Sweden-Number/tools/build.c

2595 lines
75 KiB
C

/*
* Copyright 1993 Robert J. Amstadt
* Copyright 1995 Martin von Loewis
* Copyright 1995, 1996, 1997 Alexandre Julliard
* Copyright 1997 Eric Youngdale
*/
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <unistd.h>
#include "windows.h"
#include "winnt.h"
#include "module.h"
#include "neexe.h"
#include "selectors.h"
#include "stackframe.h"
#include "thread.h"
#ifdef NEED_UNDERSCORE_PREFIX
# define PREFIX "_"
#else
# define PREFIX
#endif
#ifdef HAVE_ASM_STRING
# define STRING ".string"
#else
# define STRING ".ascii"
#endif
#if defined(__GNUC__) && !defined(__svr4__)
# define USE_STABS
#else
# undef USE_STABS
#endif
typedef enum
{
TYPE_INVALID,
TYPE_BYTE, /* byte variable (Win16) */
TYPE_WORD, /* word variable (Win16) */
TYPE_LONG, /* long variable (Win16) */
TYPE_PASCAL_16, /* pascal function with 16-bit return (Win16) */
TYPE_PASCAL, /* pascal function with 32-bit return (Win16) */
TYPE_ABS, /* absolute value (Win16) */
TYPE_RETURN, /* simple return value function (Win16) */
TYPE_REGISTER, /* register function */
TYPE_STUB, /* unimplemented stub */
TYPE_STDCALL, /* stdcall function (Win32) */
TYPE_CDECL, /* cdecl function (Win32) */
TYPE_VARARGS, /* varargs function (Win32) */
TYPE_EXTERN, /* external symbol (Win32) */
TYPE_NBTYPES
} ORD_TYPE;
static const char * const TypeNames[TYPE_NBTYPES] =
{
NULL,
"byte", /* TYPE_BYTE */
"word", /* TYPE_WORD */
"long", /* TYPE_LONG */
"pascal16", /* TYPE_PASCAL_16 */
"pascal", /* TYPE_PASCAL */
"equate", /* TYPE_ABS */
"return", /* TYPE_RETURN */
"register", /* TYPE_REGISTER */
"stub", /* TYPE_STUB */
"stdcall", /* TYPE_STDCALL */
"cdecl", /* TYPE_CDECL */
"varargs", /* TYPE_VARARGS */
"extern" /* TYPE_EXTERN */
};
#define MAX_ORDINALS 2048
/* Callback function used for stub functions */
#define STUB_CALLBACK \
((SpecType == SPEC_WIN16) ? "RELAY_Unimplemented16": "RELAY_Unimplemented32")
typedef enum
{
SPEC_INVALID,
SPEC_WIN16,
SPEC_WIN32
} SPEC_TYPE;
typedef struct
{
int n_values;
int *values;
} ORD_VARIABLE;
typedef struct
{
int n_args;
char arg_types[32];
char link_name[80];
} ORD_FUNCTION;
typedef struct
{
int arg_size;
int ret_value;
} ORD_RETURN;
typedef struct
{
int value;
} ORD_ABS;
typedef struct
{
char link_name[80];
} ORD_VARARGS;
typedef struct
{
char link_name[80];
} ORD_EXTERN;
typedef struct
{
ORD_TYPE type;
int offset;
int lineno;
char name[80];
union
{
ORD_VARIABLE var;
ORD_FUNCTION func;
ORD_RETURN ret;
ORD_ABS abs;
ORD_VARARGS vargs;
ORD_EXTERN ext;
} u;
} ORDDEF;
static ORDDEF OrdinalDefinitions[MAX_ORDINALS];
static SPEC_TYPE SpecType = SPEC_INVALID;
static char DLLName[80];
static char DLLFileName[80];
static int Limit = 0;
static int Base = MAX_ORDINALS;
static int DLLHeapSize = 0;
static char *SpecName;
static FILE *SpecFp;
static WORD Code_Selector, Data_Selector;
static char DLLInitFunc[80];
char *ParseBuffer = NULL;
char *ParseNext;
char ParseSaveChar;
int Line;
static int debugging = 1;
/* Offset of a structure field relative to the start of the struct */
#define STRUCTOFFSET(type,field) ((int)&((type *)0)->field)
/* Offset of register relative to the start of the CONTEXT struct */
#define CONTEXTOFFSET(reg) STRUCTOFFSET(CONTEXT,reg)
/* Offset of the stack pointer relative to %fs:(0) */
#define STACKOFFSET (STRUCTOFFSET(THDB,cur_stack) - STRUCTOFFSET(THDB,teb))
static void *xmalloc (size_t size)
{
void *res;
res = malloc (size ? size : 1);
if (res == NULL)
{
fprintf (stderr, "Virtual memory exhausted.\n");
exit (1);
}
return res;
}
static void *xrealloc (void *ptr, size_t size)
{
void *res = realloc (ptr, size);
if (res == NULL)
{
fprintf (stderr, "Virtual memory exhausted.\n");
exit (1);
}
return res;
}
static int IsNumberString(char *s)
{
while (*s != '\0')
if (!isdigit(*s++))
return 0;
return 1;
}
static char *strupper(char *s)
{
char *p;
for(p = s; *p != '\0'; p++)
*p = toupper(*p);
return s;
}
static char * GetTokenInLine(void)
{
char *p;
char *token;
if (ParseNext != ParseBuffer)
{
if (ParseSaveChar == '\0')
return NULL;
*ParseNext = ParseSaveChar;
}
/*
* Remove initial white space.
*/
for (p = ParseNext; isspace(*p); p++)
;
if ((*p == '\0') || (*p == '#'))
return NULL;
/*
* Find end of token.
*/
token = p++;
if (*token != '(' && *token != ')')
while (*p != '\0' && *p != '(' && *p != ')' && !isspace(*p))
p++;
ParseSaveChar = *p;
ParseNext = p;
*p = '\0';
return token;
}
static char * GetToken(void)
{
char *token;
if (ParseBuffer == NULL)
{
ParseBuffer = xmalloc(512);
ParseNext = ParseBuffer;
while (1)
{
Line++;
if (fgets(ParseBuffer, 511, SpecFp) == NULL)
return NULL;
if (ParseBuffer[0] != '#')
break;
}
}
while ((token = GetTokenInLine()) == NULL)
{
ParseNext = ParseBuffer;
while (1)
{
Line++;
if (fgets(ParseBuffer, 511, SpecFp) == NULL)
return NULL;
if (ParseBuffer[0] != '#')
break;
}
}
return token;
}
/*******************************************************************
* ParseVariable
*
* Parse a variable definition.
