Leaked source code of windows server 2003
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/*++ BUILD Version: 0003 // Increment this if a change has global effects
Copyright (c) 1989 Microsoft Corporation
Module Name:
Cache.h
Abstract:
This module contains the public data structures and procedure
prototypes for the cache management system.
Author:
Revision History:
--*/
#ifndef _CACHE_
#define _CACHE_
#include "prefetch.h"
#include "perf.h"
// begin_ntifs
//
// Define two constants describing the view size (and alignment)
// that the Cache Manager uses to map files.
//
#define VACB_MAPPING_GRANULARITY (0x40000)
#define VACB_OFFSET_SHIFT (18)
//
// Public portion of BCB
//
typedef struct _PUBLIC_BCB {
//
// Type and size of this record
//
// NOTE: The first four fields must be the same as the BCB in cc.h.
//
CSHORT NodeTypeCode;
CSHORT NodeByteSize;
//
// Description of range of file which is currently mapped.
//
ULONG MappedLength;
LARGE_INTEGER MappedFileOffset;
} PUBLIC_BCB, *PPUBLIC_BCB;
//
// File Sizes structure.
//
typedef struct _CC_FILE_SIZES {
LARGE_INTEGER AllocationSize;
LARGE_INTEGER FileSize;
LARGE_INTEGER ValidDataLength;
} CC_FILE_SIZES, *PCC_FILE_SIZES;
//
// Define a Cache Manager callback structure. These routines are required
// by the Lazy Writer, so that it can acquire resources in the right order
// to avoid deadlocks. Note that otherwise you would have most FS requests
// acquiring FS resources first and caching structures second, while the
// Lazy Writer needs to acquire its own resources first, and then FS
// structures later as it calls the file system.
//
//
// First define the procedure pointer typedefs
//
//
// This routine is called by the Lazy Writer prior to doing a write,
// since this will require some file system resources associated with
// this cached file. The context parameter supplied is whatever the FS
// passed as the LazyWriteContext parameter when is called
// CcInitializeCacheMap.
//
typedef
BOOLEAN (*PACQUIRE_FOR_LAZY_WRITE) (
IN PVOID Context,
IN BOOLEAN Wait
);
//
// This routine releases the Context acquired above.
//
typedef
VOID (*PRELEASE_FROM_LAZY_WRITE) (
IN PVOID Context
);
//
// This routine is called by the Lazy Writer prior to doing a readahead.
//
typedef
BOOLEAN (*PACQUIRE_FOR_READ_AHEAD) (
IN PVOID Context,
IN BOOLEAN Wait
);
//
// This routine releases the Context acquired above.
//
typedef
VOID (*PRELEASE_FROM_READ_AHEAD) (
IN PVOID Context
);
typedef struct _CACHE_MANAGER_CALLBACKS {
PACQUIRE_FOR_LAZY_WRITE AcquireForLazyWrite;
PRELEASE_FROM_LAZY_WRITE ReleaseFromLazyWrite;
PACQUIRE_FOR_READ_AHEAD AcquireForReadAhead;
PRELEASE_FROM_READ_AHEAD ReleaseFromReadAhead;
} CACHE_MANAGER_CALLBACKS, *PCACHE_MANAGER_CALLBACKS;
//
// This structure is passed into CcUninitializeCacheMap
// if the caller wants to know when the cache map is deleted.
//
typedef struct _CACHE_UNINITIALIZE_EVENT {
struct _CACHE_UNINITIALIZE_EVENT *Next;
KEVENT Event;
} CACHE_UNINITIALIZE_EVENT, *PCACHE_UNINITIALIZE_EVENT;
//
// Callback routine for retrieving dirty pages from Cache Manager.
//
typedef
VOID (*PDIRTY_PAGE_ROUTINE) (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN PLARGE_INTEGER OldestLsn,
IN PLARGE_INTEGER NewestLsn,
IN PVOID Context1,
IN PVOID Context2
);
//
// Callback routine for doing log file flushes to Lsn.
//
typedef
VOID (*PFLUSH_TO_LSN) (
IN PVOID LogHandle,
IN LARGE_INTEGER Lsn
);
//
// Macro to test whether a file is cached or not.
