#!/usr/bin/python # -*- coding: utf-8 -*- # Copyright (c) 2013, Alexander Bulimov # Based on lvol module by Jeroen Hoekx # 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 = r''' --- author: - Alexander Bulimov (@abulimov) module: lvg short_description: Configure LVM volume groups description: - This module creates, removes or resizes volume groups. extends_documentation_fragment: - community.general.attributes attributes: check_mode: support: full diff_mode: support: none options: vg: description: - The name of the volume group. type: str required: true pvs: description: - List of comma-separated devices to use as physical devices in this volume group. - Required when creating or resizing volume group. - The module will take care of running pvcreate if needed. type: list elements: str pesize: description: - "The size of the physical extent. O(pesize) must be a power of 2 of at least 1 sector (where the sector size is the largest sector size of the PVs currently used in the VG), or at least 128KiB." - O(pesize) can be optionally suffixed by a UNIT (k/K/m/M/g/G), default unit is megabyte. type: str default: "4" pv_options: description: - Additional options to pass to C(pvcreate) when creating the volume group. type: str default: '' pvresize: description: - If V(true), resize the physical volume to the maximum available size. type: bool default: false version_added: '0.2.0' vg_options: description: - Additional options to pass to C(vgcreate) when creating the volume group. type: str default: '' state: description: - Control if the volume group exists and it's state. - The states V(active) and V(inactive) implies V(present) state. Added in 7.1.0 - "If V(active) or V(inactive), the module manages the VG's logical volumes current state. The module also handles the VG's autoactivation state if supported unless when creating a volume group and the autoactivation option specified in O(vg_options)." type: str choices: [ absent, present, active, inactive ] default: present force: description: - If V(true), allows to remove volume group with logical volumes. type: bool default: false reset_vg_uuid: description: - Whether the volume group's UUID is regenerated. - This is B(not idempotent). Specifying this parameter always results in a change. type: bool default: false version_added: 7.1.0 reset_pv_uuid: description: - Whether the volume group's physical volumes' UUIDs are regenerated. - This is B(not idempotent). Specifying this parameter always results in a change. type: bool default: false version_added: 7.1.0 seealso: - module: community.general.filesystem - module: community.general.lvol - module: community.general.parted notes: - This module does not modify PE size for already present volume group. ''' EXAMPLES = r''' - name: Create a volume group on top of /dev/sda1 with physical extent size = 32MB community.general.lvg: vg: vg.services pvs: /dev/sda1 pesize: 32 - name: Create a volume group on top of /dev/sdb with physical extent size = 128KiB community.general.lvg: vg: vg.services pvs: /dev/sdb pesize: 128K # If, for example, we already have VG vg.services on top of /dev/sdb1, # this VG will be extended by /dev/sdc5. Or if vg.services was created on # top of /dev/sda5, we first extend it with /dev/sdb1 and /dev/sdc5, # and then reduce by /dev/sda5. - name: Create or resize a volume group on top of /dev/sdb1 and /dev/sdc5. community.general.lvg: vg: vg.services pvs: /dev/sdb1,/dev/sdc5 - name: Remove a volume group with name vg.services community.general.lvg: vg: vg.services state: absent - name: Create a volume group on top of /dev/sda3 and resize the volume group /dev/sda3 to the maximum possible community.general.lvg: vg: resizableVG pvs: /dev/sda3 pvresize: true - name: Deactivate a volume group community.general.lvg: state: inactive vg: vg.services - name: Activate a volume group community.general.lvg: state: active vg: vg.services - name: Reset a volume group UUID