#ifndef __MINIOS7__ #define __MINIOS7__ #define _I8000_ typedef unsigned int uint; typedef unsigned int WORD; typedef unsigned char uchar; typedef unsigned char BYTE; typedef unsigned long ulong; typedef unsigned long DWORD; #ifdef __TURBOC__ #if (__TURBOC__ < 0x0300) #define inpw inport #define outpw outport #endif #endif #define NoError 0 #define InitPinIsOpen 0 #define InitPinIsNotopen 1 #define QueueIsEmpty 0 #define QueueIsNotEmpty 1 #define PortError -1 #define DataError -2 #define ParityError -3 #define StopError -4 #define TimeOut -5 #define QueueEmpty -6 #define QueueOverflow -7 #define PosError -8 #define AddrError -9 #define BlockError -10 #define WriteError -11 #define SegmentError -12 #define BaudRateError -13 #define CheckSumError -14 #define ChannelError -15 #define BaudrateError -16 #define TriggerLevelError -17 #define DateError -18 #define TimeError -19 #define OutOfMemory -20 #define TimeIsUp 1 #ifdef __cplusplus extern "C" { #endif /* Fro library version, date,...*/ void InitLib(void); void GetLibDate(char *date); unsigned GetLibVersion(void); /* FOR WDT */ void EnableWDT(void); void DisableWDT(void); void RefreshWDT(void); /* FOR INIT* pin */ int ReadInitPin(void); /* For SCLK pin */ void ClockHigh(void); void ClockHighLow(void); void ClockLow(void); /* For LED (L1 of S-MMI)*/ void LedOn(void); void LedOff(void); void LedToggle(void); /* For L1/L2/L3 on I-8000 S-MMI */ #define LED_OFF 0 #define LED_ON 1 #define LED_TOGGLE 2 void SetLedL1(int mode); void SetLedL2(int mode); void SetLedL3(int mode); /* FOR 5* 7-segments LED */ extern unsigned char ShowData[19]; void pascal Show5DigitLed(int pos, int data); void pascal Show5DigitLedWithDot(int pos, int data); void Init5DigitLed(void); void pascal Show5DigitLedSeg(int pos, unsigned char data); void pascal Set5DigitLedTestMode(int mode); void pascal Set5DigitLedIntensity(int mode); void Disable5DigitLed(void); void Enable5DigitLed(void); /* For STDIO */ void Putch(int data); void Puts(char *str); int Getch(void); int Gets(char *str); int Kbhit(void); int LineInput(char *buf,int maxlen); void ResetScanBuffer(void); void SetScanBuffer(unsigned char *buf,int len); int Scanf(char *fmt, ...); /* for TC/BC only */ int Print(const char *fmt, ...); int _Printf(const char *fmt, ...); /* for TC/BC only */ int UngetchI(int key); int Ungetch(int key); /* For RTC/NVRAM */ void GetTime(int *hour,int *minute,int *sec); void GetDate(int *year,int *month,int *day); int GetWeekDay(void); int SetDate(int year,int month,int day); int SetTime(int hour,int minute,int sec); int ReadNVRAM(int addr); int WriteNVRAM(int addr, int data); void ReadRTC(int addr, int *data); void WriteRTC(int addr, int data); /* for system timeticks */ extern const unsigned long far *const TimeTicks; /* For old version EEPROM functions compatible */ #define WriteEEP EE_RandomWrite #define ReadEEP EE_RandomRead #define EnableEEP EE_WriteEnable #define ProtectEEP EE_WriteProtect /* for EEPROM(24WC128)*/ void EE_WriteProtect(void); void EE_WriteEnable(void); int EE_RandomRead(int Block,unsigned Addr); unsigned char EE_ReadNext(int Block); int EE_MultiRead(int StartBlock,unsigned StartAddr,int no,void *databuf); int EE_RandomWrite(int Block,unsigned Addr,int Data); int EE_MultiWrite(int Block,unsigned Addr,int no,const void *src); int EE_MultiWrite_A(int Block,unsigned Addr,unsigned no,const void *src); int EE_MultiWrite_L(unsigned address,unsigned no,const void *src); int EE_MultiRead_L(unsigned address,unsigned no,void *databuf); /*[2006/05/15] Add variables for EEPROM For 24LC16, size=2K bytes EE_Type=16; EE_BlockNo=8; EE_PageSize=16; For 24WC128, size=16K bytes EE_Type=128; EE_BlockNo=64; EE_PageSize=64; For the EEPROM functions, every block with 256 Bytes. for EE_Type=16, total size=256*EE_BlockNo=256*8=2K bytes, for EE_Type=128, total size=256*EE_BlockNo=256*64=16K bytes, EE_PageSize is for the function EE_MultiWrite().The maximum write size for the function EE_MultiWrite() is EE_PageSize. for 24lc16 it is 16 bytes, for 24WC128 it is 64 bytes. */ extern int const EE_Type; extern int const EE_BlockNo; extern int const EE_PageSize; /* for IP/MASK/GATEWAY/MAC */ void GetIp(unsigned char *ip); #define GetMac GetEid void GetEid(unsigned char *id); void GetMask(unsigned char *mask); void GetGateway(unsigned char *gate); void SetIp(unsigned char *ip); #define SetMac SetEid void SetEid(unsigned char *id); void SetMask(unsigned char *mask); void SetGateway(unsigned char *gate); extern int IpErrno; /*[2008/01/21] */ extern int Ip2Errno; /*[2008/01/21] */ #define IP_ERROR 1 #define MASK_ERROR 2 #define GATEWAY_ERROR 4 #define MAC_ERROR 8 /*[2008/01/21] */ void GetIp2(unsigned char *ip); #define GetMac2 GetEid2 void GetEid2(unsigned char *id); void GetMask2(unsigned char *mask); void GetGateway2(unsigned char *gate); void SetIp2(unsigned char *ip); #define SetEid2 SetMac2 void SetEid2(unsigned char *id); void SetMask2(unsigned char *mask); void SetGateway2(unsigned char *gate); /* for system */ extern unsigned long far *IntVect; int IsMiniOS7(void); int Is8000(void); int Is8000Tcp(void); #define IsResetByPowerOff IsResetByPowerOn int IsResetByPowerOn(void); int IsResetByWatchDogTimer(void); /* for FLASH MEMORY */ int FlashReadId(void); int FlashErase(unsigned int FlashSeg); int FlashWrite(unsigned int seg, unsigned int offset, char data); #define FlashRead FlashReadB unsigned char FlashReadB(unsigned seg, unsigned offset); unsigned FlashReadI(unsigned seg, unsigned offset); unsigned long FlashReadL(unsigned seg, unsigned offset); void far *_MK_FP_(unsigned s,unsigned off); extern unsigned FlashId; extern int FlashSize; /* Timer functions */ int TimerOpen(void); int TimerClose(void); void TimerResetValue(void); unsigned long TimerReadValue(void); int StopWatchReset(int channel); int StopWatchStart(int channel); int StopWatchStop(int channel); int