#!/usr/bin/python # # 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 . # DOCUMENTATION = ''' --- module: nxos_acl version_added: "2.2" short_description: Manages access list entries for ACLs. description: - Manages access list entries for ACLs. extends_documentation_fragment: nxos author: - Jason Edelman (@jedelman8) - Gabriele Gerbino (@GGabriele) notes: - I(state)=absent removes the ACE if it exists - I(state)=delete_acl deleted the ACL if it exists - for idempotency, use port numbers for the src/dest port params like I(src_port1) and names for the well defined protocols for the I(proto) param. - while this module is idempotent in that if the ace as presented in the task is identical to the one on the switch, no changes will be made. If there is any difference, what is in Ansible will be pushed (configured options will be overridden). This is to improve security, but at the same time remember an ACE is removed, then re-added, so if there is a change, the new ACE will be exacty what params you are sending to the module. options: seq: description: - sequence number of the entry (ACE) required: false default: null name: description: - Case sensitive name of the access list (ACL) required: true action: description: - action of the ACE required: false default: null choices: ['permit', 'deny', 'remark'] remark: description: - If action is set to remark, this is the description required: false default: null proto: description: - port number or protocol (as supported by the switch) required: false default: null src: description: - src ip and mask using IP/MASK notation and supports keyword 'any' required: false default: null src_port_op: description: - src port operands such as eq, neq, gt, lt, range required: false default: null choices: ['any', 'eq', 'gt', 'lt', 'neq', 'range'] src_port1: description: - port/protocol and also first (lower) port when using range operand required: false default: null src_port2: description: - second (end) port when using range operand required: false default: null dest: description: - dest ip and mask using IP/MASK notation and supports the keyword 'any' required: false default: null default: null dest_port_op: description: - dest port operands such as eq, neq, gt, lt, range required: false default: null choices: ['any', 'eq', 'gt', 'lt', 'neq', 'range'] dest_port1: description: - port/protocol and also first (lower) port when using range operand required: false default: null dest_port2: description: - second (end) port when using range operand required: false default: null log: description: - Log matches against this entry required: false default: null choices: ['enable'] urg: description: - Match on the URG bit required: false default: null choices: ['enable'] ack: description: - Match on the ACK bit required: false default: null choices: ['enable'] psh: description: - Match on the PSH bit required: false default: null choices: ['enable'] rst: description: - Match on the RST bit required: false default: null choices: ['enable'] syn: description: - Match on the SYN bit required: false default: null choices: ['enable'] fin: description: - Match on the FIN bit required: false default: null choices: ['enable'] established: description: - Match established connections required: false default: null choices: ['enable'] fragments: description: - Check non-initial fragments required: false default: null choices: ['enable'] time-range: description: - Name of time-range to apply required: false default: null precedence: description: - Match packets with given precedence required: false default: null choices: ['critical', 'flash', 'flash-override', 'immediate', 'internet', 'network', 'priority', 'routine'] dscp: description: - Match packets with given dscp value required: false default: null choices: ['af11', 'af12', 'af13', 'af21', 'af22', 'af23','af31','af32', 'af33', 'af41', 'af42', 'af43', 'cs1', 'cs2', 'cs3', 'cs4', 'cs5', 'cs6', 'cs7', 'default', 'ef'] state: description: - Specify desired state of the resource required: false default: present choices: ['present','absent','delete_acl'] ''' EXAMPLES = ''' # configure ACL ANSIBLE - nxos_acl: name: ANSIBLE seq: 10 action: permit proto: tcp src: 1.1.1.1/24 dest: any state: present provider: "{{ nxos_provider }}" ''' RETURN = ''' proposed: description: k/v pairs of parameters passed into module. returned: always type: dict sample: {"action": "permit", "dest": "any", "name": "ANSIBLE", "proto": "tcp", "seq": "10", "src": "1.1.1.1/24"} existing: description: k/v pairs of existing ACL entries. type: dict sample: {} end_state: description: k/v pairs of ACL entries after module execution. returned: always type: dict sample: {"action": "permit", "dest": "any", "name": "ANSIBLE", "proto": "tcp", "seq": "10", "src": "1.1.1.1/24"} updates: description: commands sent to the device returned: always type: list sample: ["ip access-list ANSIBLE", "10 permit tcp 1.1.1.1/24 any"] changed: description: check to see if a change was made on the device returned: always type: boolean sample: true ''' # COMMON CODE FOR MIGRATION import re import time import collections import itertools import shlex import json from ansible.module_utils.basic import AnsibleModule, env_fallback, get_exception from ansible.module_utils.basic import BOOLEANS_TRUE, BOOLEANS_FALSE from ansible.module_utils.shell import Shell, ShellError, HAS_PARAMIKO from ansible.module_utils.netcfg import parse from ansible.module_utils.urls import fetch_url DEFAULT_COMMENT_TOKENS = ['#', '!'] class ConfigLine(object): def __init__(self, text): self.text = text self.children = list() self.parents = list() self.raw = None @property def line(self): line = ['set'] line.extend([p.text for p in self.parents]) line.append(self.text) return ' '.join(line) def __str__(self): return self.raw def __eq__(self, other): if self.text == other.text: return self.parents == other.parents def __ne__(self, other): return not self.__eq__(other) def ignore_line(text, tokens=None): for item in (tokens or DEFAULT_COMMENT_TOKENS): if text.startswith(item): return True def get_next(iterable): item, next_item = itertools.tee(iterable, 2) next_item = itertools.islice(next_item, 1, None) return itertools.izip_longest(item, next_item) def parse(lines, indent, comment_tokens=None): toplevel = re.compile(r'\S') childline = re.compile(r'^\s*(.+)$') ancestors = list() config = list() for line in str(lines).split('\n'): text = str(re.sub(r'([{};])', '', line)).strip() cfg = ConfigLine(text) cfg.raw = line if not text or ignore_line(text, comment_tokens): continue # handle top level commands if toplevel.match(line): ancestors = [cfg] # handle sub level commands else: match = childline.match(line) line_indent = match.start(1) level = int(line_indent / indent) parent_level = level - 1 cfg.parents = ancestors[:level] if level > len(ancestors): config.append(cfg) continue for i in range(level, len(ancestors)): ancestors.pop() ancestors.append(cfg) ancestors[parent_level].children.append(cfg) config.append(cfg) return config class CustomNetworkConfig(object): def __init__(self, indent=None, contents=None, device_os=None): self.indent = indent or 1 self._config = list() self._device_os = device_os if contents: self.load(contents) @property def items(self): return self._config @property def lines(self): lines = list() for item, next_item in get_next(self.items): if next_item is None: lines.append(item.line) elif not next_item.line.startswith(item.line): lines.append(item.line) return lines def __str__(self): text = '' for item in self.items: if not item.parents: expand = self.get_section(item.text) text += '%s\n' % self.get_section(item.text) return str(text).strip() def load(self, contents): self._config = parse(contents, indent=self.indent) def load_from_file(self, filename): self.load(open(filename).read()) def get(self, path): if isinstance(path, basestring): path = [path] for item in self._config: if item.text == path[-1]: parents = [p.text for p in item.parents] if parents == path[:-1]: return item def search(self, regexp, path=None): regex = re.compile(r'^%s' % regexp, re.M) if path: parent = self.get(path) if not parent or not parent.children: return children = [c.text for c in parent.children] data = '\n'.join(children) else: data = str(self) match = regex.search(data) if match: if match.groups(): values = match.groupdict().values() groups = list(set(match.groups()).difference(values)) return (groups, match.groupdict()) else: return match.group() def findall(self, regexp): regexp = r'%s' % regexp return re.findall(regexp, str(self)) def expand(self, obj, items): block = [item.raw for item in obj.parents] block.append(obj.raw) current_level = items for b in block: if b not in current_level: current_level[b] = collections.OrderedDict() current_level = current_level[b] for c in obj.children: if c.raw not in