#!/usr/bin/python # -*- coding: utf-8 -*- # (c) 2016, Alain Dejoux # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt) from __future__ import absolute_import, division, print_function __metaclass__ = type ANSIBLE_METADATA = {'metadata_version': '1.1', 'status': ['preview'], 'supported_by': 'community'} DOCUMENTATION = r''' --- author: - Alain Dejoux (@adejoux) module: aix_lvol short_description: Configure AIX LVM logical volumes description: - This module creates, removes or resizes AIX logical volumes. Inspired by lvol module. version_added: "2.4" options: vg: description: - The volume group this logical volume is part of. required: true lv: description: - The name of the logical volume. required: true lv_type: description: - The type of the logical volume. default: jfs2 size: description: - The size of the logical volume with one of the [MGT] units. copies: description: - The number of copies of the logical volume. Maximum copies are 3. default: '1' policy: choices: [ maximum, minimum ] default: maximum description: - Sets the interphysical volume allocation policy. C(maximum) allocates logical partitions across the maximum number of physical volumes. C(minimum) allocates logical partitions across the minimum number of physical volumes. state: choices: [ absent, present ] default: present description: - Control if the logical volume exists. If C(present) and the volume does not already exist then the C(size) option is required. opts: description: - Free-form options to be passed to the mklv command. pvs: description: - Comma separated list of physical volumes e.g. C(hdisk1,hdisk2). ''' EXAMPLES = r''' - name: Create a logical volume of 512M aix_lvol: vg: testvg lv: testlv size: 512M - name: Create a logical volume of 512M with disks hdisk1 and hdisk2 aix_lvol: vg: testvg lv: test2lv size: 512M pvs: hdisk1,hdisk2 - name: Create a logical volume of 512M mirrored aix_lvol: vg: testvg lv: test3lv size: 512M copies: 2 - name: Create a logical volume of 1G with a minimum placement policy aix_lvol: vg: rootvg lv: test4lv size: 1G policy: minimum - name: Create a logical volume with special options like mirror pool aix_lvol: vg: testvg lv: testlv size: 512M opts: -p copy1=poolA -p copy2=poolB - name: Extend the logical volume to 1200M aix_lvol: vg: testvg lv: test4lv size: 1200M - name: Remove the logical volume aix_lvol: vg: testvg lv: testlv state: absent ''' RETURN = r''' msg: type: string description: A friendly message describing the task result. returned: always sample: Logical volume testlv created. ''' import re from ansible.module_utils.basic import AnsibleModule def convert_size(module, size): unit = size[-1].upper() units = ['M', 'G', 'T'] try: multiplier = 1024 ** units.index(unit) except ValueError: module.fail_json(msg="No valid size unit specified.") return int(size[:-1]) * multiplier def round_ppsize(x, base=16): new_size = int(base * round(float(x) / base)) if new_size < x: new_size += base return new_size def parse_lv(data): name = None for line in data.splitlines(): match = re.search(r"LOGICAL VOLUME:\s+(\w+)\s+VOLUME GROUP:\s+(\w+)", line) if match is not None: name = match.group(1) vg = match.group(2) continue match = re.search(r"LPs:\s+(\d+).*PPs", line) if match is not None: lps = int(match.group(1)) continue match = re.search(r"PP SIZE:\s+(\d+)", line) if match is not None: pp_size = int(match.group(1)) continue match = re.search(r"INTER-POLICY:\s+(\w+)", line) if match is not None: policy = match.group(1) continue if not name: return None size = lps * pp_size return {'name': name, 'vg': vg, 'size': size, 'policy': policy} def parse_vg(data): for line in data.splitlines(): match = re.search(r"VOLUME GROUP:\s+(\w+)", line) if match is not None: name = match.group(1) continue match = re.search(r"TOTAL PP.*\((\d+)", line) if match is not None: size = int(match.group(1)) continue match = re.search(r"PP SIZE:\s+(\d+)", line) if match is not None: pp_size = int(match.group(1)) continue match = re.search(r"FREE PP.