Lint: F821 undefined name 'zk_conn'
Actually removes these entire sections of dead code; the daemon-common library does no formatting at all since it is no longer used by the CLI.
This commit is contained in:
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99d723dd8b
commit
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@ -22,7 +22,6 @@
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import os
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import re
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import click
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import json
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import time
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import math
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@ -169,10 +168,6 @@ def get_util(zk_conn):
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}
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return True, status_data
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def format_raw_output(status_data):
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click.echo('{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']))
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click.echo(status_data['ceph_data'])
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click.echo('')
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#
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# OSD functions
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@ -341,239 +336,6 @@ def get_list_osd(zk_conn, limit, is_fuzzy=True):
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return True, sorted(osd_list, key=lambda x: int(x['id']))
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def format_list_osd(osd_list):
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osd_list_output = []
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osd_id_length = 3
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osd_up_length = 4
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osd_in_length = 4
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osd_size_length = 5
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osd_weight_length = 3
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osd_reweight_length = 5
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osd_pgs_length = 4
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osd_node_length = 5
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osd_used_length = 5
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osd_free_length = 6
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osd_util_length = 6
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osd_var_length = 5
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osd_wrops_length = 4
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osd_wrdata_length = 5
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osd_rdops_length = 4
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osd_rddata_length = 5
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for osd_information in osd_list:
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try:
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# If this happens, the node hasn't checked in fully yet, so just ignore it
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if osd_information['stats']['node'] == '|':
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continue
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except KeyError:
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continue
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# Deal with the size to human readable
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osd_information['stats']['size'] = osd_information['stats']['kb'] * 1024
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for datatype in 'size', 'wr_data', 'rd_data':
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databytes = osd_information['stats'][datatype]
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databytes_formatted = format_bytes_tohuman(int(databytes))
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osd_information['stats'][datatype] = databytes_formatted
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for datatype in 'wr_ops', 'rd_ops':
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dataops = osd_information['stats'][datatype]
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dataops_formatted = format_ops_tohuman(int(dataops))
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osd_information['stats'][datatype] = dataops_formatted
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# Set the OSD ID length
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_osd_id_length = len(osd_information['id']) + 1
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if _osd_id_length > osd_id_length:
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osd_id_length = _osd_id_length
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_osd_node_length = len(osd_information['stats']['node']) + 1
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if _osd_node_length > osd_node_length:
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osd_node_length = _osd_node_length
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# Set the size and length
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_osd_size_length = len(str(osd_information['stats']['size'])) + 1
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if _osd_size_length > osd_size_length:
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osd_size_length = _osd_size_length
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# Set the weight and length
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_osd_weight_length = len(str(osd_information['stats']['weight'])) + 1
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if _osd_weight_length > osd_weight_length:
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osd_weight_length = _osd_weight_length
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# Set the reweight and length
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_osd_reweight_length = len(str(osd_information['stats']['reweight'])) + 1
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if _osd_reweight_length > osd_reweight_length:
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osd_reweight_length = _osd_reweight_length
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# Set the pgs and length
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_osd_pgs_length = len(str(osd_information['stats']['pgs'])) + 1
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if _osd_pgs_length > osd_pgs_length:
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osd_pgs_length = _osd_pgs_length
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# Set the used/available/utlization%/variance and lengths
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_osd_used_length = len(osd_information['stats']['used']) + 1
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if _osd_used_length > osd_used_length:
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osd_used_length = _osd_used_length
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_osd_free_length = len(osd_information['stats']['avail']) + 1
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if _osd_free_length > osd_free_length:
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osd_free_length = _osd_free_length
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osd_util = round(osd_information['stats']['utilization'], 2)
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_osd_util_length = len(str(osd_util)) + 1
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if _osd_util_length > osd_util_length:
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osd_util_length = _osd_util_length
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osd_var = round(osd_information['stats']['var'], 2)
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_osd_var_length = len(str(osd_var)) + 1
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if _osd_var_length > osd_var_length:
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osd_var_length = _osd_var_length
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# Set the read/write IOPS/data and length
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_osd_wrops_length = len(osd_information['stats']['wr_ops']) + 1
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if _osd_wrops_length > osd_wrops_length:
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osd_wrops_length = _osd_wrops_length
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_osd_wrdata_length = len(osd_information['stats']['wr_data']) + 1
