Пример #1
0
 void OnApplicationQuit()
 {
     IsOnGameClose = true;
     //SLUSBXThread.Abort();
     SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_Close(SLUSBXpressDLL.hUSBDevice);
     if (SLUSBXpressDLL.Status == SLUSBXpressDLL.SI_SUCCESS)
     {
         Debug.Log("Close device...");
     }
 }
Пример #2
0
    static void FindDeviceDt()
    {
        if (IsFindDeviceDt)
        {
            return;
        }

        WriteBuf     = WriteBuf_6;
        BytesSucceed = 0;
        // Send output data out to the board
        SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_Write(SLUSBXpressDLL.hUSBDevice, ref WriteBuf[0], BytesWriteRequest, ref BytesSucceed, 0);
        if ((BytesSucceed != BytesWriteRequest) || (SLUSBXpressDLL.Status != SLUSBXpressDLL.SI_SUCCESS))
        {
            if (SLUSBXpressDLL.Status == SLUSBXpressDLL.SI_WRITE_TIMED_OUT)
            {
                return;
            }
            Debug.Log("Error writing to USB. Wrote " + BytesSucceed.ToString() + " of " + BytesWriteRequest.ToString() + " bytes. Application is aborting. Reset hardware and try again.");
            Debug.Log("Status " + SLUSBXpressDLL.Status);
            IsOpenDevice = false;
            Application.Quit();
            return;
        }

        //clear out bytessucceed for the next read
        BytesSucceed = 0;
        //read data from the board
        SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_Read(SLUSBXpressDLL.hUSBDevice, ref ReadBuf[0], BytesReadRequest, ref BytesSucceed, 0);
        if ((BytesSucceed != BytesReadRequest) || (SLUSBXpressDLL.Status != SLUSBXpressDLL.SI_SUCCESS))
        {
            if (SLUSBXpressDLL.Status == SLUSBXpressDLL.SI_READ_TIMED_OUT)
            {
                return;
            }
            Debug.Log("Error reading to USB. Read " + BytesSucceed.ToString() + " of " + BytesReadRequest.ToString() + " bytes. Application is aborting. Reset hardware and try again.");
            Debug.Log("Status " + SLUSBXpressDLL.Status);
            IsOpenDevice = false;
            Application.Quit();
            return;
        }

        if (ReadBuf[0] == 0x65)
        {
            IsFindDeviceDt = true;
            Debug.Log("FindDeviceDt over...");
        }

        /*SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_FlushBuffers(SLUSBXpressDLL.hUSBDevice, 1, 1);
         * if (SLUSBXpressDLL.Status != SLUSBXpressDLL.SI_SUCCESS) {
         *      Debug.Log("SI_FlushBuffers was wrong!");
         *      IsOpenDevice = false;
         *      Application.Quit();
         *      return;
         * }*/
    }
Пример #3
0
    static void FindDevice()
    {
        if (!IsOpenDevice)
        {
            return;
        }
        //clear out bytessucceed for the next read
        BytesSucceed = 0;
        //read data from the board
        SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_Read(SLUSBXpressDLL.hUSBDevice, ref ReadBuf[0], BytesReadRequest, ref BytesSucceed, 0);
        if ((BytesSucceed != BytesReadRequest) || (SLUSBXpressDLL.Status != SLUSBXpressDLL.SI_SUCCESS))
        {
            if (SLUSBXpressDLL.Status == SLUSBXpressDLL.SI_READ_TIMED_OUT)
            {
                return;
            }
            Debug.Log("Error reading to USB. Read " + BytesSucceed.ToString() + " of " + BytesReadRequest.ToString() + " bytes. Application is aborting. Reset hardware and try again.");
            Debug.Log("Status " + SLUSBXpressDLL.Status);
            IsOpenDevice = false;
            Application.Quit();
            return;
        }

        if (ReadBuf[0] == 0x65 && ReadBuf[20] == 0x01)
        {
            IsFindDevice = true;
            string readStr = "ReadBuf: ";
            for (int i = 0; i < BytesReadRequest; i++)
            {
                readStr += ReadBuf[i].ToString("X2");
                readStr += " ";
            }
            //Debug.Log(readStr);
            Debug.Log("find device...");
        }

