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|
// Copyright (c) 2017-2019, The Monero Project
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without modification, are
// permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice, this list of
// conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright notice, this list
// of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution.
//
// 3. Neither the name of the copyright holder nor the names of its contributors may be
// used to endorse or promote products derived from this software without specific
// prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY
// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
// THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
#ifdef WITH_DEVICE_TREZOR_WEBUSB
#include <libusb.h>
#endif
#include <algorithm>
#include <boost/endian/conversion.hpp>
#include <boost/asio/io_service.hpp>
#include <boost/asio/ip/udp.hpp>
#include <boost/date_time/posix_time/posix_time_types.hpp>
#include <boost/format.hpp>
#include "common/apply_permutation.h"
#include "transport.hpp"
#include "messages/messages-common.pb.h"
#undef MONERO_DEFAULT_LOG_CATEGORY
#define MONERO_DEFAULT_LOG_CATEGORY "device.trezor.transport"
using namespace std;
using json = rapidjson::Document;
namespace hw{
namespace trezor{
bool t_serialize(const std::string & in, std::string & out){
out = in;
return true;
}
bool t_serialize(const json_val & in, std::string & out){
rapidjson::StringBuffer sb;
rapidjson::Writer<rapidjson::StringBuffer> writer(sb);
in.Accept(writer);
out = sb.GetString();
return true;
}
std::string t_serialize(const json_val & in){
std::string ret;
t_serialize(in, ret);
return ret;
}
bool t_deserialize(const std::string & in, std::string & out){
out = in;
return true;
}
bool t_deserialize(const std::string & in, json & out){
if (out.Parse(in.c_str()).HasParseError()) {
throw exc::CommunicationException("JSON parse error");
}
return true;
}
static std::string json_get_string(const rapidjson::Value & in){
return std::string(in.GetString());
}
uint64_t pack_version(uint32_t major, uint32_t minor, uint32_t patch)
{
// packing (major, minor, patch) to 64 B: 16 B | 24 B | 24 B
const unsigned bits_1 = 16;
const unsigned bits_2 = 24;
const uint32_t mask_1 = (1 << bits_1) - 1;
const uint32_t mask_2 = (1 << bits_2) - 1;
CHECK_AND_ASSERT_THROW_MES(major <= mask_1 && minor <= mask_2 && patch <= mask_2, "Version numbers overflow packing scheme");
return patch | (((uint64_t)minor) << bits_2) | (((uint64_t)major) << (bits_1 + bits_2));
}
typedef struct {
uint16_t trezor_type;
uint16_t id_vendor;
uint16_t id_product;
} trezor_usb_desc_t;
static trezor_usb_desc_t TREZOR_DESC_T1 = {1, 0x534C, 0x0001};
static trezor_usb_desc_t TREZOR_DESC_T2 = {2, 0x1209, 0x53C1};
static trezor_usb_desc_t TREZOR_DESC_T2_BL = {3, 0x1209, 0x53C0};
static trezor_usb_desc_t TREZOR_DESCS[] = {
TREZOR_DESC_T1,
TREZOR_DESC_T2,
TREZOR_DESC_T2_BL,
};
static size_t TREZOR_DESCS_LEN = sizeof(TREZOR_DESCS)/sizeof(TREZOR_DESCS[0]);
static ssize_t get_device_idx(uint16_t id_vendor, uint16_t id_product){
for(size_t i = 0; i < TREZOR_DESCS_LEN; ++i){
if (TREZOR_DESCS[i].id_vendor == id_vendor && TREZOR_DESCS[i].id_product == id_product){
return i;
}
}
return -1;
}
static bool is_device_supported(ssize_t device_idx){
CHECK_AND_ASSERT_THROW_MES(device_idx < (ssize_t)TREZOR_DESCS_LEN, "Device desc idx too big");
if (device_idx < 0){
return false;
}
#ifdef TREZOR_1_SUPPORTED
return true;
#else
return TREZOR_DESCS[device_idx].trezor_type != 1;
#endif
}
//
// Helpers
//
#define PROTO_HEADER_SIZE 6
static size_t message_size(const google::protobuf::Message &req){
return static_cast<size_t>(req.ByteSize());
}
static size_t serialize_message_buffer_size(size_t msg_size) {
return PROTO_HEADER_SIZE + msg_size; // tag 2B + len 4B
}
static void serialize_message_header(void * buff, uint16_t tag, uint32_t len){
uint16_t wire_tag = boost::endian::native_to_big(static_cast<uint16_t>(tag));
uint32_t wire_len = boost::endian::native_to_big(static_cast<uint32_t>(len));
memcpy(buff, (void *) &wire_tag, 2);
memcpy((uint8_t*)buff + 2, (void *) &wire_len, 4);
}
static void deserialize_message_header(const void * buff, uint16_t & tag, uint32_t & len){
uint16_t wire_tag;
uint32_t wire_len;
memcpy(&wire_tag, buff, 2);
memcpy(&wire_len, (uint8_t*)buff + 2, 4);
tag = boost::endian::big_to_native(wire_tag);
len = boost::endian::big_to_native(wire_len);
}
