windows-nt/Source/XPSP1/NT/inetsrv/iis/setup/util/migrate/poolmem.cpp

#include "stdafx.h"
 
// Tree Memory Allocation structure.


typedef struct _POOLMEMORYBLOCK POOLMEMORYBLOCK, *PPOOLMEMORYBLOCK;

struct _POOLMEMORYBLOCK {
    DWORD_PTR             Index;
    DWORD_PTR             Size;
    PPOOLMEMORYBLOCK      NextBlock;
    PPOOLMEMORYBLOCK      PrevBlock;
    PBYTE                 RawMemory;  
};

typedef struct _POOLHEADER {
    PPOOLMEMORYBLOCK PoolHead;
    HANDLE           Heap;
} POOLHEADER, *PPOOLHEADER;


BOOL
PoolMemAddMemory (
    IN  POOLHANDLE  Handle,
    IN  DWORD_PTR     Size
    )
{
    PBYTE               allocedMemory;
    PPOOLMEMORYBLOCK    newBlock;
    PPOOLHEADER         poolHeader = (PPOOLHEADER) Handle;
    DWORD_PTR           sizeNeeded;

    assert(poolHeader != NULL);

    //
    // Determine size needed and attempt to allocate memory.
    //
    if (Size + sizeof(POOLMEMORYBLOCK) > POOLMEMORYBLOCKSIZE) {
        sizeNeeded = Size + sizeof(POOLMEMORYBLOCK);
    }
    else {
        sizeNeeded = POOLMEMORYBLOCKSIZE;
    }

    allocedMemory = (unsigned char *) HeapAlloc(poolHeader -> Heap,0,sizeNeeded);

    if (allocedMemory) {

        //
        // Use the beginning of the alloc'ed block as the poolblock structure.
        //
        newBlock                = (PPOOLMEMORYBLOCK) allocedMemory;
        newBlock -> Size        = sizeNeeded - sizeof(POOLMEMORYBLOCK);
        newBlock -> RawMemory   = allocedMemory + sizeof(POOLMEMORYBLOCK);
        newBlock -> Index       = 0;
    
        //
        // Link the block into the list.
        //
        if (poolHeader -> PoolHead) {
            poolHeader -> PoolHead -> PrevBlock = newBlock;
        }
        newBlock   -> NextBlock   = poolHeader -> PoolHead;
        newBlock   -> PrevBlock   = NULL;
        poolHeader -> PoolHead    = newBlock;


    }
    //
    // Assuming allocedMemory is non-NULL, we have succeeded.
    //
    return allocedMemory != NULL;
}


POOLHANDLE
WINAPI
PoolMemInitPool (
    )
{
    BOOL        ableToAddMemory;
    PPOOLHEADER header = NULL;
    HANDLE      procHeap;


    procHeap = GetProcessHeap();
    //
    // Allocate the header of this pool.
    //
    header = (PPOOLHEADER) HeapAlloc(procHeap,0,sizeof(POOLHEADER));

    if (header) {

        //
        // Allocation was successful. Now, initialize the pool.
        //
        header -> PoolHead = NULL;
        header -> Heap = procHeap;

        //
        // Actually add some memory to the pool.
        //
        ableToAddMemory = PoolMemAddMemory(header,0);

        if (!ableToAddMemory) {
            //
            // Unable to add memory to the pool.
            //
            HeapFree(header -> Heap,0,header);
            header = NULL;
        }

    }
    return (POOLHANDLE) header;
}


VOID
WINAPI
PoolMemDestroyPool (
    POOLHANDLE Handle
    )
{
    PPOOLMEMORYBLOCK nextBlock;
    PPOOLMEMORYBLOCK blockToFree; 
    PPOOLHEADER      poolHeader;

    assert(Handle != NULL);

    poolHeader = (PPOOLHEADER) Handle;

    //
    // Walk the list, freeing as we go.
    //
    blockToFree = poolHeader ->  PoolHead;

    while (blockToFree != NULL) {
    
        nextBlock = blockToFree->NextBlock;
        HeapFree(poolHeader -> Heap,0,blockToFree);
        blockToFree = nextBlock;
    }