community.general.lvg: state: inactive vg: vg.services reset_vg_uuid: true - name: Reset both volume group and pv UUID community.general.lvg: state: inactive vg: vg.services pvs: /dev/sdb1,/dev/sdc5 reset_vg_uuid: true reset_pv_uuid: true ''' import itertools import os from ansible.module_utils.basic import AnsibleModule VG_AUTOACTIVATION_OPT = '--setautoactivation' def parse_vgs(data): vgs = [] for line in data.splitlines(): parts = line.strip().split(';') vgs.append({ 'name': parts[0], 'pv_count': int(parts[1]), 'lv_count': int(parts[2]), }) return vgs def find_mapper_device_name(module, dm_device): dmsetup_cmd = module.get_bin_path('dmsetup', True) mapper_prefix = '/dev/mapper/' rc, dm_name, err = module.run_command([dmsetup_cmd, "info", "-C", "--noheadings", "-o", "name", dm_device]) if rc != 0: module.fail_json(msg="Failed executing dmsetup command.", rc=rc, err=err) mapper_device = mapper_prefix + dm_name.rstrip() return mapper_device def parse_pvs(module, data): pvs = [] dm_prefix = '/dev/dm-' for line in data.splitlines(): parts = line.strip().split(';') if parts[0].startswith(dm_prefix): parts[0] = find_mapper_device_name(module, parts[0]) pvs.append({ 'name': parts[0], 'vg_name': parts[1], }) return pvs def find_vg(module, vg): if not vg: return None vgs_cmd = module.get_bin_path('vgs', True) dummy, current_vgs, dummy = module.run_command([vgs_cmd, "--noheadings", "-o", "vg_name,pv_count,lv_count", "--separator", ";"], check_rc=True) vgs = parse_vgs(current_vgs) for test_vg in vgs: if test_vg['name'] == vg: this_vg = test_vg break else: this_vg = None return this_vg def is_autoactivation_supported(module, vg_cmd): autoactivation_supported = False dummy, vgchange_opts, dummy = module.run_command([vg_cmd, '--help'], check_rc=True) if VG_AUTOACTIVATION_OPT in vgchange_opts: autoactivation_supported = True return autoactivation_supported def activate_vg(module, vg, active): changed = False vgchange_cmd = module.get_bin_path('vgchange', True) vgs_cmd = module.get_bin_path('vgs', True) vgs_fields = ['lv_attr'] autoactivation_enabled = False autoactivation_supported = is_autoactivation_supported(module=module, vg_cmd=vgchange_cmd) if autoactivation_supported: vgs_fields.append('autoactivation') vgs_cmd_with_opts = [vgs_cmd, '--noheadings', '-o', ','.join(vgs_fields), '--separator', ';', vg] dummy, current_vg_lv_states, dummy = module.run_command(vgs_cmd_with_opts, check_rc=True) lv_active_count = 0 lv_inactive_count = 0 for line in current_vg_lv_states.splitlines(): parts = line.strip().split(';') if parts[0][4] == 'a': lv_active_count += 1 else: lv_inactive_count += 1 if autoactivation_supported: autoactivation_enabled = autoactivation_enabled or parts[1] == 'enabled' activate_flag = None if active and lv_inactive_count > 0: activate_flag = 'y' elif not active and lv_active_count > 0: activate_flag = 'n' # Extra logic necessary because vgchange returns error when autoactivation is already set if autoactivation_supported: if active and not autoactivation_enabled: if module.check_mode: changed = True else: module.run_command([vgchange_cmd, VG_AUTOACTIVATION_OPT, 'y', vg], check_rc=True) changed = True elif not active and autoactivation_enabled: if module.check_mode: changed = True else: module.run_command([vgchange_cmd, VG_AUTOACTIVATION_OPT, 'n', vg], check_rc=True) changed = True if activate_flag is not None: if module.check_mode: changed = True else: module.run_command([vgchange_cmd, '--activate', activate_flag, vg], check_rc=True) changed = True return changed def append_vgcreate_options(module, state, vgoptions): vgcreate_cmd = module.get_bin_path('vgcreate', True) autoactivation_supported = is_autoactivation_supported(module=module, vg_cmd=vgcreate_cmd) if autoactivation_supported and state in ['active', 'inactive']: if VG_AUTOACTIVATION_OPT not in vgoptions: if state == 'active': vgoptions += [VG_AUTOACTIVATION_OPT, 'y'] else: vgoptions += [VG_AUTOACTIVATION_OPT, 