s3-tests/s3tests/rand_readwrite.py
Steven Berler c312832c70 use time.time() instead of time.clock()
We want to measure actual time, not cpu time.
2011-07-14 11:40:26 -07:00

201 lines
6.8 KiB
Python

#!/usr/bin/python
import gevent
import gevent.queue
import gevent.monkey; gevent.monkey.patch_all()
import optparse
import time
import random
import generate_objects
import realistic
import common
class Result:
TYPE_NONE = 0
TYPE_READER = 1
TYPE_WRITER = 2
def __init__(self, name, type=TYPE_NONE, time=0, success=True, size=0, details=''):
self.name = name
self.type = type
self.time = time
self.success = success
self.size = size
self.details = details
def __repr__(self):
type_dict = {Result.TYPE_NONE: 'None', Result.TYPE_READER: 'Reader', Result.TYPE_WRITER: 'Writer'}
type_s = type_dict[self.type]
if self.success:
status = 'Success'
else:
status = 'FAILURE'
if (self.time == 0):
mbps = '?'
else:
mbps = self.size / self.time / 1024.0
return "<Result: [{success}] {type}{name} -- {size} KB in {time}s = {mbps} MB/s {details}>".format(
success=status,
type=type_s,
name=self.name,
size=self.size,
time=self.time,
mbps=mbps,
details=self.details
)
def reader(seconds, bucket, name=None, queue=None):
with gevent.Timeout(seconds, False):
while (1):
count = 0
for key in bucket.list():
fp = realistic.FileVerifier()
start = time.time()
key.get_contents_to_file(fp)
end = time.time()
elapsed = end - start
if queue:
queue.put(
Result(
name,
type=Result.TYPE_READER,
time=elapsed,
success=fp.valid(),
size=fp.size / 1024,
),
)
count += 1
if count == 0:
gevent.sleep(1)
def writer(seconds, bucket, name=None, queue=None, quantity=1, file_size=1, file_stddev=0, file_name_seed=None):
with gevent.Timeout(seconds, False):
while (1):
r = random.randint(0, 65535)
r2 = r
if file_name_seed != None:
r2 = file_name_seed
files = generate_objects.get_random_files(
quantity=quantity,
mean=1024 * file_size,
stddev=1024 * file_stddev,
seed=r,
)
start = time.time()
generate_objects.upload_objects(bucket, files, r2)
end = time.time()
elapsed = end - start
if queue:
queue.put(Result(name,
type=Result.TYPE_WRITER,
time=elapsed,
size=sum(f.size/1024 for f in files),
)
)
def parse_options():
parser = optparse.OptionParser()
parser.add_option("-t", "--time", dest="duration", type="float",
help="duration to run tests (seconds)", default=5, metavar="SECS")
parser.add_option("-r", "--read", dest="num_readers", type="int",
help="number of reader threads", default=0, metavar="NUM")
parser.add_option("-w", "--write", dest="num_writers", type="int",
help="number of writer threads", default=2, metavar="NUM")
parser.add_option("-s", "--size", dest="file_size", type="float",
help="file size to use, in kb", default=1024, metavar="KB")
parser.add_option("-q", "--quantity", dest="quantity", type="int",
help="number of files per batch", default=1, metavar="NUM")
parser.add_option("-d", "--stddev", dest="stddev", type="float",
help="stddev of file size", default=0, metavar="KB")
parser.add_option("-W", "--rewrite", dest="rewrite", action="store_true",
help="rewrite the same files (total=quantity)")
parser.add_option("--no-cleanup", dest="cleanup", action="store_false",
help="skip cleaning up all created buckets", default=True)
return parser.parse_args()
def main():
# parse options
(options, args) = parse_options()
try:
# setup
common.setup()
bucket = common.get_new_bucket()
print "Created bucket: {name}".format(name=bucket.name)
r = None
if (options.rewrite):
r = random.randint(0, 65535)
q = gevent.queue.Queue()
# main work
print "Using file size: {size} +- {stddev}".format(size=options.file_size, stddev=options.stddev)
print "Spawning {r} readers and {w} writers...".format(r=options.num_readers, w=options.num_writers)
greenlets = []
greenlets += [gevent.spawn(writer, options.duration, bucket,
name=x,
queue=q,
file_size=options.file_size,
file_stddev=options.stddev,
quantity=options.quantity,
file_name_seed=r
) for x in xrange(options.num_writers)]
greenlets += [gevent.spawn(reader, options.duration, bucket,
name=x,
queue=q
) for x in xrange(options.num_readers)]
gevent.spawn_later(options.duration, lambda: q.put(StopIteration))
total_read = 0
total_write = 0
read_success = 0
read_failure = 0
write_success = 0
write_failure = 0
for item in q:
print item
if item.type == Result.TYPE_READER:
if item.success:
read_success += 1
total_read += item.size
else:
read_failure += 1
elif item.type == Result.TYPE_WRITER:
if item.success:
write_success += 1
total_write += item.size
else:
write_failure += 1
# overall stats
print "--- Stats ---"
print "Total Read: {read} MB ({mbps} MB/s)".format(
read=(total_read/1024.0),
mbps=(total_read/1024.0/options.duration)
)
print "Total Write: {write} MB ({mbps} MB/s)".format(
write=(total_write/1024.0),
mbps=(total_write/1024.0/options.duration)
)
print "Read filures: {num} ({percent}%)".format(
num=read_failure,
percent=(100.0*read_failure/max(read_failure+read_success, 1))
)
print "Write failures: {num} ({percent}%)".format(
num=write_failure,
percent=(100.0*write_failure/max(write_failure+write_success, 1))
)
gevent.joinall(greenlets, timeout=1)
except Exception as e:
print e
finally:
# cleanup
if options.cleanup:
common.teardown()