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/*
* Copyright (c) 2015-2018 Nitrokey UG
*
* This file is part of libnitrokey.
*
* libnitrokey is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* any later version.
*
* libnitrokey is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with libnitrokey. If not, see <http://www.gnu.org/licenses/>.
*
* SPDX-License-Identifier: LGPL-3.0
*/
#include <chrono>
#include <codecvt>
#include <iostream>
#include <locale>
#include <thread>
#include <cstddef>
#include <stdexcept>
#include "hidapi/hidapi.h"
#include "libnitrokey/misc.h"
#include "libnitrokey/device.h"
#include "libnitrokey/log.h"
#include <mutex>
#include "DeviceCommunicationExceptions.h"
#include "device.h"
std::mutex mex_dev_com;
using namespace nitrokey::device;
using namespace nitrokey::log;
using namespace nitrokey::misc;
using namespace std::chrono;
const uint16_t nitrokey::device::NITROKEY_VID = 0x20a0;
const uint16_t nitrokey::device::NITROKEY_PRO_PID = 0x4108;
const uint16_t nitrokey::device::NITROKEY_STORAGE_PID = 0x4109;
const uint16_t nitrokey::device::PURISM_VID = 0x316d;
const uint16_t nitrokey::device::LIBREM_KEY_PID = 0x4c4b;
Option<DeviceModel> nitrokey::device::product_id_to_model(uint16_t product_id) {
return product_id_to_model(NITROKEY_VID, product_id);
}
Option<DeviceModel> nitrokey::device::product_id_to_model(uint16_t vendor_id, uint16_t product_id) {
switch (vendor_id) {
case NITROKEY_VID:
switch (product_id) {
case NITROKEY_PRO_PID:
return DeviceModel::PRO;
case NITROKEY_STORAGE_PID:
return DeviceModel::STORAGE;
default:
return {};
}
case PURISM_VID:
switch (product_id) {
case LIBREM_KEY_PID:
return DeviceModel::LIBREM;
default:
return {};
}
default:
return {};
}
}
std::atomic_int Device::instances_count{0};
std::chrono::milliseconds Device::default_delay {0} ;
std::ostream& nitrokey::device::operator<<(std::ostream& stream, DeviceModel model) {
switch (model) {
case DeviceModel::PRO:
stream << "Pro";
break;
case DeviceModel::STORAGE:
stream << "Storage";
break;
case DeviceModel::LIBREM:
stream << "Librem";
break;
default:
stream << "Unknown";
break;
}
return stream;
}
Device::Device(const uint16_t vid, const uint16_t pid, const DeviceModel model,
const milliseconds send_receive_delay, const int retry_receiving_count,
const milliseconds retry_timeout)
:
last_command_status(0),
m_vid(vid),
m_pid(pid),
m_model(model),
m_retry_sending_count(1),
m_retry_receiving_count(retry_receiving_count),
m_retry_timeout(retry_timeout),
m_send_receive_delay(send_receive_delay),
mp_devhandle(nullptr)
{
instances_count++;
}
bool Device::disconnect() {
//called in object's destructor
LOG(__FUNCTION__, Loglevel::DEBUG_L2);
std::lock_guard<std::mutex> lock(mex_dev_com);
return _disconnect();
}
bool Device::_disconnect() {
LOG(std::string(__FUNCTION__) +
std::string(m_model == DeviceModel::PRO ? "PRO" : (m_model == DeviceModel::STORAGE ? "STORAGE" : "LIBREM")),
Loglevel::DEBUG_L2);
LOG(std::string(__FUNCTION__) + std::string(" *IN* "), Loglevel::DEBUG_L2);
if(mp_devhandle == nullptr) {
LOG(std::string("Disconnection: handle already freed: ") + std::to_string(mp_devhandle == nullptr) + " ("+m_path+")", Loglevel::DEBUG_L1);