'n'] def get_pv_values_for_resize(module, device): pvdisplay_cmd = module.get_bin_path('pvdisplay', True) pvdisplay_ops = ["--units", "b", "--columns", "--noheadings", "--nosuffix", "--separator", ";", "-o", "dev_size,pv_size,pe_start,vg_extent_size"] pvdisplay_cmd_device_options = [pvdisplay_cmd, device] + pvdisplay_ops dummy, pv_values, dummy = module.run_command(pvdisplay_cmd_device_options, check_rc=True) values = pv_values.strip().split(';') dev_size = int(values[0]) pv_size = int(values[1]) pe_start = int(values[2]) vg_extent_size = int(values[3]) return (dev_size, pv_size, pe_start, vg_extent_size) def resize_pv(module, device): changed = False pvresize_cmd = module.get_bin_path('pvresize', True) dev_size, pv_size, pe_start, vg_extent_size = get_pv_values_for_resize(module=module, device=device) if (dev_size - (pe_start + pv_size)) > vg_extent_size: if module.check_mode: changed = True else: # If there is a missing pv on the machine, versions of pvresize rc indicates failure. rc, out, err = module.run_command([pvresize_cmd, device]) dummy, new_pv_size, dummy, dummy = get_pv_values_for_resize(module=module, device=device) if pv_size == new_pv_size: module.fail_json(msg="Failed executing pvresize command.", rc=rc, err=err, out=out) else: changed = True return changed def reset_uuid_pv(module, device): changed = False pvs_cmd = module.get_bin_path('pvs', True) pvs_cmd_with_opts = [pvs_cmd, '--noheadings', '-o', 'uuid', device] pvchange_cmd = module.get_bin_path('pvchange', True) pvchange_cmd_with_opts = [pvchange_cmd, '-u', device] dummy, orig_uuid, dummy = module.run_command(pvs_cmd_with_opts, check_rc=True) if module.check_mode: changed = True else: # If there is a missing pv on the machine, pvchange rc indicates failure. pvchange_rc, pvchange_out, pvchange_err = module.run_command(pvchange_cmd_with_opts) dummy, new_uuid, dummy = module.run_command(pvs_cmd_with_opts, check_rc=True) if orig_uuid.strip() == new_uuid.strip(): module.fail_json(msg="PV (%s) UUID change failed" % (device), rc=pvchange_rc, err=pvchange_err, out=pvchange_out) else: changed = True return changed def reset_uuid_vg(module, vg): changed = False vgchange_cmd = module.get_bin_path('vgchange', True) vgchange_cmd_with_opts = [vgchange_cmd, '-u', vg] if module.check_mode: changed = True else: module.run_command(vgchange_cmd_with_opts, check_rc=True) changed = True return changed def main(): module = AnsibleModule( argument_spec=dict( vg=dict(type='str', required=True), pvs=dict(type='list', elements='str'), pesize=dict(type='str', default='4'), pv_options=dict(type='str', default=''), pvresize=dict(type='bool', default=False), vg_options=dict(type='str', default=''), state=dict(type='str', default='present', choices=['absent', 'present', 'active', 'inactive']), force=dict(type='bool', default=False), reset_vg_uuid=dict(type='bool', default=False), reset_pv_uuid=dict(type='bool', default=False), ), required_if=[ ['reset_pv_uuid', True, ['pvs']], ], supports_check_mode=True, ) vg = module.params['vg'] state = module.params['state'] force = module.boolean(module.params['force']) pvresize = module.boolean(module.params['pvresize']) pesize = module.params['pesize'] pvoptions = module.params['pv_options'].split() vgoptions = module.params['vg_options'].split() reset_vg_uuid = module.boolean(module.params['reset_vg_uuid']) reset_pv_uuid = module.boolean(module.params['reset_pv_uuid']) this_vg = find_vg(module=module, vg=vg) present_state = state in ['present', 'active', 'inactive'] pvs_required = present_state and this_vg is None changed = False dev_list = [] if module.params['pvs']: dev_list = list(module.params['pvs']) elif pvs_required: module.fail_json(msg="No physical volumes given.") # LVM always uses real paths not symlinks so replace symlinks with actual path for idx, dev in enumerate(dev_list): dev_list[idx] = os.path.realpath(dev) if present_state: # check given devices for test_dev in