wine/memory/selector.c
2002-05-31 23:06:46 +00:00

938 lines
28 KiB
C

/*
* Selector manipulation functions
*
* Copyright 1995 Alexandre Julliard
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "config.h"
#include "wine/port.h"
#include <string.h>
#include "winerror.h"
#include "wine/winbase16.h"
#include "miscemu.h"
#include "selectors.h"
#include "stackframe.h"
#include "wine/server.h"
#include "wine/debug.h"
#include "toolhelp.h"
WINE_DEFAULT_DEBUG_CHANNEL(selector);
#define LDT_SIZE 8192
/* get the number of selectors needed to cover up to the selector limit */
inline static WORD get_sel_count( WORD sel )
{
return (wine_ldt_copy.limit[sel >> __AHSHIFT] >> 16) + 1;
}
static const LDT_ENTRY null_entry; /* all-zeros, used to clear LDT entries */
/***********************************************************************
* SELECTOR_AllocArray
*
* Allocate a selector array without setting the LDT entries
*/
static WORD SELECTOR_AllocArray( WORD count )
{
WORD i, sel, size = 0;
if (!count) return 0;
for (i = FIRST_LDT_ENTRY_TO_ALLOC; i < LDT_SIZE; i++)
{
if (wine_ldt_copy.flags[i] & WINE_LDT_FLAGS_ALLOCATED) size = 0;
else if (++size >= count) break;
}
if (i == LDT_SIZE) return 0;
sel = i - size + 1;
/* mark selectors as allocated */
for (i = 0; i < count; i++) wine_ldt_copy.flags[sel + i] |= WINE_LDT_FLAGS_ALLOCATED;
return (sel << __AHSHIFT) | 7;
}
/***********************************************************************
* AllocSelectorArray (KERNEL.206)
*/
WORD WINAPI AllocSelectorArray16( WORD count )
{
WORD i, sel = SELECTOR_AllocArray( count );
if (sel)
{
LDT_ENTRY entry;
wine_ldt_set_base( &entry, 0 );
wine_ldt_set_limit( &entry, 1 ); /* avoid 0 base and limit */
wine_ldt_set_flags( &entry, WINE_LDT_FLAGS_DATA );
for (i = 0; i < count; i++) wine_ldt_set_entry( sel + (i << __AHSHIFT), &entry );
}
return sel;
}
/***********************************************************************
* AllocSelector (KERNEL.175)
*/
WORD WINAPI AllocSelector16( WORD sel )
{
WORD newsel, count, i;
count = sel ? get_sel_count(sel) : 1;
newsel = SELECTOR_AllocArray( count );
TRACE("(%04x): returning %04x\n", sel, newsel );
if (!newsel) return 0;
if (!sel) return newsel; /* nothing to copy */
for (i = 0; i < count; i++)
{
LDT_ENTRY entry;
wine_ldt_get_entry( sel + (i << __AHSHIFT), &entry );
wine_ldt_set_entry( newsel + (i << __AHSHIFT), &entry );
}
return newsel;
}
/***********************************************************************
* FreeSelector (KERNEL.176)
*/
WORD WINAPI FreeSelector16( WORD sel )
{
if (IS_SELECTOR_FREE(sel)) return sel; /* error */
#ifdef __i386__
/* Check if we are freeing current %fs or %gs selector */
if (!((wine_get_fs() ^ sel) & ~7))
{
WARN("Freeing %%fs selector (%04x), not good.\n", wine_get_fs() );
wine_set_fs( 0 );
}
if (!((wine_get_gs() ^ sel) & ~7)) wine_set_gs( 0 );
#endif /* __i386__ */
wine_ldt_set_entry( sel, &null_entry );
wine_ldt_copy.flags[sel >> __AHSHIFT] &= ~WINE_LDT_FLAGS_ALLOCATED;
return 0;
}
/***********************************************************************
* SELECTOR_FreeFs
*
* Free the current %fs selector.
