/*
* 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 .
*
* SPDX-License-Identifier: LGPL-3.0
*/
#include "NK_C_API.h"
#include
#include
#include "libnitrokey/NitrokeyManager.h"
#include
#include "libnitrokey/LibraryException.h"
#include "libnitrokey/cxx_semantics.h"
#include "libnitrokey/stick20_commands.h"
#include "libnitrokey/device_proto.h"
#include "libnitrokey/version.h"
#ifdef _MSC_VER
#ifdef _WIN32
#pragma message "Using own strndup"
char * strndup(const char* str, size_t maxlen) {
size_t len = strnlen(str, maxlen);
char* dup = (char *)malloc(len + 1);
memcpy(dup, str, len);
dup[len] = 0;
return dup;
}
#endif
#endif
using namespace nitrokey;
const uint8_t NK_PWS_SLOT_COUNT = PWS_SLOT_COUNT;
static uint8_t NK_last_command_status = 0;
static const int max_string_field_length = 100;
template
T* duplicate_vector_and_clear(std::vector &v){
auto d = new T[v.size()];
std::copy(v.begin(), v.end(), d);
std::fill(v.begin(), v.end(), 0);
return d;
}
template
std::tuple get_with_status(T func, R fallback) {
NK_last_command_status = 0;
try {
return std::make_tuple(0, func());
}
catch (CommandFailedException & commandFailedException){
NK_last_command_status = commandFailedException.last_command_status;
}
catch (LibraryException & libraryException){
NK_last_command_status = libraryException.exception_id();
}
catch (const DeviceCommunicationException &deviceException){
NK_last_command_status = 256-deviceException.getType();
}
return std::make_tuple(NK_last_command_status, fallback);
}
template
uint8_t * get_with_array_result(T func){
return std::get<1>(get_with_status(func, nullptr));
}
template
char* get_with_string_result(T func){
auto result = std::get<1>(get_with_status(func, nullptr));
if (result == nullptr) {
return strndup("", MAXIMUM_STR_REPLY_LENGTH);
}
return result;
}
template
auto get_with_result(T func){
return std::get<1>(get_with_status(func, static_cast(0)));
}
template
uint8_t get_without_result(T func){
NK_last_command_status = 0;
try {
func();
return 0;
}
catch (CommandFailedException & commandFailedException){
NK_last_command_status = commandFailedException.last_command_status;
}
catch (LibraryException & libraryException){
NK_last_command_status = libraryException.exception_id();
}
catch (const InvalidCRCReceived &invalidCRCException){
;
}
catch (const DeviceCommunicationException &deviceException){
NK_last_command_status = 256-deviceException.getType();
}
return NK_last_command_status;
}
#ifdef __cplusplus
extern "C" {
#endif
NK_C_API uint8_t NK_get_last_command_status() {
auto _copy = NK_last_command_status;
NK_last_command_status = 0;
return _copy;
}
NK_C_API int NK_login(const char *device_model) {
auto m = NitrokeyManager::instance();
try {
NK_last_command_status = 0;
return m->connect(device_model);
}
catch (CommandFailedException & commandFailedException) {
NK_last_command_status = commandFailedException.last_command_status;
return commandFailedException.last_command_status;
}
catch (const DeviceCommunicationException &deviceException){
NK_last_command_status = 256-deviceException.getType();
cerr << deviceException.what() << endl;
return 0;
}
catch (std::runtime_error &e) {
cerr << e.what() << endl;
return 0;
}
return 0;
}
NK_C_API int NK_login_enum(NK_device_model device_model) {
const char *model_string;
switch (device_model) {
case NK_PRO:
model_string = "P";
break;
case NK_STORAGE:
model_string = "S";
break;
case NK_LIBREM:
model_string = "L";
break;
case NK_DISCONNECTED:
default:
/* no such enum value -- return error code */
return 0;
}
return NK_login(model_string);
}
NK_C_API int NK_logout() {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->disconnect();
});
}
NK_C_API int NK_first_authenticate(const char* admin_password, const char* admin_temporary_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
return m->first_authenticate(admin_password, admin_temporary_password);
