434 lines
16 KiB
C++
Executable File
434 lines
16 KiB
C++
Executable File
#include <stdlib.h>
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#include <string.h>
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#include <windows.h>
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#include <vector>
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#include <string>
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#include <collection.h>
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#include "CXWrapper.h"
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#include <wrl.h>
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#include <robuffer.h>
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using namespace Windows::Storage::Streams;
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using namespace Microsoft::WRL;
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using namespace libtgvoip;
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using namespace Platform;
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using namespace tgvoip;
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using namespace Windows::Security::Cryptography;
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using namespace Windows::Security::Cryptography::Core;
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using namespace Windows::Storage::Streams;
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using namespace Windows::Data::Json;
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using namespace Windows::Phone::Media::Devices;
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//CryptographicHash^ MicrosoftCryptoImpl::sha1Hash;
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//CryptographicHash^ MicrosoftCryptoImpl::sha256Hash;
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HashAlgorithmProvider^ MicrosoftCryptoImpl::sha1Provider;
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HashAlgorithmProvider^ MicrosoftCryptoImpl::sha256Provider;
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SymmetricKeyAlgorithmProvider^ MicrosoftCryptoImpl::aesKeyProvider;
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/*struct tgvoip_cx_data{
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VoIPControllerWrapper^ self;
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};*/
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VoIPControllerWrapper::VoIPControllerWrapper(){
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VoIPController::crypto.aes_ige_decrypt=MicrosoftCryptoImpl::AesIgeDecrypt;
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VoIPController::crypto.aes_ige_encrypt=MicrosoftCryptoImpl::AesIgeEncrypt;
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VoIPController::crypto.aes_ctr_encrypt = MicrosoftCryptoImpl::AesCtrEncrypt;
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VoIPController::crypto.sha1=MicrosoftCryptoImpl::SHA1;
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VoIPController::crypto.sha256=MicrosoftCryptoImpl::SHA256;
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VoIPController::crypto.rand_bytes=MicrosoftCryptoImpl::RandBytes;
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MicrosoftCryptoImpl::Init();
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controller=new VoIPController();
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controller->implData=(void*)this;
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controller->SetStateCallback(VoIPControllerWrapper::OnStateChanged);
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controller->SetSignalBarsCountCallback(VoIPControllerWrapper::OnSignalBarsChanged);
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}
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VoIPControllerWrapper::~VoIPControllerWrapper(){
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delete controller;
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}
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void VoIPControllerWrapper::Start(){
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controller->Start();
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}
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void VoIPControllerWrapper::Connect(){
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controller->Connect();
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}
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void VoIPControllerWrapper::SetPublicEndpoints(const Platform::Array<libtgvoip::Endpoint^>^ endpoints, bool allowP2P){
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std::vector<tgvoip::Endpoint> eps;
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for (int i = 0; i < endpoints->Length; i++)
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{
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libtgvoip::Endpoint^ _ep = endpoints[i];
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tgvoip::Endpoint ep;
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ep.id = _ep->id;
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ep.type = Endpoint::TYPE_UDP_RELAY;
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char buf[128];
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if (_ep->ipv4){
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WideCharToMultiByte(CP_UTF8, 0, _ep->ipv4->Data(), -1, buf, sizeof(buf), NULL, NULL);
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ep.address = IPv4Address(buf);
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}
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if (_ep->ipv6){
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WideCharToMultiByte(CP_UTF8, 0, _ep->ipv6->Data(), -1, buf, sizeof(buf), NULL, NULL);
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ep.v6address = IPv6Address(buf);
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}
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ep.port = _ep->port;
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if (_ep->peerTag->Length != 16)
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throw ref new Platform::InvalidArgumentException("Peer tag must be exactly 16 bytes long");
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memcpy(ep.peerTag, _ep->peerTag->Data, 16);
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eps.push_back(ep);
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}
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controller->SetRemoteEndpoints(eps, allowP2P);
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}
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void VoIPControllerWrapper::SetNetworkType(NetworkType type){
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controller->SetNetworkType((int)type);
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}
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void VoIPControllerWrapper::SetMicMute(bool mute){
