pvc/client-cli/cli_lib/ceph.py

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#!/usr/bin/env python3
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# ceph.py - PVC CLI client function library, Ceph cluster functions
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# Part of the Parallel Virtual Cluster (PVC) system
#
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# Copyright (C) 2018-2020 Joshua M. Boniface <joshua@boniface.me>
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#
# This program 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.
#
# This program 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 this program. If not, see <https://www.gnu.org/licenses/>.
#
###############################################################################
import json
import math
from requests_toolbelt.multipart.encoder import MultipartEncoder, MultipartEncoderMonitor
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import cli_lib.ansiprint as ansiprint
from cli_lib.common import UploadProgressBar, call_api
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#
# Supplemental functions
#
# Format byte sizes to/from human-readable units
byte_unit_matrix = {
'B': 1,
'K': 1024,
'M': 1024*1024,
'G': 1024*1024*1024,
'T': 1024*1024*1024*1024,
'P': 1024*1024*1024*1024*1024
}
def format_bytes_tohuman(databytes):
datahuman = ''
for unit in sorted(byte_unit_matrix, key=byte_unit_matrix.get, reverse=True):
new_bytes = int(math.ceil(databytes / byte_unit_matrix[unit]))
# Round up if 5 or more digits
if new_bytes > 9999:
# We can jump down another level
continue
else:
# We're at the end, display with this size
datahuman = '{}{}'.format(new_bytes, unit)
return datahuman
def format_bytes_fromhuman(datahuman):
# Trim off human-readable character
dataunit = datahuman[-1]
datasize = int(datahuman[:-1])
databytes = datasize * byte_unit_matrix[dataunit]
return '{}B'.format(databytes)
# Format ops sizes to/from human-readable units
ops_unit_matrix = {
'': 1,
'K': 1000,
'M': 1000*1000,
'G': 1000*1000*1000,
'T': 1000*1000*1000*1000,
'P': 1000*1000*1000*1000*1000
}
def format_ops_tohuman(dataops):
datahuman = ''
for unit in sorted(ops_unit_matrix, key=ops_unit_matrix.get, reverse=True):
new_ops = int(math.ceil(dataops / ops_unit_matrix[unit]))
# Round up if 5 or more digits
if new_ops > 9999:
# We can jump down another level
continue
else:
# We're at the end, display with this size
datahuman = '{}{}'.format(new_ops, unit)
return datahuman
def format_ops_fromhuman(datahuman):
# Trim off human-readable character
dataunit = datahuman[-1]
datasize = int(datahuman[:-1])
dataops = datasize * ops_unit_matrix[dataunit]
return '{}'.format(dataops)
def format_pct_tohuman(datapct):
datahuman = "{0:.1f}".format(float(datapct * 100.0))
return datahuman
#
# Status functions
#
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def ceph_status(config):
"""
Get status of the Ceph cluster
API endpoint: GET /api/v1/storage/ceph/status
API arguments:
API schema: {json_data_object}
"""
response = call_api(config, 'get', '/storage/ceph/status')
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if response.status_code == 200:
return True, response.json()
else:
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return False, response.json().get('message', '')
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def ceph_util(config):
"""
Get utilization of the Ceph cluster
API endpoint: GET /api/v1/storage/ceph/utilization
API arguments:
API schema: {json_data_object}
"""
response = call_api(config, 'get', '/storage/ceph/utilization')
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if response.status_code == 200:
return True, response.json()
else:
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return False, response.json().get('message', '')
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def format_raw_output(status_data):
ainformation = list()
ainformation.append('{bold}Ceph cluster {stype} (primary node {end}{blue}{primary}{end}{bold}){end}\n'.format(bold=ansiprint.bold(), end=ansiprint.end(), blue=ansiprint.blue(), stype=status_data['type'], primary=status_data['primary_node']))
ainformation.append(status_data['ceph_data'])
ainformation.append('')
return '\n'.join(ainformation)
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#
# OSD functions
#
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def ceph_osd_info(config, osd):
"""
Get information about Ceph OSD
API endpoint: GET /api/v1/storage/ceph/osd/{osd}
API arguments:
API schema: {json_data_object}
"""
response = call_api(config, 'get', '/storage/ceph/osd/{osd}'.format(osd=osd))
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if response.status_code == 200:
return True, response.json()
else:
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return False, response.json().get('message', '')
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def ceph_osd_list(config, limit):
"""
Get list information about Ceph OSDs (limited by {limit})
API endpoint: GET /api/v1/storage/ceph/osd
API arguments: limit={limit}
API schema: [{json_data_object},{json_data_object},etc.]
"""
params = dict()
if limit:
params['limit'] = limit
response = call_api(config, 'get', '/storage/ceph/osd', params=params)
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if response.status_code == 200:
return True, response.json()
else:
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return False, response.json().get('message', '')
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def ceph_osd_add(config, node, device, weight):
"""
Add new Ceph OSD
API endpoint: POST /api/v1/storage/ceph/osd
API arguments: node={node}, device={device}, weight={weight}
API schema: {"message":"{data}"}
"""
params = {
'node': node,
'device': device,
'weight': weight
}
response = call_api(config, 'post', '/storage/ceph/osd', params=params)
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def ceph_osd_remove(config, osdid):
"""
Remove Ceph OSD
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API endpoint: DELETE /api/v1/storage/ceph/osd/{osdid}
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API arguments:
API schema: {"message":"{data}"}
"""
params = {
'yes-i-really-mean-it': 'yes'
}
response = call_api(config, 'delete', '/storage/ceph/osd/{osdid}'.format(osdid=osdid), params=params)
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def ceph_osd_state(config, osdid, state):
"""
Set state of Ceph OSD
API endpoint: POST /api/v1/storage/ceph/osd/{osdid}/state
API arguments: state={state}
API schema: {"message":"{data}"}
"""
params = {
'state': state
}
response = call_api(config, 'post', '/storage/ceph/osd/{osdid}/state'.format(osdid=osdid), params=params)
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def ceph_osd_option(config, option, action):
"""
Set cluster option of Ceph OSDs
API endpoint: POST /api/v1/storage/ceph/option
API arguments: option={option}, action={action}
