def input_script_multisig(
multisig: MultisigRedeemScriptType,
signature: bytes,
signature_index: int,
sighash: int,
):
signatures = multisig.signatures # other signatures
if len(signatures[signature_index]) > 0:
raise ScriptsError("Invalid multisig parameters")
signatures[signature_index] = signature # our signature
w = bytearray()
# Starts with OP_FALSE because of an old OP_CHECKMULTISIG bug, which
# consumes one additional item on the stack:
# https://bitcoin.org/en/developer-guide#standard-transactions
w.append(0x00)
for s in signatures:
if len(s):
append_signature(w, s, sighash)
# redeem script
pubkeys = multisig_get_pubkeys(multisig)
redeem_script = output_script_multisig(pubkeys, multisig.m)
write_op_push(w, len(redeem_script))
write_bytes(w, redeem_script)
return w
def multisig_fingerprint(multisig: MultisigRedeemScriptType) -> bytes:
pubkeys = multisig.pubkeys
m = multisig.m
n = len(pubkeys)
if n < 1 or n > 15 or m < 1 or m > 15:
raise MultisigError(FailureType.DataError,
"Invalid multisig parameters")
for hd in pubkeys:
d = hd.node
if len(d.public_key) != 33 or len(d.chain_code) != 32:
raise MultisigError(FailureType.DataError,
"Invalid multisig parameters")
# casting to bytes(), sorting on bytearray() is not supported in MicroPython
pubkeys = sorted(pubkeys, key=lambda hd: bytes(hd.node.public_key))
h = HashWriter(sha256)
write_uint32(h, m)
write_uint32(h, n)
for hd in pubkeys:
d = hd.node
write_uint32(h, d.depth)
write_uint32(h, d.fingerprint)
write_uint32(h, d.child_num)
write_bytes(h, d.chain_code)
write_bytes(h, d.public_key)
return h.get_digest()
def preimage_hash(self, coin: CoinInfo, tx: SignTx, txi: TxInputType,
pubkeyhash: bytes, sighash: int) -> bytes:
h_preimage = HashWriter(
blake2b, b'', 32,
b'ZcashSigHash\x19\x1b\xa8\x5b') # BRANCH_ID = 0x5ba81b19
assert tx.overwintered
write_uint32(h_preimage,
tx.version | OVERWINTERED) # 1. nVersion | fOverwintered
write_uint32(h_preimage, coin.version_group_id) # 2. nVersionGroupId
write_bytes(h_preimage,
bytearray(self.get_prevouts_hash())) # 3. hashPrevouts
write_bytes(h_preimage,
bytearray(self.get_sequence_hash())) # 4. hashSequence
write_bytes(h_preimage,
bytearray(self.get_outputs_hash())) # 5. hashOutputs
write_bytes(h_preimage, b'\x00' * 32) # 6. hashJoinSplits
write_uint32(h_preimage, tx.lock_time) # 7. nLockTime
write_uint32(h_preimage, tx.expiry) # 8. expiryHeight
write_uint32(h_preimage, sighash) # 9. nHashType
write_bytes_rev(h_preimage, txi.prev_hash) # 10a. outpoint
write_uint32(h_preimage, txi.prev_index)
script_code = self.derive_script_code(txi,
pubkeyhash) # 10b. scriptCode
write_varint(h_preimage, len(script_code))
write_bytes(h_preimage, script_code)
write_uint64(h_preimage, txi.amount) # 10c. value
write_uint32(h_preimage, txi.sequence) # 10d. nSequence
return get_tx_hash(h_preimage)
def witness_p2wsh(
multisig: MultisigRedeemScriptType,
signature: bytes,
signature_index: int,
sighash: int,
):
signatures = multisig.signatures # other signatures
if len(signatures[signature_index]) > 0:
raise ScriptsError("Invalid multisig parameters")
signatures[signature_index] = signature # our signature
# filter empty
signatures = [s for s in multisig.signatures if len(s) > 0]
# witness program + signatures + redeem script
num_of_witness_items = 1 + len(signatures) + 1
w = bytearray()
write_varint(w, num_of_witness_items)
write_varint(w, 0) # version 0 witness program
for s in signatures:
append_signature(w, s, sighash) # size of the witness included
# redeem script
pubkeys = multisig_get_pubkeys(multisig)
redeem_script = output_script_multisig(pubkeys, multisig.m)
write_varint(w, len(redeem_script))
write_bytes(w, redeem_script)
return w
def input_script_p2wpkh_in_p2sh(pubkeyhash: bytes) -> bytearray:
# 16 00 14 <pubkeyhash>
# Signature is moved to the witness.
w = empty_bytearray(3 + len(pubkeyhash))
w.append(0x16) # length of the data
w.append(0x00) # witness version byte
w.append(0x14) # P2WPKH witness program (pub key hash length)
write_bytes(w, pubkeyhash) # pub key hash
return w
def output_script_native_p2wpkh_or_p2wsh(witprog: bytes) -> bytearray:
# Either:
# 00 14 <20-byte-key-hash>
# 00 20 <32-byte-script-hash>
w = empty_bytearray(3 + len(witprog))
w.append(0x00) # witness version byte
w.append(len(witprog)) # pub key hash length is 20 (P2WPKH) or 32 (P2WSH) bytes
write_bytes(w, witprog) # pub key hash
return w
def input_script_p2wsh_in_p2sh(script_hash: bytes) -> bytearray:
# 22 00 20 <redeem script hash>
# Signature is moved to the witness.
if len(script_hash) != 32:
raise ScriptsError("Redeem script hash should be 32 bytes long")
w = empty_bytearray(3 + len(script_hash))
w.append(0x22) # length of the data
w.append(0x00) # witness version byte
w.append(0x20) # P2WSH witness program (redeem script hash length)
write_bytes(w, script_hash)
return w
def preimage_hash(
self,
coin: CoinInfo,
tx: SignTx,
txi: TxInputType,
pubkeyhash: bytes,
sighash: int,
) -> bytes:
h_preimage = HashWriter(sha256)
assert not tx.overwintered
write_uint32(h_preimage, tx.version) # nVersion
write_bytes(h_preimage,
bytearray(self.get_prevouts_hash(coin))) # hashPrevouts
write_bytes(h_preimage,
bytearray(self.get_sequence_hash(coin))) # hashSequence
write_bytes_rev(h_preimage, txi.prev_hash) # outpoint
write_uint32(h_preimage, txi.prev_index) # outpoint
script_code = self.derive_script_code(txi, pubkeyhash) # scriptCode
write_varint(h_preimage, len(script_code))
write_bytes(h_preimage, script_code)
write_uint64(h_preimage, txi.amount) # amount
write_uint32(h_preimage, txi.sequence) # nSequence
write_bytes(h_preimage,
bytearray(self.get_outputs_hash(coin))) # hashOutputs
write_uint32(h_preimage, tx.lock_time) # nLockTime
write_uint32(h_preimage, sighash) # nHashType
return get_tx_hash(h_preimage, double=coin.sign_hash_double)
def preimage_hash(
self,
coin: CoinInfo,
tx: SignTx,
txi: TxInputType,
pubkeyhash: bytes,
sighash: int,
) -> bytes:
h_preimage = HashWriter(
blake2b(
outlen=32, personal=b"ZcashSigHash" + struct.pack("<I", self.branch_id)
)
)
ensure(tx.overwintered)
ensure(tx.version == 3)
write_uint32(
h_preimage, tx.version | OVERWINTERED
) # 1. nVersion | fOverwintered
write_uint32(h_preimage, tx.version_group_id) # 2. nVersionGroupId
write_bytes(h_preimage, bytearray(self.get_prevouts_hash())) # 3. hashPrevouts
write_bytes(h_preimage, bytearray(self.get_sequence_hash())) # 4. hashSequence
write_bytes(h_preimage, bytearray(self.get_outputs_hash())) # 5. hashOutputs
write_bytes(h_preimage, b"\x00" * 32) # 6. hashJoinSplits
write_uint32(h_preimage, tx.lock_time) # 7. nLockTime
write_uint32(h_preimage, tx.expiry) # 8. expiryHeight
write_uint32(h_preimage, sighash) # 9. nHashType
write_bytes_reversed(h_preimage, txi.prev_hash) # 10a. outpoint
write_uint32(h_preimage, txi.prev_index)
script_code = derive_script_code(txi, pubkeyhash) # 10b. scriptCode
write_varint(h_preimage, len(script_code))
write_bytes(h_preimage, script_code)