});
}
NK_C_API int NK_user_authenticate(const char* user_password, const char* user_temporary_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->user_authenticate(user_password, user_temporary_password);
});
}
NK_C_API int NK_factory_reset(const char* admin_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->factory_reset(admin_password);
});
}
NK_C_API int NK_build_aes_key(const char* admin_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->build_aes_key(admin_password);
});
}
NK_C_API int NK_unlock_user_password(const char *admin_password, const char *new_user_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->unlock_user_password(admin_password, new_user_password);
});
}
NK_C_API int NK_write_config(uint8_t numlock, uint8_t capslock, uint8_t scrolllock, bool enable_user_password,
bool delete_user_password,
const char *admin_temporary_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
return m->write_config(numlock, capslock, scrolllock, enable_user_password, delete_user_password, admin_temporary_password);
});
}
NK_C_API uint8_t* NK_read_config() {
auto m = NitrokeyManager::instance();
return get_with_array_result([&]() {
auto v = m->read_config();
return duplicate_vector_and_clear(v);
});
}
NK_C_API enum NK_device_model NK_get_device_model() {
auto m = NitrokeyManager::instance();
try {
auto model = m->get_connected_device_model();
switch (model) {
case DeviceModel::PRO:
return NK_PRO;
case DeviceModel::STORAGE:
return NK_STORAGE;
case DeviceModel::LIBREM:
return NK_LIBREM;
default:
/* unknown or not connected device */
return NK_device_model::NK_DISCONNECTED;
}
} catch (const DeviceNotConnected& e) {
return NK_device_model::NK_DISCONNECTED;
}
}
void clear_string(std::string &s) {
std::fill(s.begin(), s.end(), ' ');
}
NK_C_API char * NK_status() {
return NK_get_status_as_string();
}
NK_C_API char * NK_get_status_as_string() {
auto m = NitrokeyManager::instance();
return get_with_string_result([&]() {
string && s = m->get_status_as_string();
char * rs = strndup(s.c_str(), MAXIMUM_STR_REPLY_LENGTH);
clear_string(s);
return rs;
});
}
NK_C_API int NK_get_status(struct NK_status* out) {
if (out == nullptr) {
return -1;
}
auto m = NitrokeyManager::instance();
auto result = get_with_status([&]() {
return m->get_status();
}, proto::stick10::GetStatus::ResponsePayload());
auto error_code = std::get<0>(result);
if (error_code != 0) {
return error_code;
}
auto status = std::get<1>(result);
out->firmware_version_major = status.firmware_version_st.major;
out->firmware_version_minor = status.firmware_version_st.minor;
out->serial_number_smart_card = status.card_serial_u32;
out->config_numlock = status.numlock;
out->config_capslock = status.capslock;
out->config_scrolllock = status.scrolllock;
out->otp_user_password = status.enable_user_password != 0;
return 0;
}
NK_C_API char * NK_device_serial_number() {
auto m = NitrokeyManager::instance();
return get_with_string_result([&]() {
string && s = m->get_serial_number();
char * rs = strndup(s.c_str(), max_string_field_length);
clear_string(s);
return rs;
});
}
NK_C_API uint32_t NK_device_serial_number_as_u32() {
auto m = NitrokeyManager::instance();
return get_with_result([&]() {
return m->get_serial_number_as_u32();
});
}
NK_C_API char * NK_get_hotp_code(uint8_t slot_number) {
return NK_get_hotp_code_PIN(slot_number, "");
}
NK_C_API char * NK_get_hotp_code_PIN(uint8_t slot_number, const char *user_temporary_password) {
auto m = NitrokeyManager::instance();
return get_with_string_result([&]() {
string && s = m->get_HOTP_code(slot_number, user_temporary_password);
char * rs = strndup(s.c_str(), max_string_field_length);
clear_string(s);
return rs;
});
}
NK_C_API char * NK_get_totp_code(uint8_t slot_number, uint64_t challenge, uint64_t last_totp_time,
uint8_t last_interval) {
return NK_get_totp_code_PIN(slot_number, challenge, last_totp_time, last_interval, "");