*/
void SELECTOR_FreeFs(void)
{
WORD fs = wine_get_fs();
if (fs)
{
wine_ldt_copy.flags[fs >> __AHSHIFT] &= ~WINE_LDT_FLAGS_ALLOCATED;
wine_set_fs(0);
wine_ldt_set_entry( fs, &null_entry );
}
}
/***********************************************************************
* SELECTOR_SetEntries
*
* Set the LDT entries for an array of selectors.
*/
static void SELECTOR_SetEntries( WORD sel, const void *base, DWORD size, unsigned char flags )
{
LDT_ENTRY entry;
WORD i, count;
wine_ldt_set_base( &entry, base );
/* Make sure base and limit are not 0 together if the size is not 0 */
wine_ldt_set_limit( &entry, (!base && size == 1) ? 1 : size - 1 );
wine_ldt_set_flags( &entry, flags );
count = (size + 0xffff) / 0x10000;
for (i = 0; i < count; i++)
{
wine_ldt_set_entry( sel + (i << __AHSHIFT), &entry );
wine_ldt_set_base( &entry, wine_ldt_get_base(&entry) + 0x10000 );
/* yep, Windows sets limit like that, not 64K sel units */
wine_ldt_set_limit( &entry, wine_ldt_get_limit(&entry) - 0x10000 );
}
}
/***********************************************************************
* SELECTOR_AllocBlock
*
* Allocate selectors for a block of linear memory.
*/
WORD SELECTOR_AllocBlock( const void *base, DWORD size, unsigned char flags )
{
WORD sel, count;
if (!size) return 0;
count = (size + 0xffff) / 0x10000;
sel = SELECTOR_AllocArray( count );
if (sel) SELECTOR_SetEntries( sel, base, size, flags );
return sel;
}
/***********************************************************************
* SELECTOR_FreeBlock
*
* Free a block of selectors.
*/
void SELECTOR_FreeBlock( WORD sel )
{
WORD i, count = get_sel_count( sel );
TRACE("(%04x,%d)\n", sel, count );
for (i = 0; i < count; i++) FreeSelector16( sel + (i << __AHSHIFT) );
}
/***********************************************************************
* SELECTOR_ReallocBlock
*
* Change the size of a block of selectors.
*/
WORD SELECTOR_ReallocBlock( WORD sel, const void *base, DWORD size )
{
LDT_ENTRY entry;
WORD i, oldcount, newcount;
if (!size) size = 1;
oldcount = get_sel_count( sel );
newcount = (size + 0xffff) >> 16;
wine_ldt_get_entry( sel, &entry );
if (oldcount < newcount) /* We need to add selectors */
{
WORD index = sel >> __AHSHIFT;
/* Check if the next selectors are free */
if (index + newcount > LDT_SIZE) i = oldcount;
else
for (i = oldcount; i < newcount; i++)
if (wine_ldt_copy.flags[index+i] & WINE_LDT_FLAGS_ALLOCATED) break;
if (i < newcount) /* they are not free */
{
SELECTOR_FreeBlock( sel );
sel = SELECTOR_AllocArray( newcount );
}
else /* mark the selectors as allocated */
{
for (i = oldcount; i < newcount; i++)
wine_ldt_copy.flags[index+i] |= WINE_LDT_FLAGS_ALLOCATED;
}
}
else if (oldcount > newcount) /* We need to remove selectors */
