def test_reorder_2(self):
val = [
[TLV.kTLVType_State, TLV.M3],
[TLV.kTLVType_Salt, (16 * 'a').encode()],
[TLV.kTLVType_PublicKey, (384 * 'b').encode()],
]
tmp = TLV.reorder(val, [TLV.kTLVType_State, TLV.kTLVType_Salt])
self.assertEqual(tmp[0][0], TLV.kTLVType_State)
self.assertEqual(tmp[0][1], TLV.M3)
self.assertEqual(tmp[1][0], TLV.kTLVType_Salt)
self.assertEqual(tmp[1][1], (16 * 'a').encode())
def perform_pair_setup_part1(write_fun):
"""
Performs a pair setup operation as described in chapter 4.7 page 39 ff.
:param write_fun: a function that takes a bytes representation of a TLV, the expected keys as list and returns
decoded TLV as list
:return: a tuple of salt and server's public key
:raises UnavailableError: if the device is already paired
:raises MaxTriesError: if the device received more than 100 unsuccessful pairing attempts
:raises BusyError: if a parallel pairing is ongoing
:raises AuthenticationError: if the verification of the device's SRP proof fails
:raises MaxPeersError: if the device cannot accept an additional pairing
:raises IllegalData: if the verification of the accessory's data fails
"""
#
# Step #1 ios --> accessory (send SRP start Request) (see page 39)
#
logging.debug('#1 ios -> accessory: send SRP start request')
request_tlv = TLV.encode_list([(TLV.kTLVType_State, TLV.M1),
(TLV.kTLVType_Method, TLV.PairSetup)])
step2_expectations = [
TLV.kTLVType_State, TLV.kTLVType_Error, TLV.kTLVType_PublicKey,
TLV.kTLVType_Salt
]
response_tlv = write_fun(request_tlv, step2_expectations)
#
# Step #3 ios --> accessory (send SRP verify request) (see page 41)
#
logging.debug('#3 ios -> accessory: send SRP verify request')
response_tlv = TLV.reorder(response_tlv, step2_expectations)
assert response_tlv[0][0] == TLV.kTLVType_State and response_tlv[0][
1] == TLV.M2, 'perform_pair_setup: State not M2'
# the errors here can be:
# * kTLVError_Unavailable: Device is paired
# * kTLVError_MaxTries: More than 100 unsuccessful attempts
# * kTLVError_Busy: There is already a pairing going on
if response_tlv[1][0] == TLV.kTLVType_Error:
error_handler(response_tlv[1][1], 'step 3')
assert response_tlv[1][
0] == TLV.kTLVType_PublicKey, 'perform_pair_setup: Not a public key'
assert response_tlv[2][
0] == TLV.kTLVType_Salt, 'perform_pair_setup: Not a salt'
return response_tlv[2][1], response_tlv[1][1]
def get_session_keys(pairing_data):
"""
HomeKit Controller state machine to perform a pair verify operation as described in chapter 4.8 page 47 ff.
