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Sweden-Number/relay32/relay386.c

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/*
* 386-specific Win32 relay functions
*
* Copyright 1997 Alexandre Julliard
*/
#include <assert.h>
#include <string.h>
#include "winnt.h"
#include "builtin32.h"
#include "selectors.h"
#include "debugstr.h"
#include "debug.h"
#include "main.h"
char **debug_relay_excludelist = NULL, **debug_relay_includelist = NULL;
#ifdef __i386__
/***********************************************************************
* RELAY_ShowDebugmsgRelay
*
* Simple function to decide if a particular debugging message is
* wanted. Called from RELAY_CallFrom32 and from in if1632/relay.c
*/
int RELAY_ShowDebugmsgRelay(const char *func) {
if(debug_relay_excludelist || debug_relay_includelist) {
const char *term = strchr(func, ':');
char **listitem;
int len, len2, itemlen, show;
if(debug_relay_excludelist) {
show = 1;
listitem = debug_relay_excludelist;
} else {
show = 0;
listitem = debug_relay_includelist;
}
assert(term);
assert(strlen(term) > 2);
len = term - func;
len2 = strchr(func, '.') - func;
assert(len2 && len2 > 0 && len2 < 64);
term += 2;
for(; *listitem; listitem++) {
itemlen = strlen(*listitem);
if((itemlen == len && !strncmp(*listitem, func, len)) ||
(itemlen == len2 && !strncmp(*listitem, func, len2)) ||
!strcmp(*listitem, term)) {
show = !show;
break;
}
}
return show;
}
return 1;
}
/***********************************************************************
* RELAY_CallFrom32
*
* Stack layout on entry to this function:
* ... ...
* (esp+12) arg2
* (esp+8) arg1
* (esp+4) ret_addr
* (esp) return addr to relay code
*/
int RELAY_CallFrom32( int ret_addr, ... )
{
int i, ret;
char buffer[80];
FARPROC func;
unsigned int mask, typemask;
WORD fs;
int *args = &ret_addr;
/* Relay addr is the return address for this function */
BYTE *relay_addr = (BYTE *)args[-1];
WORD nb_args = *(WORD *)(relay_addr + 1) / sizeof(int);
assert(TRACE_ON(relay));
func = (FARPROC)BUILTIN32_GetEntryPoint( buffer, relay_addr - 5,
&typemask );
DPRINTF( "Call %s(", buffer );
args++;
for (i = 0, mask = 3; i < nb_args; i++, mask <<= 2)
{
if (i) DPRINTF( "," );
if ((typemask & mask) && HIWORD(args[i]))
{
if (typemask & (2<<(2*i)))
DPRINTF( "%08x L%s", args[i], debugstr_w((LPWSTR)args[i]) );
else
DPRINTF( "%08x %s", args[i], debugstr_a((LPCSTR)args[i]) );
}
else DPRINTF( "%08x", args[i] );
}
GET_FS( fs );
DPRINTF( ") ret=%08x fs=%04x\n", ret_addr, fs );
if (*relay_addr == 0xc3) /* cdecl */
{
LRESULT (*cfunc)() = (LRESULT(*)())func;
switch(nb_args)
{
case 0: ret = cfunc(); break;
case 1: ret = cfunc(args[0]); break;
case 2: ret = cfunc(args[0],args[1]); break;
case 3: ret = cfunc(args[0],args[1],args[2]); break;
case 4: ret = cfunc(args[0],args[1],args[2],args[3]); break;
case 5: ret = cfunc(args[0],args[1],args[2],args[3],args[4]); break;
case 6: ret = cfunc(args[0],args[1],args[2],args[3],args[4],
args[5]); break;
case 7: ret = cfunc(args[0],args[1],args[2],args[3],args[4],args[5],
args[6]); break;
case 8: ret = cfunc(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7]); break;
case 9: ret = cfunc(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8]); break;
case 10: ret = cfunc(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9]); break;
case 11: ret = cfunc(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9],args[10]); break;
case 12: ret = cfunc(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9],args[10],
args[11]); break;
case 13: ret = cfunc(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9],args[10],args[11],
args[12]); break;
case 14: ret = cfunc(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9],args[10],args[11],
args[12],args[13]); break;
case 15: ret = cfunc(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9],args[10],args[11],
args[12],args[13],args[14]); break;
case 16: ret = cfunc(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9],args[10],args[11],
args[12],args[13],args[14],args[15]); break;
default:
ERR(relay, "Unsupported nb args %d\n",
nb_args );
assert(FALSE);
}
}
else /* stdcall */
{
switch(nb_args)
{
case 0: ret = func(); break;
case 1: ret = func(args[0]); break;
case 2: ret = func(args[0],args[1]); break;
case 3: ret = func(args[0],args[1],args[2]); break;
case 4: ret = func(args[0],args[1],args[2],args[3]); break;
case 5: ret = func(args[0],args[1],args[2],args[3],args[4]); break;
case 6: ret = func(args[0],args[1],args[2],args[3],args[4],
args[5]); break;
case 7: ret = func(args[0],args[1],args[2],args[3],args[4],args[5],
args[6]); break;
case 8: ret = func(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7]); break;
case 9: ret = func(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8]); break;
case 10: ret = func(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9]); break;
case 11: ret = func(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9],args[10]); break;
case 12: ret = func(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9],args[10],
args[11]); break;
case 13: ret = func(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9],args[10],args[11],
args[12]); break;
case 14: ret = func(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9],args[10],args[11],
args[12],args[13]); break;
case 15: ret = func(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9],args[10],args[11],
args[12],args[13],args[14]); break;
case 16: ret = func(args[0],args[1],args[2],args[3],args[4],args[5],
args[6],args[7],args[8],args[9],args[10],args[11],
args[12],args[13],args[14],args[15]); break;
default:
ERR(relay, "Unsupported nb args %d\n",nb_args );
assert(FALSE);
}
}
DPRINTF( "Ret %s() retval=%08x ret=%08x fs=%04x\n",
buffer, ret, ret_addr, fs );
return ret;
}
/***********************************************************************
* RELAY_CallFrom32Regs
*
* 'context' contains the register contents at the point of call of
* the REG_ENTRY_POINT. The stack layout of the stack pointed to by
* ESP_reg(&context) is as follows:
*
* If debugmsg(relay) is OFF:
* ... ...
