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boulder/test/chisel2.py

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"""
A simple client that uses the Python ACME library to run a test issuance against
a local Boulder server. Unlike chisel.py this version implements the most recent
version of the ACME specification. Usage:
$ virtualenv venv
$ . venv/bin/activate
$ pip install -r requirements.txt
$ python chisel.py foo.com bar.com
"""
import json
import logging
import os
import sys
import signal
import threading
import time
import urllib2
from cryptography.hazmat.backends import default_backend
from cryptography.hazmat.primitives.asymmetric import rsa
from cryptography import x509
from cryptography.hazmat.primitives import hashes
import OpenSSL
import josepy
from acme import challenges
from acme import client as acme_client
from acme import crypto_util as acme_crypto_util
from acme import errors as acme_errors
from acme import messages
from acme import standalone
logging.basicConfig()
logger = logging.getLogger()
logger.setLevel(int(os.getenv('LOGLEVEL', 20)))
DIRECTORY_V2 = os.getenv('DIRECTORY_V2', 'http://localhost:4001/directory')
ACCEPTABLE_TOS = os.getenv('ACCEPTABLE_TOS',"https://boulder:4431/terms/v7")
PORT = os.getenv('PORT', '5002')
os.environ.setdefault('REQUESTS_CA_BUNDLE', 'test/wfe-tls/minica.pem')
# URLs to control dns-test-srv
SET_TXT = "http://localhost:8055/set-txt"
CLEAR_TXT = "http://localhost:8055/clear-txt"
def uninitialized_client(key=None):
if key is None:
key = josepy.JWKRSA(key=rsa.generate_private_key(65537, 2048, default_backend()))
net = acme_client.ClientNetwork(key, user_agent="Boulder integration tester")
directory = messages.Directory.from_json(net.get(DIRECTORY_V2).json())
return acme_client.ClientV2(directory, net)
def make_client(email=None):
"""Build an acme.Client and register a new account with a random key."""
client = uninitialized_client()
tos = client.directory.meta.terms_of_service
if tos == ACCEPTABLE_TOS:
client.net.account = client.new_account(messages.NewRegistration.from_data(email=email,
terms_of_service_agreed=True))
else:
raise Exception("Unrecognized terms of service URL %s" % tos)
return client
def get_chall(authz, typ):
for chall_body in authz.body.challenges:
if isinstance(chall_body.chall, typ):
return chall_body
raise Exception("No %s challenge found" % typ.typ)
class ValidationError(Exception):
"""An error that occurs during challenge validation."""
def __init__(self, domain, problem_type, detail, *args, **kwargs):
self.domain = domain
self.problem_type = problem_type
self.detail = detail
def __str__(self):
return "%s: %s: %s" % (self.domain, self.problem_type, self.detail)
def make_csr(domains):
key = OpenSSL.crypto.PKey()
key.generate_key(OpenSSL.crypto.TYPE_RSA, 2048)
pem = OpenSSL.crypto.dump_privatekey(OpenSSL.crypto.FILETYPE_PEM, key)
return acme_crypto_util.make_csr(pem, domains, False)
def http_01_answer(client, chall_body):
"""Return an HTTP01Resource to server in response to the given challenge."""
response, validation = chall_body.response_and_validation(client.net.key)
return standalone.HTTP01RequestHandler.HTTP01Resource(
chall=chall_body.chall, response=response,
validation=validation)
def auth_and_issue(domains, chall_type="dns-01", email=None, cert_output=None, client=None):
"""Make authzs for each of the given domains, set up a server to answer the
challenges in those authzs, tell the ACME server to validate the challenges,
then poll for the authzs to be ready and issue a cert."""
if client is None:
client = make_client(email)
csr_pem = make_csr(domains)
order = client.new_order(csr_pem)
authzs = order.authorizations
if chall_type == "http-01":
cleanup = do_http_challenges(client, authzs)
elif chall_type == "dns-01":
cleanup = do_dns_challenges(client, authzs)
else:
raise Exception("invalid challenge type %s" % chall_type)
try:
order = client.poll_and_finalize(order)
finally:
cleanup()
return order
def do_dns_challenges(client, authzs):
cleanup_hosts = []
for a in authzs:
c = get_chall(a, challenges.DNS01)
name, value = (c.validation_domain_name(a.body.identifier.value),
c.validation(client.net.key))
cleanup_hosts.append(name)
urllib2.urlopen(SET_TXT,
data=json.dumps({
"host": name + ".",
"value": value,
})).read()
client.answer_challenge(c, c.response(client.net.key))
def cleanup():
for host in cleanup_hosts:
urllib2.urlopen(CLEAR_TXT,
data=json.dumps({
"host": host + ".",
})).read()
return cleanup
def do_http_challenges(client, authzs):
port = int(PORT)
challs = [get_chall(a, challenges.HTTP01) for a in authzs]
answers = set([http_01_answer(client, c) for c in challs])
server = standalone.HTTP01Server(("", port), answers)
thread = threading.Thread(target=server.serve_forever)
thread.start()
# cleanup has to be called on any exception, or when validation is done.
# Otherwise the process won't terminate.
def cleanup():
server.shutdown()
server.server_close()
thread.join()
try:
# Loop until the HTTP01Server is ready.
while True:
try:
urllib2.urlopen("http://localhost:%d" % port)
break
except urllib2.URLError:
time.sleep(0.1)
for chall_body in challs:
client.answer_challenge(chall_body, chall_body.response(client.net.key))
except Exception:
cleanup()
raise
return cleanup
def expect_problem(problem_type, func):
"""Run a function. If it raises a ValidationError or messages.Error that
contains the given problem_type, return. If it raises no error or the wrong
error, raise an exception."""
ok = False
try:
func()
except ValidationError as e:
if e.problem_type == problem_type:
ok = True
else:
raise
except messages.Error as e:
if problem_type in e.__str__():
ok = True
else:
raise
if not ok:
raise Exception('Expected %s, got no error' % problem_type)
if __name__ == "__main__":
# Die on SIGINT
signal.signal(signal.SIGINT, signal.SIG_DFL)
domains = sys.argv[1:]
if len(domains) == 0:
print __doc__
sys.exit(0)
try:
auth_and_issue(domains)
except messages.Error, e:
print e
sys.exit(1)
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