    //
    // Also, deallocate the poolheader itself.
    //
    HeapFree(poolHeader -> Heap,0,poolHeader);

}

PVOID
WINAPI
PoolMemGetAlignedMemory (
    IN POOLHANDLE Handle,
    IN DWORD_PTR      Size,
    IN DWORD_PTR      AlignSize
    )

{
    BOOL                haveEnoughMemory = TRUE;
    PVOID               rMemory          = NULL;
    PPOOLHEADER         poolHeader       = (PPOOLHEADER) Handle;
    PPOOLMEMORYBLOCK    currentBlock;
    DWORD_PTR           sizeNeeded;
    DWORD_PTR           padLength;

    assert(poolHeader != NULL);

    currentBlock = poolHeader -> PoolHead;

    // Determine if more memory is needed, attempt to add if needed.
    sizeNeeded = Size;

    if (currentBlock -> Size - currentBlock -> Index < sizeNeeded + AlignSize) {

        haveEnoughMemory = PoolMemAddMemory(poolHeader,sizeNeeded + AlignSize);
        currentBlock = poolHeader -> PoolHead;
    }

    // If there is enough memory available, return it.
    if (haveEnoughMemory) {
        if (AlignSize) {

            padLength = (DWORD_PTR) currentBlock + sizeof(POOLMEMORYBLOCK) 
                + currentBlock -> Index;
            currentBlock -> Index += (AlignSize - (padLength % AlignSize)) % AlignSize;

        }
      
         
        //Now, get the address of the memory to return.
        rMemory = (PVOID) 
            &(currentBlock->RawMemory[currentBlock -> Index]);
 
        currentBlock->Index += sizeNeeded;
    }

    return rMemory;
}
Add source files 2020-09-26 03:20:57 -05:00			`#include "stdafx.h"`

			`// Tree Memory Allocation structure.`


			`typedef struct _POOLMEMORYBLOCK POOLMEMORYBLOCK, *PPOOLMEMORYBLOCK;`

			`struct _POOLMEMORYBLOCK {`
			`DWORD_PTR Index;`
			`DWORD_PTR Size;`
			`PPOOLMEMORYBLOCK NextBlock;`
			`PPOOLMEMORYBLOCK PrevBlock;`
			`PBYTE RawMemory;`
			`};`

			`typedef struct _POOLHEADER {`
			`PPOOLMEMORYBLOCK PoolHead;`
			`HANDLE Heap;`
			`} POOLHEADER, *PPOOLHEADER;`


			`BOOL`
			`PoolMemAddMemory (`
			`IN POOLHANDLE Handle,`
			`IN DWORD_PTR Size`
			`)`
			`{`
			`PBYTE allocedMemory;`
			`PPOOLMEMORYBLOCK newBlock;`
			`PPOOLHEADER poolHeader = (PPOOLHEADER) Handle;`
			`DWORD_PTR sizeNeeded;`

			`assert(poolHeader != NULL);`

			`//`
			`// Determine size needed and attempt to allocate memory.`
			`//`
			`if (Size + sizeof(POOLMEMORYBLOCK) > POOLMEMORYBLOCKSIZE) {`
			`sizeNeeded = Size + sizeof(POOLMEMORYBLOCK);`
			`}`
			`else {`
			`sizeNeeded = POOLMEMORYBLOCKSIZE;`
			`}`

			`allocedMemory = (unsigned char *) HeapAlloc(poolHeader -> Heap,0,sizeNeeded);`

			`if (allocedMemory) {`

			`//`
			`// Use the beginning of the alloc'ed block as the poolblock structure.`
			`//`
			`newBlock = (PPOOLMEMORYBLOCK) allocedMemory;`
			`newBlock -> Size = sizeNeeded - sizeof(POOLMEMORYBLOCK);`
			`newBlock -> RawMemory = allocedMemory + sizeof(POOLMEMORYBLOCK);`
			`newBlock -> Index = 0;`

