Nagram/TMessagesProj/jni/libtgvoip2/TgVoip.cpp
2020-03-30 15:00:09 +03:00

427 lines
14 KiB
C++

#include <mutex>
#include "TgVoip.h"
#include "VoIPController.h"
#include "VoIPServerConfig.h"
#include <stdarg.h>
#ifndef TGVOIP_USE_CUSTOM_CRYPTO
extern "C" {
#include <openssl/sha.h>
#include <openssl/aes.h>
//#include <openssl/modes.h>
#include <openssl/rand.h>
}
void tgvoip_openssl_aes_ige_encrypt(uint8_t* in, uint8_t* out, size_t length, uint8_t* key, uint8_t* iv){
AES_KEY akey;
AES_set_encrypt_key(key, 32*8, &akey);
AES_ige_encrypt(in, out, length, &akey, iv, AES_ENCRYPT);
}
void tgvoip_openssl_aes_ige_decrypt(uint8_t* in, uint8_t* out, size_t length, uint8_t* key, uint8_t* iv){
AES_KEY akey;
AES_set_decrypt_key(key, 32*8, &akey);
AES_ige_encrypt(in, out, length, &akey, iv, AES_DECRYPT);
}
void tgvoip_openssl_rand_bytes(uint8_t* buffer, size_t len){
RAND_bytes(buffer, len);
}
void tgvoip_openssl_sha1(uint8_t* msg, size_t len, uint8_t* output){
SHA1(msg, len, output);
}
void tgvoip_openssl_sha256(uint8_t* msg, size_t len, uint8_t* output){
SHA256(msg, len, output);
}
void tgvoip_openssl_aes_ctr_encrypt(uint8_t* inout, size_t length, uint8_t* key, uint8_t* iv, uint8_t* ecount, uint32_t* num){
AES_KEY akey;
AES_set_encrypt_key(key, 32*8, &akey);
AES_ctr128_encrypt(inout, inout, length, &akey, iv, ecount, num);
}
void tgvoip_openssl_aes_cbc_encrypt(uint8_t* in, uint8_t* out, size_t length, uint8_t* key, uint8_t* iv){
AES_KEY akey;
AES_set_encrypt_key(key, 256, &akey);
AES_cbc_encrypt(in, out, length, &akey, iv, AES_ENCRYPT);
}
void tgvoip_openssl_aes_cbc_decrypt(uint8_t* in, uint8_t* out, size_t length, uint8_t* key, uint8_t* iv){
AES_KEY akey;
AES_set_decrypt_key(key, 256, &akey);
AES_cbc_encrypt(in, out, length, &akey, iv, AES_DECRYPT);
}
tgvoip::CryptoFunctions tgvoip::VoIPController::crypto={
tgvoip_openssl_rand_bytes,
tgvoip_openssl_sha1,
tgvoip_openssl_sha256,
tgvoip_openssl_aes_ige_encrypt,
tgvoip_openssl_aes_ige_decrypt,
tgvoip_openssl_aes_ctr_encrypt,
tgvoip_openssl_aes_cbc_encrypt,
tgvoip_openssl_aes_cbc_decrypt
};
#endif
class TgVoipImpl : public TgVoip {
public:
TgVoipImpl(
std::vector<TgVoipEndpoint> const &endpoints,
TgVoipPersistentState const &persistentState,
std::unique_ptr<TgVoipProxy> const &proxy,
TgVoipConfig const &config,
TgVoipEncryptionKey const &encryptionKey,
TgVoipNetworkType initialNetworkType
#ifdef TGVOIP_USE_CUSTOM_CRYPTO
,
TgVoipCrypto const &crypto
#endif
#ifdef TGVOIP_USE_CALLBACK_AUDIO_IO
,
TgVoipAudioDataCallbacks const &audioDataCallbacks
#endif
) {
#ifdef TGVOIP_USE_CUSTOM_CRYPTO
tgvoip::VoIPController::crypto.sha1 = crypto.sha1;
tgvoip::VoIPController::crypto.sha256 = crypto.sha256;
tgvoip::VoIPController::crypto.rand_bytes = crypto.rand_bytes;
tgvoip::VoIPController::crypto.aes_ige_encrypt = crypto.aes_ige_encrypt;
tgvoip::VoIPController::crypto.aes_ige_decrypt = crypto.aes_ige_decrypt;
