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403 lines
14 KiB
403 lines
14 KiB
import ustruct # pyright: ignore[reportMissingModuleSource]
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from micropython import const # pyright: ignore[reportMissingModuleSource]
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from typing import TYPE_CHECKING # pyright:ignore[reportShadowedImports]
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from ubinascii import hexlify
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import usb
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from storage import cache_thp
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from storage.cache_thp import KEY_LENGTH, TAG_LENGTH, ChannelCache
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from trezor import loop, protobuf, utils
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from trezor.messages import ThpCreateNewSession
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from trezor.wire import message_handler
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from ..protocol_common import Context, MessageWithType
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from . import ChannelState, SessionState, checksum
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from . import thp_session as THP
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from .checksum import CHECKSUM_LENGTH
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from .thp_messages import (
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ACK_MESSAGE,
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CONTINUATION_PACKET,
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ENCRYPTED_TRANSPORT,
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HANDSHAKE_INIT,
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)
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from .thp_session import ThpError
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if TYPE_CHECKING:
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from trezorio import WireInterface # pyright:ignore[reportMissingImports]
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_WIRE_INTERFACE_USB = b"\x01"
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_MOCK_INTERFACE_HID = b"\x00"
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_PUBKEY_LENGTH = const(32)
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INIT_DATA_OFFSET = const(5)
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CONT_DATA_OFFSET = const(3)
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REPORT_LENGTH = const(64)
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MAX_PAYLOAD_LEN = const(60000)
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class Channel(Context):
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def __init__(self, channel_cache: ChannelCache) -> None:
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iface = _decode_iface(channel_cache.iface)
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super().__init__(iface, channel_cache.channel_id)
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self.channel_cache = channel_cache
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self.buffer: utils.BufferType
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self.waiting_for_ack_timeout: loop.Task | None
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self.is_cont_packet_expected: bool = False
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self.expected_payload_length: int = 0
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self.bytes_read = 0
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from trezor.wire.thp.session_context import load_cached_sessions
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self.sessions = load_cached_sessions(self)
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@classmethod
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def create_new_channel(
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cls, iface: WireInterface, buffer: utils.BufferType
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) -> "Channel":
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channel_cache = cache_thp.get_new_unauthenticated_channel(_encode_iface(iface))
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r = cls(channel_cache)
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r.set_buffer(buffer)
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r.set_channel_state(ChannelState.TH1)
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return r
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# ACCESS TO CHANNEL_DATA
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def get_channel_state(self) -> int:
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state = int.from_bytes(self.channel_cache.state, "big")
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print("get_ch_state", state)
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return state
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def set_channel_state(self, state: ChannelState) -> None:
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print("set_ch_state", int.from_bytes(state.to_bytes(1, "big"), "big"))
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self.channel_cache.state = bytearray(state.to_bytes(1, "big"))
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def set_buffer(self, buffer: utils.BufferType) -> None:
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self.buffer = buffer
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print("set buffer channel", type(self.buffer))
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# CALLED BY THP_MAIN_LOOP
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async def receive_packet(self, packet: utils.BufferType):
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print("receive packet")
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ctrl_byte = packet[0]
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if _is_ctrl_byte_continuation(ctrl_byte):
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await self._handle_cont_packet(packet)
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else:
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await self._handle_init_packet(packet)
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if self.expected_payload_length + INIT_DATA_OFFSET == self.bytes_read:
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self._finish_message()
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await self._handle_completed_message()
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async def _handle_init_packet(self, packet: utils.BufferType):
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print("handle_init_packet")
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ctrl_byte, _, payload_length = ustruct.unpack(">BHH", packet)
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self.expected_payload_length = payload_length
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packet_payload = packet[5:]
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# If the channel does not "own" the buffer lock, decrypt first packet
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# TODO do it only when needed!
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if _is_ctrl_byte_encrypted_transport(ctrl_byte):
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packet_payload = self._decrypt(packet_payload)
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state = self.get_channel_state()
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if state is ChannelState.ENCRYPTED_TRANSPORT:
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session_id = packet_payload[0]
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if session_id == 0:
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pass
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# TODO use small buffer
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else:
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pass
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# TODO use big buffer but only if the channel owns the buffer lock.