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if _osd_wrdata_length > osd_wrdata_length:
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osd_wrdata_length = _osd_wrdata_length
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_osd_rdops_length = len(osd_information['stats']['rd_ops']) + 1
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if _osd_rdops_length > osd_rdops_length:
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osd_rdops_length = _osd_rdops_length
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_osd_rddata_length = len(osd_information['stats']['rd_data']) + 1
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if _osd_rddata_length > osd_rddata_length:
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osd_rddata_length = _osd_rddata_length
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# Format the output header
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osd_list_output.append('{bold}\
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{osd_id: <{osd_id_length}} \
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{osd_node: <{osd_node_length}} \
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{osd_up: <{osd_up_length}} \
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{osd_in: <{osd_in_length}} \
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{osd_size: <{osd_size_length}} \
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{osd_pgs: <{osd_pgs_length}} \
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{osd_weight: <{osd_weight_length}} \
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{osd_reweight: <{osd_reweight_length}} \
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Sp: {osd_used: <{osd_used_length}} \
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{osd_free: <{osd_free_length}} \
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{osd_util: <{osd_util_length}} \
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{osd_var: <{osd_var_length}} \
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Rd: {osd_rdops: <{osd_rdops_length}} \
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{osd_rddata: <{osd_rddata_length}} \
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Wr: {osd_wrops: <{osd_wrops_length}} \
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{osd_wrdata: <{osd_wrdata_length}} \
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{end_bold}'.format(
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bold=ansiprint.bold(),
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end_bold=ansiprint.end(),
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osd_id_length=osd_id_length,
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osd_node_length=osd_node_length,
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osd_up_length=osd_up_length,
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osd_in_length=osd_in_length,
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osd_size_length=osd_size_length,
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osd_pgs_length=osd_pgs_length,
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osd_weight_length=osd_weight_length,
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osd_reweight_length=osd_reweight_length,
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osd_used_length=osd_used_length,
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osd_free_length=osd_free_length,
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osd_util_length=osd_util_length,
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osd_var_length=osd_var_length,
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osd_wrops_length=osd_wrops_length,
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osd_wrdata_length=osd_wrdata_length,
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osd_rdops_length=osd_rdops_length,
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osd_rddata_length=osd_rddata_length,
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osd_id='ID',
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osd_node='Node',
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osd_up='Up',
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osd_in='In',
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osd_size='Size',
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osd_pgs='PGs',
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osd_weight='Wt',
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osd_reweight='ReWt',
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osd_used='Used',
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osd_free='Free',
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osd_util='Util%',
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osd_var='Var',
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osd_wrops='OPS',
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osd_wrdata='Data',
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osd_rdops='OPS',
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osd_rddata='Data'
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)
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)
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for osd_information in osd_list:
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try:
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# If this happens, the node hasn't checked in fully yet, so just ignore it
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if osd_information['stats']['node'] == '|':
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continue
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except KeyError:
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continue
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osd_up_flag, osd_up_colour, osd_in_flag, osd_in_colour = getOutputColoursOSD(osd_information)
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osd_util = round(osd_information['stats']['utilization'], 2)
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osd_var = round(osd_information['stats']['var'], 2)
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# Format the output header
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osd_list_output.append('{bold}\
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{osd_id: <{osd_id_length}} \
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{osd_node: <{osd_node_length}} \
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{osd_up_colour}{osd_up: <{osd_up_length}}{end_colour} \
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{osd_in_colour}{osd_in: <{osd_in_length}}{end_colour} \
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{osd_size: <{osd_size_length}} \
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{osd_pgs: <{osd_pgs_length}} \
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{osd_weight: <{osd_weight_length}} \
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{osd_reweight: <{osd_reweight_length}} \
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{osd_used: <{osd_used_length}} \
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{osd_free: <{osd_free_length}} \
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{osd_util: <{osd_util_length}} \
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{osd_var: <{osd_var_length}} \
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{osd_rdops: <{osd_rdops_length}} \
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{osd_rddata: <{osd_rddata_length}} \
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{osd_wrops: <{osd_wrops_length}} \
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{osd_wrdata: <{osd_wrdata_length}} \
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{end_bold}'.format(
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bold='',
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end_bold='',
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end_colour=ansiprint.end(),
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osd_id_length=osd_id_length,
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osd_node_length=osd_node_length,
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osd_up_length=osd_up_length,
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osd_in_length=osd_in_length,
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osd_size_length=osd_size_length,
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osd_pgs_length=osd_pgs_length,
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osd_weight_length=osd_weight_length,
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osd_reweight_length=osd_reweight_length,
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osd_used_length=osd_used_length,
