#include <MaterialBuffer.h>
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#include <logger.h>
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#include "ev_server.h"
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#include "ev_proto.h"
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#include "face_daemon_proto.h"
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#include "sample_face_search.h"
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#include "STFaceCache.h"
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#include "PbFaceList.pb.h"
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#include <signal.h>
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#include <sstream>
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#include <iostream>
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#define WRAPPER_TEXT(x) "\"" << x << "\""
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Logger g_logger(std::cout);
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STFaceCache g_STFaceCache("/opt/FaceServer/stfacedb");
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evclient_proc_t evclient_proc;
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void _sigint(int sign_no)
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{
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server_stop();
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}
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bool send_SensetimeFaceDetectResultJson(EVClientStub& client, const fdr_vec_t& result, int ret = 0)
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{
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std::stringstream ss;
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ss << "{" << LOG_ENDL;
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ss << "\"ret\":" << WRAPPER_TEXT(ret) << "," << LOG_ENDL;
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ss << "\"count\":" << WRAPPER_TEXT(result.size()) << "," << LOG_ENDL;
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ss << "\"result\":[";
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for(fdr_vec_t::const_iterator iter = result.begin(); iter != result.end(); ++iter)
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{
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ss << "[" << WRAPPER_TEXT(iter->db_id) << "," << WRAPPER_TEXT(iter->st_id) << "]";
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if (iter != std::prev(result.end()))
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ss << ",";
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}
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ss << "]" << LOG_ENDL;
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ss << "}";
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std::string output(ss.str());//#todo avoid copy
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client.sendBuffSize = output.size();
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client.sendBuff = new uint8_t[output.size() + 1];
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strcpy((char*)client.sendBuff, output.c_str());
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client.deleteSendBuff = true;
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LOG_DEBUG << (char*)client.sendBuff << LOG_ENDL;
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return true;
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}
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bool ev_proc_SensetimeFaceDetectPB(EVClientStub& client)
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{
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//#test send //00038300FE4B0000+pb
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//EVPHeader* evpHeader = (EVPHeader*)client.recvBuff;
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//LOG_DEBUG << "cmd=" << evpHeader->cmd << ", size=" << evpHeader->size << ", \t" << (char*)(evpHeader + sizeof(EVPHeader)) << LOG_ENDL;
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//return true;
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EVPHeader* evpHeader = (EVPHeader*)client.recvBuff;
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FDP_FaceDetectPB* fdpFaceDetectPB = (FDP_FaceDetectPB*)(client.recvBuff + sizeof(EVPHeader));
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fdpFaceDetectPB->ntoh();
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PbFaceList pbFaceList;
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pbFaceList.ParseFromArray(client.recvBuff + sizeof(EVPHeader) + sizeof(FDP_FaceDetectPB), evpHeader->size - sizeof(EVPHeader) - sizeof(FDP_FaceDetectPB));
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LOGP(DEBUG, "pbFaceList: magic=%u, image_count=%u, src_width=%u, src_height=%u",
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pbFaceList.magic(), pbFaceList.image_count(), pbFaceList.src_width(), pbFaceList.src_height());
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fdr_vec_t result;
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for(int i = 0; i < pbFaceList.image_count(); i++)
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{
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const PbFaceList_FaceListImage& pbFaceListImage = pbFaceList.images(i);
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LOGP(DEBUG, "\tpbFaceList %d: idx=%u, size=%u, type=%u, width=%u, height=%u, top_left_x=%u, top_left_y=%u",
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i, pbFaceListImage.idx(), pbFaceListImage.size(), pbFaceListImage.type(), pbFaceListImage.width(), pbFaceListImage.height(), pbFaceListImage.top_left_x(), pbFaceListImage.top_left_y());
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//#test
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//char imgfn[100 * 1024];
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//sprintf(imgfn, "PB_%d_%d.yuv", 0, i);
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//
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//FILE * pFile = fopen(imgfn, "wb");
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const std::string* img(*pbFaceListImage.img().data());
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//fwrite(img->data(), sizeof(char), img->size(), pFile);
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//fclose(pFile);
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//pFile = nullptr;
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STFaceImage stimg;
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stimg.db_id = fdpFaceDetectPB->db_id;
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stimg.mb_type = pbFaceListImage.type();
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stimg.width = pbFaceListImage.width();
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stimg.height = pbFaceListImage.height();
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stimg.size = img->size();
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stimg.buff = (const uint8_t*)img->data();
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result.push_back(g_STFaceCache.detect(stimg));
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}
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//#test
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//result.push_back(FDP_FaceDetectResult(-1,123));
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//result.push_back(FDP_FaceDetectResult(2,456));
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//result.push_back(FDP_FaceDetectResult(0,0));
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return send_SensetimeFaceDetectResultJson(client, result);
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}
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bool ev_proc_SensetimeFaceDetectSave(EVClientStub& client)
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{
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EVPHeader* evpHeader = (EVPHeader*)client.recvBuff;
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FDP_Image* fdpImage = (FDP_Image*)(client.recvBuff + sizeof(EVPHeader));
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fdpImage->ntoh();
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STFaceImage stfaceImg;
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stfaceImg.db_id = fdpImage->db_id;
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stfaceImg.mb_type = fdpImage->mb_type;
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stfaceImg.width = fdpImage->width;
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stfaceImg.height = fdpImage->height;
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stfaceImg.size = evpHeader->size - sizeof(EVPHeader) - sizeof(FDP_Image);
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stfaceImg.buff = fdpImage->buff;