*/
static int ParseVariable( ORDDEF *odp )
{
char *endptr;
int *value_array;
int n_values;
int value_array_size;
char *token = GetToken();
if (*token != '(')
{
fprintf(stderr, "%s:%d: Expected '(' got '%s'\n",
SpecName, Line, token);
return -1;
}
n_values = 0;
value_array_size = 25;
value_array = xmalloc(sizeof(*value_array) * value_array_size);
while ((token = GetToken()) != NULL)
{
if (*token == ')')
break;
value_array[n_values++] = strtol(token, &endptr, 0);
if (n_values == value_array_size)
{
value_array_size += 25;
value_array = xrealloc(value_array,
sizeof(*value_array) * value_array_size);
}
if (endptr == NULL || *endptr != '\0')
{
fprintf(stderr, "%s:%d: Expected number value, got '%s'\n",
SpecName, Line, token);
return -1;
}
}
if (token == NULL)
{
fprintf(stderr, "%s:%d: End of file in variable declaration\n",
SpecName, Line);
return -1;
}
odp->u.var.n_values = n_values;
odp->u.var.values = xrealloc(value_array, sizeof(*value_array) * n_values);
return 0;
}
/*******************************************************************
* ParseExportFunction
*
* Parse a function definition.
*/
static int ParseExportFunction( ORDDEF *odp )
{
char *token;
int i;
switch(SpecType)
{
case SPEC_WIN16:
if (odp->type == TYPE_STDCALL)
{
fprintf( stderr, "%s:%d: 'stdcall' not supported for Win16\n",
SpecName, Line );
return -1;
}
break;
case SPEC_WIN32:
if ((odp->type == TYPE_PASCAL) || (odp->type == TYPE_PASCAL_16))
{
fprintf( stderr, "%s:%d: 'pascal' not supported for Win32\n",
SpecName, Line );
return -1;
}
break;
default:
break;
}
token = GetToken();
if (*token != '(')
{
fprintf(stderr, "%s:%d: Expected '(' got '%s'\n",
SpecName, Line, token);
return -1;
}
for (i = 0; i < sizeof(odp->u.func.arg_types)-1; i++)
{
token = GetToken();
if (*token == ')')
break;
if (!strcmp(token, "word"))
odp->u.func.arg_types[i] = 'w';
else if (!strcmp(token, "s_word"))
odp->u.func.arg_types[i] = 's';
else if (!strcmp(token, "long") || !strcmp(token, "segptr"))
odp->u.func.arg_types[i] = 'l';
else if (!strcmp(token, "ptr"))
odp->u.func.arg_types[i] = 'p';
else if (!strcmp(token, "str"))
odp->u.func.arg_types[i] = 't';
else if (!strcmp(token, "wstr"))
odp->u.func.arg_types[i] = 'W';
else if (!strcmp(token, "segstr"))
odp->u.func.arg_types[i] = 'T';
else if (!strcmp(token, "double"))
{
odp->u.func.arg_types[i++] = 'l';
odp->u.func.arg_types[i] = 'l';
}
else
{
fprintf(stderr, "%s:%d: Unknown variable type '%s'\n",
SpecName, Line, token);
return -1;
}
if (SpecType == SPEC_WIN32)
{
if (strcmp(token, "long") &&
strcmp(token, "ptr") &&
strcmp(token, "str") &&
strcmp(token, "wstr") &&
strcmp(token, "double"))
{
fprintf( stderr, "%s:%d: Type '%s' not supported for Win32\n",
SpecName, Line, token );
return -1;
}
}
}
if ((*token != ')') || (i >= sizeof(odp->u.func.arg_types)))
{
fprintf( stderr, "%s:%d: Too many arguments\n", SpecName, Line );
return -1;
}
odp->u.func.arg_types[i] = '\0';
if ((odp->type == TYPE_STDCALL) && !i)
odp->type = TYPE_CDECL; /* stdcall is the same as cdecl for 0 args */
if ((odp->type == TYPE_REGISTER) && (SpecType == SPEC_WIN32) && i)
{
fprintf( stderr, "%s:%d: register functions cannot have arguments in Win32\n",
SpecName, Line );
return -1;
}
strcpy(odp->u.func.link_name, GetToken());
return 0;
}
/*******************************************************************
* ParseEquate
*
* Parse an 'equate' definition.
*/
static int ParseEquate( ORDDEF *odp )
{
char *endptr;
char *token = GetToken();
int value = strtol(token, &endptr, 0);
if (endptr == NULL || *endptr != '\0')
{
fprintf(stderr, "%s:%d: Expected number value, got '%s'\n",
SpecName, Line, token);
return -1;
}
if (SpecType == SPEC_WIN32)
{
fprintf( stderr, "%s:%d: 'equate' not supported for Win32\n",
SpecName, Line );
return -1;
}
odp->u.abs.value = value;
return 0;
}
/*******************************************************************
* ParseReturn
*
* Parse a 'return' definition.
*/
static int ParseReturn( ORDDEF *odp )
{
char *token;
char *endptr;
token = GetToken();
odp->u.ret.arg_size = strtol(token, &endptr, 0);
if (endptr == NULL || *endptr != '\0')
{
fprintf(stderr, "%s:%d: Expected number value, got '%s'\n",
SpecName, Line, token);
return -1;
}
token = GetToken();
odp->u.ret.ret_value = strtol(token, &endptr, 0);
if (endptr == NULL || *endptr != '\0')
{
fprintf(stderr, "%s:%d: Expected number value, got '%s'\n",
SpecName, Line, token);
return -1;
}
if (SpecType == SPEC_WIN32)
{
fprintf( stderr, "%s:%d: 'return' not supported for Win32\n",
SpecName, Line );
return -1;
}
return 0;
}
/*******************************************************************
* ParseStub
*
* Parse a 'stub' definition.
