diff options
Diffstat (limited to 'scripts/doc_put_memory_usage')
-rwxr-xr-x | scripts/doc_put_memory_usage/find_max_upload_size.py | 169 | ||||
-rwxr-xr-x | scripts/doc_put_memory_usage/get-mem.py | 16 | ||||
-rwxr-xr-x | scripts/doc_put_memory_usage/plot-mem.py | 73 |
3 files changed, 258 insertions, 0 deletions
diff --git a/scripts/doc_put_memory_usage/find_max_upload_size.py b/scripts/doc_put_memory_usage/find_max_upload_size.py new file mode 100755 index 00000000..02c68015 --- /dev/null +++ b/scripts/doc_put_memory_usage/find_max_upload_size.py @@ -0,0 +1,169 @@ +#!/usr/bin/python + +# This script finds the maximum upload size for a document in the current +# server. It pulls couch URL from Soledad config file and attempts multiple +# PUTs until it finds the maximum size supported by the server. +# +# As the Soledad couch user is not an admin, you have to pass a database into +# which the test will be run. The database should already exist and be +# initialized with soledad design documents. +# +# Use it like this: +# +# ./find_max_upload_size.py <dbname> +# ./find_max_upload_size.py -h + +import os +import configparser +import logging +import argparse +import random +import string +import binascii +import json +import time +import uuid + + +from couchdb.client import Database +from socket import error as socket_error +from leap.soledad.common.couch import CouchDatabase + + +SOLEDAD_CONFIG_FILE = '/etc/leap/soledad-server.conf' +PREFIX = '/tmp/soledad_test' +LOG_FORMAT = '%(asctime)s %(levelname)s %(message)s' +RETRIES = 3 # number of times to retry uploading a document of a certain + # size after a failure + + +# configure logger +logger = logging.getLogger(__name__) + + +def config_log(level): + logging.basicConfig(format=LOG_FORMAT, level=level) + + +def log_to_file(filename): + handler = logging.FileHandler(filename, mode='a') + handler.setFormatter(logging.Formatter(fmt=LOG_FORMAT)) + logger.addHandler(handler) + + +# create test dir +if not os.path.exists(PREFIX): + os.mkdir(PREFIX) + + +def get_couch_url(config_file=SOLEDAD_CONFIG_FILE): + config = configparser.ConfigParser() + config.read(config_file) + return config['soledad-server']['couch_url'] + + +# generate or load an uploadable doc with the given size in mb +def get_content(size): + fname = os.path.join(PREFIX, 'content-%d.json' % size) + if os.path.exists(fname): + logger.debug('Loading content with %d MB...' % size) + with open(fname, 'r') as f: + return f.read() + else: + length = int(size * 1024 ** 2) + logger.debug('Generating body with %d MB...' % size) + content = binascii.hexlify(os.urandom(length))[:length] + with open(fname, 'w') as f: + f.write(content) + return content + + +def delete_doc(db): + doc = db.get('largedoc') + db.delete(doc) + + +def upload(db, size, couch_db): + # try many times to be sure that size is infeasible + for i in range(RETRIES): + # wait until server is up to upload + while True: + try: + 'largedoc' in couch_db + break + except socket_error: + logger.debug('Waiting for server to come up...') + time.sleep(1) + # attempt to upload + try: + logger.debug( + 'Trying to upload %d MB document (attempt %d/%d)...' % + (size, (i+1), RETRIES)) + content = get_content(size) + logger.debug('Starting upload of %d bytes.' % len(content)) + doc = db.create_doc({'data': content}, doc_id='largedoc') + delete_doc(couch_db) + logger.debug('Success uploading %d MB doc.' % size) + return True + except Exception as e: + logger.debug('Failed to upload %d MB doc: %s' % (size, str(e))) + return False + + +def