{
SELECTOR_FreeBlock( sel + (newcount << __AHSHIFT) );
}
if (sel) SELECTOR_SetEntries( sel, base, size, wine_ldt_get_flags(&entry) );
return sel;
}
/***********************************************************************
* PrestoChangoSelector (KERNEL.177)
*/
WORD WINAPI PrestoChangoSelector16( WORD selSrc, WORD selDst )
{
LDT_ENTRY entry;
wine_ldt_get_entry( selSrc, &entry );
/* toggle the executable bit */
entry.HighWord.Bits.Type ^= (WINE_LDT_FLAGS_CODE ^ WINE_LDT_FLAGS_DATA);
wine_ldt_set_entry( selDst, &entry );
return selDst;
}
/***********************************************************************
* AllocCStoDSAlias (KERNEL.170)
* AllocAlias (KERNEL.172)
*/
WORD WINAPI AllocCStoDSAlias16( WORD sel )
{
WORD newsel;
LDT_ENTRY entry;
newsel = SELECTOR_AllocArray( 1 );
TRACE("(%04x): returning %04x\n",
sel, newsel );
if (!newsel) return 0;
wine_ldt_get_entry( sel, &entry );
entry.HighWord.Bits.Type = WINE_LDT_FLAGS_DATA;
wine_ldt_set_entry( newsel, &entry );
return newsel;
}
/***********************************************************************
* AllocDStoCSAlias (KERNEL.171)
*/
WORD WINAPI AllocDStoCSAlias16( WORD sel )
{
WORD newsel;
LDT_ENTRY entry;
newsel = SELECTOR_AllocArray( 1 );
TRACE("(%04x): returning %04x\n",
sel, newsel );
if (!newsel) return 0;
wine_ldt_get_entry( sel, &entry );
entry.HighWord.Bits.Type = WINE_LDT_FLAGS_CODE;
wine_ldt_set_entry( newsel, &entry );
return newsel;
}
/***********************************************************************
* LongPtrAdd (KERNEL.180)
*/
void WINAPI LongPtrAdd16( DWORD ptr, DWORD add )
{
LDT_ENTRY entry;
wine_ldt_get_entry( SELECTOROF(ptr), &entry );
wine_ldt_set_base( &entry, (char *)wine_ldt_get_base(&entry) + add );
wine_ldt_set_entry( SELECTOROF(ptr), &entry );
}
/***********************************************************************
* GetSelectorBase (KERNEL.186)
*/
DWORD WINAPI WIN16_GetSelectorBase( WORD sel )
{
/*
* Note: For Win32s processes, the whole linear address space is
* shifted by 0x10000 relative to the OS linear address space.
* See the comment in msdos/vxd.c.
*/
DWORD base = GetSelectorBase( sel );
return W32S_WINE2APP( base );
}
DWORD WINAPI GetSelectorBase( WORD sel )
{
void *base = wine_ldt_copy.base[sel >> __AHSHIFT];
/* if base points into DOSMEM, assume we have to
* return pointer into physical lower 1MB */
return DOSMEM_MapLinearToDos( base );
}
/***********************************************************************
* SetSelectorBase (KERNEL.187)
*/
DWORD WINAPI WIN16_SetSelectorBase( WORD sel, DWORD base )
{
/*
* Note: For Win32s processes, the whole linear address space is
* shifted by 0x10000 relative to the OS linear address space.
* See the comment in msdos/vxd.c.