API schema: {"message":"{data}"}
"""
params = {
'option': option,
'action': action
}
response = call_api(config, 'post', '/storage/ceph/option', params=params)
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def getOutputColoursOSD(osd_information):
# Set the UP status
if osd_information['stats']['up'] == 1:
osd_up_flag = 'Yes'
osd_up_colour = ansiprint.green()
else:
osd_up_flag = 'No'
osd_up_colour = ansiprint.red()
# Set the IN status
if osd_information['stats']['in'] == 1:
osd_in_flag = 'Yes'
osd_in_colour = ansiprint.green()
else:
osd_in_flag = 'No'
osd_in_colour = ansiprint.red()
return osd_up_flag, osd_up_colour, osd_in_flag, osd_in_colour
def format_list_osd(osd_list):
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# Handle empty list
if not osd_list:
osd_list = list()
# Handle single-item list
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if not isinstance(osd_list, list):
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osd_list = [ osd_list ]
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osd_list_output = []
osd_id_length = 3
osd_up_length = 4
osd_in_length = 4
osd_size_length = 5
osd_weight_length = 3
osd_reweight_length = 5
osd_pgs_length = 4
osd_node_length = 5
osd_used_length = 5
osd_free_length = 6
osd_util_length = 6
osd_var_length = 5
osd_wrops_length = 4
osd_wrdata_length = 5
osd_rdops_length = 4
osd_rddata_length = 5
for osd_information in osd_list:
try:
# If this happens, the node hasn't checked in fully yet, so just ignore it
if osd_information['stats']['node'] == '|':
continue
except KeyError:
continue
# Deal with the size to human readable
osd_information['stats']['size'] = osd_information['stats']['kb'] * 1024
for datatype in 'size', 'wr_data', 'rd_data':
databytes = osd_information['stats'][datatype]
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if isinstance(databytes, int):
databytes_formatted = format_bytes_tohuman(databytes)
else:
databytes_formatted = databytes
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osd_information['stats'][datatype] = databytes_formatted
for datatype in 'wr_ops', 'rd_ops':
dataops = osd_information['stats'][datatype]
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if isinstance(dataops, int):
dataops_formatted = format_ops_tohuman(dataops)
else:
dataops_formatted = dataops
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osd_information['stats'][datatype] = dataops_formatted
# Set the OSD ID length
_osd_id_length = len(osd_information['id']) + 1
if _osd_id_length > osd_id_length:
osd_id_length = _osd_id_length
_osd_node_length = len(osd_information['stats']['node']) + 1
if _osd_node_length > osd_node_length:
osd_node_length = _osd_node_length
# Set the size and length
_osd_size_length = len(str(osd_information['stats']['size'])) + 1
if _osd_size_length > osd_size_length:
osd_size_length = _osd_size_length
# Set the weight and length
_osd_weight_length = len(str(osd_information['stats']['weight'])) + 1
if _osd_weight_length > osd_weight_length:
osd_weight_length = _osd_weight_length
# Set the reweight and length
_osd_reweight_length = len(str(osd_information['stats']['reweight'])) + 1
if _osd_reweight_length > osd_reweight_length:
osd_reweight_length = _osd_reweight_length
# Set the pgs and length
_osd_pgs_length = len(str(osd_information['stats']['pgs'])) + 1
if _osd_pgs_length > osd_pgs_length:
osd_pgs_length = _osd_pgs_length
# Set the used/available/utlization%/variance and lengths
_osd_used_length = len(osd_information['stats']['used']) + 1
if _osd_used_length > osd_used_length:
osd_used_length = _osd_used_length
_osd_free_length = len(osd_information['stats']['avail']) + 1
if _osd_free_length > osd_free_length:
osd_free_length = _osd_free_length
osd_util = round(osd_information['stats']['utilization'], 2)
_osd_util_length = len(str(osd_util)) + 1
if _osd_util_length > osd_util_length:
osd_util_length = _osd_util_length
osd_var = round(osd_information['stats']['var'], 2)
_osd_var_length = len(str(osd_var)) + 1
if _osd_var_length > osd_var_length:
osd_var_length = _osd_var_length
# Set the read/write IOPS/data and length
_osd_wrops_length = len(osd_information['stats']['wr_ops']) + 1
if _osd_wrops_length > osd_wrops_length:
osd_wrops_length = _osd_wrops_length
_osd_wrdata_length = len(osd_information['stats']['wr_data']) + 1
if _osd_wrdata_length > osd_wrdata_length:
osd_wrdata_length = _osd_wrdata_length
_osd_rdops_length = len(osd_information['stats']['rd_ops']) + 1
if _osd_rdops_length > osd_rdops_length:
osd_rdops_length = _osd_rdops_length
_osd_rddata_length = len(osd_information['stats']['rd_data']) + 1
if _osd_rddata_length > osd_rddata_length:
osd_rddata_length = _osd_rddata_length
# Format the output header
osd_list_output.append('{bold}\
{osd_id: <{osd_id_length}} \
{osd_node: <{osd_node_length}} \
{osd_up: <{osd_up_length}} \
{osd_in: <{osd_in_length}} \
{osd_size: <{osd_size_length}} \
{osd_pgs: <{osd_pgs_length}} \
{osd_weight: <{osd_weight_length}} \
{osd_reweight: <{osd_reweight_length}} \
Sp: {osd_used: <{osd_used_length}} \
{osd_free: <{osd_free_length}} \
{osd_util: <{osd_util_length}} \
{osd_var: <{osd_var_length}} \
Rd: {osd_rdops: <{osd_rdops_length}} \
{osd_rddata: <{osd_rddata_length}} \
Wr: {osd_wrops: <{osd_wrops_length}} \
{osd_wrdata: <{osd_wrdata_length}} \
{end_bold}'.format(
bold=ansiprint.bold(),
end_bold=ansiprint.end(),
osd_id_length=osd_id_length,
osd_node_length=osd_node_length,
osd_up_length=osd_up_length,
osd_in_length=osd_in_length,
osd_size_length=osd_size_length,
osd_pgs_length=osd_pgs_length,
osd_weight_length=osd_weight_length,
osd_reweight_length=osd_reweight_length,
osd_used_length=osd_used_length,
osd_free_length=osd_free_length,
osd_util_length=osd_util_length,
osd_var_length=osd_var_length,
osd_wrops_length=osd_wrops_length,
osd_wrdata_length=osd_wrdata_length,
osd_rdops_length=osd_rdops_length,
osd_rddata_length=osd_rddata_length,
osd_id='ID',
osd_node='Node',
osd_up='Up',
osd_in='In',
osd_size='Size',
osd_pgs='PGs',
osd_weight='Wt',
osd_reweight='ReWt',
osd_used='Used',
osd_free='Free',
osd_util='Util%',
osd_var='Var',
osd_wrops='OPS',
osd_wrdata='Data',
osd_rdops='OPS',
osd_rddata='Data'
)
)
for osd_information in sorted(osd_list, key=lambda x: int(x['id'])):
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try:
# If this happens, the node hasn't checked in fully yet, so just ignore it
if osd_information['stats']['node'] == '|':
continue
except KeyError:
continue
osd_up_flag, osd_up_colour, osd_in_flag, osd_in_colour = getOutputColoursOSD(osd_information)
osd_util = round(osd_information['stats']['utilization'], 2)
osd_var = round(osd_information['stats']['var'], 2)
# Format the output header
osd_list_output.append('{bold}\
{osd_id: <{osd_id_length}} \
{osd_node: <{osd_node_length}} \
{osd_up_colour}{osd_up: <{osd_up_length}}{end_colour} \
{osd_in_colour}{osd_in: <{osd_in_length}}{end_colour} \
{osd_size: <{osd_size_length}} \
{osd_pgs: <{osd_pgs_length}} \