current_level: current_level[c.raw] = collections.OrderedDict() def to_lines(self, section): lines = list() for entry in section[1:]: line = ['set'] line.extend([p.text for p in entry.parents]) line.append(entry.text) lines.append(' '.join(line)) return lines def to_block(self, section): return '\n'.join([item.raw for item in section]) def get_section(self, path): try: section = self.get_section_objects(path) if self._device_os == 'junos': return self.to_lines(section) return self.to_block(section) except ValueError: return list() def get_section_objects(self, path): if not isinstance(path, list): path = [path] obj = self.get_object(path) if not obj: raise ValueError('path does not exist in config') return self.expand_section(obj) def expand_section(self, configobj, S=None): if S is None: S = list() S.append(configobj) for child in configobj.children: if child in S: continue self.expand_section(child, S) return S def flatten(self, data, obj=None): if obj is None: obj = list() for k, v in data.items(): obj.append(k) self.flatten(v, obj) return obj def get_object(self, path): for item in self.items: if item.text == path[-1]: parents = [p.text for p in item.parents] if parents == path[:-1]: return item def get_children(self, path): obj = self.get_object(path) if obj: return obj.children def difference(self, other, path=None, match='line', replace='line'): updates = list() config = self.items if path: config = self.get_children(path) or list() if match == 'line': for item in config: if item not in other.items: updates.append(item) elif match == 'strict': if path: current = other.get_children(path) or list() else: current = other.items for index, item in enumerate(config): try: if item != current[index]: updates.append(item) except IndexError: updates.append(item) elif match == 'exact': if path: current = other.get_children(path) or list() else: current = other.items if len(current) != len(config): updates.extend(config) else: for ours, theirs in itertools.izip(config, current): if ours != theirs: updates.extend(config) break if self._device_os == 'junos': return updates diffs = collections.OrderedDict() for update in updates: if replace == 'block' and update.parents: update = update.parents[-1] self.expand(update, diffs) return self.flatten(diffs) def replace(self, replace, text=None, regex=None, parents=None, add_if_missing=False, ignore_whitespace=False): match = None parents = parents or list() if text is None and regex is None: raise ValueError('missing required arguments') if not regex: regex = ['^%s$' % text] patterns = [re.compile(r, re.I) for r in to_list(regex)] for item in self.items: for regexp in patterns: if ignore_whitespace is True: string = item.text else: string = item.raw if regexp.search(item.text): if item.text != replace: if parents == [p.text for p in item.parents]: match = item break if match: match.text = replace indent = len(match.raw) - len(match.raw.lstrip()) match.raw = replace.rjust(len(replace) + indent) elif add_if_missing: self.add(replace, parents=parents) def add(self, lines, parents=None): """Adds one or lines of configuration """ ancestors = list() offset = 0 obj = None ## global config command if not parents: for line in to_list(lines): item = ConfigLine(line) item.raw = line if item not in self.items: self.items.append(item) else: for index, p in enumerate(parents): try: i = index + 1 obj = self.get_section_objects(parents[:i])[0] ancestors.append(obj) except ValueError: # add parent to config offset = index * self.indent obj = ConfigLine(p) obj.raw = p.rjust(len(p) + offset) if ancestors: obj.parents = list(ancestors) ancestors[-1].children.append(obj) self.items.append(obj) ancestors.append(obj) # add child objects for line in to_list(lines): # check if child already exists for child in ancestors[-1].children: if child.text == line: break else: offset = len(parents) * self.indent item = ConfigLine(line) item.raw = line.rjust(len(line) + offset) item.parents = ancestors ancestors[-1].children.append(item) self.items.append(item) def argument_spec(): return dict( # config options running_config=dict(aliases=['config']), save_config=dict(type='bool', default=False, aliases=['save']) ) nxos_argument_spec = argument_spec() NET_PASSWD_RE = re.compile(r"[\r\n]?password: $", re.I) NET_COMMON_ARGS = dict( host=dict(required=True), port=dict(type='int'), username=dict(fallback=(env_fallback, ['ANSIBLE_NET_USERNAME'])), password=dict(no_log=True, fallback=(env_fallback, ['ANSIBLE_NET_PASSWORD'])), ssh_keyfile=dict(fallback=(env_fallback, ['ANSIBLE_NET_SSH_KEYFILE']), type='path'), transport=dict(default='cli', choices=['cli', 'nxapi']), use_ssl=dict(default=False, type='bool'), validate_certs=dict(default=True, type='bool'), provider=dict(type='dict'), timeout=dict(default=10, type='int') ) NXAPI_COMMAND_TYPES = ['cli_show', 'cli_show_ascii', 'cli_conf', 'bash'] NXAPI_ENCODINGS = ['json', 'xml'] CLI_PROMPTS_RE = [ re.compile(r'[\r\n]?