#!/usr/bin/python # -*- coding: utf-8 -*- # Copyright (c) 2016, Tomas Karasek # Copyright (c) 2016, Matt Baldwin # Copyright (c) 2016, Thibaud Morel l'Horset # GNU General Public License v3.0+ (see LICENSES/GPL-3.0-or-later.txt or https://www.gnu.org/licenses/gpl-3.0.txt) # SPDX-License-Identifier: GPL-3.0-or-later from __future__ import absolute_import, division, print_function __metaclass__ = type DOCUMENTATION = ''' --- module: packet_device short_description: Manage a bare metal server in the Packet Host description: - Manage a bare metal server in the Packet Host (a "device" in the API terms). - When the machine is created it can optionally wait for public IP address, or for active state. - This module has a dependency on packet >= 1.0. - API is documented at U(https://www.packet.net/developers/api/devices). author: - Tomas Karasek (@t0mk) - Matt Baldwin (@baldwinSPC) - Thibaud Morel l'Horset (@teebes) extends_documentation_fragment: - community.general.attributes attributes: check_mode: support: none diff_mode: support: none options: auth_token: description: - Packet API token. You can also supply it in environment variable E(PACKET_API_TOKEN). type: str count: description: - The number of devices to create. Count number can be included in hostname via the %d string formatter. default: 1 type: int count_offset: description: - From which number to start the count. default: 1 type: int device_ids: description: - List of device IDs on which to operate. type: list elements: str tags: description: - List of device tags. - Currently implemented only for device creation. type: list elements: str version_added: '0.2.0' facility: description: - Facility slug for device creation. See Packet API for current list - U(https://www.packet.net/developers/api/facilities/). type: str features: description: - Dict with "features" for device creation. See Packet API docs for details. type: dict hostnames: description: - A hostname of a device, or a list of hostnames. - If given string or one-item list, you can use the C("%d") Python string format to expand numbers from O(count). - If only one hostname, it might be expanded to list if O(count)>1. aliases: [name] type: list elements: str locked: description: - Whether to lock a created device. default: false aliases: [lock] type: bool operating_system: description: - OS slug for device creation. See Packet API for current list - U(https://www.packet.net/developers/api/operatingsystems/). type: str plan: description: - Plan slug for device creation. See Packet API for current list - U(https://www.packet.net/developers/api/plans/). type: str project_id: description: - ID of project of the device. required: true type: str state: description: - Desired state of the device. - If set to V(present) (the default), the module call will return immediately after the device-creating HTTP request successfully returns. - If set to V(active), the module call will block until all the specified devices are in state active due to the Packet API, or until O(wait_timeout). choices: [present, absent, active, inactive, rebooted] default: present type: str user_data: description: - Userdata blob made available to the machine type: str wait_for_public_IPv: description: - Whether to wait for the instance to be assigned a public IPv4/IPv6 address. - If set to 4, it will wait until IPv4 is assigned to the instance. - If set to 6, wait until public IPv6 is assigned to the instance. choices: [4,6] type: int wait_timeout: description: - How long (seconds) to wait either for automatic IP address assignment, or for the device to reach the V(active) state. - If O(wait_for_public_IPv) is set and O(state=active), the module will wait for both events consequently, applying the timeout twice. default: 900 type: int ipxe_script_url: description: - URL of custom iPXE script for provisioning. - More about custom iPXE for Packet devices at U(https://help.packet.net/technical/infrastructure/custom-ipxe). type: str default: '' always_pxe: description: - Persist PXE as the first boot option. - Normally, the PXE process happens only on the first boot. Set this arg to have your device continuously boot to iPXE. default: false type: bool requirements: - "packet-python >= 1.35" ''' EXAMPLES = ''' # All the examples assume that you have your Packet API token in environment variable PACKET_API_TOKEN. # You can also pass it to the auth_token parameter of the module instead. # Creating devices - name: Create 1 device hosts: localhost tasks: - community.general.packet_device: project_id: 