*/
SetSelectorBase( sel, W32S_APP2WINE( base ) );
return sel;
}
WORD WINAPI SetSelectorBase( WORD sel, DWORD base )
{
LDT_ENTRY entry;
wine_ldt_get_entry( sel, &entry );
wine_ldt_set_base( &entry, DOSMEM_MapDosToLinear(base) );
wine_ldt_set_entry( sel, &entry );
return sel;
}
/***********************************************************************
* GetSelectorLimit (KERNEL.188)
*/
DWORD WINAPI GetSelectorLimit16( WORD sel )
{
return wine_ldt_copy.limit[sel >> __AHSHIFT];
}
/***********************************************************************
* SetSelectorLimit (KERNEL.189)
*/
WORD WINAPI SetSelectorLimit16( WORD sel, DWORD limit )
{
LDT_ENTRY entry;
wine_ldt_get_entry( sel, &entry );
wine_ldt_set_limit( &entry, limit );
wine_ldt_set_entry( sel, &entry );
return sel;
}
/***********************************************************************
* SelectorAccessRights (KERNEL.196)
*/
WORD WINAPI SelectorAccessRights16( WORD sel, WORD op, WORD val )
{
LDT_ENTRY entry;
wine_ldt_get_entry( sel, &entry );
if (op == 0) /* get */
{
return entry.HighWord.Bytes.Flags1 | ((entry.HighWord.Bytes.Flags2 << 8) & 0xf0);
}
else /* set */
{
entry.HighWord.Bytes.Flags1 = LOBYTE(val) | 0xf0;
entry.HighWord.Bytes.Flags2 = (entry.HighWord.Bytes.Flags2 & 0x0f) | (HIBYTE(val) & 0xf0);
wine_ldt_set_entry( sel, &entry );
return 0;
}
}
/***********************************************************************
* IsBadCodePtr (KERNEL.336)
*/
BOOL16 WINAPI IsBadCodePtr16( SEGPTR lpfn )
{
WORD sel;
LDT_ENTRY entry;
sel = SELECTOROF(lpfn);
if (!sel) return TRUE;
if (IS_SELECTOR_FREE(sel)) return TRUE;
wine_ldt_get_entry( sel, &entry );
/* check for code segment, ignoring conforming, read-only and accessed bits */
if ((entry.HighWord.Bits.Type ^ WINE_LDT_FLAGS_CODE) & 0x18) return TRUE;
if (OFFSETOF(lpfn) > wine_ldt_get_limit(&entry)) return TRUE;
return FALSE;
}
/***********************************************************************
* IsBadStringPtr (KERNEL.337)
*/
BOOL16 WINAPI IsBadStringPtr16( SEGPTR ptr, UINT16 size )
{
WORD sel;
LDT_ENTRY entry;
sel = SELECTOROF(ptr);
if (!sel) return TRUE;
if (IS_SELECTOR_FREE(sel)) return TRUE;
wine_ldt_get_entry( sel, &entry );
/* check for data or readable code segment */
if (!(entry.HighWord.Bits.Type & 0x10)) return TRUE; /* system descriptor */
if ((entry.HighWord.Bits.Type & 0x0a) == 0x08) return TRUE; /* non-readable code segment */
if (strlen(MapSL(ptr)) < size) size = strlen(MapSL(ptr)) + 1;
if (size && (OFFSETOF(ptr) + size - 1 > wine_ldt_get_limit(&entry))) return TRUE;
return FALSE;
}
/***********************************************************************
* IsBadHugeReadPtr (KERNEL.346)
*/
BOOL16 WINAPI IsBadHugeReadPtr16( SEGPTR ptr, DWORD size )
{
WORD sel;
LDT_ENTRY entry;
sel = SELECTOROF(ptr);
if (!sel) return TRUE;
if (IS_SELECTOR_FREE(sel)) return TRUE;
wine_ldt_get_entry( sel, &entry );
/* check for data or readable code segment */
if (!(entry.HighWord.Bits.Type & 0x10)) return TRUE; /* system descriptor */
if ((entry.HighWord.Bits.Type & 0x0a) == 0x08) return TRUE; /* non-readable code segment */
if (size && (OFFSETOF(ptr) + size - 1 > wine_ldt_get_limit( &entry ))) return TRUE;
return FALSE;
}
/***********************************************************************
* IsBadHugeWritePtr (KERNEL.347)
*/
BOOL16 WINAPI IsBadHugeWritePtr16( SEGPTR ptr, DWORD size )
{
WORD sel;
LDT_ENTRY entry;
sel = SELECTOROF(ptr);
if (!sel) return TRUE;
if (IS_SELECTOR_FREE(sel)) return TRUE;