{osd_weight: <{osd_weight_length}} \
{osd_reweight: <{osd_reweight_length}} \
{osd_used: <{osd_used_length}} \
{osd_free: <{osd_free_length}} \
{osd_util: <{osd_util_length}} \
{osd_var: <{osd_var_length}} \
{osd_rdops: <{osd_rdops_length}} \
{osd_rddata: <{osd_rddata_length}} \
{osd_wrops: <{osd_wrops_length}} \
{osd_wrdata: <{osd_wrdata_length}} \
{end_bold}'.format(
bold='',
end_bold='',
end_colour=ansiprint.end(),
osd_id_length=osd_id_length,
osd_node_length=osd_node_length,
osd_up_length=osd_up_length,
osd_in_length=osd_in_length,
osd_size_length=osd_size_length,
osd_pgs_length=osd_pgs_length,
osd_weight_length=osd_weight_length,
osd_reweight_length=osd_reweight_length,
osd_used_length=osd_used_length,
osd_free_length=osd_free_length,
osd_util_length=osd_util_length,
osd_var_length=osd_var_length,
osd_wrops_length=osd_wrops_length,
osd_wrdata_length=osd_wrdata_length,
osd_rdops_length=osd_rdops_length,
osd_rddata_length=osd_rddata_length,
osd_id=osd_information['id'],
osd_node=osd_information['stats']['node'],
osd_up_colour=osd_up_colour,
osd_up=osd_up_flag,
osd_in_colour=osd_in_colour,
osd_in=osd_in_flag,
osd_size=osd_information['stats']['size'],
osd_pgs=osd_information['stats']['pgs'],
osd_weight=osd_information['stats']['weight'],
osd_reweight=osd_information['stats']['reweight'],
osd_used=osd_information['stats']['used'],
osd_free=osd_information['stats']['avail'],
osd_util=osd_util,
osd_var=osd_var,
osd_wrops=osd_information['stats']['wr_ops'],
osd_wrdata=osd_information['stats']['wr_data'],
osd_rdops=osd_information['stats']['rd_ops'],
osd_rddata=osd_information['stats']['rd_data']
)
)
return '\n'.join(osd_list_output)
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#
# Pool functions
#
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def ceph_pool_info(config, pool):
"""
Get information about Ceph OSD
API endpoint: GET /api/v1/storage/ceph/pool/{pool}
API arguments:
API schema: {json_data_object}
"""
response = call_api(config, 'get', '/storage/ceph/pool/{pool}'.format(pool=pool))
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if response.status_code == 200:
return True, response.json()
else:
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return False, response.json().get('message', '')
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def ceph_pool_list(config, limit):
"""
Get list information about Ceph OSDs (limited by {limit})
API endpoint: GET /api/v1/storage/ceph/pool
API arguments: limit={limit}
API schema: [{json_data_object},{json_data_object},etc.]
"""
params = dict()
if limit:
params['limit'] = limit
response = call_api(config, 'get', '/storage/ceph/pool', params=params)
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if response.status_code == 200:
return True, response.json()
else:
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return False, response.json().get('message', '')
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def ceph_pool_add(config, pool, pgs, replcfg):
"""
Add new Ceph OSD
API endpoint: POST /api/v1/storage/ceph/pool
API arguments: pool={pool}, pgs={pgs}, replcfg={replcfg}
API schema: {"message":"{data}"}
"""
params = {
'pool': pool,
'pgs': pgs,
'replcfg': replcfg
}
response = call_api(config, 'post', '/storage/ceph/pool', params=params)
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def ceph_pool_remove(config, pool):
"""
Remove Ceph OSD
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API endpoint: DELETE /api/v1/storage/ceph/pool/{pool}
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API arguments:
API schema: {"message":"{data}"}
"""
params = {
'yes-i-really-mean-it': 'yes'
}
response = call_api(config, 'delete', '/storage/ceph/pool/{pool}'.format(pool=pool), params=params)
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def format_list_pool(pool_list):
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# Handle empty list
if not pool_list:
pool_list = list()
# Handle single-entry list
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if not isinstance(pool_list, list):
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pool_list = [ pool_list ]
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pool_list_output = []
pool_name_length = 5
pool_id_length = 3
pool_used_length = 5
pool_usedpct_length = 5
pool_free_length = 5
pool_num_objects_length = 6
pool_num_clones_length = 7
pool_num_copies_length = 7
pool_num_degraded_length = 9
pool_read_ops_length = 4
pool_read_data_length = 5
pool_write_ops_length = 4
pool_write_data_length = 5
for pool_information in pool_list:
# Deal with the size to human readable
for datatype in ['free_bytes', 'used_bytes', 'write_bytes', 'read_bytes']:
databytes = pool_information['stats'][datatype]
databytes_formatted = format_bytes_tohuman(int(databytes))
pool_information['stats'][datatype] = databytes_formatted
for datatype in ['write_ops', 'read_ops']:
dataops = pool_information['stats'][datatype]
dataops_formatted = format_ops_tohuman(int(dataops))
pool_information['stats'][datatype] = dataops_formatted
for datatype in ['used_percent']:
datapct = pool_information['stats'][datatype]
datapct_formatted = format_pct_tohuman(float(datapct))
pool_information['stats'][datatype] = datapct_formatted
# Set the Pool name length
_pool_name_length = len(pool_information['name']) + 1
if _pool_name_length > pool_name_length:
pool_name_length = _pool_name_length
# Set the id and length
_pool_id_length = len(str(pool_information['stats']['id'])) + 1
if _pool_id_length > pool_id_length:
pool_id_length = _pool_id_length
# Set the used and length
_pool_used_length = len(str(pool_information['stats']['used_bytes'])) + 1
if _pool_used_length > pool_used_length:
pool_used_length = _pool_used_length
# Set the usedpct and length
_pool_usedpct_length = len(str(pool_information['stats']['used_percent'])) + 1
if _pool_usedpct_length > pool_usedpct_length:
pool_usedpct_length = _pool_usedpct_length
# Set the free and length
_pool_free_length = len(str(pool_information['stats']['free_bytes'])) + 1
if _pool_free_length > pool_free_length:
pool_free_length = _pool_free_length
# Set the num_objects and length
_pool_num_objects_length = len(str(pool_information['stats']['num_objects'])) + 1
if _pool_num_objects_length > pool_num_objects_length:
pool_num_objects_length = _pool_num_objects_length
# Set the num_clones and length
_pool_num_clones_length = len(str(pool_information['stats']['num_object_clones'])) + 1
if _pool_num_clones_length > pool_num_clones_length:
pool_num_clones_length = _pool_num_clones_length
# Set the num_copies and length
_pool_num_copies_length = len(str(pool_information['stats']['num_object_copies'])) + 1
if _pool_num_copies_length > pool_num_copies_length:
pool_num_copies_length = _pool_num_copies_length
# Set the num_degraded and length
_pool_num_degraded_length = len(str(pool_information['stats']['num_objects_degraded'])) + 1
if _pool_num_degraded_length > pool_num_degraded_length:
pool_num_degraded_length = _pool_num_degraded_length
# Set the read/write IOPS/data and length
_pool_write_ops_length = len(str(pool_information['stats']['write_ops'])) + 1
if _pool_write_ops_length > pool_write_ops_length:
pool_write_ops_length = _pool_write_ops_length
_pool_write_data_length = len(pool_information['stats']['write_bytes']) + 1
if _pool_write_data_length > pool_write_data_length:
pool_write_data_length = _pool_write_data_length
_pool_read_ops_length = len(str(pool_information['stats']['read_ops'])) + 1
if _pool_read_ops_length > pool_read_ops_length:
pool_read_ops_length = _pool_read_ops_length
_pool_read_data_length = len(pool_information['stats']['read_bytes']) + 1
if _pool_read_data_length > pool_read_data_length:
pool_read_data_length = _pool_read_data_length
# Format the output header
pool_list_output.append('{bold}\
{pool_id: <{pool_id_length}} \
{pool_name: <{pool_name_length}} \
{pool_used: <{pool_used_length}} \
{pool_usedpct: <{pool_usedpct_length}} \
{pool_free: <{pool_free_length}} \
Obj: {pool_objects: <{pool_objects_length}} \
{pool_clones: <{pool_clones_length}} \
{pool_copies: <{pool_copies_length}} \
{pool_degraded: <{pool_degraded_length}} \
Rd: {pool_read_ops: <{pool_read_ops_length}} \
{pool_read_data: <{pool_read_data_length}} \
Wr: {pool_write_ops: <{pool_write_ops_length}} \
{pool_write_data: <{pool_write_data_length}} \
{end_bold}'.format(
bold=ansiprint.bold(),
end_bold=ansiprint.end(),
pool_id_length=pool_id_length,
pool_name_length=pool_name_length,
pool_used_length=pool_used_length,
pool_usedpct_length=pool_usedpct_length,
pool_free_length=pool_free_length,
pool_objects_length=pool_num_objects_length,
pool_clones_length=pool_num_clones_length,
pool_copies_length=pool_num_copies_length,
pool_degraded_length=pool_num_degraded_length,
pool_write_ops_length=pool_write_ops_length,
pool_write_data_length=pool_write_data_length,
pool_read_ops_length=pool_read_ops_length,
pool_read_data_length=pool_read_data_length,
pool_id='ID',
pool_name='Name',
pool_used='Used',
pool_usedpct='%',
pool_free='Free',
pool_objects='Count',
pool_clones='Clones',
pool_copies='Copies',
pool_degraded='Degraded',
pool_write_ops='OPS',
pool_write_data='Data',
pool_read_ops='OPS',
pool_read_data='Data'
)
)
for pool_information in sorted(pool_list, key=lambda x: int(x['stats']['id'])):
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# Format the output header
pool_list_output.append('{bold}\
{pool_id: <{pool_id_length}} \
{pool_name: <{pool_name_length}} \
{pool_used: <{pool_used_length}} \
{pool_usedpct: <{pool_usedpct_length}} \
{pool_free: <{pool_free_length}} \
{pool_objects: <{pool_objects_length}} \
{pool_clones: <{pool_clones_length}} \
{pool_copies: <{pool_copies_length}} \
{pool_degraded: <{pool_degraded_length}} \
{pool_read_ops: <{pool_read_ops_length}} \
{pool_read_data: <{pool_read_data_length}} \
{pool_write_ops: <{pool_write_ops_length}} \
{pool_write_data: <{pool_write_data_length}} \
{end_bold}'.format(
bold='',
end_bold='',
pool_id_length=pool_id_length,
pool_name_length=pool_name_length,
pool_used_length=pool_used_length,
pool_usedpct_length=pool_usedpct_length,
pool_free_length=pool_free_length,
pool_objects_length=pool_num_objects_length,
pool_clones_length=pool_num_clones_length,
pool_copies_length=pool_num_copies_length,
pool_degraded_length=pool_num_degraded_length,
pool_write_ops_length=pool_write_ops_length,
pool_write_data_length=pool_write_data_length,
pool_read_ops_length=pool_read_ops_length,
pool_read_data_length=pool_read_data_length,
pool_id=pool_information['stats']['id'],
pool_name=pool_information['name'],
pool_used=pool_information['stats']['used_bytes'],
pool_usedpct=pool_information['stats']['used_percent'],
pool_free=pool_information['stats']['free_bytes'],
pool_objects=pool_information['stats']['num_objects'],
pool_clones=pool_information['stats']['num_object_clones'],
pool_copies=pool_information['stats']['num_object_copies'],
pool_degraded=pool_information['stats']['num_objects_degraded'],
pool_write_ops=pool_information['stats']['write_ops'],
pool_write_data=pool_information['stats']['write_bytes'],
pool_read_ops=pool_information['stats']['read_ops'],
pool_read_data=pool_information['stats']['read_bytes']
)
)
return '\n'.join(pool_list_output)
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#
# Volume functions
#
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def ceph_volume_info(config, pool, volume):
"""
Get information about Ceph volume
API endpoint: GET /api/v1/storage/ceph/volume/{pool}/{volume}
API arguments:
API schema: {json_data_object}
"""
response = call_api(config, 'get', '/storage/ceph/volume/{pool}/{volume}'.format(volume=volume, pool=pool))
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if response.status_code == 200:
return True, response.json()
else:
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return False, response.json().get('message', '')
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def ceph_volume_list(config, limit, pool):
"""
Get list information about Ceph volumes (limited by {limit} and by {pool})
API endpoint: GET /api/v1/storage/ceph/volume
API arguments: limit={limit}, pool={pool}
API schema: [{json_data_object},{json_data_object},etc.]
"""
params = dict()
if limit:
params['limit'] = limit
if pool:
params['pool'] = pool
response = call_api(config, 'get', '/storage/ceph/volume', params=params)
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if response.status_code == 200:
return True, response.json()
else:
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return False, response.json().get('message', '')
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def ceph_volume_add(config, pool, volume, size):
"""
Add new Ceph volume
API endpoint: POST /api/v1/storage/ceph/volume
API arguments: volume={volume}, pool={pool}, size={size}
API schema: {"message":"{data}"}
"""
params = {
'volume': volume,
'pool': pool,
'size': size
}
response = call_api(config, 'post', '/storage/ceph/volume', params=params)
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def ceph_volume_upload(config, pool, volume, image_format, image_file):
"""
Upload a disk image to a Ceph volume
API endpoint: POST /api/v1/storage/ceph/volume/{pool}/{volume}/upload
API arguments: image_format={image_format}
API schema: {"message":"{data}"}
"""
import click
bar = UploadProgressBar(image_file, end_message="Parsing file on remote side...", end_nl=False)
upload_data = MultipartEncoder(
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fields={'file': ('filename', open(image_file, 'rb'), 'application/octet-stream')}
)
upload_monitor = MultipartEncoderMonitor(upload_data, bar.update)
headers = {
"Content-Type": upload_monitor.content_type
}
params = {
'image_format': image_format
}
response = call_api(config, 'post', '/storage/ceph/volume/{}/{}/upload'.format(pool, volume), headers=headers, params=params, data=upload_monitor)
click.echo("done.")