*/
static int ParseStub( ORDDEF *odp )
{
odp->u.func.arg_types[0] = '\0';
strcpy( odp->u.func.link_name, STUB_CALLBACK );
return 0;
}
/*******************************************************************
* ParseVarargs
*
* Parse an 'varargs' definition.
*/
static int ParseVarargs( ORDDEF *odp )
{
char *token;
if (SpecType == SPEC_WIN16)
{
fprintf( stderr, "%s:%d: 'varargs' not supported for Win16\n",
SpecName, Line );
return -1;
}
token = GetToken();
if (*token != '(')
{
fprintf(stderr, "%s:%d: Expected '(' got '%s'\n",
SpecName, Line, token);
return -1;
}
token = GetToken();
if (*token != ')')
{
fprintf(stderr, "%s:%d: Expected ')' got '%s'\n",
SpecName, Line, token);
return -1;
}
strcpy( odp->u.vargs.link_name, GetToken() );
return 0;
}
/*******************************************************************
* ParseExtern
*
* Parse an 'extern' definition.
*/
static int ParseExtern( ORDDEF *odp )
{
if (SpecType == SPEC_WIN16)
{
fprintf( stderr, "%s:%d: 'extern' not supported for Win16\n",
SpecName, Line );
return -1;
}
strcpy( odp->u.ext.link_name, GetToken() );
return 0;
}
/*******************************************************************
* ParseOrdinal
*
* Parse an ordinal definition.
*/
static int ParseOrdinal(int ordinal)
{
ORDDEF *odp;
char *token;
if (ordinal >= MAX_ORDINALS)
{
fprintf(stderr, "%s:%d: Ordinal number too large\n", SpecName, Line );
return -1;
}
if (ordinal > Limit) Limit = ordinal;
if (ordinal < Base) Base = ordinal;
odp = &OrdinalDefinitions[ordinal];
if (!(token = GetToken()))
{
fprintf(stderr, "%s:%d: Expected type after ordinal\n", SpecName, Line);
return -1;
}
for (odp->type = 0; odp->type < TYPE_NBTYPES; odp->type++)
if (TypeNames[odp->type] && !strcmp( token, TypeNames[odp->type] ))
break;
if (odp->type >= TYPE_NBTYPES)
{
fprintf( stderr,
"%s:%d: Expected type after ordinal, found '%s' instead\n",
SpecName, Line, token );
return -1;
}
if (!(token = GetToken()))
{
fprintf( stderr, "%s:%d: Expected name after type\n", SpecName, Line );
return -1;
}
strcpy( odp->name, token );
odp->lineno = Line;
switch(odp->type)
{
case TYPE_BYTE:
case TYPE_WORD:
case TYPE_LONG:
return ParseVariable( odp );
case TYPE_PASCAL_16:
case TYPE_PASCAL:
case TYPE_REGISTER:
case TYPE_STDCALL:
case TYPE_CDECL:
return ParseExportFunction( odp );
case TYPE_ABS:
return ParseEquate( odp );
case TYPE_RETURN:
return ParseReturn( odp );
case TYPE_STUB:
return ParseStub( odp );
case TYPE_VARARGS:
return ParseVarargs( odp );
case TYPE_EXTERN:
return ParseExtern( odp );
default:
fprintf( stderr, "Should not happen\n" );
return -1;
}
}
/*******************************************************************
* ParseTopLevel
*
* Parse a spec file.
*/
static int ParseTopLevel(void)
{
char *token;
while ((token = GetToken()) != NULL)
{
if (strcmp(token, "name") == 0)
{
strcpy(DLLName, GetToken());
strupper(DLLName);
if (!DLLFileName[0]) sprintf( DLLFileName, "%s.DLL", DLLName );
}
else if (strcmp(token, "file") == 0)
{
strcpy(DLLFileName, GetToken());
strupper(DLLFileName);
}
else if (strcmp(token, "type") == 0)
{
token = GetToken();
if (!strcmp(token, "win16" )) SpecType = SPEC_WIN16;
else if (!strcmp(token, "win32" )) SpecType = SPEC_WIN32;
else
{
fprintf(stderr, "%s:%d: Type must be 'win16' or 'win32'\n",
SpecName, Line);
return -1;
}
}
else if (strcmp(token, "heap") == 0)
{
token = GetToken();
if (!IsNumberString(token))
{
fprintf(stderr, "%s:%d: Expected number after heap\n",
SpecName, Line);
return -1;
}
DLLHeapSize = atoi(token);
}
else if (strcmp(token, "init") == 0)
{
strcpy(DLLInitFunc, GetToken());
if (!DLLInitFunc[0])
fprintf(stderr, "%s:%d: Expected function name after init\n", SpecName, Line);
else
fprintf(stderr, "InitFunc is %s\n", DLLInitFunc);
}
else if (IsNumberString(token))
{
int ordinal;
int rv;
ordinal = atoi(token);
if ((rv = ParseOrdinal(ordinal)) < 0)
return rv;
}
else
{
fprintf(stderr,
"%s:%d: Expected name, id, length or ordinal\n",
SpecName, Line);
return -1;
}
}
return 0;
}
/*******************************************************************
* StoreVariableCode
*
* Store a list of ints into a byte array.
*/
static int StoreVariableCode( unsigned char *buffer, int size, ORDDEF *odp )
{
int i;
switch(size)
{
case 1:
for (i = 0; i < odp->u.var.n_values; i++)
buffer[i] = odp->u.var.values[i];
break;
case 2:
for (i = 0; i < odp->u.var.n_values; i++)
((unsigned short *)buffer)[i] = odp->u.var.values[i];
break;
case 4:
for (i = 0; i < odp->u.var.n_values; i++)
((unsigned int *)buffer)[i] = odp->u.var.values[i];
break;
}
return odp->u.var.n_values * size;
}
/*******************************************************************
* DumpBytes
*
* Dump a byte stream into the assembly code.
