COM iMX6 WinCE: Difference between revisions
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== <br/>WEC2013 Debugging == | == <br/>WEC2013 Debugging == | ||
: 1. Enable connection to WEC2013 device via Telnet. DH electronics recommends PuTTY for Telnet connection. | : 1. Enable connection to WEC2013 device via Telnet. DH electronics recommends PuTTY for Telnet connection. | ||
: Note: PuTTY can be downloaded from | : Note: PuTTY can be downloaded from [https://www.heise.de www.heise.de] |
Revision as of 15:25, 29 March 2017
FAQ
WEC7 Tools
CE Remote Display Application
- The Remote Display allows to operate the target device's Win CE desktop from a Windows PC. It requires a USB ActiveSync connection.
- Download X86 remote display application (over ActiveSync connection)
- Usage
- 1. Extract the zip file on your PC.
- 2. Wait for the ActiveSync connection to be ready.
- 3. Start ASRDisp.exe.
Binary BSP user guide
- 1. Download binary BSP (Please have a look at the iMX6 Downloads section.).
- 2. Unzip the files to any folder on your PC.
- 3. Call
link-DHCOM_iMX6_BIN_GEN.bat
file in the folder ...\DHCOM_iMX6_BSP_BIN\, to generate symbolic links in the \WINCE700\ folder. - 4. Start Visual Studio 2008 with WEC7 platform builder.
- 5. Open platform builder project
DHCOM_iMX6.pbxml
at location C:\WINCE700\OSDesigns\DHCOM_iMX6_WEC7\. - 6. Select retail build.
- 7. Call build --> rebuild solution to build the WEC7 image.
- 8. After the image build has completed successfully, the
nk.nb0
image is stored at location C:\WINCE700\OSDesigns\DHCOM_iMX6_WEC7\RelDir\_1_Retail_DHCOM_iMX6_ARMV7\. - 9. Copy the new nk.nb0 to your mircoSD card and restart the system.
- Note: To delete the symbolic links (see 3.) please call
unlink-DHCOM_iMX6_BIN_GEN.bat
file in the folder ...\DHCOM_iMX6_BSP_BIN\
WEC7 DHHalLib (function library)
The DHHalLib provides hardware related functions for Windows Embedded CE 6 and Windows Embedded Compact 7. All the functionality is available from the user mode.
Version numbers
- Read DHHalLib version
unsigned long DHHalLibGetVersion()
- Return value:
unsigned long
--> version number (e.g. 0x01040001 for version 1.4.0.1)
- BSP version
unsigned long BSPGetVersion()
- Return value:
unsigned long
--> version number (e.g. 0x01040001 for version 1.4.0.1) - Note: The version number information is stored in the following registry key:
[HKEY_LOCAL_MACHINE\Ident] dword:"BSPVersionNumber"
- Read image version
unsigned long WinCEImageGetVersion()
- Return value:
unsigned long
--> version number (e.g. 0x01040001 for version 1.4.0.1)
GPIO
- Note: These functions can only access the DHCOM standard GPIOs. The mapping is done with the following enum.
typedef enum DHCOM_GPIOEnum { DHCOM_GPIO_A, DHCOM_GPIO_B, DHCOM_GPIO_C, DHCOM_GPIO_D, DHCOM_GPIO_E, DHCOM_GPIO_F, DHCOM_GPIO_G, DHCOM_GPIO_H, DHCOM_GPIO_I, DHCOM_GPIO_J, DHCOM_GPIO_K, DHCOM_GPIO_L, DHCOM_GPIO_M, DHCOM_GPIO_N, DHCOM_GPIO_O, DHCOM_GPIO_P, DHCOM_GPIO_Q, DHCOM_GPIO_R, DHCOM_GPIO_S, DHCOM_GPIO_T, DHCOM_GPIO_U, DHCOM_GPIO_V, DHCOM_GPIO_W, DHCOM_GPIO_NOT_DEFINED }*pDHCOM_GPIOEnum;
- Direction
bool GPIOSetDirection( DHCOM_GPIOEnum eGpio, bool bInOut, bool bDefaultState)
- Input values:
DHCOM_GPIOEnum eGpio
= DHCOM GPIO pin namebool bInOut
= GPIO direction (1 = input / 0 = output)bool bDefaultState
= Default state (0 = low / 1 = high)
- Return value:
bool
--> true = success; false = failed
- Set state
void GPIOSetPin(DHCOM_GPIOEnum eGpio, bool bState)
- Input values:
DHCOM_GPIOEnum eGpio
= DHCOM GPIO pin namebool bState
= pin state ( 0 = low / 1 = high)
- Read state
bool GPIOGetPin(DHCOM_GPIOEnum eGpio)
- Input values:
DHCOM_GPIOEnum eGpio
= DHCOM GPIO pin name
- Return value:
bool
--> 0 = low; 1 = high
- Set Interrupt
bool GPIOSetInterrupt(DHCOM_GPIOEnum eGpio, HANDLE *hEvent, unsigned long ulTimeout)
- Input values:
DHCOM_GPIOEnum eGpio
= DHCOM GPIO pin nameHANDLE *hEvent
= external EventHandle Pointerbool bState
= GPIO Interrupt State
- Return value:
bool
--> true = success; false = failed
- Clear Interrupt
bool GPIOClearInterrupt(DHCOM_GPIOEnum eGpio)
- Note: Gpio Interrupt cannot disable by Hardware.
