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#!/usr/bin/python
# -*- coding: utf-8 -*-
# Copyright (c) 2022, Masayoshi Mizuma <msys.mizuma@gmail.com>
# 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:
- Masayoshi Mizuma (@mizumm)
module: pmem
short_description: Configure Intel Optane Persistent Memory modules
version_added: 4.5.0
description:
- This module allows Configuring Intel Optane Persistent Memory modules
(PMem) using ipmctl and ndctl command line tools.
requirements:
- ipmctl and ndctl command line tools
- xmltodict
extends_documentation_fragment:
- community.general.attributes
attributes:
check_mode:
support: none
diff_mode:
support: none
options:
appdirect:
description:
- Percentage of the total capacity to use in AppDirect Mode (C(0)-C(100)).
- Create AppDirect capacity utilizing hardware interleaving across the
requested PMem modules if applicable given the specified target.
- Total of I(appdirect), I(memorymode) and I(reserved) must be C(100)
type: int
appdirect_interleaved:
description:
- Create AppDirect capacity that is interleaved any other PMem modules.
type: bool
required: false
default: true
memorymode:
description:
- Percentage of the total capacity to use in Memory Mode (C(0)-C(100)).
type: int
reserved:
description:
- Percentage of the capacity to reserve (C(0)-C(100)). I(reserved) will not be mapped
into the system physical address space and will be presented as reserved
capacity with Show Device and Show Memory Resources Commands.
- I(reserved) will be set automatically if this is not configured.
type: int
required: false
socket:
description:
- This enables to set the configuration for each socket by using the socket ID.
- Total of I(appdirect), I(memorymode) and I(reserved) must be C(100) within one socket.
type: list
elements: dict
suboptions:
id:
description: The socket ID of the PMem module.
type: int
required: true
appdirect:
description:
- Percentage of the total capacity to use in AppDirect Mode (C(0)-C(100)) within the socket ID.
type: int
required: true
appdirect_interleaved:
description:
- Create AppDirect capacity that is interleaved any other PMem modules within the socket ID.
type: bool
required: false
default: true
memorymode:
description:
- Percentage of the total capacity to use in Memory Mode (C(0)-C(100)) within the socket ID.
type: int
required: true
reserved:
description:
- Percentage of the capacity to reserve (C(0)-C(100)) within the socket ID.
type: int
namespace:
description:
- This enables to set the configuration for the namespace of the PMem.
type: list
elements: dict
suboptions:
mode:
description:
- The mode of namespace. The detail of the mode is in the man page of ndctl-create-namespace.
type: str
required: true
choices: ['raw', 'sector', 'fsdax', 'devdax']
type:
description:
- The type of namespace. The detail of the type is in the man page of ndctl-create-namespace.
type: str
required: false
choices: ['pmem', 'blk']
size:
description:
- The size of namespace. This option supports the suffixes C(k) or C(K) or C(KB) for KiB,
C(m) or C(M) or C(MB) for MiB, C(g) or C(G) or C(GB) for GiB and C(t) or C(T) or C(TB) for TiB.
- This option is required if multiple namespaces are configured.
- If this option is not set, all of the available space of a region is configured.
type: str
required: false
namespace_append:
description:
- Enable to append the new namespaces to the system.
- The default is C(false) so the all existing namespaces not listed in I(namespace) are removed.
type: bool
default: false
required: false
'''
RETURN = r'''
reboot_required:
description: Indicates that the system reboot is required to complete the PMem configuration.
returned: success
type: bool
sample: true
result:
description:
- Shows the value of AppDirect, Memory Mode and Reserved size in bytes.
- If I(socket) argument is provided, shows the values in each socket with C(socket) which contains the socket ID.
- If I(namespace) argument is provided, shows the detail of each namespace.
returned: success
type: list
elements: dict
contains:
appdirect:
description: AppDirect size in bytes.
type: int
memorymode:
description: Memory Mode size in bytes.
type: int
reserved:
description: Reserved size in bytes.
type: int
socket:
description: The socket ID to be configured.
type: int
namespace:
description: The list of the detail of namespace.
type: list
sample: [
{
"appdirect": 111669149696,
"memorymode": 970662608896,
"reserved": 3626500096,
"socket": 0
},
{
"appdirect": 111669149696,
"memorymode": 970662608896,
"reserved": 3626500096,
"socket": 1
}
]
'''
EXAMPLES = r'''
- name: Configure the Pmem as AppDirect 10, Memory Mode 70, and the Reserved 20 percent.
