def start_show_p2sh_address(M, N, addr_format, xfp_paths, witdeem_script):
# Show P2SH address to user, also returns it.
# - first need to find appropriate multisig wallet associated
# - they must provide full redeem script, and we will re-verify it and check pubkeys inside it
import ustruct
from multisig import MultisigWallet, MultisigOutOfSpace
try:
assert addr_format in SUPPORTED_ADDR_FORMATS
assert addr_format & AFC_SCRIPT
except:
raise AssertionError('Unknown/unsupported addr format')
# Search for matching multisig wallet that we must already know about
xfps = [i[0] for i in xfp_paths]
idx = MultisigWallet.find_match(M, N, xfps)
assert idx >= 0, 'Multisig wallet with those fingerprints not found'
ms = MultisigWallet.get_by_idx(idx)
assert ms
assert ms.M == M
assert ms.N == N
global active_request
UserAuthorizedAction.check_busy(ShowAddressBase)
active_request = ShowP2SHAddress(ms, addr_format, xfp_paths, witdeem_script)
# kill any menu stack, and put our thing at the top
abort_and_goto(active_request)
# provide the value back to attached desktop
return active_request.address
def maybe_enroll_xpub(sf_len=None, config=None, name=None, ux_reset=False):
# Offer to import (enroll) a new multisig wallet. Allow reject by user.
global active_request
from multisig import MultisigWallet
UserAuthorizedAction.cleanup()
if sf_len:
with SFFile(TXN_INPUT_OFFSET, length=sf_len) as fd:
config = fd.read(sf_len).decode()
# this call will raise on parsing errors, so let them rise up
# and be shown on screen/over usb
ms = MultisigWallet.from_file(config, name=name)
active_request = NewEnrollRequest(ms)
if ux_reset:
# for USB case, and import from PSBT
# kill any menu stack, and put our thing at the top
abort_and_goto(active_request)
else:
# menu item case: add to stack
from ux import the_ux
the_ux.push(active_request)
def hsm_status_report():
# Return a JSON-able object. Documented and external programs
# rely on this output... and yet, don't overshare either.
from auth import UserAuthorizedAction
from main import hsm_active, settings
from hsm_ux import ApproveHSMPolicy
rv = dict()
rv['active'] = bool(hsm_active)
if not hsm_active:
rv['policy_available'] = hsm_policy_available()
ar = UserAuthorizedAction.active_request
if ar and isinstance(ar, ApproveHSMPolicy):
# we are waiting for local user to approve entry into HSM mode
rv['approval_wait'] = True
rv['users'] = Users.list()
rv['wallets'] = [ms.name for ms in MultisigWallet.get_all()]
rv['chain'] = settings.get('chain', 'BTC')
if hsm_active:
hsm_active.status_report(rv)
return rv
def __init__(self, j, idx):
# read json dict provided
self.spent_so_far = 0 # for velocity
def check_user(u):
if not Users.valid_username(u):
raise ValueError("Unknown user: %s" % u)
return u
self.index = idx + 1
self.per_period = pop_int(j, 'per_period', 0, MAX_SATS)
self.max_amount = pop_int(j, 'max_amount', 0, MAX_SATS)
self.users = pop_list(j, 'users', check_user)
self.whitelist = pop_list(j, 'whitelist', cleanup_whitelist_value)
self.min_users = pop_int(j, 'min_users', 1, len(self.users))
self.local_conf = pop_bool(j, 'local_conf')
self.wallet = pop_string(j, 'wallet', 1, 20)
assert sorted(set(self.users)) == sorted(self.users), 'dup users'
# usernames need to be correct and already known
if self.min_users is None:
self.min_users = len(self.users) if self.users else None
else:
# redundant w/ code in pop_int() above
assert 1 <= self.min_users <= len(self.users), "range"
# if specified, 'wallet' must be an existing multisig wallet's name
if self.wallet and self.wallet != '1':
names = [ms.name for ms in MultisigWallet.get_all()]
assert self.wallet in names, "unknown MS wallet: " + self.wallet
assert_empty_dict(j)
async def render(self):
# Choose from a truncated list of index 0 common addresses, remember
# the last address the user selected and use it as the default
from glob import dis
chain = chains.current_chain()
dis.fullscreen('Wait...')