}
NK_C_API char * NK_get_totp_code_PIN(uint8_t slot_number, uint64_t challenge, uint64_t last_totp_time,
uint8_t last_interval, const char *user_temporary_password) {
auto m = NitrokeyManager::instance();
return get_with_string_result([&]() {
string && s = m->get_TOTP_code(slot_number, challenge, last_totp_time, last_interval, user_temporary_password);
char * rs = strndup(s.c_str(), max_string_field_length);
clear_string(s);
return rs;
});
}
NK_C_API int NK_erase_hotp_slot(uint8_t slot_number, const char *temporary_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&] {
m->erase_hotp_slot(slot_number, temporary_password);
});
}
NK_C_API int NK_erase_totp_slot(uint8_t slot_number, const char *temporary_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&] {
m->erase_totp_slot(slot_number, temporary_password);
});
}
NK_C_API int NK_write_hotp_slot(uint8_t slot_number, const char *slot_name, const char *secret, uint64_t hotp_counter,
bool use_8_digits, bool use_enter, bool use_tokenID, const char *token_ID,
const char *temporary_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&] {
m->write_HOTP_slot(slot_number, slot_name, secret, hotp_counter, use_8_digits, use_enter, use_tokenID, token_ID,
temporary_password);
});
}
NK_C_API int NK_write_totp_slot(uint8_t slot_number, const char *slot_name, const char *secret, uint16_t time_window,
bool use_8_digits, bool use_enter, bool use_tokenID, const char *token_ID,
const char *temporary_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&] {
m->write_TOTP_slot(slot_number, slot_name, secret, time_window, use_8_digits, use_enter, use_tokenID, token_ID,
temporary_password);
});
}
NK_C_API char* NK_get_totp_slot_name(uint8_t slot_number) {
auto m = NitrokeyManager::instance();
return get_with_string_result([&]() {
const auto slot_name = m->get_totp_slot_name(slot_number);
return slot_name;
});
}
NK_C_API char* NK_get_hotp_slot_name(uint8_t slot_number) {
auto m = NitrokeyManager::instance();
return get_with_string_result([&]() {
const auto slot_name = m->get_hotp_slot_name(slot_number);
return slot_name;
});
}
NK_C_API void NK_set_debug(bool state) {
auto m = NitrokeyManager::instance();
m->set_debug(state);
}
NK_C_API void NK_set_debug_level(const int level) {
auto m = NitrokeyManager::instance();
m->set_loglevel(level);
}
NK_C_API unsigned int NK_get_major_library_version() {
return get_major_library_version();
}
NK_C_API unsigned int NK_get_minor_library_version() {
return get_minor_library_version();
}
NK_C_API const char* NK_get_library_version() {
return get_library_version();
}
NK_C_API int NK_totp_set_time(uint64_t time) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->set_time(time);
});
}
NK_C_API int NK_totp_set_time_soft(uint64_t time) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->set_time_soft(time);
});
}
NK_C_API int NK_totp_get_time() {
return 0;
}
NK_C_API int NK_change_admin_PIN(const char *current_PIN, const char *new_PIN) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->change_admin_PIN(current_PIN, new_PIN);
});
}
NK_C_API int NK_change_user_PIN(const char *current_PIN, const char *new_PIN) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->change_user_PIN(current_PIN, new_PIN);
});
}
NK_C_API int NK_enable_password_safe(const char *user_pin) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->enable_password_safe(user_pin);
});
}
NK_C_API uint8_t * NK_get_password_safe_slot_status() {
auto m = NitrokeyManager::instance();
return get_with_array_result([&]() {
auto slot_status = m->get_password_safe_slot_status();
return duplicate_vector_and_clear(slot_status);
});
}
NK_C_API uint8_t NK_get_user_retry_count() {
auto m = NitrokeyManager::instance();
return get_with_result([&]() {
return m->get_user_retry_count();
});
}
NK_C_API uint8_t NK_get_admin_retry_count() {
