Leaked source code of windows server 2003
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/*++
Copyright (c) 1998, Microsoft Corporation
Module Name:
cache.h
Abstract:
This module contains declarations for a simple cache system.
Cache entries are stored as void pointers with 2 32-bit keys.
Author:
Abolade Gbadegesin (aboladeg) 19-Feb-1998
Revision History:
rajeshd : 17-Sep-1999 : Modified the cache parameters.
Notes:
This code is copied from the NAT's implementation of cache and modified to accept
two cache keys.
--*/
#ifndef _CACHE_H_
#define _CACHE_H_
#define CACHE_SHIFT 0
#define CACHE_SIZE (1 << (8 - CACHE_SHIFT))
//#define CACHE_INDEX(k1,k2) (((unsigned char)(k1) & (0xF)) | (((unsigned char)(k2) & (0xF)) << 4))
#define CACHE_INDEX(k1,k2) \
(unsigned char)(( ((DWORD)(k1)&0xff) + (((k1)>>8)&0xff) + ((k2)&0xff) + \
(((k2)>>8)&0xff) + (((k2)>>16)&0xff) + (((k2)>>24)&0xff)) & 0xff)
typedef struct _CACHE_ENTRY {
unsigned long Key1;
unsigned long Key2;
void* Value;
long Hits;
long Misses;
} CACHE_ENTRY, *PCACHE_ENTRY;
__inline
void
InitializeCache(
CACHE_ENTRY Cache[]
)
{
memset(Cache, 0, CACHE_SIZE * sizeof(CACHE_ENTRY));
TRACE2("ipfltdrv: CacheSize=%d, CacheEntry=%d\n", CACHE_SIZE, sizeof(CACHE_ENTRY));
}
__inline
void
CleanCache(
CACHE_ENTRY Cache[],
unsigned long Key1,
unsigned long Key2
)
{
long Index = CACHE_INDEX(Key1, Key2);
TRACE3("ipfltdrv: Clearing Cache at Index=%d, Key1=%d, Key2=%d\n", Index, Key1, Key2);
Cache[Index].Key1 = 0;
Cache[Index].Key2 = 0;
Cache[Index].Value = 0;
Cache[Index].Hits = 0;
Cache[Index].Misses = 0;
}
__inline
void*
ProbeCache(
CACHE_ENTRY Cache[],
unsigned long Key1,
unsigned long Key2
)
{
long Index = CACHE_INDEX(Key1, Key2);
//TRACE3("ipfltdrv: Probing Cache at Index=%d, Key1=%d, Key2=%d\n", Index, Key1, Key2);
if ((Key1 == Cache[Index].Key1) && (Key2 == Cache[Index].Key2)) {
Cache[Index].Hits++;
//TRACE1("ipfltdrv: Probing Cache, Found Value=%8x\n", Cache[Index].Value);
return Cache[Index].Value;
}
Cache[Index].Misses++;
return NULL;
}
__inline
int
UpdateCache(
CACHE_ENTRY Cache[],
unsigned long Key1,
unsigned long Key2,
void* Value
)
{
long Index = CACHE_INDEX(Key1, Key2);
TRACE3("ipfltdrv: Updating Cache at Index=%d, Key1=%d, Key2=%d\n", Index, Key1, Key2);
if (((Key1 == Cache[Index].Key1) && (Key2 == Cache[Index].Key2)) ||
Cache[Index].Hits >=
(Cache[Index].Misses - (Cache[Index].Misses >> 2))) { return 0; }
Cache[Index].Key1 = Key1;
Cache[Index].Key2 = Key2;
Cache[Index].Value = Value;
Cache[Index].Hits = 0;
Cache[Index].Misses = 0;
return 1;
}
__inline
void
InterlockedCleanCache(
CACHE_ENTRY Cache[],
unsigned long Key1,
unsigned long Key2
)
{
long Index = CACHE_INDEX(Key1, Key2);
TRACE3("ipfltdrv: ILocked Clearing Cache at Index=%d, Key1=%d, Key2=%d\n", Index, Key1, Key2);
InterlockedExchange(&Cache[Index].Key1, 0);
InterlockedExchange(&Cache[Index].Key2, 0);
InterlockedExchangePointer(&Cache[Index].Value, 0);
InterlockedExchange(&Cache[Index].Hits, 0);
InterlockedExchange(&Cache[Index].Misses, 0);
}
__inline
void*
InterlockedProbeCache(
CACHE_ENTRY Cache[],
unsigned long Key1,
unsigned long Key2
)
{
long Index = CACHE_INDEX(Key1, Key2);
//TRACE3("ipfltdrv: ILocked Probing Cache at Index=%d, Key1=%d, Key2=%d\n", Index, Key1, Key2);
if ((Key1 == Cache[Index].Key1) && (Key2 == Cache[Index].Key2)) {
InterlockedIncrement(&Cache[Index].Hits);
//TRACE1("ipfltdrv: ILocked Probing Cache, Found Value=%8x\n", Cache[Index].Value);
return Cache[Index].Value;
}
InterlockedIncrement(&Cache[Index].Misses);
return NULL;
}
__inline
int
InterlockedUpdateCache(
CACHE_ENTRY Cache[],
unsigned long Key1,
unsigned long Key2,
void* Value
)
{
long Index = CACHE_INDEX(Key1, Key2);
TRACE4("ipfltdrv: ILocked Updating Cache at Index=%d, Key1=%d, Key2=%d, Value=%08x\n", Index, Key1, Key2, Value);
if (((Key1 == Cache[Index].Key1) && (Key2 == Cache[Index].Key2)) ||
Cache[Index].Hits >=
(Cache[Index].Misses - (Cache[Index].Misses >> 2))) { return 0; }
InterlockedExchange(&Cache[Index].Key1, Key1);
InterlockedExchange(&Cache[Index].Key2, Key2);
InterlockedExchangePointer(&Cache[Index].Value, Value);
InterlockedExchange(&Cache[Index].Hits, 0);
InterlockedExchange(&Cache[Index].Misses, 0);
return 1;
}
#endif // _CACHE_H_