client.create_key(_get_vault_url(), key_name, 'RSA')
print('Created key vault key: ' + key_name)
# create a random AES key to wrap
to_wrap = os.urandom(16)
print('\noriginal value:')
print(to_wrap)
# wrap the key
wrapped = client.wrap_key(vault_base_url=_get_vault_url(),
key_name=key_name,
key_version='',
algorithm='RSA-OAEP',
value=to_wrap)
print('\nwrap_key result:')
print(wrapped.result)
unwrapped = client.unwrap_key(vault_base_url=_get_vault_url(),
key_name=key_name,
key_version='',
algorithm='RSA-OAEP',
value=wrapped.result)
# delete the key
client.delete_key(_get_vault_url(), key_name)
print('\nunwrap result:')
print(unwrapped.result)
class AzureRMKeyVaultKey(AzureRMModuleBase):
''' Module that creates or deletes keys in Azure KeyVault '''
def __init__(self):
self.module_arg_spec = dict(
key_name=dict(type='str', required=True),
keyvault_uri=dict(type='str', required=True),
pem_file=dict(type='str'),
pem_password=dict(type='str'),
byok_file=dict(type='str'),
state=dict(type='str', default='present', choices=['present', 'absent'])
)
self.results = dict(
changed=False,
state=dict()
)
self.key_name = None
self.keyvault_uri = None
self.pem_file = None
self.pem_password = None
self.state = None
self.client = None
self.tags = None
required_if = [
('pem_password', 'present', ['pem_file'])
]
super(AzureRMKeyVaultKey, self).__init__(self.module_arg_spec,
supports_check_mode=True,
required_if=required_if,
supports_tags=True)
def exec_module(self, **kwargs):
for key in list(self.module_arg_spec.keys()) + ['tags']:
setattr(self, key, kwargs[key])
# Create KeyVaultClient
def auth_callback(server, resource, scope):
if self.credentials['client_id'] is None or self.credentials['secret'] is None:
self.fail('Please specify client_id, secret and tenant to access azure Key Vault.')
tenant = self.credentials.get('tenant')
if not self.credentials['tenant']:
tenant = "common"
authcredential = ServicePrincipalCredentials(
client_id=self.credentials['client_id'],
secret=self.credentials['secret'],
tenant=tenant,
resource="https://vault.azure.net")
token = authcredential.token
return token['token_type'], token['access_token']
self.client = KeyVaultClient(KeyVaultAuthentication(auth_callback))
results = dict()
changed = False
try:
results['key_id'] = self.get_key(self.key_name)
# Key exists and will be deleted
if self.state == 'absent':
changed = True
except KeyVaultErrorException:
# Key doesn't exist
if self.state == 'present':
changed = True
self.results['changed'] = changed
self.results['state'] = results
if not self.check_mode:
# Create key
if self.state == 'present' and changed:
results['key_id'] = self.create_key(self.key_name, self.tags)
self.results['state'] = results
self.results['state']['status'] = 'Created'
# Delete key
elif self.state == 'absent' and changed:
results['key_id'] = self.delete_key(self.key_name)
self.results['state'] = results
self.results['state']['status'] = 'Deleted'
else:
if self.state == 'present' and changed:
self.results['state']['status'] = 'Created'
elif self.state == 'absent' and changed:
self.results['state']['status'] = 'Deleted'
return self.results
def get_key(self, name, version=''):
''' Gets an existing key '''
key_bundle = self.client.get_key(self.keyvault_uri, name, version)
if key_bundle:
key_id = KeyVaultId.parse_key_id(key_bundle.key.kid)
return key_id.id
def create_key(self, name, tags, kty='RSA'):
''' Creates a key '''
key_bundle = self.client.create_key(vault_base_url=self.keyvault_uri, key_name=name, kty=kty, tags=tags)
key_id = KeyVaultId.parse_key_id(key_bundle.key.kid)
return key_id.id
def delete_key(self, name):
''' Deletes a key '''
deleted_key = self.client.delete_key(self.keyvault_uri, name)
key_id = KeyVaultId.parse_key_id(deleted_key.key.kid)
return key_id.id
def import_key(self, key_name, destination=None, key_ops=None, disabled=False, expires=None,
not_before=None, tags=None, pem_file=None, pem_password=None, byok_file=None):
""" Import a private key. Supports importing base64 encoded private keys from PEM files.