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controller->SetMicMute(mute);
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}
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int64 VoIPControllerWrapper::GetPreferredRelayID(){
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return controller->GetPreferredRelayID();
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}
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void VoIPControllerWrapper::SetEncryptionKey(const Platform::Array<uint8>^ key, bool isOutgoing){
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if(key->Length!=256)
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throw ref new Platform::InvalidArgumentException("Encryption key must be exactly 256 bytes long");
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controller->SetEncryptionKey((char*)key->Data, isOutgoing);
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}
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Platform::String^ VoIPControllerWrapper::GetDebugString(){
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char abuf[10240];
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controller->GetDebugString(abuf, sizeof(abuf));
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wchar_t wbuf[10240];
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MultiByteToWideChar(CP_UTF8, 0, abuf, -1, wbuf, sizeof(wbuf));
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return ref new Platform::String(wbuf);
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}
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Platform::String^ VoIPControllerWrapper::GetDebugLog(){
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std::string log=controller->GetDebugLog();
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size_t len=sizeof(wchar_t)*(log.length()+1);
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wchar_t* wlog=(wchar_t*)malloc(len);
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MultiByteToWideChar(CP_UTF8, 0, log.c_str(), -1, wlog, len/sizeof(wchar_t));
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Platform::String^ res=ref new Platform::String(wlog);
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free(wlog);
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return res;
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}
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Error VoIPControllerWrapper::GetLastError(){
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return (Error)controller->GetLastError();
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}
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Platform::String^ VoIPControllerWrapper::GetVersion(){
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const char* v=VoIPController::GetVersion();
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wchar_t buf[32];
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MultiByteToWideChar(CP_UTF8, 0, v, -1, buf, sizeof(buf));
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return ref new Platform::String(buf);
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}
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void VoIPControllerWrapper::OnStateChanged(VoIPController* c, int state){
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reinterpret_cast<VoIPControllerWrapper^>(c->implData)->OnStateChangedInternal(state);
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}
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void VoIPControllerWrapper::OnSignalBarsChanged(VoIPController* c, int count){
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reinterpret_cast<VoIPControllerWrapper^>(c->implData)->OnSignalBarsChangedInternal(count);
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}
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void VoIPControllerWrapper::OnStateChangedInternal(int state){
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CallStateChanged(this, (CallState)state);
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}
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void VoIPControllerWrapper::OnSignalBarsChangedInternal(int count){
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SignalBarsChanged(this, count);
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}
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void VoIPControllerWrapper::SetConfig(double initTimeout, double recvTimeout, DataSavingMode dataSavingMode, bool enableAEC, bool enableNS, bool enableAGC, Platform::String^ logFilePath, Platform::String^ statsDumpFilePath){
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VoIPController::Config config{0};
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config.initTimeout=initTimeout;
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config.recvTimeout=recvTimeout;
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config.dataSaving=(int)dataSavingMode;
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config.enableAEC=enableAEC;
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config.enableAGC=enableAGC;
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config.enableNS=enableNS;
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if(logFilePath!=nullptr&&!logFilePath->IsEmpty()){
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WideCharToMultiByte(CP_UTF8, 0, logFilePath->Data(), -1, config.logFilePath, sizeof(config.logFilePath), NULL, NULL);
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}
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if(statsDumpFilePath!=nullptr&&!statsDumpFilePath->IsEmpty()){
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WideCharToMultiByte(CP_UTF8, 0, statsDumpFilePath->Data(), -1, config.statsDumpFilePath, sizeof(config.statsDumpFilePath), NULL, NULL);
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}
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controller->SetConfig(&config);
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}
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void VoIPControllerWrapper::SetProxy(ProxyProtocol protocol, Platform::String^ address, uint16_t port, Platform::String^ username, Platform::String^ password){
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char _address[2000];
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char _username[256];
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char _password[256];
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WideCharToMultiByte(CP_UTF8, 0, address->Data(), -1, _address, sizeof(_address), NULL, NULL);
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WideCharToMultiByte(CP_UTF8, 0, username->Data(), -1, _username, sizeof(_username), NULL, NULL);
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WideCharToMultiByte(CP_UTF8, 0, password->Data(), -1, _password, sizeof(_password), NULL, NULL);