wine_ldt_get_entry( sel, &entry );
/* check for writeable data segment, ignoring expand-down and accessed flags */
if ((entry.HighWord.Bits.Type ^ WINE_LDT_FLAGS_DATA) & ~5) return TRUE;
if (size && (OFFSETOF(ptr) + size - 1 > wine_ldt_get_limit( &entry ))) return TRUE;
return FALSE;
}
/***********************************************************************
* IsBadReadPtr (KERNEL.334)
*/
BOOL16 WINAPI IsBadReadPtr16( SEGPTR ptr, UINT16 size )
{
return IsBadHugeReadPtr16( ptr, size );
}
/***********************************************************************
* IsBadWritePtr (KERNEL.335)
*/
BOOL16 WINAPI IsBadWritePtr16( SEGPTR ptr, UINT16 size )
{
return IsBadHugeWritePtr16( ptr, size );
}
/***********************************************************************
* IsBadFlatReadWritePtr (KERNEL.627)
*/
BOOL16 WINAPI IsBadFlatReadWritePtr16( SEGPTR ptr, DWORD size, BOOL16 bWrite )
{
return bWrite? IsBadHugeWritePtr16( ptr, size )
: IsBadHugeReadPtr16( ptr, size );
}
/***********************************************************************
* MemoryRead (TOOLHELP.78)
*/
DWORD WINAPI MemoryRead16( WORD sel, DWORD offset, void *buffer, DWORD count )
{
WORD index = sel >> __AHSHIFT;
if (!(wine_ldt_copy.flags[index] & WINE_LDT_FLAGS_ALLOCATED)) return 0;
if (offset > wine_ldt_copy.limit[index]) return 0;
if (offset + count > wine_ldt_copy.limit[index] + 1)
count = wine_ldt_copy.limit[index] + 1 - offset;
memcpy( buffer, (char *)wine_ldt_copy.base[index] + offset, count );
return count;
}
/***********************************************************************
* MemoryWrite (TOOLHELP.79)
*/
DWORD WINAPI MemoryWrite16( WORD sel, DWORD offset, void *buffer, DWORD count )
{
WORD index = sel >> __AHSHIFT;
if (!(wine_ldt_copy.flags[index] & WINE_LDT_FLAGS_ALLOCATED)) return 0;
if (offset > wine_ldt_copy.limit[index]) return 0;
if (offset + count > wine_ldt_copy.limit[index] + 1)
count = wine_ldt_copy.limit[index] + 1 - offset;
memcpy( (char *)wine_ldt_copy.base[index] + offset, buffer, count );
return count;
}
/************************************* Win95 pointer mapping functions *
*
*/
struct mapls_entry
{
struct mapls_entry *next;
void *addr; /* linear address */
int count; /* ref count */
WORD sel; /* selector */
};
static struct mapls_entry *first_entry;
/***********************************************************************
* MapLS (KERNEL32.@)
* MapLS (KERNEL.358)
*
* Maps linear pointer to segmented.
*/
SEGPTR WINAPI MapLS( LPCVOID ptr )
{
struct mapls_entry *entry, *free = NULL;
void *base;
SEGPTR ret = 0;
if (!HIWORD(ptr)) return (SEGPTR)ptr;
base = (char *)ptr - ((unsigned int)ptr & 0x7fff);
HeapLock( GetProcessHeap() );
for (entry = first_entry; entry; entry = entry->next)
{
if (entry->addr == base) break;
if (!entry->count) free = entry;
}
if (!entry)
{
if (!free) /* no free entry found, create a new one */
{
if (!(free = HeapAlloc( GetProcessHeap(), 0, sizeof(*free) ))) goto done;
if (!(free->sel = SELECTOR_AllocBlock( base, 0x10000, WINE_LDT_FLAGS_DATA )))
{
HeapFree( GetProcessHeap(), 0, free );
goto done;
}
free->count = 0;
free->next = first_entry;
first_entry = free;
}
SetSelectorBase( free->sel, (DWORD)base );
free->addr = base;
entry = free;
}
entry->count++;
ret = MAKESEGPTR( entry->sel, (char *)ptr - (char *)entry->addr );
done:
HeapUnlock( GetProcessHeap() );
return ret;
}
/***********************************************************************
* UnMapLS (KERNEL32.@)
* UnMapLS (KERNEL.359)
*
* Free mapped selector.