			`//`
			`// Link the block into the list.`
			`//`
			`if (poolHeader -> PoolHead) {`
			`poolHeader -> PoolHead -> PrevBlock = newBlock;`
			`}`
			`newBlock -> NextBlock = poolHeader -> PoolHead;`
			`newBlock -> PrevBlock = NULL;`
			`poolHeader -> PoolHead = newBlock;`


			`}`
			`//`
			`// Assuming allocedMemory is non-NULL, we have succeeded.`
			`//`
			`return allocedMemory != NULL;`
			`}`


			`POOLHANDLE`
			`WINAPI`
			`PoolMemInitPool (`
			`)`
			`{`
			`BOOL ableToAddMemory;`
			`PPOOLHEADER header = NULL;`
			`HANDLE procHeap;`


			`procHeap = GetProcessHeap();`
			`//`
			`// Allocate the header of this pool.`
			`//`
			`header = (PPOOLHEADER) HeapAlloc(procHeap,0,sizeof(POOLHEADER));`

			`if (header) {`

			`//`
			`// Allocation was successful. Now, initialize the pool.`
			`//`
			`header -> PoolHead = NULL;`
			`header -> Heap = procHeap;`

			`//`
			`// Actually add some memory to the pool.`
			`//`
			`ableToAddMemory = PoolMemAddMemory(header,0);`

			`if (!ableToAddMemory) {`
			`//`
			`// Unable to add memory to the pool.`
			`//`
			`HeapFree(header -> Heap,0,header);`
			`header = NULL;`
			`}`

			`}`
			`return (POOLHANDLE) header;`
			`}`


			`VOID`
			`WINAPI`
			`PoolMemDestroyPool (`
			`POOLHANDLE Handle`
			`)`
			`{`
			`PPOOLMEMORYBLOCK nextBlock;`
			`PPOOLMEMORYBLOCK blockToFree;`
			`PPOOLHEADER poolHeader;`

			`assert(Handle != NULL);`

			`poolHeader = (PPOOLHEADER) Handle;`

			`//`
			`// Walk the list, freeing as we go.`
			`//`
			`blockToFree = poolHeader -> PoolHead;`

			`while (blockToFree != NULL) {`

			`nextBlock = blockToFree->NextBlock;`
			`HeapFree(poolHeader -> Heap,0,blockToFree);`
			`blockToFree = nextBlock;`
			`}`

			`//`
			`// Also, deallocate the poolheader itself.`
			`//`
			`HeapFree(poolHeader -> Heap,0,poolHeader);`

			`}`

			`PVOID`
			`WINAPI`
			`PoolMemGetAlignedMemory (`
			`IN POOLHANDLE Handle,`
			`IN DWORD_PTR Size,`
			`IN DWORD_PTR AlignSize`
			`)`

			`{`
			`BOOL haveEnoughMemory = TRUE;`
			`PVOID rMemory = NULL;`
			`PPOOLHEADER poolHeader = (PPOOLHEADER) Handle;`
			`PPOOLMEMORYBLOCK currentBlock;`
			`DWORD_PTR sizeNeeded;`
			`DWORD_PTR padLength;`

			`assert(poolHeader != NULL);`

			`currentBlock = poolHeader -> PoolHead;`

			`// Determine if more memory is needed, attempt to add if needed.`
			`sizeNeeded = Size;`

			`if (currentBlock -> Size - currentBlock -> Index < sizeNeeded + AlignSize) {`

			`haveEnoughMemory = PoolMemAddMemory(poolHeader,sizeNeeded + AlignSize);`
			`currentBlock = poolHeader -> PoolHead;`
			`}`

			`// If there is enough memory available, return it.`
			`if (haveEnoughMemory) {`
			`if (AlignSize) {`

			`padLength = (DWORD_PTR) currentBlock + sizeof(POOLMEMORYBLOCK)`
			`+ currentBlock -> Index;`
			`currentBlock -> Index += (AlignSize - (padLength % AlignSize)) % AlignSize;`

			`}`


			`//Now, get the address of the memory to return.`
			`rMemory = (PVOID)`
			`&(currentBlock->RawMemory[currentBlock -> Index]);`

			`currentBlock->Index += sizeNeeded;`
			`}`

			`return rMemory;`
			`}`