static void serialize_message(const google::protobuf::Message &req, size_t msg_size, uint8_t * buff, size_t buff_size) {
auto msg_wire_num = MessageMapper::get_message_wire_number(req);
const auto req_buffer_size = serialize_message_buffer_size(msg_size);
if (req_buffer_size > buff_size){
throw std::invalid_argument("Buffer too small");
}
serialize_message_header(buff, msg_wire_num, msg_size);
if (!req.SerializeToArray(buff + 6, msg_size)){
throw exc::EncodingException("Message serialization error");
}
}
//
// Communication protocol
//
#define REPLEN 64
void ProtocolV1::write(Transport & transport, const google::protobuf::Message & req){
const auto msg_size = message_size(req);
const auto buff_size = serialize_message_buffer_size(msg_size) + 2;
std::unique_ptr<uint8_t[]> req_buff(new uint8_t[buff_size]);
uint8_t * req_buff_raw = req_buff.get();
req_buff_raw[0] = '#';
req_buff_raw[1] = '#';
serialize_message(req, msg_size, req_buff_raw + 2, buff_size - 2);
size_t offset = 0;
uint8_t chunk_buff[REPLEN];
// Chunk by chunk upload
while(offset < buff_size){
auto to_copy = std::min((size_t)(buff_size - offset), (size_t)(REPLEN - 1));
chunk_buff[0] = '?';
memcpy(chunk_buff + 1, req_buff_raw + offset, to_copy);
// Pad with zeros
if (to_copy < REPLEN - 1){
memset(chunk_buff + 1 + to_copy, 0, REPLEN - 1 - to_copy);
}
transport.write_chunk(chunk_buff, REPLEN);
offset += REPLEN - 1;
}
}
void ProtocolV1::read(Transport & transport, std::shared_ptr<google::protobuf::Message> & msg, messages::MessageType * msg_type){
char chunk[REPLEN];
// Initial chunk read
size_t nread = transport.read_chunk(chunk, REPLEN);
if (nread != REPLEN){
throw exc::CommunicationException("Read chunk has invalid size");
}
if (strncmp(chunk, "?##", 3) != 0){
throw exc::CommunicationException("Malformed chunk");
}
uint16_t tag;
uint32_t len;
nread -= 3 + 6;
deserialize_message_header(chunk + 3, tag, len);
std::string data_acc(chunk + 3 + 6, nread);
data_acc.reserve(len);
while(nread < len){
const size_t cur = transport.read_chunk(chunk, REPLEN);
if (chunk[0] != '?'){
throw exc::CommunicationException("Chunk malformed");
}
data_acc.append(chunk + 1, cur - 1);
nread += cur - 1;
}
if (msg_type){
*msg_type = static_cast<messages::MessageType>(tag);
}
if (nread < len){
throw exc::CommunicationException("Response incomplete");
}
std::shared_ptr<google::protobuf::Message> msg_wrap(MessageMapper::get_message(tag));
if (!msg_wrap->ParseFromArray(data_acc.c_str(), len)){
throw exc::CommunicationException("Message could not be parsed");
}
msg = msg_wrap;
}
static void assert_port_number(uint32_t port)
{
CHECK_AND_ASSERT_THROW_MES(port >= 1024 && port < 65535, "Invalid port number: " << port);
}
Transport::Transport(): m_open_counter(0) {
}
bool Transport::pre_open(){
if (m_open_counter > 0){
MTRACE("Already opened, count: " << m_open_counter);
m_open_counter += 1;
return false;
} else if (m_open_counter < 0){
MTRACE("Negative open value: " << m_open_counter);
}
// Caller should set m_open_counter to 1 after open
m_open_counter = 0;
return true;
}
bool Transport::pre_close(){
m_open_counter -= 1;
if (m_open_counter < 0){
MDEBUG("Already closed. Counter " << m_open_counter);
} else if (m_open_counter == 0) {
return true;
}
return false;
}
//
// Bridge transport
//
const char * BridgeTransport::PATH_PREFIX = "bridge:";
BridgeTransport::BridgeTransport(
boost::optional<std::string> device_path,
boost::optional<std::string> bridge_host):
m_device_path(device_path),
m_bridge_host(bridge_host ? bridge_host.get() : DEFAULT_BRIDGE),
m_response(boost::none),
m_session(boost::none),
m_device_info(boost::none)
{
const char *env_bridge_port = nullptr;
if (!bridge_host && (env_bridge_port = getenv("TREZOR_BRIDGE_PORT")) != nullptr)
{
uint16_t bridge_port;
CHECK_AND_ASSERT_THROW_MES(epee::string_tools::get_xtype_from_string(bridge_port, env_bridge_port), "Invalid bridge port: " << env_bridge_port);
assert_port_number(bridge_port);
m_bridge_host = std::string("127.0.0.1:") + boost::lexical_cast<std::string>(env_bridge_port);
MDEBUG("Bridge host: " << m_bridge_host);
}
m_http_client.set_server(m_bridge_host, boost::none, epee::net_utils::ssl_support_t::e_ssl_support_disabled);
}
std::string BridgeTransport::get_path() const {
if (!m_device_path){
return "";
}
std::string path(PATH_PREFIX);
return path + m_device_path.get();
}
void BridgeTransport::enumerate(t_transport_vect & res) {
json bridge_res;
std::string req;