Supports importing BYOK keys into HSM for premium KeyVaults. """
def _to_bytes(hex_string):
# zero pads and decodes a hex string
if len(hex_string) % 2:
hex_string = '{0}'.format(hex_string)
return codecs.decode(hex_string, 'hex_codec')
def _set_rsa_parameters(dest, src):
# map OpenSSL parameter names to JsonWebKey property names
conversion_dict = {
'modulus': 'n',
'publicExponent': 'e',
'privateExponent': 'd',
'prime1': 'p',
'prime2': 'q',
'exponent1': 'dp',
'exponent2': 'dq',
'coefficient': 'qi'
}
# regex: looks for matches that fit the following patterns:
# integerPattern: 65537 (0x10001)
# hexPattern:
# 00:a0:91:4d:00:23:4a:c6:83:b2:1b:4c:15:d5:be:
# d8:87:bd:c9:59:c2:e5:7a:f5:4a:e7:34:e8:f0:07:
# The desired match should always be the first component of the match
regex = re.compile(r'([^:\s]*(:[^\:)]+\))|([^:\s]*(:\s*[0-9A-Fa-f]{2})+))')
# regex2: extracts the hex string from a format like: 65537 (0x10001)
regex2 = re.compile(r'(?<=\(0x{1})([0-9A-Fa-f]*)(?=\))')
key_params = crypto.dump_privatekey(crypto.FILETYPE_TEXT, src).decode('utf-8')
for match in regex.findall(key_params):
comps = match[0].split(':', 1)
name = conversion_dict.get(comps[0], None)
if name:
value = comps[1].replace(' ', '').replace('\n', '').replace(':', '')
try:
value = _to_bytes(value)
except Exception: # pylint:disable=broad-except
# if decoding fails it is because of an integer pattern. Extract the hex
# string and retry
value = _to_bytes(regex2.findall(value)[0])
setattr(dest, name, value)
key_attrs = KeyAttributes(not disabled, not_before, expires)
key_obj = JsonWebKey(key_ops=key_ops)
if pem_file:
key_obj.kty = 'RSA'
with open(pem_file, 'r') as f:
pem_data = f.read()
# load private key and prompt for password if encrypted
try:
pem_password = str(pem_password).encode() if pem_password else None
# despite documentation saying password should be a string, it needs to actually
# be UTF-8 encoded bytes
pkey = crypto.load_privatekey(crypto.FILETYPE_PEM, pem_data, pem_password)
except crypto.Error:
pass # wrong password
except TypeError:
pass # no pass provided
_set_rsa_parameters(key_obj, pkey)
elif byok_file:
with open(byok_file, 'rb') as f:
byok_data = f.read()
key_obj.kty = 'RSA-HSM'
key_obj.t = byok_data
return self.client.import_key(
self.keyvault_uri, key_name, key_obj, destination == 'hsm', key_attrs, tags)
class AzureRMKeyVaultKey(AzureRMModuleBase):
''' Module that creates or deletes keys in Azure KeyVault '''
def __init__(self):
self.module_arg_spec = dict(
key_name=dict(type='str', required=True),
keyvault_uri=dict(type='str', required=True),
pem_file=dict(type='str'),
pem_password=dict(type='str'),
byok_file=dict(type='str'),
state=dict(type='str', default='present', choices=['present', 'absent'])
)
self.results = dict(
changed=False,
state=dict()
)
self.key_name = None
self.keyvault_uri = None
self.pem_file = None
self.pem_password = None
self.state = None
self.client = None
self.tags = None
required_if = [
('pem_password', 'present', ['pem_file'])
]
super(AzureRMKeyVaultKey, self).__init__(self.module_arg_spec,
supports_check_mode=True,
required_if=required_if,
supports_tags=True)
def exec_module(self, **kwargs):
for key in list(self.module_arg_spec.keys()) + ['tags']:
setattr(self, key, kwargs[key])
# Create KeyVaultClient
self.client = KeyVaultClient(self.azure_credentials)
results = dict()
changed = False
try:
results['key_id'] = self.get_key(self.key_name)
# Key exists and will be deleted
if self.state == 'absent':
changed = True
except KeyVaultErrorException:
# Key doesn't exist
if self.state == 'present':
changed = True
self.results['changed'] = changed
self.results['state'] = results
if not self.check_mode:
# Create key
if self.state == 'present' and changed:
results['key_id'] = self.create_key(self.key_name, self.tags)
self.results['state'] = results
self.results['state']['status'] = 'Created'
# Delete key
elif self.state == 'absent' and changed:
results['key_id'] = self.delete_key(self.key_name)
self.results['state'] = results
self.results['state']['status'] = 'Deleted'
else:
if self.state == 'present' and changed:
self.results['state']['status'] = 'Created'
elif self.state == 'absent' and changed:
self.results['state']['status'] = 'Deleted'
return self.results
def get_key(self, name, version=''):
''' Gets an existing key '''
key_bundle = self.client.get_key(self.keyvault_uri, name, version)
if key_bundle:
key_id = KeyVaultId.parse_key_id(key_bundle.key.kid)
return key_id.id
def create_key(self, name, tags, kty='RSA'):
''' Creates a key '''
key_bundle = self.client.create_key(self.keyvault_uri, name, kty, tags=tags)
key_id = KeyVaultId.parse_key_id(key_bundle.key.kid)
return key_id.id
def delete_key(self, name):
''' Deletes a key '''
deleted_key = self.client.delete_key(self.keyvault_uri, name)
key_id = KeyVaultId.parse_key_id(deleted_key.key.kid)
return key_id.id
def import_key(self, key_name, destination=None, key_ops=None, disabled=False, expires=None,
not_before=None, tags=None, pem_file=None, pem_password=None, byok_file=None):
""" Import a private key. Supports importing base64 encoded private keys from PEM files.
Supports importing BYOK keys into HSM for premium KeyVaults. """
def _to_bytes(hex_string):
# zero pads and decodes a hex string
if len(hex_string) % 2:
hex_string = '{0}'.format(hex_string)
return codecs.decode(hex_string, 'hex_codec')
def _set_rsa_parameters(dest, src):
# map OpenSSL parameter names to JsonWebKey property names
conversion_dict = {
'modulus': 'n',
'publicExponent': 'e',
'privateExponent': 'd',
'prime1': 'p',
'prime2': 'q',
'exponent1': 'dp',
'exponent2': 'dq',
'coefficient': 'qi'
}
# regex: looks for matches that fit the following patterns:
# integerPattern: 65537 (0x10001)
# hexPattern:
# 00:a0:91:4d:00:23:4a:c6:83:b2:1b:4c:15:d5:be:
# d8:87:bd:c9:59:c2:e5:7a:f5:4a:e7:34:e8:f0:07:
# The desired match should always be the first component of the match
regex = re.compile(r'([^:\s]*(:[^\:)]+\))|([^:\s]*(:\s*[0-9A-Fa-f]{2})+))')
# regex2: extracts the hex string from a format like: 65537 (0x10001)
regex2 = re.compile(r'(?<=\(0x{1})([0-9A-Fa-f]*)(?=\))')
key_params = crypto.dump_privatekey(crypto.FILETYPE_TEXT, src).decode('utf-8')
for match in regex.findall(key_params):
comps = match[0].split(':', 1)
name = conversion_dict.get(comps[0], None)
if name:
value = comps[1].replace(' ', '').replace('\n', '').replace(':', '')
try:
value = _to_bytes(value)
except Exception: # pylint:disable=broad-except
# if decoding fails it is because of an integer pattern. Extract the hex
# string and retry
value = _to_bytes(regex2.findall(value)[0])
setattr(dest, name, value)
key_attrs = KeyAttributes(not disabled, not_before, expires)
key_obj = JsonWebKey(key_ops=key_ops)
if pem_file:
key_obj.kty = 'RSA'
with open(pem_file, 'r') as f:
pem_data = f.read()
# load private key and prompt for password if encrypted
try:
pem_password = str(pem_password).encode() if pem_password else None
# despite documentation saying password should be a string, it needs to actually
# be UTF-8 encoded bytes
pkey = crypto.load_privatekey(crypto.FILETYPE_PEM, pem_data, pem_password)
except crypto.Error:
pass # wrong password
except TypeError:
pass # no pass provided
_set_rsa_parameters(key_obj, pkey)
elif byok_file:
with open(byok_file, 'rb') as f:
byok_data = f.read()
key_obj.kty = 'RSA-HSM'
key_obj.t = byok_data
return self.client.import_key(
self.keyvault_uri, key_name, key_obj, destination == 'hsm', key_attrs, tags)