with stash.SensitiveValues() as sv:
# Create list of choices (address_index_0, path, addr_fmt)
choices = []
for name, path, addr_fmt in chains.CommonDerivations:
if '{coin_type}' in path:
path = path.replace('{coin_type}', str(chain.b44_cointype))
if self.account_num != 0 and '{account}' not in path:
# skip derivations that are not affected by account number
continue
deriv = path.format(account=self.account_num, change=0, idx=0)
node = sv.derive_path(deriv, register=False)
address = chain.address(node, addr_fmt)
choices.append( (truncate_address(address), path, addr_fmt) )
dis.progress_bar_show(len(choices) / len(chains.CommonDerivations))
stash.blank_object(node)
items = [MenuItem(address, f=self.pick_single, arg=(path, addr_fmt))
for i, (address, path, addr_fmt) in enumerate(choices)]
# some other choices
if self.account_num == 0:
items.append(MenuItem("Account Number", f=self.change_account))
items.append(MenuItem("Custom Path", menu=self.make_custom))
# if they have MS wallets, add those next
for ms in MultisigWallet.iter_wallets():
if not ms.addr_fmt: continue
items.append(MenuItem(ms.name, f=self.pick_multisig, arg=ms))
else:
items.append(MenuItem("Account: %d" % self.account_num, f=self.change_account))
self.goto_idx(settings.get('axi', 0)) # weak
self.replace_items(items)
def generate_public_contents():
# Generate public details about wallet.
#
# simple text format:
# key = value
# or #comments
# but value is JSON
from main import settings
from public_constants import AF_CLASSIC
num_rx = 5
chain = chains.current_chain()
with stash.SensitiveValues() as sv:
yield ('''\
# Coldcard Wallet Summary File
## For wallet with master key fingerprint: {xfp}
Wallet operates on blockchain: {nb}
For BIP44, this is coin_type '{ct}', and internally we use
symbol {sym} for this blockchain.
## IMPORTANT WARNING
Do **not** deposit to any address in this file unless you have a working
wallet system that is ready to handle the funds at that address!
## Top-level, 'master' extended public key ('m/'):
{xpub}
What follows are derived public keys and payment addresses, as may
be needed for different systems.
'''.format(nb=chain.name,
xpub=chain.serialize_public(sv.node),
sym=chain.ctype,
ct=chain.b44_cointype,
xfp=xfp2str(sv.node.my_fingerprint())))
for name, path, addr_fmt in chains.CommonDerivations:
if '{coin_type}' in path:
path = path.replace('{coin_type}', str(chain.b44_cointype))
if '{' in name:
name = name.format(core_name=chain.core_name)
show_slip132 = ('Core' not in name)
yield ('''## For {name}: {path}\n\n'''.format(name=name,
path=path))
yield (
'''First %d receive addresses (account=0, change=0):\n\n''' %
num_rx)
submaster = None
for i in range(num_rx):
subpath = path.format(account=0, change=0, idx=i)
# find the prefix of the path that is hardneded
if "'" in subpath:
hard_sub = subpath.rsplit("'", 1)[0] + "'"
else:
hard_sub = 'm'
if hard_sub != submaster:
# dump the xpub needed
if submaster:
yield "\n"
node = sv.derive_path(hard_sub, register=False)
yield ("%s => %s\n" %
(hard_sub, chain.serialize_public(node)))
if show_slip132 and addr_fmt != AF_CLASSIC and (
addr_fmt in chain.slip132):
yield (
"%s => %s ##SLIP-132##\n" %
(hard_sub, chain.serialize_public(node, addr_fmt)))
submaster = hard_sub
node.blank()
del node
# show the payment address
node = sv.derive_path(subpath, register=False)
yield ('%s => %s\n' % (subpath, chain.address(node, addr_fmt)))
node.blank()
del node
yield ('\n\n')
from multisig import MultisigWallet
if MultisigWallet.exists():
yield '\n# Your Multisig Wallets\n\n'
from uio import StringIO
for ms in MultisigWallet.get_all():
fp = StringIO()
ms.render_export(fp)
print("\n---\n", file=fp)
yield fp.getvalue()
del fp
async def handle(self, cmd, args):
