#include "GpioFSM.h" #include "publicFunExport.h" #include "EventCode.h" #include const int MAX_GPIO_INIT_TRIES = 3; const int INPUT_PORT_2 = 2; const int MAX_MOVE_HOLD_TIMES = 5000; const int ON_EVENT_DETECT_TIMOUE_MILLSECS = 500; const int REPEAT_FIRE_TIMEOUT_VALUE = 10000; //10s const int TRY_FILED_TIMES_VALUE = 10; #define SETBIT(x,y) x|=(1<<(y)) #define CLEARBIT(x,y) x&=((1<<(y))^0xffffff) using namespace SP::Module::Comm; static const char* GetDriverPortStringZhCN(int pin) { switch (pin) { case 1: return "【驱动】读卡发卡器提示灯"; case 2: return "【驱动】前端USB通断控制"; case 3: return "【驱动】身份证阅读器提示灯"; case 4: return "【驱动】密码键盘提示灯"; case 5: return "【驱动】脸部照明灯"; case 6: return "【驱动】故障灯"; case 7: return "【驱动】读卡发卡器维护提示灯"; case 8: return "【驱动】前端USB口提示灯"; case 9: return "【驱动】非接IC读卡器提示灯"; case 10: return ""; case 11: return "【驱动】指纹仪提示灯"; case 12: return "【驱动】凭条打印提示灯"; case 13: return "【驱动】高拍仪提示灯"; case 14: return ""; case 15: return ""; case 16: return ""; case 17: return "【接收】震动探测器"; case 18: return "【接收】机具门感应开关"; case 19: return "【接收】话机提机感应开关"; case 20: return "【接收】人体探测感应器"; case 21: return "【接收】发卡器卡嘴覆盖探测器"; //case 22: return ""; //case 23: return ""; //case 24: return ""; //case 25: return ""; case 26: return "【驱动】高拍仪提示灯"; //case 27: return ""; //case 28: return ""; //case 29: return ""; //case 30: return ""; //case 31: return ""; //case 32: return ""; //case 33: return ""; //case 34: return ""; //case 35: return ""; //case 36: return ""; //case 37: return ""; //case 38: return ""; //case 39: return ""; //case 40: return ""; //case 41: return ""; //case 42: return ""; default: DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_SYSTEM)("Unkown pin sequence: %d", pin); return ""; break; } } static const char* pinStatusName[8][2] = { {"无震动", "**有震动**"}, {"关门", "**开门**"}, {"挂机", "**摘机**"}, {"无移动", "**移动**"}, {"卡嘴正常", "**卡嘴不正常**"}, {"Pin 22 Normal", "**Pin 22 High**"}, {"Pin 23 Normal", "**Pin 23 High**"}, {"Pin 24 Normal", "**Pin 24 High**"} }; static const char* GetDriverPortString(int pin) { switch (pin) { case 1: return "[Driver] CarIssuer Tip Light"; case 2: return "[Driver] USB Switch"; case 3: return "[Driver] IDCer Tip Light"; case 4: return "[Driver] PinPad Tip Light"; case 5: return "[Driver] Face Light"; case 6: return "[Driver] Maintain Light"; case 7: return "[Driver] CardIssuser Mouse Maintain Light"; case 8: return "[Driver] USB Tip Light"; case 9: return "[Driver] RF Tip Light"; case 10: return ""; case 11: return "[Driver] FingerPrint Tip Light"; case 12: return "[Driver] Printer Tip Light"; case 13: return "[Driver] HSPSCanner Read Light"; case 14: return ""; case 15: return ""; case 16: return ""; case 17: return "[Receiver] Shake Detecter"; case 18: return "[Receiver] Door Detecter"; case 19: return "[Receiver] Phone Detecter"; case 20: return "[Receiver] Body Detecter"; case 21: return "[Receiver] CardIssuer Mouse Detecter"; //case 22: return ""; //case 23: return ""; //case 24: return ""; //case 25: return ""; case 26: return "[Driver] HSPSCanner Tip Light"; //case 27: return ""; //case 28: return ""; //case 29: return ""; //case 30: return ""; //case 31: return ""; //case 32: return ""; //case 33: return ""; //case 34: return ""; //case 35: return ""; //case 36: return ""; //case 37: return ""; //case 38: return ""; //case 39: return ""; //case 40: return ""; //case 41: return ""; //case 42: return ""; default: DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_SYSTEM)("Unkown pin sequence: %d", pin); return ""; break; } } #define LIGHT_STRING_CONVERT(str) case str : return #str; break; static const char* GetLightSeqString(int seq) { switch (seq) { LIGHT_STRING_CONVERT(UNKNOWN_DEVICE) LIGHT_STRING_CONVERT(CARDREADER) LIGHT_STRING_CONVERT(CARDREADER_RED) LIGHT_STRING_CONVERT(IDCERTIFICATE) LIGHT_STRING_CONVERT(PINPAD) LIGHT_STRING_CONVERT(SHAKEDETECT) LIGHT_STRING_CONVERT(SWITCHINDUCTOR) LIGHT_STRING_CONVERT(PHONEPICKUP) LIGHT_STRING_CONVERT(MOVEDETECT) LIGHT_STRING_CONVERT(CARDGATEDETECT) LIGHT_STRING_CONVERT(HEADLIGHT) LIGHT_STRING_CONVERT(HEADLIGHT_RED) LIGHT_STRING_CONVERT(CONTACTLESSCARD) LIGHT_STRING_CONVERT(HEADLIGHT_ASSIST) LIGHT_STRING_CONVERT(HSPSCANNER) LIGHT_STRING_CONVERT(FINGERPRINT) default: DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_SYSTEM)("Unkonwn LightSeq: %d", seq); return "UnConver One"; break; } } #undef LIGHT_STRING_CONVERT /** Just for Debug [Gifur@2024911]*/ void LogPinStatus(ULONG val) { char byteString[9] = { 0 }; _itoa((int)val, byteString, 2); DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)("ReadPort returned btInput[%s]", byteString); std::bitset<8> pinSet((int)val); if (pinSet[0]) { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[0][1]); } else { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[0][0]); } if (pinSet[1]) { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[1][1]); } else { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[1][0]); } if (pinSet[2]) { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[2][1]); } else { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[2][0]); } if (pinSet[3]) { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[3][1]); } else { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[3][0]); } if (pinSet[4]) { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[4][1]); } else { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[4][0]); } if (pinSet[5]) { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[5][1]); } else { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[5][0]); } if (pinSet[6]) { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[6][1]); } else { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[6][0]); } if (pinSet[7]) { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[7][1]); } else { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)(pinStatusName[7][0]); } return; } CSimpleStringA CombineJsonContext(const char* szMessage) { CSimpleStringA result(true); if (szMessage == NULL || strlen(szMessage) == 0) { return result; } result = CSimpleStringA::Format("{\"addition\": \"%s\"}", szMessage); return result; } CGPIOFSM::CGPIOFSM(void) :m_ePickUpFlag(UnknownStatus),m_bVibrationFlag(false), m_bOpenFlag(false), m_bMoveFlag(false), m_bCardGateFlag(false) , m_moveHoldTimes(0) , m_moveDisappearTimes(0) , m_bNewVersion(FALSE), m_bFuncVer2(FALSE), m_btLastRevcInput(-1), m_RecvErrTims(0) { memset(m_btOutputStatus, 0, MAX_PORT_NUM * sizeof(BYTE)); memset(m_bLightStatus, 0, LIGHT_SEQ_MAX * sizeof(BOOL)); } ErrorCodeEnum CGPIOFSM::OnInit() { LOG_FUNCTION(); ErrorCodeEnum erroCode = Error_Succeed, eErrDev = Error_Succeed; DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)("Source Code complied at: %s %s", __DATE__, __TIME__); auto pEntity = GET_DEV_ENTITY_BASE_POINTER(); pEntity->InitializeVendorLogSwitch(); SetDevInitingFlag(true); SetDevInitFlag(false); CSimpleStringA strNoUse(true); erroCode = pEntity->ExtractVendorLibFullPath(strNoUse); if (erroCode != Error_Succeed) { DbgWithLink(LOG_LEVEL_ERROR, LOG_TYPE_SYSTEM)("load vendor dll or so(%s) failed, ec=%s", strNoUse.GetData(), SpStrError(erroCode)); SetDevInitingFlag(false); return Error_DevLoadFileFailed; } FulfillAdapterInfoFrom(pEntity->vendorLibInfo); LogWarn(Severity_Low, Error_Unexpect, GPIO_UserErrorCode_RootInfo, (LPCTSTR)m_adapterInfo.adapterFilePath); erroCode = LoadUpAdapterLibrary(); if (erroCode != Error_Succeed) { SetDevInitingFlag(false); return erroCode; } GpioInitParam initParam; initParam.dwPort = m_adapterInfo.GetPortInt(); initParam.dwBaudRate = m_adapterInfo.GetBaudrateInt(); initParam.dir[0] = true; initParam.dir[1] = true; initParam.dir[2] = false; initParam.dir[3] = false; initParam.dwPortNum = 3; //Gpio.keba.1.1 , Gpio.Hyosung.1.1, Gpio.kxd.1.1 需要配置引脚数（PortNum）为 3 if (m_adapterInfo.GetPortNumInt() == 4) { m_bNewVersion = TRUE; initParam.dwPortNum = 