- Input values:
DHCOM_GPIOEnum eGpio
= DHCOM GPIO pin name
- Return value:
bool
--> true = success; false = failed
I2C
- Note: These I2C Devices can only be set. The mapping is done with the following enum.
typedef enum DHCOM_I2CEnum { DHCOM_I2C0=0, DHCOM_I2C1, DHCOM_I2C2, DHCOM_I2C3, DHCOM_I2C_NOT_DEFINED }*pDHCOM_I2CEnum;
- Note: These freqencies can only be set. The mapping is done with the following enum.
typedef enum DHCOM_I2CFREQMode { I2C_100K=0, I2C_400K, I2C_800K,I2C_1600K, I2C_2400K, I2C_3200K }*pDHCOM_I2CFREQMode;
- Open
bool I2COpen(DHCOM_I2CEnum eI2CPort, DHCOM_I2CFREQMode eI2CFreq)
- Input values:
DHCOM_I2CEnum eI2CPort
= DHCOM I2C port name (e.g. DHCOM_I2C0)DHCOM_I2CFREQMode eI2CFreq
= DHCOM I2C port freqency name(e.g. I2C_100K)
- Return value:
bool
--> true = success; false = failed
- Close
void I2CClose(DHCOM_I2CEnum eI2CPort)
- Input values:
DHCOM_I2CEnum eI2CPort
= DHCOM I2C port name (e.g. DHCOM_I2C0)
- Read
bool I2CRead(DHCOM_I2CEnum eI2CPort, DHCOM_I2CFREQMode eI2CFreq, unsigned char cDevId, unsigned char cI2CReg, unsigned char *pOutBuffer)
- Input values:
DHCOM_I2CEnum eI2CPort
= DHCOM I2C port name (e.g. DHCOM_I2C0)DHCOM_I2CFREQMode eI2CFreq
= DHCOM I2C port freqency name(e.g. I2C_100K)unsigned char cDevId
= I2C device address (0..127)unsigned char cI2CReg
= I2C device register address (0..255)unsigned char *pOutBuffer
= Pointer to the read byte
- Return value:
bool
--> true = success; false = failed
- Write
bool I2CWrite(DHCOM_I2CEnum eI2CPort, DHCOM_I2CFREQMode eI2CFreq, unsigned char cDevId, unsigned char cI2CReg, unsigned char cValue)
- Input values:
DHCOM_I2CEnum eI2CPort
= DHCOM I2C port name (e.g. DHCOM_I2C0)DHCOM_I2CFREQMode eI2CFreq
= DHCOM I2C port freqency name(e.g. I2C_100K)unsigned char cDevId
= I2C device address (0..127)unsigned char cI2CReg
= I2C device register address (0..255)unsigned char cValue
= Value to be written
- Return value:
bool
--> true = success; false = failed
- Read multiple bytes
bool I2CReadMultipleBytes(DHCOM_I2CEnum eI2CPort, DHCOM_I2CFREQMode eI2CFreq, unsigned char cDevId, unsigned char cI2CReg, unsigned char cBytes, unsigned char *pOutBuffer)
- Input values:
DHCOM_I2CEnum eI2CPort
= DHCOM I2C port name (e.g. DHCOM_I2C0)DHCOM_I2CFREQMode eI2CFreq
= DHCOM I2C port freqency name(e.g. I2C_100K)unsigned char cDevId
= I2C device address (0..127)unsigned char cI2CReg
= I2C device register address (0..255)unsigned char cBytes
= Number of bytes to be read (max. 255)unsigned char *pOutBuffer
= Pointer to the read buffer
- Return value:
bool
--> true = success; false = failed
- Write multiple bytes
bool I2CWriteMultipleBytes(DHCOM_I2CEnum eI2CPort, DHCOM_I2CFREQMode eI2CFreq, unsigned char cDevId, unsigned char cI2CReg, unsigned char cBytes, unsigned char *pInBuffer)
- Input values:
DHCOM_I2CEnum eI2CPort
= DHCOM I2C port name (e.g. DHCOM_I2C0)DHCOM_I2CFREQMode eI2CFreq
= DHCOM I2C port freqency name(e.g. I2C_100K)unsigned char cDevId
= I2C device address (0..127)unsigned char cI2CReg
= I2C device register address (0..255)unsigned char cBytes
= Number of bytes to be read (max. 255)unsigned char *pInBuffer
= Pointer to the input buffer
- Return value:
bool
--> true = success; false = failed
SPI
- Note: These SPI Devices can only be set. The mapping is done with the following enum.