auto m = NitrokeyManager::instance();
return get_with_result([&]() {
return m->get_admin_retry_count();
});
}
NK_C_API int NK_lock_device() {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->lock_device();
});
}
NK_C_API char *NK_get_password_safe_slot_name(uint8_t slot_number) {
auto m = NitrokeyManager::instance();
return get_with_string_result([&]() {
return m->get_password_safe_slot_name(slot_number);
});
}
NK_C_API char *NK_get_password_safe_slot_login(uint8_t slot_number) {
auto m = NitrokeyManager::instance();
return get_with_string_result([&]() {
return m->get_password_safe_slot_login(slot_number);
});
}
NK_C_API char *NK_get_password_safe_slot_password(uint8_t slot_number) {
auto m = NitrokeyManager::instance();
return get_with_string_result([&]() {
return m->get_password_safe_slot_password(slot_number);
});
}
NK_C_API int NK_write_password_safe_slot(uint8_t slot_number, const char *slot_name, const char *slot_login,
const char *slot_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->write_password_safe_slot(slot_number, slot_name, slot_login, slot_password);
});
}
NK_C_API int NK_erase_password_safe_slot(uint8_t slot_number) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->erase_password_safe_slot(slot_number);
});
}
NK_C_API int NK_is_AES_supported(const char *user_password) {
auto m = NitrokeyManager::instance();
return get_with_result([&]() {
return (uint8_t)m->is_AES_supported(user_password);
});
}
NK_C_API int NK_login_auto() {
auto m = NitrokeyManager::instance();
return get_with_result([&]() {
return (uint8_t)m->connect();
});
}
// storage commands
NK_C_API int NK_send_startup(uint64_t seconds_from_epoch) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->send_startup(seconds_from_epoch);
});
}
NK_C_API int NK_unlock_encrypted_volume(const char* user_pin) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->unlock_encrypted_volume(user_pin);
});
}
NK_C_API int NK_lock_encrypted_volume() {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->lock_encrypted_volume();
});
}
NK_C_API int NK_unlock_hidden_volume(const char* hidden_volume_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->unlock_hidden_volume(hidden_volume_password);
});
}
NK_C_API int NK_lock_hidden_volume() {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->lock_hidden_volume();
});
}
NK_C_API int NK_create_hidden_volume(uint8_t slot_nr, uint8_t start_percent, uint8_t end_percent,
const char *hidden_volume_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->create_hidden_volume(slot_nr, start_percent, end_percent,
hidden_volume_password);
});
}
NK_C_API int NK_set_unencrypted_read_only(const char *user_pin) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->set_unencrypted_read_only(user_pin);
});
}
NK_C_API int NK_set_unencrypted_read_write(const char *user_pin) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->set_unencrypted_read_write(user_pin);
});
}
NK_C_API int NK_set_unencrypted_read_only_admin(const char *admin_pin) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->set_unencrypted_read_only_admin(admin_pin);
});
}
NK_C_API int NK_set_unencrypted_read_write_admin(const char *admin_pin) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->set_unencrypted_read_write_admin(admin_pin);
});
}
NK_C_API int NK_set_encrypted_read_only(const char* admin_pin) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->set_encrypted_volume_read_only(admin_pin);
});
}
NK_C_API int NK_set_encrypted_read_write(const char* admin_pin) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->set_encrypted_volume_read_write(admin_pin);
});
}
NK_C_API int NK_export_firmware(const char* admin_pin) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->export_firmware(admin_pin);
});
}
NK_C_API int NK_clear_new_sd_card_warning(const char* admin_pin) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->clear_new_sd_card_warning(admin_pin);