bool req_status = invoke_bridge_http("/enumerate", req, bridge_res, m_http_client);
if (!req_status){
throw exc::CommunicationException("Bridge enumeration failed");
}
for(rapidjson::Value::ConstValueIterator itr = bridge_res.Begin(); itr != bridge_res.End(); ++itr){
auto element = itr->GetObject();
auto t = std::make_shared<BridgeTransport>(boost::make_optional(json_get_string(element["path"])));
auto itr_vendor = element.FindMember("vendor");
auto itr_product = element.FindMember("product");
if (itr_vendor != element.MemberEnd() && itr_product != element.MemberEnd()
&& itr_vendor->value.IsNumber() && itr_product->value.IsNumber()){
try {
const auto id_vendor = (uint16_t) itr_vendor->value.GetUint64();
const auto id_product = (uint16_t) itr_product->value.GetUint64();
const auto device_idx = get_device_idx(id_vendor, id_product);
if (!is_device_supported(device_idx)){
MDEBUG("Device with idx " << device_idx << " is not supported. Vendor: " << id_vendor << ", product: " << id_product);
continue;
}
} catch(const std::exception &e){
MERROR("Could not detect vendor & product: " << e.what());
}
}
t->m_device_info.emplace();
t->m_device_info->CopyFrom(*itr, t->m_device_info->GetAllocator());
res.push_back(t);
}
}
void BridgeTransport::open() {
if (!pre_open()){
return;
}
if (!m_device_path){
throw exc::CommunicationException("Coud not open, empty device path");
}
std::string uri = "/acquire/" + m_device_path.get() + "/null";
std::string req;
json bridge_res;
bool req_status = invoke_bridge_http(uri, req, bridge_res, m_http_client);
if (!req_status){
throw exc::CommunicationException("Failed to acquire device");
}
m_session = boost::make_optional(json_get_string(bridge_res["session"]));
m_open_counter = 1;
}
void BridgeTransport::close() {
if (!pre_close()){
return;
}
MTRACE("Closing Trezor:BridgeTransport");
if (!m_device_path || !m_session){
throw exc::CommunicationException("Device not open");
}
std::string uri = "/release/" + m_session.get();
std::string req;
json bridge_res;
bool req_status = invoke_bridge_http(uri, req, bridge_res, m_http_client);
if (!req_status){
throw exc::CommunicationException("Failed to release device");
}
m_session = boost::none;
}
void BridgeTransport::write(const google::protobuf::Message &req) {
m_response = boost::none;
const auto msg_size = message_size(req);
const auto buff_size = serialize_message_buffer_size(msg_size);
std::unique_ptr<uint8_t[]> req_buff(new uint8_t[buff_size]);
uint8_t * req_buff_raw = req_buff.get();
serialize_message(req, msg_size, req_buff_raw, buff_size);
std::string uri = "/call/" + m_session.get();
std::string req_hex = epee::to_hex::string(epee::span<const std::uint8_t>(req_buff_raw, buff_size));
std::string res_hex;
bool req_status = invoke_bridge_http(uri, req_hex, res_hex, m_http_client);
if (!req_status){
throw exc::CommunicationException("Call method failed");
}
m_response = res_hex;
}
void BridgeTransport::read(std::shared_ptr<google::protobuf::Message> & msg, messages::MessageType * msg_type) {
if (!m_response){
throw exc::CommunicationException("Could not read, no response stored");
}
std::string bin_data;
if (!epee::string_tools::parse_hexstr_to_binbuff(m_response.get(), bin_data)){
throw exc::CommunicationException("Response is not well hexcoded");
}
uint16_t msg_tag;
uint32_t msg_len;
deserialize_message_header(bin_data.c_str(), msg_tag, msg_len);
if (bin_data.size() != msg_len + 6){
throw exc::CommunicationException("Response is not well hexcoded");
}
if (msg_type){
*msg_type = static_cast<messages::MessageType>(msg_tag);
}
std::shared_ptr<google::protobuf::Message> msg_wrap(MessageMapper::get_message(msg_tag));
if (!msg_wrap->ParseFromArray(bin_data.c_str() + 6, msg_len)){
throw exc::EncodingException("Response is not well hexcoded");
}
msg = msg_wrap;
}
const boost::optional<json> & BridgeTransport::device_info() const {
return m_device_info;
}
std::ostream& BridgeTransport::dump(std::ostream& o) const {
return o << "BridgeTransport<path=" << (m_device_path ? get_path() : "None")
<< ", info=" << (m_device_info ? t_serialize(m_device_info.get()) : "None")
<< ", session=" << (m_session ? m_session.get() : "None")
<< ">";
}
//
// UdpTransport
//
const char * UdpTransport::PATH_PREFIX = "udp:";
const char * UdpTransport::DEFAULT_HOST = "127.0.0.1";
const int UdpTransport::DEFAULT_PORT = 21324;
static void parse_udp_path(std::string &host, int &port, std::string path)
{
if (boost::starts_with(path, UdpTransport::PATH_PREFIX))
{