[a-zA-Z]{1}[a-zA-Z0-9-]*[>|#|%](?:\s*)$'), re.compile(r'[\r\n]?[a-zA-Z]{1}[a-zA-Z0-9-]*\(.+\)#(?:\s*)$') ] CLI_ERRORS_RE = [ re.compile(r"% ?Error"), re.compile(r"^% \w+", re.M), re.compile(r"% ?Bad secret"), re.compile(r"invalid input", re.I), re.compile(r"(?:incomplete|ambiguous) command", re.I), re.compile(r"connection timed out", re.I), re.compile(r"[^\r\n]+ not found", re.I), re.compile(r"'[^']' +returned error code: ?\d+"), re.compile(r"syntax error"), re.compile(r"unknown command") ] def to_list(val): if isinstance(val, (list, tuple)): return list(val) elif val is not None: return [val] else: return list() class Nxapi(object): def __init__(self, module): self.module = module # sets the module_utils/urls.py req parameters self.module.params['url_username'] = module.params['username'] self.module.params['url_password'] = module.params['password'] self.url = None self._nxapi_auth = None def _get_body(self, commands, command_type, encoding, version='1.0', chunk='0', sid=None): """Encodes a NXAPI JSON request message """ if isinstance(commands, (list, set, tuple)): commands = ' ;'.join(commands) if encoding not in NXAPI_ENCODINGS: msg = 'invalid encoding, received %s, exceped one of %s' % \ (encoding, ','.join(NXAPI_ENCODINGS)) self.module_fail_json(msg=msg) msg = { 'version': version, 'type': command_type, 'chunk': chunk, 'sid': sid, 'input': commands, 'output_format': encoding } return dict(ins_api=msg) def connect(self): host = self.module.params['host'] port = self.module.params['port'] if self.module.params['use_ssl']: proto = 'https' if not port: port = 443 else: proto = 'http' if not port: port = 80 self.url = '%s://%s:%s/ins' % (proto, host, port) def send(self, commands, command_type='cli_show_ascii', encoding='json'): """Send commands to the device. """ clist = to_list(commands) if command_type not in NXAPI_COMMAND_TYPES: msg = 'invalid command_type, received %s, exceped one of %s' % \ (command_type, ','.join(NXAPI_COMMAND_TYPES)) self.module_fail_json(msg=msg) data = self._get_body(clist, command_type, encoding) data = self.module.jsonify(data) headers = {'Content-Type': 'application/json'} if self._nxapi_auth: headers['Cookie'] = self._nxapi_auth response, headers = fetch_url(self.module, self.url, data=data, headers=headers, method='POST') self._nxapi_auth = headers.get('set-cookie') if headers['status'] != 200: self.module.fail_json(**headers) response = self.module.from_json(response.read()) result = list() output = response['ins_api']['outputs']['output'] for item in to_list(output): if item['code'] != '200': self.module.fail_json(**item) else: result.append(item['body']) return result class Cli(object): def __init__(self, module): self.module = module self.shell = None def connect(self, **kwargs): host = self.module.params['host'] port = self.module.params['port'] or 22 username = self.module.params['username'] password = self.module.params['password'] timeout = self.module.params['timeout'] key_filename = self.module.params['ssh_keyfile'] allow_agent = (key_filename is not None) or (key_filename is None and password is None) try: self.shell = Shell(kickstart=False, prompts_re=CLI_PROMPTS_RE, errors_re=CLI_ERRORS_RE) self.shell.open(host, port=port, username=username, password=password, key_filename=key_filename, allow_agent=allow_agent, timeout=timeout) except ShellError: e = get_exception() msg = 'failed to connect to %s:%s - %s' % (host, port, str(e)) self.module.fail_json(msg=msg) def send(self, commands, encoding='text'): try: return self.shell.send(commands) except ShellError: e = get_exception() self.module.fail_json(msg=e.message, commands=commands) class NetworkModule(AnsibleModule): def __init__(self, *args, **kwargs): super(NetworkModule, self).