dev_list: if not os.path.exists(test_dev): module.fail_json(msg="Device %s not found." % test_dev) # get pv list pvs_cmd = module.get_bin_path('pvs', True) if dev_list: pvs_filter_pv_name = ' || '.join( 'pv_name = {0}'.format(x) for x in itertools.chain(dev_list, module.params['pvs']) ) pvs_filter_vg_name = 'vg_name = {0}'.format(vg) pvs_filter = ["--select", "{0} || {1}".format(pvs_filter_pv_name, pvs_filter_vg_name)] else: pvs_filter = [] rc, current_pvs, err = module.run_command([pvs_cmd, "--noheadings", "-o", "pv_name,vg_name", "--separator", ";"] + pvs_filter) if rc != 0: module.fail_json(msg="Failed executing pvs command.", rc=rc, err=err) # check pv for devices pvs = parse_pvs(module, current_pvs) used_pvs = [pv for pv in pvs if pv['name'] in dev_list and pv['vg_name'] and pv['vg_name'] != vg] if used_pvs: module.fail_json(msg="Device %s is already in %s volume group." % (used_pvs[0]['name'], used_pvs[0]['vg_name'])) if this_vg is None: if present_state: append_vgcreate_options(module=module, state=state, vgoptions=vgoptions) # create VG if module.check_mode: changed = True else: # create PV pvcreate_cmd = module.get_bin_path('pvcreate', True) for current_dev in dev_list: rc, dummy, err = module.run_command([pvcreate_cmd] + pvoptions + ['-f', str(current_dev)]) if rc == 0: changed = True else: module.fail_json(msg="Creating physical volume '%s' failed" % current_dev, rc=rc, err=err) vgcreate_cmd = module.get_bin_path('vgcreate') rc, dummy, err = module.run_command([vgcreate_cmd] + vgoptions + ['-s', pesize, vg] + dev_list) if rc == 0: changed = True else: module.fail_json(msg="Creating volume group '%s' failed" % vg, rc=rc, err=err) else: if state == 'absent': if module.check_mode: module.exit_json(changed=True) else: if this_vg['lv_count'] == 0 or force: # remove VG vgremove_cmd = module.get_bin_path('vgremove', True) rc, dummy, err = module.run_command([vgremove_cmd, "--force", vg]) if rc == 0: module.exit_json(changed=True) else: module.fail_json(msg="Failed to remove volume group %s" % (vg), rc=rc, err=err) else: module.fail_json(msg="Refuse to remove non-empty volume group %s without force=true" % (vg)) # activate/deactivate existing VG elif state == 'active': changed = activate_vg(module=module, vg=vg, active=True) elif state == 'inactive': changed = activate_vg(module=module, vg=vg, active=False) # reset VG uuid if reset_vg_uuid: changed = reset_uuid_vg(module=module, vg=vg) or changed # resize VG if dev_list: current_devs = [os.path.realpath(pv['name']) for pv in pvs if pv['vg_name'] == vg] devs_to_remove = list(set(current_devs) - set(dev_list)) devs_to_add = list(set(dev_list) - set(current_devs)) if current_devs: if present_state: for device in current_devs: if pvresize: changed = resize_pv(module=module, device=device) or changed if reset_pv_uuid: changed = reset_uuid_pv(module=module, device=device) or changed if devs_to_add or devs_to_remove: if module.check_mode: changed = True else: if devs_to_add: # create PV pvcreate_cmd = module.get_bin_path('pvcreate', True) for current_dev in devs_to_add: rc, dummy, err = module.run_command([pvcreate_cmd] + pvoptions + ['-f', str(current_dev)]) if rc == 0: changed = True else: module.fail_json(msg="Creating physical volume '%s' failed" % current_dev, rc=rc, err=err) # add PV to our VG vgextend_cmd = module.get_bin_path('vgextend', True) rc, dummy, err = module.run_command([vgextend_cmd, vg] + devs_to_add) if rc == 0: changed = True else: module.fail_json(msg="Unable to extend %s by %s." % (vg, ' '.join(devs_to_add)), rc=rc, err=err) # remove some PV from our VG if devs_to_remove: vgreduce_cmd = module.get_bin_path('vgreduce', True) rc, dummy, err = module.run_command([vgreduce_cmd, "--force", vg] + devs_to_remove) if rc == 0: changed = True else: module.fail_json(msg="Unable to reduce %s by %s." % (vg, ' '.join(devs_to_remove)), rc=rc, err=err) module.exit_json(changed=changed) if __name__ == '__main__': main()