});
}
NK_C_API int NK_fill_SD_card_with_random_data(const char* admin_pin) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->fill_SD_card_with_random_data(admin_pin);
});
}
NK_C_API int NK_change_update_password(const char* current_update_password,
const char* new_update_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->change_update_password(current_update_password, new_update_password);
});
}
NK_C_API int NK_enable_firmware_update(const char* update_password){
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->enable_firmware_update(update_password);
});
}
NK_C_API char* NK_get_status_storage_as_string() {
auto m = NitrokeyManager::instance();
return get_with_string_result([&]() {
return m->get_status_storage_as_string();
});
}
NK_C_API int NK_get_status_storage(NK_storage_status* out) {
if (out == nullptr) {
return -1;
}
auto m = NitrokeyManager::instance();
auto result = get_with_status([&]() {
return m->get_status_storage();
}, proto::stick20::DeviceConfigurationResponsePacket::ResponsePayload());
auto error_code = std::get<0>(result);
if (error_code != 0) {
return error_code;
}
auto status = std::get<1>(result);
out->unencrypted_volume_read_only = status.ReadWriteFlagUncryptedVolume_u8 != 0;
out->unencrypted_volume_active = status.VolumeActiceFlag_st.unencrypted;
out->encrypted_volume_read_only = status.ReadWriteFlagCryptedVolume_u8 != 0;
out->encrypted_volume_active = status.VolumeActiceFlag_st.encrypted;
out->hidden_volume_read_only = status.ReadWriteFlagHiddenVolume_u8 != 0;
out->hidden_volume_active = status.VolumeActiceFlag_st.hidden;
out->firmware_version_major = status.versionInfo.major;
out->firmware_version_minor = status.versionInfo.minor;
out->firmware_locked = status.FirmwareLocked_u8 != 0;
out->serial_number_sd_card = status.ActiveSD_CardID_u32;
out->serial_number_smart_card = status.ActiveSmartCardID_u32;
out->user_retry_count = status.UserPwRetryCount;
out->admin_retry_count = status.AdminPwRetryCount;
out->new_sd_card_found = status.NewSDCardFound_st.NewCard;
out->filled_with_random = (status.SDFillWithRandomChars_u8 & 0x01) != 0;
out->stick_initialized = status.StickKeysNotInitiated == 0;
return 0;
}
NK_C_API int NK_get_storage_production_info(NK_storage_ProductionTest * out){
if (out == nullptr) {
return -1;
}
auto m = NitrokeyManager::instance();
auto result = get_with_status([&]() {
return m->production_info();
}, proto::stick20::ProductionTest::ResponsePayload());
auto error_code = std::get<0>(result);
if (error_code != 0) {
return error_code;
}
stick20::ProductionTest::ResponsePayload status = std::get<1>(result);
// Cannot use memcpy without declaring C API struct packed
// (which is not parsed by Python's CFFI apparently), hence the manual way.
#define a(x) out->x = status.x;
a(FirmwareVersion_au8[0]);
a(FirmwareVersion_au8[1]);
a(FirmwareVersionInternal_u8);
a(SD_Card_Size_u8);
a(CPU_CardID_u32);
a(SmartCardID_u32);
a(SD_CardID_u32);
a(SC_UserPwRetryCount);
a(SC_AdminPwRetryCount);
a(SD_Card_ManufacturingYear_u8);
a(SD_Card_ManufacturingMonth_u8);
a(SD_Card_OEM_u16);
a(SD_WriteSpeed_u16);
a(SD_Card_Manufacturer_u8);
#undef a
return 0;
}
NK_C_API int NK_get_SD_usage_data(struct NK_SD_usage_data* out) {
if (out == nullptr)
return -1;
auto m = NitrokeyManager::instance();
auto result = get_with_status([&]() {
return m->get_SD_usage_data();
}, std::make_pair(0, 0));
auto error_code = std::get<0>(result);
if (error_code != 0)
return error_code;
auto data = std::get<1>(result);
out->write_level_min = std::get<0>(data);
out->write_level_max = std::get<1>(data);
return 0;
}
NK_C_API char* NK_get_SD_usage_data_as_string() {
auto m = NitrokeyManager::instance();
return get_with_string_result([&]() {
return m->get_SD_usage_data_as_string();
});
}
NK_C_API int NK_get_progress_bar_value() {
auto m = NitrokeyManager::instance();