*/
void WINAPI UnMapLS( SEGPTR sptr )
{
struct mapls_entry *entry;
WORD sel = SELECTOROF(sptr);
if (sel)
{
HeapLock( GetProcessHeap() );
for (entry = first_entry; entry; entry = entry->next) if (entry->sel == sel) break;
if (entry && entry->count > 0) entry->count--;
HeapUnlock( GetProcessHeap() );
}
}
/***********************************************************************
* MapSL (KERNEL32.@)
* MapSL (KERNEL.357)
*
* Maps fixed segmented pointer to linear.
*/
LPVOID WINAPI MapSL( SEGPTR sptr )
{
return (char *)wine_ldt_copy.base[SELECTOROF(sptr) >> __AHSHIFT] + OFFSETOF(sptr);
}
/***********************************************************************
* MapSLFix (KERNEL32.@)
*
* FIXME: MapSLFix and UnMapSLFixArray should probably prevent
* unexpected linear address change when GlobalCompact() shuffles
* moveable blocks.
*/
LPVOID WINAPI MapSLFix( SEGPTR sptr )
{
return MapSL(sptr);
}
/***********************************************************************
* UnMapSLFixArray (KERNEL32.@)
*/
void WINAPI UnMapSLFixArray( SEGPTR sptr[], INT length, CONTEXT86 *context )
{
/* Must not change EAX, hence defined as 'register' function */
}
/***********************************************************************
* GetThreadSelectorEntry (KERNEL32.@)
*/
BOOL WINAPI GetThreadSelectorEntry( HANDLE hthread, DWORD sel, LPLDT_ENTRY ldtent)
{
#ifdef __i386__
BOOL ret;
if (!(sel & 4)) /* GDT selector */
{
sel &= ~3; /* ignore RPL */
if (!sel) /* null selector */
{
memset( ldtent, 0, sizeof(*ldtent) );
return TRUE;
}
ldtent->BaseLow = 0;
ldtent->HighWord.Bits.BaseMid = 0;
ldtent->HighWord.Bits.BaseHi = 0;
ldtent->LimitLow = 0xffff;
ldtent->HighWord.Bits.LimitHi = 0xf;
ldtent->HighWord.Bits.Dpl = 3;
ldtent->HighWord.Bits.Sys = 0;
ldtent->HighWord.Bits.Pres = 1;
ldtent->HighWord.Bits.Granularity = 1;
ldtent->HighWord.Bits.Default_Big = 1;
ldtent->HighWord.Bits.Type = 0x12;
/* it has to be one of the system GDT selectors */
if (sel == (wine_get_ds() & ~3)) return TRUE;
if (sel == (wine_get_ss() & ~3)) return TRUE;
if (sel == (wine_get_cs() & ~3))
{
ldtent->HighWord.Bits.Type |= 8; /* code segment */
return TRUE;
}
SetLastError( ERROR_NOACCESS );
return FALSE;
}
SERVER_START_REQ( get_selector_entry )
{
req->handle = hthread;
req->entry = sel >> __AHSHIFT;
if ((ret = !wine_server_call_err( req )))
{
if (!(reply->flags & WINE_LDT_FLAGS_ALLOCATED))
{
SetLastError( ERROR_MR_MID_NOT_FOUND ); /* sic */
ret = FALSE;
}
else
{
wine_ldt_set_base( ldtent, (void *)reply->base );
wine_ldt_set_limit( ldtent, reply->limit );
wine_ldt_set_flags( ldtent, reply->flags );
}
}
}
SERVER_END_REQ;
return ret;
#else
SetLastError( ERROR_CALL_NOT_IMPLEMENTED );
return FALSE;
#endif
}
/**********************************************************************
* SMapLS* (KERNEL32)
* These functions map linear pointers at [EBP+xxx] to segmented pointers
* and return them.