:param pairing_data: the paring data as returned by perform_pair_setup
:return: tuple of the session keys (controller_to_accessory_key and accessory_to_controller_key)
:raises InvalidAuthTagError: if the auth tag could not be verified,
:raises IncorrectPairingIdError: if the accessory's LTPK could not be found
:raises InvalidSignatureError: if the accessory's signature could not be verified
:raises AuthenticationError: if the secured session could not be established
"""
#
# Step #1 ios --> accessory (send verify start Request) (page 47)
#
ios_key = x25519.X25519PrivateKey.generate()
ios_key_pub = ios_key.public_key().public_bytes(
encoding=serialization.Encoding.Raw,
format=serialization.PublicFormat.Raw)
request_tlv = [(TLV.kTLVType_State, TLV.M1),
(TLV.kTLVType_PublicKey, ios_key_pub)]
step2_expectations = [
TLV.kTLVType_State, TLV.kTLVType_PublicKey, TLV.kTLVType_EncryptedData
]
response_tlv = yield (request_tlv, step2_expectations)
#
# Step #3 ios --> accessory (send SRP verify request) (page 49)
#
response_tlv = TLV.reorder(response_tlv, step2_expectations)
assert response_tlv[0][0] == TLV.kTLVType_State and response_tlv[0][
1] == TLV.M2, 'get_session_keys: not M2'
assert response_tlv[1][
0] == TLV.kTLVType_PublicKey, 'get_session_keys: no public key'
assert response_tlv[2][
0] == TLV.kTLVType_EncryptedData, 'get_session_keys: no encrypted data'
# 1) generate shared secret
accessorys_session_pub_key_bytes = bytes(response_tlv[1][1])
accessorys_session_pub_key = x25519.X25519PublicKey.from_public_bytes(
accessorys_session_pub_key_bytes)
shared_secret = ios_key.exchange(accessorys_session_pub_key)
# 2) derive session key
hkdf_inst = hkdf.Hkdf('Pair-Verify-Encrypt-Salt'.encode(),
shared_secret,
hash=hashlib.sha512)
session_key = hkdf_inst.expand('Pair-Verify-Encrypt-Info'.encode(), 32)
# 3) verify auth tag on encrypted data and 4) decrypt
encrypted = response_tlv[2][1]
decrypted = chacha20_aead_decrypt(bytes(),
session_key, 'PV-Msg02'.encode(),
bytes([0, 0, 0, 0]), encrypted)
if type(decrypted) == bool and not decrypted:
raise InvalidAuthTagError('step 3')
d1 = TLV.decode_bytes(decrypted)
d1 = TLV.reorder(d1, [TLV.kTLVType_Identifier, TLV.kTLVType_Signature])
assert d1[0][
0] == TLV.kTLVType_Identifier, 'get_session_keys: no identifier'
assert d1[1][0] == TLV.kTLVType_Signature, 'get_session_keys: no signature'
# 5) look up pairing by accessory name
accessory_name = d1[0][1].decode()
if pairing_data['AccessoryPairingID'] != accessory_name:
raise IncorrectPairingIdError('step 3')
accessory_ltpk = ed25519.VerifyingKey(
bytes.fromhex(pairing_data['AccessoryLTPK']))
# 6) verify accessory's signature
accessory_sig = d1[1][1]
accessory_session_pub_key_bytes = response_tlv[1][1]
accessory_info = accessory_session_pub_key_bytes + accessory_name.encode(
) + ios_key_pub
try:
accessory_ltpk.verify(bytes(accessory_sig), bytes(accessory_info))
except ed25519.BadSignatureError:
raise InvalidSignatureError('step 3')
# 7) create iOSDeviceInfo
ios_device_info = ios_key_pub + pairing_data['iOSPairingId'].encode(
) + accessorys_session_pub_key_bytes
# 8) sign iOSDeviceInfo with long term secret key
ios_device_ltsk_h = pairing_data['iOSDeviceLTSK']
ios_device_ltpk_h = pairing_data['iOSDeviceLTPK']
ios_device_ltsk = ed25519.SigningKey(
bytes.fromhex(ios_device_ltsk_h) + bytes.fromhex(ios_device_ltpk_h))
ios_device_signature = ios_device_ltsk.sign(ios_device_info)