# Dispatch incoming message, and provide reply.
from main import hsm_active, is_devmode
try:
cmd = bytes(cmd).decode()
except:
raise FramingError('decode')
if cmd[0].isupper() and (is_simulator() or is_devmode):
# special hacky commands to support testing w/ the simulator
try:
from usb_test_commands import do_usb_command
return do_usb_command(cmd, args)
except:
raise
pass
if hsm_active:
# only a few commands are allowed during HSM mode
if cmd not in HSM_WHITELIST:
raise HSMDenied
if cmd == 'dfu_':
# only useful in factory, undocumented.
return self.call_after(callgate.enter_dfu)
if cmd == 'rebo':
import machine
return self.call_after(machine.reset)
if cmd == 'logo':
from utils import clean_shutdown
return self.call_after(clean_shutdown)
if cmd == 'ping':
return b'biny' + args
if cmd == 'upld':
offset, total_size = unpack_from('<II', args)
data = memoryview(args)[4 + 4:]
return await self.handle_upload(offset, total_size, data)
if cmd == 'dwld':
offset, length, fileno = unpack_from('<III', args)
return await self.handle_download(offset, length, fileno)
if cmd == 'ncry':
version, his_pubkey = unpack_from('<I64s', args)
return self.handle_crypto_setup(version, his_pubkey)
if cmd == 'vers':
from version import get_mpy_version, hw_label
from callgate import get_bl_version
# Returning: date, version(human), bootloader version, full date version
# BUT: be ready for additions!
rv = list(get_mpy_version())
rv.insert(2, get_bl_version()[0])
rv.append(hw_label)
return b'asci' + ('\n'.join(rv)).encode()
if cmd == 'sha2':
return b'biny' + self.file_checksum.digest()
if cmd == 'xpub':
assert self.encrypted_req, 'must encrypt'
return self.handle_xpub(args)
if cmd == 'mitm':
assert self.encrypted_req, 'must encrypt'
return await self.handle_mitm_check()
if cmd == 'smsg':
# sign message
addr_fmt, len_subpath, len_msg = unpack_from('<III', args)
subpath = args[12:12 + len_subpath]
msg = args[12 + len_subpath:]
assert len(msg) == len_msg, "badlen"
from auth import sign_msg
sign_msg(msg, subpath, addr_fmt)
return None
if cmd == 'p2sh':
# show P2SH (probably multisig) address on screen (also provides it back)
# - must provide redeem script, and list of [xfp+path]
from auth import start_show_p2sh_address
if hsm_active and not hsm_active.approve_address_share(
is_p2sh=True):
raise HSMDenied
# new multsig goodness, needs mapping from xfp->path and M values
addr_fmt, M, N, script_len = unpack_from('<IBBH', args)
assert addr_fmt & AFC_SCRIPT
assert 1 <= M <= N <= 20
assert 30 <= script_len <= 520
offset = 8
witdeem_script = args[offset:offset + script_len]
offset += script_len
assert len(witdeem_script) == script_len
xfp_paths = []
for i in range(N):
ln = args[offset]
assert 1 <= ln <= 16, 'badlen'
xfp_paths.append(unpack_from('<%dI' % ln, args, offset + 1))
offset += (ln * 4) + 1
assert offset == len(args)
return b'asci' + start_show_p2sh_address(M, N, addr_fmt, xfp_paths,
witdeem_script)
if cmd == 'show':
# simple cases, older code: text subpath
from auth import start_show_address
addr_fmt, = unpack_from('<I', args)
assert not (addr_fmt & AFC_SCRIPT)
return b'asci' + start_show_address(addr_fmt, subpath=args[4:])
if cmd == 'enrl':
