mirror of
https://github.com/ceph/s3-tests.git
synced 2024-11-25 23:42:42 +00:00
14288ad2f6
Tv looked over the fuzzer and had some idiomatic and design suggestions. Adds several tests and reworks how expansion happens in addition to idiom changes.
281 lines
8.6 KiB
Python
281 lines
8.6 KiB
Python
from boto.s3.connection import S3Connection
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from optparse import OptionParser
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from boto import UserAgent
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from . import common
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import traceback
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import itertools
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import random
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import string
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import struct
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import yaml
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import sys
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import re
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class DecisionGraphError(Exception):
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""" Raised when a node in a graph tries to set a header or
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key that was previously set by another node
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"""
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def __init__(self, value):
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self.value = value
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def __str__(self):
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return repr(self.value)
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class RecursionError(Exception):
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"""Runaway recursion in string formatting"""
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def __init__(self, msg):
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self.msg = msg
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def __str__(self):
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return '{0.__doc__}: {0.msg!r}'.format(self)
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def assemble_decision(decision_graph, prng):
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""" Take in a graph describing the possible decision space and a random
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number generator and traverse the graph to build a decision
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"""
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return descend_graph(decision_graph, 'start', prng)
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def descend_graph(decision_graph, node_name, prng):
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""" Given a graph and a particular node in that graph, set the values in
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the node's "set" list, pick a choice from the "choice" list, and
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recurse. Finally, return dictionary of values
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"""
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node = decision_graph[node_name]
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try:
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choice = make_choice(node['choices'], prng)
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if choice == '':
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decision = {}
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else:
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decision = descend_graph(decision_graph, choice, prng)
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except IndexError:
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decision = {}
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for key, choices in node['set'].iteritems():
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if key in decision:
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raise DecisionGraphError("Node %s tried to set '%s', but that key was already set by a lower node!" %(node_name, key))
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decision[key] = make_choice(choices, prng)
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if 'headers' in node:
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decision.setdefault('headers', [])
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for desc in node['headers']:
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try:
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(repetition_range, header, value) = desc
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except ValueError:
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(header, value) = desc
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repetition_range = '1'
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try:
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size_min, size_max = repetition_range.split('-', 1)
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except ValueError:
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size_min = size_max = repetition_range
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size_min = int(size_min)
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size_max = int(size_max)
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num_reps = prng.randint(size_min, size_max)
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if header in [h for h, v in decision['headers']]:
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raise DecisionGraphError("Node %s tried to add header '%s', but that header already exists!" %(node_name, header))
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for _ in xrange(num_reps):
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decision['headers'].append([header, value])
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return decision
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def make_choice(choices, prng):
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""" Given a list of (possibly weighted) options or just a single option!,
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choose one of the options taking weights into account and return the
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choice
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"""
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if isinstance(choices, str):
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return choices
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weighted_choices = []
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for option in choices:
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if option is None:
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weighted_choices.append('')
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continue
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try:
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(weight, value) = option.split(None, 1)
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except ValueError:
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weight = '1'
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value = option
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weight = int(weight)
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if value == 'null' or value == 'None':
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value = ''
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for _ in xrange(weight):
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weighted_choices.append(value)
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return prng.choice(weighted_choices)
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def expand_headers(decision):
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expanded_headers = []
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for header in decision['headers']:
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h = expand(decision, header[0])
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v = expand(decision, header[1])
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expanded_headers.append([h, v])
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return expanded_headers
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def expand(decision, value):
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c = itertools.count()
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fmt = RepeatExpandingFormatter()
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new = fmt.vformat(value, [], decision)
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return new
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class RepeatExpandingFormatter(string.Formatter):
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def __init__(self, _recursion=0):
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super(RepeatExpandingFormatter, self).__init__()
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# this class assumes it is always instantiated once per
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# formatting; use that to detect runaway recursion
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self._recursion = _recursion
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def get_value(self, key, args, kwargs):
