def test_key_parse_elements(self):
for key, cert in KEY_FILE_PAIRS:
data = self.data[key]
dict = rsa_pem.parse(data)
for part, dtype in RSA_PARTS:
self.assertTrue(part in dict)
self.assertTrue(isinstance(dict[part], dtype))
def test_key_parse_elements(self):
for key, cert in KEY_FILE_PAIRS:
data = self.data[key]
dict = rsa_pem.parse(data)
for part, dtype in RSA_PARTS:
self.assertTrue(part in dict)
self.assertTrue(isinstance(dict[part], dtype))
def test_key_parse(self):
for key, cert in KEY_FILE_PAIRS:
data = self.data[key]
self.assertTrue(data)
dict = rsa_pem.parse(data)
self.assertTrue(dict)
# 20 chars is enough of a sanity check
self.assertTrue(dict['body'][:20] in data)
self.assertEqual(dict['type'], "RSA PRIVATE")
def setUp(self):
self.dicts = {}
for key, cert in KEY_FILE_PAIRS:
with open(key, "r") as f:
data = f.read()
self.dicts[key] = rsa_pem.parse(data)
with open(cert, "r") as f:
data = f.read()
self.dicts[cert] = x509_pem.parse(data)
def test_key_parse(self):
for key, cert in KEY_FILE_PAIRS:
data = self.data[key]
self.assertTrue(data)
dict = rsa_pem.parse(data)
self.assertTrue(dict)
# 20 chars is enough of a sanity check
self.assertTrue(dict['body'][:20] in data)
self.assertEqual(dict['type'], "RSA PRIVATE")
def setUp(self):
self.dicts = {}
for key, cert in KEY_FILE_PAIRS:
with open(key, "r") as f:
data = f.read()
self.dicts[key] = rsa_pem.parse(data)
with open(cert, "r") as f:
data = f.read()
self.dicts[cert] = x509_pem.parse(data)
def setUp(self):
self.keys = {}
for key, cert in KEY_FILE_PAIRS:
with open(key, "r") as f:
data = f.read()
dict = rsa_pem.parse(data)
t = rsa_pem.dict_to_tuple(dict)
self.keys[key] = RSA.construct(t)
with open(cert, "r") as f:
data = f.read()
dict = x509_pem.parse(data)
t = x509_pem.dict_to_tuple(dict)
self.keys[cert] = RSA.construct(t)
def setUp(self):
self.keys = {}
for key, cert in KEY_FILE_PAIRS:
with open(key, "r") as f:
data = f.read()
dict = rsa_pem.parse(data)
t = rsa_pem.dict_to_tuple(dict)
self.keys[key] = RSA.construct(t)
with open(cert, "r") as f:
data = f.read()
dict = x509_pem.parse(data)
t = x509_pem.dict_to_tuple(dict)
self.keys[cert] = RSA.construct(t)
def parse(data):
"""Return parsed dictionary from parsed PEM file; based on header.
Args:
data: str of PEM file data
Returns:
{str:str} as returned from appropriate *_parse parser
"""
if "RSA PRIVATE" in data:
dict = rsa_pem.parse(data)
elif "CERTIFICATE" in data:
dict = x509_pem.parse(data)
else:
raise Exception("PEM data type not supported.")
return dict
def parse(data):
"""Return parsed dictionary from parsed PEM file; based on header.
Args:
data: str of PEM file data
Returns:
{str:str} as returned from appropriate *_parse parser
"""
if "RSA PRIVATE" in data:
dict = rsa_pem.parse(data)
elif "CERTIFICATE" in data:
dict = x509_pem.parse(data)
else:
raise Exception("PEM data type not supported.")
return dict