# Enroll new xpubkey to be involved in multisigs.
# - text config file must already be uploaded
file_len, file_sha = unpack_from('<I32s', args)
if file_sha != self.file_checksum.digest():
return b'err_Checksum'
assert 100 < file_len <= (20 * 200), "badlen"
# Start an UX interaction, return immediately here
from auth import maybe_enroll_xpub
maybe_enroll_xpub(sf_len=file_len, ux_reset=True)
return None
if cmd == 'msck':
# Quick check to test if we have a wallet already installed.
from multisig import MultisigWallet
M, N, xfp_xor = unpack_from('<3I', args)
return int(MultisigWallet.quick_check(M, N, xfp_xor))
if cmd == 'stxn':
# sign transaction
txn_len, flags, txn_sha = unpack_from('<II32s', args)
if txn_sha != self.file_checksum.digest():
return b'err_Checksum'
assert 50 < txn_len <= MAX_TXN_LEN, "bad txn len"
from auth import sign_transaction
sign_transaction(txn_len, (flags & STXN_FLAGS_MASK), txn_sha)
return None
if cmd == 'stok' or cmd == 'bkok' or cmd == 'smok' or cmd == 'pwok':
# Have we finished (whatever) the transaction,
# which needed user approval? If so, provide result.
from auth import UserAuthorizedAction
req = UserAuthorizedAction.active_request
if not req:
return b'err_No active request'
if req.refused:
UserAuthorizedAction.cleanup()
return b'refu'
if req.failed:
rv = b'err_' + req.failed.encode()
UserAuthorizedAction.cleanup()
return rv
if not req.result:
# STILL waiting on user
return None
if cmd == 'pwok':
# return new root xpub
xpub = req.result
UserAuthorizedAction.cleanup()
return b'asci' + bytes(xpub, 'ascii')
elif cmd == 'smok':
# signed message done: just give them the signature
addr, sig = req.address, req.result
UserAuthorizedAction.cleanup()
return pack('<4sI', 'smrx', len(addr)) + addr.encode() + sig
else:
# generic file response
resp_len, sha = req.result
UserAuthorizedAction.cleanup()
return pack('<4sI32s', 'strx', resp_len, sha)
if cmd == 'pass':
# bip39 passphrase provided, maybe use it if authorized
assert self.encrypted_req, 'must encrypt'
from auth import start_bip39_passphrase
from main import settings
assert settings.get('words', True), 'no seed'
assert len(args) < 400, 'too long'
pw = str(args, 'utf8')
assert len(pw) < 100, 'too long'
return start_bip39_passphrase(pw)
if cmd == 'back':