# 9) construct sub tlv
sub_tlv = TLV.encode_list([(TLV.kTLVType_Identifier,
pairing_data['iOSPairingId'].encode()),
(TLV.kTLVType_Signature, ios_device_signature)])
# 10) encrypt and sign
encrypted_data_with_auth_tag = chacha20_aead_encrypt(
bytes(), session_key, 'PV-Msg03'.encode(), bytes([0, 0, 0, 0]),
sub_tlv)
tmp = bytearray(encrypted_data_with_auth_tag[0])
tmp += encrypted_data_with_auth_tag[1]
# 11) create tlv
request_tlv = [(TLV.kTLVType_State, TLV.M3),
(TLV.kTLVType_EncryptedData, tmp)]
step3_expectations = [TLV.kTLVType_State, TLV.kTLVType_Error]
response_tlv = yield (request_tlv, step3_expectations)
#
# Post Step #4 verification (page 51)
#
response_tlv = TLV.reorder(response_tlv, step3_expectations)
assert response_tlv[0][0] == TLV.kTLVType_State and response_tlv[0][
1] == TLV.M4, 'get_session_keys: not M4'
if len(response_tlv) == 2 and response_tlv[1][0] == TLV.kTLVType_Error:
error_handler(response_tlv[1][1], 'verification')
# calculate session keys
hkdf_inst = hkdf.Hkdf('Control-Salt'.encode(),
shared_secret,
hash=hashlib.sha512)
controller_to_accessory_key = hkdf_inst.expand(
'Control-Write-Encryption-Key'.encode(), 32)
hkdf_inst = hkdf.Hkdf('Control-Salt'.encode(),
shared_secret,
hash=hashlib.sha512)
accessory_to_controller_key = hkdf_inst.expand(
'Control-Read-Encryption-Key'.encode(), 32)
return controller_to_accessory_key, accessory_to_controller_key
def perform_pair_setup_part2(pin, ios_pairing_id, write_fun, salt,
server_public_key):
"""
Performs a pair setup operation as described in chapter 4.7 page 39 ff.
:param pin: the setup code from the accessory
:param ios_pairing_id: the id of the simulated ios device
:param write_fun: a function that takes a bytes representation of a TLV, the expected keys as list and returns
decoded TLV as list
:return: a dict with the ios device's part of the pairing information
:raises UnavailableError: if the device is already paired
:raises MaxTriesError: if the device received more than 100 unsuccessful pairing attempts
:raises BusyError: if a parallel pairing is ongoing
:raises AuthenticationError: if the verification of the device's SRP proof fails
:raises MaxPeersError: if the device cannot accept an additional pairing
:raises IllegalData: if the verification of the accessory's data fails
"""
srp_client = SrpClient('Pair-Setup', pin)
srp_client.set_salt(salt)
srp_client.set_server_public_key(server_public_key)
client_pub_key = srp_client.get_public_key()
client_proof = srp_client.get_proof()
response_tlv = TLV.encode_list([
(TLV.kTLVType_State, TLV.M3),
(TLV.kTLVType_PublicKey, SrpClient.to_byte_array(client_pub_key)),
(TLV.kTLVType_Proof, SrpClient.to_byte_array(client_proof)),
])
step4_expectations = [
TLV.kTLVType_State, TLV.kTLVType_Error, TLV.kTLVType_Proof
]
response_tlv = write_fun(response_tlv, step4_expectations)
#
# Step #5 ios --> accessory (Exchange Request) (see page 43)
#
logging.debug('#5 ios -> accessory: send SRP exchange request')
# M4 Verification (page 43)
response_tlv = TLV.reorder(response_tlv, step4_expectations)
assert response_tlv[0][0] == TLV.kTLVType_State and response_tlv[0][1] == TLV.M4, \
'perform_pair_setup: State not M4'
if response_tlv[1][0] == TLV.kTLVType_Error:
error_handler(response_tlv[1][1], 'step 5')
assert response_tlv[1][
0] == TLV.kTLVType_Proof, 'perform_pair_setup: Not a proof'
if not srp_client.verify_servers_proof(response_tlv[1][1]):
raise AuthenticationError('Step #5: wrong proof!')