StopWatchPause(int channel); int StopWatchContinue(int channel); int StopWatchReadValue(int channel,unsigned long *value); int CountDownTimerStart(int channel,unsigned long count); int CountDownTimerReadValue(int channel,unsigned long *value); void InstallUserTimer(void (*fun)(void)); void InstallUserTimer1C(void (*fun)(void)); /* StopWatch [計時碼表] */ #ifndef _T_STOPWATCH_ #define _T_STOPWATCH_ typedef struct { ulong ulStart,ulPauseTime; uint uMode; /* 0: pause, 1:run(start) */ } STOPWATCH; #endif /* CountDown Timer[倒數計時] */ #ifndef _T_COUNTDOWNTIMER_ #define _T_COUNTDOWNTIMER_ typedef struct { ulong ulTime,ulStartTime,ulPauseTime; uint uMode; /* 0: pause, 1:run(start) */ } COUNTDOWNTIMER; #endif void T_StopWatchStart(STOPWATCH *sw); ulong T_StopWatchGetTime(STOPWATCH *sw); void T_StopWatchPause(STOPWATCH *sw); void T_StopWatchContinue(STOPWATCH *sw); void T_CountDownTimerStart(COUNTDOWNTIMER *cdt,ulong timems); void T_CountDownTimerPause(COUNTDOWNTIMER *cdt); void T_CountDownTimerContinue(COUNTDOWNTIMER *cdt); int T_CountDownTimerIsTimeUp(COUNTDOWNTIMER *cdt); ulong T_CountDownTimerGetTimeLeft(COUNTDOWNTIMER *cdt); /* Timer functions II */ void T2_UpdateCurrentTimeTicks(void); /* every loop must call T2_UpdateCurrentTimeTicks() to get new time.*/ void T2_StopWatchStart(STOPWATCH *sw); ulong T2_StopWatchGetTime(STOPWATCH *sw); void T2_StopWatchPause(STOPWATCH *sw); void T2_StopWatchContinue(STOPWATCH *sw); void T2_CountDownTimerStart(COUNTDOWNTIMER *cdt,ulong timems); void T2_CountDownTimerPause(COUNTDOWNTIMER *cdt); void T2_CountDownTimerContinue(COUNTDOWNTIMER *cdt); int T2_CountDownTimerIsTimeUp(COUNTDOWNTIMER *cdt); ulong T2_CountDownTimerGetTimeLeft(COUNTDOWNTIMER *cdt); void Delay(unsigned ms); /* delay unit is ms, use CPU Timer 1. */ void Delay_1(unsigned ms); /* delay unit is 0.1 ms ,use CPU Timer 1.*/ void Delay_2(unsigned ms); /* delay unit is 0.01 ms ,use CPU Timer 1.*/ void DelayMs(unsigned t);/* delay unit is ms, use system timeticks. */ /* for MiniOS7 FLASH file system */ #ifndef __FILE_DATA__ #define __FILE_DATA__ typedef struct { unsigned mark; /* 0x7188 -> is file */ unsigned char fname[12]; unsigned char year; unsigned char month; unsigned char day; unsigned char hour; unsigned char minute; unsigned char sec; unsigned long size; char far *addr; unsigned CRC; unsigned CRC32; } FILE_DATA; #endif #ifndef _DISK_AB_ #define _DISK_AB_ typedef struct { unsigned sizeA:3; unsigned sizeB:3; unsigned sizeC:3; unsigned sum:7; } SIZE_AB; #endif extern SIZE_AB SizeAB; extern FILE_DATA far *fdata; extern unsigned DiskAStartSeg,DiskBStartSeg; #define DISKA 0 #define DISKB 1 /* int GetFileNo(void); */ #define GetFileNo() GetFileNo_AB(DISKA) /* int GetFileName(int no,char *fname); */ #define GetFileName(no,fname) GetFileName_AB(DISKA,no,fname) /* FILE_DATA far * GetFileInfoByNo(int no) */ #define GetFileInfoByNo(no) GetFileInfoByNo_AB(DISKA,no) /* FILE_DATA far * GetFileInfoByName(char *fname) */ #define GetFileInfoByName(fname) GetFileInfoByName_AB(DISKA,fname) /* char far * GetFilePositionByNo(int no) */ #define GetFilePositionByNo(no) GetFilePositionByNo_AB(DISKA,no) /* char far * GetFilePositionByName(char *fname) */ #define GetFilePositionByName(fname) GetFilePositionByName_AB(DISKA,fname) int GetFileNo_AB(int disk); int GetFileName_AB(int disk,int no,char *fname); FILE_DATA far * GetFileInfoByNo_AB(int disk,int no); FILE_DATA far *GetFileInfoByName_AB(int disk,char *fname); char far * GetFilePositionByNo_AB(int disk,int no); char far * GetFilePositionByName_AB(int disk,char *fname); void far *AddFarPtrLong(void far * ptr1,unsigned long size); void ReadSizeAB(void); void MoveToStartAddr(int disk); /* for COM0 (used by 87K module) */ /* WITHOUT CTS & RTS control */ #define COM1 0 #define COM2 1 #define COM3 2 #define COM4 3 #define FLOW_CONTROL_DISABLE 0 #define FLOW_CONTROL_ENABLE 1 #define FLOW_CONTROL_AUTO_BY_HW 2 #define FLOW_CONTROL_AUTO_BY_SW 3 #define ClearTxBuffer0 ClearTxBuffer_0 #define GetTxBufferFreeSize0 GetTxBufferFreeSize_0 #define PushDataToCom0 PushDataToCom_0 #define CheckInputBufSize0 CheckInputBufSize_0 #define InstallCom0 InstallCom_0 #define RestoreCom0 RestoreCom_0 #define SetBaudrate0 SetBaudrate_0 #define SetDataFormat0 SetDataFormat_0 #define ClearCom0 ClearCom_0 #define ClearCom0_DMA ClearCom_DMA_0 #define DataSizeInCom0 DataSizeInCom_0 #define IsCom0 IsCom_0 #define IsCom0OutBufEmpty IsComOutBufEmpty_0 #define ReadCom0 ReadCom_0 #define ToCom0Bufn ToComBufn_0 #define ToCom0Str ToComStr_0 #define SetCom0Timeout SetComTimeout_0 #define ToCom0 ToCom_0 #define IsTxBufEmpty0 IsTxBufEmpty_0 #define WaitTransmitOver0 WaitTransmitOver_0 #define ReadCom0n ReadComn_0 #define printCom0 printCom_0 #define SetBreakMode0 SetBreakMode_0 #define SendBreak0 SendBreak_0 #define IsDetectBreak0 IsDetectBreak_0 void ClearTxBuffer_0(void); int GetTxBufferFreeSize_0(void); int PushDataToCom_0(int data); void CheckInputBufSize_0(void); int InstallCom_0(unsigned long baud, int data, int parity,int stop); int RestoreCom_0(void); int SetBaudrate_0(unsigned long baud); int SetDataFormat_0(int databit,int parity,int stopbit); int ClearCom_0(void); int DataSizeInCom_0(void); int IsCom_0(void); int IsComOutBufEmpty_0(void); int ReadCom_0(void); int ToComBufn_0(char *buf,int no); int ToComStr_0(char *str); void SetComTimeout_0(unsigned t); int ToCom_0(int data); int IsTxBufEmpty_0(void); int WaitTransmitOver_0(void); int ReadComn_0(unsigned char *buf,int no); int printCom_0(const char *fmt,...); int DataSizeInCom_DMA_0(void); int ReadComn_DMA_0(unsigned char *buf,int maxsize); int InstallCom_DMA_0(unsigned long baud, int data, int parity,int stop); int ClearCom_DMA_0(void); int IsCom_DMA_0(void); int DataSizeInCom_DMA_0(void); int ReadCom_DMA_0(void); void SetBreakMode_0(int mode); void SendBreak_0(unsigned TimeMs); int IsDetectBreak_0(void); void