tgvoip::VoIPController::crypto.aes_ctr_encrypt = crypto.aes_ctr_encrypt;
#endif
controller_ = new tgvoip::VoIPController();
controller_->implData = this;
#ifdef TGVOIP_USE_CALLBACK_AUDIO_IO
controller_->SetAudioDataCallbacks(audioDataCallbacks.input, audioDataCallbacks.output, audioDataCallbacks.preprocessed);
#endif
controller_->SetPersistentState(persistentState.value);
if (proxy != nullptr) {
controller_->SetProxy(tgvoip::PROXY_SOCKS5, proxy->host, proxy->port, proxy->login, proxy->password);
}
auto callbacks = tgvoip::VoIPController::Callbacks();
callbacks.connectionStateChanged = &TgVoipImpl::controllerStateCallback;
callbacks.groupCallKeyReceived = nullptr;
callbacks.groupCallKeySent = nullptr;
callbacks.signalBarCountChanged = &TgVoipImpl::signalBarsCallback;
callbacks.upgradeToGroupCallRequested = nullptr;
controller_->SetCallbacks(callbacks);
std::vector<tgvoip::Endpoint> mappedEndpoints;
for (auto endpoint : endpoints) {
tgvoip::Endpoint::Type mappedType;
switch (endpoint.type) {
case TgVoipEndpointType::UdpRelay:
mappedType = tgvoip::Endpoint::Type::UDP_RELAY;
break;
case TgVoipEndpointType::Lan:
mappedType = tgvoip::Endpoint::Type::UDP_P2P_LAN;
break;
case TgVoipEndpointType::Inet:
mappedType = tgvoip::Endpoint::Type::UDP_P2P_INET;
break;
case TgVoipEndpointType::TcpRelay:
mappedType = tgvoip::Endpoint::Type::TCP_RELAY;
break;
default:
mappedType = tgvoip::Endpoint::Type::UDP_RELAY;
break;
}
tgvoip::IPv4Address address(endpoint.host.ipv4);
tgvoip::IPv6Address addressv6(endpoint.host.ipv6);
mappedEndpoints.emplace_back(endpoint.endpointId, endpoint.port, address, addressv6, mappedType, endpoint.peerTag);
}
int mappedDataSaving;
switch (config.dataSaving) {
case TgVoipDataSaving::Mobile:
mappedDataSaving = tgvoip::DATA_SAVING_MOBILE;
break;
case TgVoipDataSaving::Always:
mappedDataSaving = tgvoip::DATA_SAVING_ALWAYS;
break;
default:
mappedDataSaving = tgvoip::DATA_SAVING_NEVER;
break;
}
tgvoip::VoIPController::Config mappedConfig(
config.initializationTimeout,
config.receiveTimeout,
mappedDataSaving,
config.enableAEC,
config.enableNS,
config.enableAGC,
config.enableCallUpgrade
);
mappedConfig.logFilePath = config.logPath;
mappedConfig.statsDumpFilePath = {};
controller_->SetConfig(mappedConfig);
setNetworkType(initialNetworkType);
std::vector<uint8_t> encryptionKeyValue = encryptionKey.value;
controller_->SetEncryptionKey(reinterpret_cast<char*>(encryptionKeyValue.data()), encryptionKey.isOutgoing);
controller_->SetRemoteEndpoints(mappedEndpoints, config.enableP2P, config.maxApiLayer);
controller_->Start();
controller_->Connect();
}
~TgVoipImpl() {
}
void setOnStateUpdated(std::function<void(TgVoipState)> onStateUpdated) {
std::lock_guard<std::mutex> lock(m_onStateUpdated);
onStateUpdated_ = onStateUpdated;
}
void setOnSignalBarsUpdated(std::function<void(int)> onSignalBarsUpdated) {
