s3-tests/s3tests/fuzz_headers.py

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from boto.s3.connection import S3Connection
from optparse import OptionParser
from boto import UserAgent
from . import common
import traceback
import random
import string
import yaml
import sys
def assemble_decision(decision_graph, prng):
""" Take in a graph describing the possible decision space and a random
number generator and traverse the graph to build a decision
"""
return descend_graph(decision_graph, 'start', prng)
def descend_graph(decision_graph, node_name, prng):
""" Given a graph and a particular node in that graph, set the values in
the node's "set" list, pick a choice from the "choice" list, and
recurse. Finally, return dictionary of values
"""
node = decision_graph[node_name]
try:
#TODO: Give weights to each choice
choice = prng.choice(node['choices'])
decision = descend_graph(decision_graph, choice, prng)
except IndexError:
decision = {}
#TODO: Add in headers
for key in node['set']:
if decision.has_key(key):
raise KeyError("Node %s tried to set '%s', but that key was already set by a lower node!" %(node_name, key))
decision[key] = node['set'][key]
return decision
def expand_decision(decision, prng):
""" Take in a decision and a random number generator. Expand variables in
decision's values and headers until all values are fully expanded and
build a request out of the information
"""
raise NotImplementedError
class SpecialVariables(dict):
charsets = {
'printable': string.printable,
'punctuation': string.punctuation,
'whitespace': string.whitespace
}
def __init__(self, orig_dict, prng):
self.update(orig_dict)
self.prng = prng
def __getitem__(self, key):
fields = key.split(None, 1)
fn = getattr(self, 'special_{name}'.format(name=fields[0]), None)
if fn is None:
return super(SpecialVariables, self).__getitem__(key)
if len(fields) == 1:
fields.apppend('')
return fn(fields[1])
def special_random(self, args):
arg_list = args.split()
try:
size_min, size_max = [int(x) for x in arg_list[0].split('-')]
except IndexError:
size_min = 0
size_max = 1000
try:
charset = self.charsets[arg_list[1]]
except IndexError:
charset = self.charsets['printable']
length = self.prng.randint(size_min, size_max)
return ''.join([self.prng.choice(charset) for _ in xrange(length)]) # Won't scale nicely
def parse_options():
parser = OptionParser()
parser.add_option('-O', '--outfile', help='write output to FILE. Defaults to STDOUT', metavar='FILE')
parser.add_option('--seed', dest='seed', type='int', help='initial seed for the random number generator', metavar='SEED')
parser.add_option('--seed-file', dest='seedfile', help='read seeds for specific requests from FILE', metavar='FILE')
parser.add_option('-n', dest='num_requests', type='int', help='issue NUM requests before stopping', metavar='NUM')
parser.add_option('--decision-graph', dest='graph_filename', help='file in which to find the request decision graph', metavar='NUM')
parser.set_defaults(num_requests=5)
parser.set_defaults(graph_filename='request_decision_graph.yml')
return parser.parse_args()
def randomlist(n, seed=None):
""" Returns a generator function that spits out a list of random numbers n elements long.
"""
rng = random.Random()
rng.seed(seed if seed else None)
for _ in xrange(n):
yield rng.random()
def _main():
""" The main script
"""
(options, args) = parse_options()
random.seed(options.seed if options.seed else None)
s3_connection = common.s3.main
request_seeds = None
if options.seedfile:
FH = open(options.seedfile, 'r')
request_seeds = FH.readlines()
else:
request_seeds = randomlist(options.num_requests, options.seed)
graph_file = open(options.graph_filename, 'r')
decision_graph = yaml.safe_load(graph_file)
constants = {
'bucket_readable': 'TODO',
'bucket_writable' : 'TODO',
'bucket_nonexistant' : 'TODO',
'object_readable' : 'TODO',
'object_writable' : 'TODO',
'object_nonexistant' : 'TODO'
}
for request_seed in request_seeds:
prng = random.Random(request_seed)
decision = assemble_decision(decision_graph, prng)
decision.update(constants)
request = expand_decision(decision, prng)
response = s3_connection.make_request(request['method'], request['path'], data=request['body'], headers=request['headers'], override_num_retries=0)
if response.status == 500 or response.status == 503:
print 'Request generated with seed %d failed:\n%s' % (request_seed, request)
pass
def main():
common.setup()
try:
_main()
except Exception as e:
traceback.print_exc()
common.teardown()