mirror of
https://github.com/CloverHackyColor/CloverBootloader.git
synced 2024-11-27 12:15:19 +01:00
7c0aa811ec
Signed-off-by: Sergey Isakov <isakov-sl@bk.ru>
858 lines
22 KiB
C
858 lines
22 KiB
C
/** @file
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UEFI Memory pool management functions.
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Copyright (c) 2006 - 2018, Intel Corporation. All rights reserved.<BR>
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SPDX-License-Identifier: BSD-2-Clause-Patent
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**/
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#include "DxeMain.h"
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#include "Imem.h"
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#include "HeapGuard.h"
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STATIC EFI_LOCK mPoolMemoryLock = EFI_INITIALIZE_LOCK_VARIABLE (TPL_NOTIFY);
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#define POOL_FREE_SIGNATURE SIGNATURE_32('p','f','r','0')
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typedef struct {
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UINT32 Signature;
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UINT32 Index;
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LIST_ENTRY Link;
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} POOL_FREE;
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#define POOL_HEAD_SIGNATURE SIGNATURE_32('p','h','d','0')
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#define POOLPAGE_HEAD_SIGNATURE SIGNATURE_32('p','h','d','1')
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typedef struct {
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UINT32 Signature;
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UINT32 Reserved;
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EFI_MEMORY_TYPE Type;
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UINTN Size;
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CHAR8 Data[1];
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} POOL_HEAD;
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#define SIZE_OF_POOL_HEAD OFFSET_OF(POOL_HEAD,Data)
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#define POOL_TAIL_SIGNATURE SIGNATURE_32('p','t','a','l')
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typedef struct {
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UINT32 Signature;
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UINT32 Reserved;
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UINTN Size;
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} POOL_TAIL;
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#define POOL_OVERHEAD (SIZE_OF_POOL_HEAD + sizeof(POOL_TAIL))
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#define HEAD_TO_TAIL(a) \
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((POOL_TAIL *) (((CHAR8 *) (a)) + (a)->Size - sizeof(POOL_TAIL)));
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//
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// Each element is the sum of the 2 previous ones: this allows us to migrate
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// blocks between bins by splitting them up, while not wasting too much memory
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// as we would in a strict power-of-2 sequence
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//
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STATIC CONST UINT16 mPoolSizeTable[] = {
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128, 256, 384, 640, 1024, 1664, 2688, 4352, 7040, 11392, 18432, 29824
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};
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#define SIZE_TO_LIST(a) (GetPoolIndexFromSize (a))
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#define LIST_TO_SIZE(a) (mPoolSizeTable [a])
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#define MAX_POOL_LIST (ARRAY_SIZE (mPoolSizeTable))
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#define MAX_POOL_SIZE (MAX_ADDRESS - POOL_OVERHEAD)
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//
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// Globals
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//
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#define POOL_SIGNATURE SIGNATURE_32('p','l','s','t')
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typedef struct {
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INTN Signature;
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UINTN Used;
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EFI_MEMORY_TYPE MemoryType;
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LIST_ENTRY FreeList[MAX_POOL_LIST];
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LIST_ENTRY Link;
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} POOL;
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//
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// Pool header for each memory type.
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//
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POOL mPoolHead[EfiMaxMemoryType];
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//
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// List of pool header to search for the appropriate memory type.
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//
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LIST_ENTRY mPoolHeadList = INITIALIZE_LIST_HEAD_VARIABLE (mPoolHeadList);
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/**
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Get pool size table index from the specified size.
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@param Size The specified size to get index from pool table.
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@return The index of pool size table.
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**/
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STATIC
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UINTN
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GetPoolIndexFromSize (
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UINTN Size
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)
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{
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UINTN Index;
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for (Index = 0; Index < MAX_POOL_LIST; Index++) {
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if (mPoolSizeTable [Index] >= Size) {
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return Index;
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}
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}
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return MAX_POOL_LIST;
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}
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/**
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Called to initialize the pool.
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**/
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VOID
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CoreInitializePool (
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VOID
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)
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{
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UINTN Type;
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UINTN Index;
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for (Type=0; Type < EfiMaxMemoryType; Type++) {
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mPoolHead[Type].Signature = 0;
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mPoolHead[Type].Used = 0;
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mPoolHead[Type].MemoryType = (EFI_MEMORY_TYPE) Type;
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for (Index=0; Index < MAX_POOL_LIST; Index++) {
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InitializeListHead (&mPoolHead[Type].FreeList[Index]);
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}
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}
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}
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/**
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Look up pool head for specified memory type.