# start backup: asks user, takes long time.
from auth import start_remote_backup
return start_remote_backup()
if cmd == 'blkc':
# report which blockchain we are configured for
from chains import current_chain
chain = current_chain()
return b'asci' + chain.ctype
if cmd == 'bagi':
return self.handle_bag_number(args)
if has_fatram:
# HSM and user-related features only larger-memory Mk3
if cmd == 'hsms':
# HSM mode "start" -- requires user approval
if args:
file_len, file_sha = unpack_from('<I32s', args)
if file_sha != self.file_checksum.digest():
return b'err_Checksum'
assert 2 <= file_len <= (200 * 1000), "badlen"
else:
file_len = 0
# Start an UX interaction but return (mostly) immediately here
from hsm_ux import start_hsm_approval
await start_hsm_approval(sf_len=file_len, usb_mode=True)
return None
if cmd == 'hsts':
# can always query HSM mode
from hsm import hsm_status_report
import ujson
return b'asci' + ujson.dumps(hsm_status_report())
if cmd == 'gslr':
# get the value held in the Storage Locker
assert hsm_active, 'need hsm'
return b'biny' + hsm_active.fetch_storage_locker()
# User Mgmt
if cmd == 'nwur': # new user
from users import Users
auth_mode, ul, sl = unpack_from('<BBB', args)
username = bytes(args[3:3 + ul]).decode('ascii')
secret = bytes(args[3 + ul:3 + ul + sl])
return b'asci' + Users.create(username, auth_mode,
secret).encode('ascii')
if cmd == 'rmur': # delete user
from users import Users
ul, = unpack_from('<B', args)
username = bytes(args[1:1 + ul]).decode('ascii')
return Users.delete(username)
if cmd == 'user': # auth user (HSM mode)
from users import Users
totp_time, ul, tl = unpack_from('<IBB', args)
username = bytes(args[6:6 + ul]).decode('ascii')
token = bytes(args[6 + ul:6 + ul + tl])
if hsm_active:
# just queues these details, can't be checked until PSBT on-hand
hsm_active.usb_auth_user(username, token, totp_time)
return None
else:
# dryrun/testing purposes: validate only, doesn't unlock nothing
return b'asci' + Users.auth_okay(username, token,
totp_time).encode('ascii')
print("USB garbage: %s +[%d]" % (cmd, len(args)))
return b'err_Unknown cmd'
async def handle(self, cmd, args):
# Dispatch incoming message, and provide reply.
try:
cmd = bytes(cmd).decode()
except:
raise FramingError('decode')
if cmd == 'dfu_':
# only useful in factory, undocumented.
return self.call_after(callgate.enter_dfu)
if cmd == 'rebo':
import machine
return self.call_after(machine.reset)
if cmd == 'logo':
return self.call_after(callgate.show_logout)
if cmd == 'ping':
return b'biny' + args
if cmd == 'upld':
offset, total_size = unpack_from('<II', args)
data = memoryview(args)[4 + 4:]
return await self.handle_upload(offset, total_size, data)
if cmd == 'dwld':
offset, length, fileno = unpack_from('<III', args)
return await self.handle_download(offset, length, fileno)
if cmd == 'ncry':
version, his_pubkey = unpack_from('<I64s', args)
return self.handle_crypto_setup(version, his_pubkey)
if cmd == 'vers':
from version import get_mpy_version
from callgate import get_bl_version
# Returning: date, version(human), bootloader version, full date version
# BUT: be ready for additions!
rv = list(get_mpy_version())
rv.insert(2, get_bl_version()[0])
return b'asci' + ('\n'.join(rv)).encode()
if cmd == 'sha2':
return b'biny' + self.file_checksum.digest()
if cmd == 'xpub':
assert self.encrypted_req, 'must encrypt'
return self.handle_xpub(str(args, 'ascii'))
if cmd == 'mitm':
assert self.encrypted_req, 'must encrypt'
return await self.handle_mitm_check()
if cmd == 'smsg':
# sign message
addr_fmt, len_subpath, len_msg = unpack_from('<III', args)
subpath = args[12:12 + len_subpath]
msg = args[12 + len_subpath:]
assert len(msg) == len_msg, "badlen"
from auth import sign_msg
sign_msg(msg, subpath, addr_fmt)
return None
if cmd == 'p2sh':
# show P2SH (probably multisig) address on screen (also provides it back)
# - must provide redeem script, and list of [xfp+path]
from auth import start_show_p2sh_address
# new multsig goodness, needs mapping from xfp->path and M values
addr_fmt, M, N, script_len = unpack_from('<IBBH', args)
assert addr_fmt & AFC_SCRIPT
assert 1 <= M <= N <= 20
assert 30 <= script_len <= 520
offset = 8
witdeem_script = args[offset:offset + script_len]
offset += script_len
assert len(witdeem_script) == script_len
xfp_paths = []
for i in range(N):
ln = args[offset]
assert 2 <= ln <= 16, 'badlen'
xfp_paths.append(unpack_from('<%dI' % ln, args, offset + 1))
offset += (ln * 4) + 1
assert offset == len(args)
return b'asci' + start_show_p2sh_address(M, N, addr_fmt, xfp_paths,
witdeem_script)
if cmd == 'show':
# simple cases, older code: text subpath
from auth import start_show_address
addr_fmt, = unpack_from('<I', args)
assert not (addr_fmt & AFC_SCRIPT)
return b'asci' + start_show_address(addr_fmt, subpath=args[4:])
if cmd == 'enrl':