SetComPortBufferSize_0(int in_size,int out_size); /* for COM0 use DMA */ unsigned Com0GetDataSize(void); void Com0SetInputBuf(char far *ptr,unsigned cnt); void Com0SendCmd(char far *cmd,unsigned length); void OpenCom0UseDMA(void); void CloseCom0UseDMA(void); /* for COM1 */ /* WITHOUT CTS & RTS control */ #define ClearTxBuffer1 ClearTxBuffer_1 #define GetTxBufferFreeSize1 GetTxBufferFreeSize_1 #define PushDataToCom1 PushDataToCom_1 #define CheckInputBufSize1 CheckInputBufSize_1 #define InstallCom1 InstallCom_1 #define RestoreCom1 RestoreCom_1 #define SetBaudrate1 SetBaudrate_1 #define SetDataFormat1 SetDataFormat_1 #define ClearCom1 ClearCom_1 #define DataSizeInCom1 DataSizeInCom_1 #define IsCom1 IsCom_1 #define IsCom1OutBufEmpty IsComOutBufEmpty_1 #define ReadCom1 ReadCom_1 #define ToCom1Bufn ToComBufn_1 #define ToCom1Str ToComStr_1 #define SetCom1Timeout SetComTimeout_1 #define ToCom1 ToCom_1 #define IsTxBufEmpty1 IsTxBufEmpty_1 #define WaitTransmitOver1 WaitTransmitOver_1 #define ReadCom1n ReadComn_1 #define printCom1 printCom_1 #define SetBreakMode1 SetBreakMode_1 #define SendBreak1 SendBreak_1 #define IsDetectBreak1 IsDetectBreak_1 void ClearTxBuffer_1(void); int GetTxBufferFreeSize_1(void); int PushDataToCom_1(int data); void CheckInputBufSize_1(void); int InstallCom_1(unsigned long baud, int data, int parity,int stop); int RestoreCom_1(void); int SetBaudrate_1(unsigned long baud); int SetDataFormat_1(int databit,int parity,int stopbit); int ClearCom_1(void); int DataSizeInCom_1(void); int IsCom_1(void); int IsComOutBufEmpty_1(void); int ReadCom_1(void); int ToComBufn_1(char *buf,int no); int ToComStr_1(char *str); void SetComTimeout_1(unsigned t); int ToCom_1(int data); int IsTxBufEmpty_1(void); int WaitTransmitOver_1(void); int ReadComn_1(unsigned char *buf,int no); int printCom_1(const char *fmt,...); void SetBreakMode_1(int mode); void SendBreak_1(unsigned TimeMs); int IsDetectBreak_1(void); void SetComPortBufferSize_1(int in_size,int out_size); int InstallCom_DMA_1(unsigned long baud, int data, int parity,int stop); int DataSizeInCom_DMA_1(void); int ReadComn_DMA_1(unsigned char *buf,int maxsize); int ClearCom_DMA_1(void); int IsCom_DMA_1(void); int DataSizeInCom_DMA_1(void); int ReadCom_DMA_1(void); #define FLOW_CONTROL_DISABLE 0 #define FLOW_CONTROL_ENABLE 1 #define FLOW_CONTROL_AUTO_BY_HW 2 #define FLOW_CONTROL_AUTO_BY_SW 3 /* Functions for COM3 */ #define InstallCom3 InstallCom_3 #define RestoreCom3 RestoreCom_3 #define IsCom3 IsCom_3 #define ToCom3 ToCom_3 #define ToCom3Str ToComStr_3 #define ToCom3Bufn ToComBufn_3 #define printCom3 printCom_3 #define ClearTxBuffer3 ClearTxBuffer_3 #define SetCom3FifoTriggerLevel SetComFifoTriggerLevel_3 #define SetBaudrate3 SetBaudrate_3 #define ReadCom3 ReadCom_3 #define ClearCom3 ClearCom_3 #define DataSizeInCom3 DataSizeInCom_3 #define WaitTransmitOver3 WaitTransmitOver_3 #define IsTxBufEmpty3 IsTxBufEmpty_3 #define IsCom3OutBufEmpty IsComOutBufEmpty_3 #define ReadCom3n ReadComn_3 #define SetDataFormat3 SetDataFormat_3 #define SetRtsActive3 SetRtsActive_3 #define SetRtsInactive3 SetRtsInactive_3 #define GetCtsStatus3 GetCtsStatus_3 #define SetBreakMode3 SetBreakMode_3 #define SendBreak3 SendBreak_3 #define IsDetectBreak3 IsDetectBreak_3 int InstallCom_3(unsigned long baud, int data, int parity, int stop); int RestoreCom_3(void); int IsCom_3(void); int ToCom_3(int data); int ToComStr_3(char *str); int ToComBufn_3(char *buf,int no); int printCom_3(const char *fmt,...); void ClearTxBuffer_3(void); int SetComFifoTriggerLevel_3(int level); int SetBaudrate_3(unsigned long baud); int ReadCom_3(void); int ClearCom_3(void); int DataSizeInCom_3(void); int WaitTransmitOver_3(void); int IsTxBufEmpty_3(void); int IsComOutBufEmpty_3(void); int SetDataFormat_3(int databit,int parity,int stopbit); int ReadComn_3(unsigned char *buf,int n); void SetRtsActive_3(void); void SetRtsInactive_3(void); int GetCtsStatus_3(void); void SendBreak_3(unsigned timems); void SetBreakMode_3(int mode); int IsDetectBreak_3(void); void SetCtsControlMode_3(int mode); void SetRtsControlMode_3(int mode); void SetComPortBufferSize_3(int in_size,int out_size); int GetComFifoTriggerLevel_3(void); /*[2006/11/09]*/ /* mode can be: FLOW_CONTROL_DISABLE (0) FLOW_CONTROL_ENABLE (1) : only work for CTS control. FLOW_CONTROL_AUTO_BY_HW (2) : set both RTC/CTS auto control by UART H/W FLOW_CONTROL_AUTO_BY_SW (3) : set RTC/CTS control by software(the driver/functions in this library) */ #define fCtsControlMode3 fCtsControlMode_3 extern int fCtsControlMode_3; #define fRtsControlMode3 fRtsControlMode_3 extern int fRtsControlMode_3; /* Functions for COM4 */ #define InstallCom4 InstallCom_4 #define RestoreCom4 RestoreCom_4 #define IsCom4 IsCom_4 #define ToCom4 ToCom_4 #define ToCom4Str ToComStr_4 #define ToCom4Bufn ToComBufn_4 #define printCom4 printCom_4 #define ClearTxBuffer4 ClearTxBuffer_4 #define SetCom4FifoTriggerLevel SetComFifoTriggerLevel_4 #define SetBaudrate4 SetBaudrate_4 #define ReadCom4 ReadCom_4 #define ClearCom4 ClearCom_4 #define DataSizeInCom4 DataSizeInCom_4 #define WaitTransmitOver4 WaitTransmitOver_4 #define IsTxBufEmpty4 IsTxBufEmpty_4 #define IsCom4OutBufEmpty IsComOutBufEmpty_4 #define ReadCom4n ReadComn_4 #define SetDataFormat4 SetDataFormat_4 #define SetRtsActive4 SetRtsActive_4 #define SetRtsInactive4 SetRtsInactive_4 #define GetCtsStatus4 GetCtsStatus_4 #define SetBreakMode4 SetBreakMode_4 #define SendBreak4 SendBreak_4 #define IsDetectBreak4 IsDetectBreak_4 int InstallCom_4(unsigned long baud, int data, int parity, int stop); int RestoreCom_4(void); int IsCom_4(void); int ToCom_4(int data); int ToComStr_4(char *str); int ToComBufn_4(char *buf,int no); int printCom_4(const char *fmt,...); void ClearTxBuffer_4(void); int SetComFifoTriggerLevel_4(int level); int SetBaudrate_4(unsigned long baud); int ReadCom_4(void); int ClearCom_4(void); int