//
#define CcIsFileCached(FO) ( \
((FO)->SectionObjectPointer != NULL) && \
(((PSECTION_OBJECT_POINTERS)(FO)->SectionObjectPointer)->SharedCacheMap != NULL) \
)
// end_ntifs
//
// Throw away miss counter
//
extern ULONG CcThrowAway;
//
// Performance Counters
//
extern ULONG CcFastReadNoWait;
extern ULONG CcFastReadWait;
extern ULONG CcFastReadResourceMiss;
extern ULONG CcFastReadNotPossible;
extern ULONG CcFastMdlReadNoWait;
extern ULONG CcFastMdlReadWait; // ntifs
extern ULONG CcFastMdlReadResourceMiss;
extern ULONG CcFastMdlReadNotPossible;
extern ULONG CcMapDataNoWait;
extern ULONG CcMapDataWait;
extern ULONG CcMapDataNoWaitMiss;
extern ULONG CcMapDataWaitMiss;
extern ULONG CcPinMappedDataCount;
extern ULONG CcPinReadNoWait;
extern ULONG CcPinReadWait;
extern ULONG CcPinReadNoWaitMiss;
extern ULONG CcPinReadWaitMiss;
extern ULONG CcCopyReadNoWait;
extern ULONG CcCopyReadWait;
extern ULONG CcCopyReadNoWaitMiss;
extern ULONG CcCopyReadWaitMiss;
extern ULONG CcMdlReadNoWait;
extern ULONG CcMdlReadWait;
extern ULONG CcMdlReadNoWaitMiss;
extern ULONG CcMdlReadWaitMiss;
extern ULONG CcReadAheadIos;
extern ULONG CcLazyWriteIos;
extern ULONG CcLazyWritePages;
extern ULONG CcDataFlushes;
extern ULONG CcDataPages;
extern ULONG CcLostDelayedWrites;
extern PULONG CcMissCounter;
//
// Global Maintenance routines
//
NTKERNELAPI
BOOLEAN
CcInitializeCacheManager (
VOID
);
LOGICAL
CcHasInactiveViews (
VOID
);
LOGICAL
CcUnmapInactiveViews (
IN ULONG NumberOfViewsToUnmap
);
VOID
CcWaitForUninitializeCacheMap (
IN PFILE_OBJECT FileObject
);
// begin_ntifs
//
// The following routines are intended for use by File Systems Only.
//
NTKERNELAPI
VOID
CcInitializeCacheMap (
IN PFILE_OBJECT FileObject,
IN PCC_FILE_SIZES FileSizes,
IN BOOLEAN PinAccess,
IN PCACHE_MANAGER_CALLBACKS Callbacks,
IN PVOID LazyWriteContext
);
NTKERNELAPI
BOOLEAN
CcUninitializeCacheMap (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER TruncateSize OPTIONAL,
IN PCACHE_UNINITIALIZE_EVENT UninitializeCompleteEvent OPTIONAL
);
NTKERNELAPI
VOID
CcSetFileSizes (
IN PFILE_OBJECT FileObject,
IN PCC_FILE_SIZES FileSizes
);
//
// VOID
// CcFastIoSetFileSizes (
// IN PFILE_OBJECT FileObject,
// IN PCC_FILE_SIZES FileSizes
// );
//
#define CcGetFileSizePointer(FO) ( \
((PLARGE_INTEGER)((FO)->SectionObjectPointer->SharedCacheMap) + 1) \
)
NTKERNELAPI
BOOLEAN
CcPurgeCacheSection (
IN PSECTION_OBJECT_POINTERS SectionObjectPointer,
IN PLARGE_INTEGER FileOffset OPTIONAL,
IN ULONG Length,
IN BOOLEAN UninitializeCacheMaps
);
NTKERNELAPI
VOID
CcSetDirtyPageThreshold (