std::lock_guard<std::mutex> lock(m_onSignalBarsUpdated);
onSignalBarsUpdated_ = onSignalBarsUpdated;
}
void setNetworkType(TgVoipNetworkType networkType) override {
int mappedType;
switch (networkType) {
case TgVoipNetworkType::Unknown:
mappedType = tgvoip::NET_TYPE_UNKNOWN;
break;
case TgVoipNetworkType::Gprs:
mappedType = tgvoip::NET_TYPE_GPRS;
break;
case TgVoipNetworkType::Edge:
mappedType = tgvoip::NET_TYPE_EDGE;
break;
case TgVoipNetworkType::ThirdGeneration:
mappedType = tgvoip::NET_TYPE_3G;
break;
case TgVoipNetworkType::Hspa:
mappedType = tgvoip::NET_TYPE_HSPA;
break;
case TgVoipNetworkType::Lte:
mappedType = tgvoip::NET_TYPE_LTE;
break;
case TgVoipNetworkType::WiFi:
mappedType = tgvoip::NET_TYPE_WIFI;
break;
case TgVoipNetworkType::Ethernet:
mappedType = tgvoip::NET_TYPE_ETHERNET;
break;
case TgVoipNetworkType::OtherHighSpeed:
mappedType = tgvoip::NET_TYPE_OTHER_HIGH_SPEED;
break;
case TgVoipNetworkType::OtherLowSpeed:
mappedType = tgvoip::NET_TYPE_OTHER_LOW_SPEED;
break;
case TgVoipNetworkType::OtherMobile:
mappedType = tgvoip::NET_TYPE_OTHER_MOBILE;
break;
case TgVoipNetworkType::Dialup:
mappedType = tgvoip::NET_TYPE_DIALUP;
break;
default:
mappedType = tgvoip::NET_TYPE_UNKNOWN;
break;
}
controller_->SetNetworkType(mappedType);
}
void setMuteMicrophone(bool muteMicrophone) override {
controller_->SetMicMute(muteMicrophone);
}
void setAudioOutputGainControlEnabled(bool enabled) override {
controller_->SetAudioOutputGainControlEnabled(enabled);
}
void setEchoCancellationStrength(int strength) override {
controller_->SetEchoCancellationStrength(strength);
}
std::string getLastError() override {
switch (controller_->GetLastError()) {
case tgvoip::ERROR_INCOMPATIBLE: return "ERROR_INCOMPATIBLE";
case tgvoip::ERROR_TIMEOUT: return "ERROR_TIMEOUT";
case tgvoip::ERROR_AUDIO_IO: return "ERROR_AUDIO_IO";
case tgvoip::ERROR_PROXY: return "ERROR_PROXY";
default: return "ERROR_UNKNOWN";
}
}
std::string getDebugInfo() override {
return controller_->GetDebugString();
}
int64_t getPreferredRelayId() override {
return controller_->GetPreferredRelayID();
}
TgVoipTrafficStats getTrafficStats() override {
tgvoip::VoIPController::TrafficStats stats;
controller_->GetStats(&stats);
return {
.bytesSentWifi = stats.bytesSentWifi,
.bytesReceivedWifi = stats.bytesRecvdWifi,
.bytesSentMobile = stats.bytesSentMobile,
.bytesReceivedMobile = stats.bytesRecvdMobile
};
}
TgVoipPersistentState getPersistentState() override {
return {controller_->GetPersistentState()};
}
TgVoipFinalState stop() override {
controller_->Stop();
TgVoipFinalState finalState = {
.persistentState = getPersistentState(),
.debugLog = controller_->GetDebugLog(),
.trafficStats = getTrafficStats(),
.isRatingSuggested = controller_->NeedRate()
};
delete controller_;
controller_ = nullptr;
return finalState;
}
