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306 lines
9.1 KiB
306 lines
9.1 KiB
/*
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* $Log: P:/user/amir/lite/vcs/flsystem.h_v $
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Rev 1.4 11 Sep 1997 14:14:22 danig
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physicalToPointer receives drive no. when FAR == 0
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Rev 1.3 04 Sep 1997 13:58:30 danig
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DEBUG_PRINT
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Rev 1.2 28 Aug 1997 16:39:32 danig
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include stdlib.h instead of malloc.h
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Rev 1.1 19 Aug 1997 20:05:06 danig
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Andray's changes
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Rev 1.0 24 Jul 1997 18:13:06 amirban
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Initial revision.
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*/
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/************************************************************************/
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/* */
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/* FAT-FTL Lite Software Development Kit */
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/* Copyright (C) M-Systems Ltd. 1995-1996 */
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/* */
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/************************************************************************/
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#ifndef FLSYSTEM_H
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#define FLSYSTEM_H
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#include <ntddk.h>
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#include "flcustom.h"
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/* DiskOnChip bus configuration
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*
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* When FL_NO_USE_FUNC is defined use the defintion bellow to set DiskOnChip
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* bus width access (either 8/16/32).
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* Please check the manula before deciding to use the FL_NO_USE_FUNC mode.
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*/
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#define DOC_ACCESS_TYPE 8
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/*moti
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* delay With Yeald CPU disable
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*
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* Osak utiliezes the flSleep customized routine to yeald the CPU while
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* waiting for time consumming operations like flash erase. If the routine
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* is not implemented the uncomment the define bellow
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*/
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#define DO_NOT_YEAL_CPU
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/*
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* signed/unsigned char
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*
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* It is assumed that 'char' is signed. If this is not your compiler
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* default, use compiler switches, or insert a #pragma here to define this.
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*
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*/
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/*#pragma option -K-*/ /* default char is signed */
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/* CPU target
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*
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* Use compiler switches or insert a #pragma here to select the CPU type
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* you are targeting.
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*
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* If the target is an Intel 80386 or above, also uncomment the CPU_i386
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* definition.
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*/
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/*#pragma option -3*/ /* Select 80386 CPU */
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#define CPU_i386
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/* NULL constant
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*
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* Some compilers require a different definition for the NULL pointer
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*/
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/*#include <_null.h>*/
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/* Little-endian/big-endian
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*
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* FAT and translation layers structures use the little-endian (Intel)
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* format for integers.
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* If your machine uses the big-endian (Motorola) format, uncomment the
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* following line.
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* Note that even on big-endian machines you may omit the BIG_ENDIAN
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* definition for smaller code size and better performance, but your media
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* will not be compatible with standard FAT and FTL.
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*/
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/* #define BIG_ENDIAN */
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/* Far pointers
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*
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* Specify here which pointers may be far, if any.
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* Far pointers are usually relevant only to 80x86 architectures.
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*
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* Specify FAR_LEVEL:
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* 0 - if using a flat memory model or having no far pointers.
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* 1 - if only the socket window may be far
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* 2 - if only the socket window and caller's read/write buffers
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* may be far.
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* 3 - if socket window, caller's read/write buffers and the
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* caller's I/O request packet may be far
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*/
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#define FAR_LEVEL 0
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/* Memory routines
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*
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* You need to supply library routines to copy, set and compare blocks of
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* memory, internally and to/from callers. The code uses the names 'tffscpy',
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* 'tffsset' and 'tffscmp' with parameters as in the standard 'memcpy',
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* 'memset' and 'memcmp' C library routines.
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*/
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#include <string.h>
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#ifndef ENVIRONMENT_VARS
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#if FAR_LEVEL > 0
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#define tffscpy _fmemcpy
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#define tffscmp _fmemcmp
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#define tffsset _fmemset
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#else
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#define tffscpy memcpy
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#define tffscmp memcmp
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#define tffsset memset
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#endif
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#else
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#if FAR_LEVEL > 0
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#define flcpy _fmemcpy
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#define flcmp _fmemcmp
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#define flset _fmemset
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#else
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#define flcmp flmemcmp
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#define flset flmemset
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#define flcpy flmemcpy
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#endif
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#endif
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/* Pointer arithmetic
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*
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* The following macros define machine- and compiler-dependent macros for
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* handling pointers to physical window addresses. The definitions below are
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* for PC real-mode Borland-C.
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*
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* 'physicalToPointer' translates a physical flat address to a (far) pointer.
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* Note that if when your processor uses virtual memory, the code should
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* map the physical address to virtual memory, and return a pointer to that
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* memory (the size parameter tells how much memory should be mapped).
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*
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* 'addToFarPointer' adds an increment to a pointer and returns a new
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* pointer. The increment may be as large as your window size. The code
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* below assumes that the increment may be larger than 64 KB and so performs
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* huge pointer arithmetic.