# M5 Request generation (page 44)
session_key = srp_client.get_session_key()
ios_device_ltsk, ios_device_ltpk = ed25519.create_keypair()
# reversed:
# Pair-Setup-Encrypt-Salt instead of Pair-Setup-Controller-Sign-Salt
# Pair-Setup-Encrypt-Info instead of Pair-Setup-Controller-Sign-Info
hkdf_inst = hkdf.Hkdf('Pair-Setup-Controller-Sign-Salt'.encode(),
SrpClient.to_byte_array(session_key),
hash=hashlib.sha512)
ios_device_x = hkdf_inst.expand('Pair-Setup-Controller-Sign-Info'.encode(),
32)
hkdf_inst = hkdf.Hkdf('Pair-Setup-Encrypt-Salt'.encode(),
SrpClient.to_byte_array(session_key),
hash=hashlib.sha512)
session_key = hkdf_inst.expand('Pair-Setup-Encrypt-Info'.encode(), 32)
ios_device_pairing_id = ios_pairing_id.encode()
ios_device_info = ios_device_x + ios_device_pairing_id + ios_device_ltpk.to_bytes(
)
ios_device_signature = ios_device_ltsk.sign(ios_device_info)
sub_tlv = [(TLV.kTLVType_Identifier, ios_device_pairing_id),
(TLV.kTLVType_PublicKey, ios_device_ltpk.to_bytes()),
(TLV.kTLVType_Signature, ios_device_signature)]
sub_tlv_b = TLV.encode_list(sub_tlv)
# taking tge iOSDeviceX as key was reversed from
# https://github.com/KhaosT/HAP-NodeJS/blob/2ea9d761d9bd7593dd1949fec621ab085af5e567/lib/HAPServer.js
# function handlePairStepFive calling encryption.encryptAndSeal
encrypted_data_with_auth_tag = chacha20_aead_encrypt(
bytes(), session_key, 'PS-Msg05'.encode(), bytes([0, 0, 0, 0]),
sub_tlv_b)
tmp = bytearray(encrypted_data_with_auth_tag[0])
tmp += encrypted_data_with_auth_tag[1]
response_tlv = [(TLV.kTLVType_State, TLV.M5),
(TLV.kTLVType_EncryptedData, tmp)]
body = TLV.encode_list(response_tlv)
step6_expectations = [
TLV.kTLVType_State, TLV.kTLVType_Error, TLV.kTLVType_EncryptedData
]
response_tlv = write_fun(body, step6_expectations)
#
# Step #7 ios (Verification) (page 47)
#
response_tlv = TLV.reorder(response_tlv, step6_expectations)
assert response_tlv[0][0] == TLV.kTLVType_State and response_tlv[0][
1] == TLV.M6, 'perform_pair_setup: State not M6'
if response_tlv[1][0] == TLV.kTLVType_Error:
error_handler(response_tlv[1][1], 'step 7')
assert response_tlv[1][
0] == TLV.kTLVType_EncryptedData, 'perform_pair_setup: No encrypted data'
decrypted_data = chacha20_aead_decrypt(bytes(), session_key,
'PS-Msg06'.encode(),
bytes([0, 0, 0,
0]), response_tlv[1][1])
if decrypted_data is False:
raise homekit.exception.IllegalData('step 7')
response_tlv = TLV.decode_bytearray(decrypted_data)
response_tlv = TLV.reorder(response_tlv, [
TLV.kTLVType_Identifier, TLV.kTLVType_PublicKey, TLV.kTLVType_Signature
])
assert response_tlv[2][
0] == TLV.kTLVType_Signature, 'perform_pair_setup: No signature'
accessory_sig = response_tlv[2][1]
assert response_tlv[0][
0] == TLV.kTLVType_Identifier, 'perform_pair_setup: No identifier'