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osd_free_length=osd_free_length,
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osd_util_length=osd_util_length,
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osd_var_length=osd_var_length,
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osd_wrops_length=osd_wrops_length,
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osd_wrdata_length=osd_wrdata_length,
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osd_rdops_length=osd_rdops_length,
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osd_rddata_length=osd_rddata_length,
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osd_id=osd_information['id'],
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osd_node=osd_information['stats']['node'],
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osd_up_colour=osd_up_colour,
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osd_up=osd_up_flag,
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osd_in_colour=osd_in_colour,
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osd_in=osd_in_flag,
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osd_size=osd_information['stats']['size'],
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osd_pgs=osd_information['stats']['pgs'],
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osd_weight=osd_information['stats']['weight'],
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osd_reweight=osd_information['stats']['reweight'],
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osd_used=osd_information['stats']['used'],
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osd_free=osd_information['stats']['avail'],
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osd_util=osd_util,
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osd_var=osd_var,
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osd_wrops=osd_information['stats']['wr_ops'],
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osd_wrdata=osd_information['stats']['wr_data'],
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osd_rdops=osd_information['stats']['rd_ops'],
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osd_rddata=osd_information['stats']['rd_data']
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)
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)
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click.echo('\n'.join(sorted(osd_list_output)))
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#
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# Pool functions
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@ -671,197 +433,6 @@ def get_list_pool(zk_conn, limit, is_fuzzy=True):
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return True, sorted(pool_list, key=lambda x: int(x['stats']['id']))
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def format_list_pool(pool_list):
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pool_list_output = []
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pool_name_length = 5
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pool_id_length = 3
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pool_used_length = 5
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pool_usedpct_length = 5
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pool_free_length = 5
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pool_num_objects_length = 6
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pool_num_clones_length = 7
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pool_num_copies_length = 7
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pool_num_degraded_length = 9
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pool_read_ops_length = 4
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pool_read_data_length = 5
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pool_write_ops_length = 4
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pool_write_data_length = 5
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for pool_information in pool_list:
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# Deal with the size to human readable
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for datatype in ['free_bytes', 'used_bytes', 'write_bytes', 'read_bytes']:
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databytes = pool_information['stats'][datatype]
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databytes_formatted = format_bytes_tohuman(int(databytes))
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pool_information['stats'][datatype] = databytes_formatted
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for datatype in ['write_ops', 'read_ops']:
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dataops = pool_information['stats'][datatype]
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dataops_formatted = format_ops_tohuman(int(dataops))
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pool_information['stats'][datatype] = dataops_formatted
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for datatype in ['used_percent']:
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datapct = pool_information['stats'][datatype]
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datapct_formatted = format_pct_tohuman(float(datapct))
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pool_information['stats'][datatype] = datapct_formatted
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# Set the Pool name length
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_pool_name_length = len(pool_information['name']) + 1
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if _pool_name_length > pool_name_length:
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pool_name_length = _pool_name_length
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# Set the id and length
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_pool_id_length = len(str(pool_information['stats']['id'])) + 1
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if _pool_id_length > pool_id_length:
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pool_id_length = _pool_id_length
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# Set the used and length
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_pool_used_length = len(str(pool_information['stats']['used_bytes'])) + 1
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if _pool_used_length > pool_used_length:
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pool_used_length = _pool_used_length
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# Set the usedpct and length
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_pool_usedpct_length = len(str(pool_information['stats']['used_percent'])) + 1
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if _pool_usedpct_length > pool_usedpct_length:
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pool_usedpct_length = _pool_usedpct_length
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# Set the free and length
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_pool_free_length = len(str(pool_information['stats']['free_bytes'])) + 1
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if _pool_free_length > pool_free_length:
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pool_free_length = _pool_free_length
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# Set the num_objects and length
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_pool_num_objects_length = len(str(pool_information['stats']['num_objects'])) + 1
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if _pool_num_objects_length > pool_num_objects_length:
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pool_num_objects_length = _pool_num_objects_length
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# Set the num_clones and length
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_pool_num_clones_length = len(str(pool_information['stats']['num_object_clones'])) + 1
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if _pool_num_clones_length > pool_num_clones_length:
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pool_num_clones_length = _pool_num_clones_length
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# Set the num_copies and length
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_pool_num_copies_length = len(str(pool_information['stats']['num_object_copies'])) + 1
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if _pool_num_copies_length > pool_num_copies_length:
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pool_num_copies_length = _pool_num_copies_length
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# Set the num_degraded and length
