump( merged_resultant, default_flow_style=False, width=1000, ) def _merge_dict(self, base_items, new_items): """Recursively merge new_items into base_items. :param base_items: ``dict`` :param new_items: ``dict`` :returns: ``dict`` """ for key, value in new_items.iteritems(): if isinstance(value, dict): base_items[key] = self._merge_dict( base_items.get(key, {}), value ) elif not isinstance(value, int) and (',' in value or '\n' in value): base_items[key] = re.split(',|\n', value) base_items[key] = [i.strip() for i in base_items[key] if i] elif isinstance(value, list): if key in base_items and isinstance(base_items[key], list): base_items[key].extend(value) else: base_items[key] = value else: base_items[key] = new_items[key] return base_items def _load_options_and_status(self, task_vars): """Return options and status from module load.""" config_type = self._task.args.get('config_type') if config_type not in ['ini', 'yaml', 'json']: return False, dict( failed=True, msg="No valid [ config_type ] was provided. Valid options are" " ini, yaml, or json." ) # Access to protected method is unavoidable in Ansible searchpath = [self._loader._basedir] faf = self._task.first_available_file if faf: task_file = task_vars.get('_original_file', None, 'templates') source = self._get_first_available_file(faf, task_file) if not source: return False, dict( failed=True, msg="could not find src in first_available_file list" ) else: # Access to protected method is unavoidable in Ansible if self._task._role: file_path = self._task._role._role_path searchpath.insert(1, C.DEFAULT_ROLES_PATH) searchpath.insert(1, self._task._role._role_path) else: file_path = self._loader.get_basedir() user_source = self._task.args.get('src') if not user_source: return False, dict( failed=True, msg="No user provided [ src ] was provided" ) source = self._loader.path_dwim_relative( file_path, 'templates', user_source ) searchpath.insert(1, os.path.dirname(source)) _dest = self._task.args.get('dest') if not _dest: return False, dict( failed=True, msg="No [ dest ] was provided" ) else: # Expand any user home dir specification user_dest = self._remote_expand_user(_dest) if user_dest.endswith(os.sep): user_dest = os.path.join(user_dest, os.path.basename(source)) return True, dict( source=source, dest=user_dest, config_overrides=self._task.args.get('config_overrides', dict()), config_type=config_type, searchpath=searchpath ) def run(self, tmp=None, task_vars=None): """Run the method""" try: remote_user = task_vars.get('ansible_ssh_user') or self._play_context.remote_user if not tmp: tmp = self._make_tmp_path(remote_user) except TypeError: if not tmp: tmp = self._make_tmp_path() _status, _vars = self._load_options_and_status(task_vars=task_vars) if not _status: return _vars temp_vars = task_vars.copy() template_host = temp_vars['template_host'] = os.uname()[1] source = temp_vars['template_path'] = _vars['source'] temp_vars['template_mtime'] = datetime.datetime.fromtimestamp( os.path.getmtime(source) ) try: template_uid = temp_vars['template_uid'] = pwd.getpwuid( os.stat(source).st_uid ).pw_name except Exception: template_uid = temp_vars['template_uid'] = os.stat(source).st_uid managed_default = C.DEFAULT_MANAGED_STR managed_str = managed_default.format( host=template_host, uid=template_uid, file=to_bytes(source) ) temp_vars['ansible_managed'] = time.strftime( managed_str, time.localtime(os.path.getmtime(source)) ) temp_vars['template_fullpath'] = os.path.abspath(source) temp_vars['template_run_date'] = datetime.datetime.now() with open(source, 'r') as f: template_data = to_unicode(f.read()) self._templar.environment.loader.searchpath = _vars['searchpath'] self._templar.set_available_variables(temp_vars) resultant = self._templar.template( template_data, preserve_trailing_newlines=True, escape_backslashes=False, convert_data=False ) # Access to protected method is unavoidable in Ansible self._templar.set_available_variables( self._templar._available_variables ) if _vars['config_overrides']: type_merger = getattr(self, CONFIG_TYPES.get(_vars['config_type'])) resultant = type_merger( config_overrides=_vars['config_overrides'], resultant=resultant ) # Re-template the resultant object as it may have new data within it # as provided by an override variable. resultant = self._templar.template( resultant, preserve_trailing_newlines=True, escape_backslashes=False, convert_data=False ) # run the copy module new_module_args = self._task.args.copy() # Access to protected method is unavoidable in Ansible transferred_data = self._transfer_data( self._connection._shell.join_path(tmp, 'source'), resultant ) new_module_args.update( dict( src=transferred_data, dest=_vars['dest'], original_basename=os.path.basename(source), follow=True, ), ) # Remove data types that are not available to the copy module new_module_args.pop('config_overrides', None) new_module_args.pop('config_type', None) # Run the copy module return self._execute_module( module_name='copy', module_args=new_module_args, task_vars=task_vars )