community.general.pmem:
appdirect: 10
memorymode: 70
- name: Configure the Pmem as AppDirect 10, Memory Mode 80, and the Reserved 10 percent.
community.general.pmem:
appdirect: 10
memorymode: 80
reserved: 10
- name: Configure the Pmem as AppDirect with not interleaved 10, Memory Mode 70, and the Reserved 20 percent.
community.general.pmem:
appdirect: 10
appdirect_interleaved: false
memorymode: 70
- name: Configure the Pmem each socket.
community.general.pmem:
socket:
- id: 0
appdirect: 10
appdirect_interleaved: false
memorymode: 70
reserved: 20
- id: 1
appdirect: 10
memorymode: 80
reserved: 10
- name: Configure the two namespaces.
community.general.pmem:
namespace:
- size: 1GB
type: pmem
mode: raw
- size: 320MB
type: pmem
mode: sector
'''
import json
import re
import traceback
from ansible.module_utils.basic import AnsibleModule, missing_required_lib, human_to_bytes
try:
import xmltodict
except ImportError:
HAS_XMLTODICT_LIBRARY = False
XMLTODICT_LIBRARY_IMPORT_ERROR = traceback.format_exc()
else:
HAS_XMLTODICT_LIBRARY = True
XMLTODICT_LIBRARY_IMPORT_ERROR = None
class PersistentMemory(object):
def __init__(self):
module = AnsibleModule(
argument_spec=dict(
appdirect=dict(type='int'),
appdirect_interleaved=dict(type='bool', default=True),
memorymode=dict(type='int'),
reserved=dict(type='int'),
socket=dict(
type='list', elements='dict',
options=dict(
id=dict(required=True, type='int'),
appdirect=dict(required=True, type='int'),
appdirect_interleaved=dict(type='bool', default=True),
memorymode=dict(required=True, type='int'),
reserved=dict(type='int'),
),
),
namespace=dict(
type='list', elements='dict',
options=dict(
mode=dict(required=True, type='str', choices=['raw', 'sector', 'fsdax', 'devdax']),
type=dict(type='str', choices=['pmem', 'blk']),
size=dict(type='str'),
),
),
namespace_append=dict(type='bool', default=False),
),
required_together=(
['appdirect', 'memorymode'],
),
required_one_of=(
['appdirect', 'memorymode', 'socket', 'namespace'],
),
mutually_exclusive=(
['appdirect', 'socket'],
['memorymode', 'socket'],
['appdirect', 'namespace'],
['memorymode', 'namespace'],
['socket', 'namespace'],
['appdirect', 'namespace_append'],
['memorymode', 'namespace_append'],
['socket', 'namespace_append'],
),
)
if not HAS_XMLTODICT_LIBRARY:
module.fail_json(
msg=missing_required_lib('xmltodict'),
exception=XMLTODICT_LIBRARY_IMPORT_ERROR)
self.ipmctl_exec = module.get_bin_path('ipmctl', True)
self.ndctl_exec = module.get_bin_path('ndctl', True)
self.appdirect = module.params['appdirect']
self.interleaved = module.params['appdirect_interleaved']
self.memmode = module.params['memorymode']
self.reserved = module.params['reserved']
self.socket = module.params['socket']
self.namespace = module.params['namespace']
self.namespace_append = module.params['namespace_append']
self.module = module
self.changed = False
self.result = []
def pmem_run_command(self, command, returnCheck=True):
# in case command[] has number
cmd = [str(part) for part in command]
self.module.log(msg='pmem_run_command: execute: %s' % cmd)
rc, out, err = self.module.run_command(cmd)
self.module.log(msg='pmem_run_command: result: %s' % out)
if returnCheck and rc != 0:
self.module.fail_json(msg='Error while running: %s' %
cmd, rc=rc, out=out, err=err)
return out
def pmem_run_ipmctl(self, command, returnCheck=True):
command = [self.ipmctl_exec] + command
return self.pmem_run_command(command, returnCheck)
def pmem_run_ndctl(self, command, returnCheck=True):
command = [self.ndctl_exec] + command
return self.pmem_run_command(command, returnCheck)
def pmem_is_dcpmm_installed(self):
# To check this system has dcpmm
command = ['show', '-system', '-capabilities']
return self.pmem_run_ipmctl(command)
def pmem_get_region_align_size(self, region):
aligns = []
for rg in region:
if rg['align'] not in aligns:
aligns.append(rg['align'])
return aligns
def pmem_get_available_region_size(self, region):
available_size = []
for rg in region:
available_size.append(rg['available_size'])
return available_size
def pmem_get_available_region_type(self, region):
types = []
for rg in region:
if rg['type'] not in types:
types.append(rg['type'])
return types
def pmem_argument_check(self):
def namespace_check(self):
command = ['list', '-R']
out = self.pmem_run_ndctl(command)
if not out:
return 'Available region(s) is not in this system.'