DataSizeInCom_4(void); int WaitTransmitOver_4(void); int IsTxBufEmpty_4(void); int IsComOutBufEmpty_4(void); int SetDataFormat_4(int databit,int parity,int stopbit); int ReadComn_4(unsigned char *buf,int n); void SetRtsActive_4(void); void SetRtsInactive_4(void); int GetCtsStatus_4(void); void SendBreak_4(unsigned timems); void SetBreakMode_4(int mode); int IsDetectBreak_4(void); void SetCtsControlMode_4(int mode); void SetRtsControlMode_4(int mode); void SetComPortBufferSize_4(int in_size,int out_size); int GetComFifoTriggerLevel_4(void); /*[2006/11/09]*/ #define fCtsControlMode4 fCtsControlMode_4 extern int fCtsControlMode_4; #define fRtsControlMode4 fRtsControlMode_4 extern int fRtsControlMode_4; /* For COM4 without use INTERRUPT */ int IsCom_4_1(void); int ReadCom_4_1(void); int ReadComn_4_1(unsigned char *buf,int no); int ToCom_4_1(int data); void ReadDataFromUartFifo(void); void SendDataToUartFifo(void); void EnableMonitorCom4(void); void DisableMonitorCom4(void); /* for I-8000 module(slot/back plane) */ typedef union { struct { unsigned char do8,di8; } data8; unsigned data16; } DIODATA; typedef union { DIODATA data; struct { unsigned do16,di16; } data16; unsigned long data32; } DIODATA32; extern int NumberOfSlot; extern unsigned SlotAddr[8]; extern int __Last87kSlot; extern int __InChangeSlot; #define _PARALLEL 0x80 #define _SCAN 0x40 #define _32BIT 0x20 #define _8BIT 0x10 #define _DI32 0xE3 #define _DO32 0xE0 #define _DI16DO16 0xE2 #define _DI16 0xC3 #define _DO16 0xC0 #define _DI8DO8 0xC2 #define _DI8 0x93 #define _DO8 0x90 //extern unsigned far *BA56912; /*=(unsigned far *)0x0040007EL; */ extern unsigned char far *const ModuleType; /*=(unsigned char far *)0x00400038L; */ extern unsigned char far *const NameOfModule; /*=(unsigned char far *)0x00400030L; */ extern unsigned long far *const LedData32; /*(unsigned long far *)0x0040004CL; */ extern DIODATA32 far *DIOData32; int GetNetId(void); void ChangeToSlot(unsigned slot); //void ClrSlotInt(int mask); //void ClrAllSlotInt(void); //void DisableNMI(void); //void EnableNMI(void); //int GetSlotInt(void); int GetNumberOfSlot(void); void DO_32(int slot,unsigned long cdata); /* For 32 bits output */ void DIO_DO_16(int slot,unsigned cdata); /* For: 16 bits output on DI16/DO16 */ void DO_16(int slot,unsigned int cdata); /* For 16 bits output */ void DO_8(int slot,unsigned char cdata); /* For 8 bits output */ void DIO_DO_8(int slot,unsigned char cdata); /* For: 8 bits output on DI8/DO8 or 4 bits output on DI4/DO4 */ unsigned long int DI_32(int slot); /* For 32 bits input */ unsigned int DI_16(int slot); /* For 16 bits input */ unsigned char DI_8(int slot); /*For 8 bits input */ /* [11/03/2003] add function for universal DI/O card.(such as 8050) */ #define UDIO_DI16 DI_16 #define UDIO_DO16 DO_16 unsigned UDIO_ReadConfig_16(int slot); void UDIO_WriteConfig_16(int slot,unsigned config); /* functions for COM port on 8142/8142I/8144/8144I/8112/8114 */ int SetInBufSIze(int size); int SetOutBufSIze(int size); int _SetBaudrate(unsigned slot,unsigned port,unsigned long baud); int _SetDataFormat(unsigned slot,unsigned port,int data, int parity,int stop); int RestoreCom8000(unsigned slot); int InstallCom8000(unsigned slot); int IsCom8000(unsigned slot,unsigned port); int ToCom8000(unsigned slot,unsigned port,int data); int ToCom8000Str(unsigned slot,unsigned port,char *str); int ToCom8000nBytes(unsigned slot,unsigned port,char *buf,int no); int ReadCom8000(unsigned slot,unsigned port); int ReadCom8000nBytes(unsigned slot,unsigned port,char *buf,int maxno); int ClearCom8000(unsigned slot, unsigned port); void ShowErrLedCom8000(unsigned slot,int data); /* bit vallue: 0: LED ON, 1:LED OFF bit 0(0x01) for com port 1 bit 1(0x02) for com port 2 bit 2(0x04) for com port 3(for 8144(I)/8114 only) bit 3(0x08) for com port 4(for 8144(I)/8114 only) */ #define _MSR_dCTS 0x01 #define _MSR_dDSR 0x02 #define _MSR_TERI 0x04 #define _MSR_dDCD 0x08 #define _MSR_CTS 0x10 #define _MSR_DSR 0x20 #define _MSR_RI 0x40 #define _MSR_DCD 0x80 #define _MCR_DTR 0x01 #define _MCR_RTS 0x02 #define _MCR_OUT1 0x04 #define _MCR_OUT2 0x08 #define _MCR_LOOP 0x10 #define _MCR_AUTO_FLOW_CONTROL 0x20 int GetCom8000_MSR(unsigned slot, unsigned port); /* Get current MSR.(Modem Status Register) On error return PortError(-1). On success return 8 bits status. The bit definition is as above.(_MSR_xxx) */ int SetCom8000_MCR(unsigned slot, unsigned port,int mcr); /* Set the MCR(Modem Control Register) bit 0(DTR) & bit 1(RTS). On error return PortError(-1). On success return NoError(0). Only support to set DTR & RTS bit. for set RTS active just call SetCom8000_MCR(slot, port,_MCR_DTR+_MCR_RTS); (also active DTR) for set RTS inactive just call SetCom8000_MCR(slot, port,_MCR_DTR); (only active DTR) call SetCom8000_MCR(slot, port,0); to inactive both RTS & DTR. */ int SetCom8000_MCR_Bit(unsigned slot, unsigned port,int mcr_bit); int ClearCom8000_MCR_Bit(unsigned slot, unsigned port,int mcr_bit); int SetRts8000(unsigned slot, unsigned port,int mode); /* mode=1 --> set RTS active mode=0 --> set RTS inactive */ int SetCtsControlMode8000(unsigned slot,unsigned port,int mode); int SetRtsControlMode8000(unsigned slot,unsigned port,int mode); /* mode: the same as SetCtsControlMode_3() */ int GetCtsControlMode8000(unsigned slot,unsigned port); int GetRtsControlMode8000(unsigned slot,unsigned port); int GetCom8000TxBufferFreeSize(unsigned slot, unsigned port); void ClearCom8000TxBuffer(unsigned slot, unsigned port); int GetCurMsr8000(unsigned slot,unsigned port); int GetMsrChanged8000(unsigned slot,unsigned port); void ClrMsrChanged8000(unsigned slot,unsigned port); int SetCom8000FifoTriggerLevel(unsigned slot, unsigned port, int level); int GetCom8000FifoTriggerLevel(unsigned slot, unsigned port); void SendBreak8000(unsigned slot, unsigned port,unsigned timems); void SetBreakMode8000(unsigned