89b497ee-5afc-420a-8fb5-56984898f4df hostnames: myserver tags: ci-xyz operating_system: ubuntu_16_04 plan: baremetal_0 facility: sjc1 # Create the same device and wait until it is in state "active", (when it's # ready for other API operations). Fail if the device is not "active" in # 10 minutes. - name: Create device and wait up to 10 minutes for active state hosts: localhost tasks: - community.general.packet_device: project_id: 89b497ee-5afc-420a-8fb5-56984898f4df hostnames: myserver operating_system: ubuntu_16_04 plan: baremetal_0 facility: sjc1 state: active wait_timeout: 600 - name: Create 3 ubuntu devices called server-01, server-02 and server-03 hosts: localhost tasks: - community.general.packet_device: project_id: 89b497ee-5afc-420a-8fb5-56984898f4df hostnames: server-%02d count: 3 operating_system: ubuntu_16_04 plan: baremetal_0 facility: sjc1 - name: Create 3 coreos devices with userdata, wait until they get IPs and then wait for SSH hosts: localhost tasks: - name: Create 3 devices and register their facts community.general.packet_device: hostnames: [coreos-one, coreos-two, coreos-three] operating_system: coreos_stable plan: baremetal_0 facility: ewr1 locked: true project_id: 89b497ee-5afc-420a-8fb5-56984898f4df wait_for_public_IPv: 4 user_data: | #cloud-config ssh_authorized_keys: - {{ lookup('file', 'my_packet_sshkey') }} coreos: etcd: discovery: https://discovery.etcd.io/6a28e078895c5ec737174db2419bb2f3 addr: $private_ipv4:4001 peer-addr: $private_ipv4:7001 fleet: public-ip: $private_ipv4 units: - name: etcd.service command: start - name: fleet.service command: start register: newhosts - name: Wait for ssh ansible.builtin.wait_for: delay: 1 host: "{{ item.public_ipv4 }}" port: 22 state: started timeout: 500 with_items: "{{ newhosts.devices }}" # Other states of devices - name: Remove 3 devices by uuid hosts: localhost tasks: - community.general.packet_device: project_id: 89b497ee-5afc-420a-8fb5-56984898f4df state: absent device_ids: - 1fb4faf8-a638-4ac7-8f47-86fe514c30d8 - 2eb4faf8-a638-4ac7-8f47-86fe514c3043 - 6bb4faf8-a638-4ac7-8f47-86fe514c301f ''' RETURN = ''' changed: description: True if a device was altered in any way (created, modified or removed) type: bool sample: true returned: success devices: description: Information about each device that was processed type: list sample: - { "hostname": "my-server.com", "id": "2a5122b9-c323-4d5c-b53c-9ad3f54273e7", "public_ipv4": "147.229.15.12", "private-ipv4": "10.0.15.12", "tags": [], "locked": false, "state": "provisioning", "public_ipv6": "2604:1380:2:5200::3" } returned: success ''' # NOQA import os import re import time import uuid import traceback from ansible.module_utils.basic import AnsibleModule from ansible.module_utils.common.text.converters import to_native HAS_PACKET_SDK = True try: import packet except ImportError: HAS_PACKET_SDK = False NAME_RE = r'({0}|{0}{1}*{0})'.format(r'[a-zA-Z0-9]', r'[a-zA-Z0-9\-]') HOSTNAME_RE = r'({0}\.)*{0}$'.format(NAME_RE) MAX_DEVICES = 100 PACKET_DEVICE_STATES = ( 'queued', 'provisioning', 'failed', 'powering_on', 'active', 'powering_off', 'inactive', 'rebooting', ) PACKET_API_TOKEN_ENV_VAR = "PACKET_API_TOKEN" ALLOWED_STATES = ['absent', 'active', 'inactive', 'rebooted', 'present'] def serialize_device(device): """ Standard representation for a device as returned by various tasks:: { 'id': 'device_id' 'hostname': 'device_hostname', 'tags': [], 'locked': false, 'state': 'provisioning', 'ip_addresses': [ { "address": "147.75.194.227", "address_family": 4, "public": true }, { "address": "2604:1380:2:5200::3", "address_family": 6, "public": true }, { "address": "10.100.11.129", "address_family": 4, "public": false } ], "private_ipv4": "10.100.11.129", "public_ipv4": "147.75.194.227", "public_ipv6": "2604:1380:2:5200::3", } """ device_data = {} device_data['id'] = device.id device_data['hostname'] = device.hostname device_data['tags'] = device.tags device_data['locked'] = device.locked device_data['state'] = device.state device_data['ip_addresses'] = [ { 'address': addr_data['address'], 'address_family': addr_data['address_family'], 'public': addr_data['public'], } for addr_data in device.ip_addresses ] # Also include each IPs as a key for easier lookup in roles. # Key names: # - public_ipv4 # - public_ipv6 # - private_ipv4 # - private_ipv6 (if there is one) for ipdata in device_data['ip_addresses']: if ipdata['public']: if ipdata['address_family'] == 6: device_data['public_ipv6'] = ipdata['address'] elif ipdata['address_family'] == 4: device_data['public_ipv4'] = ipdata['address'] elif not ipdata['public']: if ipdata['address_family'] == 6: # Packet doesn't give public ipv6 yet, but maybe one # day they will device_data['private_ipv6'] = ipdata['address'] elif ipdata['address_family'] == 4: device_data['private_ipv4'] = ipdata['address'] return device_data def is_valid_hostname(hostname): return re.match(HOSTNAME_RE, hostname) is not None def is_valid_uuid(myuuid): try: val = uuid.UUID(myuuid, version=4) except ValueError: return False return str(val) == myuuid def listify_string_name_or_id(s): if ',' in s: return s.split(',') else: return [s] def get_hostname_list(module): # hostname is a list-typed param, so I guess it should return list # (and it does, in Ansible 2.2.1) but in order to be defensive, # I keep here the code to convert an eventual string to list hostnames = module.params.get('hostnames') count = module.params.get('count') count_offset = module.params.get('count_offset') if isinstance(hostnames, str): hostnames = listify_string_name_or_id(hostnames) if not isinstance(hostnames, list): raise Exception("name %s is not convertible to list" % hostnames) # at this point, hostnames is a list hostnames = [h.strip() for h in hostnames] if (len(hostnames) > 1) and (count > 1): _msg = ("If you set count>1, you should only specify one hostname " "with the %d formatter, not a list of hostnames.") raise Exception(_msg) if (len(hostnames) == 1) and (count > 0): hostname_spec = hostnames[0] count_range = range(count_offset, count_offset + count) if re.search(r"%\d{0,2}d", hostname_spec): hostnames = [hostname_spec % i for i in count_range] elif count > 1: hostname_spec = '%s%%02d' % hostname_spec hostnames = [hostname_spec % i for i in count_range] for hn in hostnames: if not is_valid_hostname(hn): raise Exception("Hostname '%s' does not seem to be valid" % hn) if len(hostnames) > MAX_DEVICES: raise Exception("You specified too many hostnames, max is %d" % MAX_DEVICES) return hostnames def get_device_id_list(module): device_ids = module.params.get('device_ids') if isinstance(device_ids, str): device_ids = listify_string_name_or_id(device_ids) device_ids = [di.strip() for di in device_ids] for di in device_ids: if not is_valid_uuid(di): raise Exception("Device ID '%s' does not seem to be valid" % di) if len(device_ids) > MAX_DEVICES: raise Exception("You specified too many devices, max is %d" % MAX_DEVICES) return device_ids def create_single_device(module, packet_conn, hostname): for param in ('hostnames', 'operating_system', 'plan'): if not module.params.get(param): raise Exception("%s parameter is required for new device." % param) project_id = module.params.get('project_id') plan = module.params.get('plan') tags = module.params.get('tags') user_data = module.params.get('user_data') facility = module.params.get('facility') operating_system = module.params.get('operating_system') locked = module.params.get('locked') ipxe_script_url = module.params.get('ipxe_script_url') always_pxe = module.params.get('always_pxe') if operating_system != 'custom_ipxe': for param in ('ipxe_script_url', 'always_pxe'): if module.params.get(param): raise Exception('%s parameter is not valid for non custom_ipxe operating_system.' % param) device = packet_conn.create_device( project_id=project_id, hostname=hostname, tags=tags, plan=plan, facility=facility, operating_system=operating_system, userdata=user_data, locked=locked, ipxe_script_url=ipxe_script_url, always_pxe=always_pxe) return device def refresh_device_list(module, packet_conn, devices): device_ids = [d.id for d in devices] new_device_list = get_existing_devices(module, packet_conn) return [d for d in new_device_list if d.id in device_ids] def wait_for_devices_active(module, packet_conn, watched_devices): wait_timeout = module.params.get('wait_timeout') wait_timeout = time.time() + wait_timeout refreshed = watched_devices while wait_timeout > time.time(): refreshed = refresh_device_list(module, packet_conn, watched_devices) if all(d.state == 'active' for d in refreshed): return refreshed time.sleep(5) raise Exception("Waiting for state \"active\" timed out for devices: %s" % [d.hostname for d in refreshed if d.state != "active"]) def wait_for_public_IPv(module, packet_conn, created_devices): def has_public_ip(addr_list, ip_v): return any(a['public'] and a['address_family'] == ip_v and a['address'] for a in addr_list) def all_have_public_ip(ds, ip_v): return all(has_public_ip(d.ip_addresses, ip_v) for d in ds) address_family = module.params.get('wait_for_public_IPv') wait_timeout = module.params.get('wait_timeout') wait_timeout = time.time() + wait_timeout while wait_timeout > time.time(): refreshed = refresh_device_list(module, packet_conn, created_devices) if all_have_public_ip(refreshed, address_family): return refreshed time.sleep(5) raise Exception("Waiting for IPv%d address timed out. Hostnames: %s" % (address_family, [d.hostname for d in created_devices])) def get_existing_devices(module, packet_conn): project_id = module.params.get('project_id') return packet_conn.list_devices( project_id, params={ 'per_page': MAX_DEVICES}) def get_specified_device_identifiers(module): if module.params.get('device_ids'): device_id_list = get_device_id_list(module) return {'ids': device_id_list, 'hostnames': []} elif module.params.get('hostnames'): hostname_list = get_hostname_list(module) return {'hostnames': hostname_list, 'ids': []} def act_on_devices(module, packet_conn, target_state): specified_identifiers = get_specified_device_identifiers(module) existing_devices = get_existing_devices(module, packet_conn) changed = False create_hostnames = [] if target_state in ['present', 'active', 'rebooted']: # states where we might create non-existing specified devices existing_devices_names = [ed.hostname for ed in existing_devices] create_hostnames = [hn for hn in specified_identifiers['hostnames'] if hn not in existing_devices_names] process_devices = [d for d in existing_devices if (d.id in specified_identifiers['ids']) or (d.hostname in specified_identifiers['hostnames'])] if target_state != 'present': _absent_state_map = {} for s in PACKET_DEVICE_STATES: _absent_state_map[s] = packet.Device.delete state_map = { 'absent': _absent_state_map, 'active': {'inactive': packet.Device.power_on, 'provisioning': None, 'rebooting': None }, 'inactive': {'active': packet.Device.power_off}, 'rebooted': {'active': packet.Device.reboot, 'inactive': packet.Device.power_on, 'provisioning': None, 'rebooting': None }, } # First do non-creation actions, it might be faster for d in process_devices: if d.state == target_state: continue if d.state in state_map[target_state]: api_operation = state_map[target_state].get(d.state) if api_operation is not None: api_operation(d) changed = True else: _msg = ( "I don't know how to process existing device %s from state %s " "to state %s" % (d.hostname, d.state, target_state)) raise Exception(_msg) # At last create missing devices created_devices = [] if create_hostnames: created_devices = [create_single_device(module, packet_conn, n) for n in create_hostnames] if module.params.get('wait_for_public_IPv'): created_devices = wait_for_public_IPv( module, packet_conn, created_devices) changed = True processed_devices = created_devices + process_devices if target_state == 'active': processed_devices = wait_for_devices_active( module, packet_conn, processed_devices) return { 'changed': changed, 'devices': [serialize_device(d) for d in processed_devices] } def main(): module = AnsibleModule( argument_spec=dict( auth_token=dict(default=os.environ.get(PACKET_API_TOKEN_ENV_VAR), no_log=True), count=dict(type='int', default=1), count_offset=dict(type='int', default=1), device_ids=dict(type='list', elements='str'), facility=dict(), features=dict(type='dict'), hostnames=dict(type='list', elements='str', aliases=['name']), tags=dict(type='list', elements='str'), locked=dict(type='bool', default=False, aliases=['lock']), operating_system=dict(), plan=dict(), project_id=dict(required=True), state=dict(choices=ALLOWED_STATES, default='present'), user_data=dict(), wait_for_public_IPv=dict(type='int', choices=[4, 6]), wait_timeout=dict(type='int', default=900), ipxe_script_url=dict(default=''), always_pxe=dict(type='bool', default=False), ), required_one_of=[('device_ids', 'hostnames',)], mutually_exclusive=[ ('hostnames', 'device_ids'), ('count', 'device_ids'), ('count_offset', 'device_ids'), ] ) if not HAS_PACKET_SDK: module.fail_json(msg='packet required for this module') if not module.params.get('auth_token'): _fail_msg = ("if Packet API token is not in environment variable %s, " "the auth_token parameter is required" % PACKET_API_TOKEN_ENV_VAR) module.fail_json(msg=_fail_msg) auth_token = module.params.get('auth_token') packet_conn = packet.Manager(auth_token=auth_token) state = module.params.get('state') try: module.exit_json(**act_on_devices(module, packet_conn, state)) except Exception as e: module.fail_json(msg='failed to set device state %s, error: %s' % (state, to_native(e)), exception=traceback.format_exc()) if __name__ == '__main__': main()