path = path.substr(strlen(UdpTransport::PATH_PREFIX));
}
auto delim = path.find(':');
if (delim == std::string::npos) {
host = path;
} else {
host = path.substr(0, delim);
port = std::stoi(path.substr(delim + 1));
}
}
UdpTransport::UdpTransport(boost::optional<std::string> device_path,
boost::optional<std::shared_ptr<Protocol>> proto) :
m_io_service(), m_deadline(m_io_service)
{
m_device_host = DEFAULT_HOST;
m_device_port = DEFAULT_PORT;
const char *env_trezor_path = nullptr;
if (device_path) {
parse_udp_path(m_device_host, m_device_port, device_path.get());
} else if ((env_trezor_path = getenv("TREZOR_PATH")) != nullptr && boost::starts_with(env_trezor_path, UdpTransport::PATH_PREFIX)){
parse_udp_path(m_device_host, m_device_port, std::string(env_trezor_path));
MDEBUG("Applied TREZOR_PATH: " << m_device_host << ":" << m_device_port);
} else {
m_device_host = DEFAULT_HOST;
}
assert_port_number((uint32_t)m_device_port);
if (m_device_host != "localhost" && m_device_host != DEFAULT_HOST){
throw std::invalid_argument("Local endpoint allowed only");
}
m_proto = proto ? proto.get() : std::make_shared<ProtocolV1>();
}
std::string UdpTransport::get_path() const {
std::string path(PATH_PREFIX);
return path + m_device_host + ":" + std::to_string(m_device_port);
}
void UdpTransport::require_socket(){
if (!m_socket){
throw exc::NotConnectedException("Socket not connected");
}
}
bool UdpTransport::ping(){
return ping_int();
}
bool UdpTransport::ping_int(boost::posix_time::time_duration timeout){
require_socket();
try {
std::string req = "PINGPING";
char res[8];
m_socket->send_to(boost::asio::buffer(req.c_str(), req.size()), m_endpoint);
receive(res, 8, nullptr, false, timeout);
return memcmp(res, "PONGPONG", 8) == 0;
} catch(...){
return false;
}
}
void UdpTransport::enumerate(t_transport_vect & res) {
std::shared_ptr<UdpTransport> t = std::make_shared<UdpTransport>();
bool t_works = false;
try{
t->open();
t_works = t->ping();
} catch(...) {
}
t->close();
if (t_works){
res.push_back(t);
}
}
void UdpTransport::open() {
if (!pre_open()){
return;
}
udp::resolver resolver(m_io_service);
udp::resolver::query query(udp::v4(), m_device_host, std::to_string(m_device_port));
m_endpoint = *resolver.resolve(query);
m_socket.reset(new udp::socket(m_io_service));
m_socket->open(udp::v4());
m_deadline.expires_at(boost::posix_time::pos_infin);
check_deadline();
m_proto->session_begin(*this);
m_open_counter = 1;
}
void UdpTransport::close() {
if (!pre_close()){
return;
}
MTRACE("Closing Trezor:UdpTransport");
if (!m_socket) {
throw exc::CommunicationException("Socket is already closed");
}
m_proto->session_end(*this);
m_socket->close();
m_socket = nullptr;
}
std::shared_ptr<Transport> UdpTransport::find_debug() {
#ifdef WITH_TREZOR_DEBUGGING
std::shared_ptr<UdpTransport> t = std::make_shared<UdpTransport>();
t->m_proto = std::make_shared<ProtocolV1>();
t->m_device_host = m_device_host;
t->m_device_port = m_device_port + 1;
return t;
#else
MINFO("Debug link is disabled in production");
return nullptr;
#endif
}
void UdpTransport::write_chunk(const void * buff, size_t size){
require_socket();
if (size != 64){
throw exc::CommunicationException("Invalid chunk size");
}
auto written = m_socket->send_to(boost::asio::buffer(buff, size), m_endpoint);
if (size != written){
throw exc::CommunicationException("Could not send the whole chunk");
}
}
size_t UdpTransport::read_chunk(void * buff, size_t size){
require_socket();
if (size < 64){
throw std::invalid_argument("Buffer too small");
}
ssize_t len;
while(true) {
try {
boost::system::error_code ec;
len = receive(buff, size, &ec, true);
if (ec == boost::asio::error::operation_aborted) {
continue;
} else if (ec) {
throw exc::CommunicationException(std::string("Comm error: ") + ec.message());
}
if (len != 64) {
throw exc::CommunicationException("Invalid chunk size");
}
break;
} catch(exc::CommunicationException const& e){
throw;
} catch(std::exception const& e){
MWARNING("Error reading chunk, reason: " << e.what());
throw exc::CommunicationException(std::string("Chunk read error: ") + std::string(e.what()));
}
}
return static_cast<size_t>(len);
}
ssize_t UdpTransport::receive(void * buff, size_t size, boost::system::error_code * error_code, bool no_throw, boost::posix_time::time_duration timeout){
boost::system::error_code ec;
boost::asio::mutable_buffer buffer = boost::asio::buffer(buff, size);
require_socket();
// Set a deadline for the asynchronous operation.