4; initParam.dir[3] = true; DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_SYSTEM)("New available 4 port num"); } int initTries = 0; ErrorCodeEnum err; do { DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_SYSTEM)("to open device...port(%d), baudrate(%d).", m_adapterInfo.GetPortInt(), m_adapterInfo.GetBaudrateInt()); ULONGLONG ullStart = SP::Module::Comm::RVCGetTickCount(); err = m_hDevHelper->DevOpen(initParam); ULONGLONG ullEnd = SP::Module::Comm::RVCGetTickCount(); if (err == Error_Succeed) { DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_SYSTEM).setAPI("DevAdapter::DevOpen").setCostTime(ullEnd - ullStart)("open device succ"); DevCategoryInfo devCatInfo; ZeroMemory(devCatInfo.szModel, sizeof(devCatInfo.szModel)); ZeroMemory(devCatInfo.szType, sizeof(devCatInfo.szType)); ZeroMemory(devCatInfo.szVendor, sizeof(devCatInfo.szVendor)); ullStart = SP::Module::Comm::RVCGetTickCount(); err = m_hDevHelper->GetDevCategory(devCatInfo); ullEnd = SP::Module::Comm::RVCGetTickCount(); if (err == Error_Succeed) { m_adapterInfo.FulfillCategoryInfo(devCatInfo); #if defined(RVC_OS_LINUX) CSimpleStringA strType(devCatInfo.szType); if (strType.IndexOf("FUNCVER=2.0") != -1) { m_bFuncVer2 = TRUE; DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)("Detect new interface version: %s", strType.GetData()); } #endif //RVC_OS_LINUX } else { SetErrorAndLog(err, GPIO_UserErrorCode_GetDevCategory_Failed, "DevAdapter::GetDevCategory", "FulfillAdapterDevCategory", false, ullEnd - ullStart); } SetDevInitFlag(true); break; } else { SetErrorAndLog(err, GPIO_UserErrorCode_DevOpen_Failed, "DevAdapter::DevOpen", __FUNCTION__, false, ullEnd - ullStart); Sleep(300); initTries++; continue; } } while (initTries < MAX_GPIO_INIT_TRIES); if (!GetDevInitFlag()) { err = Error_DevConnFailed; } else { if (!m_bFuncVer2) { ULONGLONG ullStart = SP::Module::Comm::RVCGetTickCount(); eErrDev = m_hDevHelper->WritePort(0, 0x00); ULONGLONG ullEnd = SP::Module::Comm::RVCGetTickCount(); if (eErrDev != Error_Succeed) SetErrorAndLog(eErrDev, GPIO_UserErrorCode_WritePort_Failed, "DevAdapter::WritePort", __FUNCTION__, false, ullEnd - ullStart, "", CombineJsonContext("WritePort(0) after DevOpen")); ullStart = SP::Module::Comm::RVCGetTickCount(); eErrDev = m_hDevHelper->WritePort(1, 0x00); ullEnd = SP::Module::Comm::RVCGetTickCount(); if (eErrDev != Error_Succeed) SetErrorAndLog(eErrDev, GPIO_UserErrorCode_WritePort_Failed, "DevAdapter::WritePort", __FUNCTION__, false, ullEnd - ullStart, "", CombineJsonContext("WritePort(1) after DevOpen")); if (m_bNewVersion) { ullStart = SP::Module::Comm::RVCGetTickCount(); eErrDev = m_hDevHelper->WritePort(3, 0x00); ullEnd = SP::Module::Comm::RVCGetTickCount(); if (eErrDev != Error_Succeed) SetErrorAndLog(eErrDev, GPIO_UserErrorCode_WritePort_Failed, "DevAdapter::WritePort", __FUNCTION__, false, ullEnd - ullStart, "", CombineJsonContext("WritePort(3) after DevOpen")); } } else { #if defined(RVC_OS_LINUX) ULONGLONG ullStart = SP::Module::Comm::RVCGetTickCount(); eErrDev = m_hDevHelper->SetStatus(GPIO_DEV_SN_LIGHT_SENSOR_ALL, GPIO_DEV_LIGHT_MODE_RESET); ULONGLONG ullEnd = SP::Module::Comm::RVCGetTickCount(); if (eErrDev != Error_Succeed) SetErrorAndLog(eErrDev, GPIO_UserErrorCode_SetStatus_Failed, "DevAdapter::SetStatus", __FUNCTION__, false, ullEnd - ullStart, "", CombineJsonContext("SetStatus after DevOpen")); #endif //RVC_OS_LINUX } SetDevState(DEVICE_STATUS_NORMAL); } SetDevInitingFlag(false); m_moveHoldTimes = MAX_MOVE_HOLD_TIMES;//oiltmp about 5000*300ms = 25 minutes m_moveDisappearTimes = m_moveHoldTimes; return err; } void CGPIOFSM::AfterInit() { StartDetectWorkThread(); } void CGPIOFSM::SelfTest(EntityTestEnum eTestType, CSmartPointer pTransactionContext) { OnHardwareShakeHand(pTransactionContext); } void CGPIOFSM::GetDevInfo(SpReqAnsContext::Pointer ctx) { if (m_bOpening) { DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_USER).setLogCode(GpioService_LogCode_GetDevInfo).setAPI(__FUNCTION__)("device