mirror of
https://github.com/ceph/s3-tests.git
synced 2024-12-26 09:43:50 +00:00
27d2e40b7d
This way, its unit tests are separate from s3tests/functional, and s3tests/functional is the thing that actually talks to an S3 implementation over the wire. To actually run the fuzzer, use ./virtualenv/bin/s3tests-fuzz-headers
376 lines
12 KiB
Python
376 lines
12 KiB
Python
from boto.s3.connection import S3Connection
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from boto.exception import BotoServerError
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from boto.s3.key import Key
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from httplib import BadStatusLine
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from optparse import OptionParser
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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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weight = int(weight)
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except ValueError:
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weight = 1
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value = option
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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, prng):
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expanded_headers = {}
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for header in decision['headers']:
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h = expand(decision, header[0], prng)
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v = expand(decision, header[1], prng)
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expanded_headers[h] = v
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return expanded_headers
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def expand(decision, value, prng):
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c = itertools.count()
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fmt = RepeatExpandingFormatter(prng)
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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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charsets = {
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'printable_no_whitespace': string.printable.translate(None, string.whitespace),
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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, prng, _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.prng = prng
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self._recursion = _recursion
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def get_value(self, key, args, kwargs):
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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 not None:
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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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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__(self.prng, _recursion=self._recursion+1)
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n = fmt.vformat(val, args, kwargs)
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return n
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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' or charset_arg == 'binary_no_whitespace':
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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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if charset_arg == 'binary_no_whitespace':
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tmpstring = ''.join(c for c in tmpstring if c not in string.whitespace)
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return tmpstring[0:length]
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else:
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charset = self.charsets[charset_arg]
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return ''.join([self.prng.choice(charset) for _ in xrange(length)]) # Won't scale nicely
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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')
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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('-v', '--verbose', dest='verbose', action="store_true", help='turn on verbose output')
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parser.add_option('-d', '--debug', dest='debug', action="store_true", help='turn on debugging (very verbose) output')
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parser.add_option('--decision-graph', dest='graph_filename', help='file in which to find the request decision graph')
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parser.add_option('--no-cleanup', dest='cleanup', action="store_false", help='turn off teardown so you can peruse the state of buckets after testing')
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parser.set_defaults(num_requests=5)
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parser.set_defaults(cleanup=True)
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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.randint(0,100000) #100,000 seeds is enough, right?
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def populate_buckets(conn, alt):
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""" Creates buckets and keys for fuzz testing and sets appropriate
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permissions. Returns a dictionary of the bucket and key names.
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"""
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breadable = common.get_new_bucket(alt)
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bwritable = common.get_new_bucket(alt)
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bnonreadable = common.get_new_bucket(alt)
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oreadable = Key(breadable)
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owritable = Key(bwritable)
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ononreadable = Key(breadable)
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oreadable.set_contents_from_string('oreadable body')
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owritable.set_contents_from_string('owritable body')
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ononreadable.set_contents_from_string('ononreadable body')
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breadable.set_acl('public-read')
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bwritable.set_acl('public-read-write')
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bnonreadable.set_acl('private')
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oreadable.set_acl('public-read')
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owritable.set_acl('public-read-write')
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ononreadable.set_acl('private')
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return dict(
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bucket_readable=breadable.name,
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bucket_writable=bwritable.name,
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bucket_not_readable=bnonreadable.name,
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bucket_not_writable=breadable.name,
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object_readable=oreadable.key,
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object_writable=owritable.key,
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object_not_readable=ononreadable.key,
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object_not_writable=oreadable.key,
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)
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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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alt_connection = common.s3.alt
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if options.outfile:
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OUT = open(options.outfile, 'w')
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else:
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OUT = sys.stderr
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VERBOSE = DEBUG = open('/dev/null', 'w')
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if options.verbose:
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VERBOSE = OUT
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if options.debug:
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DEBUG = OUT
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VERBOSE = OUT
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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 = [int(line) for line in FH if line != '\n']
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print>>OUT, 'Seedfile: %s' %options.seedfile
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print>>OUT, 'Number of requests: %d' %len(request_seeds)
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else:
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if options.seed:
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print>>OUT, 'Initial Seed: %d' %options.seed
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print>>OUT, 'Number of requests: %d' %options.num_requests
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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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print>>OUT, 'Decision Graph: %s' %options.graph_filename
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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 = populate_buckets(s3_connection, alt_connection)
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print>>VERBOSE, "Test Buckets/Objects:"
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for key, value in constants.iteritems():
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print>>VERBOSE, "\t%s: %s" %(key, value)
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print>>OUT, "Begin Fuzzing..."
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print>>VERBOSE, '='*80
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for request_seed in request_seeds:
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print>>VERBOSE, 'Seed is: %r' %request_seed
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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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method = expand(decision, decision['method'], prng)
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path = expand(decision, decision['urlpath'], prng)
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try:
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body = expand(decision, decision['body'], prng)
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except KeyError:
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body = ''
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try:
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headers = expand_headers(decision, prng)
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except KeyError:
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headers = {}
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print>>VERBOSE, "%r %r" %(method[:100], path[:100])
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for h, v in headers.iteritems():
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print>>VERBOSE, "%r: %r" %(h[:50], v[:50])
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print>>VERBOSE, "%r\n" % body[:100]
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print>>DEBUG, 'FULL REQUEST'
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print>>DEBUG, 'Method: %r' %method
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print>>DEBUG, 'Path: %r' %path
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print>>DEBUG, 'Headers:'
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for h, v in headers.iteritems():
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print>>DEBUG, "\t%r: %r" %(h, v)
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print>>DEBUG, 'Body: %r\n' %body
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failed = False # Let's be optimistic, shall we?
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try:
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response = s3_connection.make_request(method, path, data=body, headers=headers, override_num_retries=1)
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body = response.read()
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except BotoServerError, e:
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response = e
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body = e.body
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failed = True
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except BadStatusLine, e:
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print>>OUT, 'FAILED: failed to parse response (BadStatusLine); probably a NUL byte in your request?'
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print>>VERBOSE, '='*80
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continue
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if failed:
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print>>OUT, 'FAILED:'
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OLD_VERBOSE = VERBOSE
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OLD_DEBUG = DEBUG
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VERBOSE = DEBUG = OUT
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print>>VERBOSE, 'Seed was: %r' %request_seed
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print>>VERBOSE, 'Response status code: %d %s' %(response.status, response.reason)
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print>>DEBUG, 'Body:\n%s' %body
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print>>VERBOSE, '='*80
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if failed:
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VERBOSE = OLD_VERBOSE
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DEBUG = OLD_DEBUG
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print>>OUT, '...done fuzzing'
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if options.cleanup:
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common.teardown()
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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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