* (esp+4) args
* (esp) return addr to caller
* (esp-4) function entry point
*
* If debugmsg(relay) is ON:
* ... ...
* (esp+8) args
* (esp+4) return addr to caller
* (esp) return addr to DEBUG_ENTRY_POINT
* (esp-4) function entry point
*
* As the called function might change the stack layout
* (e.g. FT_Prolog, FT_ExitNN), we remove all modifications to the stack,
* so that the called function sees (in both cases):
*
* ... ...
* (esp+4) args
* (esp) return addr to caller
* ... >128 bytes space free to be modified (ensured by the assembly glue)
*
* NOTE: This routine makes no assumption about the relative position of
* its own stack to the stack pointed to by ESP_reg(&context),
* except that the latter must have >128 bytes space to grow.
* This means the assembly glue could even switch stacks completely
* (e.g. to allow for large stacks).
*
*/
void RELAY_CallFrom32Regs( CONTEXT context )
{
typedef void (CALLBACK *entry_point_t)(CONTEXT *);
entry_point_t entry_point = *(entry_point_t*) (ESP_reg(&context) - 4);
__RESTORE_ES;
if (!TRACE_ON(relay))
{
/* Simply call the entry point */
entry_point( &context );
}
else
{
char buffer[80];
unsigned int typemask;
BYTE *relay_addr;
/*
* Fixup the context structure because of the extra parameter
* pushed by the relay debugging code.
* Note that this implicitly does a RET on the CALL from the
* DEBUG_ENTRY_POINT to the REG_ENTRY_POINT; setting the EIP register
* ensures that the assembly glue will directly return to the
* caller, just as in the non-debugging case.
*/
relay_addr = *(BYTE **) ESP_reg(&context);
if (BUILTIN32_GetEntryPoint( buffer, relay_addr - 5, &typemask )) {
/* correct win32 spec generated register function found.
* remove extra call stuff from stack
*/
ESP_reg(&context) += sizeof(BYTE *);
EIP_reg(&context) = *(DWORD *)ESP_reg(&context);
DPRINTF("Call %s(regs) ret=%08x\n", buffer, *(int *)ESP_reg(&context) );
DPRINTF(" EAX=%08lx EBX=%08lx ECX=%08lx EDX=%08lx ESI=%08lx EDI=%08lx\n",
EAX_reg(&context), EBX_reg(&context), ECX_reg(&context),
EDX_reg(&context), ESI_reg(&context), EDI_reg(&context) );
DPRINTF(" EBP=%08lx ESP=%08lx EIP=%08lx DS=%04lx ES=%04lx FS=%04lx GS=%04lx EFL=%08lx\n",
EBP_reg(&context), ESP_reg(&context), EIP_reg(&context),
DS_reg(&context), ES_reg(&context), FS_reg(&context),
GS_reg(&context), EFL_reg(&context) );
/* Now call the real function */
entry_point( &context );
DPRINTF("Ret %s() retval=regs ret=%08x\n", buffer, *(int *)ESP_reg(&context) );
DPRINTF(" EAX=%08lx EBX=%08lx ECX=%08lx EDX=%08lx ESI=%08lx EDI=%08lx\n",
EAX_reg(&context), EBX_reg(&context), ECX_reg(&context),
EDX_reg(&context), ESI_reg(&context), EDI_reg(&context) );
DPRINTF(" EBP=%08lx ESP=%08lx EIP=%08lx DS=%04lx ES=%04lx FS=%04lx GS=%04lx EFL=%08lx\n",
EBP_reg(&context), ESP_reg(&context), EIP_reg(&context),
DS_reg(&context), ES_reg(&context), FS_reg(&context),
GS_reg(&context), EFL_reg(&context) );
} else
/* WINE internal register function found. Do not remove anything.
* Do not print any debuginfo (it is not a normal relayed one).
* Currently only used for snooping.
*/
entry_point( &context );
}
}
#endif /* __i386__ */
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