IN PFILE_OBJECT FileObject,
IN ULONG DirtyPageThreshold
);
NTKERNELAPI
VOID
CcFlushCache (
IN PSECTION_OBJECT_POINTERS SectionObjectPointer,
IN PLARGE_INTEGER FileOffset OPTIONAL,
IN ULONG Length,
OUT PIO_STATUS_BLOCK IoStatus OPTIONAL
);
NTKERNELAPI
LARGE_INTEGER
CcGetFlushedValidData (
IN PSECTION_OBJECT_POINTERS SectionObjectPointer,
IN BOOLEAN BcbListHeld
);
// end_ntifs
NTKERNELAPI
VOID
CcZeroEndOfLastPage (
IN PFILE_OBJECT FileObject
);
// begin_ntifs
NTKERNELAPI
BOOLEAN
CcZeroData (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER StartOffset,
IN PLARGE_INTEGER EndOffset,
IN BOOLEAN Wait
);
NTKERNELAPI
PVOID
CcRemapBcb (
IN PVOID Bcb
);
NTKERNELAPI
VOID
CcRepinBcb (
IN PVOID Bcb
);
NTKERNELAPI
VOID
CcUnpinRepinnedBcb (
IN PVOID Bcb,
IN BOOLEAN WriteThrough,
OUT PIO_STATUS_BLOCK IoStatus
);
NTKERNELAPI
PFILE_OBJECT
CcGetFileObjectFromSectionPtrs (
IN PSECTION_OBJECT_POINTERS SectionObjectPointer
);
NTKERNELAPI
PFILE_OBJECT
CcGetFileObjectFromBcb (
IN PVOID Bcb
);
//
// These routines are implemented to support write throttling.
//
//
// BOOLEAN
// CcCopyWriteWontFlush (
// IN PFILE_OBJECT FileObject,
// IN PLARGE_INTEGER FileOffset,
// IN ULONG Length
// );
//
#define CcCopyWriteWontFlush(FO,FOFF,LEN) ((LEN) <= 0X10000)
NTKERNELAPI
BOOLEAN
CcCanIWrite (
IN PFILE_OBJECT FileObject,
IN ULONG BytesToWrite,
IN BOOLEAN Wait,
IN BOOLEAN Retrying
);
typedef
VOID (*PCC_POST_DEFERRED_WRITE) (
IN PVOID Context1,
IN PVOID Context2
);
NTKERNELAPI
VOID
CcDeferWrite (
IN PFILE_OBJECT FileObject,
IN PCC_POST_DEFERRED_WRITE PostRoutine,
IN PVOID Context1,
IN PVOID Context2,
IN ULONG BytesToWrite,
IN BOOLEAN Retrying
);
//
// The following routines provide a data copy interface to the cache, and
// are intended for use by File Servers and File Systems.
//
NTKERNELAPI
BOOLEAN
CcCopyRead (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN BOOLEAN Wait,
OUT PVOID Buffer,
OUT PIO_STATUS_BLOCK IoStatus
);
NTKERNELAPI
VOID
CcFastCopyRead (
IN PFILE_OBJECT FileObject,
IN ULONG FileOffset,
IN ULONG Length,
IN ULONG PageCount,
OUT PVOID Buffer,
OUT PIO_STATUS_BLOCK IoStatus
);
NTKERNELAPI
BOOLEAN
CcCopyWrite (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN BOOLEAN Wait,
IN PVOID Buffer
);
NTKERNELAPI
VOID
CcFastCopyWrite (
IN PFILE_OBJECT FileObject,
IN ULONG FileOffset,
IN ULONG Length,
IN PVOID Buffer
);
//
// The following routines provide an Mdl interface for transfers to and
// from the cache, and are primarily intended for File Servers.
//
// NOBODY SHOULD BE CALLING THESE MDL ROUTINES DIRECTLY, USE FSRTL AND
// FASTIO INTERFACES.