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val = super(RepeatExpandingFormatter, self).get_value(key, args, kwargs)
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if self._recursion > 5:
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raise RecursionError(key)
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fmt = self.__class__(_recursion=self._recursion+1)
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# must use vformat not **kwargs so our SpecialVariables is not
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# downgraded to just a dict
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n = fmt.vformat(val, args, kwargs)
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return n
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class SpecialVariables(dict):
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charsets = {
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'printable': string.printable,
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'punctuation': string.punctuation,
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'whitespace': string.whitespace,
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'digits': string.digits
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}
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def __init__(self, orig_dict, prng):
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super(SpecialVariables, self).__init__(orig_dict)
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self.prng = prng
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def __getitem__(self, key):
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fields = key.split(None, 1)
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fn = getattr(self, 'special_{name}'.format(name=fields[0]), None)
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if fn is None:
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return super(SpecialVariables, self).__getitem__(key)
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if len(fields) == 1:
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fields.append('')
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return fn(fields[1])
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def special_random(self, args):
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arg_list = args.split()
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try:
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size_min, size_max = arg_list[0].split('-', 1)
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except ValueError:
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size_min = size_max = arg_list[0]
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except IndexError:
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size_min = '0'
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size_max = '1000'
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size_min = int(size_min)
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size_max = int(size_max)
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length = self.prng.randint(size_min, size_max)
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try:
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charset_arg = arg_list[1]
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except IndexError:
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charset_arg = 'printable'
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if charset_arg == 'binary':
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num_bytes = length + 8
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tmplist = [self.prng.getrandbits(64) for _ in xrange(num_bytes / 8)]
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tmpstring = struct.pack((num_bytes / 8) * 'Q', *tmplist)
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tmpstring = tmpstring[0:length]
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else:
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charset = self.charsets[charset_arg]
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tmpstring = ''.join([self.prng.choice(charset) for _ in xrange(length)]) # Won't scale nicely
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return tmpstring.replace('{', '{{').replace('}', '}}')
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def parse_options():
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parser = OptionParser()
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parser.add_option('-O', '--outfile', help='write output to FILE. Defaults to STDOUT', metavar='FILE')
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parser.add_option('--seed', dest='seed', type='int', help='initial seed for the random number generator', metavar='SEED')
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parser.add_option('--seed-file', dest='seedfile', help='read seeds for specific requests from FILE', metavar='FILE')
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parser.add_option('-n', dest='num_requests', type='int', help='issue NUM requests before stopping', metavar='NUM')
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parser.add_option('--decision-graph', dest='graph_filename', help='file in which to find the request decision graph', metavar='NUM')
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parser.set_defaults(num_requests=5)
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parser.set_defaults(graph_filename='request_decision_graph.yml')
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return parser.parse_args()
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def randomlist(seed=None):
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""" Returns an infinite generator of random numbers
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"""
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rng = random.Random(seed)
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while True:
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yield rng.random()
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def _main():
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""" The main script
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"""
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(options, args) = parse_options()
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random.seed(options.seed if options.seed else None)
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s3_connection = common.s3.main
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request_seeds = None
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if options.seedfile:
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FH = open(options.seedfile, 'r')
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request_seeds = FH.readlines()
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else:
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random_list = randomlist(options.seed)
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request_seeds = itertools.islice(random_list, options.num_requests)
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graph_file = open(options.graph_filename, 'r')
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decision_graph = yaml.safe_load(graph_file)
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constants = {
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'bucket_readable': 'TODO',
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'bucket_not_readable': 'TODO',
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'bucket_writable' : 'TODO',
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'bucket_not_writable' : 'TODO',
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'object_readable' : 'TODO',
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'object_not_readable' : 'TODO',
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'object_writable' : 'TODO',
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'object_not_writable' : 'TODO',
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}
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for request_seed in request_seeds:
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prng = random.Random(request_seed)
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decision = assemble_decision(decision_graph, prng)
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decision.update(constants)
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request = expand_decision(decision, prng)
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response = s3_connection.make_request(request['method'], request['path'], data=request['body'], headers=request['headers'], override_num_retries=0)
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if response.status == 500 or response.status == 503:
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print 'Request generated with seed %d failed:\n%s' % (request_seed, request)
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pass
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def main():
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common.setup()
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try:
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_main()
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except Exception as e:
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traceback.print_exc()
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common.teardown()
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