*/
static void DumpBytes( FILE *outfile, const unsigned char *data, int len,
const char *section, const char *label_start )
{
int i;
if (section) fprintf( outfile, "\t%s\n", section );
if (label_start) fprintf( outfile, "%s:\n", label_start );
for (i = 0; i < len; i++)
{
if (!(i & 0x0f)) fprintf( outfile, "\t.byte " );
fprintf( outfile, "%d", *data++ );
if (i < len - 1)
fprintf( outfile, "%c", ((i & 0x0f) != 0x0f) ? ',' : '\n' );
}
fprintf( outfile, "\n" );
}
/*******************************************************************
* BuildModule16
*
* Build the in-memory representation of a 16-bit NE module, and dump it
* as a byte stream into the assembly code.
*/
static int BuildModule16( FILE *outfile, int max_code_offset,
int max_data_offset )
{
ORDDEF *odp;
int i;
char *buffer;
NE_MODULE *pModule;
SEGTABLEENTRY *pSegment;
OFSTRUCT *pFileInfo;
BYTE *pstr, *bundle;
WORD *pword;
/* Module layout:
* NE_MODULE Module
* OFSTRUCT File information
* SEGTABLEENTRY Segment 1 (code)
* SEGTABLEENTRY Segment 2 (data)
* WORD[2] Resource table (empty)
* BYTE[2] Imported names (empty)
* BYTE[n] Resident names table
* BYTE[n] Entry table
*/
buffer = xmalloc( 0x10000 );
pModule = (NE_MODULE *)buffer;
pModule->magic = IMAGE_OS2_SIGNATURE;
pModule->count = 1;
pModule->next = 0;
pModule->flags = NE_FFLAGS_SINGLEDATA | NE_FFLAGS_BUILTIN | NE_FFLAGS_LIBMODULE;
pModule->dgroup = 2;
pModule->heap_size = DLLHeapSize;
pModule->stack_size = 0;
pModule->ip = 0;
pModule->cs = 0;
pModule->sp = 0;
pModule->ss = 0;
pModule->seg_count = 2;
pModule->modref_count = 0;
pModule->nrname_size = 0;
pModule->modref_table = 0;
pModule->nrname_fpos = 0;
pModule->moveable_entries = 0;
pModule->alignment = 0;
pModule->truetype = 0;
pModule->os_flags = NE_OSFLAGS_WINDOWS;
pModule->misc_flags = 0;
pModule->dlls_to_init = 0;
pModule->nrname_handle = 0;
pModule->min_swap_area = 0;
pModule->expected_version = 0x030a;
pModule->module32 = 0;
pModule->self = 0;
pModule->self_loading_sel = 0;
/* File information */
pFileInfo = (OFSTRUCT *)(pModule + 1);
pModule->fileinfo = (int)pFileInfo - (int)pModule;
memset( pFileInfo, 0, sizeof(*pFileInfo) - sizeof(pFileInfo->szPathName) );
pFileInfo->cBytes = sizeof(*pFileInfo) - sizeof(pFileInfo->szPathName)
+ strlen(DLLFileName);
strcpy( pFileInfo->szPathName, DLLFileName );
pstr = (char *)pFileInfo + pFileInfo->cBytes + 1;
/* Segment table */
pSegment = (SEGTABLEENTRY *)pstr;
pModule->seg_table = (int)pSegment - (int)pModule;
pSegment->filepos = 0;
pSegment->size = max_code_offset;
pSegment->flags = 0;
pSegment->minsize = max_code_offset;
pSegment->hSeg = 0;
pSegment++;
pModule->dgroup_entry = (int)pSegment - (int)pModule;
pSegment->filepos = 0;
pSegment->size = max_data_offset;
pSegment->flags = NE_SEGFLAGS_DATA;
pSegment->minsize = max_data_offset;
pSegment->hSeg = 0;
pSegment++;
/* Resource table */
pword = (WORD *)pSegment;
pModule->res_table = (int)pword - (int)pModule;
*pword++ = 0;
*pword++ = 0;
/* Imported names table */
pstr = (char *)pword;
pModule->import_table = (int)pstr - (int)pModule;
*pstr++ = 0;
*pstr++ = 0;
/* Resident names table */
pModule->name_table = (int)pstr - (int)pModule;
/* First entry is module name */
*pstr = strlen(DLLName );
strcpy( pstr + 1, DLLName );
pstr += *pstr + 1;
*(WORD *)pstr = 0;
pstr += sizeof(WORD);
/* Store all ordinals */
odp = OrdinalDefinitions + 1;
for (i = 1; i <= Limit; i++, odp++)
{
if (!odp->name[0]) continue;
*pstr = strlen( odp->name );
strcpy( pstr + 1, odp->name );
strupper( pstr + 1 );
pstr += *pstr + 1;
*(WORD *)pstr = i;
pstr += sizeof(WORD);
}
*pstr++ = 0;
/* Entry table */
pModule->entry_table = (int)pstr - (int)pModule;
bundle = NULL;
odp = OrdinalDefinitions + 1;
for (i = 1; i <= Limit; i++, odp++)
{
int selector = 0;
switch (odp->type)
{
case TYPE_CDECL:
case TYPE_PASCAL:
case TYPE_PASCAL_16:
case TYPE_REGISTER:
case TYPE_RETURN:
case TYPE_STUB:
selector = 1; /* Code selector */
break;
case TYPE_BYTE:
case TYPE_WORD:
case TYPE_LONG:
selector = 2; /* Data selector */
break;
case TYPE_ABS:
selector = 0xfe; /* Constant selector */
break;
default:
selector = 0; /* Invalid selector */
break;
}
/* create a new bundle if necessary */
if (!bundle || (bundle[0] >= 254) || (bundle[1] != selector))
{
bundle = pstr;
bundle[0] = 0;
bundle[1] = selector;
pstr += 2;
}
(*bundle)++;
if (selector != 0)
{
*pstr++ = 1;
*(WORD *)pstr = odp->offset;
pstr += sizeof(WORD);
}
}
*pstr++ = 0;
/* Dump the module content */
DumpBytes( outfile, (char *)pModule, (int)pstr - (int)pModule,
".data", "Module_Start" );
return (int)pstr - (int)pModule;
}
/*******************************************************************
* BuildSpec32File
*
* Build a Win32 C file from a spec file.