//
NTKERNELAPI
VOID
CcMdlRead (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
OUT PMDL *MdlChain,
OUT PIO_STATUS_BLOCK IoStatus
);
//
// This routine is now a wrapper for FastIo if present or CcMdlReadComplete2
//
NTKERNELAPI
VOID
CcMdlReadComplete (
IN PFILE_OBJECT FileObject,
IN PMDL MdlChain
);
// end_ntifs
NTKERNELAPI
VOID
CcMdlReadComplete2 (
IN PFILE_OBJECT FileObject,
IN PMDL MdlChain
);
// begin_ntifs
NTKERNELAPI
VOID
CcPrepareMdlWrite (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
OUT PMDL *MdlChain,
OUT PIO_STATUS_BLOCK IoStatus
);
//
// This routine is now a wrapper for FastIo if present or CcMdlWriteComplete2
//
NTKERNELAPI
VOID
CcMdlWriteComplete (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN PMDL MdlChain
);
VOID
CcMdlWriteAbort (
IN PFILE_OBJECT FileObject,
IN PMDL MdlChain
);
// end_ntifs
NTKERNELAPI
VOID
CcMdlWriteComplete2 (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN PMDL MdlChain
);
// begin_ntifs
//
// Common ReadAhead call for Copy Read and Mdl Read.
//
// ReadAhead should always be invoked by calling the CcReadAhead macro,
// which tests first to see if the read is large enough to warrant read
// ahead. Measurements have shown that, calling the read ahead routine
// actually decreases performance for small reads, such as issued by
// many compilers and linkers. Compilers simply want all of the include
// files to stay in memory after being read the first time.
//
#define CcReadAhead(FO,FOFF,LEN) { \
if ((LEN) >= 256) { \
CcScheduleReadAhead((FO),(FOFF),(LEN)); \
} \
}
NTKERNELAPI
VOID
CcScheduleReadAhead (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length
);
//
// The following routine allows a caller to wait for the next batch
// of lazy writer work to complete. In particular, this provides a
// mechanism for a caller to be sure that all avaliable lazy closes
// at the time of this call have issued.
//
NTSTATUS
CcWaitForCurrentLazyWriterActivity (
VOID
);
//
// This routine changes the read ahead granularity for a file, which is
// PAGE_SIZE by default.
//
NTKERNELAPI
VOID
CcSetReadAheadGranularity (
IN PFILE_OBJECT FileObject,
IN ULONG Granularity
);
//
// The following routines provide direct access data which is pinned in the
// cache, and is primarily intended for use by File Systems. In particular,
// this mode of access is ideal for dealing with volume structures.
//
//
// Flags for pinning
//
//
// Synchronous Wait - normally specified. This pattern may be specified as TRUE.
//
#define PIN_WAIT (1)
//
// Acquire metadata Bcb exclusive (default is shared, Lazy Writer uses exclusive).
//
// Must be set with PIN_WAIT.
//
#define PIN_EXCLUSIVE (2)
//
// Acquire metadata Bcb but do not fault data in. Default is to fault the data in.
// This unusual flag is only used by Ntfs for cache coherency synchronization between
// compressed and uncompressed streams for the same compressed file.
//
// Must be set with PIN_WAIT.
//
#define PIN_NO_READ (4)
//
// This option may be used to pin data only if the Bcb already exists. If the Bcb
// does not already exist - the pin is unsuccessful and no Bcb is returned. This routine
// provides a way to see if data is already pinned (and possibly dirty) in the cache,
// without forcing a fault if the data is not there.
//
#define PIN_IF_BCB (8)
//
// Flags for mapping
//
//
// Synchronous Wait - normally specified. This pattern may be specified as TRUE.
//
#define MAP_WAIT (1)
//
// Acquire metadata Bcb but do not fault data in. Default is to fault the data in.
