Build FreeLDR for ARM.

[reactos.git] / reactos / boot / freeldr / freeldr / include / mm.h

/*
 *  FreeLoader
 *  Copyright (C) 1998-2003  Brian Palmer  <brianp@sginet.com>
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software
 *  Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
 */


#ifndef __MEMORY_H
#define __MEMORY_H

typedef enum
{
        BiosMemoryUsable=1,
        BiosMemoryReserved,
        BiosMemoryAcpiReclaim,
        BiosMemoryAcpiNvs
} BIOS_MEMORY_TYPE;

typedef struct
{
        ULONGLONG               BaseAddress;
        ULONGLONG               Length;
        ULONG           Type;
        ULONG           Reserved;
} PACKED BIOS_MEMORY_MAP, *PBIOS_MEMORY_MAP;

#if  defined(__i386__) || defined(_PPC_) || defined(_MIPS_) || defined(_ARM_)

#define MM_PAGE_SIZE    4096
#define MM_PAGE_MASK    0xFFF
#define MM_PAGE_SHIFT   12

#define MM_SIZE_TO_PAGES(a)  \
        ( ((a) >> MM_PAGE_SHIFT) + ((a) & MM_PAGE_MASK ? 1 : 0) )

#endif // defined __i386__ or _PPC_ or _MIPS_

// HEAP and STACK size
#define HEAP_PAGES      0x400
#define STACK_PAGES     0x00

typedef struct
{
        TYPE_OF_MEMORY  PageAllocated;                                  // Type of allocated memory (LoaderFree if this memory is free)
        ULONG                   PageAllocationLength;                   // Number of pages allocated (or zero if this isn't the first page in the chain)
} PACKED PAGE_LOOKUP_TABLE_ITEM, *PPAGE_LOOKUP_TABLE_ITEM;

//
// Define this to 1 if you want the entire contents
// of the memory allocation bitmap displayed
// when a chunk is allocated or freed
//
#define DUMP_MEM_MAP_ON_VERIFY  0



extern  PVOID   PageLookupTableAddress;
extern  ULONG           TotalPagesInLookupTable;
extern  ULONG           FreePagesInLookupTable;
extern  ULONG           LastFreePageHint;

#ifdef DBG
PUCHAR  MmGetSystemMemoryMapTypeString(ULONG Type);
#endif

ULONG           MmGetPageNumberFromAddress(PVOID Address);      // Returns the page number that contains a linear address
PVOID   MmGetEndAddressOfAnyMemory(PBIOS_MEMORY_MAP BiosMemoryMap, ULONG MapCount);     // Returns the last address of memory from the memory map
ULONG           MmGetAddressablePageCountIncludingHoles(PBIOS_MEMORY_MAP BiosMemoryMap, ULONG MapCount);        // Returns the count of addressable pages from address zero including any memory holes and reserved memory regions
PVOID   MmFindLocationForPageLookupTable(PBIOS_MEMORY_MAP BiosMemoryMap, ULONG MapCount);       // Returns the address for a memory chunk big enough to hold the page lookup table (starts search from end of memory)
VOID    MmSortBiosMemoryMap(PBIOS_MEMORY_MAP BiosMemoryMap, ULONG MapCount);    // Sorts the BIOS_MEMORY_MAP array so the first element corresponds to the first address in memory
VOID    MmInitPageLookupTable(PVOID PageLookupTable, ULONG TotalPageCount, PBIOS_MEMORY_MAP BiosMemoryMap, ULONG MapCount);     // Inits the page lookup table according to the memory types in the memory map
VOID    MmMarkPagesInLookupTable(PVOID PageLookupTable, ULONG StartPage, ULONG PageCount, TYPE_OF_MEMORY PageAllocated);        // Marks the specified pages as allocated or free in the lookup table
VOID    MmAllocatePagesInLookupTable(PVOID PageLookupTable, ULONG StartPage, ULONG PageCount, TYPE_OF_MEMORY MemoryType);       // Allocates the specified pages in the lookup table
ULONG           MmCountFreePagesInLookupTable(PVOID PageLookupTable, ULONG TotalPageCount);     // Returns the number of free pages in the lookup table
ULONG           MmFindAvailablePages(PVOID PageLookupTable, ULONG TotalPageCount, ULONG PagesNeeded, BOOLEAN FromEnd);  // Returns the page number of the first available page range from the beginning or end of memory
ULONG           MmFindAvailablePagesBeforePage(PVOID PageLookupTable, ULONG TotalPageCount, ULONG PagesNeeded, ULONG LastPage); // Returns the page number of the first available page range before the specified page
VOID    MmFixupSystemMemoryMap(PBIOS_MEMORY_MAP BiosMemoryMap, ULONG* MapCount);        // Removes entries in the memory map that describe memory above 4G
VOID    MmUpdateLastFreePageHint(PVOID PageLookupTable, ULONG TotalPageCount);  // Sets the LastFreePageHint to the last usable page of memory
BOOLEAN MmAreMemoryPagesAvailable(PVOID PageLookupTable, ULONG TotalPageCount, PVOID PageAddress, ULONG PageCount);     // Returns TRUE if the specified pages of memory are available, otherwise FALSE

ULONG           GetSystemMemorySize(VOID);                                                              // Returns the amount of total memory in the system
PPAGE_LOOKUP_TABLE_ITEM MmGetMemoryMap(ULONG *NoEntries);                       // Returns a pointer to the memory mapping table and a number of entries in it


//BOOLEAN       MmInitializeMemoryManager(ULONG LowMemoryStart, ULONG LowMemoryLength);
BOOLEAN MmInitializeMemoryManager(VOID);
VOID    MmInitializeHeap(PVOID PageLookupTable);
PVOID   MmAllocateMemory(ULONG MemorySize);
PVOID   MmAllocateMemoryWithType(ULONG MemorySize, TYPE_OF_MEMORY MemoryType);
VOID    MmFreeMemory(PVOID MemoryPointer);
PVOID   MmAllocateMemoryAtAddress(ULONG MemorySize, PVOID DesiredAddress, TYPE_OF_MEMORY MemoryType);
PVOID   MmAllocateHighestMemoryBelowAddress(ULONG MemorySize, PVOID DesiredAddress, TYPE_OF_MEMORY MemoryType);

PVOID   MmHeapAlloc(ULONG MemorySize);
VOID    MmHeapFree(PVOID MemoryPointer);

#endif // defined __MEMORY_H