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generate_cluster_xml.py
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generate_cluster_xml.py
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#!/usr/bin/python
#
# Copyright 2013 LinkedIn, Inc
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# Python 2.7+ required
# This script encapsulates the cluster.xml generation for a zoned and a non-zoned
# cluster. Passing --zones <num of zones> switch to the script generates a zoned cluster
# config. A non zoned cluster is generated otherwise.
#
# The newly generated cluster.xml file is placed in the output dir.
#
# Example use for a zoned cluster :
# python generate_cluster_xml.py --file <file with host names, one host per line>
# --name <name of the cluster>
# --nodes <number of nodes>
# --partitions <number of partitions>
# --sock-port <port no>
# --admin-port <port no>
# --http-port <port no>
# --current-stores <current_stores.xml>
# --output-dir <output directory>
# --zones <number of zones>
#
# For non zoned cluster use :
# python generate_cluster_xml.py --file <file with host names, one host per line>
# --name <name of the cluster>
# --nodes <number of nodes>
# --partitions <number of partitions>
# --sock-port <port no>
# --admin-port <port no>
# --http-port <port no>
# --current-stores <current_stores.xml>
# --output-dir <output directory>
#
# Note the absence of the --zones switch for the non zoned cluster use case.
import sys
import random
import os
import errno
import subprocess
try:
import argparse
except ImportError:
print "Python 2.7 or higher is needed"
# Get a random seed
rseed = int(random.randint(00000000001,99999999999))
# Setup and argument parser
parser = argparse.ArgumentParser(description='Build a voldemort cluster.xml.')
# Add supported arguments
parser.add_argument('-f', '--file', type=str, dest='file',
help='the file of the list of hosts(one per line)')
parser.add_argument('-N', '--name', type=str, default='voldemort', dest='name',
help='the name you want to give the cluster')
parser.add_argument('-n', '--nodes', type=int, default=6, dest='nodes',
help='the number of nodes in the cluster')
parser.add_argument('-p', '--partitions', type=int, default=1500,
dest='partitions', help='number of partitions')
parser.add_argument('-sp', '--socket-port', type=int, default=6666,
dest='sock_port', help='socket port number')
parser.add_argument('-ap', '--admin-port', type=int, default=6667,
dest='admin_port', help='admin port number')
parser.add_argument('-hp', '--http-port', type=int, default=6665,
dest='http_port', help='http port number')
parser.add_argument('-s', '--current-stores', type=str, default= "config/tools/dummy-stores-3zoned.xml",
dest='current_stores',
help='Path to current stores xml. If you do not have info about the stores yet'
'use config/tools/dummy-stores.xml from the root voldemort home folder.')
parser.add_argument('-o', '--output-dir', type=str, dest='output_dir',
help='output directory location')
parser.add_argument('-z', '--zones', type=int, dest='zones',
help='For non zoned clusters do not provide this argument.'
'For zoned clusters provide this argument with at least two zones.')
genType = parser.add_mutually_exclusive_group()
genType.add_argument('--seed', type=int, default=rseed, dest='seed',
help='seed for randomizing partition distribution')
# Parse arguments
args = parser.parse_args()
# Check if the input file exists
try:
with open(args.file): pass
except IOError:
print 'File does not exist'
# create output-dir if it does not exist
try:
os.makedirs(args.output_dir)
except OSError as exception:
if exception.errno != errno.EEXIST:
raise
# Open a new file named cluster.xml
clusterXMLFilePath = os.path.join(os.path.abspath(args.output_dir), 'cluster.xml')
fileHandle = open(clusterXMLFilePath, 'w')
# TODO : It would be ideal to have the script accept a list of zone ids.
if args.zones:
zones = args.zones
if (zones == 1):
print "For non zoned clusters do not provide this argument."
print "For zoned clusters provide this argument with at least two zones."
sys.exit(1)
if (args.nodes % zones) != 0:
print "Number of nodes must be evenly divisible by number of zones"
sys.exit(1)
# Store arguments
if args.file:
hostList = open(args.file).readlines()
nodes = len(hostList)
else:
nodes = args.nodes
partitions = args.partitions
name = args.name
http_port = args.http_port
sock_port = args.sock_port
admin_port = args.admin_port
seed = args.seed
vold_home = os.pardir
current_stores = os.path.join(vold_home, args.current_stores);
# Generate the full list of partition IDs
part_ids = range(partitions)
if part_ids < 1500:
print 'Warning : The number of partitions seems to be low. Assuming max of 3 zones and 50 nodes ' \
'per zone, a partition value of 1500 is recommended as it ensures an average of 10 ' \
'partitions per node.'
print 'Warning : The number of partitions seems to be low. Recommended value is 1500 or more.'
# Generate full list of zone IDs
if args.zones:
zone_ids = range(zones)
zone_id = 0
# Shuffle up the partitions
random.seed(seed)
random.shuffle(part_ids)
# Printing cluster.xml
print >> fileHandle, "<cluster>"
print >> fileHandle, " <name>%s</name>" % name
if args.zones:
for i in range(args.zones):
print >> fileHandle, " <zone>"
print >> fileHandle, " <zone-id>%d</zone-id>" % i
proximityList = list()
for j in range(1, len(zone_ids) ):
proximityList.append(zone_ids[(i+j)%len(zone_ids)])
print >> fileHandle, " <proximity-list>%s</proximity-list>" % str(proximityList).strip('[]')
print >> fileHandle, " </zone>"
# TODO : Currently, random partitions are assigned to the nodes in a round robin fashion.
# A better approach would be to have some intelligence in the allocation such that
# consecutive partition-ids do not land on the same node.
for i in xrange(nodes):
j = i
node_partitions = list()
while j < len(part_ids):
node_partitions.append(str(part_ids[j]))
j += nodes;
partitionslist = ", ".join(node_partitions);
print >> fileHandle, " <server>"
print >> fileHandle, " <id>%d</id>" % i
if args.file:
print >> fileHandle, " <host>%s</host>" % hostList[i].strip()
else:
print >> fileHandle, " <host>host%d</host>" % i
print >> fileHandle, " <http-port>%d</http-port>" % http_port
print >> fileHandle, " <socket-port>%d</socket-port>" % sock_port
print >> fileHandle, " <admin-port>%d</admin-port>" % admin_port
print >> fileHandle, " <partitions>%s</partitions>" % partitionslist
# If zones are being used, assign a zone-id
if args.zones:
print >> fileHandle, " <zone-id>%d</zone-id>" % zone_id
if zone_id == (zones - 1):
zone_id = 0
else:
zone_id += 1
print >> fileHandle, " </server>"
print >> fileHandle, "</cluster>"
fileHandle.close()
# For zoned clusters call rebalance-new-cluster.sh
if args.zones:
scriptPath = vold_home + '/bin/rebalance-new-zoned-cluster.sh'
cmd = [scriptPath, '-v', vold_home, '-c', clusterXMLFilePath, '-s', current_stores,
'-o', os.path.abspath(args.output_dir)]
subprocess.call(cmd)