# Enroll new xpubkey to be involved in multisigs.
# - text config file must already be uploaded
file_len, file_sha = unpack_from('<I32s', args)
if file_sha != self.file_checksum.digest():
return b'err_Checksum'
assert 100 < file_len <= (20 * 200), "badlen"
# Start an UX interaction, return immediately here
from auth import maybe_enroll_xpub
maybe_enroll_xpub(sf_len=file_len, ux_reset=True)
return None
if cmd == 'msck':
# Quick check to test if we have a wallet already installed.
from multisig import MultisigWallet
M, N, xfp_xor = unpack_from('<3I', args)
return int(MultisigWallet.quick_check(M, N, xfp_xor))
if cmd == 'stxn':
# sign transaction
txn_len, finalize, txn_sha = unpack_from('<II32s', args)
if txn_sha != self.file_checksum.digest():
return b'err_Checksum'
assert 50 < txn_len <= MAX_TXN_LEN, "bad txn len"
from auth import sign_transaction
sign_transaction(txn_len, bool(finalize))
return None
if cmd == 'stok' or cmd == 'bkok' or cmd == 'smok' or cmd == 'pwok' or cmd == 'enok':
# Have we finished (whatever) the transaction,
# which needed user approval? If so, provide result.
from auth import active_request, UserAuthorizedAction
if not active_request:
return b'err_No active request'
if active_request.refused:
UserAuthorizedAction.cleanup()
return b'refu'
if active_request.failed:
rv = b'err_' + active_request.failed.encode()
UserAuthorizedAction.cleanup()
return rv
if not active_request.result:
# STILL waiting on user
return None
if cmd == 'pwok' or cmd == 'enok':
# return new root xpub
xpub = active_request.result
UserAuthorizedAction.cleanup()
return b'asci' + bytes(xpub, 'ascii')
elif cmd == 'smok':
# signed message done: just give them the signature
addr, sig = active_request.address, active_request.result
UserAuthorizedAction.cleanup()
return pack('<4sI', 'smrx', len(addr)) + addr.encode() + sig
else:
# generic file response
resp_len, sha = active_request.result
UserAuthorizedAction.cleanup()
return pack('<4sI32s', 'strx', resp_len, sha)
if cmd == 'pass':
# bip39 passphrase provided, maybe use it if authorized
assert self.encrypted_req, 'must encrypt'
from auth import start_bip39_passphrase
from main import settings
assert settings.get('words', True), 'no seed'
assert len(args) < 400, 'too long'
pw = str(args, 'utf8')
assert len(pw) < 100, 'too long'
return start_bip39_passphrase(pw)
if cmd == 'back':
# start backup: asks user, takes long time.
from auth import start_remote_backup
return start_remote_backup()
if cmd == 'bagi':
return self.handle_bag_number(args)
if is_simulator() and cmd[0].isupper():
# special hacky commands to support testing w/ the simulator
from sim_usb import do_usb_command
return do_usb_command(cmd, args)
print("USB garbage: %s +[%d]" % (cmd, len(args)))
return b'err_Unknown cmd'