write_uint64(h_preimage, txi.amount) # 10c. value
write_uint32(h_preimage, txi.sequence) # 10d. nSequence
return get_tx_hash(h_preimage)
def append_pubkey(w: bytearray, pubkey: bytes) -> bytearray:
write_op_push(w, len(pubkey))
write_bytes(w, pubkey)
return w
def append_signature(w: bytearray, signature: bytes,
sighash: int) -> bytearray:
write_op_push(w, len(signature) + 1)
write_bytes(w, signature)
w.append(sighash)
return w
def preimage_hash(
self,
coin: CoinInfo,
tx: SignTx,
txi: TxInputType,
pubkeyhash: bytes,
sighash: int,
) -> bytes:
h_preimage = HashWriter(
blake2b(outlen=32, personal=b"ZcashSigHash\xbb\x09\xb8\x76")
) # BRANCH_ID = 0x76b809bb / Sapling
ensure(tx.overwintered)
ensure(tx.version == 4)
write_uint32(h_preimage,
tx.version | OVERWINTERED) # 1. nVersion | fOverwintered
write_uint32(h_preimage, tx.version_group_id) # 2. nVersionGroupId
write_bytes(h_preimage,
bytearray(self.get_prevouts_hash())) # 3. hashPrevouts
write_bytes(h_preimage,
bytearray(self.get_sequence_hash())) # 4. hashSequence
write_bytes(h_preimage,
bytearray(self.get_outputs_hash())) # 5. hashOutputs
write_bytes(h_preimage, b"\x00" * 32) # 6. hashJoinSplits
write_bytes(h_preimage, b"\x00" * 32) # 7. hashShieldedSpends
write_bytes(h_preimage, b"\x00" * 32) # 8. hashShieldedOutputs
write_uint32(h_preimage,
tx.lock_time - self.hash_lock_offset) # 9. nLockTime
write_uint32(h_preimage, tx.expiry) # 10. expiryHeight
write_uint64(h_preimage, 0) # 11. valueBalance
write_uint32(h_preimage, sighash) # 12. nHashType
write_bytes_reversed(h_preimage, txi.prev_hash) # 13a. outpoint
write_uint32(h_preimage, txi.prev_index)
script_code = derive_script_code(txi, pubkeyhash) # 13b. scriptCode
write_varint(h_preimage, len(script_code))
write_bytes(h_preimage, script_code)
write_uint64(h_preimage, txi.amount) # 13c. value
write_uint32(h_preimage, txi.sequence) # 13d. nSequence
return get_tx_hash(h_preimage)
async def get_prevtx_output_value(coin: coininfo.CoinInfo, tx_req: TxRequest,
prev_hash: bytes, prev_index: int) -> int:
total_out = 0 # sum of output amounts
# STAGE_REQUEST_2_PREV_META
tx = await helpers.request_tx_meta(tx_req, prev_hash)
if coin.decred:
txh = utils.HashWriter(blake256())
else:
txh = utils.HashWriter(sha256())
if tx.overwintered:
writers.write_uint32(txh, tx.version
| zcash.OVERWINTERED) # nVersion | fOverwintered
writers.write_uint32(txh, tx.version_group_id) # nVersionGroupId
elif coin.decred:
writers.write_uint32(txh,
tx.version | decred.DECRED_SERIALIZE_NO_WITNESS)
else:
writers.write_uint32(txh, tx.version) # nVersion
if tx.timestamp:
writers.write_uint32(txh, tx.timestamp)
writers.write_varint(txh, tx.inputs_cnt)
for i in range(tx.inputs_cnt):
# STAGE_REQUEST_2_PREV_INPUT
txi = await helpers.request_tx_input(tx_req, i, prev_hash)
if coin.decred:
writers.write_tx_input_decred(txh, txi)
else:
writers.write_tx_input(txh, txi)
writers.write_varint(txh, tx.outputs_cnt)
for o in range(tx.outputs_cnt):
# STAGE_REQUEST_2_PREV_OUTPUT
txo_bin = await helpers.request_tx_output(tx_req, o, prev_hash)
writers.write_tx_output(txh, txo_bin)
if o == prev_index:
total_out += txo_bin.amount
if (coin.decred and txo_bin.decred_script_version is not None
and txo_bin.decred_script_version != 0):