*/
static int BuildSpec32File( char * specfile, FILE *outfile )
{
ORDDEF *odp;
int i, nb_names;
fprintf( outfile, "/* File generated automatically from %s; do not edit! */\n\n",
specfile );
fprintf( outfile, "#include \"builtin32.h\"\n\n" );
/* Output code for all stubs functions */
fprintf( outfile, "extern const BUILTIN32_DESCRIPTOR %s_Descriptor;\n",
DLLName );
for (i = Base, odp = OrdinalDefinitions + Base; i <= Limit; i++, odp++)
{
if (odp->type != TYPE_STUB) continue;
fprintf( outfile, "static void __stub_%d() { BUILTIN32_Unimplemented(&%s_Descriptor,%d); }\n",
i, DLLName, i );
}
/* Output code for all register functions */
fprintf( outfile, "#ifdef __i386__\n" );
for (i = Base, odp = OrdinalDefinitions + Base; i <= Limit; i++, odp++)
{
if (odp->type != TYPE_REGISTER) continue;
fprintf( outfile,
"__asm__(\".align 4\\n\\t\"\n"
" \".globl " PREFIX "%s\\n\\t\"\n"
" \".type " PREFIX "%s,@function\\n\\t\"\n"
" \"" PREFIX "%s:\\n\\t\"\n"
" \"pushl $" PREFIX "__regs_%s\\n\\t\"\n"
" \"pushl $" PREFIX "CALL32_Regs\\n\\t\"\n"
" \"ret\");\n",
odp->u.func.link_name, odp->u.func.link_name,
odp->u.func.link_name, odp->u.func.link_name );
}
fprintf( outfile, "#endif\n" );
/* Output the DLL functions prototypes */
for (i = Base, odp = OrdinalDefinitions + Base; i <= Limit; i++, odp++)
{
switch(odp->type)
{
case TYPE_VARARGS:
fprintf( outfile, "extern void %s();\n", odp->u.vargs.link_name );
break;
case TYPE_EXTERN:
fprintf( outfile, "extern void %s();\n", odp->u.ext.link_name );
break;
case TYPE_REGISTER:
case TYPE_STDCALL:
case TYPE_CDECL:
fprintf( outfile, "extern void %s();\n", odp->u.func.link_name );
break;
case TYPE_INVALID:
case TYPE_STUB:
break;
default:
fprintf(stderr,"build: function type %d not available for Win32\n",
odp->type);
return -1;
}
}
/* Output LibMain function */
if (DLLInitFunc[0]) fprintf( outfile, "extern void %s();\n", DLLInitFunc );
/* Output the DLL functions table */
fprintf( outfile, "\nstatic const ENTRYPOINT32 Functions[%d] =\n{\n",
Limit - Base + 1 );
for (i = Base, odp = OrdinalDefinitions + Base; i <= Limit; i++, odp++)
{
switch(odp->type)
{
case TYPE_INVALID:
fprintf( outfile, " 0" );
break;
case TYPE_VARARGS:
fprintf( outfile, " %s", odp->u.vargs.link_name );
break;
case TYPE_EXTERN:
fprintf( outfile, " %s", odp->u.ext.link_name );
break;
case TYPE_REGISTER:
case TYPE_STDCALL:
case TYPE_CDECL:
fprintf( outfile, " %s", odp->u.func.link_name);
break;
case TYPE_STUB:
fprintf( outfile, " __stub_%d", i );
break;
default:
return -1;
}
if (i < Limit) fprintf( outfile, ",\n" );
}
fprintf( outfile, "\n};\n\n" );
/* Output the DLL names table */
nb_names = 0;
fprintf( outfile, "static const char * const FuncNames[] =\n{\n" );
for (i = Base, odp = OrdinalDefinitions + Base; i <= Limit; i++, odp++)
{
if (odp->type == TYPE_INVALID) continue;
if (nb_names++) fprintf( outfile, ",\n" );
fprintf( outfile, " \"%s\"", odp->name );
}
fprintf( outfile, "\n};\n\n" );
/* Output the DLL argument types */
fprintf( outfile, "static const unsigned int ArgTypes[%d] =\n{\n",
Limit - Base + 1 );
for (i = Base, odp = OrdinalDefinitions + Base; i <= Limit; i++, odp++)
{
unsigned int j, mask = 0;
if ((odp->type == TYPE_STDCALL) || (odp->type == TYPE_CDECL))
for (j = 0; odp->u.func.arg_types[j]; j++)
{
if (odp->u.func.arg_types[j] == 't') mask |= 1<< (j*2);
if (odp->u.func.arg_types[j] == 'W') mask |= 2<< (j*2);
}
fprintf( outfile, " %d", mask );
if (i < Limit) fprintf( outfile, ",\n" );
}
fprintf( outfile, "\n};\n\n" );
/* Output the DLL ordinals table */
fprintf( outfile, "static const unsigned short FuncOrdinals[] =\n{\n" );
nb_names = 0;
for (i = Base, odp = OrdinalDefinitions + Base; i <= Limit; i++, odp++)
{
if (odp->type == TYPE_INVALID) continue;
if (nb_names++) fprintf( outfile, ",\n" );
fprintf( outfile, " %d", i - Base );
}
fprintf( outfile, "\n};\n\n" );
/* Output the DLL functions arguments */
fprintf( outfile, "static const unsigned char FuncArgs[%d] =\n{\n",
Limit - Base + 1 );
for (i = Base, odp = OrdinalDefinitions + Base; i <= Limit; i++, odp++)
{
unsigned char args;
switch(odp->type)
{
case TYPE_STDCALL:
args = (unsigned char)strlen(odp->u.func.arg_types);
break;
case TYPE_CDECL:
args = 0x80 | (unsigned char)strlen(odp->u.func.arg_types);
break;
case TYPE_REGISTER:
args = 0xfe;
break;
default:
args = 0xff;
break;
}
fprintf( outfile, " 0x%02x", args );
if (i < Limit) fprintf( outfile, ",\n" );
}
fprintf( outfile, "\n};\n\n" );
/* Output the DLL descriptor */
fprintf( outfile, "const BUILTIN32_DESCRIPTOR %s_Descriptor =\n{\n",
DLLName );
fprintf( outfile, " \"%s\",\n", DLLName );
fprintf( outfile, " %d,\n", Base );
fprintf( outfile, " %d,\n", Limit - Base + 1 );
fprintf( outfile, " %d,\n", nb_names );
fprintf( outfile,
" Functions,\n"
" FuncNames,\n"
" FuncOrdinals,\n"
" FuncArgs,\n"
" ArgTypes,\n");
fprintf( outfile, " %s\n", DLLInitFunc[0] ? DLLInitFunc : "0" );
fprintf( outfile, "};\n" );
return 0;
}
/*******************************************************************
* BuildSpec16File
*
* Build a Win16 assembly file from a spec file.