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@param MemoryType Memory type of which pool head is looked for
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@return Pointer of Corresponding pool head.
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**/
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POOL *
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LookupPoolHead (
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IN EFI_MEMORY_TYPE MemoryType
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)
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{
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LIST_ENTRY *Link;
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POOL *Pool;
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UINTN Index;
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if ((UINT32)MemoryType < EfiMaxMemoryType) {
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return &mPoolHead[MemoryType];
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}
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//
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// MemoryType values in the range 0x80000000..0xFFFFFFFF are reserved for use by UEFI
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// OS loaders that are provided by operating system vendors.
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// MemoryType values in the range 0x70000000..0x7FFFFFFF are reserved for OEM use.
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//
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if ((UINT32) MemoryType >= MEMORY_TYPE_OEM_RESERVED_MIN) {
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for (Link = mPoolHeadList.ForwardLink; Link != &mPoolHeadList; Link = Link->ForwardLink) {
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Pool = CR(Link, POOL, Link, POOL_SIGNATURE);
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if (Pool->MemoryType == MemoryType) {
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return Pool;
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}
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}
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Pool = CoreAllocatePoolI (EfiBootServicesData, sizeof (POOL), FALSE);
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if (Pool == NULL) {
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return NULL;
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}
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Pool->Signature = POOL_SIGNATURE;
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Pool->Used = 0;
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Pool->MemoryType = MemoryType;
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for (Index=0; Index < MAX_POOL_LIST; Index++) {
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InitializeListHead (&Pool->FreeList[Index]);
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}
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InsertHeadList (&mPoolHeadList, &Pool->Link);
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return Pool;
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}
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return NULL;
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}
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/**
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Allocate pool of a particular type.
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@param PoolType Type of pool to allocate
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@param Size The amount of pool to allocate
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@param Buffer The address to return a pointer to the allocated
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pool
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@retval EFI_INVALID_PARAMETER Buffer is NULL.
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PoolType is in the range EfiMaxMemoryType..0x6FFFFFFF.
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PoolType is EfiPersistentMemory.
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@retval EFI_OUT_OF_RESOURCES Size exceeds max pool size or allocation failed.
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@retval EFI_SUCCESS Pool successfully allocated.
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**/
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EFI_STATUS
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EFIAPI
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CoreInternalAllocatePool (
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IN EFI_MEMORY_TYPE PoolType,
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IN UINTN Size,
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OUT VOID **Buffer
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)
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{
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EFI_STATUS Status;
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BOOLEAN NeedGuard;
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//
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// If it's not a valid type, fail it
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//
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if ((PoolType >= EfiMaxMemoryType && PoolType < MEMORY_TYPE_OEM_RESERVED_MIN) ||
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(PoolType == EfiConventionalMemory) || (PoolType == EfiPersistentMemory)) {
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return EFI_INVALID_PARAMETER;
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}
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if (Buffer == NULL) {
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return EFI_INVALID_PARAMETER;
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}
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*Buffer = NULL;
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//
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// If size is too large, fail it
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// Base on the EFI spec, return status of EFI_OUT_OF_RESOURCES
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//
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if (Size > MAX_POOL_SIZE) {
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return EFI_OUT_OF_RESOURCES;
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}
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NeedGuard = IsPoolTypeToGuard (PoolType) && !mOnGuarding;
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//
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// Acquire the memory lock and make the allocation
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//
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Status = CoreAcquireLockOrFail (&mPoolMemoryLock);
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if (EFI_ERROR (Status)) {
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return EFI_OUT_OF_RESOURCES;
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}
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*Buffer = CoreAllocatePoolI (PoolType, Size, NeedGuard);
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CoreReleaseLock (&mPoolMemoryLock);
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return (*Buffer != NULL) ? EFI_SUCCESS : EFI_OUT_OF_RESOURCES;
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}
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/**
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Allocate pool of a particular type.
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@param PoolType Type of pool to allocate
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@param Size The amount of pool to allocate
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@param Buffer The address to return a pointer to the allocated
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pool
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@retval EFI_INVALID_PARAMETER Buffer is NULL.