slot, unsigned port,int mode); int IsDetectBreak8000(unsigned slot, unsigned port); /* for S-MMI key */ #define SKEY_SET 1 #define SKEY_DOWN 2 #define SKEY_MODE 3 #define SKEY_UP 4 extern unsigned char far * const KeyStatus; #define SKEY_SET_DOWN 0x08 #define SKEY_DOWN_DOWN 0x04 #define SKEY_UP_DOWN 0x02 #define SKEY_MODE_DOWN 0x01 #define IsSystemKey _IsSystemKey #define ClearSystemKey _ClearSystemKey #define GetSystemKey _GetSystemKey extern int (*_IsSystemKey)(void); extern void (*_ClearSystemKey)(void); extern int (*_GetSystemKey)(void); /* For Send command to I-7000/I-87K series. */ extern char hex_to_ascii[16]; int ascii_to_hex(char ascii); int SendCmdTo7000(int iPort, unsigned char *cCmd, int iChksum); /* (INPUT)iPort:can be 0,1,3,4. (INPUT)lTimeout: unit is ms. (INPUT) cCmd: cmd for send to COM port(I-7000/I-87K). DON'T add '\r' at the end of cCmd, SendCmdTo7000() will add check sum(if needed) & '\r' after cCmd . (INPUT) iChksum: 0: disable, 1: enable. */ #define ReceiveResponseFrom7000_loop ReceiveResponseFrom7000 int ReceiveResponseFrom7000(int iPort, unsigned char *cCmd, long lTimeout, int iChksum); /* (INPUT)iPort:can be 0,1,3,4. (INPUT)lTimeout: unit is check times. (OUTPUT) cCmd: response from COM port(I-7000/I-87K). (INPUT) iChksum: 0: disable, 1: enable. */ #define ReceiveResponseFrom7000_ms ReceiveResponseFrom7000_1 int ReceiveResponseFrom7000_1(int iPort, unsigned char *cCmd, long lTimeout, int iChksum); /* (INPUT)iPort:can be 0,1,3,4. (INPUT)lTimeout: unit is ms. (*****) (OUTPUT) cCmd: response from COM port(I-7000/I-87K). (INPUT) iChksum: 0: disable, 1: enable. */ /* for ALL COM PORT */ int printCom(int port,char *fmt,...); int IsDetectBreak(int port); int SendBreak(int port,unsigned timems); int SetBreakMode(int port,int mode); int ClearCom(int port); int ClearTxBuffer(int port); int InstallCom(int port, unsigned long baud, int data, int parity,int stop); int ToComBufn(int port,char *buf,int no); int RestoreCom(int port); int ToComStr(int port,char *str); int DataSizeInCom(int port); int IsCom(int port); int ReadComn(int port,unsigned char *buf,int n); int ReadCom(int port); int SetBaudrate(int port,unsigned long baud); int SetDataFormat(int port,int databit,int parity,int stopbit); /*[2005/09/15]*/ int ToCom(int port,int data); int IsTxBufEmpty(int port); int GetTxBufferFreeSize(int port); int WaitTransmitOver(int port); int SetRtsActive(int port); int SetRtsInactive(int port); int GetCtsStatus(int port); int SetCtsControlMode(int port,int mode); /*[2006/01/19] add*/ int SetRtsControlMode(int port,int mode); /*[2006/01/19] add*/ int SetXonXoffControlMode(int port,int mode); /*[2006/01/19] add*/ int SetMCR(int port,int mcr); /*[2006/06/29] */ int SetMCR_Bit(int port, int mcr_bit); /*[2006/06/29] */ int ClearMCR_Bit(int port,int mcr_bit); /*[2006/06/29] */ int SetComFifoTriggerLevel(int port,int level); /*[2006/06/29] */ int SetComPortBufferSize(int port,int in_size,int out_size); /* [2006/07/12] */ int GetCtsControlMode(int port);/*[2006/11/09]*/ int GetRtsControlMode(int port);/*[2006/11/09]*/ int SetDtrActive(int port); /*[2006/11/09]*/ int SetDtrInactive(int port); /*[2006/11/09]*/ int GetDsrStatus(int port); /*[2006/11/09]*/ int GetMSR(int port); /*[2006/11/09]*/ int GetCurMsr(int port); /*[2006/11/09]*/ int GetMsrChanged(int port); /*[2006/11/09]*/ int ClrMsrChanged(int port); /*[2006/11/09]*/ int GetComFifoTriggerLevel(int port); /*[2006/11/09]*/ /* function table for up functions except printCom */ /* For example if want to call: if(IsCom(port)){ data=ReadCom(port); } also can use : if(IsCom_[port]()){ data=ReadCom_[port](); } IsCom(port)/ReadCom(port) just for backword compatible, it also will call IsCom_[port]()/ReadCom_[port]() and so on. */ #define COM_PORT_NO 4 extern int (*IsDetectBreak_[COM_PORT_NO+1])(void); extern void (*SendBreak_[COM_PORT_NO+1])(unsigned timems); extern void (*SetBreakMode_[COM_PORT_NO+1])(int mode); extern int (*ClearCom_[COM_PORT_NO+1])(void); extern void (*ClearTxBuffer_[COM_PORT_NO+1])(void); extern int (*InstallCom_[COM_PORT_NO+1])(unsigned long baud, int data, int parity,int stop); extern int (*ToComBufn_[COM_PORT_NO+1])(char *buf,int no); extern int (*RestoreCom_[COM_PORT_NO+1])(void); extern int (*ToComStr_[COM_PORT_NO+1])(char *str); extern int (*DataSizeInCom_[COM_PORT_NO+1])(void); extern int (*IsCom_[COM_PORT_NO+1])(void); extern int (*ReadComn_[COM_PORT_NO+1])(unsigned char *buf,int n); extern int (*ReadCom_[COM_PORT_NO+1])(void); extern int (*SetBaudrate_[COM_PORT_NO+1])(unsigned long baud); extern int (*ToCom_[COM_PORT_NO+1])(int data); extern int (*IsTxBufEmpty_[COM_PORT_NO+1])(void); extern int (*GetTxBufferFreeSize_[COM_PORT_NO+1])(void); extern int (*WaitTransmitOver_[COM_PORT_NO+1])(void); extern void (*SetRtsActive_[COM_PORT_NO+1])(void); extern void (*SetRtsInactive_[COM_PORT_NO+1])(void); extern int (*GetCtsStatus_[COM_PORT_NO+1])(void); extern int (*SetDataFormat_[COM_PORT_NO+1])(int databit,int parity,int stopbit); extern void (*SetCtsControlMode_[COM_PORT_NO+1])(int mode); /*[2006/01/19] add*/ extern void (*SetRtsControlMode_[COM_PORT_NO+1])(int mode); /*[2006/01/19] add*/ extern void (*SetXonXoffControlMode_[COM_PORT_NO+1])(int mode); /*[2006/01/19] add*/ extern int (*SetMCR_[COM_PORT_NO+1])(int mcr); /* [2006/06/29] */ extern void (*ClearMCR_Bit_[COM_PORT_NO+1])(int mcr_bit); /*[2006/06/29] */ extern void (*SetMCR_Bit_[COM_PORT_NO+1])(int mcr_bit); /*[2006/06/29] */ extern int (*SetComFifoTriggerLevel_[COM_PORT_NO+1])(int level); /*[2006/06/29] */ extern void (*SetComPortBufferSize_[COM_PORT_NO+1])(int in_size,int out_size); /* [2006/07/12] */ extern int (*GetCtsControlMode_[COM_PORT_NO+1])(void);/*[2006/11/09]*/ extern int (*GetRtsControlMode_[COM_PORT_NO+1])(void);/*[2006/11/09]*/ extern void (*SetDtrActive_[COM_PORT_NO+1])(void); /*[2006/11/09]*/ extern void (*SetDtrInactive_[COM_PORT_NO+1])(void); /*[2006/11/09]*/ extern int (*GetDsrStatus_[COM_PORT_NO+1])(void); /*[2006/11/09]*/ extern int (*GetMSR_[COM_PORT_NO+1])(void); /*[2006/11/09]*/ extern int (*GetCurMsr_[COM_PORT_NO+1])(void); /*[2006/11/09]*/ extern int (*GetMsrChanged_[COM_PORT_NO+1])(void); /*[2006/11/09]*/ extern int (*ClrMsrChanged_[COM_PORT_NO+1])(void); /*[2006/11/09]*/ extern int (*GetComFifoTriggerLevel_[COM_PORT_NO+1])(void); /*[2006/11/09]*/ int GetComportNumber(void); extern const unsigned char far * const SystemSerialNumber; void InitLib(void); /* MUST CALL InitLib() first before use "DIOData32". */ void GetLibDate(char *date); unsigned GetLibVersion(void); /* Current version is 2.01 (return 0x0201) */ extern int TriggerLevel[4]; /* [92/09/19] add */ void SetComPortBufferSize_3(int in_size,int out_size); void SetComPortBufferSize_4(int in_size,int out_size); /* When use SetComPortBufferSize_0/1/3/4() to set the size of com port input/output buffer, must call before call InstallCom_0/1/3/4(). */ void InstallComInputData_3(int (*DoInputData)(unsigned char data)); void InstallComInputData_4(int (*DoInputData)(unsigned char data)); /* After call InstallComInputData_3/4(), When the COM port ISR for COM3/4 receive a data, it will call the function installed(DoInputData), and pass the received data to it. And IsCom() will always return 0. */ /* [11/06/2003] add Software flow control(Xon/Xoff) for COM1~COM4 COM2 is RS-485, used in half-duplex mode, need not software flow control. */ void SetXonXoffControlMode_1(int mode); void SetXonXoffControlMode_3(int mode); void SetXonXoffControlMode_4(int mode); /* mode=0 --> disable Xon/Xoff control mode=1 --> enable Xon/Xoff control */ /* [2003/12/01] Add function for debug, using STDIO COM PORT. Even after all InstallCom_1() also can use these 3 functions to send message to STDIO COM port. */ void pascal _dPutch(int data1); void _dPuts(char *str); int _dPrint(char *fmt,...); /* [2003/12/10] Add function for read system timeticks. */ long GetTimeTicks(void); long GetTimeTicks_ISR(void); /* use this one in ISR */ /* The return value is *TimeTicks. */ int InstallUserTimerFunction_us(unsigned time,void (*fun)(void)); /* time unit is 0.1 us. for example: If want timer generate interrupt for every 0.5ms(500 us=5000*0.1us) (That is to say system will call your function once every 0.5 ms) just use void fun(void) { ... } ... InstallUserTimerFunction_us(5000,fun); */ int InstallUserTimerFunction_ms(unsigned time,void (*fun)(void)); /* time unit is ms. for example: If want timer generate interrupt for every 1 second(1 sec=1000 ms) (That is to say system will call your function once every 1 sec.) just use void fun(void) { ... } ... InstallUserTimerFunction_ms(1000,fun); */ void StopUserTimerFun(void); /* [2004/02/17] add EEPROM(93C46) functions for I-8017/8024 */ /* For EEPROM(93C46) on 8017 */ void I8017_EE_WriteDisable(int slot); void I8017_EE_WriteEnable(int slot); unsigned I8017_EE_Read(int slot,int Addr); void I8017_EE_Write(int slot,int Addr,unsigned Data); /* For EEPROM(93C46) on 8024*/ #define I8024_EE_WriteEnable(slot) I8017_EE_WriteEnable(slot) #define I8024_EE_WriteDisable(slot) I8017_EE_WriteDisable(slot) unsigned I8024_EE_Read(int slot,int Addr); void I8024_EE_Write(int slot,int Addr,unsigned Data); /* 2004/02/26 add function usr burst mode to read date/time from RTC chip(DS-1302) */ typedef struct { int year; char month,day,weekday; char hour,minute,sec; }TIME_DATE; void GetTimeDate(TIME_DATE *timedate); int SetTimeDate(TIME_DATE *timedate); /* when call SetTimeDate(), need set the right year,month,day and the function will auto set the weekday. */ //extern const int IntVectNo8k[8]; //extern unsigned long OldIntVect8k[8]; //extern const unsigned ConPort8k[8]; /* [2004/04/19] add function CmdToArg(). using " ,\r\t" as Delimiter. the value of cmd string will be changed. */ #define MAX_CMD_NO 50 extern int Argc; extern char *Argv[MAX_CMD_NO]; int CmdToArg(char *cmd); /* return value is argument number(Argc). for example: char *cmd="p1 p2 p3\tp4,p5"; after call CmdToArg(cmd); Argc=5, Argv[0]="p1"; Argv[1]="p2"; Argv[2]="p3"; Argv[3]="p4"; Argv[4]="p5"; */ /* [2004/07/26] add */ extern int CurMsr_3; extern int bMsrChanged_3; extern int CurMsr_4; extern int bMsrChanged_4; /* [2004/07/26] add DSR/DTR function for COM4. *** DSR/DTR functions will work when COM4 can use interrupt mode. *** */ extern int fDsrControlMode_4,fDtrControlMode_4; extern int CurDTR_4; void SetDtrActive_4(void); void SetDtrInactive_4(void); int GetDsrStatus_4(void); void SetDsrControlMode_4(int mode);/* not finished */ void SetDtrControlMode_4(int mode);/* not finished */ /* Functions for COM2 */ #define InstallCom2 InstallCom_2 #define RestoreCom2 RestoreCom_2 #define IsCom2 IsCom_2 #define ToCom2 ToCom_2 #define ToCom2Str ToComStr_2 #define ToCom2Bufn ToComBufn_2 #define printCom2 printCom_2 #define ClearTxBuffer2 ClearTxBuffer_2 #define SetCom2FifoTriggerLevel SetComFifoTriggerLevel_2 #define SetBaudrate2 SetBaudrate_2 #define ReadCom2 ReadCom_2 #define ClearCom2 ClearCom_2 #define DataSizeInCom2 DataSizeInCom_2 #define WaitTransmitOver2 WaitTransmitOver_2 #define IsTxBufEmpty2 IsTxBufEmpty_2 #define IsCom2OutBufEmpty IsComOutBufEmpty_2 #define ReadCom2n ReadComn_2 #define SetDataFormat2 SetDataFormat_2 #define SetBreakMode2 SetBreakMode_2 #define SendBreak2 SendBreak_2 #define IsDetectBreak2 IsDetectBreak_2 int InstallCom_2(unsigned long baud, int data, int parity, int stop); int RestoreCom_2(void); int IsCom_2(void); int ToCom_2(int data); int ToComStr_2(char *str); int ToComBufn_2(char *buf,int no); int printCom_2(const char *fmt,...); void ClearTxBuffer_2(void); int SetComFifoTriggerLevel_2(int level); int SetBaudrate_2(unsigned long baud); int ReadCom_2(void); int ClearCom_2(void); int DataSizeInCom_2(void); int WaitTransmitOver_2(void); int