*/
static int BuildSpec16File( char * specfile, FILE *outfile )
{
ORDDEF *odp;
int i;
int code_offset, data_offset, module_size;
unsigned char *data;
data = (unsigned char *)xmalloc( 0x10000 );
memset( data, 0, 16 );
data_offset = 16;
fprintf( outfile, "/* File generated automatically; do not edit! */\n" );
fprintf( outfile, "\t.text\n" );
fprintf( outfile, "Code_Start:\n" );
code_offset = 0;
odp = OrdinalDefinitions;
for (i = 0; i <= Limit; i++, odp++)
{
switch (odp->type)
{
case TYPE_INVALID:
odp->offset = 0xffff;
break;
case TYPE_ABS:
odp->offset = LOWORD(odp->u.abs.value);
break;
case TYPE_BYTE:
odp->offset = data_offset;
data_offset += StoreVariableCode( data + data_offset, 1, odp);
break;
case TYPE_WORD:
odp->offset = data_offset;
data_offset += StoreVariableCode( data + data_offset, 2, odp);
break;
case TYPE_LONG:
odp->offset = data_offset;
data_offset += StoreVariableCode( data + data_offset, 4, odp);
break;
case TYPE_RETURN:
fprintf( outfile,"/* %s.%d */\n", DLLName, i);
fprintf( outfile,"\tmovw $%d,%%ax\n",LOWORD(odp->u.ret.ret_value));
fprintf( outfile,"\tmovw $%d,%%dx\n",HIWORD(odp->u.ret.ret_value));
fprintf( outfile,"\t.byte 0x66\n");
if (odp->u.ret.arg_size != 0)
fprintf( outfile, "\tlret $%d\n\n", odp->u.ret.arg_size);
else
{
fprintf( outfile, "\tlret\n");
fprintf( outfile, "\tnop\n");
fprintf( outfile, "\tnop\n\n");
}
odp->offset = code_offset;
code_offset += 12; /* Assembly code is 12 bytes long */
break;
case TYPE_REGISTER:
case TYPE_CDECL:
case TYPE_PASCAL:
case TYPE_PASCAL_16:
case TYPE_STUB:
fprintf( outfile, "/* %s.%d */\n", DLLName, i);
fprintf( outfile, "\tpushw %%bp\n" );
fprintf( outfile, "\tpushl $" PREFIX "%s\n",odp->u.func.link_name);
/* FreeBSD does not understand lcall, so do it the hard way */
fprintf( outfile, "\t.byte 0x9a\n" );
fprintf( outfile, "\t.long " PREFIX "CallFrom16_%s_%s_%s\n",
(odp->type == TYPE_CDECL) ? "c" : "p",
(odp->type == TYPE_REGISTER) ? "regs" :
(odp->type == TYPE_PASCAL_16) ? "word" : "long",
odp->u.func.arg_types );
fprintf( outfile, "\t.long 0x%08lx\n",
MAKELONG( Code_Selector, 0x9090 /* nop ; nop */ ) );
odp->offset = code_offset;
code_offset += 16; /* Assembly code is 16 bytes long */
break;
default:
fprintf(stderr,"build: function type %d not available for Win16\n",
odp->type);
return -1;
}
}
if (!code_offset) /* Make sure the code segment is not empty */
{
fprintf( outfile, "\t.byte 0\n" );
code_offset++;
}
/* Output data segment */
DumpBytes( outfile, data, data_offset, NULL, "Data_Start" );
/* Build the module */
module_size = BuildModule16( outfile, code_offset, data_offset );
/* Output the DLL descriptor */
fprintf( outfile, "\t.text\n" );
fprintf( outfile, "DLLName:\t" STRING " \"%s\\0\"\n", DLLName );
fprintf( outfile, "\t.align 4\n" );
fprintf( outfile, "\t.globl " PREFIX "%s_Descriptor\n", DLLName );
fprintf( outfile, PREFIX "%s_Descriptor:\n", DLLName );
fprintf( outfile, "\t.long DLLName\n" ); /* Name */
fprintf( outfile, "\t.long Module_Start\n" ); /* Module start */
fprintf( outfile, "\t.long %d\n", module_size ); /* Module size */
fprintf( outfile, "\t.long Code_Start\n" ); /* Code start */
fprintf( outfile, "\t.long Data_Start\n" ); /* Data start */
return 0;
}
/*******************************************************************
* BuildSpecFile
*
* Build an assembly file from a spec file.
*/
static int BuildSpecFile( FILE *outfile, char *specname )
{
SpecName = specname;
SpecFp = fopen( specname, "r");
if (SpecFp == NULL)
{
fprintf(stderr, "Could not open specification file, '%s'\n", specname);
return -1;
}
if (ParseTopLevel() < 0) return -1;
switch(SpecType)
{
case SPEC_WIN16:
return BuildSpec16File( specname, outfile );
case SPEC_WIN32:
return BuildSpec32File( specname, outfile );
default:
fprintf( stderr, "%s: Missing 'type' declaration\n", specname );
return -1;
}
}
/*******************************************************************
* TransferArgs16To32
*
* Get the arguments from the 16-bit stack and push them on the 32-bit stack.
* The 16-bit stack layout is:
* ... ...
* (bp+8) arg2
* (bp+6) arg1
* (bp+4) cs
* (bp+2) ip
* (bp) bp
*
* For 'cdecl' argn up to arg1 are reversed.