region = json.loads(out)
aligns = self.pmem_get_region_align_size(region)
if len(aligns) != 1:
return 'Not supported the regions whose alignment size is different.'
available_size = self.pmem_get_available_region_size(region)
types = self.pmem_get_available_region_type(region)
for ns in self.namespace:
if ns['size']:
try:
size_byte = human_to_bytes(ns['size'])
except ValueError:
return 'The format of size: NNN TB|GB|MB|KB|T|G|M|K|B'
if size_byte % aligns[0] != 0:
return 'size: %s should be align with %d' % (ns['size'], aligns[0])
is_space_enough = False
for i, avail in enumerate(available_size):
if avail > size_byte:
available_size[i] -= size_byte
is_space_enough = True
break
if is_space_enough is False:
return 'There is not available region for size: %s' % ns['size']
ns['size_byte'] = size_byte
elif len(self.namespace) != 1:
return 'size option is required to configure multiple namespaces'
if ns['type'] not in types:
return 'type %s is not supported in this system. Supported type: %s' % (ns['type'], types)
return None
def percent_check(self, appdirect, memmode, reserved=None):
if appdirect is None or (appdirect < 0 or appdirect > 100):
return 'appdirect percent should be from 0 to 100.'
if memmode is None or (memmode < 0 or memmode > 100):
return 'memorymode percent should be from 0 to 100.'
if reserved is None:
if appdirect + memmode > 100:
return 'Total percent should be less equal 100.'
else:
if reserved < 0 or reserved > 100:
return 'reserved percent should be from 0 to 100.'
if appdirect + memmode + reserved != 100:
return 'Total percent should be 100.'
def socket_id_check(self):
command = ['show', '-o', 'nvmxml', '-socket']
out = self.pmem_run_ipmctl(command)
sockets_dict = xmltodict.parse(out, dict_constructor=dict)['SocketList']['Socket']
socket_ids = []
for sl in sockets_dict:
socket_ids.append(int(sl['SocketID'], 16))
for skt in self.socket:
if skt['id'] not in socket_ids:
return 'Invalid socket number: %d' % skt['id']
return None
if self.namespace:
return namespace_check(self)
elif self.socket is None:
return percent_check(self, self.appdirect, self.memmode, self.reserved)
else:
ret = socket_id_check(self)
if ret is not None:
return ret
for skt in self.socket:
ret = percent_check(
self, skt['appdirect'], skt['memorymode'], skt['reserved'])
if ret is not None:
return ret
return None
def pmem_remove_namespaces(self):
command = ['list', '-N']
out = self.pmem_run_ndctl(command)
# There's nothing namespaces in this system. Nothing to do.
if not out:
return
namespaces = json.loads(out)
# Disable and destroy all namespaces
for ns in namespaces:
command = ['disable-namespace', ns['dev']]
self.pmem_run_ndctl(command)
command = ['destroy-namespace', ns['dev']]
self.pmem_run_ndctl(command)
return
def pmem_delete_goal(self):
# delete the goal request
command = ['delete', '-goal']
self.pmem_run_ipmctl(command)
def pmem_init_env(self):
if self.namespace is None or (self.namespace and self.namespace_append is False):
self.pmem_remove_namespaces()
if self.namespace is None:
self.pmem_delete_goal()
def pmem_get_capacity(self, skt=None):
command = ['show', '-d', 'Capacity', '-u', 'B', '-o', 'nvmxml', '-dimm']
if skt:
command += ['-socket', skt['id']]
out = self.pmem_run_ipmctl(command)
dimm_list = xmltodict.parse(out, dict_constructor=dict)['DimmList']['Dimm']
capacity = 0
for entry in dimm_list:
for key, v in entry.items():
if key == 'Capacity':
capacity += int(v.split()[0])
return capacity
def pmem_create_memory_allocation(self, skt=None):
def build_ipmctl_creation_opts(self, skt=None):
ipmctl_opts = []
if skt:
appdirect = skt['appdirect']
memmode = skt['memorymode']
reserved = skt['reserved']
socket_id = skt['id']
ipmctl_opts += ['-socket', socket_id]
else:
appdirect = self.appdirect
memmode = self.memmode
reserved = self.reserved
if reserved is None:
res = 100 - memmode - appdirect
ipmctl_opts += ['memorymode=%d' % memmode, 'reserved=%d' % res]
else:
ipmctl_opts += ['memorymode=%d' % memmode, 'reserved=%d' % reserved]
if self.interleaved:
ipmctl_opts += ['PersistentMemoryType=AppDirect']
else:
ipmctl_opts += ['PersistentMemoryType=AppDirectNotInterleaved']
return ipmctl_opts
def is_allocation_good(self, ipmctl_out, command):
warning = re.compile('WARNING')
error = re.compile('.*Error.*')
ignore_error = re.compile(
'Do you want to continue? [y/n] Error: Invalid data input.')