IsTxBufEmpty_2(void); int IsComOutBufEmpty_2(void); int SetDataFormat_2(int databit,int parity,int stopbit); int ReadComn_2(unsigned char *buf,int n); void SendBreak_2(unsigned timems); void SetBreakMode_2(int mode); int IsDetectBreak_2(void); void SetComPortBufferSize_2(int in_size,int out_size); int GetComFifoTriggerLevel_2(void); /*[2006/11/09]*/ int GetSerialNumber(char *Serial); /* [2004/10/13] Add GetSerialNumber() is used to read system serial number from hardware. on sucess return 0, and the serial number store to Serial. on fail return -1: cannot find the hardware IC return -2: CRC error */ void InstallNewTimer(void); extern int Int9Flag; /* int _IsSystemKey(void); int _GetSystemKey(void); void _ClearSystemKey(void); */ /* [2004/11/16] Add Support a new timer ISR, it WILL NOT call INT 0x1C(every 55ms), and will not call the ScanLed function if there is no I-8000 module on the slot. */ /* [2005/02/14] add general purpose functions for all PIO pins Please be carefully for using these 3 functions. !!! NOT ALL 32 PIO pins can use used by user. !!! */ void SetPioDir(unsigned pin,int dir); void SetPio(int pin,int mode); int GetPio(int pin); void SetPioHighLow(int pin); /* [2005/11/29]add */ void SetPioLowHigh(int pin); /* [2005/11/29]add */ #define _OUTPUT_MODE 0 #define _INPUT_MODE_WITH_PULL_HIGH_OR_LOW 1 #define _INPUT_MODE_WITHOUT_PULL_HIGH_OR_LOW 2 #define _NORMAL_MODE 3 /* input: pin : 0~31. mode: 0 or 1 dir: 0: set the PIO pin to output mode 1: set the PIO pin to input with pull high(for some pin is pull low.) 2: set the PIO pin to input without pull high/low. 3: set the PIO pin to normal mode output for GetPio(): 0: for input mode: the input is low. for output mode: current output is low. non zero: for input mode: the input is high. for output mode: current output is high. */ /* [2005/02/21] Add */ void far * AllocateTopMemory(unsigned long size); /* [2005/03/07] add */ int GetMSR_3(void); int GetMSR_4(void); int SetMCR_3(int mcr); int SetMCR_4(int mcr); void SetMCR_Bit_3(int mcr_bit); void SetMCR_Bit_4(int mcr_bit); void ClearMCR_Bit_3(int mcr_bit); void ClearMCR_Bit_4(int mcr_bit); /* [2007/09/17] Add functions for S256/S512 on I-8000 back plate. For S512 : 256(S256_MaxBlock) blocks, every block has 2048(S256_BlockSize) bytes. Total size is 512K bytes. */ #define OffsetError -100 #define S256_BlockSize 2048 #define S256_BlockWordSize 1024 #define S256_MaxBlock 256 /*---------------------------------------------------------------------*/ int S256_Init(void); /* Before use S256/S512 must call this function. *** [DOES NOT DETECT battery status, because the new H/W does not support it.] *** [return value]: 512: ram size is 512K (S512). 0: can not find S512. */ /*---------------------------------------------------------------------*/ int S256_Read(unsigned block,unsigned offset); /* Read data from SRAM by block & offset. [input] block:0-(S256_MaxBlock-1) offset:0-(S256_BlockSize-1) [return value]: on success return the data sotred in sram. if block is out of range return BlockError(-10), if offset is out of range return OffsetError(-100). */ /*---------------------------------------------------------------------*/ int S256_Write(unsigned block,unsigned offset,unsigned char data); /* Write data to SRAM by block & offset. [input] block:0-(S256_MaxBlock-1) offset:0-(S256_BlockSize-1) [return value]: on success return NoError(0). if block is out of range return BlockError(-10), if offser is out of range return OffsetError(-100). */ /*---------------------------------------------------------------------*/ int S256_ReadF(unsigned long address); /* Read data from SRAM by linear address. [input] address:0-0x7FFFF for S512 [return value]: BlockError: the address is out og range, >= 0 : return the data sotred in sram. */ /*---------------------------------------------------------------------*/ int S256_ReadFn(unsigned long address,unsigned no,unsigned char *buf); /* Read n bytes data from SRAM by linear address. [input] address:0-0x7FFFF for S512 no: the bytes number to read. buf:the buffer address to store data. [return value]: return the readed data number. if the address is out of range S256_ReadFn() return 0. */ /*---------------------------------------------------------------------*/ int S256_WriteF(unsigned long address,unsigned char data); /* Write data to SRAM by linear address. [input] address:0-0x7FFFF for S512 [return value]: BlockError: the address is out og range, NoError(0): Write success. */ /*---------------------------------------------------------------------*/ int S256_WriteFn(unsigned long address,unsigned no,unsigned char *data); /* Write n bytes data to SRAM by linear address. [input] address:0-0x7FFFF for S512 no: the bytes number to wirte. buf:the ddress of the data buffer. [return value]: return the readed data number. if the address is out of range S256_ReadFn() return 0. */ /*---------------------------------------------------------------------*/ int S256_WriteBlock(unsigned block,unsigned char *Buf); int S256_ReadBlock(unsigned block,unsigned char *Buf); /*---------------------------------------------------------------------*/ /* [2005/05/27] add functions for using timer functions */ int SetDelayTimer(int no); /* The delay functions(Dealy()/Delay_1()/Delay_2() by default using system's timer 0. user can call SetDelayTimer(1); set it to use timer 1. return : 0 for using timer 0, 1 for using timer 1. */ int SetUserTimer(int no); /* The user timer functions(InstallUserTimerFunction_us()/InstallUserTimerFunction_ms() by default using system's timer 0. user can call SetUserTimer(1); set it to use timer 1. return : 0 for using timer 0, 1 for using timer 1. */ /* [2006/02/07] Add functions for write/delete file Please refer to the file:"OS7_file.txt" or "OS7_file_big5.txt" */ int OS7_DeleteAllFile(int disk); long OS7_GetDiskFreeSize(int