click.echo()
if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def ceph_volume_remove(config, pool, volume):
"""
Remove Ceph volume
API endpoint: DELETE /api/v1/storage/ceph/volume/{pool}/{volume}
API arguments:
API schema: {"message":"{data}"}
"""
response = call_api(config, 'delete', '/storage/ceph/volume/{pool}/{volume}'.format(volume=volume, pool=pool))
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def ceph_volume_modify(config, pool, volume, new_name=None, new_size=None):
"""
Modify Ceph volume
API endpoint: PUT /api/v1/storage/ceph/volume/{pool}/{volume}
API arguments:
API schema: {"message":"{data}"}
"""
params = dict()
if new_name:
params['new_name'] = new_name
if new_size:
params['new_size'] = new_size
response = call_api(config, 'put', '/storage/ceph/volume/{pool}/{volume}'.format(volume=volume, pool=pool), params=params)
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def ceph_volume_clone(config, pool, volume, new_volume):
"""
Clone Ceph volume
API endpoint: POST /api/v1/storage/ceph/volume/{pool}/{volume}
API arguments: new_volume={new_volume
API schema: {"message":"{data}"}
"""
params = {
'new_volume': new_volume
}
response = call_api(config, 'post', '/storage/ceph/volume/{pool}/{volume}/clone'.format(volume=volume, pool=pool), params=params)
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def format_list_volume(volume_list):
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# Handle empty list
if not volume_list:
volume_list = list()
# Handle single-entry list
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if not isinstance(volume_list, list):
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volume_list = [ volume_list ]
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volume_list_output = []
volume_name_length = 5
volume_pool_length = 5
volume_size_length = 5
volume_objects_length = 8
volume_order_length = 6
volume_format_length = 7
volume_features_length = 10
for volume_information in volume_list:
# Set the Volume name length
_volume_name_length = len(volume_information['name']) + 1
if _volume_name_length > volume_name_length:
volume_name_length = _volume_name_length
# Set the Volume pool length
_volume_pool_length = len(volume_information['pool']) + 1
if _volume_pool_length > volume_pool_length:
volume_pool_length = _volume_pool_length
# Set the size and length
_volume_size_length = len(str(volume_information['stats']['size'])) + 1
if _volume_size_length > volume_size_length:
volume_size_length = _volume_size_length
# Set the num_objects and length
_volume_objects_length = len(str(volume_information['stats']['objects'])) + 1
if _volume_objects_length > volume_objects_length:
volume_objects_length = _volume_objects_length
# Set the order and length
_volume_order_length = len(str(volume_information['stats']['order'])) + 1
if _volume_order_length > volume_order_length:
volume_order_length = _volume_order_length
# Set the format and length
_volume_format_length = len(str(volume_information['stats']['format'])) + 1
if _volume_format_length > volume_format_length:
volume_format_length = _volume_format_length
# Set the features and length
_volume_features_length = len(str(','.join(volume_information['stats']['features']))) + 1
if _volume_features_length > volume_features_length:
volume_features_length = _volume_features_length
# Format the output header
volume_list_output.append('{bold}\
{volume_name: <{volume_name_length}} \
{volume_pool: <{volume_pool_length}} \
{volume_size: <{volume_size_length}} \
{volume_objects: <{volume_objects_length}} \
{volume_order: <{volume_order_length}} \
{volume_format: <{volume_format_length}} \
{volume_features: <{volume_features_length}} \
{end_bold}'.format(
bold=ansiprint.bold(),
end_bold=ansiprint.end(),
volume_name_length=volume_name_length,
volume_pool_length=volume_pool_length,
volume_size_length=volume_size_length,
volume_objects_length=volume_objects_length,
volume_order_length=volume_order_length,
volume_format_length=volume_format_length,
volume_features_length=volume_features_length,
volume_name='Name',
volume_pool='Pool',
volume_size='Size',
volume_objects='Objects',
volume_order='Order',
volume_format='Format',
volume_features='Features',
)
)
for volume_information in volume_list:
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volume_list_output.append('{bold}\
{volume_name: <{volume_name_length}} \
{volume_pool: <{volume_pool_length}} \
{volume_size: <{volume_size_length}} \
{volume_objects: <{volume_objects_length}} \
{volume_order: <{volume_order_length}} \
{volume_format: <{volume_format_length}} \
{volume_features: <{volume_features_length}} \
{end_bold}'.format(
bold='',
end_bold='',
volume_name_length=volume_name_length,
volume_pool_length=volume_pool_length,
volume_size_length=volume_size_length,
volume_objects_length=volume_objects_length,
volume_order_length=volume_order_length,
volume_format_length=volume_format_length,
volume_features_length=volume_features_length,
volume_name=volume_information['name'],
volume_pool=volume_information['pool'],
volume_size=volume_information['stats']['size'],
volume_objects=volume_information['stats']['objects'],
volume_order=volume_information['stats']['order'],
volume_format=volume_information['stats']['format'],
volume_features=','.join(volume_information['stats']['features']),
)
)
return '\n'.join(sorted(volume_list_output))
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#
# Snapshot functions
#
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def ceph_snapshot_info(config, pool, volume, snapshot):
"""
Get information about Ceph snapshot
API endpoint: GET /api/v1/storage/ceph/snapshot/{pool}/{volume}/{snapshot}
API arguments:
API schema: {json_data_object}
"""
response = call_api(config, 'get', '/storage/ceph/snapshot/{pool}/{volume}/{snapshot}'.format(snapshot=snapshot, volume=volume, pool=pool))
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if response.status_code == 200:
return True, response.json()
else:
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return False, response.json().get('message', '')
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def ceph_snapshot_list(config, limit, volume, pool):
"""
Get list information about Ceph snapshots (limited by {limit}, by {pool}, or by {volume})
API endpoint: GET /api/v1/storage/ceph/snapshot
API arguments: limit={limit}, volume={volume}, pool={pool}
API schema: [{json_data_object},{json_data_object},etc.]
