pvc/daemon-common/cluster.py

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#!/usr/bin/env python3
# cluster.py - PVC client function library, cluster management
# Part of the Parallel Virtual Cluster (PVC) system
#
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# Copyright (C) 2018-2021 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, version 3.
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#
# 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 re
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import daemon_lib.zkhandler as zkhandler
import daemon_lib.common as common
import daemon_lib.vm as pvc_vm
import daemon_lib.node as pvc_node
import daemon_lib.network as pvc_network
import daemon_lib.ceph as pvc_ceph
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def set_maintenance(zk_conn, maint_state):
try:
if maint_state == 'true':
zkhandler.writedata(zk_conn, {'/maintenance': 'true'})
return True, 'Successfully set cluster in maintenance mode'
else:
zkhandler.writedata(zk_conn, {'/maintenance': 'false'})
return True, 'Successfully set cluster in normal mode'
except Exception:
return False, 'Failed to set cluster maintenance state'
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def getClusterInformation(zk_conn):
# Get cluster maintenance state
try:
maint_state = zkhandler.readdata(zk_conn, '/maintenance')
except Exception:
maint_state = 'false'
# List of messages to display to the clients
cluster_health_msg = []
storage_health_msg = []
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# Get node information object list
retcode, node_list = pvc_node.get_list(zk_conn, None)
# Get vm information object list
retcode, vm_list = pvc_vm.get_list(zk_conn, None, None, None)
# Get network information object list
retcode, network_list = pvc_network.get_list(zk_conn, None, None)
# Get storage information object list
retcode, ceph_osd_list = pvc_ceph.get_list_osd(zk_conn, None)
retcode, ceph_pool_list = pvc_ceph.get_list_pool(zk_conn, None)
retcode, ceph_volume_list = pvc_ceph.get_list_volume(zk_conn, None, None)
retcode, ceph_snapshot_list = pvc_ceph.get_list_snapshot(zk_conn, None, None, None)
# Determine, for each subsection, the total count
node_count = len(node_list)
vm_count = len(vm_list)
network_count = len(network_list)
ceph_osd_count = len(ceph_osd_list)
ceph_pool_count = len(ceph_pool_list)
ceph_volume_count = len(ceph_volume_list)
ceph_snapshot_count = len(ceph_snapshot_list)
# Determinations for general cluster health
cluster_healthy_status = True
# Check for (n-1) overprovisioning
# Assume X nodes. If the total VM memory allocation (counting only running VMss) is greater than
# the total memory of the (n-1) smallest nodes, trigger this warning.
n_minus_1_total = 0
alloc_total = 0
node_largest_index = None
node_largest_count = 0
for index, node in enumerate(node_list):
node_mem_total = node['memory']['total']
node_mem_alloc = node['memory']['allocated']
alloc_total += node_mem_alloc
# Determine if this node is the largest seen so far
if node_mem_total > node_largest_count:
node_largest_index = index
node_largest_count = node_mem_total
n_minus_1_node_list = list()
for index, node in enumerate(node_list):
if index == node_largest_index:
continue
n_minus_1_node_list.append(node)
for index, node in enumerate(n_minus_1_node_list):
n_minus_1_total += node['memory']['total']
if alloc_total > n_minus_1_total:
cluster_healthy_status = False
cluster_health_msg.append("Total VM memory ({}) is overprovisioned (max {}) for (n-1) failure scenarios".format(alloc_total, n_minus_1_total))
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# Determinations for node health
node_healthy_status = list(range(0, node_count))
node_report_status = list(range(0, node_count))
for index, node in enumerate(node_list):
daemon_state = node['daemon_state']
domain_state = node['domain_state']
if daemon_state != 'run' and domain_state != 'ready':
node_healthy_status[index] = False
cluster_health_msg.append("Node '{}' in {},{} state".format(node['name'], daemon_state, domain_state))
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else:
node_healthy_status[index] = True
node_report_status[index] = daemon_state + ',' + domain_state
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# Determinations for VM health
vm_healthy_status = list(range(0, vm_count))
vm_report_status = list(range(0, vm_count))
for index, vm in enumerate(vm_list):
vm_state = vm['state']
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if vm_state not in ['start', 'disable', 'migrate', 'unmigrate', 'provision']:
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vm_healthy_status[index] = False