static void controllerStateCallback(tgvoip::VoIPController* controller, int state) {
TgVoipImpl* self = reinterpret_cast<TgVoipImpl*>(controller->implData);
std::lock_guard<std::mutex> lock(self->m_onStateUpdated);
if (self->onStateUpdated_) {
TgVoipState mappedState;
switch (state) {
case tgvoip::STATE_WAIT_INIT:
mappedState = TgVoipState::WaitInit;
break;
case tgvoip::STATE_WAIT_INIT_ACK:
mappedState = TgVoipState::WaitInitAck;
break;
case tgvoip::STATE_ESTABLISHED:
mappedState = TgVoipState::Estabilished;
break;
case tgvoip::STATE_FAILED:
mappedState = TgVoipState::Failed;
break;
case tgvoip::STATE_RECONNECTING:
mappedState = TgVoipState::Reconnecting;
break;
default:
mappedState = TgVoipState::Estabilished;
break;
}
self->onStateUpdated_(mappedState);
}
}
static void signalBarsCallback(tgvoip::VoIPController* controller, int signalBars) {
TgVoipImpl* self = reinterpret_cast<TgVoipImpl*>(controller->implData);
std::lock_guard<std::mutex> lock(self->m_onSignalBarsUpdated);
if (self->onSignalBarsUpdated_) {
self->onSignalBarsUpdated_(signalBars);
}
}
private:
tgvoip::VoIPController *controller_;
std::function<void(TgVoipState)> onStateUpdated_;
std::function<void(int)> onSignalBarsUpdated_;
std::mutex m_onStateUpdated, m_onSignalBarsUpdated;
};
std::function<void(std::string const &)> globalLoggingFunction;
void __tgvoip_call_tglog(const char *format, ...){
va_list vaArgs;
va_start(vaArgs, format);
va_list vaCopy;
va_copy(vaCopy, vaArgs);
const int length = std::vsnprintf(nullptr, 0, format, vaCopy);
va_end(vaCopy);
std::vector<char> zc(length + 1);
std::vsnprintf(zc.data(), zc.size(), format, vaArgs);
va_end(vaArgs);
if (globalLoggingFunction != nullptr) {
globalLoggingFunction(std::string(zc.data(), zc.size()));
}
}
void TgVoip::setLoggingFunction(std::function<void(std::string const &)> loggingFunction) {
globalLoggingFunction = loggingFunction;
}
void TgVoip::setGlobalServerConfig(const std::string &serverConfig) {
tgvoip::ServerConfig::GetSharedInstance()->Update(serverConfig);
}
int TgVoip::getConnectionMaxLayer() {
return tgvoip::VoIPController::GetConnectionMaxLayer();
}
std::string TgVoip::getVersion() {
return tgvoip::VoIPController::GetVersion();
}
TgVoip *TgVoip::makeInstance(
TgVoipConfig const &config,
TgVoipPersistentState const &persistentState,
std::vector<TgVoipEndpoint> const &endpoints,
std::unique_ptr<TgVoipProxy> const &proxy,
TgVoipNetworkType initialNetworkType,
TgVoipEncryptionKey const &encryptionKey
#ifdef TGVOIP_USE_CUSTOM_CRYPTO
,
TgVoipCrypto const &crypto
#endif
#ifdef TGVOIP_USE_CALLBACK_AUDIO_IO
,
TgVoipAudioDataCallbacks const &audioDataCallbacks
#endif
) {
return new TgVoipImpl(
endpoints,
persistentState,
proxy,
config,
encryptionKey,
initialNetworkType
#ifdef TGVOIP_USE_CUSTOM_CRYPTO
,
crypto
#endif
#ifdef TGVOIP_USE_CALLBACK_AUDIO_IO
,
audioDataCallbacks
#endif
);
}
TgVoip::~TgVoip() = default;