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PoolType is in the range EfiMaxMemoryType..0x6FFFFFFF.
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PoolType is EfiPersistentMemory.
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@retval EFI_OUT_OF_RESOURCES Size exceeds max pool size or allocation failed.
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@retval EFI_SUCCESS Pool successfully allocated.
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**/
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EFI_STATUS
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EFIAPI
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CoreAllocatePool (
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IN EFI_MEMORY_TYPE PoolType,
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IN UINTN Size,
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OUT VOID **Buffer
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)
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{
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EFI_STATUS Status;
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Status = CoreInternalAllocatePool (PoolType, Size, Buffer);
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if (!EFI_ERROR (Status)) {
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CoreUpdateProfile (
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(EFI_PHYSICAL_ADDRESS) (UINTN) RETURN_ADDRESS (0),
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MemoryProfileActionAllocatePool,
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PoolType,
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Size,
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*Buffer,
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NULL
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);
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InstallMemoryAttributesTableOnMemoryAllocation (PoolType);
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}
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return Status;
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}
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/**
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Internal function. Used by the pool functions to allocate pages
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to back pool allocation requests.
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@param PoolType The type of memory for the new pool pages
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@param NoPages No of pages to allocate
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@param Granularity Bits to align.
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@param NeedGuard Flag to indicate Guard page is needed or not
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@return The allocated memory, or NULL
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**/
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STATIC
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VOID *
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CoreAllocatePoolPagesI (
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IN EFI_MEMORY_TYPE PoolType,
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IN UINTN NoPages,
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IN UINTN Granularity,
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IN BOOLEAN NeedGuard
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)
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{
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VOID *Buffer;
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EFI_STATUS Status;
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Status = CoreAcquireLockOrFail (&gMemoryLock);
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if (EFI_ERROR (Status)) {
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return NULL;
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}
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Buffer = CoreAllocatePoolPages (PoolType, NoPages, Granularity, NeedGuard);
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CoreReleaseMemoryLock ();
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if (Buffer != NULL) {
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if (NeedGuard) {
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SetGuardForMemory ((EFI_PHYSICAL_ADDRESS)(UINTN)Buffer, NoPages);
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}
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ApplyMemoryProtectionPolicy(EfiConventionalMemory, PoolType,
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(EFI_PHYSICAL_ADDRESS)(UINTN)Buffer, EFI_PAGES_TO_SIZE (NoPages));
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}
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return Buffer;
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}
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/**
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Internal function to allocate pool of a particular type.
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Caller must have the memory lock held
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@param PoolType Type of pool to allocate
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@param Size The amount of pool to allocate
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@param NeedGuard Flag to indicate Guard page is needed or not
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@return The allocate pool, or NULL
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**/
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VOID *
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CoreAllocatePoolI (
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IN EFI_MEMORY_TYPE PoolType,
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IN UINTN Size,
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IN BOOLEAN NeedGuard
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)
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{
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POOL *Pool;
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POOL_FREE *Free;
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POOL_HEAD *Head;
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POOL_TAIL *Tail;
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CHAR8 *NewPage;
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VOID *Buffer;
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UINTN Index;
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UINTN FSize;
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UINTN Offset, MaxOffset;
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UINTN NoPages;
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UINTN Granularity;
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BOOLEAN HasPoolTail;
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BOOLEAN PageAsPool;
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ASSERT_LOCKED (&mPoolMemoryLock);
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if (PoolType == EfiACPIReclaimMemory ||
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PoolType == EfiACPIMemoryNVS ||
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PoolType == EfiRuntimeServicesCode ||
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PoolType == EfiRuntimeServicesData) {
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Granularity = RUNTIME_PAGE_ALLOCATION_GRANULARITY;
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} else {
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Granularity = DEFAULT_PAGE_ALLOCATION_GRANULARITY;
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}
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//
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// Adjust the size by the pool header & tail overhead
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//
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HasPoolTail = !(NeedGuard &&
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((PcdGet8 (PcdHeapGuardPropertyMask) & BIT7) == 0));
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PageAsPool = (IsHeapGuardEnabled (GUARD_HEAP_TYPE_FREED) && !mOnGuarding);
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//
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// Adjusting the Size to be of proper alignment so that
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// we don't get an unaligned access fault later when
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// pool_Tail is being initialized
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//
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Size = ALIGN_VARIABLE (Size);
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Size += POOL_OVERHEAD;
