def test_zone_select(self):
key = 'c286696d887c9aa0611bbb3e2025a45a'
self.flags(build_plan_encryption_key=key)
self.stubs.Set(api, 'select', zone_select)
# Select queries end up being JSON encoded twice.
# Once to a string and again as an HTTP POST Body
body = json.dumps({})
req = fakes.HTTPRequest.blank('/v2/fake/zones/select')
res_dict = self.controller.select(req, body)
self.assertTrue('weights' in res_dict)
for item in res_dict['weights']:
blob = item['blob']
decrypt = crypto.decryptor(FLAGS.build_plan_encryption_key)
secret_item = json.loads(decrypt(blob))
found = False
for original_item in GLOBAL_BUILD_PLAN:
if original_item['name'] != secret_item['name']:
continue
found = True
for key in ('weight', 'ip', 'zone'):
self.assertEqual(secret_item[key], original_item[key])
self.assertTrue(found)
self.assertEqual(len(item), 2)
self.assertTrue('weight' in item)
def test_zone_select(self):
key = 'c286696d887c9aa0611bbb3e2025a45a'
self.flags(build_plan_encryption_key=key)
self.stubs.Set(api, 'select', zone_select)
# Select queries end up being JSON encoded twice.
# Once to a string and again as an HTTP POST Body
body = json.dumps({})
req = fakes.HTTPRequest.blank('/v2/fake/zones/select')
res_dict = self.controller.select(req, body)
self.assertTrue('weights' in res_dict)
for item in res_dict['weights']:
blob = item['blob']
decrypt = crypto.decryptor(FLAGS.build_plan_encryption_key)
secret_item = json.loads(decrypt(blob))
found = False
for original_item in GLOBAL_BUILD_PLAN:
if original_item['name'] != secret_item['name']:
continue
found = True
for key in ('weight', 'ip', 'zone'):
self.assertEqual(secret_item[key], original_item[key])
self.assertTrue(found)
self.assertEqual(len(item), 2)
self.assertTrue('weight' in item)
def test_encrypt_decrypt(self):
key = 'c286696d887c9aa0611bbb3e2025a45a'
plain_text = "The quick brown fox jumped over the lazy dog."
# No IV supplied (all 0's)
encrypt = crypto.encryptor(key)
cipher_text = encrypt(plain_text)
self.assertNotEquals(plain_text, cipher_text)
decrypt = crypto.decryptor(key)
plain = decrypt(cipher_text)
self.assertEquals(plain_text, plain)
# IV supplied ...
iv = '562e17996d093d28ddb3ba695a2e6f58'
encrypt = crypto.encryptor(key, iv)
cipher_text = encrypt(plain_text)
self.assertNotEquals(plain_text, cipher_text)
decrypt = crypto.decryptor(key, iv)
plain = decrypt(cipher_text)
self.assertEquals(plain_text, plain)
def test_encrypt_decrypt(self):
key = 'c286696d887c9aa0611bbb3e2025a45a'
plain_text = "The quick brown fox jumped over the lazy dog."
# No IV supplied (all 0's)
encrypt = crypto.encryptor(key)
cipher_text = encrypt(plain_text)
self.assertNotEquals(plain_text, cipher_text)
decrypt = crypto.decryptor(key)
plain = decrypt(cipher_text)
self.assertEquals(plain_text, plain)
# IV supplied ...
iv = '562e17996d093d28ddb3ba695a2e6f58'
encrypt = crypto.encryptor(key, iv)
cipher_text = encrypt(plain_text)
self.assertNotEquals(plain_text, cipher_text)
decrypt = crypto.decryptor(key, iv)
plain = decrypt(cipher_text)
self.assertEquals(plain_text, plain)
def _make_weighted_host_from_blob(self, blob):
"""Returns the decrypted blob as a WeightedHost object
or None if invalid. Broken out for testing.
"""
decryptor = crypto.decryptor(FLAGS.build_plan_encryption_key)
try:
json_entry = decryptor(blob)
# Extract our WeightedHost values
wh_dict = json.loads(json_entry)
host = wh_dict.get('host', None)
blob = wh_dict.get('blob', None)
zone = wh_dict.get('zone', None)
return least_cost.WeightedHost(wh_dict['weight'],
host=host, blob=blob, zone=zone)
except M2Crypto.EVP.EVPError:
raise InvalidBlob()
def test_select(self):
serializer = zones.WeightsTemplate()
key = 'c286696d887c9aa0611bbb3e2025a45a'
encrypt = crypto.encryptor(key)
decrypt = crypto.decryptor(key)
item = GLOBAL_BUILD_PLAN[0]
fixture = {
'weights': {
'blob': encrypt(json.dumps(item)),
'weight': item['weight']
}
}
output = serializer.serialize(fixture)
res_tree = etree.XML(output)
self.assertEqual(res_tree.tag, '{%s}weights' % xmlutil.XMLNS_V10)
for item in res_tree:
self.assertEqual(item.tag, '{%s}weight' % xmlutil.XMLNS_V10)
blob = None
weight = None
for chld in item:
if chld.tag.endswith('blob'):
blob = chld.text
elif chld.tag.endswith('weight'):
weight = chld.text
secret_item = json.loads(decrypt(blob))
found = False
for original_item in GLOBAL_BUILD_PLAN:
if original_item['name'] != secret_item['name']:
continue
found = True
for key in ('weight', 'ip', 'zone'):
self.assertEqual(secret_item[key], original_item[key])
self.assertTrue(found)
self.assertEqual(len(item), 2)
self.assertTrue(weight)
def _make_weighted_host_from_blob(self, blob):
"""Returns the decrypted blob as a WeightedHost object
or None if invalid. Broken out for testing.
"""
decryptor = crypto.decryptor(FLAGS.build_plan_encryption_key)
try:
json_entry = decryptor(blob)
# Extract our WeightedHost values
wh_dict = json.loads(json_entry)
host = wh_dict.get('host', None)
blob = wh_dict.get('blob', None)
zone = wh_dict.get('zone', None)
return least_cost.WeightedHost(wh_dict['weight'],
host=host,
blob=blob,
zone=zone)
except M2Crypto.EVP.EVPError:
raise InvalidBlob()
def test_select(self):
serializer = zones.WeightsTemplate()
key = 'c286696d887c9aa0611bbb3e2025a45a'
encrypt = crypto.encryptor(key)
decrypt = crypto.decryptor(key)
item = GLOBAL_BUILD_PLAN[0]
fixture = {'weights': {'blob': encrypt(json.dumps(item)),
'weight': item['weight']}}
output = serializer.serialize(fixture)
res_tree = etree.XML(output)
self.assertEqual(res_tree.tag, '{%s}weights' % xmlutil.XMLNS_V10)
for item in res_tree:
self.assertEqual(item.tag, '{%s}weight' % xmlutil.XMLNS_V10)
blob = None
weight = None
for chld in item:
if chld.tag.endswith('blob'):
blob = chld.text
elif chld.tag.endswith('weight'):
weight = chld.text
secret_item = json.loads(decrypt(blob))
found = False
for original_item in GLOBAL_BUILD_PLAN:
if original_item['name'] != secret_item['name']:
continue
found = True
for key in ('weight', 'ip', 'zone'):
self.assertEqual(secret_item[key], original_item[key])
self.assertTrue(found)
self.assertEqual(len(item), 2)
self.assertTrue(weight)