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# Otherwise send BUSY message and return
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else:
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pass
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# TODO use small buffer
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print("self.buffer2")
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try:
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# TODO for now, we create a new big buffer every time. It should be changed
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self.buffer: utils.BufferType = _get_buffer_for_message(
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payload_length, self.buffer
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)
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except Exception as e:
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print(e)
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print("payload len", payload_length)
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print("self.buffer", self.buffer)
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print("self.buuffer.type", type(self.buffer))
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print("len", len(self.buffer))
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await self._buffer_packet_data(self.buffer, packet, 0)
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print("end init")
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async def _handle_cont_packet(self, packet: utils.BufferType):
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print("cont")
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if not self.is_cont_packet_expected:
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return # Continuation packet is not expected, ignoring
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await self._buffer_packet_data(self.buffer, packet, CONT_DATA_OFFSET)
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async def _handle_completed_message(self):
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print("handling completed message")
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ctrl_byte, _, payload_length = ustruct.unpack(">BHH", self.buffer)
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msg_len = payload_length + INIT_DATA_OFFSET
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print("checksum check")
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printBytes(self.buffer)
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if not checksum.is_valid(
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checksum=self.buffer[msg_len - CHECKSUM_LENGTH : msg_len],
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data=self.buffer[: msg_len - CHECKSUM_LENGTH],
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):
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# checksum is not valid -> ignore message
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self._todo_clear_buffer()
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return
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print("sync bit")
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sync_bit = (ctrl_byte & 0x10) >> 4
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if _is_ctrl_byte_ack(ctrl_byte):
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self._handle_received_ACK(sync_bit)
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self._todo_clear_buffer()
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return
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state = self.get_channel_state()
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_print_state(state)
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if state is ChannelState.TH1:
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if not _is_ctrl_byte_handshake_init:
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raise ThpError("Message received is not a handshake init request!")
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if not payload_length == _PUBKEY_LENGTH + CHECKSUM_LENGTH:
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raise ThpError(
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"Message received is not a valid handshake init request!"
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)
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host_ephemeral_key = bytearray(
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self.buffer[INIT_DATA_OFFSET : msg_len - CHECKSUM_LENGTH]
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)
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cache_thp.set_channel_host_ephemeral_key(
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self.channel_cache, host_ephemeral_key
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)
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# TODO send ack in response
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# TODO send handshake init response message
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self.set_channel_state(ChannelState.TH2)
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return
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if not _is_ctrl_byte_encrypted_transport(ctrl_byte):
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print("message is not encrypted. Ignoring")
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# TODO ignore message
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self._todo_clear_buffer()
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return
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if state is ChannelState.ENCRYPTED_TRANSPORT:
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self._decrypt_buffer()
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session_id, message_type = ustruct.unpack(
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">BH", self.buffer[INIT_DATA_OFFSET:]
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)
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if session_id == 0:
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try:
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buf = self.buffer[INIT_DATA_OFFSET + 3 : msg_len - CHECKSUM_LENGTH]
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expected_type = protobuf.type_for_wire(message_type)
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message = message_handler.wrap_protobuf_load(buf, expected_type)
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print(message)
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# ------------------------------------------------TYPE ERROR------------------------------------------------
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assert isinstance(message, ThpCreateNewSession)
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print("passphrase:", message.passphrase)
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# await thp_messages.handle_CreateNewSession(message)
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if message.passphrase is not None:
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self.create_new_session(message.passphrase)
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else:
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self.create_new_session()
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except Exception as e:
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print("Proč??")
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print(e)
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return
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# TODO not finished
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if session_id not in self.sessions:
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raise Exception("Unalloacted session")
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session_state = self.sessions[session_id].get_session_state()
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if session_state is SessionState.UNALLOCATED:
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raise Exception("Unalloacted session")
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self.sessions[session_id].incoming_message.publish(
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MessageWithType(
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message_type,
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self.buffer[INIT_DATA_OFFSET + 3 : msg_len - CHECKSUM_LENGTH],
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)
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)
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if state is ChannelState.TH2:
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print("th2 branche")
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host_encrypted_static_pubkey = self.buffer[
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INIT_DATA_OFFSET : INIT_DATA_OFFSET + KEY_LENGTH + TAG_LENGTH
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]
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handshake_completion_request_noise_payload = self.buffer[
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INIT_DATA_OFFSET + KEY_LENGTH + TAG_LENGTH : msg_len - CHECKSUM_LENGTH
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]
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print(
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host_encrypted_static_pubkey,
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handshake_completion_request_noise_payload,
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) # TODO remove
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# TODO send ack in response
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# TODO send hanshake completion response
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self.set_channel_state(ChannelState.ENCRYPTED_TRANSPORT)
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print("end completed message")
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def _decrypt(self, payload) -> bytes:
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return payload # TODO add decryption process
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def _decrypt_buffer(self) -> None:
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pass
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# TODO decode buffer in place