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Index = SIZE_TO_LIST(Size);
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Pool = LookupPoolHead (PoolType);
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if (Pool== NULL) {
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return NULL;
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}
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Head = NULL;
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//
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// If allocation is over max size, just allocate pages for the request
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// (slow)
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//
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if (Index >= SIZE_TO_LIST (Granularity) || NeedGuard || PageAsPool) {
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if (!HasPoolTail) {
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Size -= sizeof (POOL_TAIL);
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}
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NoPages = EFI_SIZE_TO_PAGES (Size) + EFI_SIZE_TO_PAGES (Granularity) - 1;
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NoPages &= ~(UINTN)(EFI_SIZE_TO_PAGES (Granularity) - 1);
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Head = CoreAllocatePoolPagesI (PoolType, NoPages, Granularity, NeedGuard);
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if (NeedGuard) {
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Head = AdjustPoolHeadA ((EFI_PHYSICAL_ADDRESS)(UINTN)Head, NoPages, Size);
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}
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goto Done;
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}
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//
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// If there's no free pool in the proper list size, go get some more pages
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//
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if (IsListEmpty (&Pool->FreeList[Index])) {
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Offset = LIST_TO_SIZE (Index);
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MaxOffset = Granularity;
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//
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// Check the bins holding larger blocks, and carve one up if needed
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//
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while (++Index < SIZE_TO_LIST (Granularity)) {
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if (!IsListEmpty (&Pool->FreeList[Index])) {
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Free = CR (Pool->FreeList[Index].ForwardLink, POOL_FREE, Link, POOL_FREE_SIGNATURE);
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RemoveEntryList (&Free->Link);
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NewPage = (VOID *) Free;
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MaxOffset = LIST_TO_SIZE (Index);
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goto Carve;
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}
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}
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//
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// Get another page
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//
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NewPage = CoreAllocatePoolPagesI (PoolType, EFI_SIZE_TO_PAGES (Granularity),
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Granularity, NeedGuard);
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if (NewPage == NULL) {
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goto Done;
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}
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//
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// Serve the allocation request from the head of the allocated block
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//
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Carve:
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Head = (POOL_HEAD *) NewPage;
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//
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// Carve up remaining space into free pool blocks
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//
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Index--;
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while (Offset < MaxOffset) {
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ASSERT (Index < MAX_POOL_LIST);
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FSize = LIST_TO_SIZE(Index);
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while (Offset + FSize <= MaxOffset) {
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Free = (POOL_FREE *) &NewPage[Offset];
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Free->Signature = POOL_FREE_SIGNATURE;
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Free->Index = (UINT32)Index;
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InsertHeadList (&Pool->FreeList[Index], &Free->Link);
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Offset += FSize;
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}
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Index -= 1;
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}
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ASSERT (Offset == MaxOffset);
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goto Done;
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}
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//
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// Remove entry from free pool list
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//
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Free = CR (Pool->FreeList[Index].ForwardLink, POOL_FREE, Link, POOL_FREE_SIGNATURE);
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RemoveEntryList (&Free->Link);
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Head = (POOL_HEAD *) Free;
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Done:
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Buffer = NULL;
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if (Head != NULL) {
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//
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// Account the allocation
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//
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Pool->Used += Size;
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//
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// If we have a pool buffer, fill in the header & tail info
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//
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Head->Signature = (PageAsPool) ? POOLPAGE_HEAD_SIGNATURE : POOL_HEAD_SIGNATURE;
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Head->Size = Size;
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Head->Type = (EFI_MEMORY_TYPE) PoolType;
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Buffer = Head->Data;
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if (HasPoolTail) {
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Tail = HEAD_TO_TAIL (Head);
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Tail->Signature = POOL_TAIL_SIGNATURE;
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Tail->Size = Size;
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Size -= POOL_OVERHEAD;
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} else {
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Size -= SIZE_OF_POOL_HEAD;
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}
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DEBUG_CLEAR_MEMORY (Buffer, Size);
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DEBUG ((
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DEBUG_POOL,
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"AllocatePoolI: Type %x, Addr %p (len %lx) %,ld\n", PoolType,
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Buffer,
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(UINT64)Size,
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(UINT64) Pool->Used
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));
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} else {
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DEBUG ((DEBUG_ERROR | DEBUG_POOL, "AllocatePool: failed to allocate %ld bytes\n", (UINT64) Size));
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}
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return Buffer;
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}
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/**
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Frees pool.