* Win95 uses some kind of alias structs, which it stores in [EBP+x] to
* unravel them at SUnMapLS. We just store the segmented pointer there.
*/
static void
x_SMapLS_IP_EBP_x(CONTEXT86 *context,int argoff) {
DWORD val,ptr;
val =*(DWORD*)(context->Ebp + argoff);
if (val<0x10000) {
ptr=val;
*(DWORD*)(context->Ebp + argoff) = 0;
} else {
ptr = MapLS((LPVOID)val);
*(DWORD*)(context->Ebp + argoff) = ptr;
}
context->Eax = ptr;
}
/***********************************************************************
* SMapLS_IP_EBP_8 (KERNEL32.@)
*/
void WINAPI SMapLS_IP_EBP_8 (CONTEXT86 *context) {x_SMapLS_IP_EBP_x(context, 8);}
/***********************************************************************
* SMapLS_IP_EBP_12 (KERNEL32.@)
*/
void WINAPI SMapLS_IP_EBP_12(CONTEXT86 *context) {x_SMapLS_IP_EBP_x(context,12);}
/***********************************************************************
* SMapLS_IP_EBP_16 (KERNEL32.@)
*/
void WINAPI SMapLS_IP_EBP_16(CONTEXT86 *context) {x_SMapLS_IP_EBP_x(context,16);}
/***********************************************************************
* SMapLS_IP_EBP_20 (KERNEL32.@)
*/
void WINAPI SMapLS_IP_EBP_20(CONTEXT86 *context) {x_SMapLS_IP_EBP_x(context,20);}
/***********************************************************************
* SMapLS_IP_EBP_24 (KERNEL32.@)
*/
void WINAPI SMapLS_IP_EBP_24(CONTEXT86 *context) {x_SMapLS_IP_EBP_x(context,24);}
/***********************************************************************
* SMapLS_IP_EBP_28 (KERNEL32.@)
*/
void WINAPI SMapLS_IP_EBP_28(CONTEXT86 *context) {x_SMapLS_IP_EBP_x(context,28);}
/***********************************************************************
* SMapLS_IP_EBP_32 (KERNEL32.@)
*/
void WINAPI SMapLS_IP_EBP_32(CONTEXT86 *context) {x_SMapLS_IP_EBP_x(context,32);}
/***********************************************************************
* SMapLS_IP_EBP_36 (KERNEL32.@)
*/
void WINAPI SMapLS_IP_EBP_36(CONTEXT86 *context) {x_SMapLS_IP_EBP_x(context,36);}
/***********************************************************************
* SMapLS_IP_EBP_40 (KERNEL32.@)
*/
void WINAPI SMapLS_IP_EBP_40(CONTEXT86 *context) {x_SMapLS_IP_EBP_x(context,40);}
/***********************************************************************
* SMapLS (KERNEL32.@)
*/
void WINAPI SMapLS( CONTEXT86 *context )
{
if (HIWORD(context->Eax))
{
context->Eax = MapLS( (LPVOID)context->Eax );
context->Edx = context->Eax;
} else {
context->Edx = 0;
}
}
/***********************************************************************
* SUnMapLS (KERNEL32.@)
*/
void WINAPI SUnMapLS( CONTEXT86 *context )
{
if (HIWORD(context->Eax)) UnMapLS( (SEGPTR)context->Eax );
}
inline static void x_SUnMapLS_IP_EBP_x(CONTEXT86 *context,int argoff)
{
SEGPTR *ptr = (SEGPTR *)(context->Ebp + argoff);
if (*ptr)
{
UnMapLS( *ptr );
*ptr = 0;
}
}
/***********************************************************************
* SUnMapLS_IP_EBP_8 (KERNEL32.@)
*/