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_pool_num_degraded_length = len(str(pool_information['stats']['num_objects_degraded'])) + 1
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if _pool_num_degraded_length > pool_num_degraded_length:
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pool_num_degraded_length = _pool_num_degraded_length
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# Set the read/write IOPS/data and length
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_pool_write_ops_length = len(str(pool_information['stats']['write_ops'])) + 1
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if _pool_write_ops_length > pool_write_ops_length:
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pool_write_ops_length = _pool_write_ops_length
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_pool_write_data_length = len(pool_information['stats']['write_bytes']) + 1
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if _pool_write_data_length > pool_write_data_length:
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pool_write_data_length = _pool_write_data_length
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_pool_read_ops_length = len(str(pool_information['stats']['read_ops'])) + 1
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if _pool_read_ops_length > pool_read_ops_length:
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pool_read_ops_length = _pool_read_ops_length
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_pool_read_data_length = len(pool_information['stats']['read_bytes']) + 1
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if _pool_read_data_length > pool_read_data_length:
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pool_read_data_length = _pool_read_data_length
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# Format the output header
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pool_list_output.append('{bold}\
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{pool_id: <{pool_id_length}} \
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{pool_name: <{pool_name_length}} \
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{pool_used: <{pool_used_length}} \
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{pool_usedpct: <{pool_usedpct_length}} \
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{pool_free: <{pool_free_length}} \
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Obj: {pool_objects: <{pool_objects_length}} \
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{pool_clones: <{pool_clones_length}} \
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{pool_copies: <{pool_copies_length}} \
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{pool_degraded: <{pool_degraded_length}} \
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Rd: {pool_read_ops: <{pool_read_ops_length}} \
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{pool_read_data: <{pool_read_data_length}} \
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Wr: {pool_write_ops: <{pool_write_ops_length}} \
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{pool_write_data: <{pool_write_data_length}} \
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{end_bold}'.format(
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bold=ansiprint.bold(),
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end_bold=ansiprint.end(),
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pool_id_length=pool_id_length,
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pool_name_length=pool_name_length,
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pool_used_length=pool_used_length,
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pool_usedpct_length=pool_usedpct_length,
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pool_free_length=pool_free_length,
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pool_objects_length=pool_num_objects_length,
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pool_clones_length=pool_num_clones_length,
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pool_copies_length=pool_num_copies_length,
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pool_degraded_length=pool_num_degraded_length,
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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 pool_list:
|
||||
# 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']
|
||||
)
|
||||
)
|
||||
|
||||
click.echo('\n'.join(sorted(pool_list_output)))
|
||||
|
||||
|
||||
#
|
||||
# Volume functions
|
||||
|
@ -1090,113 +661,6 @@ def get_list_volume(zk_conn, pool, limit, is_fuzzy=True):
|
|||
|
||||
return True, sorted(volume_list, key=lambda x: str(x['name']))
|
||||
|
||||
def format_list_volume(volume_list):
|
||||
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:
|
||||
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']),
|
||||
)
|
||||
)
|
||||
|
||||
click.echo('\n'.join(sorted(volume_list_output)))
|
||||
|
||||
|
||||
#
|
||||
# Snapshot functions
|
||||
|
@ -1300,67 +764,3 @@ def get_list_snapshot(zk_conn, pool, volume, limit, is_fuzzy=True):
|
|||
snapshot_list.append({'pool': pool_name, 'volume': volume_name, 'snapshot': snapshot_name})
|
||||
|
||||
return True, sorted(snapshot_list, key=lambda x: int(x['id']))
|
||||
|
||||
def format_list_snapshot(snapshot_list):
|
||||
snapshot_list_output = []
|
||||
|
||||
snapshot_name_length = 5
|
||||
snapshot_volume_length = 7
|
||||
snapshot_pool_length = 5
|
||||
|
||||
for snapshot in snapshot_list:
|
||||
volume, snapshot_name = snapshot.split('@')
|
||||
snapshot_pool, snapshot_volume = volume.split('/')
|
||||
|
||||
# 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 in snapshot_list:
|
||||
volume, snapshot_name = snapshot.split('@')
|
||||
snapshot_pool, snapshot_volume = volume.split('/')
|
||||
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,
|
||||
)
|
||||
)
|
||||
|
||||
click.echo('\n'.join(sorted(snapshot_list_output)))
|
||||
|
|
|
@ -21,7 +21,6 @@
|
|||
###############################################################################
|
||||
|
||||
import re
|
||||
import click
|
||||
|
||||
from kazoo.exceptions import NoNodeError
|
||||
|
||||
|
@ -618,320 +617,3 @@ def get_list_acl(zk_conn, network, limit, direction, is_fuzzy=True):
|
|||
acl_list.append(acl)
|
||||
|
||||
return True, acl_list
|
||||
|
||||
# CLI-only functions
|
||||
def getOutputColours(network_information):
|
||||
if network_information['ip6']['network'] != "None":
|
||||
v6_flag_colour = ansiprint.green()
|
||||
else:
|
||||
v6_flag_colour = ansiprint.blue()
|
||||
if network_information['ip4']['network'] != "None":
|
||||
v4_flag_colour = ansiprint.green()
|
||||
else:
|
||||
v4_flag_colour = ansiprint.blue()
|
||||
|
||||
if network_information['ip6']['dhcp_flag'] == "True":
|
||||
dhcp6_flag_colour = ansiprint.green()
|
||||
else:
|
||||
dhcp6_flag_colour = ansiprint.blue()
|
||||
if network_information['ip4']['dhcp_flag'] == "True":
|
||||
dhcp4_flag_colour = ansiprint.green()
|
||||
else:
|
||||
dhcp4_flag_colour = ansiprint.blue()
|
||||
|
||||
return v6_flag_colour, v4_flag_colour, dhcp6_flag_colour, dhcp4_flag_colour
|
||||
|
||||
def format_info(network_information, long_output):
|
||||
if not network_information:
|
||||
click.echo("No network found")
|
||||
return
|
||||
|
||||
v6_flag_colour, v4_flag_colour, dhcp6_flag_colour, dhcp4_flag_colour = getOutputColours(network_information)
|
||||
|
||||
# Format a nice output: do this line-by-line then concat the elements at the end
|
||||
ainformation = []
|
||||
ainformation.append('{}Virtual network information:{}'.format(ansiprint.bold(), ansiprint.end()))
|
||||
ainformation.append('')
|
||||
# Basic information
|
||||
ainformation.append('{}VNI:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['vni']))
|
||||
ainformation.append('{}Type:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['type']))
|
||||
ainformation.append('{}Description:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['description']))
|
||||
if network_information['type'] == 'managed':
|
||||
ainformation.append('{}Domain:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['domain']))
|
||||
ainformation.append('{}DNS Servers:{} {}'.format(ansiprint.purple(), ansiprint.end(), ', '.join(network_information['name_servers'])))
|
||||
if network_information['ip6']['network'] != "None":
|
||||
ainformation.append('')
|
||||
ainformation.append('{}IPv6 network:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['ip6']['network']))
|
||||
ainformation.append('{}IPv6 gateway:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['ip6']['gateway']))
|
||||
ainformation.append('{}DHCPv6 enabled:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), dhcp6_flag_colour, network_information['ip6']['dhcp_flag'], ansiprint.end()))