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@param Buffer The allocated pool entry to free
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@param PoolType Pointer to pool type
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@retval EFI_INVALID_PARAMETER Buffer is not a valid value.
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@retval EFI_SUCCESS Pool successfully freed.
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**/
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EFI_STATUS
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EFIAPI
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CoreInternalFreePool (
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IN VOID *Buffer,
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OUT EFI_MEMORY_TYPE *PoolType OPTIONAL
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)
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{
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EFI_STATUS Status;
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if (Buffer == NULL) {
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return EFI_INVALID_PARAMETER;
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}
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CoreAcquireLock (&mPoolMemoryLock);
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Status = CoreFreePoolI (Buffer, PoolType);
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CoreReleaseLock (&mPoolMemoryLock);
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return Status;
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}
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/**
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Frees pool.
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@param Buffer The allocated pool entry to free
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@retval EFI_INVALID_PARAMETER Buffer is not a valid value.
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@retval EFI_SUCCESS Pool successfully freed.
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**/
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EFI_STATUS
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EFIAPI
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CoreFreePool (
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IN VOID *Buffer
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)
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{
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EFI_STATUS Status;
|
|
EFI_MEMORY_TYPE PoolType;
|
|
|
|
Status = CoreInternalFreePool (Buffer, &PoolType);
|
|
if (!EFI_ERROR (Status)) {
|
|
CoreUpdateProfile (
|
|
(EFI_PHYSICAL_ADDRESS) (UINTN) RETURN_ADDRESS (0),
|
|
MemoryProfileActionFreePool,
|
|
PoolType,
|
|
0,
|
|
Buffer,
|
|
NULL
|
|
);
|
|
InstallMemoryAttributesTableOnMemoryAllocation (PoolType);
|
|
}
|
|
return Status;
|
|
}
|
|
|
|
/**
|
|
Internal function. Frees pool pages allocated via CoreAllocatePoolPagesI().
|
|
|
|
@param PoolType The type of memory for the pool pages
|
|
@param Memory The base address to free
|
|
@param NoPages The number of pages to free
|
|
|
|
**/
|
|
STATIC
|
|
VOID
|
|
CoreFreePoolPagesI (
|
|
IN EFI_MEMORY_TYPE PoolType,
|
|
IN EFI_PHYSICAL_ADDRESS Memory,
|
|
IN UINTN NoPages
|
|
)
|
|
{
|
|
CoreAcquireMemoryLock ();
|
|
CoreFreePoolPages (Memory, NoPages);
|
|
CoreReleaseMemoryLock ();
|
|
|
|
GuardFreedPagesChecked (Memory, NoPages);
|
|
ApplyMemoryProtectionPolicy (PoolType, EfiConventionalMemory,
|
|
(EFI_PHYSICAL_ADDRESS)(UINTN)Memory, EFI_PAGES_TO_SIZE (NoPages));
|
|
}
|
|
|
|
/**
|
|
Internal function. Frees guarded pool pages.
|
|
|
|
@param PoolType The type of memory for the pool pages
|
|
@param Memory The base address to free
|
|
@param NoPages The number of pages to free
|
|
|
|
**/
|
|
STATIC
|
|
VOID
|
|
CoreFreePoolPagesWithGuard (
|
|
IN EFI_MEMORY_TYPE PoolType,
|
|
IN EFI_PHYSICAL_ADDRESS Memory,
|
|
IN UINTN NoPages
|
|
)
|
|
{
|
|
EFI_PHYSICAL_ADDRESS MemoryGuarded;
|
|
UINTN NoPagesGuarded;
|
|
|
|
MemoryGuarded = Memory;
|
|
NoPagesGuarded = NoPages;
|
|
|
|
AdjustMemoryF (&Memory, &NoPages);
|
|
//
|
|
// It's safe to unset Guard page inside memory lock because there should
|
|
// be no memory allocation occurred in updating memory page attribute at
|
|
// this point. And unsetting Guard page before free will prevent Guard
|
|
// page just freed back to pool from being allocated right away before
|
|
// marking it usable (from non-present to present).