*/
static int TransferArgs16To32( FILE *outfile, char *args, int usecdecl )
{
int i, pos16, pos32;
char *xargs;
/* Copy the arguments */
pos16 = 6; /* skip bp and return address */
pos32 = usecdecl ? -(strlen(args) * 4) : 0;
xargs = usecdecl ? args:args+strlen(args);
for (i = strlen(args); i > 0; i--)
{
if (!usecdecl) {
pos32 -= 4;
xargs--;
}
switch(*xargs)
{
case 'w': /* word */
fprintf( outfile, "\tmovzwl %d(%%ebp),%%eax\n", pos16 );
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n", pos32 );
pos16 += 2;
break;
case 's': /* s_word */
fprintf( outfile, "\tmovswl %d(%%ebp),%%eax\n", pos16 );
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n", pos32 );
pos16 += 2;
break;
case 'l': /* long or segmented pointer */
case 'T': /* segmented pointer to null-terminated string */
fprintf( outfile, "\tmovl %d(%%ebp),%%eax\n", pos16 );
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n", pos32 );
pos16 += 4;
break;
case 'p': /* linear pointer */
case 't': /* linear pointer to null-terminated string */
/* Get the selector */
fprintf( outfile, "\tmovw %d(%%ebp),%%ax\n", pos16 + 2 );
/* Get the selector base */
fprintf( outfile, "\tandl $0xfff8,%%eax\n" );
fprintf( outfile, "\tmovl " PREFIX "ldt_copy(%%eax),%%eax\n" );
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n", pos32 );
/* Add the offset */
fprintf( outfile, "\tmovzwl %d(%%ebp),%%eax\n", pos16 );
fprintf( outfile, "\taddl %%eax,%d(%%ebx)\n", pos32 );
pos16 += 4;
break;
default:
fprintf( stderr, "Unknown arg type '%c'\n", *xargs );
}
if (usecdecl) {
pos32 += 4;
xargs++;
}
}
return pos16 - 6; /* Return the size of the 16-bit args */
}
/*******************************************************************
* BuildContext16
*
* Build the context structure on the 32-bit stack.
*/
static void BuildContext16( FILE *outfile )
{
/* Store the registers */
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n",
CONTEXTOFFSET(Eax) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovl %%ecx,%d(%%ebx)\n",
CONTEXTOFFSET(Ecx) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovl %%edx,%d(%%ebx)\n",
CONTEXTOFFSET(Edx) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovl %%esi,%d(%%ebx)\n",
CONTEXTOFFSET(Esi) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovl %%edi,%d(%%ebx)\n",
CONTEXTOFFSET(Edi) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovl -24(%%ebp),%%eax\n" ); /* Get %ebx from stack*/
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n",
CONTEXTOFFSET(Ebx) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovzwl -10(%%ebp),%%eax\n" ); /* Get %ds from stack*/
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n",
CONTEXTOFFSET(SegDs) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovzwl -6(%%ebp),%%eax\n" ); /* Get %es from stack*/
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n",
CONTEXTOFFSET(SegEs) - sizeof(CONTEXT) );
fprintf( outfile, "\tpushfl\n" );
fprintf( outfile, "\tpopl %d(%%ebx)\n",
CONTEXTOFFSET(EFlags) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovl -20(%%ebp),%%eax\n" ); /* Get %ebp from stack */
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n",
CONTEXTOFFSET(Ebp) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovzwl 2(%%ebp),%%eax\n" ); /* Get %ip from stack */
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n",
CONTEXTOFFSET(Eip) - sizeof(CONTEXT) );
fprintf( outfile, "\tleal 2(%%ebp),%%eax\n" ); /* Get initial %sp */
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n",
CONTEXTOFFSET(Esp) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovzwl 4(%%ebp),%%eax\n" ); /* Get %cs from stack */
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n",
CONTEXTOFFSET(SegCs) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovzwl -14(%%ebp),%%eax\n" ); /* Get %fs from stack */
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n",
CONTEXTOFFSET(SegFs) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovw %%gs,%%ax\n" );
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n",
CONTEXTOFFSET(SegGs) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovw %%ss,%%ax\n" );
fprintf( outfile, "\tmovl %%eax,%d(%%ebx)\n",
CONTEXTOFFSET(SegSs) - sizeof(CONTEXT) );
#if 0
fprintf( outfile, "\tfsave %d(%%ebx)\n",
CONTEXTOFFSET(FloatSave) - sizeof(CONTEXT) );
#endif
}
/*******************************************************************
* RestoreContext16
*
* Restore the registers from the context structure.
*/
static void RestoreContext16( FILE *outfile )
{
/* Get the 32-bit stack pointer */
fprintf( outfile, "\tleal -%d(%%ebp),%%ebx\n",
STRUCTOFFSET(STACK32FRAME,ebp) );
/* Remove everything up to (including) the return address
* from the 16-bit stack */
fprintf( outfile, "\tmovl %d(%%ebx),%%eax\n",
CONTEXTOFFSET(SegSs) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovw %%ax,%%ss\n" );
fprintf( outfile, "\tmovl %d(%%ebx),%%esp\n",
CONTEXTOFFSET(Esp) - sizeof(CONTEXT) );
fprintf( outfile, "\taddl $4,%%esp\n" ); /* Remove return address */
/* Restore the registers */
fprintf( outfile, "\tmovl %d(%%ebx),%%ecx\n",
CONTEXTOFFSET(Ecx) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovl %d(%%ebx),%%edx\n",
CONTEXTOFFSET(Edx) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovl %d(%%ebx),%%esi\n",
CONTEXTOFFSET(Esi) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovl %d(%%ebx),%%edi\n",
CONTEXTOFFSET(Edi) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovl %d(%%ebx),%%ebp\n",
CONTEXTOFFSET(Ebp) - sizeof(CONTEXT) );
fprintf( outfile, "\tpushw %d(%%ebx)\n", /* Push new cs */
CONTEXTOFFSET(SegCs) - sizeof(CONTEXT) );
fprintf( outfile, "\tpushw %d(%%ebx)\n", /* Push new ip */
CONTEXTOFFSET(Eip) - sizeof(CONTEXT) );
fprintf( outfile, "\tpushl %d(%%ebx)\n", /* Push new ds */
CONTEXTOFFSET(SegDs) - sizeof(CONTEXT) );
fprintf( outfile, "\tpushl %d(%%ebx)\n", /* Push new es */
CONTEXTOFFSET(SegEs) - sizeof(CONTEXT) );
fprintf( outfile, "\tpushl %d(%%ebx)\n", /* Push new fs */
CONTEXTOFFSET(SegFs) - sizeof(CONTEXT) );
fprintf( outfile, "\tpushl %d(%%ebx)\n",
CONTEXTOFFSET(EFlags) - sizeof(CONTEXT) );
fprintf( outfile, "\tpopfl\n" );
fprintf( outfile, "\tmovl %d(%%ebx),%%eax\n",
CONTEXTOFFSET(Eax) - sizeof(CONTEXT) );
fprintf( outfile, "\tmovl %d(%%ebx),%%ebx\n",
CONTEXTOFFSET(Ebx) - sizeof(CONTEXT) );
fprintf( outfile, "\tpopl %%fs\n" ); /* Set fs */
fprintf( outfile, "\tpopl %%es\n" ); /* Set es */
fprintf( outfile, "\tpopl %%ds\n" ); /* Set ds */
}
/*******************************************************************
* BuildCallFrom16Func
*
* Build a 16-bit-to-Wine callback function. The syntax of the function
* profile is: call_type_xxxxx, where 'call' is the letter 'c' or 'p' for C or
* Pascal calling convention, 'type' is one of 'regs', 'word' or
* 'long' and each 'x' is an argument ('w'=word, 's'=signed word,
* 'l'=long, 'p'=linear pointer, 't'=linear pointer to null-terminated string,
* 'T'=segmented pointer to null-terminated string).