|
||||
if network_information['ip4']['network'] != "None":
|
||||
ainformation.append('')
|
||||
ainformation.append('{}IPv4 network:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['ip4']['network']))
|
||||
ainformation.append('{}IPv4 gateway:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['ip4']['gateway']))
|
||||
ainformation.append('{}DHCPv4 enabled:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), dhcp4_flag_colour, network_information['ip4']['dhcp_flag'], ansiprint.end()))
|
||||
if network_information['ip4']['dhcp_flag'] == "True":
|
||||
ainformation.append('{}DHCPv4 range:{} {} - {}'.format(ansiprint.purple(), ansiprint.end(), network_information['ip4']['dhcp_start'], network_information['ip4']['dhcp_end']))
|
||||
|
||||
if long_output:
|
||||
dhcp4_reservations_list = getNetworkDHCPReservations(zk_conn, vni)
|
||||
if dhcp4_reservations_list:
|
||||
ainformation.append('')
|
||||
ainformation.append('{}Client DHCPv4 reservations:{}'.format(ansiprint.bold(), ansiprint.end()))
|
||||
ainformation.append('')
|
||||
# Only show static reservations in the detailed information
|
||||
dhcp4_reservations_string = formatDHCPLeaseList(zk_conn, vni, dhcp4_reservations_list, reservations=True)
|
||||
for line in dhcp4_reservations_string.split('\n'):
|
||||
ainformation.append(line)
|
||||
|
||||
firewall_rules = zkhandler.listchildren(zk_conn, '/networks/{}/firewall_rules'.format(vni))
|
||||
if firewall_rules:
|
||||
ainformation.append('')
|
||||
ainformation.append('{}Network firewall rules:{}'.format(ansiprint.bold(), ansiprint.end()))
|
||||
ainformation.append('')
|
||||
formatted_firewall_rules = get_list_firewall_rules(zk_conn, vni)
|
||||
for rule in formatted_firewall_rules:
|
||||
ainformation.append(rule)
|
||||
|
||||
# Join it all together
|
||||
click.echo('\n'.join(ainformation))
|
||||
|
||||
def format_list(network_list):
|
||||
if not network_list:
|
||||
click.echo("No network found")
|
||||
return
|
||||
|
||||
network_list_output = []
|
||||
|
||||
# Determine optimal column widths
|
||||
net_vni_length = 5
|
||||
net_description_length = 12
|
||||
net_nettype_length = 8
|
||||
net_domain_length = 6
|
||||
net_v6_flag_length = 6
|
||||
net_dhcp6_flag_length = 7
|
||||
net_v4_flag_length = 6
|
||||
net_dhcp4_flag_length = 7
|
||||
for network_information in network_list:
|
||||
# vni column
|
||||
_net_vni_length = len(str(network_information['vni'])) + 1
|
||||
if _net_vni_length > net_vni_length:
|
||||
net_vni_length = _net_vni_length
|
||||
# description column
|
||||
_net_description_length = len(network_information['description']) + 1
|
||||
if _net_description_length > net_description_length:
|
||||
net_description_length = _net_description_length
|
||||
# domain column
|
||||
_net_domain_length = len(network_information['domain']) + 1
|
||||
if _net_domain_length > net_domain_length:
|
||||
net_domain_length = _net_domain_length
|
||||
|
||||
# Format the string (header)
|
||||
network_list_output.append('{bold}\
|
||||
{net_vni: <{net_vni_length}} \
|
||||
{net_description: <{net_description_length}} \
|
||||
{net_nettype: <{net_nettype_length}} \
|
||||
{net_domain: <{net_domain_length}} \
|
||||
{net_v6_flag: <{net_v6_flag_length}} \
|
||||
{net_dhcp6_flag: <{net_dhcp6_flag_length}} \
|
||||
{net_v4_flag: <{net_v4_flag_length}} \
|
||||
{net_dhcp4_flag: <{net_dhcp4_flag_length}} \
|
||||
{end_bold}'.format(
|
||||
bold=ansiprint.bold(),
|
||||
end_bold=ansiprint.end(),
|
||||
net_vni_length=net_vni_length,
|
||||
net_description_length=net_description_length,
|
||||
net_nettype_length=net_nettype_length,
|
||||
net_domain_length=net_domain_length,
|
||||
net_v6_flag_length=net_v6_flag_length,
|
||||
net_dhcp6_flag_length=net_dhcp6_flag_length,
|
||||
net_v4_flag_length=net_v4_flag_length,
|
||||
net_dhcp4_flag_length=net_dhcp4_flag_length,
|
||||
net_vni='VNI',
|
||||
net_description='Description',
|
||||
net_nettype='Type',
|
||||
net_domain='Domain',
|
||||
net_v6_flag='IPv6',
|
||||
net_dhcp6_flag='DHCPv6',
|
||||
net_v4_flag='IPv4',
|
||||
net_dhcp4_flag='DHCPv4',
|
||||
)
|
||||
)
|
||||
|
||||
for network_information in network_list:
|
||||
v6_flag_colour, v4_flag_colour, dhcp6_flag_colour, dhcp4_flag_colour = getOutputColours(network_information)
|
||||
if network_information['ip4']['network'] != "None":
|
||||
v4_flag = 'True'
|
||||
else:
|
||||
v4_flag = 'False'
|
||||
|
||||
if network_information['ip6']['network'] != "None":
|
||||
v6_flag = 'True'
|
||||
else:
|
||||
v6_flag = 'False'
|
||||
|
||||
network_list_output.append(
|
||||
'{bold}\
|
||||
{net_vni: <{net_vni_length}} \
|
||||
{net_description: <{net_description_length}} \
|
||||
{net_nettype: <{net_nettype_length}} \
|
||||
{net_domain: <{net_domain_length}} \
|
||||
{v6_flag_colour}{net_v6_flag: <{net_v6_flag_length}}{colour_off} \
|
||||
{dhcp6_flag_colour}{net_dhcp6_flag: <{net_dhcp6_flag_length}}{colour_off} \
|
||||
{v4_flag_colour}{net_v4_flag: <{net_v4_flag_length}}{colour_off} \
|
||||
{dhcp4_flag_colour}{net_dhcp4_flag: <{net_dhcp4_flag_length}}{colour_off} \
|
||||
{end_bold}'.format(
|
||||
bold='',
|
||||
end_bold='',
|
||||
net_vni_length=net_vni_length,
|
||||
net_description_length=net_description_length,
|
||||
net_nettype_length=net_nettype_length,
|
||||
net_domain_length=net_domain_length,
|
||||
net_v6_flag_length=net_v6_flag_length,
|
||||
net_dhcp6_flag_length=net_dhcp6_flag_length,
|
||||
net_v4_flag_length=net_v4_flag_length,
|
||||
net_dhcp4_flag_length=net_dhcp4_flag_length,
|
||||
net_vni=network_information['vni'],
|
||||
net_description=network_information['description'],
|
||||
net_nettype=network_information['type'],
|
||||
net_domain=network_information['domain'],
|
||||
net_v6_flag=v6_flag,
|
||||
v6_flag_colour=v6_flag_colour,
|
||||
net_dhcp6_flag=network_information['ip6']['dhcp_flag'],
|
||||
dhcp6_flag_colour=dhcp6_flag_colour,
|
||||
net_v4_flag=v4_flag,
|
||||
v4_flag_colour=v4_flag_colour,
|
||||
net_dhcp4_flag=network_information['ip4']['dhcp_flag'],
|
||||
dhcp4_flag_colour=dhcp4_flag_colour,
|
||||
colour_off=ansiprint.end()
|
||||
)
|
||||
)
|
||||
|
||||
click.echo('\n'.join(sorted(network_list_output)))
|
||||
|
||||
def format_list_dhcp(dhcp_lease_list):
|
||||
dhcp_lease_list_output = []
|
||||
|
||||
# Determine optimal column widths
|
||||
lease_hostname_length = 9
|
||||
lease_ip4_address_length = 11
|
||||
lease_mac_address_length = 13
|
||||
lease_timestamp_length = 13
|
||||
for dhcp_lease_information in dhcp_lease_list:
|
||||
# hostname column
|
||||
_lease_hostname_length = len(dhcp_lease_information['hostname']) + 1
|
||||
if _lease_hostname_length > lease_hostname_length:
|
||||
lease_hostname_length = _lease_hostname_length
|
||||
# ip4_address column
|
||||
_lease_ip4_address_length = len(dhcp_lease_information['ip4_address']) + 1
|
||||
if _lease_ip4_address_length > lease_ip4_address_length:
|
||||
lease_ip4_address_length = _lease_ip4_address_length
|
||||
# mac_address column
|
||||
_lease_mac_address_length = len(dhcp_lease_information['mac_address']) + 1
|
||||
if _lease_mac_address_length > lease_mac_address_length:
|
||||
lease_mac_address_length = _lease_mac_address_length
|
||||
|
||||
# Format the string (header)
|
||||
dhcp_lease_list_output.append('{bold}\
|
||||
{lease_hostname: <{lease_hostname_length}} \
|
||||
{lease_ip4_address: <{lease_ip4_address_length}} \
|
||||
{lease_mac_address: <{lease_mac_address_length}} \
|
||||
{lease_timestamp: <{lease_timestamp_length}} \
|
||||
{end_bold}'.format(
|
||||
bold=ansiprint.bold(),
|
||||
end_bold=ansiprint.end(),
|
||||
lease_hostname_length=lease_hostname_length,
|
||||
lease_ip4_address_length=lease_ip4_address_length,
|
||||
lease_mac_address_length=lease_mac_address_length,
|
||||
lease_timestamp_length=lease_timestamp_length,
|
||||
lease_hostname='Hostname',
|
||||
lease_ip4_address='IP Address',
|
||||
lease_mac_address='MAC Address',
|
||||
lease_timestamp='Timestamp'
|
||||
)
|
||||
)
|
||||
|
||||
for dhcp_lease_information in dhcp_lease_list:
|
||||
dhcp_lease_list_output.append('{bold}\
|
||||
{lease_hostname: <{lease_hostname_length}} \
|
||||
{lease_ip4_address: <{lease_ip4_address_length}} \
|
||||
{lease_mac_address: <{lease_mac_address_length}} \
|
||||
{lease_timestamp: <{lease_timestamp_length}} \
|
||||
{end_bold}'.format(
|
||||
bold='',
|
||||
end_bold='',
|
||||
lease_hostname_length=lease_hostname_length,
|
||||
lease_ip4_address_length=lease_ip4_address_length,
|
||||
lease_mac_address_length=lease_mac_address_length,
|
||||
lease_timestamp_length=12,
|
||||
lease_hostname=dhcp_lease_information['hostname'],
|
||||
lease_ip4_address=dhcp_lease_information['ip4_address'],