m_deadline.expires_from_now(timeout);
// Set up the variables that receive the result of the asynchronous
// operation. The error code is set to would_block to signal that the
// operation is incomplete. Asio guarantees that its asynchronous
// operations will never fail with would_block, so any other value in
// ec indicates completion.
ec = boost::asio::error::would_block;
std::size_t length = 0;
// Start the asynchronous operation itself. The handle_receive function
// used as a callback will update the ec and length variables.
m_socket->async_receive_from(boost::asio::buffer(buffer), m_endpoint,
boost::bind(&UdpTransport::handle_receive, _1, _2, &ec, &length));
// Block until the asynchronous operation has completed.
do {
m_io_service.run_one();
}
while (ec == boost::asio::error::would_block);
if (error_code){
*error_code = ec;
}
if (no_throw){
return length;
}
// Operation result
if (ec == boost::asio::error::operation_aborted){
throw exc::TimeoutException();
} else if (ec) {
MWARNING("Reading from UDP socket failed: " << ec.message());
throw exc::CommunicationException();
}
return length;
}
void UdpTransport::write(const google::protobuf::Message &req) {
m_proto->write(*this, req);
}
void UdpTransport::read(std::shared_ptr<google::protobuf::Message> & msg, messages::MessageType * msg_type) {
m_proto->read(*this, msg, msg_type);
}
void UdpTransport::check_deadline(){
if (!m_socket){
return; // no active socket.
}
// Check whether the deadline has passed. We compare the deadline against
// the current time since a new asynchronous operation may have moved the
// deadline before this actor had a chance to run.
if (m_deadline.expires_at() <= boost::asio::deadline_timer::traits_type::now())
{
// The deadline has passed. The outstanding asynchronous operation needs
// to be cancelled so that the blocked receive() function will return.
//
// Please note that cancel() has portability issues on some versions of
// Microsoft Windows, and it may be necessary to use close() instead.
// Consult the documentation for cancel() for further information.
m_socket->cancel();
// There is no longer an active deadline. The expiry is set to positive
// infinity so that the actor takes no action until a new deadline is set.
m_deadline.expires_at(boost::posix_time::pos_infin);
}
// Put the actor back to sleep.
m_deadline.async_wait(boost::bind(&UdpTransport::check_deadline, this));
}
void UdpTransport::handle_receive(const boost::system::error_code &ec, std::size_t length,
boost::system::error_code *out_ec, std::size_t *out_length) {
*out_ec = ec;
*out_length = length;
}
std::ostream& UdpTransport::dump(std::ostream& o) const {
return o << "UdpTransport<path=" << get_path()
<< ", socket_alive=" << (m_socket ? "true" : "false")
<< ">";
}
#ifdef WITH_DEVICE_TREZOR_WEBUSB
static bool is_trezor1(libusb_device_descriptor * info){
return info->idVendor == TREZOR_DESC_T1.id_vendor && info->idProduct == TREZOR_DESC_T1.id_product;
}
static bool is_trezor2(libusb_device_descriptor * info){
return info->idVendor == TREZOR_DESC_T2.id_vendor && info->idProduct == TREZOR_DESC_T2.id_product;
}
static bool is_trezor2_bl(libusb_device_descriptor * info){
return info->idVendor == TREZOR_DESC_T2_BL.id_vendor && info->idProduct == TREZOR_DESC_T2_BL.id_product;
}
static ssize_t get_trezor_dev_id(libusb_device_descriptor *info){
CHECK_AND_ASSERT_THROW_MES(info, "Empty device descriptor");
return get_device_idx(info->idVendor, info->idProduct);
}
static void set_libusb_log(libusb_context *ctx){
CHECK_AND_ASSERT_THROW_MES(ctx, "Null libusb context");
// http://libusb.sourceforge.net/api-1.0/group__libusb__lib.html
#if defined(LIBUSB_API_VERSION) && (LIBUSB_API_VERSION >= 0x01000106)
# define TREZOR_LIBUSB_SET_DEBUG(ctx, level) libusb_set_option(ctx, LIBUSB_OPTION_LOG_LEVEL, level)
#else
# define TREZOR_LIBUSB_SET_DEBUG(ctx, level) libusb_set_debug(ctx, level)
#endif
if (ELPP->vRegistry()->allowed(el::Level::Debug, MONERO_DEFAULT_LOG_CATEGORY))
TREZOR_LIBUSB_SET_DEBUG(ctx, 3);
else if (ELPP->vRegistry()->allowed(el::Level::Warning, MONERO_DEFAULT_LOG_CATEGORY))
TREZOR_LIBUSB_SET_DEBUG(ctx, 2);
else if (ELPP->vRegistry()->allowed(el::Level::Error, MONERO_DEFAULT_LOG_CATEGORY))
