pvc/client-common/node.py

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#!/usr/bin/env python3
# node.py - PVC client function library, node management
# Part of the Parallel Virtual Cluster (PVC) system
#
# Copyright (C) 2018 Joshua M. Boniface <joshua@boniface.me>
#
# 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 os
import socket
import time
import uuid
import re
import tempfile
import subprocess
import difflib
import colorama
import click
import lxml.objectify
import configparser
import kazoo.client
import client_lib.ansiprint as ansiprint
import client_lib.zkhandler as zkhandler
import client_lib.common as common
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import client_lib.vm as pvc_vm
def getInformationFromNode(zk_conn, node_name):
"""
Gather information about a node from the Zookeeper database and return a dict() containing it.
"""
node_daemon_state = zkhandler.readdata(zk_conn, '/nodes/{}/daemonstate'.format(node_name))
node_coordinator_state = zkhandler.readdata(zk_conn, '/nodes/{}/routerstate'.format(node_name))
node_domain_state = zkhandler.readdata(zk_conn, '/nodes/{}/domainstate'.format(node_name))
node_static_data = zkhandler.readdata(zk_conn, '/nodes/{}/staticdata'.format(node_name)).split()
node_cpu_count = node_static_data[0]
node_kernel = node_static_data[1]
node_os = node_static_data[2]
node_arch = node_static_data[3]
node_mem_total = int(zkhandler.readdata(zk_conn, '/nodes/{}/memtotal'.format(node_name)))
node_mem_allocated = int(zkhandler.readdata(zk_conn, '/nodes/{}/memalloc'.format(node_name)))
node_mem_used = int(zkhandler.readdata(zk_conn, '/nodes/{}/memused'.format(node_name)))
node_mem_free = int(zkhandler.readdata(zk_conn, '/nodes/{}/memfree'.format(node_name)))
node_load = zkhandler.readdata(zk_conn, '/nodes/{}/cpuload'.format(node_name))
node_domains_count = zkhandler.readdata(zk_conn, '/nodes/{}/domainscount'.format(node_name))
node_running_domains = zkhandler.readdata(zk_conn, '/nodes/{}/runningdomains'.format(node_name)).split()
# Construct a data structure to represent the data
node_information = {
'name': node_name,
'daemon_state': node_daemon_state,
'coordinator_state': node_coordinator_state,
'domain_state': node_domain_state,
'cpu_count': node_cpu_count,
'kernel': node_kernel,
'os': node_os,
'arch': node_arch,
'load': node_load,
'domains_count': node_domains_count,
'running_domains': node_running_domains,
'memory': {
'total': node_mem_total,
'allocated': node_mem_allocated,
'used': node_mem_used,
'free': node_mem_free
}
}
return node_information
#
# Direct Functions
#
def secondary_node(zk_conn, node):
# Verify node is valid
if not common.verifyNode(zk_conn, node):
return False, 'ERROR: No node named "{}" is present in the cluster.'.format(node)
# Ensure node is a coordinator
daemon_mode = zkhandler.readdata(zk_conn, '/nodes/{}/daemonmode'.format(node))
if daemon_mode == 'hypervisor':
return False, 'ERROR: Cannot change router mode on non-coordinator node "{}"'.format(node)
# Get current state
current_state = zkhandler.readdata(zk_conn, '/nodes/{}/routerstate'.format(node))
if current_state == 'primary':
retmsg = 'Setting node {} in secondary router mode.'.format(node)
zkhandler.writedata(zk_conn, {
'/primary_node': 'none'
})
else:
return False, 'Node {} is already in secondary router mode.'.format(node)
return True, retmsg
def primary_node(zk_conn, node):
# Verify node is valid
if not common.verifyNode(zk_conn, node):
return False, 'ERROR: No node named "{}" is present in the cluster.'.format(node)
# Ensure node is a coordinator
daemon_mode = zkhandler.readdata(zk_conn, '/nodes/{}/daemonmode'.format(node))
if daemon_mode == 'hypervisor':
return False, 'ERROR: Cannot change router mode on non-coordinator node "{}"'.format(node)
# Get current state
current_state = zkhandler.readdata(zk_conn, '/nodes/{}/routerstate'.format(node))
if current_state == 'secondary':
retmsg = 'Setting node {} in primary router mode.'.format(node)
zkhandler.writedata(zk_conn, {
'/primary_node': node
})
else:
return False, 'Node {} is already in primary router mode.'.format(node)
return True, retmsg
def flush_node(zk_conn, node, wait):
# Verify node is valid
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if not common.verifyNode(zk_conn, node):
return False, 'ERROR: No node named "{}" is present in the cluster.'.format(node)
if zkhandler.readdata(zk_conn, '/locks/flush_lock') == 'True':
retmsg = 'Flushing hypervisor {} of running VMs. A flush lock currently exists; flush will continue once the lock is freed.'.format(node)
lock_wait = True
else:
retmsg = 'Flushing hypervisor {} of running VMs.'.format(node)
lock_wait = False
# Wait cannot be triggered from the API
if wait:
click.echo(retmsg)
retmsg = ""
if lock_wait:
time.sleep(1)
while zkhandler.readdata(zk_conn, '/locks/flush_lock') == 'True':
time.sleep(1)
click.echo('Previous flush completed. Proceeding with flush.')
