// Copyright (c) Microsoft Corporation. All rights reserved. // Licensed under the MIT License. #include "inc/ClientInterface.h" #include "inc/Helper/CommonHelper.h" #include "inc/Helper/Concurrent.h" #include "inc/Helper/Base64Encode.h" #include "inc/Helper/StringConvert.h" #include AnnClient::AnnClient(const char* p_serverAddr, const char* p_serverPort) : m_connectionID(SPTAG::Socket::c_invalidConnectionID), m_timeoutInMilliseconds(9000) { using namespace SPTAG; m_socketClient.reset(new Socket::Client(GetHandlerMap(), 2, 30)); if (nullptr == p_serverAddr || nullptr == p_serverPort) { return; } m_server = p_serverAddr; m_port = p_serverPort; auto connectCallback = [this](Socket::ConnectionID p_cid, ErrorCode p_ec) { m_connectionID = p_cid; if (ErrorCode::Socket_FailedResolveEndPoint == p_ec) { return; } while (Socket::c_invalidConnectionID == m_connectionID) { ErrorCode errCode; std::this_thread::sleep_for(std::chrono::seconds(10)); m_connectionID = m_socketClient->ConnectToServer(m_server, m_port, errCode); } }; m_socketClient->AsyncConnectToServer(m_server, m_port, connectCallback); m_socketClient->SetEventOnConnectionClose([this](Socket::ConnectionID p_cid) { ErrorCode errCode; m_connectionID = Socket::c_invalidConnectionID; while (Socket::c_invalidConnectionID == m_connectionID) { std::this_thread::sleep_for(std::chrono::seconds(10)); m_connectionID = m_socketClient->ConnectToServer(m_server, m_port, errCode); } }); } AnnClient::~AnnClient() { } void AnnClient::SetTimeoutMilliseconds(int p_timeout) { m_timeoutInMilliseconds = p_timeout; } void AnnClient::SetSearchParam(const char* p_name, const char* p_value) { std::lock_guard guard(m_paramMutex); if (nullptr == p_name || '\0' == *p_name) { return; } std::string name(p_name); SPTAG::Helper::StrUtils::ToLowerInPlace(name); if (nullptr == p_value || '\0' == *p_value) { m_params.erase(name); return; } m_params[name] = p_value; } void AnnClient::ClearSearchParam() { std::lock_guard guard(m_paramMutex); m_params.clear(); } std::shared_ptr AnnClient::Search(ByteArray p_data, int p_resultNum, const char* p_valueType, bool p_withMetaData) { using namespace SPTAG; SPTAG::Socket::RemoteSearchResult ret; SPTAG::VectorValueType valueType = SPTAG::VectorValueType::Undefined; SPTAG::Helper::Convert::ConvertStringTo(p_valueType, valueType); if (Socket::c_invalidConnectionID != m_connectionID && SPTAG::VectorValueType::Undefined != valueType) { auto signal = std::make_shared(1); auto callback = [&ret, signal](RemoteSearchResult p_result) { if (RemoteSearchResult::ResultStatus::Success == p_result.m_status) { ret = std::move(p_result); } signal->FinishOne(); }; auto timeoutCallback = [this](std::shared_ptr p_callback) { if (nullptr != p_callback) { RemoteSearchResult result; result.m_status = RemoteSearchResult::ResultStatus::Timeout; (*p_callback)(std::move(result)); } }; auto connectCallback = [callback, this](bool p_connectSucc) { if (!p_connectSucc) { RemoteSearchResult result; result.m_status = RemoteSearchResult::ResultStatus::FailedNetwork; callback(std::move(result)); } }; Socket::Packet packet; packet.Header().m_connectionID = Socket::c_invalidConnectionID; packet.Header().m_packetType = Socket::PacketType::SearchRequest; packet.Header().m_processStatus = Socket::PacketProcessStatus::Ok; packet.Header().m_resourceID = m_callbackManager.Add(std::make_shared(std::move(callback)), m_timeoutInMilliseconds, std::move(timeoutCallback)); Socket::RemoteQuery query; query.m_queryString = CreateSearchQuery(p_data, p_resultNum, p_withMetaData, valueType); packet.Header().m_bodyLength = static_cast(query.EstimateBufferSize()); packet.AllocateBuffer(packet.Header().m_bodyLength); query.Write(packet.Body()); packet.Header().WriteBuffer(packet.HeaderBuffer()); m_socketClient->SendPacket(m_connectionID, std::move(packet), connectCallback); signal->Wait(); } else { SPTAGLIB_LOG(Helper::LogLevel::LL_Error, "Error connection or data type!"); } return std::make_shared(ret); } bool AnnClient::IsConnected() const { return m_connectionID != SPTAG::Socket::c_invalidConnectionID; } SPTAG::Socket::PacketHandlerMapPtr AnnClient::GetHandlerMap() { using namespace SPTAG; Socket::PacketHandlerMapPtr handlerMap(new Socket::PacketHandlerMap); handlerMap->emplace(Socket::PacketType::SearchResponse, std::bind(&AnnClient::SearchResponseHanlder, this, std::placeholders::_1, std::placeholders::_2)); return handlerMap; } void AnnClient::SearchResponseHanlder(SPTAG::Socket::ConnectionID p_localConnectionID, SPTAG::Socket::Packet p_packet) { using namespace SPTAG; std::shared_ptr callback = m_callbackManager.GetAndRemove(p_packet.Header().m_resourceID); if (nullptr == callback) { return; } if (p_packet.Header().m_processStatus != Socket::PacketProcessStatus::Ok || 0 == p_packet.Header().m_bodyLength) { Socket::RemoteSearchResult result; result.m_status = Socket::RemoteSearchResult::ResultStatus::FailedExecute; (*callback)(std::move(result)); } else { Socket::RemoteSearchResult result; result.Read(p_packet.Body()); (*callback)(std::move(result)); } } std::string AnnClient::CreateSearchQuery(const ByteArray& p_data, int p_resultNum, bool p_extractMetadata, SPTAG::VectorValueType p_valueType) { std::stringstream out; out << "#"; std::size_t encLen; SPTAG::Helper::Base64::Encode(p_data.Data(), p_data.Length(), out, encLen); out << " $datatype:" << SPTAG::Helper::Convert::ConvertToString(p_valueType); out << " $resultnum:" << std::to_string(p_resultNum); out << " $extractmetadata:" << (p_extractMetadata ? "true" : "false"); { std::lock_guard guard(m_paramMutex); for (const auto& param : m_params) { out << " $" << param.first << ":" << param.second; } } return out.str(); }