// This should not overlap with any of the PIN_ flags so they can be passed down to
// CcPinFileData
//
#define MAP_NO_READ (16)
NTKERNELAPI
BOOLEAN
CcPinRead (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN ULONG Flags,
OUT PVOID *Bcb,
OUT PVOID *Buffer
);
NTKERNELAPI
BOOLEAN
CcMapData (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN ULONG Flags,
OUT PVOID *Bcb,
OUT PVOID *Buffer
);
NTKERNELAPI
BOOLEAN
CcPinMappedData (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN ULONG Flags,
IN OUT PVOID *Bcb
);
NTKERNELAPI
BOOLEAN
CcPreparePinWrite (
IN PFILE_OBJECT FileObject,
IN PLARGE_INTEGER FileOffset,
IN ULONG Length,
IN BOOLEAN Zero,
IN ULONG Flags,
OUT PVOID *Bcb,
OUT PVOID *Buffer
);
NTKERNELAPI
VOID
CcSetDirtyPinnedData (
IN PVOID BcbVoid,
IN PLARGE_INTEGER Lsn OPTIONAL
);
NTKERNELAPI
VOID
CcUnpinData (
IN PVOID Bcb
);
NTKERNELAPI
VOID
CcSetBcbOwnerPointer (
IN PVOID Bcb,
IN PVOID OwnerPointer
);
NTKERNELAPI
VOID
CcUnpinDataForThread (
IN PVOID Bcb,
IN ERESOURCE_THREAD ResourceThreadId
);
// end_ntifs
//
// The following routines are in logsup.c, and provide special Cache Manager
// support for storting Lsns with dirty file pages, and peforming subsequent
// operations based on them.
//
NTKERNELAPI
BOOLEAN
CcSetPrivateWriteFile(
PFILE_OBJECT FileObject
);
// begin_ntifs
NTKERNELAPI
VOID
CcSetAdditionalCacheAttributes (
IN PFILE_OBJECT FileObject,
IN BOOLEAN DisableReadAhead,
IN BOOLEAN DisableWriteBehind
);
NTKERNELAPI
VOID
CcSetLogHandleForFile (
IN PFILE_OBJECT FileObject,
IN PVOID LogHandle,
IN PFLUSH_TO_LSN FlushToLsnRoutine
);
NTKERNELAPI
LARGE_INTEGER
CcGetDirtyPages (
IN PVOID LogHandle,
IN PDIRTY_PAGE_ROUTINE DirtyPageRoutine,
IN PVOID Context1,
IN PVOID Context2
);
NTKERNELAPI
BOOLEAN
CcIsThereDirtyData (
IN PVPB Vpb
);
// end_ntifs
NTKERNELAPI
LARGE_INTEGER
CcGetLsnForFileObject(
IN PFILE_OBJECT FileObject,
OUT PLARGE_INTEGER OldestLsn OPTIONAL
);
//
// Internal kernel interfaces for the prefetcher.
//
extern LONG CcPfNumActiveTraces;
#define CCPF_IS_PREFETCHER_ACTIVE() (CcPfNumActiveTraces)
extern LOGICAL CcPfEnablePrefetcher;
#define CCPF_IS_PREFETCHER_ENABLED() (CcPfEnablePrefetcher)
extern LOGICAL CcPfPrefetchingForBoot;
#define CCPF_IS_PREFETCHING_FOR_BOOT() (CcPfPrefetchingForBoot)
NTSTATUS
CcPfInitializePrefetcher(
VOID
);
NTSTATUS
CcPfBeginBootPhase(
PF_BOOT_PHASE_ID Phase
);
NTSTATUS
CcPfBeginAppLaunch(
PEPROCESS Process,
PVOID Section
);
NTSTATUS
CcPfProcessExitNotification(
PEPROCESS Process
);
#define CCPF_TYPE_IMAGE 0x00000001 // Current fault is for an image
#define CCPF_TYPE_ROM 0x00000002 // Current fault is for a ROM
VOID
CcPfLogPageFault(
IN PFILE_OBJECT FileObject,
IN ULONGLONG FileOffset,
IN ULONG Flags
);
NTSTATUS
CcPfQueryPrefetcherInformation (
IN SYSTEM_INFORMATION_CLASS SystemInformationClass,
IN PVOID SystemInformation,
IN ULONG SystemInformationLength,
IN KPROCESSOR_MODE PreviousMode,
OUT PULONG Length
);
NTSTATUS
CcPfSetPrefetcherInformation (
IN SYSTEM_INFORMATION_CLASS SystemInformationClass,
IN PVOID SystemInformation,
IN ULONG SystemInformationLength,
IN KPROCESSOR_MODE PreviousMode
);
//
// Internal kernel interfaces for Perf FileName rundowns.
//
VOID
CcPerfFileRunDown (
IN PPERFINFO_ENTRY_TABLE HashTable
);
#endif // CACHE