return false;
}
hid_close(mp_devhandle);
mp_devhandle = nullptr;
#ifndef __APPLE__
if (instances_count == 1){
LOG(std::string("Calling hid_exit"), Loglevel::DEBUG_L2);
hid_exit();
}
#endif
return true;
}
bool Device::connect() {
LOG(__FUNCTION__, Loglevel::DEBUG_L2);
std::lock_guard<std::mutex> lock(mex_dev_com);
return _connect();
}
bool Device::_connect() {
LOG(std::string(__FUNCTION__) + std::string(" *IN* "), Loglevel::DEBUG_L2);
// hid_init(); // done automatically on hid_open
if (m_path.empty()){
mp_devhandle = hid_open(m_vid, m_pid, nullptr);
} else {
mp_devhandle = hid_open_path(m_path.c_str());
}
const bool success = mp_devhandle != nullptr;
LOG(std::string("Connection success: ") + std::to_string(success) + " ("+m_path+")", Loglevel::DEBUG_L1);
return success;
}
void Device::set_path(const std::string path){
m_path = path;
}
int Device::send(const void *packet) {
LOG(__FUNCTION__, Loglevel::DEBUG_L2);
std::lock_guard<std::mutex> lock(mex_dev_com);
LOG(std::string(__FUNCTION__) + std::string(" *IN* "), Loglevel::DEBUG_L2);
int send_feature_report = -1;
for (int i = 0; i < 3 && send_feature_report < 0; ++i) {
if (mp_devhandle == nullptr) {
LOG(std::string("Connection fail") , Loglevel::DEBUG_L2);
throw DeviceNotConnected("Attempted HID send on an invalid descriptor.");
}
send_feature_report = hid_send_feature_report(
mp_devhandle, (const unsigned char *)(packet), HID_REPORT_SIZE);
if (send_feature_report < 0) _reconnect();
//add thread sleep?
LOG(std::string("Sending attempt: ")+std::to_string(i+1) + " / 3" , Loglevel::DEBUG_L2);
}
return send_feature_report;
}
int Device::recv(void *packet) {
LOG(__FUNCTION__, Loglevel::DEBUG_L2);
std::lock_guard<std::mutex> lock(mex_dev_com);
LOG(std::string(__FUNCTION__) + std::string(" *IN* "), Loglevel::DEBUG_L2);
int status;
int retry_count = 0;
for (;;) {
if (mp_devhandle == nullptr){
LOG(std::string("Connection fail") , Loglevel::DEBUG_L2);
throw DeviceNotConnected("Attempted HID receive on an invalid descriptor.");
}
status = (hid_get_feature_report(mp_devhandle, (unsigned char *)(packet),
HID_REPORT_SIZE));
auto pwherr = hid_error(mp_devhandle);
std::wstring wherr = (pwherr != nullptr) ? pwherr : L"No error message";
std::string herr(wherr.begin(), wherr.end());
LOG(std::string("libhid error message: ") + herr,
Loglevel::DEBUG_L2);
if (status > 0) break; // success
if (retry_count++ >= m_retry_receiving_count) {
LOG(
"Maximum retry count reached: " + std::to_string(retry_count),
Loglevel::WARNING);
LOG(
std::string("Counter stats: ") + m_counters.get_as_string(),
Loglevel::DEBUG);
break;
}
_reconnect();
LOG("Retrying... " + std::to_string(retry_count),
Loglevel::DEBUG);
std::this_thread::sleep_for(m_retry_timeout);
}
return status;
}
namespace {
void add_vendor_devices(std::vector<DeviceInfo>& res, uint16_t vendor_id){
auto pInfo = hid_enumerate(vendor_id, 0);
auto pInfo_ = pInfo;
while (pInfo != nullptr){
auto deviceModel = product_id_to_model(vendor_id, pInfo->product_id);
if (deviceModel.has_value()) {
std::string path(pInfo->path);
std::wstring serialNumberW(pInfo->serial_number);