is opening"); ctx->Answer(Error_NotInit); return; } if (!m_bOpened) { DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_USER).setLogCode(GpioService_LogCode_GetDevInfo).setResultCode("RTA2901").setAPI(__FUNCTION__)("GPIO未打开"); ctx->Answer(Error_DevNotAvailable, GPIO_UserErrorCode_DevOpen_Failed); } else { DevCategoryInfo info = { 0 }; const ULONGLONG ullStart = SP::Module::Comm::RVCGetTickCount(); ErrorCodeEnum erroCode = m_hDevHelper->GetDevCategory(info); const ULONGLONG ullEnd = SP::Module::Comm::RVCGetTickCount(); ctx->Ans.state = (int)erroCode; if (erroCode == Error_Succeed) { ctx->Ans.model = info.szModel; ctx->Ans.type = info.szType; ctx->Ans.version = CSimpleStringA::Format("%d.%d.%d.%d", info.version.wMajor, info.version.wMinor, info.version.wRevision, info.version.wBuild); DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_USER).setLogCode(GpioService_LogCode_GetDevInfo) .setAPI("DevAdapter::GetDevCategory").setCostTime(ullEnd - ullStart)("model: %s, state:%d, type:%s, version:%s" , ctx->Ans.model.GetData(), ctx->Ans.state, ctx->Ans.type.GetData(), ctx->Ans.version.GetData()); } else { SetErrorAndLog(erroCode, GPIO_UserErrorCode_GetDevCategory_Failed, "DevAdapter::GetDevCategory", __FUNCTION__, IsInBusiness(), ullEnd - ullStart, GpioService_LogCode_GetDevInfo); } ctx->Answer(Error_Succeed); } } void CGPIOFSM::Exit(SpOnewayCallContext::Pointer ctx) { } bool CGPIOFSM::DetectBit(ULONG data, int pos) { if (!m_bFuncVer2) { ULONG tmp = 0; SETBIT(tmp, pos); return (data & tmp); } #if defined(RVC_OS_LINUX) else { DWORD dwReq = (GPIO_DEV_SN_SENSOR_SHAKE << pos); return (data & dwReq); } #endif //RVC_OS_LINUX return 0; } void CGPIOFSM::OnLogEvent(DWORD dwUserCode) { GpioSet_Info Req; if (!m_bOpened) { DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_SYSTEM).setAPI(__FUNCTION__)("usercode [%x], but device is not open", dwUserCode); return; } else { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)("receive usercode [%x]", dwUserCode); } Req.close = 0; Req.devseq = -1; switch (dwUserCode) { case LOG_EVT_CARDISSUER_GREEN_ON: case LOG_EVT_CARDISSUER_STORE_GREEN_ON: Req.devseq = CARDREADER; Req.mode = 1; break; case LOG_EVT_CARDISSUER_RED_ON: Req.devseq = CARDREADER_RED; Req.mode = 1; break; case LOG_EVT_IDCERTIFICATE_GREEN_ON: Req.devseq = IDCERTIFICATE; Req.mode = 1; break; case LOG_EVT_FINGERPRINT_GREEN_ON: Req.devseq = FINGERPRINT; Req.mode = 1; break; case LOG_EVT_PINPAD_GREEN_ON: Req.devseq = PINPAD; Req.mode = 1; break; case LOG_EVT_HEADLIGHT_GREEN_ON: Req.devseq = HEADLIGHT; Req.mode = 0; DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)("machine light on"); break; case LOG_EVT_HEADLIGHT_RED_ON: Req.devseq = HEADLIGHT_RED; Req.mode = 1; break; case LOG_EVT_CONTACTLESS_CARD_GREEN_ON: Req.devseq = CONTACTLESSCARD; Req.mode = 1; break; case LOG_EVT_IEBROWSER_LIGHT_ASSISTANT_ON: Req.devseq = HEADLIGHT_ASSIST; Req.mode = 1; break; case LOG_EVT_CARDISSUER_GREEN_OFF: case LOG_EVT_CARDISSUER_STORE_GREEN_OFF: Req.devseq = CARDREADER; Req.mode = 1; Req.close = 1; break; case LOG_EVT_CARDISSUER_RED_OFF: Req.devseq = CARDREADER_RED; Req.mode = 1; Req.close = 1; break; case LOG_EVT_IDCERTIFICATE_GREEN_OFF: Req.devseq = IDCERTIFICATE; Req.mode = 1; Req.close = 1; break; case LOG_EVT_FINGERPRINT_GREEN_OFF: Req.devseq = FINGERPRINT; Req.mode = 1; Req.close = 1; break; case LOG_EVT_PINPAD_GREEN_OFF: Req.devseq = PINPAD; Req.mode = 1; Req.close = 1; break; case LOG_EVT_HEADLIGHT_GREEN_OFF: Req.devseq = HEADLIGHT; Req.mode = 1; Req.close = 1; DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)("machine light off"); break; case LOG_EVT_HEADLIGHT_RED_OFF: Req.devseq = HEADLIGHT_RED; Req.mode = 1; Req.close = 1; break; case LOG_EVT_CONTACTLESS_CARD_GREEN_OFF: Req.devseq = CONTACTLESSCARD; Req.mode = 1; Req.close = 1; break; case LOG_EVT_IEBROWSER_LIGHT_ASSISTANT_OFF: Req.devseq = HEADLIGHT_ASSIST; Req.mode = 1; Req.close = 