typedef enum DHCOM_SPIEnum { DHCOM_SPI1=0, DHCOM_SPI2, DHCOM_SPI_NOT_DEFINED }*pDHCOM_SPIEnum;
- Note: These chip selects can be set. The mapping is done with the following enum.
typedef enum DHCOM_SPIModeEnum { SPI_CS0=0, SPI_CS1, SPI_CS2, SPI_CS3 }*pDHCOM_SPIModeEnum;
- Open
bool SPIOpen(DHCOM_SPIEnum eSPIPort, DHCOM_SPIModeEnum eSPIMode, unsigned int iSPIFreq)
- Input values:
DHCOM_SPIEnum eSPIPort
= DHCOM SPI port name (e.g. DHCOM_SPI1)DHCOM_SPIModeEnum eSPIMode
= DHCOM SPI mode name(e.g. DHCOM_CS0)unsigned int iSPIFreq
= DHCOM SPI frequency (e.g. 16MHz = 16000000)
- Return value:
bool
--> true = success; false = failed
- Close
void SPIClose(DHCOM_SPIEnum eSPIPort)
- Input values:
DHCOM_SPIEnum eSPIPort
= DHCOM SPI port name (e.g. DHCOM_SPI1)
- Read
bool SPIRead(DHCOM_SPIEnum eSPIPort, unsigned int *pOutBuffer)
- Input values:
DHCOM_SPIEnum eSPIPort
= DHCOM SPI port name (e.g. DHCOM_SPI1)unsigned int *pOutBuffer
= Pointer to the output buffer
- Return value:
bool
--> true = success; false = failed
- Write
bool SPIWrite(DHCOM_SPIEnum eSPIPort, unsigned int *pInBuffer, unsigned int *pOutBuffer, bool bLoopback)
- Input values:
DHCOM_SPIEnum eSPIPort
= DHCOM SPI port name (e.g. DHCOM_SPI1)unsigned int *pInBuffer
= Pointer to the input bufferunsigned int *pOutBuffer
= Pointer to the output buffer (If not Loopback used = NULL)bool bLoopback
= Enable/Disable Loopback transmission
- Return value:
bool
--> true = success; false = failed
- Read multiple bytes
bool SPIReadMultiple(DHCOM_SPIEnum eSPIPort, unsigned int iWCount, unsigned int *pOutBuffer)
- Input values:
DHCOM_SPIEnum eSPIPort
= DHCOM SPI port name (e.g. DHCOM_SPI1)unsigned int iWCount
= Number of bytes to read (max. 1024 Bytes)unsigned int *pOutBuffer
= Pointer to the output buffer
- Return value:
bool
--> true = success; false = failed
- Write multiple bytes
bool SPIWriteMultiple(DHCOM_SPIEnum eSPIPort, unsigned int *pOutBuffer, unsigned int iWCount)
- Input values:
DHCOM_SPIEnum eSPIPort
= DHCOM SPI port name (e.g. DHCOM_SPI1)unsigned int *pOutBuffer
= Pointer to the output buffer
- Return value:
bool
--> true = success; false = failed
- Read bytes from NOR Flash
bool SPIReadNORFlash(DHCOM_SPIEnum eSPIPort, unsigned int iSPIReg, unsigned int iWCount, unsigned int *pOutBuffer)
- Input values:
DHCOM_SPIEnum eSPIPort
= DHCOM SPI port name (e.g. DHCOM_SPI1)unsigned int iSPIReg
= SPI NOR Flash Start Address (0..65565)unsigned int iWCount
= Number of bytes to read (max. 1024 Bytes)unsigned int *pOutBuffer
= Pointer to the output buffer
- Return value:
bool
--> true = success; false = failed
- Write bytes to NOR Flash
bool SPIWriteNORFlash(DHCOM_SPIEnum eSPIPort, unsigned int iSPIReg, unsigned int *pOutBuffer, unsigned int iWCount)
- Input values:
DHCOM_SPIEnum eSPIPort
= DHCOM SPI port name (e.g. DHCOM_SPI1)unsigned int iSPIReg
= SPI NOR Flash Start Address (0..65565)unsigned int *pOutBuffer
= Pointer to the output buffer
- Return value:
bool
--> true = success; false = failed
Physical Memory
- Note: These freqencies can only be set. The mapping is done with the following enum.