raise SigningError(
FailureType.ProcessError,
"Cannot use utxo that has script_version != 0",
)
writers.write_uint32(txh, tx.lock_time)
if tx.overwintered or coin.decred:
writers.write_uint32(txh, tx.expiry)
ofs = 0
while ofs < tx.extra_data_len:
size = min(1024, tx.extra_data_len - ofs)
data = await helpers.request_tx_extra_data(tx_req, ofs, size,
prev_hash)
writers.write_bytes(txh, data)
ofs += len(data)
if (writers.get_tx_hash(txh, double=coin.sign_hash_double, reverse=True) !=
prev_hash):
raise SigningError(FailureType.ProcessError,
"Encountered invalid prev_hash")
return total_out
async def check_tx_fee(tx: SignTx, keychain: seed.Keychain):
coin = coins.by_name(tx.coin_name)
# h_first is used to make sure the inputs and outputs streamed in Phase 1
# are the same as in Phase 2. it is thus not required to fully hash the
# tx, as the SignTx info is streamed only once
h_first = utils.HashWriter(sha256()) # not a real tx hash
if coin.decred:
hash143 = decred.DecredPrefixHasher(
tx) # pseudo BIP-0143 prefix hashing
tx_ser = TxRequestSerializedType()
elif tx.overwintered:
if tx.version == 3:
hash143 = zcash.Zip143() # ZIP-0143 transaction hashing
elif tx.version == 4:
hash143 = zcash.Zip243() # ZIP-0243 transaction hashing
else:
raise SigningError(
FailureType.DataError,
"Unsupported version for overwintered transaction",
)
else:
hash143 = segwit_bip143.Bip143() # BIP-0143 transaction hashing
multifp = multisig.MultisigFingerprint(
) # control checksum of multisig inputs
weight = tx_weight.TxWeightCalculator(tx.inputs_count, tx.outputs_count)
total_in = 0 # sum of input amounts
segwit_in = 0 # sum of segwit input amounts
total_out = 0 # sum of output amounts
change_out = 0 # change output amount
wallet_path = [] # common prefix of input paths
segwit = {} # dict of booleans stating if input is segwit
# output structures
txo_bin = TxOutputBinType()
tx_req = TxRequest()
tx_req.details = TxRequestDetailsType()
for i in range(tx.inputs_count):
progress.advance()
# STAGE_REQUEST_1_INPUT
txi = await helpers.request_tx_input(tx_req, i)
wallet_path = input_extract_wallet_path(txi, wallet_path)
writers.write_tx_input_check(h_first, txi)
weight.add_input(txi)
hash143.add_prevouts(
txi) # all inputs are included (non-segwit as well)
hash143.add_sequence(txi)
if not addresses.validate_full_path(txi.address_n, coin,
txi.script_type):
await helpers.confirm_foreign_address(txi.address_n)
if txi.multisig:
multifp.add(txi.multisig)
if txi.script_type in (
InputScriptType.SPENDWITNESS,
InputScriptType.SPENDP2SHWITNESS,
):
if not coin.segwit:
raise SigningError(FailureType.DataError,
"Segwit not enabled on this coin")
if not txi.amount:
raise SigningError(FailureType.DataError,
"Segwit input without amount")
segwit[i] = True
segwit_in += txi.amount
total_in += txi.amount
elif txi.script_type in (
InputScriptType.SPENDADDRESS,
InputScriptType.SPENDMULTISIG,
):
if coin.force_bip143 or tx.overwintered:
if not txi.amount:
raise SigningError(FailureType.DataError,
"Expected input with amount")
segwit[i] = False
segwit_in += txi.amount
total_in += txi.amount
else:
segwit[i] = False
total_in += await get_prevtx_output_value(
coin, tx_req, txi.prev_hash, txi.prev_index)