|
|
//
|
|
UnsetGuardForMemory (MemoryGuarded, NoPagesGuarded);
|
|
if (NoPages > 0) {
|
|
CoreFreePoolPagesI (PoolType, Memory, NoPages);
|
|
}
|
|
}
|
|
|
|
/**
|
|
Internal function to free a pool entry.
|
|
Caller must have the memory lock held
|
|
|
|
@param Buffer The allocated pool entry to free
|
|
@param PoolType Pointer to pool type
|
|
|
|
@retval EFI_INVALID_PARAMETER Buffer not valid
|
|
@retval EFI_SUCCESS Buffer successfully freed.
|
|
|
|
**/
|
|
EFI_STATUS
|
|
CoreFreePoolI (
|
|
IN VOID *Buffer,
|
|
OUT EFI_MEMORY_TYPE *PoolType OPTIONAL
|
|
)
|
|
{
|
|
POOL *Pool;
|
|
POOL_HEAD *Head;
|
|
POOL_TAIL *Tail;
|
|
POOL_FREE *Free;
|
|
UINTN Index;
|
|
UINTN NoPages;
|
|
UINTN Size;
|
|
CHAR8 *NewPage;
|
|
UINTN Offset;
|
|
BOOLEAN AllFree;
|
|
UINTN Granularity;
|
|
BOOLEAN IsGuarded;
|
|
BOOLEAN HasPoolTail;
|
|
BOOLEAN PageAsPool;
|
|
|
|
ASSERT(Buffer != NULL);
|
|
//
|
|
// Get the head & tail of the pool entry
|
|
//
|
|
Head = BASE_CR (Buffer, POOL_HEAD, Data);
|
|
ASSERT(Head != NULL);
|
|
|
|
if (Head->Signature != POOL_HEAD_SIGNATURE &&
|
|
Head->Signature != POOLPAGE_HEAD_SIGNATURE) {
|
|
ASSERT (Head->Signature == POOL_HEAD_SIGNATURE ||
|
|
Head->Signature == POOLPAGE_HEAD_SIGNATURE);
|
|
return EFI_INVALID_PARAMETER;
|
|
}
|
|
|
|
IsGuarded = IsPoolTypeToGuard (Head->Type) &&
|
|
IsMemoryGuarded ((EFI_PHYSICAL_ADDRESS)(UINTN)Head);
|
|
HasPoolTail = !(IsGuarded &&
|
|
((PcdGet8 (PcdHeapGuardPropertyMask) & BIT7) == 0));
|
|
PageAsPool = (Head->Signature == POOLPAGE_HEAD_SIGNATURE);
|
|
|
|
if (HasPoolTail) {
|
|
Tail = HEAD_TO_TAIL (Head);
|
|
ASSERT (Tail != NULL);
|
|
|
|
//
|
|
// Debug
|
|
//
|
|
ASSERT (Tail->Signature == POOL_TAIL_SIGNATURE);
|
|
ASSERT (Head->Size == Tail->Size);
|
|
|
|
if (Tail->Signature != POOL_TAIL_SIGNATURE) {
|
|
return EFI_INVALID_PARAMETER;
|
|
}
|
|
|
|
if (Head->Size != Tail->Size) {
|
|
return EFI_INVALID_PARAMETER;
|
|
}
|
|
}
|
|
|
|
ASSERT_LOCKED (&mPoolMemoryLock);
|
|
|
|
//
|
|
// Determine the pool type and account for it
|
|
//
|
|
Size = Head->Size;
|
|
Pool = LookupPoolHead (Head->Type);
|
|
if (Pool == NULL) {
|
|
return EFI_INVALID_PARAMETER;
|
|
}
|
|
Pool->Used -= Size;
|
|
DEBUG ((DEBUG_POOL, "FreePool: %p (len %lx) %,ld\n", Head->Data, (UINT64)(Head->Size - POOL_OVERHEAD), (UINT64) Pool->Used));
|
|
|
|
if (Head->Type == EfiACPIReclaimMemory ||
|
|
Head->Type == EfiACPIMemoryNVS ||
|
|
Head->Type == EfiRuntimeServicesCode ||
|
|
Head->Type == EfiRuntimeServicesData) {
|
|
|
|
Granularity = RUNTIME_PAGE_ALLOCATION_GRANULARITY;
|
|
} else {
|
|
Granularity = DEFAULT_PAGE_ALLOCATION_GRANULARITY;
|
|
}
|
|
|
|
if (PoolType != NULL) {
|
|
*PoolType = Head->Type;
|
|
}
|
|