disk); int OS7_OpenWriteFile(int disk); int OS7_WriteFile(int disk,void *buf,int size); int OS7_CloseWriteFile(int disk,FILE_DATA *f_data); extern int OS7_FileDateTimeMode; /* [2006/02/10] add functions for CRC16 OS7_xxxx() will use these function to get the crc16 of the file data. Please refer to the file:"OS7_crc16.txt" or "OS7_crc16_big5.txt" */ int CRC16_Push(void); int CRC16_Pop(void); void CRC16_Set(unsigned val); #define CRC16_Reset() CRC16_Set(0) unsigned CRC16_Read(void); void CRC16_AddData(unsigned char data); void CRC16_AddDataN(unsigned char far *data,unsigned length); int CRC16_MakeTable(void); /* [2006/07/06] add 2 functions for 8112/8114/8142/8144 series. */ int IsCom8000OutBufEmpty(int slot, int port); /* on error return PortError(-1). If the output buffer is empty retunrs 1. If the output buffer is not empty returns 0. */ int WaitCom8000TransmitOver(int slot, int port); /* On success returns NoError(0). On error returns PortError(-1) or TimeOut(-5). */ /* [2006/08/28] Add The variable "ModuleName" is the same as the variable "NameOfModule". The variable "ModuleFullName" supports the full name of the modules plug on the slots of I-8000 controller. ModuleFullName[0] contains the full name of the module on slot 0. ModuleFullName[1] contains the full name of the module on slot 1. ... If there is no module on that slot , the value of ModuleFullName[slot] will be "". for example : for I-87017, ModuleName[slot]=17, ModuleFullName[slot] is "87017", for I-87017ML, ModuleName[slot]=17, but ModuleFullName[slot] is "87017ML", So if just use the ModuleName[slot] the program can not point out that module is "87017" or "87017ML", but use the variable ModuleFullName[slot] the program can do it. */ extern unsigned char far * const ModuleName; extern unsigned char far ** const ModuleFullName; /*----------------------------------------------------------------------------*/ /* [2007/01/18] Add function to control the high ram(128K FRAM/SRAM or 256K SRAM ) C837/813 can support high ram.(option) */ void EnableHighRam(void); void DisableHighRam(void); int GetHighRamMode(void); /* [2007/06/04] add */ /* return value: 0 --> high ram is ENABLED. != 0 --> high ram is DISABLED. */ void SetHighRam(int mode); /* [2007/06/04] add */ /* mode=0 --> ENABLE high ram mode != 0 --> DISABLE high ram. */ /*----------------------------------------------------------------------------*/ #define LowByte(data) (unsigned char)(data) #define HighByte(data) *(((unsigned char *)&(data))+1) /* [2007/08/02] add get high/low word from a long variable */ #define LowWord(data) (unsigned)(data) #define HighWord(data) *(((unsigned *)&(data))+1) /*----------------------------------------------------------------------------*/ /* [2007/06/20] Add functions for swap data byte order. */ unsigned SwapShort(unsigned data); /* swap the high byte and low byte. SwapShort(0x1234) will return 0x3412; */ unsigned long SwapLong(unsigned long val); /* SwapLong(0x12345678) will return 0x78563412; */ /*----------------------------------------------------------------------------*/ /* [2007/06/28] Add functions for CRC-16 used by Modbus/RTU */ extern unsigned Modbus_CRC16; void Modbus_CRC16_Set(unsigned val); #define Modbus_CRC16_Reset() Modbus_CRC16_Set(0xFFFF) unsigned Modbus_CRC16_Read(void); void Modbus_GetCRC16(unsigned char *puchMsg, int DataLen); int Modbus_CRC16_Push(void); int Modbus_CRC16_Pop(void); /*----------------------------------------------------------------------------*/ /* [2007/07/06] Add functions for the NAME/VER/DATE of the library. */ unsigned GetOsLibVersion(void); /* the same as GetLibVersion(). */ char *GetOsLibDate(void); char *GetOsLibName(void); /*----------------------------------------------------------------------------*/ /* [2007/09/11] Add functions for new Back Plane */ void Install_8KIsr(void); /* InitLib() will call this function.*/ void UnInstall_8KIsr(void); int InstallSlotLevelIsr(unsigned slot,void (*isr)(int slot)); int UnInstallSlotLevelIsr(unsigned slot); int InstallSlotRisingIsr(int slot,void (*isr)(int slot)); int UnInstallSlotRisingIsr(int slot); int InstallComIsr_2(void (*isr)(void)); int UnInstallComIsr_2(void); int InstallComIsr_3(void (*isr)(void)); int UnInstallComIsr_3(void); int InstallComIsr_4(void (*isr)(void)); int UnInstallComIsr_4(void); int InstallModulePlugIsr(void (*isr)(void)); int UnInstallModulePlugIsr(void); int InstallTimerOutIsr(void (*isr)(void),unsigned dtHigh,unsigned dtLow); /* unit = 1 us */ int UnInstallTimerOutIsr(void); int InstallTimer1Isr(void (*isr)(void),unsigned dt); /* unit = 1 us */ int UnInstallTimer1Isr(void); int InstallTimer2Isr(void (*isr)(void),unsigned dt); /* unit = 10 us */ int UnInstallTimer2Isr(void); /*----------------------------------------------------------------------------*/ /* [2008/03/03] add */ int FlashGetWpStatus(void); /* return 0: Flash is in Write-Enabled mode return 1: Flash is in Write-Protected mode */ /*----------------------------------------------------------------------------*/ /* [2008/03/05] add */ int GetBatteryStatus(void); #define BATTERY_LOW_1 2 #define BATTERY_LOW_2 4 /* return value: bit1 : status of battery 1 bit2 : status of battery 2 0 means battery is OK, 1 means battery low. The two batteries are used for RTC & the 512K bytes battery backup SRAM. */ /*----------------------------------------------------------------------------*/ /*[2008/04/01] add function for microSD*/ int microSD_WriteBlock(void *data,unsigned long block,unsigned BlockNo); int microSD_ReadBlock(void *data,unsigned long block,unsigned BlockNo); int microSD_Start(unsigned long *BlockNo,unsigned long *MemorySize); /*----------------------------------------------------------------------------*/ /*[2008/08/14] add function for new plugged 8K module */ void Check_ID_8K(int slot); #ifdef __cplusplus } #endif #endif