accessory_pairing_id = response_tlv[0][1]
assert response_tlv[1][
0] == TLV.kTLVType_PublicKey, 'perform_pair_setup: No public key'
accessory_ltpk = response_tlv[1][1]
hkdf_inst = hkdf.Hkdf('Pair-Setup-Accessory-Sign-Salt'.encode(),
SrpClient.to_byte_array(
srp_client.get_session_key()),
hash=hashlib.sha512)
accessory_x = hkdf_inst.expand('Pair-Setup-Accessory-Sign-Info'.encode(),
32)
accessory_info = accessory_x + accessory_pairing_id + accessory_ltpk
e25519s = ed25519.VerifyingKey(bytes(response_tlv[1][1]))
try:
e25519s.verify(bytes(accessory_sig), bytes(accessory_info))
except AssertionError:
raise InvalidSignatureError('step #7')
return {
'AccessoryPairingID': response_tlv[0][1].decode(),
'AccessoryLTPK': hexlify(response_tlv[1][1]).decode(),
'iOSPairingId': ios_pairing_id,
'iOSDeviceLTSK':
ios_device_ltsk.to_ascii(encoding='hex').decode()[:64],
'iOSDeviceLTPK': hexlify(ios_device_ltpk.to_bytes()).decode()
}
def request_pin_setup(connection, pin):
"""
Requests a Pin from device
"""
headers = {'Content-Type': 'application/pairing+tlv8'}
#
# Step #1 ios --> accessory (send SRP start Request) (see page 39)
#
request_tlv = TLV.encode_list([(TLV.kTLVType_State, TLV.M1),
(TLV.kTLVType_Method, TLV.PairSetup)])
#
# Step #3 ios --> accessory (send SRP verify request) (see page 41)
#
connection.request('POST', '/pair-setup', request_tlv, headers)
resp = connection.getresponse()
response_tlv = TLV.decode_bytes(resp.read())
response_tlv = TLV.reorder(response_tlv, [
TLV.kTLVType_State, TLV.kTLVType_Error, TLV.kTLVType_PublicKey,
TLV.kTLVType_Salt
])
assert response_tlv[0][0] == TLV.kTLVType_State and response_tlv[0][
1] == TLV.M2, 'perform_pair_setup: State not M2'
# the errors here can be:
# * kTLVError_Unavailable: Device is paired
# * kTLVError_MaxTries: More than 100 unsuccessfull attempts
# * kTLVError_Busy: There is already a pairing going on
# if response_tlv[1][0] == TLV.kTLVType_Error:
# error_handler(response_tlv[1][1], 'step 3')
assert response_tlv[1][
0] == TLV.kTLVType_PublicKey, 'perform_pair_setup: Not a public key'
assert response_tlv[2][
0] == TLV.kTLVType_Salt, 'perform_pair_setup: Not a salt'
srp_client = SrpClient('Pair-Setup', pin)
srp_client.set_salt(response_tlv[2][1])
srp_client.set_server_public_key(response_tlv[1][1])
client_pub_key = srp_client.get_public_key()
client_proof = srp_client.get_proof()
response_tlv = TLV.encode_list([
(TLV.kTLVType_State, TLV.M3),
(TLV.kTLVType_PublicKey, SrpClient.to_byte_array(client_pub_key)),
(TLV.kTLVType_Proof, SrpClient.to_byte_array(client_proof)),
])
connection.request('POST', '/pair-setup', response_tlv, headers)
resp = connection.getresponse()
response_tlv = TLV.decode_bytes(resp.read())