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controller->SetProxy((int)protocol, _address, port, _username, _password);
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}
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void VoIPControllerWrapper::SetAudioOutputGainControlEnabled(bool enabled){
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controller->SetAudioOutputGainControlEnabled(enabled);
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}
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void VoIPControllerWrapper::UpdateServerConfig(Platform::String^ json){
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JsonObject^ jconfig=JsonValue::Parse(json)->GetObject();
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std::map<std::string, std::string> config;
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for each (auto item in jconfig){
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char _key[128];
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char _value[256];
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WideCharToMultiByte(CP_UTF8, 0, item->Key->Data(), -1, _key, sizeof(_key), NULL, NULL);
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if(item->Value->ValueType==Windows::Data::Json::JsonValueType::String)
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WideCharToMultiByte(CP_UTF8, 0, item->Value->GetString()->Data(), -1, _value, sizeof(_value), NULL, NULL);
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else
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WideCharToMultiByte(CP_UTF8, 0, item->Value->ToString()->Data(), -1, _value, sizeof(_value), NULL, NULL);
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std::string key(_key);
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std::string value(_value);
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config[key]=value;
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}
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ServerConfig::GetSharedInstance()->Update(config);
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}
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void VoIPControllerWrapper::SwitchSpeaker(bool external){
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auto routingManager = AudioRoutingManager::GetDefault();
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if (external){
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routingManager->SetAudioEndpoint(AudioRoutingEndpoint::Speakerphone);
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}
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else{
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if ((routingManager->AvailableAudioEndpoints & AvailableAudioRoutingEndpoints::Bluetooth) == AvailableAudioRoutingEndpoints::Bluetooth){
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routingManager->SetAudioEndpoint(AudioRoutingEndpoint::Bluetooth);
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}
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else if ((routingManager->AvailableAudioEndpoints & AvailableAudioRoutingEndpoints::Earpiece) == AvailableAudioRoutingEndpoints::Earpiece){
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routingManager->SetAudioEndpoint(AudioRoutingEndpoint::Earpiece);
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}
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}
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}
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void MicrosoftCryptoImpl::AesIgeEncrypt(uint8_t* in, uint8_t* out, size_t len, uint8_t* key, uint8_t* iv){
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IBuffer^ keybuf=IBufferFromPtr(key, 32);
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CryptographicKey^ _key=aesKeyProvider->CreateSymmetricKey(keybuf);
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uint8_t tmpOut[16];
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uint8_t* xPrev=iv+16;
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uint8_t* yPrev=iv;
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uint8_t x[16];
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uint8_t y[16];
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for(size_t offset=0;offset<len;offset+=16){
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for (size_t i=0;i<16;i++){
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if (offset+i < len){
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x[i] = in[offset+i];
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}
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else{
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x[i]=0;
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}
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}
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XorInt128(x, yPrev, y);
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IBuffer^ inbuf=IBufferFromPtr(y, 16);
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IBuffer^ outbuf=CryptographicEngine::Encrypt(_key, inbuf, nullptr);
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IBufferToPtr(outbuf, 16, tmpOut);
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XorInt128(tmpOut, xPrev, y);
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memcpy(xPrev, x, 16);
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memcpy(yPrev, y, 16);
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memcpy(out+offset, y, 16);
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}
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}
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void MicrosoftCryptoImpl::AesIgeDecrypt(uint8_t* in, uint8_t* out, size_t len, uint8_t* key, uint8_t* iv){
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IBuffer^ keybuf=IBufferFromPtr(key, 32);
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CryptographicKey^ _key=aesKeyProvider->CreateSymmetricKey(keybuf);
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uint8_t tmpOut[16];
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uint8_t* xPrev=iv;
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uint8_t* yPrev=iv+16;
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uint8_t x[16];
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uint8_t y[16];
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for(size_t offset=0;offset<len;offset+=16){
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for (size_t i=0;i<16;i++){
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if (offset+i < len){
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x[i] = in[offset+i];
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}
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else{
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x[i]=0;
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}
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}
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XorInt128(x, yPrev, y);