else:
raise SigningError(FailureType.DataError,
"Wrong input script type")
if coin.decred:
w_txi = writers.empty_bytearray(8 if i == 0 else 0 + 9 +
len(txi.prev_hash))
if i == 0: # serializing first input => prepend headers
writers.write_bytes(w_txi, get_tx_header(coin, tx))
writers.write_tx_input_decred(w_txi, txi)
tx_ser.serialized_tx = w_txi
tx_req.serialized = tx_ser
if coin.decred:
hash143.add_output_count(tx)
for o in range(tx.outputs_count):
# STAGE_REQUEST_3_OUTPUT
txo = await helpers.request_tx_output(tx_req, o)
txo_bin.amount = txo.amount
txo_bin.script_pubkey = output_derive_script(txo, coin, keychain)
weight.add_output(txo_bin.script_pubkey)
if change_out == 0 and output_is_change(txo, wallet_path, segwit_in,
multifp):
# output is change and does not need confirmation
change_out = txo.amount
elif not await helpers.confirm_output(txo, coin):
raise SigningError(FailureType.ActionCancelled, "Output cancelled")
if coin.decred:
if txo.decred_script_version is not None and txo.decred_script_version != 0:
raise SigningError(
FailureType.ActionCancelled,
"Cannot send to output with script version != 0",
)
txo_bin.decred_script_version = txo.decred_script_version
w_txo_bin = writers.empty_bytearray(4 + 8 + 2 + 4 +
len(txo_bin.script_pubkey))
if o == 0: # serializing first output => prepend outputs count
writers.write_varint(w_txo_bin, tx.outputs_count)
writers.write_tx_output(w_txo_bin, txo_bin)
tx_ser.serialized_tx = w_txo_bin
tx_req.serialized = tx_ser
hash143.set_last_output_bytes(w_txo_bin)
writers.write_tx_output(h_first, txo_bin)
hash143.add_output(txo_bin)
total_out += txo_bin.amount
fee = total_in - total_out
if fee < 0:
raise SigningError(FailureType.NotEnoughFunds, "Not enough funds")
# fee > (coin.maxfee per byte * tx size)
if fee > (coin.maxfee_kb / 1000) * (weight.get_total() / 4):
if not await helpers.confirm_feeoverthreshold(fee, coin):
raise SigningError(FailureType.ActionCancelled,
"Signing cancelled")
if not await helpers.confirm_total(total_in - change_out, fee, coin):
raise SigningError(FailureType.ActionCancelled, "Total cancelled")
if coin.decred:
hash143.add_locktime_expiry(tx)
return h_first, hash143, segwit, total_in, wallet_path
async def sign_tx(tx: SignTx, keychain: seed.Keychain):
tx = helpers.sanitize_sign_tx(tx)
progress.init(tx.inputs_count, tx.outputs_count)
# Phase 1
h_first, hash143, segwit, authorized_in, wallet_path = await check_tx_fee(
tx, keychain)
# Phase 2
# - sign inputs
# - check that nothing changed
coin = coins.by_name(tx.coin_name)
tx_ser = TxRequestSerializedType()
txo_bin = TxOutputBinType()
tx_req = TxRequest()
tx_req.details = TxRequestDetailsType()
tx_req.serialized = None
if coin.decred:
prefix_hash = hash143.prefix_hash()
for i_sign in range(tx.inputs_count):
progress.advance()
txi_sign = None
key_sign = None
key_sign_pub = None
if segwit[i_sign]:
# STAGE_REQUEST_SEGWIT_INPUT
txi_sign = await helpers.request_tx_input(tx_req, i_sign)
if not input_is_segwit(txi_sign):
raise SigningError(FailureType.ProcessError,
"Transaction has changed during signing")
input_check_wallet_path(txi_sign, wallet_path)
key_sign = keychain.derive(txi_sign.address_n, coin.curve_name)
key_sign_pub = key_sign.public_key()