#
# Step #5 ios --> accessory (Exchange Request) (see page 43)
#
# M4 Verification (page 43)
# response_tlv = TLV.reorder(response_tlv, [TLV.kTLVType_State, TLV.kTLVType_Error, TLV.kTLVType_Proof])
# assert response_tlv[0][0] == TLV.kTLVType_State and response_tlv[0][1] == TLV.M4, \
# 'perform_pair_setup: State not M4'
# if response_tlv[1][0] == TLV.kTLVType_Error:
# error_handler(response_tlv[1][1], 'step 5')
# assert response_tlv[1][0] == TLV.kTLVType_Proof, 'perform_pair_setup: Not a proof'
# if not srp_client.verify_servers_proof(response_tlv[1][1]):
# raise AuthenticationError('Step #5: wrong proof!')
# M5 Request generation (page 44)
session_key = srp_client.get_session_key()
ios_device_ltsk, ios_device_ltpk = ed25519.create_keypair()
# reversed:
# Pair-Setup-Encrypt-Salt instead of Pair-Setup-Controller-Sign-Salt
# Pair-Setup-Encrypt-Info instead of Pair-Setup-Controller-Sign-Info
hkdf_inst = hkdf.Hkdf('Pair-Setup-Controller-Sign-Salt'.encode(),
SrpClient.to_byte_array(session_key),
hash=hashlib.sha512)
ios_device_x = hkdf_inst.expand('Pair-Setup-Controller-Sign-Info'.encode(),
32)
hkdf_inst = hkdf.Hkdf('Pair-Setup-Encrypt-Salt'.encode(),
SrpClient.to_byte_array(session_key),
hash=hashlib.sha512)
session_key = hkdf_inst.expand('Pair-Setup-Encrypt-Info'.encode(), 32)
# ios_device_pairing_id = ios_pairing_id.encode()
ios_device_info = ios_device_x + ios_device_ltpk.to_bytes()
ios_device_signature = ios_device_ltsk.sign(ios_device_info)
sub_tlv = [
# (TLV.kTLVType_Identifier, ios_device_pairing_id),
(TLV.kTLVType_PublicKey, ios_device_ltpk.to_bytes()),
(TLV.kTLVType_Signature, ios_device_signature)
]
sub_tlv_b = TLV.encode_list(sub_tlv)
# taking tge iOSDeviceX as key was reversed from
# https://github.com/KhaosT/HAP-NodeJS/blob/2ea9d761d9bd7593dd1949fec621ab085af5e567/lib/HAPServer.js
# function handlePairStepFive calling encryption.encryptAndSeal
encrypted_data_with_auth_tag = chacha20_aead_encrypt(
bytes(), session_key, 'PS-Msg05'.encode(), bytes([0, 0, 0, 0]),
sub_tlv_b)
tmp = bytearray(encrypted_data_with_auth_tag[0])
tmp += encrypted_data_with_auth_tag[1]
response_tlv = [(TLV.kTLVType_State, TLV.M5),
(TLV.kTLVType_EncryptedData, tmp)]
body = TLV.encode_list(response_tlv)
connection.request('POST', '/pair-setup', body, headers)
resp = connection.getresponse()
response_tlv = TLV.decode_bytes(resp.read())
def get_session_keys(conn, pairing_data):
"""
HomeKit Controller side call to perform a pair verify operation as described in chapter 4.8 page 47 ff.
:param conn: the http_impl connection to the target accessory
:param pairing_data: the paring data as returned by perform_pair_setup
:return: tuple of the session keys (controller_to_accessory_key and accessory_to_controller_key)
:raises InvalidAuthTagError: if the auth tag could not be verified,
:raises IncorrectPairingIdError: if the accessory's LTPK could not be found
:raises InvalidSignatureError: if the accessory's signature could not be verified
:raises AuthenticationError: if the secured session could not be established
"""
headers = {'Content-Type': 'application/pairing+tlv8'}
#
# Step #1 ios --> accessory (send verify start Request) (page 47)
#
ios_key = py25519.Key25519()
request_tlv = TLV.encode_list([(TLV.kTLVType_State, TLV.M1),
(TLV.kTLVType_PublicKey, ios_key.pubkey)])
conn.request('POST', '/pair-verify', request_tlv, headers)
resp = conn.getresponse()
response_tlv = TLV.decode_bytes(resp.read())
#
# Step #3 ios --> accessory (send SRP verify request) (page 49)
#
response_tlv = TLV.reorder(response_tlv, [
TLV.kTLVType_State, TLV.kTLVType_PublicKey, TLV.kTLVType_EncryptedData
])