TREZOR_LIBUSB_SET_DEBUG(ctx, 1);
#undef TREZOR_LIBUSB_SET_DEBUG
}
static int get_libusb_ports(libusb_device *dev, std::vector<uint8_t> &path){
uint8_t tmp_path[16];
int r = libusb_get_port_numbers(dev, tmp_path, sizeof(tmp_path));
CHECK_AND_ASSERT_MES(r != LIBUSB_ERROR_OVERFLOW, -1, "Libusb path array too small");
CHECK_AND_ASSERT_MES(r >= 0, -1, "Libusb path array error");
path.resize(r);
for (int i = 0; i < r; i++){
path[i] = tmp_path[i];
}
return 0;
}
static std::string get_usb_path(uint8_t bus_id, const std::vector<uint8_t> &path){
std::stringstream ss;
ss << WebUsbTransport::PATH_PREFIX << (boost::format("%03d") % ((int)bus_id));
for(uint8_t port : path){
ss << ":" << ((int) port);
}
return ss.str();
}
const char * WebUsbTransport::PATH_PREFIX = "webusb:";
WebUsbTransport::WebUsbTransport(
boost::optional<libusb_device_descriptor*> descriptor,
boost::optional<std::shared_ptr<Protocol>> proto
): m_usb_session(nullptr), m_usb_device(nullptr), m_usb_device_handle(nullptr),
m_bus_id(-1), m_device_addr(-1)
{
if (descriptor){
libusb_device_descriptor * desc = new libusb_device_descriptor;
memcpy(desc, descriptor.get(), sizeof(libusb_device_descriptor));
this->m_usb_device_desc.reset(desc);
}
m_proto = proto ? proto.get() : std::make_shared<ProtocolV1>();
#ifdef WITH_TREZOR_DEBUGGING
m_debug_mode = false;
#endif
}
WebUsbTransport::~WebUsbTransport(){
if (m_usb_device){
close();
}
if (m_usb_session) {
libusb_exit(m_usb_session);
m_usb_session = nullptr;
}
}
void WebUsbTransport::require_device() const{
if (!m_usb_device_desc){
throw std::runtime_error("No USB device specified");
}
}
void WebUsbTransport::require_connected() const{
require_device();
if (!m_usb_device_handle){
throw std::runtime_error("USB Device not opened");
}
}
void WebUsbTransport::enumerate(t_transport_vect & res) {
int r;
libusb_device **devs;
libusb_context *ctx = nullptr;
r = libusb_init(&ctx);
CHECK_AND_ASSERT_THROW_MES(r >= 0, "Unable to init libusb");
set_libusb_log(ctx);
ssize_t cnt = libusb_get_device_list(ctx, &devs);
if (cnt < 0){
libusb_exit(ctx);
throw std::runtime_error("Unable to enumerate libusb devices");
}
MTRACE("Libusb devices: " << cnt);
for(ssize_t i = 0; i < cnt; i++) {
libusb_device_descriptor desc{};
r = libusb_get_device_descriptor(devs[i], &desc);
if (r < 0){
MERROR("Unable to get libusb device descriptor " << i);
continue;
}
const auto trezor_dev_idx = get_trezor_dev_id(&desc);
if (!is_device_supported(trezor_dev_idx)){
continue;
}
MTRACE("Found Trezor device: " << desc.idVendor << ":" << desc.idProduct << " dev_idx " << (int)trezor_dev_idx);
auto t = std::make_shared<WebUsbTransport>(boost::make_optional(&desc));
t->m_bus_id = libusb_get_bus_number(devs[i]);
t->m_device_addr = libusb_get_device_address(devs[i]);
// Port resolution may fail. Non-critical error, just addressing precision is decreased.
get_libusb_ports(devs[i], t->m_port_numbers);
res.push_back(t);
}
libusb_free_device_list(devs, 1);
libusb_exit(ctx);
}
std::string WebUsbTransport::get_path() const {
if (!m_usb_device_desc){
return "";
}
return get_usb_path(static_cast<uint8_t>(m_bus_id), m_port_numbers);
};
void WebUsbTransport::open() {
if (!pre_open()){
return;
}
const int interface = get_interface();
#define TREZOR_DESTROY_SESSION() do { libusb_exit(m_usb_session); m_usb_session = nullptr; } while(0)
int r;
libusb_device **devs = nullptr;
if (m_usb_session) {
TREZOR_DESTROY_SESSION();
}
r = libusb_init(&m_usb_session);
CHECK_AND_ASSERT_THROW_MES(r >= 0, "Unable to init libusb");
set_libusb_log(m_usb_session);
bool found = false;
int open_res = 0;
ssize_t cnt = libusb_get_device_list(m_usb_session, &devs);
if (cnt < 0){
TREZOR_DESTROY_SESSION();
throw std::runtime_error("Unable to enumerate libusb devices");
}
for (ssize_t i = 0; i < cnt; i++) {
libusb_device_descriptor desc{};
r = libusb_get_device_descriptor(devs[i], &desc);
if (r < 0){
MERROR("Unable to get libusb device descriptor " << i);
continue;
}
const auto trezor_dev_idx = get_trezor_dev_id(&desc);
if (!is_device_supported(trezor_dev_idx)){
continue;
}
auto bus_id = libusb_get_bus_number(devs[i]);
std::vector<uint8_t> path;
// Port resolution may fail. Non-critical error, just addressing precision is decreased.