|
|
//
|
|
// Determine the pool list
|
|
//
|
|
Index = SIZE_TO_LIST(Size);
|
|
DEBUG_CLEAR_MEMORY (Head, Size);
|
|
|
|
//
|
|
// If it's not on the list, it must be pool pages
|
|
//
|
|
if (Index >= SIZE_TO_LIST (Granularity) || IsGuarded || PageAsPool) {
|
|
|
|
//
|
|
// Return the memory pages back to free memory
|
|
//
|
|
NoPages = EFI_SIZE_TO_PAGES (Size) + EFI_SIZE_TO_PAGES (Granularity) - 1;
|
|
NoPages &= ~(UINTN)(EFI_SIZE_TO_PAGES (Granularity) - 1);
|
|
if (IsGuarded) {
|
|
Head = AdjustPoolHeadF ((EFI_PHYSICAL_ADDRESS)(UINTN)Head);
|
|
CoreFreePoolPagesWithGuard (
|
|
Pool->MemoryType,
|
|
(EFI_PHYSICAL_ADDRESS)(UINTN)Head,
|
|
NoPages
|
|
);
|
|
} else {
|
|
CoreFreePoolPagesI (
|
|
Pool->MemoryType,
|
|
(EFI_PHYSICAL_ADDRESS)(UINTN)Head,
|
|
NoPages
|
|
);
|
|
}
|
|
|
|
} else {
|
|
|
|
//
|
|
// Put the pool entry onto the free pool list
|
|
//
|
|
Free = (POOL_FREE *) Head;
|
|
ASSERT(Free != NULL);
|
|
Free->Signature = POOL_FREE_SIGNATURE;
|
|
Free->Index = (UINT32)Index;
|
|
InsertHeadList (&Pool->FreeList[Index], &Free->Link);
|
|
|
|
//
|
|
// See if all the pool entries in the same page as Free are freed pool
|
|
// entries
|
|
//
|
|
NewPage = (CHAR8 *)((UINTN)Free & ~(Granularity - 1));
|
|
Free = (POOL_FREE *) &NewPage[0];
|
|
ASSERT(Free != NULL);
|
|
|
|
if (Free->Signature == POOL_FREE_SIGNATURE) {
|
|
|
|
AllFree = TRUE;
|
|
Offset = 0;
|
|
|
|
while ((Offset < Granularity) && (AllFree)) {
|
|
Free = (POOL_FREE *) &NewPage[Offset];
|
|
ASSERT(Free != NULL);
|
|
if (Free->Signature != POOL_FREE_SIGNATURE) {
|
|
AllFree = FALSE;
|
|
}
|
|
Offset += LIST_TO_SIZE(Free->Index);
|
|
}
|
|
|
|
if (AllFree) {
|
|
|
|
//
|
|
// All of the pool entries in the same page as Free are free pool
|
|
// entries
|
|
// Remove all of these pool entries from the free loop lists.
|
|
//
|
|
Free = (POOL_FREE *) &NewPage[0];
|
|
ASSERT(Free != NULL);
|
|
Offset = 0;
|
|
|
|
while (Offset < Granularity) {
|
|
Free = (POOL_FREE *) &NewPage[Offset];
|
|
ASSERT(Free != NULL);
|
|
RemoveEntryList (&Free->Link);
|
|
Offset += LIST_TO_SIZE(Free->Index);
|
|
}
|
|
|
|
//
|
|
// Free the page
|
|
//
|
|
CoreFreePoolPagesI (Pool->MemoryType, (EFI_PHYSICAL_ADDRESS) (UINTN)NewPage,
|
|
EFI_SIZE_TO_PAGES (Granularity));
|
|
}
|
|
}
|
|
}
|
|
|
|
//
|
|
// If this is an OS/OEM specific memory type, then check to see if the last
|
|
// portion of that memory type has been freed. If it has, then free the
|
|
// list entry for that memory type
|
|
//
|
|
if (((UINT32) Pool->MemoryType >= MEMORY_TYPE_OEM_RESERVED_MIN) && Pool->Used == 0) {
|
|
RemoveEntryList (&Pool->Link);
|
|
CoreFreePoolI (Pool, NULL);
|
|
}
|
|
|
|
return EFI_SUCCESS;
|
|
}
|
|
|