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async def _buffer_packet_data(
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self, payload_buffer: utils.BufferType, packet: utils.BufferType, offset: int
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):
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self.bytes_read += utils.memcpy(payload_buffer, self.bytes_read, packet, offset)
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print("bytes, read:", self.bytes_read)
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def _finish_message(self):
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self.bytes_read = 0
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self.expected_payload_length = 0
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self.is_cont_packet_expected = False
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# CALLED BY WORKFLOW / SESSION CONTEXT
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async def write(self, msg: protobuf.MessageType, session_id: int = 0) -> None:
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pass
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# TODO protocol.write(self.iface, self.channel_id, session_id, msg)
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# OTHER
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def create_new_session(
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self,
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passphrase="",
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) -> None: # TODO change it to output session data
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print("create new session")
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from trezor.wire.thp.session_context import SessionContext
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session = SessionContext.create_new_session(self)
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print("help")
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self.sessions[session.session_id] = session
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loop.schedule(session.handle())
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print("new session created. Session id:", session.session_id)
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def _todo_clear_buffer(self):
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# TODO Buffer clearing not implemented
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pass
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# TODO add debug logging to ACK handling
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def _handle_received_ACK(self, sync_bit: int) -> None:
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if self._ack_is_not_expected():
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return
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if self._ack_has_incorrect_sync_bit(sync_bit):
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return
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if self.waiting_for_ack_timeout is not None:
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self.waiting_for_ack_timeout.close()
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THP.sync_set_can_send_message(self.channel_cache, True)
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def _ack_is_not_expected(self) -> bool:
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return THP.sync_can_send_message(self.channel_cache)
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def _ack_has_incorrect_sync_bit(self, sync_bit: int) -> bool:
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return THP.sync_get_send_bit(self.channel_cache) != sync_bit
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def load_cached_channels(buffer: utils.BufferType) -> dict[int, Channel]: # TODO
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channels: dict[int, Channel] = {}
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cached_channels = cache_thp.get_all_allocated_channels()
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for c in cached_channels:
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channels[int.from_bytes(c.channel_id, "big")] = Channel(c)
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for c in channels.values():
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c.set_buffer(buffer)
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return channels
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def _decode_iface(cached_iface: bytes) -> WireInterface:
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if cached_iface == _WIRE_INTERFACE_USB:
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iface = usb.iface_wire
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if iface is None:
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raise RuntimeError("There is no valid USB WireInterface")
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return iface
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if __debug__ and cached_iface == _MOCK_INTERFACE_HID:
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raise NotImplementedError("Should return MockHID WireInterface")
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# TODO implement bluetooth interface
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raise Exception("Unknown WireInterface")
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def _encode_iface(iface: WireInterface) -> bytes:
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if iface is usb.iface_wire:
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return _WIRE_INTERFACE_USB
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# TODO implement bluetooth interface
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if __debug__:
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return _MOCK_INTERFACE_HID
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raise Exception("Unknown WireInterface")
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def _get_buffer_for_message(
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payload_length: int, existing_buffer: utils.BufferType, max_length=MAX_PAYLOAD_LEN
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) -> utils.BufferType:
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length = payload_length + INIT_DATA_OFFSET
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print("length", length)
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print("existing buffer type", type(existing_buffer))
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if length > max_length:
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raise ThpError("Message too large")
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if length > len(existing_buffer):
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# allocate a new buffer to fit the message
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try:
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payload: utils.BufferType = bytearray(length)
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except MemoryError:
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payload = bytearray(REPORT_LENGTH)
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raise ThpError("Message too large")
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return payload
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# reuse a part of the supplied buffer
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return memoryview(existing_buffer)[:length]
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def _is_ctrl_byte_continuation(ctrl_byte: int) -> bool:
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return ctrl_byte & 0x80 == CONTINUATION_PACKET
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def _is_ctrl_byte_encrypted_transport(ctrl_byte: int) -> bool:
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return ctrl_byte & 0xEF == ENCRYPTED_TRANSPORT
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def _is_ctrl_byte_handshake_init(ctrl_byte: int) -> bool:
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return ctrl_byte & 0xEF == HANDSHAKE_INIT
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def _is_ctrl_byte_ack(ctrl_byte: int) -> bool:
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return ctrl_byte & 0xEF == ACK_MESSAGE
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def _print_state(cs: int) -> None:
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if cs == ChannelState.ENCRYPTED_TRANSPORT:
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print("state: encrypted transport")
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elif cs == ChannelState.TH1:
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print("state: th1")
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elif cs == ChannelState.TH2:
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print("state: th2")
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elif cs == ChannelState.TP1:
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print("state: tp1")
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elif cs == ChannelState.TP2:
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print("state: tp2")
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elif cs == ChannelState.TP3:
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print("state: tp3")
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elif cs == ChannelState.TP4:
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print("state: tp4")
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elif cs == ChannelState.TP5:
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print("state: tp5")
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elif cs == ChannelState.UNALLOCATED:
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print("state: unallocated")
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elif cs == ChannelState.UNAUTHENTICATED:
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print("state: unauthenticated")
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else:
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print(cs)
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print("state: <not implemented printout>")
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def printBytes(a):
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print(hexlify(a).decode("utf-8"))
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