__init__(*args, **kwargs) self.connection = None self._config = None self._connected = False @property def connected(self): return self._connected @property def config(self): if not self._config: self._config = self.get_config() return self._config def _load_params(self): super(NetworkModule, self)._load_params() provider = self.params.get('provider') or dict() for key, value in provider.items(): if key in NET_COMMON_ARGS: if self.params.get(key) is None and value is not None: self.params[key] = value def connect(self): cls = globals().get(str(self.params['transport']).capitalize()) try: self.connection = cls(self) except TypeError: e = get_exception() self.fail_json(msg=e.message) self.connection.connect() if self.params['transport'] == 'cli': self.connection.send('terminal length 0') self._connected = True def configure(self, commands): commands = to_list(commands) if self.params['transport'] == 'cli': return self.configure_cli(commands) else: return self.execute(commands, command_type='cli_conf') def configure_cli(self, commands): commands = to_list(commands) commands.insert(0, 'configure') responses = self.execute(commands) responses.pop(0) return responses def execute(self, commands, **kwargs): if not self.connected: self.connect() return self.connection.send(commands, **kwargs) def disconnect(self): self.connection.close() self._connected = False def parse_config(self, cfg): return parse(cfg, indent=2) def get_config(self): cmd = 'show running-config' if self.params.get('include_defaults'): cmd += ' all' response = self.execute(cmd) return response[0] def get_module(**kwargs): """Return instance of NetworkModule """ argument_spec = NET_COMMON_ARGS.copy() if kwargs.get('argument_spec'): argument_spec.update(kwargs['argument_spec']) kwargs['argument_spec'] = argument_spec module = NetworkModule(**kwargs) if module.params['transport'] == 'cli' and not HAS_PARAMIKO: module.fail_json(msg='paramiko is required but does not appear to be installed') return module def custom_get_config(module, include_defaults=False): config = module.params['running_config'] if not config: cmd = 'show running-config' if module.params['include_defaults']: cmd += ' all' if module.params['transport'] == 'nxapi': config = module.execute([cmd], command_type='cli_show_ascii')[0] else: config = module.execute([cmd])[0] return CustomNetworkConfig(indent=2, contents=config) def load_config(module, candidate): config = custom_get_config(module) commands = candidate.difference(config) commands = [str(c).strip() for c in commands] save_config = module.params['save_config'] result = dict(changed=False) if commands: if not module.check_mode: module.configure(commands) if save_config: module.config.save_config() result['changed'] = True result['updates'] = commands return result # END OF COMMON CODE def get_cli_body_ssh(command, response, module): """Get response for when transport=cli. This is kind of a hack and mainly needed because these modules were originally written for NX-API. And not every command supports "| json" when using cli/ssh. As such, we assume if | json returns an XML string, it is a valid command, but that the resource doesn't exist yet. Instead, we assume if '^' is found in response, it is an invalid command. """ if 'xml' in response[0]: body = [] elif '^' in response[0]: body = response else: try: body = [json.loads(response[0])] except ValueError: module.fail_json(msg='Command does not support JSON output', command=command) return body def execute_show(cmds, module, command_type=None): try: if command_type: response = module.execute(cmds, command_type=command_type) else: response = module.execute(cmds) except ShellError: clie = get_exception() module.fail_json(msg='Error sending {0}'.format(cmds), error=str(clie)) return response def execute_show_command(command, module, command_type='cli_show'): if module.params['transport'] == 'cli': command += ' | json' cmds = [command] response = execute_show(cmds, module) body = get_cli_body_ssh(command, response, module) elif module.params['transport'] == 'nxapi': cmds = [command] body = execute_show(cmds, module, command_type=command_type) return body def get_acl(module, acl_name, seq_number): command = 'show ip access-list' new_acl = [] saveme = {} seqs = [] acl_body = {} body = execute_show_command(command, module)[0] all_acl_body = body['TABLE_ip_ipv6_mac']['ROW_ip_ipv6_mac'] for acl in all_acl_body: if acl.get('acl_name') == acl_name: acl_body = acl try: acl_entries = acl_body['TABLE_seqno']['ROW_seqno'] acl_name = acl_body.get('acl_name') except KeyError: # could be raised if no