"""
params = dict()
if limit:
params['limit'] = limit
if volume:
params['volume'] = volume
if pool:
params['pool'] = pool
response = call_api(config, 'get', '/storage/ceph/snapshot', params=params)
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if response.status_code == 200:
return True, response.json()
else:
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return False, response.json().get('message', '')
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def ceph_snapshot_add(config, pool, volume, snapshot):
"""
Add new Ceph snapshot
API endpoint: POST /api/v1/storage/ceph/snapshot
API arguments: snapshot={snapshot}, volume={volume}, pool={pool}
API schema: {"message":"{data}"}
"""
params = {
'snapshot': snapshot,
'volume': volume,
'pool': pool
}
response = call_api(config, 'post', '/storage/ceph/snapshot', params=params)
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def ceph_snapshot_remove(config, pool, volume, snapshot):
"""
Remove Ceph snapshot
API endpoint: DELETE /api/v1/storage/ceph/snapshot/{pool}/{volume}/{snapshot}
API arguments:
API schema: {"message":"{data}"}
"""
response = call_api(config, 'delete', '/storage/ceph/snapshot/{pool}/{volume}/{snapshot}'.format(snapshot=snapshot, volume=volume, pool=pool))
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def ceph_snapshot_modify(config, pool, volume, snapshot, new_name=None):
"""
Modify Ceph snapshot
API endpoint: PUT /api/v1/storage/ceph/snapshot/{pool}/{volume}/{snapshot}
API arguments:
API schema: {"message":"{data}"}
"""
params = dict()
if new_name:
params['new_name'] = new_name
response = call_api(config, 'put', '/storage/ceph/snapshot/{pool}/{volume}/{snapshot}'.format(snapshot=snapshot, volume=volume, pool=pool), params=params)
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if response.status_code == 200:
retstatus = True
else:
retstatus = False
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return retstatus, response.json().get('message', '')
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def format_list_snapshot(snapshot_list):
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# Handle empty list
if not snapshot_list:
snapshot_list = list()
# Handle single-entry list
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if not isinstance(snapshot_list, list):
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snapshot_list = [ snapshot_list ]
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snapshot_list_output = []
snapshot_name_length = 5
snapshot_volume_length = 7
snapshot_pool_length = 5
for snapshot_information in snapshot_list:
snapshot_name = snapshot_information['snapshot']
snapshot_volume = snapshot_information['volume']
snapshot_pool = snapshot_information['pool']
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# Set the Snapshot name length
_snapshot_name_length = len(snapshot_name) + 1
if _snapshot_name_length > snapshot_name_length:
snapshot_name_length = _snapshot_name_length
# Set the Snapshot volume length
_snapshot_volume_length = len(snapshot_volume) + 1
if _snapshot_volume_length > snapshot_volume_length:
snapshot_volume_length = _snapshot_volume_length
# Set the Snapshot pool length
_snapshot_pool_length = len(snapshot_pool) + 1
if _snapshot_pool_length > snapshot_pool_length:
snapshot_pool_length = _snapshot_pool_length
# Format the output header
snapshot_list_output.append('{bold}\
{snapshot_name: <{snapshot_name_length}} \
{snapshot_volume: <{snapshot_volume_length}} \
{snapshot_pool: <{snapshot_pool_length}} \
{end_bold}'.format(
bold=ansiprint.bold(),
end_bold=ansiprint.end(),
snapshot_name_length=snapshot_name_length,
snapshot_volume_length=snapshot_volume_length,
snapshot_pool_length=snapshot_pool_length,
snapshot_name='Name',
snapshot_volume='Volume',
snapshot_pool='Pool',
)
)
for snapshot_information in snapshot_list:
snapshot_name = snapshot_information['snapshot']
snapshot_volume = snapshot_information['volume']
snapshot_pool = snapshot_information['pool']
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snapshot_list_output.append('{bold}\
{snapshot_name: <{snapshot_name_length}} \
{snapshot_volume: <{snapshot_volume_length}} \
{snapshot_pool: <{snapshot_pool_length}} \
{end_bold}'.format(
bold='',
end_bold='',
snapshot_name_length=snapshot_name_length,
snapshot_volume_length=snapshot_volume_length,
snapshot_pool_length=snapshot_pool_length,
snapshot_name=snapshot_name,
snapshot_volume=snapshot_volume,
snapshot_pool=snapshot_pool,
)
)
return '\n'.join(sorted(snapshot_list_output))
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#
# Benchmark functions
#
def ceph_benchmark_run(config, pool):
"""
Run a storage benchmark against {pool}
API endpoint: POST /api/v1/storage/ceph/benchmark
API arguments: pool={pool}
API schema: {message}
"""
params = {
'pool': pool
}
response = call_api(config, 'post', '/storage/ceph/benchmark', params=params)
if response.status_code == 202:
retvalue = True
retdata = 'Task ID: {}'.format(response.json()['task_id'])
else:
retvalue = False
retdata = response.json().get('message', '')
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return retvalue, retdata
def ceph_benchmark_list(config, job):
"""
View results of one or more previous benchmark runs
API endpoint: GET /api/v1/storage/ceph/benchmark
API arguments: job={job}
API schema: {results}
"""
if job is not None:
params = {
'job': job
}
else:
params = {}
response = call_api(config, 'get', '/storage/ceph/benchmark', params=params)
if response.status_code == 200:
retvalue = True
retdata = response.json()
else:
retvalue = False
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retdata = response.json().get('message', '')
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return retvalue, retdata
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def format_list_benchmark(config, benchmark_information):
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benchmark_list_output = []
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benchmark_job_length = 20
benchmark_bandwidth_length = dict()
benchmark_iops_length = dict()
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# For this output, we're only showing the Sequential (seq_read and seq_write) and 4k Random (rand_read_4K and rand_write_4K) results since we're showing them for each test result.
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for test in [ "seq_read", "seq_write", "rand_read_4K", "rand_write_4K" ]:
benchmark_bandwidth_length[test] = 7
benchmark_iops_length[test] = 6
for benchmark in benchmark_information:
benchmark_job = benchmark['job']
_benchmark_job_length = len(benchmark_job)
if _benchmark_job_length > benchmark_job_length:
benchmark_job_length = _benchmark_job_length
if benchmark['benchmark_result'] == 'Running':
continue
benchmark_data = json.loads(benchmark['benchmark_result'])
benchmark_bandwidth = dict()
benchmark_iops = dict()
for test in [ "seq_read", "seq_write", "rand_read_4K", "rand_write_4K" ]:
benchmark_bandwidth[test] = format_bytes_tohuman(int(benchmark_data[test]['overall']['bandwidth']) * 1024)
benchmark_iops[test] = format_ops_tohuman(int(benchmark_data[test]['overall']['iops']))
_benchmark_bandwidth_length = len(benchmark_bandwidth[test]) + 1
if _benchmark_bandwidth_length > benchmark_bandwidth_length[test]:
benchmark_bandwidth_length[test] = _benchmark_bandwidth_length
_benchmark_iops_length = len(benchmark_iops[test]) + 1
if _benchmark_iops_length > benchmark_bandwidth_length[test]:
benchmark_iops_length[test] = _benchmark_iops_length
# Format the output header line 1
benchmark_list_output.append('{bold}\
{benchmark_job: <{benchmark_job_length}} \
{seq_header: <{seq_header_length}} \
{rand_header: <{rand_header_length}} \
{end_bold}'.format(
bold=ansiprint.bold(),
end_bold=ansiprint.end(),
benchmark_job_length=benchmark_job_length,
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seq_header_length=benchmark_bandwidth_length['seq_read'] + benchmark_bandwidth_length['seq_write'] + benchmark_iops_length['seq_read'] + benchmark_iops_length['seq_write'] + 3,
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rand_header_length=benchmark_bandwidth_length['rand_read_4K'] + benchmark_bandwidth_length['rand_write_4K'] + benchmark_iops_length['rand_read_4K'] + benchmark_iops_length['rand_write_4K'] + 2,
benchmark_job='Benchmark Job',
seq_header='Sequential (4M blocks):',
rand_header='Random (4K blocks):'
)
)
benchmark_list_output.append('{bold}\
{benchmark_job: <{benchmark_job_length}} \
{seq_benchmark_bandwidth: <{seq_benchmark_bandwidth_length}} \
{seq_benchmark_iops: <{seq_benchmark_iops_length}} \
{rand_benchmark_bandwidth: <{rand_benchmark_bandwidth_length}} \
{rand_benchmark_iops: <{rand_benchmark_iops_length}} \
{end_bold}'.format(
bold=ansiprint.bold(),
end_bold=ansiprint.end(),
benchmark_job_length=benchmark_job_length,
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seq_benchmark_bandwidth_length=benchmark_bandwidth_length['seq_read'] + benchmark_bandwidth_length['seq_write'] + 2,
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seq_benchmark_iops_length=benchmark_iops_length['seq_read'] + benchmark_iops_length['seq_write'],
rand_benchmark_bandwidth_length=benchmark_bandwidth_length['rand_read_4K'] + benchmark_bandwidth_length['rand_write_4K'] + 1,
rand_benchmark_iops_length=benchmark_iops_length['rand_read_4K'] + benchmark_iops_length['rand_write_4K'],
benchmark_job='',
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seq_benchmark_bandwidth='R/W Bandwith/s',
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seq_benchmark_iops='R/W IOPS',
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rand_benchmark_bandwidth='R/W Bandwith/s',
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rand_benchmark_iops='R/W IOPS'
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)
)
for benchmark in benchmark_information:
benchmark_job = benchmark['job']
if benchmark['benchmark_result'] == 'Running':
seq_benchmark_bandwidth = 'Running'
seq_benchmark_iops = 'Running'
rand_benchmark_bandwidth = 'Running'
rand_benchmark_iops = 'Running'
else:
benchmark_bandwidth = dict()
benchmark_iops = dict()
for test in [ "seq_read", "seq_write", "rand_read_4K", "rand_write_4K" ]:
benchmark_data = json.loads(benchmark['benchmark_result'])
benchmark_bandwidth[test] = format_bytes_tohuman(int(benchmark_data[test]['overall']['bandwidth']) * 1024)
benchmark_iops[test] = format_ops_tohuman(int(benchmark_data[test]['overall']['iops']))
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seq_benchmark_bandwidth = "{} / {}".format(benchmark_bandwidth['seq_read'], benchmark_bandwidth['seq_write'])
seq_benchmark_iops = "{} / {}".format(benchmark_iops['seq_read'], benchmark_iops['seq_write'])
rand_benchmark_bandwidth = "{} / {}".format(benchmark_bandwidth['rand_read_4K'], benchmark_bandwidth['rand_write_4K'])
rand_benchmark_iops = "{} / {}".format(benchmark_iops['rand_read_4K'], benchmark_iops['rand_write_4K'])
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benchmark_list_output.append('{bold}\
{benchmark_job: <{benchmark_job_length}} \
{seq_benchmark_bandwidth: <{seq_benchmark_bandwidth_length}} \
{seq_benchmark_iops: <{seq_benchmark_iops_length}} \
{rand_benchmark_bandwidth: <{rand_benchmark_bandwidth_length}} \
{rand_benchmark_iops: <{rand_benchmark_iops_length}} \
{end_bold}'.format(
bold='',
end_bold='',
benchmark_job_length=benchmark_job_length,
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seq_benchmark_bandwidth_length=benchmark_bandwidth_length['seq_read'] + benchmark_bandwidth_length['seq_write'] + 2,
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seq_benchmark_iops_length=benchmark_iops_length['seq_read'] + benchmark_iops_length['seq_write'],
rand_benchmark_bandwidth_length=benchmark_bandwidth_length['rand_read_4K'] + benchmark_bandwidth_length['rand_write_4K'] + 1,
rand_benchmark_iops_length=benchmark_iops_length['rand_read_4K'] + benchmark_iops_length['rand_write_4K'],
benchmark_job=benchmark_job,
seq_benchmark_bandwidth=seq_benchmark_bandwidth,
seq_benchmark_iops=seq_benchmark_iops,
rand_benchmark_bandwidth=rand_benchmark_bandwidth,
rand_benchmark_iops=rand_benchmark_iops
)
)
return '\n'.join(benchmark_list_output)
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def format_info_benchmark(config, benchmark_information):
if benchmark_information[0]['benchmark_result'] == "Running":
return "Benchmark test is still running."
benchmark_details = json.loads(benchmark_information[0]['benchmark_result'])
# Format a nice output; do this line-by-line then concat the elements at the end
ainformation = []
ainformation.append('{}Storage Benchmark details:{}'.format(ansiprint.bold(), ansiprint.end()))
nice_test_name_map = {
"seq_read": "Sequential Read (4M blocks)",
"seq_write": "Sequential Write (4M blocks)",
"rand_read_4M": "Random Read (4M blocks)",
"rand_write_4M": "Random Write (4M blocks)",
"rand_read_256K": "Random Read (256K blocks)",
"rand_write_256K": "Random Write (256K blocks)",
"rand_read_4K": "Random Read (4K blocks)",
"rand_write_4K": "Random Write (4K blocks)"
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}
test_name_length = 30
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overall_label_length = 12
overall_column_length = 8
bandwidth_label_length = 9
bandwidth_column_length = 10
iops_column_length = 6
latency_column_length = 8
cpuutil_label_length = 11
cpuutil_column_length = 9
for test in benchmark_details:
_test_name_length = len(nice_test_name_map[test])
if _test_name_length > test_name_length:
test_name_length = _test_name_length
for element in benchmark_details[test]['overall']:
_element_length = len(benchmark_details[test]['overall'][element])
if _element_length > overall_column_length:
overall_column_length = _element_length
for element in benchmark_details[test]['bandwidth']:
try:
_element_length = len(format_bytes_tohuman(int(float(benchmark_details[test]['bandwidth'][element]))))
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except Exception:
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_element_length = len(benchmark_details[test]['bandwidth'][element])
if _element_length > bandwidth_column_length:
bandwidth_column_length = _element_length
for element in benchmark_details[test]['iops']:
try:
_element_length = len(format_ops_tohuman(int(float(benchmark_details[test]['iops'][element]))))
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except Exception:
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_element_length = len(benchmark_details[test]['iops'][element])
if _element_length > iops_column_length:
iops_column_length = _element_length
for element in benchmark_details[test]['latency']:
_element_length = len(benchmark_details[test]['latency'][element])
if _element_length > latency_column_length:
latency_column_length = _element_length
for element in benchmark_details[test]['cpu']:
_element_length = len(benchmark_details[test]['cpu'][element])