|
||||
lease_mac_address=dhcp_lease_information['mac_address'],
|
||||
lease_timestamp=dhcp_lease_information['timestamp']
|
||||
)
|
||||
)
|
||||
|
||||
click.echo('\n'.join(sorted(dhcp_lease_list_output)))
|
||||
|
||||
def format_list_acl(acl_list):
|
||||
acl_list_output = []
|
||||
|
||||
# Determine optimal column widths
|
||||
acl_direction_length = 10
|
||||
acl_order_length = 6
|
||||
acl_description_length = 12
|
||||
acl_rule_length = 5
|
||||
for acl_information in acl_list:
|
||||
# order column
|
||||
_acl_order_length = len(str(acl_information['order'])) + 1
|
||||
if _acl_order_length > acl_order_length:
|
||||
acl_order_length = _acl_order_length
|
||||
# description column
|
||||
_acl_description_length = len(acl_information['description']) + 1
|
||||
if _acl_description_length > acl_description_length:
|
||||
acl_description_length = _acl_description_length
|
||||
# rule column
|
||||
_acl_rule_length = len(acl_information['rule']) + 1
|
||||
if _acl_rule_length > acl_rule_length:
|
||||
acl_rule_length = _acl_rule_length
|
||||
|
||||
# Format the string (header)
|
||||
acl_list_output.append('{bold}\
|
||||
{acl_direction: <{acl_direction_length}} \
|
||||
{acl_order: <{acl_order_length}} \
|
||||
{acl_description: <{acl_description_length}} \
|
||||
{acl_rule: <{acl_rule_length}} \
|
||||
{end_bold}'.format(
|
||||
bold=ansiprint.bold(),
|
||||
end_bold=ansiprint.end(),
|
||||
acl_direction_length=acl_direction_length,
|
||||
acl_order_length=acl_order_length,
|
||||
acl_description_length=acl_description_length,
|
||||
acl_rule_length=acl_rule_length,
|
||||
acl_direction='Direction',
|
||||
acl_order='Order',
|
||||
acl_description='Description',
|
||||
acl_rule='Rule',
|
||||
)
|
||||
)
|
||||
|
||||
for acl_information in acl_list:
|
||||
acl_list_output.append('{bold}\
|
||||
{acl_direction: <{acl_direction_length}} \
|
||||
{acl_order: <{acl_order_length}} \
|
||||
{acl_description: <{acl_description_length}} \
|
||||
{acl_rule: <{acl_rule_length}} \
|
||||
{end_bold}'.format(
|
||||
bold='',
|
||||
end_bold='',
|
||||
acl_direction_length=acl_direction_length,
|
||||
acl_order_length=acl_order_length,
|
||||
acl_description_length=acl_description_length,
|
||||
acl_rule_length=acl_rule_length,
|
||||
acl_direction=acl_information['direction'],
|
||||
acl_order=acl_information['order'],
|
||||
acl_description=acl_information['description'],
|
||||
acl_rule=acl_information['rule'],
|
||||
)
|
||||
)
|
||||
|
||||
click.echo('\n'.join(sorted(acl_list_output)))
|
||||
|
|
|
@ -22,7 +22,6 @@
|
|||
|
||||
import time
|
||||
import re
|
||||
import click
|
||||
|
||||
import daemon_lib.ansiprint as ansiprint
|
||||
import daemon_lib.zkhandler as zkhandler
|
||||
|
@ -216,214 +215,3 @@ def get_list(zk_conn, limit, daemon_state=None, coordinator_state=None, domain_s
|
|||
node_list = limited_node_list
|
||||
|
||||
return True, node_list
|
||||
|
||||
#
|
||||
# CLI-specific functions
|
||||
#
|
||||
def getOutputColours(node_information):
|
||||
if node_information['daemon_state'] == 'run':
|
||||
daemon_state_colour = ansiprint.green()
|
||||
elif node_information['daemon_state'] == 'stop':
|
||||
daemon_state_colour = ansiprint.red()
|
||||
elif node_information['daemon_state'] == 'shutdown':
|
||||
daemon_state_colour = ansiprint.yellow()
|
||||
elif node_information['daemon_state'] == 'init':
|
||||
daemon_state_colour = ansiprint.yellow()
|
||||
elif node_information['daemon_state'] == 'dead':
|
||||
daemon_state_colour = ansiprint.red() + ansiprint.bold()
|
||||
else:
|
||||
daemon_state_colour = ansiprint.blue()
|
||||
|
||||
if node_information['coordinator_state'] == 'primary':
|
||||
coordinator_state_colour = ansiprint.green()
|
||||
elif node_information['coordinator_state'] == 'secondary':
|
||||
coordinator_state_colour = ansiprint.blue()
|
||||
else:
|
||||
coordinator_state_colour = ansiprint.cyan()
|
||||
|
||||
if node_information['domain_state'] == 'ready':
|
||||
domain_state_colour = ansiprint.green()
|
||||
else:
|
||||
domain_state_colour = ansiprint.blue()
|
||||
|
||||
return daemon_state_colour, coordinator_state_colour, domain_state_colour
|
||||
|
||||
def format_info(node_information, long_output):
|
||||
daemon_state_colour, coordinator_state_colour, domain_state_colour = getOutputColours(node_information)
|
||||
|
||||
# Format a nice output; do this line-by-line then concat the elements at the end
|
||||
ainformation = []
|
||||
# Basic information
|
||||
ainformation.append('{}Name:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['name']))
|
||||
ainformation.append('{}Daemon State:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), daemon_state_colour, node_information['daemon_state'], ansiprint.end()))
|
||||
ainformation.append('{}Coordinator State:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), coordinator_state_colour, node_information['coordinator_state'], ansiprint.end()))
|
||||
ainformation.append('{}Domain State:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), domain_state_colour, node_information['domain_state'], ansiprint.end()))
|
||||
ainformation.append('{}Active VM Count:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['domains_count']))
|
||||
if long_output:
|
||||
ainformation.append('')
|
||||
ainformation.append('{}Architecture:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['arch']))
|
||||
ainformation.append('{}Operating System:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['os']))
|
||||
ainformation.append('{}Kernel Version:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['kernel']))
|
||||
ainformation.append('')
|
||||
ainformation.append('{}Host CPUs:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['vcpu']['total']))
|
||||
ainformation.append('{}vCPUs:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['vcpu']['allocated']))
|
||||
ainformation.append('{}Load:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['load']))
|
||||
ainformation.append('{}Total RAM (MiB):{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['memory']['total']))
|
||||
ainformation.append('{}Used RAM (MiB):{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['memory']['used']))
|
||||
ainformation.append('{}Free RAM (MiB):{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['memory']['free']))
|
||||
ainformation.append('{}Allocated RAM (MiB):{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['memory']['allocated']))
|
||||
ainformation.append('{}Provisioned RAM (MiB):{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['memory']['provisioned']))
|
||||
|
||||
# Join it all together
|
||||
information = '\n'.join(ainformation)
|
||||
click.echo(information)
|
||||
|
||||
click.echo('')
|
||||
|
||||
def format_list(node_list):
|
||||
node_list_output = []
|
||||
|
||||
# Determine optimal column widths
|
||||
node_name_length = 5
|
||||
daemon_state_length = 7
|
||||
coordinator_state_length = 12
|
||||
domain_state_length = 8
|
||||
domains_count_length = 4
|
||||
cpu_count_length = 6
|
||||
load_length = 5
|
||||
mem_total_length = 6
|
||||
mem_used_length = 5
|
||||
mem_free_length = 5
|
||||
mem_alloc_length = 4
|
||||
mem_prov_length = 4
|
||||
for node_information in node_list:
|
||||
# node_name column
|
||||
_node_name_length = len(node_information['name']) + 1
|
||||
if _node_name_length > node_name_length:
|
||||
node_name_length = _node_name_length
|
||||
# daemon_state column
|
||||
_daemon_state_length = len(node_information['daemon_state']) + 1
|
||||
if _daemon_state_length > daemon_state_length:
|
||||
daemon_state_length = _daemon_state_length
|
||||
# coordinator_state column
|
||||
_coordinator_state_length = len(node_information['coordinator_state']) + 1
|
||||
if _coordinator_state_length > coordinator_state_length:
|
||||
coordinator_state_length = _coordinator_state_length
|
||||
# domain_state column
|
||||
_domain_state_length = len(node_information['domain_state']) + 1
|
||||
if _domain_state_length > domain_state_length:
|
||||
domain_state_length = _domain_state_length
|
||||
# domains_count column
|
||||
_domains_count_length = len(str(node_information['domains_count'])) + 1
|
||||
if _domains_count_length > domains_count_length:
|
||||
domains_count_length = _domains_count_length
|
||||
# cpu_count column
|
||||
_cpu_count_length = len(str(node_information['cpu_count'])) + 1
|
||||
if _cpu_count_length > cpu_count_length:
|
||||
cpu_count_length = _cpu_count_length
|
||||
# load column
|
||||
_load_length = len(str(node_information['load'])) + 1
|
||||
if _load_length > load_length:
|
||||
load_length = _load_length
|
||||
# mem_total column
|
||||
_mem_total_length = len(str(node_information['memory']['total'])) + 1
|
||||