return std::get<1>(get_with_status([&]() {
return m->get_progress_bar_value();
}, -2));
}
NK_C_API uint8_t NK_get_major_firmware_version() {
auto m = NitrokeyManager::instance();
return get_with_result([&]() {
return m->get_major_firmware_version();
});
}
NK_C_API uint8_t NK_get_minor_firmware_version() {
auto m = NitrokeyManager::instance();
return get_with_result([&]() {
return m->get_minor_firmware_version();
});
}
NK_C_API int NK_set_unencrypted_volume_rorw_pin_type_user() {
auto m = NitrokeyManager::instance();
return get_with_result([&]() {
return m->set_unencrypted_volume_rorw_pin_type_user() ? 1 : 0;
});
}
NK_C_API char* NK_list_devices_by_cpuID() {
auto nm = NitrokeyManager::instance();
return get_with_string_result([&]() {
auto v = nm->list_devices_by_cpuID();
std::string res;
for (const auto a : v){
res += a+";";
}
if (res.size()>0) res.pop_back(); // remove last delimiter char
return strndup(res.c_str(), MAXIMUM_STR_REPLY_LENGTH);
});
}
bool copy_device_info(const DeviceInfo& source, NK_device_info* target) {
switch (source.m_deviceModel) {
case DeviceModel::PRO:
target->model = NK_PRO;
break;
case DeviceModel::STORAGE:
target->model = NK_STORAGE;
break;
case DeviceModel::LIBREM:
target->model = NK_LIBREM;
break;
default:
return false;
}
target->path = strndup(source.m_path.c_str(), MAXIMUM_STR_REPLY_LENGTH);
target->serial_number = strndup(source.m_serialNumber.c_str(), MAXIMUM_STR_REPLY_LENGTH);
target->next = nullptr;
return target->path && target->serial_number;
}
NK_C_API struct NK_device_info* NK_list_devices() {
auto nm = NitrokeyManager::instance();
return get_with_result([&]() -> NK_device_info* {
auto v = nm->list_devices();
if (v.empty())
return nullptr;
auto result = new NK_device_info();
auto ptr = result;
auto first = v.begin();
if (!copy_device_info(*first, ptr)) {
NK_free_device_info(result);
return nullptr;
}
v.erase(first);
for (auto& info : v) {
ptr->next = new NK_device_info();
ptr = ptr->next;
if (!copy_device_info(info, ptr)) {
NK_free_device_info(result);
return nullptr;
}
}
return result;
});
}
NK_C_API void NK_free_device_info(struct NK_device_info* device_info) {
if (!device_info)
return;
if (device_info->next)
NK_free_device_info(device_info->next);
free(device_info->path);
free(device_info->serial_number);
delete device_info;
}
NK_C_API int NK_connect_with_ID(const char* id) {
auto m = NitrokeyManager::instance();
return get_with_result([&]() {
return m->connect_with_ID(id) ? 1 : 0;
});
}
NK_C_API int NK_connect_with_path(const char* path) {
auto m = NitrokeyManager::instance();
return get_with_result([&]() {
return m->connect_with_path(path) ? 1 : 0;
});
}
NK_C_API int NK_wink() {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
return m->wink();
});
}
NK_C_API int NK_enable_firmware_update_pro(const char* update_password){
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->enable_firmware_update_pro(update_password);
});
}
NK_C_API int NK_change_firmware_password_pro(const char *current_firmware_password, const char *new_firmware_password) {
auto m = NitrokeyManager::instance();
return get_without_result([&]() {
m->change_firmware_update_password_pro(current_firmware_password,
new_firmware_password);
});
}
NK_C_API int NK_read_HOTP_slot(const uint8_t slot_num, struct ReadSlot_t* out){
if (out == nullptr)
return -1;
auto m = NitrokeyManager::instance();
auto result = get_with_status([&]() {
return m->get_HOTP_slot_data(slot_num);
}, stick10::ReadSlot::ResponsePayload() );
auto error_code = std::get<0>(result);
if (error_code != 0) {
return error_code;
}
#define a(x) out->x = read_slot.x
stick10::ReadSlot::ResponsePayload read_slot = std::get<1>(result);
a(_slot_config);
a(slot_counter);
#undef a
#define m(x) memmove(out->x, read_slot.x, sizeof(read_slot.x))
m(slot_name);
m(slot_token_id);
#undef m
return 0;
}
#ifdef __cplusplus
}
#endif