1; break; case LOG_EVT_HSPS_LIGHT_ON: Req.devseq = HSPSCANNER; Req.mode = 1; DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)("hspscanner light on"); break; case LOG_EVT_HSPS_LIGHT_OFF: Req.devseq = HSPSCANNER; Req.mode = 1; Req.close = 1; DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)("hspscanner light off"); break; default: return; } DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_SYSTEM).setAPI(__FUNCTION__)("devseq[%d],mode[%d]close[%d]", Req.devseq, Req.mode, Req.close); if (Req.devseq >= 0) { if (!Req.close) { if (m_bLightStatus[Req.devseq]) { DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_SYSTEM)("the light(seq=%s) has been on", GetLightSeqString(Req.devseq)); //return; } else { m_bLightStatus[Req.devseq] = true; } } else { if (m_bLightStatus[Req.devseq]) { m_bLightStatus[Req.devseq] = false; } else { DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_SYSTEM)("the light(seq=%s) has been off", GetLightSeqString(Req.devseq)); //return; } } } m_bFuncVer2 ? SetEx(Req) : Set(Req); } //老接口，用于控制灯 bool CGPIOFSM::SetOutDriving(GpioSet_Info req, OutDrivingInfo od, ULONG iIndex, ULONG pinSeq) { int ret(-1); if (req.close == 1) { GetEntityBase()->GetFunction()->KillTimer(req.devseq); if (pinSeq == PIN_HSPSCANNER_PREVIEW_LIGHT) { //额外多关闭高拍仪提示灯 DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_SYSTEM)("off light hspsanner."); WritePin(PIN_HSPSCANNER_LIGHT, false); } ret = WritePin(pinSeq, false); return (ret == 0); } switch (od.OutputMode) { case OM_POSITIVE_LEVEL: { if (od.StopMode == SM_CALLTRIGGER) { DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)("0.0 mode: pinSeq=%u", pinSeq); //if it is hspsanner if (pinSeq == PIN_HSPSCANNER_PREVIEW_LIGHT) { DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_SYSTEM)("light hspsanner."); WritePin(PIN_HSPSCANNER_LIGHT, true); } ret = WritePin(pinSeq, true); } } break; case OM_POSITIVE_FLICKER: if (od.StopMode == SM_CYCLE) { SetContextInfo* pSci = new SetContextInfo(); pSci->pinSeq = pinSeq; pSci->timerID = req.devseq; pSci->setTime = od.SetTime; pSci->resetTime = od.ResetTime; pSci->timeout = od.TimeOut; ret = WritePin(pinSeq, true); if (ret == 0) { ITimerListener* pListener = new TimerOutHelper(this, &CGPIOFSM::OnPositiveFlickerSetTimerout, pSci, true); GetEntityBase()->GetFunction()->SetTimer(pSci->timerID, pListener, pSci->setTime); } } break; default: break; } return (ret == 0); } int CGPIOFSM::WritePin(DWORD dwPinSeq, bool bHighLevel) { ErrorCodeEnum result(Error_Succeed); int ret(-1); int idx = -1; DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM)("Write Pin %s with %s", GetDriverPortString(dwPinSeq + 1), bHighLevel ? "[Active]" : "[InActive]"); if (dwPinSeq > 16) {/** 目前只有一个高拍仪的提示灯会超过该值 [Gifur@202495]*/ if (!m_bNewVersion || dwPinSeq < 24) { return ret; } idx = 3; } else if (dwPinSeq < 8) { idx = 0; } else { idx = 1; } if (bHighLevel) SETBIT(m_btOutputStatus[idx], dwPinSeq - 8 * idx); else CLEARBIT(m_btOutputStatus[idx], dwPinSeq - 8 * idx); const auto iBegin = SP::Module::Comm::RVCGetTickCount(); result = m_hDevHelper->WritePort(idx, m_btOutputStatus[idx]); const auto iEnd = SP::Module::Comm::RVCGetTickCount(); if (result != Error_Succeed) { SetErrorAndLog(result, GPIO_UserErrorCode_WritePort_Failed, "DevAdapter::WritePort", __FUNCTION__, false, iEnd - iBegin, "", CombineJsonContext(CSimpleStringA::Format("write port[%d] with %d", idx, m_btOutputStatus[idx]))); ret = 1; } else { DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_SYSTEM).setAPI("DevAdapter::WritePort").setAPI(__FUNCTION__).setCostTime(iEnd - iBegin)("write port[%d] with %d succ", idx, m_btOutputStatus[idx]); ret = 0; } return ret; } void CGPIOFSM::SetEx(GpioSet_Info req) { #if defined(RVC_OS_LINUX) int devicePort; DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM).setAPI(__FUNCTION__)("SetEx request %s arrived!", GetLightSeqString(req.devseq)); switch (req.devseq) { case CARDREADER: { devicePort = GPIO_DEV_SN_LIGHT_CARDISSUER; break; } case CARDREADER_RED: { devicePort = GPIO_DEV_SN_LIGHT_CARDISSUER_MAINTAIN; break; } case IDCERTIFICATE: { devicePort = GPIO_DEV_SN_LIGHT_IDCERTIFICATE; break; } case FINGERPRINT: { devicePort = GPIO_DEV_SN_LIGHT_FINGERPRINT; break; } case PINPAD: { devicePort = GPIO_DEV_SN_LIGHT_PINPAD; break; } case HEADLIGHT: { devicePort = GPIO_DEV_SN_LIGHT_FACE; break; } case HEADLIGHT_RED: { devicePort = 6/*GPIO_DEV_SN_LIGHT_MACHINE_FAULT*/; break; } case CONTACTLESSCARD: { devicePort = GPIO_DEV_SN_LIGHT_CONTACTLESSCARD; break; } case HEADLIGHT_ASSIST: { devicePort = GPIO_DEV_SN_LIGHT_FACE; break; } break; default: DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_USER).setAPI(__FUNCTION__)("unsupport device seq: %d", req.devseq); return; } if (m_hDevHelper != nullptr) { DWORD dwReq = devicePort; DWORD dwMode = 0; if (!req.close) { dwMode |= GPIO_DEV_LIGHT_MODE_COLOR_NORMAL; if (!!req.mode) { dwMode |= GPIO_DEV_LIGHT_MODE_LIGHT_FLICKER; } else { dwMode |= GPIO_DEV_LIGHT_MODE_LIGHT_SUSTAIN; } } const auto iBegin = SP::Module::Comm::RVCGetTickCount(); const ErrorCodeEnum ec = m_hDevHelper->SetStatus(dwReq, dwMode); const auto iEnd = SP::Module::Comm::RVCGetTickCount(); if (ec != Error_Succeed) { SetErrorAndLog(ec, GPIO_UserErrorCode_SetStatus_Failed, "DevAdapter::SetStatus", __FUNCTION__, false, iEnd - iBegin, "", CombineJsonContext(CSimpleStringA::Format("SetStatus with 0x%X,0x%X", dwReq, dwMode))); } else { DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_SYSTEM).setAPI("DevAdapter::SetStatus").setAPI(__FUNCTION__).setCostTime(iEnd - iBegin)("SetStatus with 0x%X,0x%X", dwReq, dwMode); } } else { DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_SYSTEM).setAPI(__FUNCTION__)("dev helper object is invalid pointer!"); } #endif //RVC_OS_LINUX } void CGPIOFSM::Set(GpioSet_Info req) { CSimpleStringA activeModeSecName = ""; int devicePort; OutDrivingInfo odi; DbgWithLink(LOG_LEVEL_DEBUG, LOG_TYPE_SYSTEM).setAPI(__FUNCTION__)("Set request %s arrived!", GetLightSeqString(req.devseq)); switch (req.devseq) { case CARDREADER: case PINPAD: case CONTACTLESSCARD: { devicePort = req.devseq == CARDREADER ? 0 : (req.devseq == PINPAD ? 3 : 8); odi.OutputMode = OM_POSITIVE_FLICKER; odi.StopMode = SM_CYCLE; odi.SetTime = 200; odi.ResetTime = 200; odi.TimeOut = 5000; break; } case CARDREADER_RED: case HEADLIGHT_RED: { devicePort = req.devseq == CARDREADER_RED ? 6 : 5; odi.OutputMode = OM_POSITIVE_LEVEL; odi.StopMode = SM_CALLTRIGGER; odi.SetTime = 200; odi.ResetTime = 200; odi.TimeOut = 3000; break; } case IDCERTIFICATE: case FINGERPRINT: { devicePort = req.devseq == IDCERTIFICATE ? 2 : 10; odi.OutputMode = OM_POSITIVE_FLICKER; odi.StopMode = SM_CYCLE; odi.SetTime = 150; odi.ResetTime = 150; odi.TimeOut = 5000; break; } case HEADLIGHT: case HSPSCANNER: { devicePort = req.devseq == HEADLIGHT ? 4 : 12; odi.OutputMode = OM_POSITIVE_LEVEL; odi.StopMode = SM_CALLTRIGGER; odi.SetTime = 1000; odi.ResetTime = 1000; odi.TimeOut = 5000; break; } case HEADLIGHT_ASSIST: { devicePort = 4; odi.OutputMode = OM_POSITIVE_FLICKER; odi.StopMode = SM_CYCLE; odi.SetTime = 1000; odi.ResetTime = 500; odi.TimeOut = 5000; break; } default: odi.OutputMode = OM_POSITIVE_LEVEL; odi.StopMode = SM_CALLTRIGGER; odi.SetTime = 200; odi.ResetTime = 200; odi.TimeOut = 5000; DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_SYSTEM).setAPI(__FUNCTION__)("unsupport device seq: %d", req.devseq); return; } SetOutDriving(req, odi, 0, devicePort); } void CGPIOFSM::StartDetectWorkThread() { ReceivingInfo ri; ri.ContinuousTriggerTime = 2; GetContextInfo* pGci = new GetContextInfo(); /** 注意设备序号是实体内定义的逻辑，不是设备端口号，最后用作于计时器的ID去了*/ pGci->timerID = PHONEPICKUP; /*8*/ m_PickUpTimeStamp = m_PutDownTimeStamp = SP::Module::Comm::RVCGetTickCount(); m_DoorOpenTimeStamp = m_DoorCloseTimeStamp = SP::Module::Comm::RVCGetTickCount(); ITimerListener* pListener = new