📄 systffs.c
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( FLSocket vol /* pointer identifying drive */ ) { return (flOK); }/********************************************************************************* rfaVppOff - turns off Vpp (12 Volts)** This routine turns off Vpp (12 Volts).** RETURNS: N/A*/LOCAL void rfaVppOff ( FLSocket vol /* pointer identifying drive */ ) { }#endif /* SOCKET_12_VOLTS *//********************************************************************************* rfaSocketInit - perform all necessary initializations of the socket** This routine performs all necessary initializations of the socket.** RETURNS: flOK always*/LOCAL FLStatus rfaSocketInit ( FLSocket vol /* pointer identifying drive */ ) { rfaWriteEnable (); vol.cardChanged = FALSE; /* enable memory window and map it at address 0 */ rfaSetWindow (&vol); return (flOK); }/********************************************************************************* rfaSetWindow - set current window attributes, Base address, size, etc** This routine sets current window hardware attributes: Base address, size,* speed and bus width. The requested settings are given in the 'vol.window' * structure. If it is not possible to set the window size requested in* 'vol.window.size', the window size should be set to a larger value, * if possible. In any case, 'vol.window.size' should contain the * actual window size (in 4 KB units) on exit.** RETURNS: N/A*/LOCAL void rfaSetWindow ( FLSocket vol /* pointer identifying drive */ ) { /* Physical base as a 4K page */ vol.window.baseAddress = FLASH_BASE_ADRS >> 12; flSetWindowSize (&vol, FLASH_SIZE >> 12); }/********************************************************************************* rfaSetMappingContext - sets the window mapping register to a card address** This routine sets the window mapping register to a card address.* The window should be set to the value of 'vol.window.currentPage',* which is the card address divided by 4 KB. An address over 128MB,* (page over 32K) specifies an attribute-space address.** The page to map is guaranteed to be on a full window-size boundary.** RETURNS: N/A*/LOCAL void rfaSetMappingContext ( FLSocket vol, /* pointer identifying drive */ unsigned page /* page to be mapped */ ) { }/********************************************************************************* rfaGetAndClearCardChangeIndicator - return the hardware card-change indicator** This routine returns the hardware card-change indicator and clears it if set.** RETURNS: FALSE, or TRUE if the card has been changed*/LOCAL FLBoolean rfaGetAndClearCardChangeIndicator ( FLSocket vol /* pointer identifying drive */ ) { return (FALSE); }/********************************************************************************* rfaWriteProtected - return the write-protect state of the media** This routine returns the write-protect state of the media** RETURNS: FALSE, or TRUE if the card is write-protected*/LOCAL FLBoolean rfaWriteProtected ( FLSocket vol /* pointer identifying drive */ ) { return (FALSE); }/********************************************************************************* rfaWriteProtect - disable write access to the RFA** This routine disables write access to the RFA.** RETURNS: N/A*/LOCAL void rfaWriteProtect (void){ /* clear GPOEN1 bit (#17), make sure GPIO1 bit (#13) is clear */ /* *VMECHIP2_IOCR = (*VMECHIP2_IOCR) & ((~IOCR_GPOEN1) & (~IOCR_GPIOO1_HIGH)); */}/********************************************************************************* rfaWriteEnable - enable write access to the RFA** This routine enables write access to the RFA.** RETURNS: N/A*/LOCAL void rfaWriteEnable (void){ /* set GPOEN1 bit (#17), make sure GPIO1 bit (#13) is clear */ /* *VMECHIP2_IOCR = ((*VMECHIP2_IOCR) | IOCR_GPOEN1) & (~IOCR_GPIOO1_HIGH); */}/********************************************************************************* flFitInSocketWindow - check whether the flash array fits in the socket window** This routine checks whether the flash array fits in the socket window.** RETURNS: A chip size guaranteed to fit in the socket window.*/long int flFitInSocketWindow ( long int chipSize, /* size of single physical chip in bytes */ int interleaving, /* flash chip interleaving (1,2,4 etc) */ long int windowSize /* socket window size in bytes */ ) { if (chipSize*interleaving > windowSize) /* doesn't fit in socket window */ { int roundedSizeBits; /* fit chip in the socket window */ chipSize = windowSize / interleaving; /* round chip size at powers of 2 */ for (roundedSizeBits = 0; (0x1L << roundedSizeBits) <= chipSize; roundedSizeBits++) ; chipSize = (0x1L << (roundedSizeBits - 1)); } return (chipSize); }#if FALSE/********************************************************************************* sysTffsCpy - copy memory from one location to another** This routine copies <size> characters from the object pointed* to by <source> into the object pointed to by <destination>. If copying* takes place between objects that overlap, the behavior is undefined.** INCLUDE FILES: string.h** RETURNS: A pointer to <destination>.** NOMANUAL*/void * sysTffsCpy ( void * destination, /* destination of copy */ const void * source, /* source of copy */ size_t size /* size of memory to copy */ ) { bcopy ((char *) source, (char *) destination, (size_t) size); return (destination); }/********************************************************************************* sysTffsSet - set a block of memory** This routine stores <c> converted to an `unsigned char' in each of the* elements of the array of `unsigned char' beginning at <m>, with size <size>.** INCLUDE FILES: string.h** RETURNS: A pointer to <m>.** NOMANUAL*/void * sysTffsSet ( void * m, /* block of memory */ int c, /* character to store */ size_t size /* size of memory */ ) { bfill ((char *) m, (int) size, c); return (m); }#endif /* FALSE *//********************************************************************************* flDelayLoop - consume the specified time** This routine consumes the specified time.** RETURNS: N/A*/void flDelayLoop ( int cycles /* loop count to be consumed */ ) { while (--cycles) ; }/********************************************************************************* sysTffsFormat - format the flash memory above an offset** This routine formats the flash memory. Because this function defines * the symbolic constant, HALF_FORMAT, the lower half of the specified flash * memory is left unformatted. If the lower half of the flash memory was* previously formated by TrueFFS, and you are trying to format the upper half,* you need to erase the lower half of the flash memory before you format the* upper half. To do this, you could use:* .CS* tffsRawio(0, 3, 0, 8) * .CE* The first argument in the tffsRawio() command shown above is the TrueFFS * drive number, 0. The second argument, 3, is the function number (also * known as TFFS_PHYSICAL_ERASE). The third argument, 0, specifies the unit * number of the first erase unit you want to erase. The fourth argument, 8,* specifies how many erase units you want to erase. ** RETURNS: OK, or ERROR if it fails.*/STATUS sysTffsFormat (void) { STATUS status; tffsDevFormatParams params = { #define HALF_FORMAT /* lower 0.5MB for bootimage, upper 1.5MB for TFFS */ #ifdef HALF_FORMAT {0x00000l, 99, 1, 0x10000l, NULL, {0,0,0,0}, NULL, 2, 0, NULL},#else {0x0000000, 99, 1, 0x10000l, NULL, {0,0,0,0}, NULL, 2, 0, NULL},#endif /* HALF_FORMAT */ FTL_FORMAT_IF_NEEDED }; /* we assume that the drive number 0 is SIMM */ status = tffsDevFormat (0, (int)¶ms); return (status); }⌨️ 快捷键说明
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