173 lines
7.5 KiB
Python
173 lines
7.5 KiB
Python
# Copyright 2018 Espressif Systems (Shanghai) PTE LTD
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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#
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# APIs for interpreting and creating protobuf packets for
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# protocomm endpoint with security type protocomm_security1
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from __future__ import print_function
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from future.utils import tobytes
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import utils
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import proto
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from .security import Security
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from cryptography.hazmat.backends import default_backend
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from cryptography.hazmat.primitives import hashes, serialization
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from cryptography.hazmat.primitives.asymmetric.x25519 import X25519PrivateKey, X25519PublicKey
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from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes
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import session_pb2
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# Enum for state of protocomm_security1 FSM
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class security_state:
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REQUEST1 = 0
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RESPONSE1_REQUEST2 = 1
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RESPONSE2 = 2
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FINISHED = 3
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def xor(a, b):
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# XOR two inputs of type `bytes`
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ret = bytearray()
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# Decode the input bytes to strings
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a = a.decode('latin-1')
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b = b.decode('latin-1')
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for i in range(max(len(a), len(b))):
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# Convert the characters to corresponding 8-bit ASCII codes
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# then XOR them and store in bytearray
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ret.append(([0, ord(a[i])][i < len(a)]) ^ ([0, ord(b[i])][i < len(b)]))
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# Convert bytearray to bytes
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return bytes(ret)
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class Security1(Security):
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def __init__(self, pop, verbose):
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# Initialize state of the security1 FSM
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self.session_state = security_state.REQUEST1
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self.pop = tobytes(pop)
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self.verbose = verbose
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Security.__init__(self, self.security1_session)
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def security1_session(self, response_data):
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# protocomm security1 FSM which interprets/forms
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# protobuf packets according to present state of session
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if (self.session_state == security_state.REQUEST1):
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self.session_state = security_state.RESPONSE1_REQUEST2
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return self.setup0_request()
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if (self.session_state == security_state.RESPONSE1_REQUEST2):
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self.session_state = security_state.RESPONSE2
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self.setup0_response(response_data)
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return self.setup1_request()
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if (self.session_state == security_state.RESPONSE2):
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self.session_state = security_state.FINISHED
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self.setup1_response(response_data)
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return None
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else:
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print("Unexpected state")
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return None
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def __generate_key(self):
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# Generate private and public key pair for client
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self.client_private_key = X25519PrivateKey.generate()
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try:
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self.client_public_key = self.client_private_key.public_key().public_bytes(
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encoding=serialization.Encoding.Raw,
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format=serialization.PublicFormat.Raw)
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except TypeError:
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# backward compatible call for older cryptography library
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self.client_public_key = self.client_private_key.public_key().public_bytes()
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def _print_verbose(self, data):
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if (self.verbose):
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print("++++ " + data + " ++++")
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def setup0_request(self):
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# Form SessionCmd0 request packet using client public key
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setup_req = session_pb2.SessionData()
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setup_req.sec_ver = session_pb2.SecScheme1
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self.__generate_key()
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setup_req.sec1.sc0.client_pubkey = self.client_public_key
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self._print_verbose("Client Public Key:\t" + utils.str_to_hexstr(self.client_public_key.decode('latin-1')))
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return setup_req.SerializeToString().decode('latin-1')
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def setup0_response(self, response_data):
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# Interpret SessionResp0 response packet
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setup_resp = proto.session_pb2.SessionData()
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setup_resp.ParseFromString(tobytes(response_data))
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self._print_verbose("Security version:\t" + str(setup_resp.sec_ver))
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if setup_resp.sec_ver != session_pb2.SecScheme1:
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print("Incorrect sec scheme")
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exit(1)
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self.device_public_key = setup_resp.sec1.sr0.device_pubkey
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# Device random is the initialization vector
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device_random = setup_resp.sec1.sr0.device_random
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self._print_verbose("Device Public Key:\t" + utils.str_to_hexstr(self.device_public_key.decode('latin-1')))
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self._print_verbose("Device Random:\t" + utils.str_to_hexstr(device_random.decode('latin-1')))
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# Calculate Curve25519 shared key using Client private key and Device public key
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sharedK = self.client_private_key.exchange(X25519PublicKey.from_public_bytes(self.device_public_key))
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self._print_verbose("Shared Key:\t" + utils.str_to_hexstr(sharedK.decode('latin-1')))
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# If PoP is provided, XOR SHA256 of PoP with the previously
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# calculated Shared Key to form the actual Shared Key
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if len(self.pop) > 0:
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# Calculate SHA256 of PoP
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h = hashes.Hash(hashes.SHA256(), backend=default_backend())
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h.update(self.pop)
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digest = h.finalize()
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# XOR with and update Shared Key
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sharedK = xor(sharedK, digest)
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self._print_verbose("New Shared Key XORed with PoP:\t" + utils.str_to_hexstr(sharedK.decode('latin-1')))
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# Initialize the encryption engine with Shared Key and initialization vector
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cipher = Cipher(algorithms.AES(sharedK), modes.CTR(device_random), backend=default_backend())
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self.cipher = cipher.encryptor()
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def setup1_request(self):
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# Form SessionCmd1 request packet using encrypted device public key
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setup_req = proto.session_pb2.SessionData()
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setup_req.sec_ver = session_pb2.SecScheme1
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setup_req.sec1.msg = proto.sec1_pb2.Session_Command1
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# Encrypt device public key and attach to the request packet
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client_verify = self.cipher.update(self.device_public_key)
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self._print_verbose("Client Verify:\t" + utils.str_to_hexstr(client_verify.decode('latin-1')))
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setup_req.sec1.sc1.client_verify_data = client_verify
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return setup_req.SerializeToString().decode('latin-1')
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def setup1_response(self, response_data):
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# Interpret SessionResp1 response packet
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setup_resp = proto.session_pb2.SessionData()
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setup_resp.ParseFromString(tobytes(response_data))
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# Ensure security scheme matches
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if setup_resp.sec_ver == session_pb2.SecScheme1:
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# Read encrypyed device verify string
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device_verify = setup_resp.sec1.sr1.device_verify_data
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self._print_verbose("Device verify:\t" + utils.str_to_hexstr(device_verify.decode('latin-1')))
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# Decrypt the device verify string
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enc_client_pubkey = self.cipher.update(setup_resp.sec1.sr1.device_verify_data)
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self._print_verbose("Enc client pubkey:\t " + utils.str_to_hexstr(enc_client_pubkey.decode('latin-1')))
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# Match decryped string with client public key
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if enc_client_pubkey != self.client_public_key:
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print("Mismatch in device verify")
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return -2
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else:
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print("Unsupported security protocol")
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return -1
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def encrypt_data(self, data):
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return self.cipher.update(data)
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def decrypt_data(self, data):
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return self.cipher.update(data)
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