TimerOutHelper(this, &CGPIOFSM::OnEventDetect, pGci); GetEntityBase()->GetFunction()->SetTimer(pGci->timerID, pListener, 100); } void CGPIOFSM::OnPositiveFlickerSetTimerout(void* pData) { SetContextInfo* pSCI = (SetContextInfo*)pData; GetEntityBase()->GetFunction()->KillTimer(pSCI->timerID); const int ret = WritePin(pSCI->pinSeq, false); //实际操作 if (ret == 0) { ITimerListener* pListener = new TimerOutHelper(this, &CGPIOFSM::OnPositiveFlickerResetTimerout, pSCI, true); GetEntityBase()->GetFunction()->SetTimer(pSCI->timerID, pListener, pSCI->resetTime); } } void CGPIOFSM::OnPositiveFlickerResetTimerout(void* pData) { SetContextInfo* pSCI = (SetContextInfo*)pData; GetEntityBase()->GetFunction()->KillTimer(pSCI->timerID); const int ret = WritePin(pSCI->pinSeq, true); //实际操作 if (ret == 0) { ITimerListener* pListener = new TimerOutHelper(this, &CGPIOFSM::OnPositiveFlickerSetTimerout, pSCI, true); GetEntityBase()->GetFunction()->SetTimer(pSCI->timerID, pListener, pSCI->setTime); } } void CGPIOFSM::OnEventDetect(void* pData) { GetContextInfo* pGci = (GetContextInfo*)pData; ULONG input = 0; BYTE btInput; ErrorCodeEnum err(Error_Succeed); if (!m_bFuncVer2) { const auto iBegin = SP::Module::Comm::RVCGetTickCount(); err = m_hDevHelper->ReadPort(INPUT_PORT_2, btInput); const auto iEnd = SP::Module::Comm::RVCGetTickCount(); if (err != Error_Succeed) { SetErrorAndLog(err, GPIO_UserErrorCode_ReadPort_Failed, "DevAdapter::ReadPort", __FUNCTION__, false, iEnd - iBegin, "", CombineJsonContext(CSimpleStringA::Format("read port[%d] with %d", INPUT_PORT_2, btInput))); } else if (btInput != m_btLastRevcInput) { m_btLastRevcInput = btInput; LogPinStatus(btInput); } } else { #if defined(RVC_OS_LINUX) DWORD dwReq(GPIO_DEV_SN_LIGHT_SENSOR_ALL); DWORD dwMode = 0; const auto iBegin = SP::Module::Comm::RVCGetTickCount(); err = m_hDevHelper->DetectStatus(dwReq, dwMode); const auto iEnd = SP::Module::Comm::RVCGetTickCount(); btInput = dwMode; if (err != Error_Succeed) { SetErrorAndLog(err, GPIO_UserErrorCode_DetectStatus_Failed, "DevAdapter::DetectStatus", __FUNCTION__, false, iEnd - iBegin, "", CombineJsonContext(CSimpleStringA::Format("detect status[%d] with %d", dwReq, dwMode))); } else if (btInput != m_btLastRevcInput) { m_btLastRevcInput = btInput; LogPinStatus(btInput); } #else err = Error_NotSupport; #endif //RVC_OS_LINUX } if (err != Error_Succeed) { m_btLastRevcInput = (BYTE)(-1); if (++m_RecvErrTims >= TRY_FILED_TIMES_VALUE) { //SetDevState(DEVICE_STATUS_FAULT); LogWarn(Severity_Middle, Error_Debug, GPIO_UserErrorCode_EvtDetect_Error, CSimpleStringA::Format("DevAdapterApi[DetectStatus/ReadPort] error already exceeds %d times, give up", TRY_FILED_TIMES_VALUE)); GetEntityBase()->GetFunction()->KillTimer(pGci->timerID); } else { GetEntityBase()->GetFunction()->ResetTimer(pGci->timerID, ON_EVENT_DETECT_TIMOUE_MILLSECS); } return; } else if(m_RecvErrTims != 0){ m_RecvErrTims = 0; } /** 震动感应 */ if (DetectBit(btInput, VIBRATIONSENSOR) && !m_bVibrationFlag) { m_bVibrationFlag = true; LogEvent(Severity_Middle, LOG_EVT_VIBRATIONSENSOR, CSimpleStringA::Format("%s [Active] line: %d", GetDriverPortString(17), __LINE__)); } else if (!DetectBit(btInput, VIBRATIONSENSOR) && m_bVibrationFlag) { LogEvent(Severity_Middle, LOG_EVT_VIBRATIONSENSOR_OFF, CSimpleStringA::Format("%s [InActive] line: %d", GetDriverPortString(17), __LINE__)); m_bVibrationFlag = false; } /** 机箱门开关检测*/ if (DetectBit(btInput, OPENSENSOR) && !m_bOpenFlag) { m_bOpenFlag = true; m_DoorOpenTimeStamp = SP::Module::Comm::RVCGetTickCount(); LogEvent(Severity_Middle, LOG_EVT_OPENSENSOR_ON, CSimpleStringA::Format("%s [Active] line: %d", GetDriverPortString(18), __LINE__)); } else if (!DetectBit(btInput, OPENSENSOR) && m_bOpenFlag) { m_bOpenFlag = false; m_DoorCloseTimeStamp = SP::Module::Comm::RVCGetTickCount(); LogEvent(Severity_Middle, LOG_EVT_OPENSENSOR_OFF, CSimpleStringA::Format("%s [InActive] line: %d", GetDriverPortString(18), __LINE__)); DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_USER).setLogCode(GpioService_LogCode_Detect_DoorClose).setCostTime(m_DoorCloseTimeStamp - m_DoorOpenTimeStamp)("[GPIO] The chassis door is close"); } /**话机检测*/ if (DetectBit(btInput, PICKUPSENSOR)) { if (m_ePickUpFlag == InActive) { m_ePickUpFlag = Actived; m_PickUpTimeStamp = SP::Module::Comm::RVCGetTickCount(); LogEvent(Severity_Middle, LOG_EVT_PICKUP, "Life the Phone up"); DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_USER).setLogCode(GpioService_LogCode_Detect_PhonePickup)("[GPIO] 话机提起"); } else if (m_ePickUpFlag == UnknownStatus) { m_ePickUpFlag = Actived; m_PickUpTimeStamp = SP::Module::Comm::RVCGetTickCount(); DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_USER).setLogCode(GpioService_LogCode_Detect_PhonePickup)("[GPIO] 话机提起（启动时）"); } } else if (!DetectBit(btInput, PICKUPSENSOR)) { if (m_ePickUpFlag == Actived) { m_ePickUpFlag = InActive; m_PutDownTimeStamp = SP::Module::Comm::RVCGetTickCount(); LogEvent(Severity_Middle, LOG_EVT_ONHOOK, "Put the Phone down"); DbgWithLink(LOG_LEVEL_INFO, LOG_TYPE_USER).setLogCode(GpioService_LogCode_Detect_PhonePutDown).setCostTime(m_PutDownTimeStamp - m_PickUpTimeStamp)("[GPIO] 话机放下"); } else if (m_ePickUpFlag == UnknownStatus) { m_ePickUpFlag = InActive; m_PutDownTimeStamp = SP::Module::Comm::RVCGetTickCount(); } } /*物体靠近感知检测*/ if (DetectBit(btInput, MOVESENSOR)) { if (!m_bMoveFlag) { m_bMoveFlag = true; m_moveDisappearTimes = 0; LogEvent(Severity_Middle, LOG_EVT_MOVESENSOR_ON, CSimpleStringA::Format("%s [Active] line: %d, times: %lu", GetDriverPortString(20), __LINE__, m_moveHoldTimes)); } /** 只是发一次时间时，发现感知实体没有收到或者不处理第一次发出的时间，所以需要沿用原有的发送频率，再继续发送消失的事件，下同 [Gifur@202496]*/ else if (m_moveHoldTimes != 0 && (m_moveHoldTimes % (REPEAT_FIRE_TIMEOUT_VALUE / ON_EVENT_DETECT_TIMOUE_MILLSECS)) == 0) { LogEvent(Severity_Middle, LOG_EVT_MOVESENSOR_ON, CSimpleStringA::Format("%s [Active] line: %d, times: %lu", GetDriverPortString(20), __LINE__, m_moveHoldTimes)); } const bool toCheck = !!(m_moveHoldTimes != 0 && (m_moveHoldTimes % (8/*mins*/ * 60 * 1000 / ON_EVENT_DETECT_TIMOUE_MILLSECS) == 0)); if (toCheck) { SYSTEMTIME localTime; GetLocalTime(&localTime); if (localTime.wHour < (WORD)8 || (localTime.wHour == 8 && localTime.wMinute <= (WORD)30) || localTime.wHour >= (WORD)18) { DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_SYSTEM).setResultCode("RTA2903")("Move detect is abnormal(off work)."); LogWarn(Severity_High, Error_Unexpect, LOG_EVT_MOVEDETECT_ABNORMAL_OFFWORK, "Move detect is abnormal(off work)."); } else { DbgWithLink(LOG_LEVEL_WARN, LOG_TYPE_SYSTEM).setResultCode("RTA2902")("Move detect is abnormal(Work time)."); LogWarn(Severity_High, Error_Unexpect, LOG_EVT_MOVEDETECT_ABNORMAL_WORKTIME, "Move detect is abnormal(Work time)."); } } m_moveHoldTimes++; } else if (!DetectBit(btInput, MOVESENSOR)) { if (m_bMoveFlag) { m_bMoveFlag = false; m_moveHoldTimes = 0; LogEvent(Severity_Middle, LOG_EVT_MOVESENSOR_OFF, CSimpleStringA::Format("%s [InActive] line: %d", GetDriverPortString(20), __LINE__)); } else if (m_moveDisappearTimes != 0 && (m_moveDisappearTimes % (REPEAT_FIRE_TIMEOUT_VALUE / ON_EVENT_DETECT_TIMOUE_MILLSECS)) == 0) { LogEvent(Severity_Middle, LOG_EVT_MOVESENSOR_OFF, CSimpleStringA::Format("%s [InActive] line: %d", GetDriverPortString(20), __LINE__)); } m_moveDisappearTimes++; } /*卡嘴异物检测*/ if (DetectBit(btInput, CARDGATESENSOR) && !m_bCardGateFlag) { m_bCardGateFlag = true; LogEvent(Severity_Middle, LOG_EVT_CARDGATESENSOR, CSimpleStringA::Format("%s [Active] line: %d", GetDriverPortString(21), __LINE__)); } else if (!DetectBit(btInput, CARDGATESENSOR) && m_bCardGateFlag) { LogEvent(Severity_Middle, LOG_EVT_CARDGATESENSOR_OFF, CSimpleStringA::Format("%s [InActive] line: %d", GetDriverPortString(21), __LINE__)); m_bCardGateFlag = false; } GetEntityBase()->GetFunction()->ResetTimer(pGci->timerID, ON_EVENT_DETECT_TIMOUE_MILLSECS); }