txi_sign.script_sig = input_derive_script(coin, txi_sign,
key_sign_pub)
w_txi = writers.empty_bytearray(7 + len(txi_sign.prev_hash) + 4 +
len(txi_sign.script_sig) + 4)
if i_sign == 0: # serializing first input => prepend headers
writers.write_bytes(w_txi, get_tx_header(coin, tx, True))
writers.write_tx_input(w_txi, txi_sign)
tx_ser.serialized_tx = w_txi
tx_req.serialized = tx_ser
elif coin.force_bip143 or tx.overwintered:
# STAGE_REQUEST_SEGWIT_INPUT
txi_sign = await helpers.request_tx_input(tx_req, i_sign)
input_check_wallet_path(txi_sign, wallet_path)
is_bip143 = (txi_sign.script_type == InputScriptType.SPENDADDRESS
or txi_sign.script_type
== InputScriptType.SPENDMULTISIG)
if not is_bip143 or txi_sign.amount > authorized_in:
raise SigningError(FailureType.ProcessError,
"Transaction has changed during signing")
authorized_in -= txi_sign.amount
key_sign = keychain.derive(txi_sign.address_n, coin.curve_name)
key_sign_pub = key_sign.public_key()
hash143_hash = hash143.preimage_hash(
coin,
tx,
txi_sign,
addresses.ecdsa_hash_pubkey(key_sign_pub, coin),
get_hash_type(coin),
)
# if multisig, check if signing with a key that is included in multisig
if txi_sign.multisig:
multisig.multisig_pubkey_index(txi_sign.multisig, key_sign_pub)
signature = ecdsa_sign(key_sign, hash143_hash)
tx_ser.signature_index = i_sign
tx_ser.signature = signature
# serialize input with correct signature
txi_sign.script_sig = input_derive_script(coin, txi_sign,
key_sign_pub, signature)
w_txi_sign = writers.empty_bytearray(5 + len(txi_sign.prev_hash) +
4 + len(txi_sign.script_sig) +
4)
if i_sign == 0: # serializing first input => prepend headers
writers.write_bytes(w_txi_sign, get_tx_header(coin, tx))
writers.write_tx_input(w_txi_sign, txi_sign)
tx_ser.serialized_tx = w_txi_sign
tx_req.serialized = tx_ser
elif coin.decred:
txi_sign = await helpers.request_tx_input(tx_req, i_sign)
input_check_wallet_path(txi_sign, wallet_path)
key_sign = keychain.derive(txi_sign.address_n, coin.curve_name)
key_sign_pub = key_sign.public_key()
if txi_sign.script_type == InputScriptType.SPENDMULTISIG:
prev_pkscript = scripts.output_script_multisig(
multisig.multisig_get_pubkeys(txi_sign.multisig),
txi_sign.multisig.m,
)
elif txi_sign.script_type == InputScriptType.SPENDADDRESS:
prev_pkscript = scripts.output_script_p2pkh(
addresses.ecdsa_hash_pubkey(key_sign_pub, coin))
else:
raise ValueError("Unknown input script type")
h_witness = utils.HashWriter(blake256())
writers.write_uint32(
h_witness,
tx.version | decred.DECRED_SERIALIZE_WITNESS_SIGNING)
writers.write_varint(h_witness, tx.inputs_count)
for ii in range(tx.inputs_count):
if ii == i_sign:
writers.write_varint(h_witness, len(prev_pkscript))
writers.write_bytes(h_witness, prev_pkscript)
else:
writers.write_varint(h_witness, 0)
witness_hash = writers.get_tx_hash(h_witness,
double=coin.sign_hash_double,
reverse=False)
h_sign = utils.HashWriter(blake256())
writers.write_uint32(h_sign, decred.DECRED_SIGHASHALL)
writers.write_bytes(h_sign, prefix_hash)
writers.write_bytes(h_sign, witness_hash)
sig_hash = writers.get_tx_hash(h_sign,
double=coin.sign_hash_double)
signature = ecdsa_sign(key_sign, sig_hash)
tx_ser.signature_index = i_sign