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LOGP(DEBUG, "stfaceImg db_id=%d, mb_type=%d, width=%d, height=%d, size=%d",
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(int)stfaceImg.db_id, (int)stfaceImg.mb_type, (int)stfaceImg.width, (int)stfaceImg.height, (int)stfaceImg.size);
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//char imgfn[100 * 1024];
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//static int i = 0;
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//sprintf(imgfn, "IMG_%d_%d_w%d_h%d.rgb565", stfaceImg.db_id, ++i, stfaceImg.width, stfaceImg.height);
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//FILE * pFile = fopen(imgfn, "wb");
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//fwrite(stfaceImg.buff, sizeof(char), stfaceImg.size, pFile);
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//fclose(pFile);
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//pFile = nullptr;
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fdr_vec_t result;
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FDP_FaceDetectResult fdrResult = g_STFaceCache.add(stfaceImg);
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result.push_back(fdrResult);
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int ret = (fdrResult.db_id == 0 ? -1 : 0);
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return send_SensetimeFaceDetectResultJson(client, result, ret);
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}
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bool ev_dispatcher_proto_pb(EVClientStub& client)
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{
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LOG_DEBUG << "ev_dispatcher_proto_pb" << LOG_ENDL;
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EVPHeader* evpHeader = (EVPHeader*)client.recvBuff;
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if (evpHeader->size != client.recvBuffSize)
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{
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LOG_WARN << "Truncated buffer " << (evpHeader->size - client.recvBuffSize) << " bytes" << LOG_ENDL;
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return false;
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}
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switch(evpHeader->cmd)
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{
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case FaceDaemonCommand::FDC_SENSETIMEFACEDETECT_PB:
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//000383000800000001
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return ev_proc_SensetimeFaceDetectPB(client);
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break;
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default:
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LOG_WARN << "Unknown command" << LOG_ENDL;
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ev_send_status_packet(client, EVPStatus::EVPS_COMMAND_ERROR);
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return false;
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break;
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}
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// return false to disconnect
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return false;
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}
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bool ev_dispatcher_proto_rawbin(EVClientStub& client)
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{
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LOG_DEBUG << "ev_dispatcher_proto_rawbin" << LOG_ENDL;
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EVPHeader* evpHeader = (EVPHeader*)client.recvBuff;
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if (evpHeader->size != client.recvBuffSize)
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{
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LOG_WARN << "Truncated buffer " << (evpHeader->size - client.recvBuffSize) << " bytes" << LOG_ENDL;
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return false;
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}
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switch(evpHeader->cmd)
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{
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case FaceDaemonCommand::FDC_SENSETIMEFACEDETECT_SAVE:
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return ev_proc_SensetimeFaceDetectSave(client);
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break;
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default:
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LOG_WARN << "Unknown command" << LOG_ENDL;
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ev_send_status_packet(client, EVPStatus::EVPS_COMMAND_ERROR);
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return false;
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break;
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}
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// return false to disconnect
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return false;
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}
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bool ev_dispatcher_proto(EVClientStub& client)
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{
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LOG_DEBUG << "ev_dispatcher_proto" << LOG_ENDL;
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EVPHeader* evpHeader = (EVPHeader*)client.recvBuff;
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if (evpHeader->size != client.recvBuffSize)
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{
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LOG_WARN << "Truncated buffer " << (evpHeader->size - client.recvBuffSize) << " bytes" << LOG_ENDL;
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return false;
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}
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switch(evpHeader->proto)
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{
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case EVPProto::EVPP_PROTOBUF:
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return ev_dispatcher_proto_pb(client);
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break;
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case EVPProto::EVPP_RAW_BIN:
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return ev_dispatcher_proto_rawbin(client);
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break;
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default:
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LOG_WARN << "Unknown proto" << LOG_ENDL;
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ev_send_status_packet(client, EVPStatus::EVPS_PROTO_ERROR);
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return false;
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break;
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}
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// return false to disconnect
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return false;
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}
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int main(int argc, char** argv)
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{
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g_logger.set_level(VERBOSE);
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signal(SIGINT, _sigint);
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if (!g_STFaceCache.init())
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{
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LOG_WARN << "g_STFaceCache.init return false" << LOG_ENDL;
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return EXIT_FAILURE;
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}
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if (!g_STFaceCache.load_dbs())
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{
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LOG_WARN << "g_STFaceCache.load_dbs return false" << LOG_ENDL;
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return EXIT_FAILURE;
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}
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evclient_proc = ev_dispatcher_proto;
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int ec = server_main(argc, argv);
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g_STFaceCache.close_dbs();
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g_STFaceCache.finit();
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return ec;
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}
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