if _mem_total_length > mem_total_length:
|
||||
mem_total_length = _mem_total_length
|
||||
# mem_used column
|
||||
_mem_used_length = len(str(node_information['memory']['used'])) + 1
|
||||
if _mem_used_length > mem_used_length:
|
||||
mem_used_length = _mem_used_length
|
||||
# mem_free column
|
||||
_mem_free_length = len(str(node_information['memory']['free'])) + 1
|
||||
if _mem_free_length > mem_free_length:
|
||||
mem_free_length = _mem_free_length
|
||||
# mem_alloc column
|
||||
_mem_alloc_length = len(str(node_information['memory']['allocated'])) + 1
|
||||
if _mem_alloc_length > mem_alloc_length:
|
||||
mem_alloc_length = _mem_alloc_length
|
||||
# mem_prov column
|
||||
_mem_prov_length = len(str(node_information['memory']['provisioned'])) + 1
|
||||
if _mem_prov_length > mem_prov_length:
|
||||
mem_prov_length = _mem_prov_length
|
||||
|
||||
# Format the string (header)
|
||||
node_list_output.append(
|
||||
'{bold}{node_name: <{node_name_length}} \
|
||||
St: {daemon_state_colour}{node_daemon_state: <{daemon_state_length}}{end_colour} {coordinator_state_colour}{node_coordinator_state: <{coordinator_state_length}}{end_colour} {domain_state_colour}{node_domain_state: <{domain_state_length}}{end_colour} \
|
||||
Res: {node_domains_count: <{domains_count_length}} {node_cpu_count: <{cpu_count_length}} {node_load: <{load_length}} \
|
||||
Mem (M): {node_mem_total: <{mem_total_length}} {node_mem_used: <{mem_used_length}} {node_mem_free: <{mem_free_length}} {node_mem_allocated: <{mem_alloc_length}} {node_mem_provisioned: <{mem_prov_length}}{end_bold}'.format(
|
||||
node_name_length=node_name_length,
|
||||
daemon_state_length=daemon_state_length,
|
||||
coordinator_state_length=coordinator_state_length,
|
||||
domain_state_length=domain_state_length,
|
||||
domains_count_length=domains_count_length,
|
||||
cpu_count_length=cpu_count_length,
|
||||
load_length=load_length,
|
||||
mem_total_length=mem_total_length,
|
||||
mem_used_length=mem_used_length,
|
||||
mem_free_length=mem_free_length,
|
||||
mem_alloc_length=mem_alloc_length,
|
||||
mem_prov_length=mem_prov_length,
|
||||
bold=ansiprint.bold(),
|
||||
end_bold=ansiprint.end(),
|
||||
daemon_state_colour='',
|
||||
coordinator_state_colour='',
|
||||
domain_state_colour='',
|
||||
end_colour='',
|
||||
node_name='Name',
|
||||
node_daemon_state='Daemon',
|
||||
node_coordinator_state='Coordinator',
|
||||
node_domain_state='Domain',
|
||||
node_domains_count='VMs',
|
||||
node_cpu_count='vCPUs',
|
||||
node_load='Load',
|
||||
node_mem_total='Total',
|
||||
node_mem_used='Used',
|
||||
node_mem_free='Free',
|
||||
node_mem_allocated='VMs Run',
|
||||
node_mem_provisioned='VMs Total'
|
||||
)
|
||||
)
|
||||
|
||||
# Format the string (elements)
|
||||
for node_information in node_list:
|
||||
daemon_state_colour, coordinator_state_colour, domain_state_colour = getOutputColours(node_information)
|
||||
node_list_output.append(
|
||||
'{bold}{node_name: <{node_name_length}} \
|
||||
{daemon_state_colour}{node_daemon_state: <{daemon_state_length}}{end_colour} {coordinator_state_colour}{node_coordinator_state: <{coordinator_state_length}}{end_colour} {domain_state_colour}{node_domain_state: <{domain_state_length}}{end_colour} \
|
||||
{node_domains_count: <{domains_count_length}} {node_cpu_count: <{cpu_count_length}} {node_load: <{load_length}} \
|
||||
{node_mem_total: <{mem_total_length}} {node_mem_used: <{mem_used_length}} {node_mem_free: <{mem_free_length}} {node_mem_allocated: <{mem_alloc_length}} {node_mem_provisioned: <{mem_prov_length}}{end_bold}'.format(
|
||||
node_name_length=node_name_length,
|
||||
daemon_state_length=daemon_state_length,
|
||||
coordinator_state_length=coordinator_state_length,
|
||||
domain_state_length=domain_state_length,
|
||||
domains_count_length=domains_count_length,
|
||||
cpu_count_length=cpu_count_length,
|
||||
load_length=load_length,
|
||||
mem_total_length=mem_total_length,
|
||||
mem_used_length=mem_used_length,
|
||||
mem_free_length=mem_free_length,
|
||||
mem_alloc_length=mem_alloc_length,
|
||||
mem_prov_length=mem_prov_length,
|
||||
bold='',
|
||||
end_bold='',
|
||||
daemon_state_colour=daemon_state_colour,
|
||||
coordinator_state_colour=coordinator_state_colour,
|
||||
domain_state_colour=domain_state_colour,
|
||||
end_colour=ansiprint.end(),
|
||||
node_name=node_information['name'],
|
||||
node_daemon_state=node_information['daemon_state'],
|
||||
node_coordinator_state=node_information['coordinator_state'],
|
||||
node_domain_state=node_information['domain_state'],
|
||||
node_domains_count=node_information['domains_count'],
|
||||
node_cpu_count=node_information['vcpu']['allocated'],
|
||||
node_load=node_information['load'],
|
||||
node_mem_total=node_information['memory']['total'],
|
||||
node_mem_used=node_information['memory']['used'],
|
||||
node_mem_free=node_information['memory']['free'],
|
||||
node_mem_allocated=node_information['memory']['allocated'],
|
||||
node_mem_provisioned=node_information['memory']['provisioned']
|
||||
)
|
||||
)
|
||||
|
||||
click.echo('\n'.join(sorted(node_list_output)))
|
||||
|
|
|
@ -22,7 +22,6 @@
|
|||
|
||||
import time
|
||||
import re
|
||||
import click
|
||||
import lxml.objectify
|
||||
|
||||
import daemon_lib.ansiprint as ansiprint
|
||||
|
@ -709,268 +708,3 @@ def get_list(zk_conn, node, state, limit, is_fuzzy=True):
|
|||
vm_list.append(common.getInformationFromXML(zk_conn, vm))
|
||||
|
||||
return True, vm_list
|
||||
|
||||
#
|
||||
# CLI-specific functions
|
||||
#
|
||||
def format_info(zk_conn, domain_information, long_output):
|
||||
# Format a nice output; do this line-by-line then concat the elements at the end
|
||||
ainformation = []
|
||||
ainformation.append('{}Virtual machine information:{}'.format(ansiprint.bold(), ansiprint.end()))
|
||||
ainformation.append('')
|
||||
# Basic information
|
||||
ainformation.append('{}UUID:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['uuid']))
|
||||
ainformation.append('{}Name:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['name']))
|
||||
ainformation.append('{}Description:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['description']))
|
||||
ainformation.append('{}Profile:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['profile']))
|
||||
ainformation.append('{}Memory (M):{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['memory']))
|
||||
ainformation.append('{}vCPUs:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['vcpu']))
|
||||
ainformation.append('{}Topology (S/C/T):{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['vcpu_topology']))
|
||||
|
||||
if long_output is True:
|
||||
# Virtualization information
|
||||
ainformation.append('')
|
||||
ainformation.append('{}Emulator:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['emulator']))
|
||||
ainformation.append('{}Type:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['type']))
|
||||
ainformation.append('{}Arch:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['arch']))
|
||||
ainformation.append('{}Machine:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['machine']))
|
||||
ainformation.append('{}Features:{} {}'.format(ansiprint.purple(), ansiprint.end(), ' '.join(domain_information['features'])))
|
||||
|
||||
# PVC cluster information
|
||||
ainformation.append('')
|
||||
dstate_colour = {
|
||||
'start': ansiprint.green(),
|
||||
'restart': ansiprint.yellow(),
|
||||
'shutdown': ansiprint.yellow(),
|
||||
'stop': ansiprint.red(),
|
||||
'disable': ansiprint.blue(),
|
||||
'fail': ansiprint.red(),
|
||||
'migrate': ansiprint.blue(),
|
||||
'unmigrate': ansiprint.blue()
|
||||
}
|
||||
ainformation.append('{}State:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), dstate_colour[domain_information['state']], domain_information['state'], ansiprint.end()))
|
||||
ainformation.append('{}Current Node:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['node']))
|
||||
if not domain_information['last_node']:
|
||||
domain_information['last_node'] = "N/A"
|
||||
ainformation.append('{}Previous Node:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['last_node']))
|
||||
|
||||
# Get a failure reason if applicable
|
||||
if domain_information['failed_reason']:
|
||||
ainformation.append('')
|
||||
ainformation.append('{}Failure reason:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['failed_reason']))
|
||||
|
||||
if not domain_information['node_selector']:
|
||||
formatted_node_selector = "False"
|
||||
else:
|
||||
formatted_node_selector = domain_information['node_selector']
|
||||
|
||||
if not domain_information['node_limit']:
|
||||
formatted_node_limit = "False"
|
||||
else:
|
||||
formatted_node_limit = ', '.join(domain_information['node_limit'])
|
||||
|
||||