        BytesSucceed = 0;
        // Send output data out to the board
        SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_Write(SLUSBXpressDLL.hUSBDevice, ref WriteBuf[0], BytesWriteRequest, ref BytesSucceed, 0);
        if ((BytesSucceed != BytesWriteRequest) || (SLUSBXpressDLL.Status != SLUSBXpressDLL.SI_SUCCESS))
        {
            if (SLUSBXpressDLL.Status == SLUSBXpressDLL.SI_WRITE_TIMED_OUT)
            {
                return;
            }
            Debug.Log("Error writing to USB. Wrote " + BytesSucceed.ToString() + " of " + BytesWriteRequest.ToString() + " bytes. Application is aborting. Reset hardware and try again.");
            Debug.Log("Status " + SLUSBXpressDLL.Status);
            IsOpenDevice = false;
            Application.Quit();
            return;
        }
    }
Пример #4
0
    public static void TimerTick()
    {
        if (!IsOpenDevice)
        {
            return;
        }

        if (!IsFindDeviceDt)
        {
            if (!IsFindDevice)
            {
                FindDevice();
                return;
            }

            if (!IsCheckDevice)
            {
                CheckDevice();
                return;
            }
            FindDeviceDt();
            return;
        }

        WriteBuf     = PcvrWriteByte;
        WriteBuf[17] = (byte)(LastWriteByte == 0x01 ? 0x02 : 0x01);
        if (WriteBuf[17] == 0x02)
        {
            WriteBuf[14] = 0x02;
            WriteBuf[15] = 0;
            for (int i = 6; i < 14; i++)
            {
                WriteBuf[15] ^= WriteBuf[i];
            }
        }
        else
        {
            WriteBuf[17] = 0x01;
        }

        BytesSucceed = 0;
        // Send output data out to the board
        SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_Write(SLUSBXpressDLL.hUSBDevice, ref WriteBuf[0], BytesWriteRequest, ref BytesSucceed, 0);
        if ((BytesSucceed != BytesWriteRequest) || (SLUSBXpressDLL.Status != SLUSBXpressDLL.SI_SUCCESS))
        {
            if (SLUSBXpressDLL.Status == SLUSBXpressDLL.SI_WRITE_TIMED_OUT)
            {
                return;
            }
            Debug.Log("Error writing to USB. Wrote " + BytesSucceed.ToString() + " of " + BytesWriteRequest.ToString() + " bytes. Application is aborting. Reset hardware and try again.");
            Debug.Log("Status " + SLUSBXpressDLL.Status);
            IsOpenDevice = false;
            Application.Quit();
            return;
        }
        LastWriteByte = WriteBuf[17];

        //clear out bytessucceed for the next read
        BytesSucceed = 0;
        //read data from the board
        SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_Read(SLUSBXpressDLL.hUSBDevice, ref ReadBuf[0], BytesReadRequest, ref BytesSucceed, 0);
        if ((BytesSucceed != BytesReadRequest) || (SLUSBXpressDLL.Status != SLUSBXpressDLL.SI_SUCCESS))
        {
            if (SLUSBXpressDLL.Status == SLUSBXpressDLL.SI_READ_TIMED_OUT)
            {
                return;
            }
            Debug.Log("Error reading to USB. Read " + BytesSucceed.ToString() + " of " + BytesReadRequest.ToString() + " bytes. Application is aborting. Reset hardware and try again.");
            Debug.Log("Status " + SLUSBXpressDLL.Status);
            IsOpenDevice = false;
            Application.Quit();
            return;
        }

        if (ReadBuf[0] == 0x65)
        {
            /*string testReadBt = "解码前: ";
             * for (int i = 0; i < 21; i++) {
             *      testReadBt += ReadBuf[i].ToString("X2");
             *      testReadBt += " ";
             * }*/
            //StrTest2 = testReadBt;
            //Debug.Log(testReadBt);

            byte[] getDt = new byte[8];
            for (int i = 0; i < 8; i++)
            {
                getDt[i] = ReadBuf[i + 1];
            }

            byte[] byteTmp     = EncryptHelper.TripleDesDecryptIOData(getDt);
            byte[] byteReadTmp = ReadBuf;
            for (int i = 0; i < 8; i++)
            {
                byteReadTmp[i + 1] = byteTmp[i];
            }