typedef enum DHCOM_PHYEnum { DHCOM_PHY1=1, DHCOM_PHY2, DHCOM_PHY3, DHCOM_PHY4, DHCOM_PHY5, DHCOM_PHY6, DHCOM_PHY7, DHCOM_PHY8, DHCOM_PHY9 }*pDHCOM_PHYEnum;
- Write Physical Address
int WritePhysicalAddress(DHCOM_PHYEnum PHYDev, unsigned long ulPhyAddr, unsigned char cRegSize, int iValue, bool bReadBack)
- Input values:
DHCOM_PHYEnum PHYDev
= DHCOM PHY Device name (e.g. DHCOM_PHY1)unsigned long ulPhyAddr
= Physical Address to write (e.g. GPIO1_MASK_REG = 0x209c014)unsigned char cRegSize
= Register Size (8 = 8bit, 16 = 16bit, 32 = 32bit)int iValue
= Value for Physical Address to writebool bReadBack
= Enable/Disable Readback function (enable = true -> disable = false)
- Return value:
int
--> returns the written value from the specified Physical Address - if bReadBack == TRUE, else 0x0 will be returned
- Read Physical Address
int ReadPhysicalAddress(DHCOM_PHYEnum PHYDev, unsigned long ulPhyAddr, unsigned char cRegSize)
- Input values:
DHCOM_PHYEnum PHYDev
= DHCOM PHY Device name (e.g. DHCOM_PHY1)unsigned long ulPhyAddr
= Physical Address to write (e.g. GPIO1_MASK_REG = 0x209c014)unsigned char cRegSize
= Register Size (8 = 8bit, 16 = 16bit, 32 = 32bit)
- Return value:
int
--> returns the value from the specified Physical Address
KITL
- Restart
bool RestartPowerKITL()
- Input values:
- Return value:
bool
--> true = success; false = failed
- Control
bool ControlPowerKITL(bool bEnable)
- Input values:
bool bEnable
= Enable/Disable KITL Connection
- Return value:
bool
--> true = success; false = failed
Backlight
- Backlight Level
bool SetBacklightLevel(int Level)
- Note: In DHHalLib Version 1.0.0.0 only Backlight Enable/Disable available. (Value 0 = Disable, Value 1 to 255 = Enable)
- Input values:
int Level
= Backlight Level (0 ... 255)
- Return value:
bool
--> true = success; false = failed
- Backlight Timeout
bool SetBacklightSuspend(int Timeout, bool bEnable)
- Note: In DHHalLib Version 1.0.0.0 not available.
- Input values:
int Timeout
= Timeout for Backlight (seconds)bool bEnable
= Enable/Disable Timeout Backlight --> true = On; false = Off
- Return value:
bool
--> true = success; false = failed
Touch screen
- Calibrate touch
bool CalibrateTouch()
- Return value:
bool
--> true = success; false = failed
- Clear calibration data
bool ClearTouchCalibrationData()
- Description:
- This function delete the registry entry
[HKEY_LOCAL_MACHINE\HARDWARE\DEVICEMAP\TOUCH] dword:"TouchCalibrationDone"
. For saving the value permanent please callSaveRegistry()
afterwards.
- This function delete the registry entry
- Return value:
bool
--> true = success; false = failed
Registry
- Save HIVE registry
bool SaveRegistry()
- Return value:
bool
--> true = success; false = failed
- Create backup
bool CreateRegistryBackup()
- Description:
- This function generates the files ave_HKLM_Reg.srg and Save_HKLCU_Reg.srg in the folder \Storage Card\. These files can be used at a later time to restore the registry.
- Return value:
bool
--> true = success; false = failed
- Restore backup
bool RestoreRegistryBackup()
- Description:
- This function restores the registry from the files Save_HKLM_Reg.srg and Save_HKLCU_Reg.srg in the folder \Storage Card\. Afterwards a restart is carried out automatically. If the backup files are not present, then the function returns the return value flase.
- Return value:
bool
--> true = this never happens because a soft reset is performed; false = failed
Watchdog & Reset
- Soft reset
void SoftReset()
WEC2013 Debugging
- 1. Enable connection to WEC2013 device via Telnet. DH electronics recommends PuTTY for Telnet connection.
- Note: PuTTY can be downloaded from www.heise.de