138 lines
4.3 KiB
Python
138 lines
4.3 KiB
Python
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from tls97 import tls, psk_encryption_key, psk_validation_key, hs_key, crt_hardcoded
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from hashlib import sha256
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import hmac
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from struct import pack, unpack
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from binascii import hexlify, unhexlify
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from usb97 import usb
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from flash import write_flash, erase_flash, flush_changes, PartitionInfo, get_flash_info
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from sensor import reboot
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from Crypto.Random import get_random_bytes
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from Crypto.Cipher import AES
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from fastecdsa.encoding.der import DEREncoder
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from fastecdsa.curve import P256
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from fastecdsa.ecdsa import sign
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from fastecdsa.point import Point
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from fastecdsa.keys import gen_private_key, get_public_key
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from util import assert_status, unhex
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from blobs import reset_blob
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flash_layout_hardcoded=[
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# id type access offset size
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# lvl
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PartitionInfo(1, 4, 7, 0x00001000, 0x00001000), # cert store
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#PartitionInfo(2, 1, 2, 0x00002000, 0x0003e000), # xpfwext
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PartitionInfo(2, 1, 7, 0x00002000, 0x0003e000), # xpfwext
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PartitionInfo(5, 5, 3, 0x00040000, 0x00008000), # ???
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PartitionInfo(6, 6, 3, 0x00048000, 0x00008000), # calibration data
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PartitionInfo(4, 3, 5, 0x00050000, 0x00030000), # template database
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]
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def with_hdr(id, buf):
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return pack('<HH', id, len(buf)) + buf
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client_private = gen_private_key(P256)
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client_public = get_public_key(client_private, P256)
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def encrypt_key():
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x = unhexlify('%064x' % client_public.x)[::-1]
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y = unhexlify('%064x' % client_public.y)[::-1]
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d = unhexlify('%064x' % client_private)[::-1]
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m = x+y+d
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l = 16 - (len(m) % 16)
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m = m + bytes([l])*l
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iv = get_random_bytes(AES.block_size)
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aes = AES.new(psk_encryption_key, AES.MODE_CBC, iv)
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c = iv + aes.encrypt(m)
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sig = hmac.new(psk_validation_key, c, sha256).digest()
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return b'\x02' + c + sig
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tls.handle_priv(encrypt_key())
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def make_cert():
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msg=(pack('<LL', 0x17, 0x20) +
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unhexlify('%064x' % client_public.x)[::-1] +
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(b'\0'*0x24) +
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unhexlify('%064x' % client_public.y)[::-1] +
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(b'\0'*0x4c))
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s=sign(msg, hs_key())
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s=DEREncoder().encode_signature(s[0], s[1])
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s=pack('<L', len(s)) + s
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msg = msg + s
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msg += b'\0'*(444 - len(msg)) # not sure this math is right
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return msg
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def serialize_flash_params(ic):
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return pack('<LLxxBx', ic.size, ic.secror_size, ic.sector_erase_cmd)
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def serialize_partition(p):
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b = pack('<BBHLL', p.id, p.type, p.access_lvl, p.offset, p.size)
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b = b + b'\0'*4 + sha256(b).digest()
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return b
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def partition_flash(layout):
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info = get_flash_info()
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print('Detected Flash IC: %s, %d bytes' % (info.ic.name, info.ic.size))
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if len(info.partitions) > 0:
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raise Exception('Flash is already partitioned')
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cmd = unhex('4f 0000 0000')
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cmd += with_hdr(0, serialize_flash_params(info.ic))
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cmd += with_hdr(1, b''.join([serialize_partition(p) for p in layout]))
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cmd += with_hdr(5, make_cert())
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cmd += with_hdr(3, crt_hardcoded)
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rsp = tls.cmd(cmd)
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assert_status(rsp)
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rsp = rsp[2:]
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crt_len, rsp=rsp[:4], rsp[4:]
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crt_len, = unpack('<L', crt_len)
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tls.handle_cert(rsp[:crt_len])
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# ^ TODO - validate cert
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rsp = rsp[crt_len:]
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# ^ TODO - figure out what the rest of rsp means
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#usb.trace_enabled=True
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#tls.trace_enabled=True
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usb.open()
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assert_status(usb.cmd(reset_blob))
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partition_flash(flash_layout_hardcoded)
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rsp=usb.cmd(unhex('01'))
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assert_status(rsp)
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# ^ get device info, contains firmware version which is needed to lookup pubkey for server cert validation
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rsp=usb.cmd(unhex('50'))
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# ^ TODO validate response
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# It should be signed by the firmware private key.
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# The corresponding pub key is hardcoded for each fw revision in the synaWudfBioUsb.dll.
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# for my device it is: x=f727653b4e16ce0665a6894d7f3a30d7d0a0be310d1292a743671fdf69f6a8d3,
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# y=a85538f8b6bec50d6eef8bd5f4d07a886243c58b2393948df761a84721a6ca94
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assert_status(rsp)
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rsp=rsp[2:]
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l,=unpack('<L', rsp[:4])
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tls.handle_ecdh(rsp[l-400:]) # not sure offsets are calculated this way
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flush_changes()
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tls.open()
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# Wipe newly created partitions clean
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erase_flash(1)
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erase_flash(2)
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erase_flash(5)
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erase_flash(6)
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erase_flash(4)
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# Persist certs and keys on cert partition.
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write_flash(1, 0, tls.makeTlsFlash())
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# Reboot
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reboot()
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