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IBuffer^ inbuf=IBufferFromPtr(y, 16);
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IBuffer^ outbuf=CryptographicEngine::Decrypt(_key, inbuf, nullptr);
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IBufferToPtr(outbuf, 16, tmpOut);
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XorInt128(tmpOut, xPrev, y);
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memcpy(xPrev, x, 16);
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memcpy(yPrev, y, 16);
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memcpy(out+offset, y, 16);
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}
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}
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#define GETU32(pt) (((uint32_t)(pt)[0] << 24) ^ ((uint32_t)(pt)[1] << 16) ^ ((uint32_t)(pt)[2] << 8) ^ ((uint32_t)(pt)[3]))
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#define PUTU32(ct, st) { (ct)[0] = (u8)((st) >> 24); (ct)[1] = (u8)((st) >> 16); (ct)[2] = (u8)((st) >> 8); (ct)[3] = (u8)(st); }
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typedef uint8_t u8;
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#define L_ENDIAN
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/* increment counter (128-bit int) by 2^64 */
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static void AES_ctr128_inc(unsigned char *counter) {
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unsigned long c;
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/* Grab 3rd dword of counter and increment */
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#ifdef L_ENDIAN
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c = GETU32(counter + 8);
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c++;
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PUTU32(counter + 8, c);
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#else
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c = GETU32(counter + 4);
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c++;
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PUTU32(counter + 4, c);
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#endif
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/* if no overflow, we're done */
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if (c)
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return;
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/* Grab top dword of counter and increment */
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#ifdef L_ENDIAN
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c = GETU32(counter + 12);
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c++;
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PUTU32(counter + 12, c);
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#else
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c = GETU32(counter + 0);
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c++;
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PUTU32(counter + 0, c);
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#endif
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}
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void MicrosoftCryptoImpl::AesCtrEncrypt(uint8_t* inout, size_t len, uint8_t* key, uint8_t* counter, uint8_t* ecount_buf, uint32_t* num){
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unsigned int n;
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unsigned long l = len;
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//assert(in && out && key && counter && num);
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//assert(*num < AES_BLOCK_SIZE);
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IBuffer^ keybuf = IBufferFromPtr(key, 32);
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CryptographicKey^ _key = aesKeyProvider->CreateSymmetricKey(keybuf);
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n = *num;
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while (l--) {
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if (n == 0) {
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IBuffer^ inbuf = IBufferFromPtr(counter, 16);
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IBuffer^ outbuf = CryptographicEngine::Encrypt(_key, inbuf, nullptr);
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IBufferToPtr(outbuf, 16, ecount_buf);
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//AES_encrypt(counter, ecount_buf, key);
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AES_ctr128_inc(counter);
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}
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*inout = *(inout++) ^ ecount_buf[n];
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n = (n + 1) % 16;
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}
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*num = n;
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}
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void MicrosoftCryptoImpl::SHA1(uint8_t* msg, size_t len, uint8_t* out){
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//EnterCriticalSection(&hashMutex);
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IBuffer^ arr=IBufferFromPtr(msg, len);
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CryptographicHash^ hash=sha1Provider->CreateHash();
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hash->Append(arr);
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IBuffer^ res=hash->GetValueAndReset();
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IBufferToPtr(res, 20, out);
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//LeaveCriticalSection(&hashMutex);
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}
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void MicrosoftCryptoImpl::SHA256(uint8_t* msg, size_t len, uint8_t* out){
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//EnterCriticalSection(&hashMutex);
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IBuffer^ arr=IBufferFromPtr(msg, len);
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CryptographicHash^ hash=sha256Provider->CreateHash();
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hash->Append(arr);
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IBuffer^ res=hash->GetValueAndReset();
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IBufferToPtr(res, 32, out);
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//LeaveCriticalSection(&hashMutex);
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}
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void MicrosoftCryptoImpl::RandBytes(uint8_t* buffer, size_t len){
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IBuffer^ res=CryptographicBuffer::GenerateRandom(len);
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IBufferToPtr(res, len, buffer);
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}