if _element_length > cpuutil_column_length:
cpuutil_column_length = _element_length
for test in benchmark_details:
ainformation.append('')
test_details = benchmark_details[test]
# Top row (Headers)
ainformation.append('{bold}\
{test_name: <{test_name_length}} \
{overall_label: <{overall_label_length}} \
{overall: <{overall_length}} \
{bandwidth_label: <{bandwidth_label_length}} \
{bandwidth: <{bandwidth_length}} \
{iops: <{iops_length}} \
{latency: <{latency_length}} \
{cpuutil_label: <{cpuutil_label_length}} \
{cpuutil: <{cpuutil_length}} \
{end_bold}'.format(
bold=ansiprint.bold(),
end_bold=ansiprint.end(),
test_name='Test:',
test_name_length=test_name_length,
overall_label='',
overall_label_length=overall_label_length,
overall="General",
overall_length=overall_column_length,
bandwidth_label='',
bandwidth_label_length=bandwidth_label_length,
bandwidth="Bandwidth",
bandwidth_length=bandwidth_column_length,
iops="IOPS",
iops_length=iops_column_length,
latency="Latency (μs)",
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latency_length=latency_column_length,
cpuutil_label='',
cpuutil_label_length=cpuutil_label_length,
cpuutil="CPU Util",
cpuutil_length=cpuutil_column_length
))
# Second row (Test, Size, Min, User))
ainformation.append('{bold}\
{test_name: <{test_name_length}} \
{overall_label: >{overall_label_length}} \
{overall: <{overall_length}} \
{bandwidth_label: >{bandwidth_label_length}} \
{bandwidth: <{bandwidth_length}} \
{iops: <{iops_length}} \
{latency: <{latency_length}} \
{cpuutil_label: >{cpuutil_label_length}} \
{cpuutil: <{cpuutil_length}} \
{end_bold}'.format(
bold='',
end_bold='',
test_name=nice_test_name_map[test],
test_name_length=test_name_length,
overall_label='Test Size:',
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overall_label_length=overall_label_length,
overall=format_bytes_tohuman(int(test_details['overall']['iosize']) * 1024),
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overall_length=overall_column_length,
bandwidth_label='Min:',
bandwidth_label_length=bandwidth_label_length,
bandwidth=format_bytes_tohuman(int(test_details['bandwidth']['min']) * 1024),
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bandwidth_length=bandwidth_column_length,
iops=format_ops_tohuman(int(test_details['iops']['min'])),
iops_length=iops_column_length,
latency=test_details['latency']['min'],
latency_length=latency_column_length,
cpuutil_label='User:',
cpuutil_label_length=cpuutil_label_length,
cpuutil=test_details['cpu']['user'],
cpuutil_length=cpuutil_column_length
))
# Third row (blank, BW/s, Max, System))
ainformation.append('{bold}\
{test_name: <{test_name_length}} \
{overall_label: >{overall_label_length}} \
{overall: <{overall_length}} \
{bandwidth_label: >{bandwidth_label_length}} \
{bandwidth: <{bandwidth_length}} \
{iops: <{iops_length}} \
{latency: <{latency_length}} \
{cpuutil_label: >{cpuutil_label_length}} \
{cpuutil: <{cpuutil_length}} \
{end_bold}'.format(
bold='',
end_bold='',
test_name='',
test_name_length=test_name_length,
overall_label='Bandwidth/s:',
overall_label_length=overall_label_length,
overall=format_bytes_tohuman(int(test_details['overall']['bandwidth']) * 1024),
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overall_length=overall_column_length,
bandwidth_label='Max:',
bandwidth_label_length=bandwidth_label_length,
bandwidth=format_bytes_tohuman(int(test_details['bandwidth']['max']) * 1024),
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bandwidth_length=bandwidth_column_length,
iops=format_ops_tohuman(int(test_details['iops']['max'])),
iops_length=iops_column_length,
latency=test_details['latency']['max'],
latency_length=latency_column_length,
cpuutil_label='System:',
cpuutil_label_length=cpuutil_label_length,
cpuutil=test_details['cpu']['system'],
cpuutil_length=cpuutil_column_length
))
# Fourth row (blank, IOPS, Mean, CtxSq))
ainformation.append('{bold}\
{test_name: <{test_name_length}} \
{overall_label: >{overall_label_length}} \
{overall: <{overall_length}} \
{bandwidth_label: >{bandwidth_label_length}} \
{bandwidth: <{bandwidth_length}} \
{iops: <{iops_length}} \
{latency: <{latency_length}} \
{cpuutil_label: >{cpuutil_label_length}} \
{cpuutil: <{cpuutil_length}} \
{end_bold}'.format(
bold='',
end_bold='',
test_name='',
test_name_length=test_name_length,
overall_label='IOPS:',
overall_label_length=overall_label_length,
overall=format_ops_tohuman(int(test_details['overall']['iops'])),
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overall_length=overall_column_length,
bandwidth_label='Mean:',
bandwidth_label_length=bandwidth_label_length,
bandwidth=format_bytes_tohuman(int(float(test_details['bandwidth']['mean'])) * 1024),
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bandwidth_length=bandwidth_column_length,
iops=format_ops_tohuman(int(float(test_details['iops']['mean']))),
iops_length=iops_column_length,
latency=test_details['latency']['mean'],
latency_length=latency_column_length,
cpuutil_label='CtxSw:',
cpuutil_label_length=cpuutil_label_length,
cpuutil=test_details['cpu']['ctxsw'],
cpuutil_length=cpuutil_column_length
))
# Fifth row (blank, Runtime, StdDev, MajFault))
ainformation.append('{bold}\
{test_name: <{test_name_length}} \
{overall_label: >{overall_label_length}} \
{overall: <{overall_length}} \
{bandwidth_label: >{bandwidth_label_length}} \
{bandwidth: <{bandwidth_length}} \
{iops: <{iops_length}} \
{latency: <{latency_length}} \
{cpuutil_label: >{cpuutil_label_length}} \
{cpuutil: <{cpuutil_length}} \
{end_bold}'.format(
bold='',
end_bold='',
test_name='',
test_name_length=test_name_length,
overall_label='Runtime (s):',
overall_label_length=overall_label_length,
overall=int(test_details['overall']['runtime']) / 1000.0,
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overall_length=overall_column_length,
bandwidth_label='StdDev:',
bandwidth_label_length=bandwidth_label_length,
bandwidth=format_bytes_tohuman(int(float(test_details['bandwidth']['stdev'])) * 1024),
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bandwidth_length=bandwidth_column_length,
iops=format_ops_tohuman(int(float(test_details['iops']['stdev']))),
iops_length=iops_column_length,
latency=test_details['latency']['stdev'],
latency_length=latency_column_length,
cpuutil_label='MajFault:',
cpuutil_label_length=cpuutil_label_length,
cpuutil=test_details['cpu']['majfault'],
cpuutil_length=cpuutil_column_length
))
# Sixth row (blank, blank, Samples, MinFault))
ainformation.append('{bold}\
{test_name: <{test_name_length}} \
{overall_label: >{overall_label_length}} \
{overall: <{overall_length}} \
{bandwidth_label: >{bandwidth_label_length}} \
{bandwidth: <{bandwidth_length}} \
{iops: <{iops_length}} \
{latency: <{latency_length}} \
{cpuutil_label: >{cpuutil_label_length}} \
{cpuutil: <{cpuutil_length}} \
{end_bold}'.format(
bold='',
end_bold='',
test_name='',
test_name_length=test_name_length,
overall_label='',
overall_label_length=overall_label_length,
overall='',
overall_length=overall_column_length,
bandwidth_label='Samples:',
bandwidth_label_length=bandwidth_label_length,
bandwidth=test_details['bandwidth']['numsamples'],
bandwidth_length=bandwidth_column_length,
iops=test_details['iops']['numsamples'],
iops_length=iops_column_length,
latency='',
latency_length=latency_column_length,
cpuutil_label='MinFault:',
cpuutil_label_length=cpuutil_label_length,
cpuutil=test_details['cpu']['minfault'],
cpuutil_length=cpuutil_column_length
))
ainformation.append('')
return '\n'.join(ainformation)