            //testReadBt = "解码后: ";
            for (int i = 0; i < 21; i++)
            {
                ReadInfo[i] = (uint)byteReadTmp[i];
                //testReadBt += ReadInfo[i].ToString("X2");
                //testReadBt += " ";
            }
            //Debug.Log("ReadInfo[0] "+ReadInfo[0]);
            //StrTest3 = testReadBt;
            //Debug.Log(testReadBt);

            //uint SteerValCur = ((ReadInfo[4]&0x03) << 8) + ReadInfo[3];
            //StrTest1 = "方向: "+SteerValCur+", byte[3] "+ReadInfo[3].ToString("X2")+", byte[4] "+ReadInfo[4].ToString("X2");
            //Debug.Log(StrTest1);
        }

        SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_FlushBuffers(SLUSBXpressDLL.hUSBDevice, 1, 1);
        if (SLUSBXpressDLL.Status != SLUSBXpressDLL.SI_SUCCESS)
        {
            Debug.Log("SI_FlushBuffers was wrong!");
            IsOpenDevice = false;
            Application.Quit();
            return;
        }
    }
Пример #5
0
    void OpenDevice()
    {
        int           DevNum = 0;
        StringBuilder DevStr = new StringBuilder(SLUSBXpressDLL.SI_MAX_DEVICE_STRLEN);

        SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_GetNumDevices(ref DevNum);
        if (SLUSBXpressDLL.Status != SLUSBXpressDLL.SI_SUCCESS || DevNum <= 0)
        {
            return;
        }

        int  HidIndex   = 0;
        bool isFoundHid = false;

        for (int i = 0; i < DevNum; i++)
        {
            SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_GetProductString(i, DevStr, SLUSBXpressDLL.SI_RETURN_SERIAL_NUMBER);
            if (SLUSBXpressDLL.Status != SLUSBXpressDLL.SI_SUCCESS)
            {
                continue;
            }

            if (DevicesName == "")
            {
                isFoundHid  = true;
                HidIndex    = i;
                DevicesName = DevStr.ToString();
                break;
            }
            else if (DevicesName == DevStr.ToString())
            {
                HidIndex   = i;
                isFoundHid = true;
                break;
            }
        }

        if (isFoundHid)
        {
            Debug.Log("DevicesName: " + DevStr);
        }
        else
        {
            Debug.Log("not find hid...");
        }

        SLUSBXpressDLL.SI_SetTimeouts(10, 10);
        SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_Open(HidIndex, ref SLUSBXpressDLL.hUSBDevice);
        if (SLUSBXpressDLL.Status != SLUSBXpressDLL.SI_SUCCESS)
        {
            Debug.Log("Error opening device: " + DevicesName + ". Application is aborting. Reset hardware and try again.");
            Application.Quit();
            return;
        }
        else
        {
            Debug.Log("open device...");
            IsOpenDevice  = true;
            ReadInfo      = new uint[BytesReadRequest];
            ReadBuf       = new byte[BytesReadRequest];
            WriteBuf      = new byte[BytesWriteRequest];
            PcvrWriteByte = new byte[BytesWriteRequest];
            WriteBuf[0]   = 0xff;
            WriteBuf[1]   = 0x01;
            WriteBuf[17]  = 0x01;

            BytesSucceed = 0;
            // Send output data out to the board
            SLUSBXpressDLL.Status = SLUSBXpressDLL.SI_Write(SLUSBXpressDLL.hUSBDevice, ref WriteBuf[0], BytesWriteRequest, ref BytesSucceed, 0);
            if ((BytesSucceed != BytesWriteRequest) || (SLUSBXpressDLL.Status != SLUSBXpressDLL.SI_SUCCESS))
            {
                if (SLUSBXpressDLL.Status == SLUSBXpressDLL.SI_WRITE_TIMED_OUT)
                {
                    return;
                }
                Debug.Log("Error writing to USB. Wrote " + BytesSucceed.ToString() + " of " + BytesWriteRequest.ToString() + " bytes. Application is aborting. Reset hardware and try again.");
                Debug.Log("Status " + SLUSBXpressDLL.Status);
                IsOpenDevice = false;
                Application.Quit();
                return;
            }
        }
    }