ACEs are configured for an ACL return saveme, [{'acl': 'no_entries'}], seqs if isinstance(acl_entries, dict): acl_entries = [acl_entries] for each in acl_entries: temp = collections.OrderedDict() keep = {} temp['name'] = acl_name temp['seq'] = str(each.get('seqno')) temp['options'] = {} remark = each.get('remark') if remark: temp['remark'] = remark temp['action'] = 'remark' else: temp['action'] = each.get('permitdeny') temp['proto'] = each.get('proto', each.get('proto_str', each.get('ip'))) temp['src'] = each.get('src_any', each.get('src_ip_prefix')) temp['src_port_op'] = each.get('src_port_op') temp['src_port1'] = each.get('src_port1_num') temp['src_port2'] = each.get('src_port2_num') temp['dest'] = each.get('dest_any', each.get('dest_ip_prefix')) temp['dest_port_op'] = each.get('dest_port_op') temp['dest_port1'] = each.get('dest_port1_num') temp['dest_port2'] = each.get('dest_port2_num') options = collections.OrderedDict() options['log'] = each.get('log') options['urg'] = each.get('urg') options['ack'] = each.get('ack') options['psh'] = each.get('psh') options['rst'] = each.get('rst') options['syn'] = each.get('syn') options['fin'] = each.get('fin') options['established'] = each.get('established') options['dscp'] = each.get('dscp_str') options['precedence'] = each.get('precedence_str') options['fragments'] = each.get('fragments') options['time_range'] = each.get('timerange') options_no_null = {} for key, value in options.iteritems(): if value is not None: options_no_null[key] = value keep['options'] = options_no_null for key, value in temp.iteritems(): if value: keep[key] = value # ensure options is always in the dict if keep.get('options', 'DNE') == 'DNE': keep['options'] = {} if keep.get('seq') == seq_number: saveme = dict(keep) seqs.append(str(keep.get('seq'))) new_acl.append(keep) return saveme, new_acl, seqs def _acl_operand(operand, srcp1, sprcp2): sub_entry = ' ' + operand if operand == 'range': sub_entry += ' ' + srcp1 + ' ' + sprcp2 else: sub_entry += ' ' + srcp1 return sub_entry def config_core_acl(proposed): seq = proposed.get('seq') action = proposed.get('action') remark = proposed.get('remark') proto = proposed.get('proto') src = proposed.get('src') src_port_op = proposed.get('src_port_op') src_port1 = proposed.get('src_port1') src_port2 = proposed.get('src_port2') dest = proposed.get('dest') dest_port_op = proposed.get('dest_port_op') dest_port1 = proposed.get('dest_port1') dest_port2 = proposed.get('dest_port2') ace_start_entries = [action, proto, src] if not remark: ace = seq + ' ' + ' '.join(ace_start_entries) if src_port_op: ace += _acl_operand(src_port_op, src_port1, src_port2) ace += ' ' + dest if dest_port_op: ace += _acl_operand(dest_port_op, dest_port1, dest_port2) else: ace = seq + ' remark ' + remark return ace def config_acl_options(options): ENABLE_ONLY = ['psh', 'urg', 'log', 'ack', 'syn', 'established', 'rst', 'fin', 'fragments', 'log'] OTHER = ['dscp', 'precedence', 'time-range'] # packet-length is the only option not currently supported if options.get('time_range'): options['time-range'] = options.get('time_range') options.pop('time_range') command = '' for option, value in options.iteritems(): if option in ENABLE_ONLY: if value == 'enable': command += ' ' + option elif option in OTHER: command += ' ' + option + ' ' + value if command: command = command.strip() return command def flatten_list(command_lists): flat_command_list = [] for command in command_lists: if isinstance(command, list): flat_command_list.extend(command) else: flat_command_list.append(command) return flat_command_list def execute_config_command(commands, module): try: module.configure(commands) except ShellError: clie = get_exception() module.fail_json(msg='Error sending CLI commands', error=str(clie), commands=commands) def main(): argument_spec = dict( seq=dict(required=False, type='str'), name=dict(required=True, type='str'), action=dict(required=False, choices=['remark', 'permit', 'deny']), remark=dict(requried=False, type='str'), proto=dict(required=False, type='str'), src=dict(required=False, type='str'), src_port_op=dict(required=False), src_port1=dict(required=False, type='str'), src_port2=dict(required=False, type='str'), dest=dict(required=False, type='str'), dest_port_op=dict(required=False), dest_port1=dict(required=False, type='str'), dest_port2=dict(required=False, type='str'), log=dict(required=False, choices=['enable']), urg=dict(required=False, choices=['enable']), ack=dict(required=False, choices=['enable']), psh=dict(required=False, choices=['enable']), rst=dict(required=False, choices=['enable']), syn=dict(required=False, choices=['enable']), fragments=dict(required=False, choices=['enable']), fin=dict(required=False, choices=['enable']), established=dict(required=False, choices=['enable']), time_range=dict(required=False), precedence=dict(required=False, choices=['critical', 