void WINAPI SUnMapLS_IP_EBP_8 (CONTEXT86 *context) { x_SUnMapLS_IP_EBP_x(context, 8); }
/***********************************************************************
* SUnMapLS_IP_EBP_12 (KERNEL32.@)
*/
void WINAPI SUnMapLS_IP_EBP_12(CONTEXT86 *context) { x_SUnMapLS_IP_EBP_x(context,12); }
/***********************************************************************
* SUnMapLS_IP_EBP_16 (KERNEL32.@)
*/
void WINAPI SUnMapLS_IP_EBP_16(CONTEXT86 *context) { x_SUnMapLS_IP_EBP_x(context,16); }
/***********************************************************************
* SUnMapLS_IP_EBP_20 (KERNEL32.@)
*/
void WINAPI SUnMapLS_IP_EBP_20(CONTEXT86 *context) { x_SUnMapLS_IP_EBP_x(context,20); }
/***********************************************************************
* SUnMapLS_IP_EBP_24 (KERNEL32.@)
*/
void WINAPI SUnMapLS_IP_EBP_24(CONTEXT86 *context) { x_SUnMapLS_IP_EBP_x(context,24); }
/***********************************************************************
* SUnMapLS_IP_EBP_28 (KERNEL32.@)
*/
void WINAPI SUnMapLS_IP_EBP_28(CONTEXT86 *context) { x_SUnMapLS_IP_EBP_x(context,28); }
/***********************************************************************
* SUnMapLS_IP_EBP_32 (KERNEL32.@)
*/
void WINAPI SUnMapLS_IP_EBP_32(CONTEXT86 *context) { x_SUnMapLS_IP_EBP_x(context,32); }
/***********************************************************************
* SUnMapLS_IP_EBP_36 (KERNEL32.@)
*/
void WINAPI SUnMapLS_IP_EBP_36(CONTEXT86 *context) { x_SUnMapLS_IP_EBP_x(context,36); }
/***********************************************************************
* SUnMapLS_IP_EBP_40 (KERNEL32.@)
*/
void WINAPI SUnMapLS_IP_EBP_40(CONTEXT86 *context) { x_SUnMapLS_IP_EBP_x(context,40); }
/**********************************************************************
* AllocMappedBuffer (KERNEL32.38)
*
* This is a undocumented KERNEL32 function that
* SMapLS's a GlobalAlloc'ed buffer.
*
* Input: EDI register: size of buffer to allocate
* Output: EDI register: pointer to buffer
*
* Note: The buffer is preceded by 8 bytes:
* ...
* edi+0 buffer
* edi-4 SEGPTR to buffer
* edi-8 some magic Win95 needs for SUnMapLS
* (we use it for the memory handle)
*
* The SEGPTR is used by the caller!
*/
void WINAPI AllocMappedBuffer( CONTEXT86 *context )
{
HGLOBAL handle = GlobalAlloc(0, context->Edi + 8);
DWORD *buffer = (DWORD *)GlobalLock(handle);
SEGPTR ptr = 0;
if (buffer)
if (!(ptr = MapLS(buffer + 2)))
{
GlobalUnlock(handle);
GlobalFree(handle);
}
if (!ptr)
context->Eax = context->Edi = 0;
else
{
buffer[0] = handle;
buffer[1] = ptr;
context->Eax = (DWORD) ptr;
context->Edi = (DWORD)(buffer + 2);
}
}
/**********************************************************************
* FreeMappedBuffer (KERNEL32.39)
*
* Free a buffer allocated by AllocMappedBuffer
*
* Input: EDI register: pointer to buffer
*/
void WINAPI FreeMappedBuffer( CONTEXT86 *context )
{
if (context->Edi)
{
DWORD *buffer = (DWORD *)context->Edi - 2;
UnMapLS(buffer[1]);
GlobalUnlock(buffer[0]);
GlobalFree(buffer[0]);
}
}