cluster_health_msg.append("VM '{}' in {} state".format(vm['name'], vm_state))
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else:
vm_healthy_status[index] = True
vm_report_status[index] = vm_state
# Determinations for OSD health
ceph_osd_healthy_status = list(range(0, ceph_osd_count))
ceph_osd_report_status = list(range(0, ceph_osd_count))
for index, ceph_osd in enumerate(ceph_osd_list):
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try:
ceph_osd_up = ceph_osd['stats']['up']
except KeyError:
ceph_osd_up = 0
try:
ceph_osd_in = ceph_osd['stats']['in']
except KeyError:
ceph_osd_in = 0
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up_texts = {1: 'up', 0: 'down'}
in_texts = {1: 'in', 0: 'out'}
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if not ceph_osd_up or not ceph_osd_in:
ceph_osd_healthy_status[index] = False
cluster_health_msg.append('OSD {} in {},{} state'.format(ceph_osd['id'], up_texts[ceph_osd_up], in_texts[ceph_osd_in]))
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else:
ceph_osd_healthy_status[index] = True
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ceph_osd_report_status[index] = up_texts[ceph_osd_up] + ',' + in_texts[ceph_osd_in]
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# Find out the overall cluster health; if any element of a healthy_status is false, it's unhealthy
if maint_state == 'true':
cluster_health = 'Maintenance'
elif cluster_healthy_status is False or False in node_healthy_status or False in vm_healthy_status or False in ceph_osd_healthy_status:
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cluster_health = 'Degraded'
else:
cluster_health = 'Optimal'
# Find out our storage health from Ceph
ceph_status = zkhandler.readdata(zk_conn, '/ceph').split('\n')
ceph_health = ceph_status[2].split()[-1]
# Parse the status output to get the health indicators
line_record = False
for index, line in enumerate(ceph_status):
if re.search('services:', line):
line_record = False
if line_record and len(line.strip()) > 0:
storage_health_msg.append(line.strip())
if re.search('health:', line):
line_record = True
if maint_state == 'true':
storage_health = 'Maintenance'
elif ceph_health != 'HEALTH_OK':
storage_health = 'Degraded'
else:
storage_health = 'Optimal'
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# State lists
node_state_combinations = [
'run,ready', 'run,flush', 'run,flushed', 'run,unflush',
'init,ready', 'init,flush', 'init,flushed', 'init,unflush',
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'stop,ready', 'stop,flush', 'stop,flushed', 'stop,unflush',
'dead,ready', 'dead,flush', 'dead,flushed', 'dead,unflush'
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]
vm_state_combinations = [
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'start', 'restart', 'shutdown', 'stop', 'disable', 'fail', 'migrate', 'unmigrate', 'provision'
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]
ceph_osd_state_combinations = [
'up,in', 'up,out', 'down,in', 'down,out'
]
# Format the Node states
formatted_node_states = {'total': node_count}
for state in node_state_combinations:
state_count = 0
for node_state in node_report_status:
if node_state == state:
state_count += 1
if state_count > 0:
formatted_node_states[state] = state_count
# Format the VM states
formatted_vm_states = {'total': vm_count}
for state in vm_state_combinations:
state_count = 0
for vm_state in vm_report_status:
if vm_state == state:
state_count += 1
if state_count > 0:
formatted_vm_states[state] = state_count
# Format the OSD states
formatted_osd_states = {'total': ceph_osd_count}
for state in ceph_osd_state_combinations:
state_count = 0
for ceph_osd_state in ceph_osd_report_status:
if ceph_osd_state == state:
state_count += 1
if state_count > 0:
formatted_osd_states[state] = state_count
# Format the status data
cluster_information = {
'health': cluster_health,
'health_msg': cluster_health_msg,
'storage_health': storage_health,
'storage_health_msg': storage_health_msg,
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'primary_node': common.getPrimaryNode(zk_conn),
'upstream_ip': zkhandler.readdata(zk_conn, '/upstream_ip'),
'nodes': formatted_node_states,
'vms': formatted_vm_states,
'networks': network_count,
'osds': formatted_osd_states,
'pools': ceph_pool_count,
'volumes': ceph_volume_count,
'snapshots': ceph_snapshot_count
}
return cluster_information
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def get_info(zk_conn):
# This is a thin wrapper function for naming purposes
cluster_information = getClusterInformation(zk_conn)
if cluster_information:
return True, cluster_information
else:
return False, 'ERROR: Failed to obtain cluster information!'