std::wstring_convert<std::codecvt_utf8<wchar_t>> converter;
std::string serialNumber = converter.to_bytes(serialNumberW);
DeviceInfo info = { deviceModel.value(), path, serialNumber };
res.push_back(info);
}
pInfo = pInfo->next;
}
if (pInfo_ != nullptr){
hid_free_enumeration(pInfo_);
}
}
}
std::vector<DeviceInfo> Device::enumerate(){
std::vector<DeviceInfo> res;
::add_vendor_devices(res, NITROKEY_VID);
::add_vendor_devices(res, PURISM_VID);
return res;
}
std::shared_ptr<Device> Device::create(DeviceModel model) {
switch (model) {
case DeviceModel::PRO:
return std::make_shared<Stick10>();
case DeviceModel::STORAGE:
return std::make_shared<Stick20>();
case DeviceModel::LIBREM:
return std::make_shared<LibremKey>();
default:
return {};
}
}
bool Device::could_be_enumerated() {
LOG(__FUNCTION__, Loglevel::DEBUG_L2);
std::lock_guard<std::mutex> lock(mex_dev_com);
if (mp_devhandle==nullptr){
return false;
}
#ifndef __APPLE__
auto pInfo = hid_enumerate(m_vid, m_pid);
if (pInfo != nullptr){
hid_free_enumeration(pInfo);
return true;
}
return false;
#else
// alternative for OSX
unsigned char buf[1];
return hid_read_timeout(mp_devhandle, buf, sizeof(buf), 20) != -1;
#endif
}
void Device::show_stats() {
auto s = m_counters.get_as_string();
LOG(s, Loglevel::DEBUG_L2);
}
void Device::_reconnect() {
LOG(__FUNCTION__, Loglevel::DEBUG_L2);
++m_counters.low_level_reconnect;
_disconnect();
_connect();
}
Device::~Device() {
show_stats();
disconnect();
instances_count--;
}
void Device::set_default_device_speed(int delay) {
default_delay = std::chrono::duration<int, std::milli>(delay);
}
void Device::set_receiving_delay(const std::chrono::milliseconds delay){
std::lock_guard<std::mutex> lock(mex_dev_com);
m_send_receive_delay = delay;
}
void Device::set_retry_delay(const std::chrono::milliseconds delay){
std::lock_guard<std::mutex> lock(mex_dev_com);
m_retry_timeout = delay;
}
Stick10::Stick10():
Device(NITROKEY_VID, NITROKEY_PRO_PID, DeviceModel::PRO, 100ms, 5, 100ms)
{
setDefaultDelay();
}
Stick20::Stick20():
Device(NITROKEY_VID, NITROKEY_STORAGE_PID, DeviceModel::STORAGE, 40ms, 55, 40ms)
{
setDefaultDelay();
}
LibremKey::LibremKey():
Device(PURISM_VID, LIBREM_KEY_PID, DeviceModel::LIBREM, 100ms, 5, 100ms)
{
setDefaultDelay();
}
#include <sstream>
#define p(x) ss << #x << " " << x << ", ";
std::string Device::ErrorCounters::get_as_string() {
std::stringstream ss;
p(total_comm_runs);
p(communication_successful);
ss << "(";
p(command_successful_recv);
p(command_result_not_equal_0_recv);
ss << "), ";
p(sends_executed);
p(recv_executed);
p(successful_storage_commands);
p(total_retries);
ss << "(";
p(busy);
p(busy_progressbar);
p(CRC_other_than_awaited);
p(wrong_CRC);
ss << "), ";
p(low_level_reconnect);
p(sending_error);
p(receiving_error);
return ss.str();
}
void Device::setDefaultDelay() {
LOG(__FUNCTION__, Loglevel::DEBUG_L2);
auto count = default_delay.count();
if (count != 0){
LOG("Setting default delay to " + std::to_string(count), Loglevel::DEBUG_L2);
m_retry_timeout = default_delay;
m_send_receive_delay = default_delay;
}
}
#undef p
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