*\((\d+)", line) if match is not None: free = int(match.group(1)) continue return {'name': name, 'size': size, 'free': free, 'pp_size': pp_size} def main(): module = AnsibleModule( argument_spec=dict( vg=dict(type='str', required=True), lv=dict(type='str', required=True), lv_type=dict(type='str', default='jfs2'), size=dict(type='str'), opts=dict(type='str', default=''), copies=dict(type='str', default='1'), state=dict(type='str', default='present', choices=['absent', 'present']), policy=dict(type='str', default='maximum', choices=['maximum', 'minimum']), pvs=dict(type='list', default=list()) ), supports_check_mode=True, ) vg = module.params['vg'] lv = module.params['lv'] lv_type = module.params['lv_type'] size = module.params['size'] opts = module.params['opts'] copies = module.params['copies'] policy = module.params['policy'] state = module.params['state'] pvs = module.params['pvs'] pv_list = ' '.join(pvs) if policy == 'maximum': lv_policy = 'x' else: lv_policy = 'm' # Add echo command when running in check-mode if module.check_mode: test_opt = 'echo ' else: test_opt = '' # check if system commands are available lsvg_cmd = module.get_bin_path("lsvg", required=True) lslv_cmd = module.get_bin_path("lslv", required=True) # Get information on volume group requested rc, vg_info, err = module.run_command("%s %s" % (lsvg_cmd, vg)) if rc != 0: if state == 'absent': module.exit_json(changed=False, msg="Volume group %s does not exist." % vg) else: module.fail_json(msg="Volume group %s does not exist." % vg, rc=rc, out=vg_info, err=err) this_vg = parse_vg(vg_info) if size is not None: # Calculate pp size and round it up based on pp size. lv_size = round_ppsize(convert_size(module, size), base=this_vg['pp_size']) # Get information on logical volume requested rc, lv_info, err = module.run_command( "%s %s" % (lslv_cmd, lv)) if rc != 0: if state == 'absent': module.exit_json(changed=False, msg="Logical Volume %s does not exist." % lv) changed = False this_lv = parse_lv(lv_info) if state == 'present' and not size: if this_lv is None: module.fail_json(msg="No size given.") if this_lv is None: if state == 'present': if lv_size > this_vg['free']: module.fail_json(msg="Not enough free space in volume group %s: %s MB free." % (this_vg['name'], this_vg['free'])) # create LV mklv_cmd = module.get_bin_path("mklv", required=True) cmd = "%s %s -t %s -y %s -c %s -e %s %s %s %sM %s" % (test_opt, mklv_cmd, lv_type, lv, copies, lv_policy, opts, vg, lv_size, pv_list) rc, out, err = module.run_command(cmd) if rc == 0: module.exit_json(changed=True, msg="Logical volume %s created." % lv) else: module.fail_json(msg="Creating logical volume %s failed." % lv, rc=rc, out=out, err=err) else: if state == 'absent': # remove LV rmlv_cmd = module.get_bin_path("rmlv", required=True) rc, out, err = module.run_command("%s %s -f %s" % (test_opt, rmlv_cmd, this_lv['name'])) if rc == 0: module.exit_json(changed=True, msg="Logical volume %s deleted." % lv) else: module.fail_json(msg="Failed to remove logical volume %s." % lv, rc=rc, out=out, err=err) else: if this_lv['policy'] != policy: # change lv allocation policy chlv_cmd = module.get_bin_path("chlv", required=True) rc, out, err = module.run_command("%s %s -e %s %s" % (test_opt, chlv_cmd, lv_policy, this_lv['name'])) if rc == 0: module.exit_json(changed=True, msg="Logical volume %s policy changed: %s." % (lv, policy)) else: module.fail_json(msg="Failed to change logical volume %s policy." % lv, rc=rc, out=out, err=err) if vg != this_lv['vg']: module.fail_json(msg="Logical volume %s already exist in volume group %s" % (lv, this_lv['vg'])) # from here the last remaining action is to resize it, if no size parameter is passed we do nothing. if not size: module.exit_json(changed=False, msg="Logical volume %s already exist." % (lv)) # resize LV based on absolute values if int(lv_size) > this_lv['size']: extendlv_cmd = module.get_bin_path("extendlv", required=True) cmd = "%s %s %s %sM" % (test_opt, extendlv_cmd, lv, lv_size - this_lv['size']) rc, out, err = module.run_command(cmd) if rc == 0: module.exit_json(changed=True, msg="Logical volume %s size extended to %sMB." % (lv, lv_size)) else: module.fail_json(msg="Unable to resize %s to %sMB." % (lv, lv_size), rc=rc, out=out, err=err) elif lv_size < this_lv['size']: module.fail_json(msg="No shrinking of Logical Volume %s permitted. Current size: %s MB" % (lv, this_lv['size'])) else: module.exit_json(changed=False, msg="Logical volume %s size is already %sMB." % (lv, lv_size)) if __name__ == '__main__': main()