get_libusb_ports(devs[i], path);
MTRACE("Found Trezor device: " << desc.idVendor << ":" << desc.idProduct
<< ", dev_idx: " << (int)trezor_dev_idx
<< ". path: " << get_usb_path(bus_id, path));
if (bus_id == m_bus_id && path == m_port_numbers) {
found = true;
m_usb_device = devs[i];
open_res = libusb_open(m_usb_device, &m_usb_device_handle);
break;
}
}
libusb_free_device_list(devs, 1);
if (!found){
TREZOR_DESTROY_SESSION();
throw exc::DeviceAcquireException("Device not found");
} else if (found && open_res != 0) {
m_usb_device_handle = nullptr;
m_usb_device = nullptr;
TREZOR_DESTROY_SESSION();
throw exc::DeviceAcquireException("Unable to open libusb device");
}
r = libusb_claim_interface(m_usb_device_handle, interface);
if (r != 0){
libusb_close(m_usb_device_handle);
m_usb_device_handle = nullptr;
m_usb_device = nullptr;
TREZOR_DESTROY_SESSION();
throw exc::DeviceAcquireException("Unable to claim libusb device");
}
m_open_counter = 1;
m_proto->session_begin(*this);
#undef TREZOR_DESTROY_SESSION
};
void WebUsbTransport::close() {
if (!pre_close()){
return;
}
MTRACE("Closing Trezor:WebUsbTransport");
m_proto->session_end(*this);
int r = libusb_release_interface(m_usb_device_handle, get_interface());
if (r != 0){
MERROR("Could not release libusb interface: " << r);
}
m_usb_device = nullptr;
if (m_usb_device_handle) {
libusb_close(m_usb_device_handle);
m_usb_device_handle = nullptr;
}
if (m_usb_session) {
libusb_exit(m_usb_session);
m_usb_session = nullptr;
}
};
std::shared_ptr<Transport> WebUsbTransport::find_debug() {
#ifdef WITH_TREZOR_DEBUGGING
require_device();
auto t = std::make_shared<WebUsbTransport>(boost::make_optional(m_usb_device_desc.get()));
t->m_bus_id = m_bus_id;
t->m_device_addr = m_device_addr;
t->m_port_numbers = m_port_numbers;
t->m_debug_mode = true;
return t;
#else
MINFO("Debug link is disabled in production");
return nullptr;
#endif
}
int WebUsbTransport::get_interface() const{
const int INTERFACE_NORMAL = 0;
#ifdef WITH_TREZOR_DEBUGGING
const int INTERFACE_DEBUG = 1;
return m_debug_mode ? INTERFACE_DEBUG : INTERFACE_NORMAL;
#else
return INTERFACE_NORMAL;
#endif
}
unsigned char WebUsbTransport::get_endpoint() const{
const unsigned char ENDPOINT_NORMAL = 1;
#ifdef WITH_TREZOR_DEBUGGING
const unsigned char ENDPOINT_DEBUG = 2;
return m_debug_mode ? ENDPOINT_DEBUG : ENDPOINT_NORMAL;
#else
return ENDPOINT_NORMAL;
#endif
}
void WebUsbTransport::write(const google::protobuf::Message &req) {
m_proto->write(*this, req);
};
void WebUsbTransport::read(std::shared_ptr<google::protobuf::Message> & msg, messages::MessageType * msg_type) {
m_proto->read(*this, msg, msg_type);
};
void WebUsbTransport::write_chunk(const void * buff, size_t size) {
require_connected();
if (size != REPLEN){
throw exc::CommunicationException("Invalid chunk size: ");
}
unsigned char endpoint = get_endpoint();
endpoint = (endpoint & ~LIBUSB_ENDPOINT_DIR_MASK) | LIBUSB_ENDPOINT_OUT;
int transferred = 0;
int r = libusb_interrupt_transfer(m_usb_device_handle, endpoint, (unsigned char*)buff, (int)size, &transferred, 0);
CHECK_AND_ASSERT_THROW_MES(r == 0, "Unable to transfer, r: " << r);
if (transferred != (int)size){
throw exc::CommunicationException("Could not transfer chunk");
}
};
size_t WebUsbTransport::read_chunk(void * buff, size_t size) {
require_connected();
unsigned char endpoint = get_endpoint();
endpoint = (endpoint & ~LIBUSB_ENDPOINT_DIR_MASK) | LIBUSB_ENDPOINT_IN;
int transferred = 0;
int r = libusb_interrupt_transfer(m_usb_device_handle, endpoint, (unsigned char*)buff, (int)size, &transferred, 0);
CHECK_AND_ASSERT_THROW_MES(r == 0, "Unable to transfer, r: " << r);
if (transferred != (int)size){
throw exc::CommunicationException("Could not read the chunk");
}
return transferred;
};
std::ostream& WebUsbTransport::dump(std::ostream& o) const {
o << "WebUsbTransport<path=" << get_path()
<< ", vendorId=" << (m_usb_device_desc ? std::to_string(m_usb_device_desc->idVendor) : "?")