# Add the new domain to Zookeeper
zkhandler.writedata(zk_conn, {
'/nodes/{}/domainstate'.format(node): 'flush'
})
# Wait cannot be triggered from the API
if wait:
time.sleep(1)
while zkhandler.readdata(zk_conn, '/locks/flush_lock') == 'True':
time.sleep(1)
return True, retmsg
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def ready_node(zk_conn, node, wait):
# Verify node is valid
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if not common.verifyNode(zk_conn, node):
return False, 'ERROR: No node named "{}" is present in the cluster.'.format(node)
if zkhandler.readdata(zk_conn, '/locks/flush_lock') == 'True':
retmsg = 'Restoring hypervisor {} to active service. A flush lock currently exists; unflush will continue once the lock is freed.'.format(node)
lock_wait = True
else:
retmsg = 'Restoring hypervisor {} to active service.'.format(node)
lock_wait = False
# Wait cannot be triggered from the API
if wait:
click.echo(retmsg)
retmsg = ""
if lock_wait:
time.sleep(1)
while zkhandler.readdata(zk_conn, '/locks/flush_lock') == 'True':
time.sleep(1)
click.echo('Previous flush completed. Proceeding with unflush.')
# Add the new domain to Zookeeper
zkhandler.writedata(zk_conn, {
'/nodes/{}/domainstate'.format(node): 'unflush'
})
# Wait cannot be triggered from the API
if wait:
time.sleep(1)
while zkhandler.readdata(zk_conn, '/locks/flush_lock') == 'True':
time.sleep(1)
return True, retmsg
def get_info(zk_conn, node):
# Verify node is valid
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if not common.verifyNode(zk_conn, node):
return False, 'ERROR: No node named "{}" is present in the cluster.'.format(node)
# Get information about node in a pretty format
node_information = getInformationFromNode(zk_conn, node)
if node_information == None:
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return False, 'ERROR: Could not get information about node "{}".'.format(node)
return True, node_information
def get_list(zk_conn, limit):
# Match our limit
node_list = []
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full_node_list = zkhandler.listchildren(zk_conn, '/nodes')
for node in full_node_list:
if limit != None:
try:
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# Implcitly assume fuzzy limits
if re.match('\^.*', limit) == None:
limit = '.*' + limit
if re.match('.*\$', limit) == None:
limit = limit + '.*'
if re.match(limit, node) != None:
node_list.append(getInformationFromNode(zk_conn, node))
except Exception as e:
return False, 'Regex Error: {}'.format(e)
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else:
node_list.append(getInformationFromNode(zk_conn, node))
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'] == '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.purple()
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
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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('{}CPUs:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['cpu_count']))
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']))
# 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
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domain_state_length = 8
domains_count_length = 4
cpu_count_length = 5
load_length = 5
mem_total_length = 6
mem_used_length = 5
mem_free_length = 5
mem_alloc_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(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(node_information['cpu_count']) + 1
if _cpu_count_length > cpu_count_length:
cpu_count_length = _cpu_count_length
# load column
_load_length = len(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
# Format the string (header)
node_list_output.append(
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'{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}}{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,
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='CPUs',
node_load='Load',
node_mem_total='Total',
node_mem_used='Used',
node_mem_free='Free',
node_mem_allocated='VMs'
)
)
# 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(
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'{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}}{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,
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['cpu_count'],
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']
)
)
click.echo('\n'.join(sorted(node_list_output)))