assert response_tlv[0][0] == TLV.kTLVType_State and response_tlv[0][
1] == TLV.M2, 'get_session_keys: not M2'
assert response_tlv[1][
0] == TLV.kTLVType_PublicKey, 'get_session_keys: no public key'
assert response_tlv[2][
0] == TLV.kTLVType_EncryptedData, 'get_session_keys: no encrypted data'
# 1) generate shared secret
accessorys_session_pub_key_bytes = response_tlv[1][1]
shared_secret = ios_key.get_ecdh_key(
py25519.Key25519(pubkey=bytes(accessorys_session_pub_key_bytes),
verifyingkey=bytes()))
# 2) derive session key
hkdf_inst = hkdf.Hkdf('Pair-Verify-Encrypt-Salt'.encode(),
shared_secret,
hash=hashlib.sha512)
session_key = hkdf_inst.expand('Pair-Verify-Encrypt-Info'.encode(), 32)
# 3) verify auth tag on encrypted data and 4) decrypt
encrypted = response_tlv[2][1]
decrypted = chacha20_aead_decrypt(bytes(),
session_key, 'PV-Msg02'.encode(),
bytes([0, 0, 0, 0]), encrypted)
if type(decrypted) == bool and not decrypted:
raise InvalidAuthTagError('step 3')
d1 = TLV.decode_bytes(decrypted)
d1 = TLV.reorder(d1, [TLV.kTLVType_Identifier, TLV.kTLVType_Signature])
assert d1[0][
0] == TLV.kTLVType_Identifier, 'get_session_keys: no identifier'
assert d1[1][0] == TLV.kTLVType_Signature, 'get_session_keys: no signature'
# 5) look up pairing by accessory name
accessory_name = d1[0][1].decode()
if pairing_data['AccessoryPairingID'] != accessory_name:
raise IncorrectPairingIdError('step 3')
accessory_ltpk = py25519.Key25519(pubkey=bytes(),
verifyingkey=bytes.fromhex(
pairing_data['AccessoryLTPK']))
# 6) verify accessory's signature
accessory_sig = d1[1][1]
accessory_session_pub_key_bytes = response_tlv[1][1]
accessory_info = accessory_session_pub_key_bytes + accessory_name.encode(
) + ios_key.pubkey
if not accessory_ltpk.verify(bytes(accessory_sig), bytes(accessory_info)):
raise InvalidSignatureError('step 3')
# 7) create iOSDeviceInfo
ios_device_info = ios_key.pubkey + pairing_data['iOSPairingId'].encode(
) + accessorys_session_pub_key_bytes
# 8) sign iOSDeviceInfo with long term secret key
ios_device_ltsk_h = pairing_data['iOSDeviceLTSK']
ios_device_ltsk = py25519.Key25519(
secretkey=bytes.fromhex(ios_device_ltsk_h))
ios_device_signature = ios_device_ltsk.sign(ios_device_info)
# 9) construct sub tlv
sub_tlv = TLV.encode_list([(TLV.kTLVType_Identifier,
pairing_data['iOSPairingId'].encode()),
(TLV.kTLVType_Signature, ios_device_signature)])
# 10) encrypt and sign
encrypted_data_with_auth_tag = chacha20_aead_encrypt(
bytes(), session_key, 'PV-Msg03'.encode(), bytes([0, 0, 0, 0]),
sub_tlv)
tmp = bytearray(encrypted_data_with_auth_tag[0])
tmp += encrypted_data_with_auth_tag[1]
# 11) create tlv
request_tlv = TLV.encode_list([(TLV.kTLVType_State, TLV.M3),
(TLV.kTLVType_EncryptedData, tmp)])
# 12) send to accessory
conn.request('POST', '/pair-verify', request_tlv, headers)
resp = conn.getresponse()
response_tlv = TLV.decode_bytes(resp.read())
#
# Post Step #4 verification (page 51)
#
response_tlv = TLV.reorder(response_tlv,
[TLV.kTLVType_State, TLV.kTLVType_Error])
assert response_tlv[0][0] == TLV.kTLVType_State and response_tlv[0][
1] == TLV.M4, 'get_session_keys: not M4'
if len(response_tlv) == 2 and response_tlv[1][0] == TLV.kTLVType_Error:
error_handler(response_tlv[1][1], 'verification')
# calculate session keys
hkdf_inst = hkdf.Hkdf('Control-Salt'.encode(),
shared_secret,
hash=hashlib.sha512)
controller_to_accessory_key = hkdf_inst.expand(
'Control-Write-Encryption-Key'.encode(), 32)
hkdf_inst = hkdf.Hkdf('Control-Salt'.encode(),
shared_secret,
hash=hashlib.sha512)
accessory_to_controller_key = hkdf_inst.expand(
'Control-Read-Encryption-Key'.encode(), 32)
return controller_to_accessory_key, accessory_to_controller_key