<< ", productId=" << (m_usb_device_desc ? std::to_string(m_usb_device_desc->idProduct) : "?")
<< ", deviceType=";
if (m_usb_device_desc){
if (is_trezor1(m_usb_device_desc.get()))
o << "TrezorOne";
else if (is_trezor2(m_usb_device_desc.get()))
o << "TrezorT";
else if (is_trezor2_bl(m_usb_device_desc.get()))
o << "TrezorT BL";
} else {
o << "?";
}
return o << ">";
};
#endif // WITH_DEVICE_TREZOR_WEBUSB
void enumerate(t_transport_vect & res){
BridgeTransport bt;
try{
bt.enumerate(res);
} catch (const std::exception & e){
MERROR("BridgeTransport enumeration failed:" << e.what());
}
#ifdef WITH_DEVICE_TREZOR_WEBUSB
hw::trezor::WebUsbTransport btw;
try{
btw.enumerate(res);
} catch (const std::exception & e){
MERROR("WebUsbTransport enumeration failed:" << e.what());
}
#endif
#ifdef WITH_DEVICE_TREZOR_UDP
hw::trezor::UdpTransport btu;
try{
btu.enumerate(res);
} catch (const std::exception & e){
MERROR("UdpTransport enumeration failed:" << e.what());
}
#endif
}
void sort_transports_by_env(t_transport_vect & res){
const char *env_trezor_path = getenv("TREZOR_PATH");
if (!env_trezor_path){
return;
}
// Sort transports by the longest matching prefix with TREZOR_PATH
std::string trezor_path(env_trezor_path);
std::vector<size_t> match_idx(res.size());
std::vector<size_t> path_permutation(res.size());
for(size_t i = 0; i < res.size(); ++i){
auto cpath = res[i]->get_path();
std::string * s1 = &trezor_path;
std::string * s2 = &cpath;
// first has to be shorter in std::mismatch(). Returns first non-matching iterators.
if (s1->size() >= s2->size()){
std::swap(s1, s2);
}
const auto mism = std::mismatch(s1->begin(), s1->end(), s2->begin());
match_idx[i] = mism.first - s1->begin();
path_permutation[i] = i;
}
std::sort(path_permutation.begin(), path_permutation.end(), [&](const size_t i0, const size_t i1) {
return match_idx[i0] > match_idx[i1];
});
tools::apply_permutation(path_permutation, res);
}
std::shared_ptr<Transport> transport(const std::string & path){
if (boost::starts_with(path, BridgeTransport::PATH_PREFIX)){
return std::make_shared<BridgeTransport>(path.substr(strlen(BridgeTransport::PATH_PREFIX)));
} else if (boost::starts_with(path, UdpTransport::PATH_PREFIX)){
return std::make_shared<UdpTransport>(path.substr(strlen(UdpTransport::PATH_PREFIX)));
} else {
throw std::invalid_argument("Unknown Trezor device path: " + path);
}
}
void throw_failure_exception(const messages::common::Failure * failure) {
if (failure == nullptr){
throw std::invalid_argument("Failure message cannot be null");
}
boost::optional<std::string> message = failure->has_message() ? boost::make_optional(failure->message()) : boost::none;
boost::optional<uint32_t> code = failure->has_code() ? boost::make_optional(static_cast<uint32_t>(failure->code())) : boost::none;
if (!code){
throw exc::proto::FailureException(code, message);
}
auto ecode = failure->code();
if (ecode == messages::common::Failure_FailureType_Failure_UnexpectedMessage){
throw exc::proto::UnexpectedMessageException(code, message);
} else if (ecode == messages::common::Failure_FailureType_Failure_ActionCancelled){
throw exc::proto::CancelledException(code, message);
} else if (ecode == messages::common::Failure_FailureType_Failure_PinExpected){
throw exc::proto::PinExpectedException(code, message);
} else if (ecode == messages::common::Failure_FailureType_Failure_PinInvalid){
throw exc::proto::InvalidPinException(code, message);
} else if (ecode == messages::common::Failure_FailureType_Failure_NotEnoughFunds){
throw exc::proto::NotEnoughFundsException(code, message);
} else if (ecode == messages::common::Failure_FailureType_Failure_NotInitialized){
throw exc::proto::NotInitializedException(code, message);
} else if (ecode == messages::common::Failure_FailureType_Failure_FirmwareError){
throw exc::proto::FirmwareErrorException(code, message);
} else {
throw exc::proto::FailureException(code, message);
}
}
GenericMessage::GenericMessage(messages::MessageType m_type, const shared_ptr<google::protobuf::Message> &m_msg)
: m_type(m_type), m_msg(m_msg), m_empty(false) {}
std::ostream& operator<<(std::ostream& o, hw::trezor::Transport const& t){
return t.dump(o);
}
std::ostream& operator<<(std::ostream& o, std::shared_ptr<hw::trezor::Transport> const& t){
if (!t){
return o << "None";
}
return t->dump(o);
}
}
}
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