if not domain_information['node_autostart']:
|
||||
formatted_node_autostart = "False"
|
||||
else:
|
||||
formatted_node_autostart = domain_information['node_autostart']
|
||||
|
||||
if not domain_information['migration_method']:
|
||||
formatted_migration_method = "False"
|
||||
else:
|
||||
formatted_migration_method = domain_information['migration_method']
|
||||
|
||||
ainformation.append('{}Migration selector:{} {}'.format(ansiprint.purple(), ansiprint.end(), formatted_node_selector))
|
||||
ainformation.append('{}Node limit:{} {}'.format(ansiprint.purple(), ansiprint.end(), formatted_node_limit))
|
||||
ainformation.append('{}Autostart:{} {}'.format(ansiprint.purple(), ansiprint.end(), formatted_node_autostart))
|
||||
ainformation.append('{}Migration Method:{} {}'.format(ansiprint.purple(), ansiprint.end(), formatted_migration_method))
|
||||
|
||||
# Network list
|
||||
net_list = []
|
||||
for net in domain_information['networks']:
|
||||
# Split out just the numerical (VNI) part of the brXXXX name
|
||||
net_vnis = re.findall(r'\d+', net['source'])
|
||||
if net_vnis:
|
||||
net_vni = net_vnis[0]
|
||||
else:
|
||||
net_vni = re.sub('br', '', net['source'])
|
||||
net_exists = zkhandler.exists(zk_conn, '/networks/{}'.format(net_vni))
|
||||
if not net_exists and net_vni != 'cluster':
|
||||
net_list.append(ansiprint.red() + net_vni + ansiprint.end() + ' [invalid]')
|
||||
else:
|
||||
net_list.append(net_vni)
|
||||
ainformation.append('')
|
||||
ainformation.append('{}Networks:{} {}'.format(ansiprint.purple(), ansiprint.end(), ', '.join(net_list)))
|
||||
|
||||
if long_output is True:
|
||||
# Disk list
|
||||
ainformation.append('')
|
||||
name_length = 0
|
||||
for disk in domain_information['disks']:
|
||||
_name_length = len(disk['name']) + 1
|
||||
if _name_length > name_length:
|
||||
name_length = _name_length
|
||||
ainformation.append('{0}Disks:{1} {2}ID Type {3: <{width}} Dev Bus{4}'.format(ansiprint.purple(), ansiprint.end(), ansiprint.bold(), 'Name', ansiprint.end(), width=name_length))
|
||||
for disk in domain_information['disks']:
|
||||
ainformation.append(' {0: <3} {1: <5} {2: <{width}} {3: <4} {4: <5}'.format(domain_information['disks'].index(disk), disk['type'], disk['name'], disk['dev'], disk['bus'], width=name_length))
|
||||
ainformation.append('')
|
||||
ainformation.append('{}Interfaces:{} {}ID Type Source Model MAC{}'.format(ansiprint.purple(), ansiprint.end(), ansiprint.bold(), ansiprint.end()))
|
||||
for net in domain_information['networks']:
|
||||
ainformation.append(' {0: <3} {1: <8} {2: <10} {3: <8} {4}'.format(domain_information['networks'].index(net), net['type'], net['source'], net['model'], net['mac']))
|
||||
# Controller list
|
||||
ainformation.append('')
|
||||
ainformation.append('{}Controllers:{} {}ID Type Model{}'.format(ansiprint.purple(), ansiprint.end(), ansiprint.bold(), ansiprint.end()))
|
||||
for controller in domain_information['controllers']:
|
||||
ainformation.append(' {0: <3} {1: <14} {2: <8}'.format(domain_information['controllers'].index(controller), controller['type'], controller['model']))
|
||||
|
||||
# Join it all together
|
||||
information = '\n'.join(ainformation)
|
||||
click.echo(information)
|
||||
|
||||
click.echo('')
|
||||
|
||||
def format_list(zk_conn, vm_list, raw):
|
||||
# Function to strip the "br" off of nets and return a nicer list
|
||||
def getNiceNetID(domain_information):
|
||||
# Network list
|
||||
net_list = []
|
||||
for net in domain_information['networks']:
|
||||
# Split out just the numerical (VNI) part of the brXXXX name
|
||||
net_vnis = re.findall(r'\d+', net['source'])
|
||||
if net_vnis:
|
||||
net_vni = net_vnis[0]
|
||||
else:
|
||||
net_vni = re.sub('br', '', net['source'])
|
||||
net_list.append(net_vni)
|
||||
return net_list
|
||||
|
||||
# Handle raw mode since it just lists the names
|
||||
if raw:
|
||||
for vm in sorted(item['name'] for item in vm_list):
|
||||
click.echo(vm)
|
||||
return True, ''
|
||||
|
||||
vm_list_output = []
|
||||
|
||||
# Determine optimal column widths
|
||||
# Dynamic columns: node_name, node, migrated
|
||||
vm_name_length = 5
|
||||
vm_uuid_length = 37
|
||||
vm_state_length = 6
|
||||
vm_nets_length = 9
|
||||
vm_ram_length = 8
|
||||
vm_vcpu_length = 6
|
||||
vm_node_length = 8
|
||||
vm_migrated_length = 10
|
||||
for domain_information in vm_list:
|
||||
net_list = getNiceNetID(domain_information)
|
||||
# vm_name column
|
||||
_vm_name_length = len(domain_information['name']) + 1
|
||||
if _vm_name_length > vm_name_length:
|
||||
vm_name_length = _vm_name_length
|
||||
# vm_state column
|
||||
_vm_state_length = len(domain_information['state']) + 1
|
||||
if _vm_state_length > vm_state_length:
|
||||
vm_state_length = _vm_state_length
|
||||
# vm_nets column
|
||||
_vm_nets_length = len(','.join(net_list)) + 1
|
||||
if _vm_nets_length > vm_nets_length:
|
||||
vm_nets_length = _vm_nets_length
|
||||
# vm_node column
|
||||
_vm_node_length = len(domain_information['node']) + 1
|
||||
if _vm_node_length > vm_node_length:
|
||||
vm_node_length = _vm_node_length
|
||||
# vm_migrated column
|
||||
_vm_migrated_length = len(domain_information['migrated']) + 1
|
||||
if _vm_migrated_length > vm_migrated_length:
|
||||
vm_migrated_length = _vm_migrated_length
|
||||
|
||||
# Format the string (header)
|
||||
vm_list_output.append(
|
||||
'{bold}{vm_name: <{vm_name_length}} {vm_uuid: <{vm_uuid_length}} \
|
||||
{vm_state_colour}{vm_state: <{vm_state_length}}{end_colour} \
|
||||
{vm_networks: <{vm_nets_length}} \
|
||||
{vm_memory: <{vm_ram_length}} {vm_vcpu: <{vm_vcpu_length}} \
|
||||
{vm_node: <{vm_node_length}} \
|
||||
{vm_migrated: <{vm_migrated_length}}{end_bold}'.format(
|
||||
vm_name_length=vm_name_length,
|
||||
vm_uuid_length=vm_uuid_length,
|
||||
vm_state_length=vm_state_length,
|
||||
vm_nets_length=vm_nets_length,
|
||||
vm_ram_length=vm_ram_length,
|
||||
vm_vcpu_length=vm_vcpu_length,
|
||||
vm_node_length=vm_node_length,
|
||||
vm_migrated_length=vm_migrated_length,
|
||||
bold=ansiprint.bold(),
|
||||
end_bold=ansiprint.end(),
|
||||
vm_state_colour='',
|
||||
end_colour='',
|
||||
vm_name='Name',
|
||||
vm_uuid='UUID',
|
||||
vm_state='State',
|
||||
vm_networks='Networks',
|
||||
vm_memory='RAM (M)',
|
||||
vm_vcpu='vCPUs',
|
||||
vm_node='Node',
|
||||
vm_migrated='Migrated'
|
||||
)
|
||||
)
|
||||
|
||||
# Format the string (elements)
|
||||
for domain_information in vm_list:
|
||||
if domain_information['state'] == 'start':
|
||||
vm_state_colour = ansiprint.green()
|
||||
elif domain_information['state'] == 'restart':
|
||||
vm_state_colour = ansiprint.yellow()
|
||||
elif domain_information['state'] == 'shutdown':
|
||||
vm_state_colour = ansiprint.yellow()
|
||||
elif domain_information['state'] == 'stop':
|
||||
vm_state_colour = ansiprint.red()
|
||||
elif domain_information['state'] == 'fail':
|
||||
vm_state_colour = ansiprint.red()
|
||||
else:
|
||||
vm_state_colour = ansiprint.blue()
|
||||
|
||||
# Handle colouring for an invalid network config
|
||||
raw_net_list = getNiceNetID(domain_information)
|
||||
net_list = []
|
||||
vm_net_colour = ''
|
||||
for net_vni in raw_net_list:
|
||||
net_exists = zkhandler.exists(zk_conn, '/networks/{}'.format(net_vni))
|
||||
if not net_exists and net_vni != 'cluster':
|
||||
vm_net_colour = ansiprint.red()
|
||||
net_list.append(net_vni)
|
||||
|
||||
vm_list_output.append(
|
||||
'{bold}{vm_name: <{vm_name_length}} {vm_uuid: <{vm_uuid_length}} \
|
||||
{vm_state_colour}{vm_state: <{vm_state_length}}{end_colour} \
|
||||
{vm_net_colour}{vm_networks: <{vm_nets_length}}{end_colour} \
|
||||
{vm_memory: <{vm_ram_length}} {vm_vcpu: <{vm_vcpu_length}} \
|
||||
{vm_node: <{vm_node_length}} \
|
||||
{vm_migrated: <{vm_migrated_length}}{end_bold}'.format(
|
||||
vm_name_length=vm_name_length,
|
||||
vm_uuid_length=vm_uuid_length,
|
||||
vm_state_length=vm_state_length,
|
||||
vm_nets_length=vm_nets_length,
|
||||
vm_ram_length=vm_ram_length,
|
||||
vm_vcpu_length=vm_vcpu_length,
|
||||
vm_node_length=vm_node_length,
|
||||
vm_migrated_length=vm_migrated_length,
|
||||
bold='',
|
||||
end_bold='',
|
||||
vm_state_colour=vm_state_colour,
|
||||
end_colour=ansiprint.end(),
|
||||
vm_name=domain_information['name'],
|
||||
vm_uuid=domain_information['uuid'],
|
||||
vm_state=domain_information['state'],
|
||||
vm_net_colour=vm_net_colour,
|
||||
vm_networks=','.join(net_list),
|
||||
vm_memory=domain_information['memory'],
|
||||
vm_vcpu=domain_information['vcpu'],
|
||||
vm_node=domain_information['node'],
|
||||
vm_migrated=domain_information['migrated']
|
||||
)
|
||||
)
|
||||
|
||||
click.echo('\n'.join(sorted(vm_list_output)))
|
||||
|
||||
return True, ''
|
||||
|
|
Loading…
Reference in New Issue