errmsg = ''
rc = True
for line in ipmctl_out.splitlines():
if warning.match(line):
errmsg = '%s (command: %s)' % (line, command)
rc = False
break
elif error.match(line):
if not ignore_error:
errmsg = '%s (command: %s)' % (line, command)
rc = False
break
return rc, errmsg
def get_allocation_result(self, goal, skt=None):
ret = {'appdirect': 0, 'memorymode': 0}
if skt:
ret['socket'] = skt['id']
out = xmltodict.parse(goal, dict_constructor=dict)['ConfigGoalList']['ConfigGoal']
for entry in out:
# Probably it's a bug of ipmctl to show the socket goal
# which isn't specified by the -socket option.
# Anyway, filter the noise out here:
if skt and skt['id'] != int(entry['SocketID'], 16):
continue
for key, v in entry.items():
if key == 'MemorySize':
ret['memorymode'] += int(v.split()[0])
elif key == 'AppDirect1Size' or key == 'AapDirect2Size':
ret['appdirect'] += int(v.split()[0])
capacity = self.pmem_get_capacity(skt)
ret['reserved'] = capacity - ret['appdirect'] - ret['memorymode']
return ret
reboot_required = False
ipmctl_opts = build_ipmctl_creation_opts(self, skt)
# First, do dry run ipmctl create command to check the error and warning.
command = ['create', '-goal'] + ipmctl_opts
out = self.pmem_run_ipmctl(command, returnCheck=False)
rc, errmsg = is_allocation_good(self, out, command)
if rc is False:
return reboot_required, {}, errmsg
# Run actual creation here
command = ['create', '-u', 'B', '-o', 'nvmxml', '-force', '-goal'] + ipmctl_opts
goal = self.pmem_run_ipmctl(command)
ret = get_allocation_result(self, goal, skt)
reboot_required = True
return reboot_required, ret, ''
def pmem_config_namespaces(self, namespace):
command = ['create-namespace', '-m', namespace['mode']]
if namespace['type']:
command += ['-t', namespace['type']]
if 'size_byte' in namespace:
command += ['-s', namespace['size_byte']]
self.pmem_run_ndctl(command)
return None
def main():
pmem = PersistentMemory()
pmem.pmem_is_dcpmm_installed()
error = pmem.pmem_argument_check()
if error:
pmem.module.fail_json(msg=error)
pmem.pmem_init_env()
pmem.changed = True
if pmem.namespace:
for ns in pmem.namespace:
pmem.pmem_config_namespaces(ns)
command = ['list', '-N']
out = pmem.pmem_run_ndctl(command)
all_ns = json.loads(out)
pmem.result = all_ns
reboot_required = False
elif pmem.socket is None:
reboot_required, ret, errmsg = pmem.pmem_create_memory_allocation()
if errmsg:
pmem.module.fail_json(msg=errmsg)
pmem.result.append(ret)
else:
for skt in pmem.socket:
skt_reboot_required, skt_ret, skt_errmsg = pmem.pmem_create_memory_allocation(skt)
if skt_errmsg:
pmem.module.fail_json(msg=skt_errmsg)
if skt_reboot_required:
reboot_required = True
pmem.result.append(skt_ret)
pmem.module.exit_json(
changed=pmem.changed,
reboot_required=reboot_required,
result=pmem.result
)
if __name__ == '__main__':
main()