tx_ser.signature = signature
# serialize input with correct signature
txi_sign.script_sig = input_derive_script(coin, txi_sign,
key_sign_pub, signature)
w_txi_sign = writers.empty_bytearray(
8 + 4 +
len(hash143.get_last_output_bytes()) if i_sign == 0 else 0 +
16 + 4 + len(txi_sign.script_sig))
if i_sign == 0:
writers.write_bytes(w_txi_sign,
hash143.get_last_output_bytes())
writers.write_uint32(w_txi_sign, tx.lock_time)
writers.write_uint32(w_txi_sign, tx.expiry)
writers.write_varint(w_txi_sign, tx.inputs_count)
writers.write_tx_input_decred_witness(w_txi_sign, txi_sign)
tx_ser.serialized_tx = w_txi_sign
tx_req.serialized = tx_ser
else:
# hash of what we are signing with this input
h_sign = utils.HashWriter(sha256())
# same as h_first, checked before signing the digest
h_second = utils.HashWriter(sha256())
if tx.overwintered:
writers.write_uint32(
h_sign, tx.version
| zcash.OVERWINTERED) # nVersion | fOverwintered
writers.write_uint32(h_sign,
tx.version_group_id) # nVersionGroupId
else:
writers.write_uint32(h_sign, tx.version) # nVersion
if tx.timestamp:
writers.write_uint32(h_sign, tx.timestamp)
writers.write_varint(h_sign, tx.inputs_count)
for i in range(tx.inputs_count):
# STAGE_REQUEST_4_INPUT
txi = await helpers.request_tx_input(tx_req, i)
input_check_wallet_path(txi, wallet_path)
writers.write_tx_input_check(h_second, txi)
if i == i_sign:
txi_sign = txi
key_sign = keychain.derive(txi.address_n, coin.curve_name)
key_sign_pub = key_sign.public_key()
# for the signing process the script_sig is equal
# to the previous tx's scriptPubKey (P2PKH) or a redeem script (P2SH)
if txi_sign.script_type == InputScriptType.SPENDMULTISIG:
txi_sign.script_sig = scripts.output_script_multisig(
multisig.multisig_get_pubkeys(txi_sign.multisig),
txi_sign.multisig.m,
)
elif txi_sign.script_type == InputScriptType.SPENDADDRESS:
txi_sign.script_sig = scripts.output_script_p2pkh(
addresses.ecdsa_hash_pubkey(key_sign_pub, coin))
if coin.bip115:
txi_sign.script_sig += scripts.script_replay_protection_bip115(
txi_sign.prev_block_hash_bip115,
txi_sign.prev_block_height_bip115,
)
else:
raise SigningError(FailureType.ProcessError,
"Unknown transaction type")
else:
txi.script_sig = bytes()
writers.write_tx_input(h_sign, txi)
writers.write_varint(h_sign, tx.outputs_count)
for o in range(tx.outputs_count):
# STAGE_REQUEST_4_OUTPUT
txo = await helpers.request_tx_output(tx_req, o)
txo_bin.amount = txo.amount
txo_bin.script_pubkey = output_derive_script(
txo, coin, keychain)
writers.write_tx_output(h_second, txo_bin)
writers.write_tx_output(h_sign, txo_bin)
writers.write_uint32(h_sign, tx.lock_time)
if tx.overwintered:
writers.write_uint32(h_sign, tx.expiry) # expiryHeight
writers.write_varint(h_sign, 0) # nJoinSplit
writers.write_uint32(h_sign, get_hash_type(coin))
# check the control digests
if writers.get_tx_hash(h_first,
False) != writers.get_tx_hash(h_second):
raise SigningError(FailureType.ProcessError,
"Transaction has changed during signing")
# if multisig, check if signing with a key that is included in multisig
if txi_sign.multisig:
multisig.multisig_pubkey_index(txi_sign.multisig, key_sign_pub)
# compute the signature from the tx digest
signature = ecdsa_sign(