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*/
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#if FAR_LEVEL > 0
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#include <dos.h>
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#define physicalToPointer(physical,size,drive) \
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MK_FP((LONG) ((physical) >> 4),(LONG) (physical) & 0xF)
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#define addToFarPointer(base,increment) \
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MK_FP(FP_SEG(base) + \
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((USHORT) ((FP_OFF(base) + (increment)) >> 16) << 12), \
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FP_OFF(base) + (LONG) (increment))
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#else
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#include <ntddk.h>
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#define freePointer(ptr,size) 1
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typedef struct {
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ULONG windowSize;
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ULONGLONG physWindow;
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PVOID winBase;
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ULONG interfAlive;
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PVOID fdoExtension;
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UCHAR nextPartitionNumber;
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} NTsocketParams;
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//moti extern NTsocketParams *pdriveInfo;
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extern NTsocketParams *pdriveInfo;
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#define physicalToPointer(physical,size,drive) pdriveInfo[drive & 0x0f].winBase
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#define pointerToPhysical(ptr) ((ULONG_PTR)(ptr))
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#define addToFarPointer(base,increment) \
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((VOID *) ((UCHAR *) (base) + (increment)))
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#endif
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/* Default calling convention
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*
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* C compilers usually use the C calling convention to routines (cdecl), but
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* often can also use the pascal calling convention, which is somewhat more
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* economical in code size. Some compilers also have specialized calling
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* conventions which may be suitable. Use compiler switches or insert a
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* #pragma here to select your favorite calling convention.
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*/
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/*#pragma option -p*/ /* Default pascal calling convention */
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/* Naming convention for functions that uses non-default convention. */
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#define NAMING_CONVENTION /*cdecl*/
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#define FL_IOCTL_START 0
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/* Mutex type
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*
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* If you intend to access the FLite API in a multi-tasking environment,
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* you may need to implement some resource management and mutual-exclusion
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* of FLite with mutex & semaphore services that are available to you. In
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* this case, define here the Mutex type you will use, and provide your own
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* implementation of the Mutex functions incustom.c
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*
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* By default, a Mutex is defined as a simple counter, and the Mutex
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* functions in custom.c implement locking and unlocking by incrementing
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* and decrementing the counter. This will work well on all single-tasking
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* environment, as well as on many multi-tasking environments.
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*/
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//typedef LONG FLMutex;
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typedef struct _SpinLockMutex{
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KSPIN_LOCK Mutex;
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KIRQL cIrql;
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}SpinLockMutex;
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typedef SpinLockMutex FLMutex;
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/*#include <dos.h>
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#define flStartCriticalSection(FLMutex) disable()
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#define flEndCriticalSection(FLMutex) enable()*/
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/* Memory allocation
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*
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* The translation layers (e.g. FTL) need to allocate memory to handle
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* Flash media. The size needed depends on the media being handled.
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*
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* You may choose to use the standard 'malloc' and 'free' to handle such
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* memory allocations, provide your own equivalent routines, or you may
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* choose not to define any memory allocation routine. In this case, the
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* memory will be allocated statically at compile-time on the assumption of
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* the largest media configuration you need to support. This is the simplest
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* choice, but may cause your RAM requirements to be larger than you
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* actually need.
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*
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* If you define routines other than malloc & free, they should have the
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* same parameters and return types as malloc & free. You should either code
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* these routines in flcustom.c or include them when you link your application.
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*/
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#ifdef NT5PORT
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VOID * myMalloc(ULONG numberOfBytes);
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#define MALLOC myMalloc
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#define FREE ExFreePool
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/* Debug mode
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*
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* Uncomment the following lines if you want debug messages to be printed
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* out. Messages will be printed at initialization key points, and when
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* low-level errors occure.
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* You may choose to use 'printf' or provide your own routine.
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*/
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#if DBG
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#define DEBUG_PRINT(str) DbgPrint(str)
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#else
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#define DEBUG_PRINT(str)
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#endif
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VOID startIntervalTimer(VOID);
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#define tffsReadByteFlash(r) READ_REGISTER_UCHAR((PUCHAR)r)
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#define tffsWriteByteFlash(r,b) WRITE_REGISTER_UCHAR((PUCHAR)r,(UCHAR)b)
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#define tffsReadWordFlash(r) READ_REGISTER_USHORT((PUSHORT)r)
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#define tffsWriteWordFlash(r,b) WRITE_REGISTER_USHORT((PUSHORT)r,(USHORT)b)
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#define tffsReadDwordFlash(r) READ_REGISTER_ULONG((PULONG)r)
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#define tffsWriteDwordFlash(r,b) WRITE_REGISTER_ULONG((PULONG)r,(ULONG)b)
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#define tffsReadByte(r) READ_REGISTER_UCHAR((PUCHAR)&(r))
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#define tffsWriteByte(r,b) WRITE_REGISTER_UCHAR((PUCHAR)&(r),b)
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#define tffsReadBuf(d,s,c) READ_REGISTER_BUFFER_UCHAR((PUCHAR)s,d,c)
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#define tffsWriteBuf(d,s,c) WRITE_REGISTER_BUFFER_UCHAR((PUCHAR)d,s,c)
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extern void PRINTF(
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char * Message,
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...
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);
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#endif /* NT5PORT */
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#endif
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