find_max_upload_size(db_uri): + db = CouchDatabase.open_database(db_uri, False) + couch_db = Database(db_uri) + logger.debug('Database URI: %s' % db_uri) + # delete eventual leftover from last run + if 'largedoc' in couch_db: + delete_doc(couch_db) + # phase 1: increase upload size exponentially + logger.info('Starting phase 1: increasing size exponentially.') + size = 1 + #import ipdb; ipdb.set_trace() + while True: + if upload(db, size, couch_db): + size *= 2 + else: + break + + # phase 2: binary search for maximum value + unable = size + able = size / 2 + logger.info('Starting phase 2: binary search for maximum value.') + while unable - able > 1: + size = able + ((unable - able) / 2) + if upload(db, size, couch_db): + able = size + else: + unable = size + return able + + +if __name__ == '__main__': + # parse command line + parser = argparse.ArgumentParser() + parser.add_argument( + '-d', action='store_true', dest='debug', + help='print debugging information') + parser.add_argument( + '-l', dest='logfile', + help='log output to file') + parser.add_argument( + 'db_uri', help='the couch database URI to test') + args = parser.parse_args() + + # log to file + if args.logfile is not None: + log_to_file(args.logfile) + + # set loglevel + if args.debug is True: + config_log(logging.DEBUG) + else: + config_log(logging.INFO) + + # run test and report + logger.info('Will test using db at %s.' % args.db_uri) + maxsize = find_max_upload_size(args.db_uri) + logger.info('Max upload size is %d MB.' % maxsize) diff --git a/scripts/doc_put_memory_usage/get-mem.py b/scripts/doc_put_memory_usage/get-mem.py new file mode 100755 index 00000000..d64875fc --- /dev/null +++ b/scripts/doc_put_memory_usage/get-mem.py @@ -0,0 +1,16 @@ +#!/usr/bin/python + + +import psutil +import time + + +delta = 50 * 60 +start = time.time() + +while True: + now = time.time() + print "%s %s" % (now - start, psutil.phymem_usage().used) + time.sleep(0.1) + if now > start + delta: + break diff --git a/scripts/doc_put_memory_usage/plot-mem.py b/scripts/doc_put_memory_usage/plot-mem.py new file mode 100755 index 00000000..e24679a2 --- /dev/null +++ b/scripts/doc_put_memory_usage/plot-mem.py @@ -0,0 +1,73 @@ +#!/usr/bin/python + + +from matplotlib import pyplot as plt + + +files = [ + ('local', 'couchdb-json', 'b'), + ('local', 'bigcouch-json', 'r'), + ('local', 'couchdb-multipart', 'g'), + ('local', 'bigcouch-multipart', 'm'), +] + + +# config the plot +plt.xlabel('time') +plt.ylabel('memory usage') +plt.title('bigcouch versus couch memory usage') + + +for fi in files: + + machine = fi[0] + database = fi[1] + color = fi[2] + filename = '%s-%s.txt' % (machine, database) + + x = [] + y = [] + + xmax = None + xmin = None + ymax = None + ymin = None + + # read data from file + with open(filename, 'r') as f: + line = f.readline() + while line is not None: + time, mem = tuple(line.strip().split(' ')) + mem = float(mem) / (10**9) + x.append(float(time)) + y.append(mem) + if ymax == None or mem > ymax: + ymax = mem + xmax = time + if ymin == None or mem < ymin: + ymin = mem + xmin = time + line = f.readline() + if line == '': + break + + kwargs = { + 'linewidth': 1.0, + 'linestyle': '-', + # 'marker': '.', + 'color': color, + } + plt.plot(x, y, label=database, **kwargs) + + #plt.axes().get_xaxis().set_ticks(x) + #plt.axes().get_xaxis().set_ticklabels(x) + + # annotate max and min values + #plt.axes().annotate("%.2f GB" % ymax, xy=(xmax, ymax)) + #plt.axes().annotate("%.2f GB" % ymin, xy=(xmin, ymin)) + + +plt.grid() +plt.legend() +plt.show() + |