key_sign,
writers.get_tx_hash(h_sign, double=coin.sign_hash_double))
tx_ser.signature_index = i_sign
tx_ser.signature = signature
# serialize input with correct signature
txi_sign.script_sig = input_derive_script(coin, txi_sign,
key_sign_pub, signature)
w_txi_sign = writers.empty_bytearray(5 + len(txi_sign.prev_hash) +
4 + len(txi_sign.script_sig) +
4)
if i_sign == 0: # serializing first input => prepend headers
writers.write_bytes(w_txi_sign, get_tx_header(coin, tx))
writers.write_tx_input(w_txi_sign, txi_sign)
tx_ser.serialized_tx = w_txi_sign
tx_req.serialized = tx_ser
if coin.decred:
return await helpers.request_tx_finish(tx_req)
for o in range(tx.outputs_count):
progress.advance()
# STAGE_REQUEST_5_OUTPUT
txo = await helpers.request_tx_output(tx_req, o)
txo_bin.amount = txo.amount
txo_bin.script_pubkey = output_derive_script(txo, coin, keychain)
# serialize output
w_txo_bin = writers.empty_bytearray(5 + 8 + 5 +
len(txo_bin.script_pubkey) + 4)
if o == 0: # serializing first output => prepend outputs count
writers.write_varint(w_txo_bin, tx.outputs_count)
writers.write_tx_output(w_txo_bin, txo_bin)
tx_ser.signature_index = None
tx_ser.signature = None
tx_ser.serialized_tx = w_txo_bin
tx_req.serialized = tx_ser
any_segwit = True in segwit.values()
for i in range(tx.inputs_count):
progress.advance()
if segwit[i]:
# STAGE_REQUEST_SEGWIT_WITNESS
txi = await helpers.request_tx_input(tx_req, i)
input_check_wallet_path(txi, wallet_path)
if not input_is_segwit(txi) or txi.amount > authorized_in:
raise SigningError(FailureType.ProcessError,
"Transaction has changed during signing")
authorized_in -= txi.amount
key_sign = keychain.derive(txi.address_n, coin.curve_name)
key_sign_pub = key_sign.public_key()
hash143_hash = hash143.preimage_hash(
coin,
tx,
txi,
addresses.ecdsa_hash_pubkey(key_sign_pub, coin),
get_hash_type(coin),
)
signature = ecdsa_sign(key_sign, hash143_hash)
if txi.multisig:
# find out place of our signature based on the pubkey
signature_index = multisig.multisig_pubkey_index(
txi.multisig, key_sign_pub)
witness = scripts.witness_p2wsh(txi.multisig, signature,
signature_index,
get_hash_type(coin))
else:
witness = scripts.witness_p2wpkh(signature, key_sign_pub,
get_hash_type(coin))
tx_ser.serialized_tx = witness
tx_ser.signature_index = i
tx_ser.signature = signature
elif any_segwit:
tx_ser.serialized_tx = bytearray(
1) # empty witness for non-segwit inputs
tx_ser.signature_index = None
tx_ser.signature = None
tx_req.serialized = tx_ser
writers.write_uint32(tx_ser.serialized_tx, tx.lock_time)
if tx.overwintered:
if tx.version == 3:
writers.write_uint32(tx_ser.serialized_tx,
tx.expiry) # expiryHeight
writers.write_varint(tx_ser.serialized_tx, 0) # nJoinSplit
elif tx.version == 4:
writers.write_uint32(tx_ser.serialized_tx,
tx.expiry) # expiryHeight
writers.write_uint64(tx_ser.serialized_tx, 0) # valueBalance
writers.write_varint(tx_ser.serialized_tx, 0) # nShieldedSpend
writers.write_varint(tx_ser.serialized_tx, 0) # nShieldedOutput
writers.write_varint(tx_ser.serialized_tx, 0) # nJoinSplit
else:
raise SigningError(
FailureType.DataError,
"Unsupported version for overwintered transaction",
)
await helpers.request_tx_finish(tx_req)