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void MicrosoftCryptoImpl::Init(){
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/*sha1Hash=HashAlgorithmProvider::OpenAlgorithm(HashAlgorithmNames::Sha1)->CreateHash();
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sha256Hash=HashAlgorithmProvider::OpenAlgorithm(HashAlgorithmNames::Sha256)->CreateHash();*/
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sha1Provider=HashAlgorithmProvider::OpenAlgorithm(HashAlgorithmNames::Sha1);
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sha256Provider=HashAlgorithmProvider::OpenAlgorithm(HashAlgorithmNames::Sha256);
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aesKeyProvider=SymmetricKeyAlgorithmProvider::OpenAlgorithm(SymmetricAlgorithmNames::AesEcb);
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}
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void MicrosoftCryptoImpl::XorInt128(uint8_t* a, uint8_t* b, uint8_t* out){
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uint64_t* _a=reinterpret_cast<uint64_t*>(a);
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uint64_t* _b=reinterpret_cast<uint64_t*>(b);
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uint64_t* _out=reinterpret_cast<uint64_t*>(out);
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_out[0]=_a[0]^_b[0];
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_out[1]=_a[1]^_b[1];
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}
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void MicrosoftCryptoImpl::IBufferToPtr(IBuffer^ buffer, size_t len, uint8_t* out)
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{
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ComPtr<IBufferByteAccess> bufferByteAccess;
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reinterpret_cast<IInspectable*>(buffer)->QueryInterface(IID_PPV_ARGS(&bufferByteAccess));
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byte* hashBuffer;
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bufferByteAccess->Buffer(&hashBuffer);
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CopyMemory(out, hashBuffer, len);
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}
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IBuffer^ MicrosoftCryptoImpl::IBufferFromPtr(uint8_t* msg, size_t len)
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{
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ComPtr<NativeBuffer> nativeBuffer=Make<NativeBuffer>((byte *)msg, len);
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return reinterpret_cast<IBuffer^>(nativeBuffer.Get());
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}
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/*Platform::String^ VoIPControllerWrapper::TestAesIge(){
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MicrosoftCryptoImpl::Init();
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Platform::String^ res="";
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Platform::Array<uint8>^ data=ref new Platform::Array<uint8>(32);
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Platform::Array<uint8>^ out=ref new Platform::Array<uint8>(32);
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Platform::Array<uint8>^ key=ref new Platform::Array<uint8>(16);
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Platform::Array<uint8>^ iv=ref new Platform::Array<uint8>(32);
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CryptographicBuffer::CopyToByteArray(CryptographicBuffer::DecodeFromHexString("0000000000000000000000000000000000000000000000000000000000000000"), &data);
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CryptographicBuffer::CopyToByteArray(CryptographicBuffer::DecodeFromHexString("000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f"), &iv);
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CryptographicBuffer::CopyToByteArray(CryptographicBuffer::DecodeFromHexString("000102030405060708090a0b0c0d0e0f"), &key);
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MicrosoftCryptoImpl::AesIgeEncrypt(data->Data, out->Data, 32, key->Data, iv->Data);
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res+=CryptographicBuffer::EncodeToHexString(CryptographicBuffer::CreateFromByteArray(out));
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res+="\n";
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CryptographicBuffer::CopyToByteArray(CryptographicBuffer::DecodeFromHexString("1A8519A6557BE652E9DA8E43DA4EF4453CF456B4CA488AA383C79C98B34797CB"), &data);
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CryptographicBuffer::CopyToByteArray(CryptographicBuffer::DecodeFromHexString("000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f"), &iv);
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CryptographicBuffer::CopyToByteArray(CryptographicBuffer::DecodeFromHexString("000102030405060708090a0b0c0d0e0f"), &key);
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MicrosoftCryptoImpl::AesIgeDecrypt(data->Data, out->Data, 32, key->Data, iv->Data);
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res+=CryptographicBuffer::EncodeToHexString(CryptographicBuffer::CreateFromByteArray(out));
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res+="\n";
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CryptographicBuffer::CopyToByteArray(CryptographicBuffer::DecodeFromHexString("99706487A1CDE613BC6DE0B6F24B1C7AA448C8B9C3403E3467A8CAD89340F53B"), &data);
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CryptographicBuffer::CopyToByteArray(CryptographicBuffer::DecodeFromHexString("6D656E746174696F6E206F6620494745206D6F646520666F72204F70656E5353"), &iv);
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CryptographicBuffer::CopyToByteArray(CryptographicBuffer::DecodeFromHexString("5468697320697320616E20696D706C65"), &key);
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MicrosoftCryptoImpl::AesIgeEncrypt(data->Data, out->Data, 32, key->Data, iv->Data);
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res+=CryptographicBuffer::EncodeToHexString(CryptographicBuffer::CreateFromByteArray(out));
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res+="\n";
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CryptographicBuffer::CopyToByteArray(CryptographicBuffer::DecodeFromHexString("4C2E204C6574277320686F70652042656E20676F74206974207269676874210A"), &data);
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CryptographicBuffer::CopyToByteArray(CryptographicBuffer::DecodeFromHexString("6D656E746174696F6E206F6620494745206D6F646520666F72204F70656E5353"), &iv);
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CryptographicBuffer::CopyToByteArray(CryptographicBuffer::DecodeFromHexString("5468697320697320616E20696D706C65"), &key);
|
|
MicrosoftCryptoImpl::AesIgeDecrypt(data->Data, out->Data, 32, key->Data, iv->Data);
|
|
res+=CryptographicBuffer::EncodeToHexString(CryptographicBuffer::CreateFromByteArray(out));
|
|
return res;
|
|
}*/ |