Bond2
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chenluhua1980
2026-01-21 50f3078f4efb3718e921b76567bd33d6c3640a44 
 SourceCode/Bond/Servo/CMaster.cpp


@@ -138,11 +138,18 @@




   int CMaster::init()


   {


      const ULONGLONG boot_master_begin = GetTickCount64();


      LOGI("<Master>正在初始化...");


      LOGI("[BOOT][MASTER] init begin");






      //    cclink


      if (m_cclink.Connect(CC_LINK_IE_CONTROL_CHANNEL(1)) != 0) {


      const ULONGLONG boot_cclink_begin = GetTickCount64();


      const int cc_ret = m_cclink.Connect(CC_LINK_IE_CONTROL_CHANNEL(1));


      LOGI("[BOOT][MASTER] CC-Link connect ret=%d, cost=%llu ms",


         cc_ret,


         (unsigned long long)(GetTickCount64() - boot_cclink_begin));


      if (cc_ret != 0) {


         LOGE("连接CC-Link失败.");


      }


      else {


@@ -231,11 +238,21 @@






      // 读缓存数据


      const ULONGLONG boot_cache_begin = GetTickCount64();


      const ULONGLONG boot_read_begin = GetTickCount64();


      readCache();


      LOGI("[BOOT][MASTER] readCache finished, cost=%llu ms", (unsigned long long)(GetTickCount64() - boot_read_begin));




      const ULONGLONG boot_state_begin = GetTickCount64();


      loadState();


      LOGI("[BOOT][MASTER] loadState finished, cost=%llu ms", (unsigned long long)(GetTickCount64() - boot_state_begin));


      if (m_listener.onControlJobChanged) {


         notifyControlJobChanged();


      }




      LOGI("[BOOT][MASTER] cache/state loaded, cost=%llu ms (since init %llu ms)",


         (unsigned long long)(GetTickCount64() - boot_cache_begin),


         (unsigned long long)(GetTickCount64() - boot_master_begin));






      // 定时器


@@ -258,6 +275,8 @@






      LOGI("<Master>初始化完成.");


      LOGI("[BOOT][MASTER] init finished, total cost=%llu ms",


         (unsigned long long)(GetTickCount64() - boot_master_begin));


      return 0;


   }




@@ -1675,6 +1694,14 @@


         }


      };


      listener.onSVDataReport = [&](void* pEquipment, void* pData) {


         const bool allowSvLog =


            (m_state == MASTERSTATE::RUNNING ||


               m_state == MASTERSTATE::RUNNING_CONTINUOUS_TRANSFER ||


               m_state == MASTERSTATE::RUNNING_BATCH ||


               m_state == MASTERSTATE::STARTING);


         if (!allowSvLog) {


            return;


         }


         CSVData* pSVData = (CSVData*)pData;


         auto rawData = pSVData->getSVRawData();


         std::vector<CParam> params;


@@ -3580,14 +3607,14 @@


         auto& dataTypes = CServoUtilsTool::getEqDataTypes();


         auto& bonderTypes = dataTypes[MID_Bonder1];


         for (size_t i = 0; i < bonderTypes.size(); ++i) {


            m_pCollector->buffersSetChannelName(MID_Bonder1, i + 1, bonderTypes[i].c_str());


            m_pCollector->buffersSetChannelName(MID_Bonder2, i + 1, bonderTypes[i].c_str());


            m_pCollector->buffersSetChannelName(MID_Bonder1, (UINT)i + 1, bonderTypes[(UINT)i].c_str());


            m_pCollector->buffersSetChannelName(MID_Bonder2, (UINT)i + 1, bonderTypes[(UINT)i].c_str());


         }




         auto& vacuumbakeTypes = dataTypes[MID_VacuumBakeA];


         for (size_t i = 0; i < vacuumbakeTypes.size(); ++i) {


            m_pCollector->buffersSetChannelName(MID_VacuumBakeA, i + 1, vacuumbakeTypes[i].c_str());


            m_pCollector->buffersSetChannelName(MID_VacuumBakeB, i + 1, vacuumbakeTypes[i].c_str());


            m_pCollector->buffersSetChannelName(MID_VacuumBakeA, (UINT)i + 1, vacuumbakeTypes[(UINT)i].c_str());


            m_pCollector->buffersSetChannelName(MID_VacuumBakeB, (UINT)i + 1, vacuumbakeTypes[(UINT)i].c_str());


         }




         auto& coolingTypes = dataTypes[MID_BakeCoolingA];