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from cProfile import Profile

import logging

import os.path

import sys

from threading import Thread

import time

from optparse import OptionParser

from greplin import scales

dirname = os.path.dirname(os.path.abspath(__file__))

sys.path.append(dirname)

sys.path.append(os.path.join(dirname, '..'))

from cassandra.cluster import Cluster

from cassandra.io.asyncorereactor import AsyncoreConnection

from cassandra.policies import HostDistance

log = logging.getLogger()

handler = logging.StreamHandler()

handler.setFormatter(logging.Formatter("%(asctime)s [%(levelname)s] %(name)s: %(message)s"))

log.addHandler(handler)

have_libev = False

supported_reactors = [AsyncoreConnection]

try:

from cassandra.io.libevreactor import LibevConnection

have_libev = True

supported_reactors.append(LibevConnection)

except ImportError, exc:

pass

KEYSPACE = "testkeyspace"

TABLE = "testtable"

def setup(hosts):

cluster = Cluster(hosts)

cluster.set_core_connections_per_host(HostDistance.LOCAL, 1)

session = cluster.connect()

rows = session.execute("SELECT keyspace_name FROM system.schema_keyspaces")

if KEYSPACE in [row[0] for row in rows]:

log.debug("dropping existing keyspace...")

session.execute("DROP KEYSPACE " + KEYSPACE)

log.debug("Creating keyspace...")

session.execute("""

CREATE KEYSPACE %s

WITH replication = { 'class': 'SimpleStrategy', 'replication_factor': '2' }

""" % KEYSPACE)

log.debug("Setting keyspace...")

session.set_keyspace(KEYSPACE)

log.debug("Creating table...")

session.execute("""

CREATE TABLE %s (

thekey text,

col1 text,

col2 text,

PRIMARY KEY (thekey, col1)

)

""" % TABLE)

def teardown(hosts):

cluster = Cluster(hosts)

cluster.set_core_connections_per_host(HostDistance.LOCAL, 1)

session = cluster.connect()

session.execute("DROP KEYSPACE " + KEYSPACE)

def benchmark(thread_class):

options, args = parse_options()

for conn_class in options.supported_reactors:

setup(options.hosts)

log.info("==== %s ====" % (conn_class.__name__,))

cluster = Cluster(options.hosts, metrics_enabled=options.enable_metrics)

cluster.connection_class = conn_class

session = cluster.connect(KEYSPACE)

log.debug("Sleeping for two seconds...")

time.sleep(2.0)

query = session.prepare("""

INSERT INTO {table} (thekey, col1, col2) VALUES (?, ?, ?))

""".format(table=TABLE))

values = ('key', 'a', 'b')

per_thread = options.num_ops / options.threads

threads = []

log.debug("Beginning inserts...")

start = time.time()

try:

for i in range(options.threads):

thread = thread_class(i, session, query, values, per_thread, options.profile)

thread.daemon = True

threads.append(thread)

for thread in threads:

thread.start()

for thread in threads:

while thread.is_alive():

thread.join(timeout=0.5)

end = time.time()

finally:

teardown(options.hosts)

total = end - start

log.info("Total time: %0.2fs" % total)

log.info("Average throughput: %0.2f/sec" % (options.num_ops / total))

if options.enable_metrics:

stats = scales.getStats()['cassandra']

log.info("Connection errors: %d", stats['connection_errors'])

log.info("Write timeouts: %d", stats['write_timeouts'])

log.info("Read timeouts: %d", stats['read_timeouts'])

log.info("Unavailables: %d", stats['unavailables'])

log.info("Other errors: %d", stats['other_errors'])

log.info("Retries: %d", stats['retries'])

request_timer = stats['request_timer']

log.info("Request latencies:")

log.info(" min: %0.4fs", request_timer['min'])

log.info(" max: %0.4fs", request_timer['max'])

log.info(" mean: %0.4fs", request_timer['mean'])

log.info(" stddev: %0.4fs", request_timer['stddev'])

log.info(" median: %0.4fs", request_timer['median'])

log.info(" 75th: %0.4fs", request_timer['75percentile'])

log.info(" 95th: %0.4fs", request_timer['95percentile'])

log.info(" 98th: %0.4fs", request_timer['98percentile'])

log.info(" 99th: %0.4fs", request_timer['99percentile'])

log.info(" 99.9th: %0.4fs", request_timer['999percentile'])

def parse_options():

parser = OptionParser()

parser.add_option('-H', '--hosts', default='127.0.0.1',

help='cassandra hosts to connect to (comma-separated list) [default: %default]')

parser.add_option('-t', '--threads', type='int', default=1,

help='number of threads [default: %default]')

parser.add_option('-n', '--num-ops', type='int', default=10000,

help='number of operations [default: %default]')

parser.add_option('--asyncore-only', action='store_true', dest='asyncore_only',

help='only benchmark with asyncore connections')

parser.add_option('--libev-only', action='store_true', dest='libev_only',

help='only benchmark with libev connections')

parser.add_option('-m', '--metrics', action='store_true', dest='enable_metrics',

help='enable and print metrics for operations')

parser.add_option('-l', '--log-level', default='info',

help='logging level: debug, info, warning, or error')

parser.add_option('-p', '--profile', action='store_true', dest='profile',

help='Profile the run')

options, args = parser.parse_args()

options.hosts = options.hosts.split(',')

log.setLevel(options.log_level.upper())

if options.asyncore_only:

options.supported_reactors = [AsyncoreConnection]

elif options.libev_only:

if not have_libev:

log.error("libev is not available")

sys.exit(1)

options.supported_reactors = [LibevConnection]

else:

options.supported_reactors = supported_reactors

if not have_libev:

log.warning("Not benchmarking libev reactor because libev is not available")

return options, args

class BenchmarkThread(Thread):

def __init__(self, thread_num, session, query, values, num_queries, profile):

Thread.__init__(self)

self.thread_num = thread_num

self.session = session

self.query = query

self.values = values

self.num_queries = num_queries

self.profiler = Profile() if profile else None

def start_profile(self):

if self.profiler:

self.profiler.enable()

def finish_profile(self):

if self.profiler:

self.profiler.disable()

self.profiler.dump_stats('profile-%d' % self.thread_num)