Leaked source code of windows server 2003
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202 lines
6.1 KiB

#include <wininetp.h>
#include <cache.hxx>
#ifdef TEST
#include <stdlib.h>
#include <stdio.h>
#include <windows.h>
#include "hndlmgr.hxx"
#define ALLOCATE_FIXED_MEMORY(size) malloc(size)
#define REALLOCATE_MEMORY(ptr, size, flags) realloc(ptr, size)
#define FREE_MEMORY(ptr) free(ptr)
int main ()
{
HNDLMGR HandleMgr;
HANDLE h[10];
HANDLE hBad = (HANDLE) 5150;
// Test alloc and realloc of handle heap.
for (int i=9; i>=0; i--)
{
h[i] = HandleMgr.Alloc (54);
printf ("Alloc h[%d] = %d\n", i, (DWORD) h[i]);
}
// Test invalid, valid, and double free.
printf ("Free(%d) returns %d\n", NULL, HandleMgr.Free(NULL));
printf ("Free(%d) returns %d\n", hBad, HandleMgr.Free(hBad));
printf ("Free(%d) returns %d\n", h[3], HandleMgr.Free(h[3]));
printf ("Free(%d) returns %d\n", h[3], HandleMgr.Free(h[3]));
printf ("Free(%d) returns %d\n", h[9], HandleMgr.Free(h[9]));
// Test mapping of invalid, free, and valid handles.
printf ("Map(%d) = %d\n", NULL, HandleMgr.Map(NULL));
printf ("Map(%d) = %d\n", hBad, HandleMgr.Map(hBad));
printf ("Map(%d) = %d\n", h[3], HandleMgr.Map(h[3]));
printf ("Map(%d) = %d\n", h[5], HandleMgr.Map(h[5]));
// Test recycling of handles from free list.
i = 3;
h[i] = HandleMgr.Alloc (42);
printf ("Alloc h[%d] = %d\n", i, (DWORD) h[i]);
i = 9;
h[i] = HandleMgr.Alloc (42);
printf ("Alloc h[%d] = %d\n", i, (DWORD) h[i]);
return 1;
}
#endif // TEST
#define INC_GROW 8
//=========================================================================
void HNDLMGR::Destroy (void)
{
if (pHeap)
{
for (DWORD iHandle=0; iHandle < pHeap->dwNumHandles; iHandle++)
{
if ((DWORD_PTR) pHeap->pvHandles[iHandle] >= pHeap->dwMaxHandles)
FREE_MEMORY (pHeap->pvHandles[iHandle]);
}
FREE_MEMORY (pHeap);
}
}
//=========================================================================
BOOL HNDLMGR::IsValidOffset (DWORD_PTR dwp)
{
return (pHeap && (dwp < pHeap->dwNumHandles) &&
((DWORD_PTR) pHeap->pvHandles[dwp]) >= pHeap->dwMaxHandles);
}
//=========================================================================
HANDLE HNDLMGR::Alloc (DWORD cbAlloc)
{
PVOID pTemp;
if (!pHeap)
{
// Allocate the heap.
pHeap = (HNDLHEAP*) ALLOCATE_FIXED_MEMORY
(sizeof(HNDLHEAP) + INC_GROW * sizeof(LPVOID));
if (!pHeap)
return NULL;
// Initialize the heap.
pHeap->dwNumHandles = 0;
pHeap->dwNumInUse = 0;
pHeap->dwMaxHandles = 0xFFFFFFFF;
pHeap->dwFirstFree = 0;
for (DWORD iHandle = 0; iHandle < INC_GROW; iHandle++)
{
pHeap->pvHandles[pHeap->dwNumHandles] =
(HANDLE) (pHeap->dwNumHandles + 1);
pHeap->dwNumHandles++;
}
}
else if (pHeap->dwFirstFree == pHeap->dwNumHandles)
{
// Reallocate the heap.
if (pHeap->dwNumHandles + INC_GROW >= pHeap->dwMaxHandles)
{
// Uh oh, heap is hit the lower bound set by the allocator.
return NULL;
}
pTemp = REALLOCATE_MEMORY (pHeap, sizeof(HNDLHEAP)
+ (pHeap->dwNumHandles + INC_GROW) * sizeof(LPVOID), LMEM_MOVEABLE);
if (!pTemp)
return NULL;
pHeap = (HNDLHEAP*) pTemp;
// Extend the free list.
for (DWORD iHandle = 0; iHandle < INC_GROW; iHandle++)
{
pHeap->pvHandles[pHeap->dwNumHandles] =
(HANDLE) (pHeap->dwNumHandles + 1);
pHeap->dwNumHandles++;
}
}
// Allocate a handle.
pTemp = ALLOCATE_FIXED_MEMORY (cbAlloc);
if (!pTemp)
return NULL;
if ((DWORD_PTR) pTemp < pHeap->dwNumHandles)
{
// Uh oh, allocator returned a low value!
FREE_MEMORY (pTemp);
return NULL;
}
if (pHeap->dwMaxHandles >= ((DWORD_PTR) pTemp))
pHeap->dwMaxHandles = ((DWORD_PTR) pTemp);
INET_ASSERT(pHeap->dwFirstFree < pHeap->dwNumHandles);
// Pop the handle off the top of the free list.
DWORD_PTR dwOffset = pHeap->dwFirstFree;
pHeap->dwFirstFree = (DWORD_PTR) pHeap->pvHandles[pHeap->dwFirstFree];
pHeap->pvHandles[dwOffset] = pTemp;
pHeap->dwNumInUse++;
return (HANDLE) (dwOffset + 1);
}
//=========================================================================
LPVOID HNDLMGR::Map (HANDLE h)
{
// Subtract one from handle to get offset.
DWORD_PTR dwOffset = (DWORD_PTR)h - 1;
if (!IsValidOffset (dwOffset) || (((DWORD_PTR) pHeap->pvHandles[dwOffset]) == -1))
{
return NULL;
}
else
return pHeap->pvHandles[dwOffset];
}
//=========================================================================
BOOL HNDLMGR::Free (HANDLE h)
{
// Subtract one from handle to get offset.
DWORD_PTR dwOffset = (DWORD_PTR)h - 1;
if (!IsValidOffset (dwOffset))
return FALSE;
if (((DWORD_PTR) pHeap->pvHandles[dwOffset]) != -1)
{
// Push the handle on the top of the free list.
FREE_MEMORY (pHeap->pvHandles[dwOffset]);
}
INET_ASSERT(pHeap->dwFirstFree <= pHeap->dwNumHandles);
pHeap->pvHandles[dwOffset] = (LPVOID) pHeap->dwFirstFree;
pHeap->dwFirstFree = dwOffset;
pHeap->dwNumInUse--;
return TRUE;
}
//=========================================================================
VOID HNDLMGR::InvalidateAll()
{
// We're in the process of switching identities; all cache handles
// should be invalidated so that they can no longer be used.
if (pHeap)
{
for (DWORD iHandle=0; iHandle < pHeap->dwNumHandles; iHandle++)
{
if (((DWORD_PTR) pHeap->pvHandles[iHandle] > pHeap->dwNumHandles)
&& ((DWORD_PTR) pHeap->pvHandles[iHandle] != -1))
{
FREE_MEMORY (pHeap->pvHandles[iHandle]);
pHeap->pvHandles[iHandle] = (HANDLE)-1;
}
}
}
}