'flash', 'flash-override', 'immediate', 'internet', 'network', 'priority', 'routine']), dscp=dict(required=False, choices=['af11', 'af12', 'af13', 'af21', 'af22', 'af23', 'af31', 'af32', 'af33', 'af41', 'af42', 'af43', 'cs1', 'cs2', 'cs3', 'cs4', 'cs5', 'cs6', 'cs7', 'default', 'ef']), state=dict(choices=['absent', 'present', 'delete_acl'], default='present'), protocol=dict(choices=['http', 'https'], default='http'), host=dict(required=True), username=dict(type='str'), password=dict(no_log=True, type='str'), ) argument_spec.update(nxos_argument_spec) module = get_module(argument_spec=argument_spec, supports_check_mode=True) state = module.params['state'] action = module.params['action'] remark = module.params['remark'] dscp = module.params['dscp'] precedence = module.params['precedence'] seq = module.params['seq'] name = module.params['name'] seq = module.params['seq'] if action == 'remark' and not remark: module.fail_json(msg='when state is action, remark param is also ' 'required') REQUIRED = ['seq', 'name', 'action', 'proto', 'src', 'dest'] ABSENT = ['name', 'seq'] if state == 'present': if action and remark and seq: pass else: for each in REQUIRED: if module.params[each] is None: module.fail_json(msg="req'd params when state is present:", params=REQUIRED) elif state == 'absent': for each in ABSENT: if module.params[each] is None: module.fail_json(msg='require params when state is absent', params=ABSENT) elif state == 'delete_acl': if module.params['name'] is None: module.fail_json(msg="param name req'd when state is delete_acl") if dscp and precedence: module.fail_json(msg='only one of the params dscp/precedence ' 'are allowed') OPTIONS_NAMES = ['log', 'urg', 'ack', 'psh', 'rst', 'syn', 'fin', 'established', 'dscp', 'precedence', 'fragments', 'time_range'] CORE = ['seq', 'name', 'action', 'proto', 'src', 'src_port_op', 'src_port1', 'src_port2', 'dest', 'dest_port_op', 'dest_port1', 'dest_port2', 'remark'] proposed_core = dict((param, value) for (param, value) in module.params.iteritems() if param in CORE and value is not None) proposed_options = dict((param, value) for (param, value) in module.params.iteritems() if param in OPTIONS_NAMES and value is not None) proposed = {} proposed.update(proposed_core) proposed.update(proposed_options) existing_options = {} # getting existing existing_core=dict, acl=list, seq=list existing_core, acl, seqs = get_acl(module, name, seq) if existing_core: existing_options = existing_core.get('options') existing_core.pop('options') end_state = acl commands = [] changed = False delta_core = {} delta_options = {} if not existing_core.get('remark'): delta_core = dict( set(proposed_core.iteritems()).difference( existing_core.iteritems()) ) delta_options = dict( set(proposed_options.iteritems()).difference( existing_options.iteritems()) ) if state == 'present': if delta_core or delta_options: if existing_core: # if the ace exists already commands.append(['no {0}'.format(seq)]) if delta_options: myacl_str = config_core_acl(proposed_core) myacl_str += ' ' + config_acl_options(proposed_options) else: myacl_str = config_core_acl(proposed_core) command = [myacl_str] commands.append(command) elif state == 'absent': if existing_core: commands.append(['no {0}'.format(seq)]) elif state == 'delete_acl': if acl[0].get('acl') != 'no_entries': commands.append(['no ip access-list {0}'.format(name)]) results = {} cmds = [] if commands: preface = [] if state in ['present', 'absent']: preface = ['ip access-list {0}'.format(name)] commands.insert(0, preface) cmds = flatten_list(commands) if module.check_mode: module.exit_json(changed=True, commands=cmds) else: execute_config_command(cmds, module) changed = True new_existing_core, end_state, seqs = get_acl(module, name, seq) results['proposed'] = proposed results['existing'] = existing_core results['changed'] = changed results['updates'] = cmds results['end_state'] = end_state module.exit_json(**results) if __name__ == '__main__': main()