* For register functions, the arguments are ignored, but they are still
* removed from the stack upon return.
*
* A special variant of the callback function is generated by the function
* profile "t_long_". This is used by the Win95 16->32 thunk
* functions C16ThkSL and C16ThkSL01 and is implemented as follows:
* On entry, the EBX register is set up to contain a flat pointer to the
* 16-bit stack such that EBX+22 points to the first argument.
* Then, the entry point is called, while EBP is set up to point
* to the return address (on the 32-bit stack).
* The called function returns with CX set to the number of bytes
* to be popped of the caller's stack.
*
* Stack layout upon entry to the callback function:
* ... ...
* (sp+18) word first 16-bit arg
* (sp+16) word cs
* (sp+14) word ip
* (sp+12) word bp
* (sp+8) long 32-bit entry point (used to store edx)
* (sp+6) word high word of cs (always 0, used to store es)
* (sp+4) word low word of cs of 16-bit entry point
* (sp+2) word high word of ip (always 0, used to store ds)
* (sp) word low word of ip of 16-bit entry point
*
* Added on the stack:
* (sp-2) word saved fs
* (sp-4) word buffer for Win16Mutex recursion count
* (sp-8) long ebp
* (sp-12) long saved previous stack
*/
static void BuildCallFrom16Func( FILE *outfile, char *profile )
{
int argsize = 0;
int short_ret = 0;
int reg_func = 0;
int cdecl = 0;
int thunk = 0;
char *args = profile + 7;
/* Parse function type */
if (!strncmp( "c_", profile, 2 )) cdecl = 1;
else if (!strncmp( "t_", profile, 2 )) thunk = 1;
else if (strncmp( "p_", profile, 2 ))
{
fprintf( stderr, "Invalid function name '%s', ignored\n", profile );
return;
}
if (!strncmp( "word_", profile + 2, 5 )) short_ret = 1;
else if (!strncmp( "regs_", profile + 2, 5 )) reg_func = 1;
else if (strncmp( "long_", profile + 2, 5 ))
{
fprintf( stderr, "Invalid function name '%s', ignored\n", profile );
return;
}
/* Function header */
fprintf( outfile, "\n\t.align 4\n" );
#ifdef USE_STABS
fprintf( outfile, ".stabs \"CallFrom16_%s:F1\",36,0,0," PREFIX "CallFrom16_%s\n",
profile, profile);
#endif
fprintf( outfile, "\t.globl " PREFIX "CallFrom16_%s\n", profile );
fprintf( outfile, PREFIX "CallFrom16_%s:\n", profile );
/* Save 16-bit fs and leave room for Win16Mutex recursion count */
fprintf( outfile, "\t.byte 0x66\n\tpushl %%fs\n" );
fprintf( outfile, "\tpushw $0\n" );
/* Setup bp to point to its copy on the stack */
fprintf( outfile, "\tpushl %%ebp\n" ); /* Save the full 32-bit ebp */
fprintf( outfile, "\tmovzwl %%sp,%%ebp\n" );
fprintf( outfile, "\taddw $20,%%bp\n" );
/* Save 16-bit ds and es */
/* Stupid FreeBSD assembler doesn't know these either */
/* fprintf( outfile, "\tmovw %%ds,-10(%%ebp)\n" ); */
fprintf( outfile, "\t.byte 0x66,0x8c,0x5d,0xf6\n" );
/* fprintf( outfile, "\tmovw %%es,-6(%%ebp)\n" ); */
fprintf( outfile, "\t.byte 0x66,0x8c,0x45,0xfa\n" );
/* Save %ebx */
fprintf( outfile, "\tpushl %%ebx\n" );
/* Restore 32-bit segment registers */
fprintf( outfile, "\tmovw $0x%04x,%%bx\n", Data_Selector );
#ifdef __svr4__
fprintf( outfile, "\tdata16\n");
#endif
fprintf( outfile, "\tmovw %%bx,%%ds\n" );
#ifdef __svr4__
fprintf( outfile, "\tdata16\n");
#endif
fprintf( outfile, "\tmovw %%bx,%%es\n" );
fprintf( outfile, "\tmovw " PREFIX "SYSLEVEL_Win16CurrentTeb,%%fs\n" );
/* Get the 32-bit stack pointer from the TEB */
fprintf( outfile, "\t.byte 0x64\n\tmovl (%d),%%ebx\n", STACKOFFSET );
/* Save the 16-bit stack */
#ifdef __svr4__
fprintf( outfile,"\tdata16\n");
#endif
fprintf( outfile, "\t.byte 0x64\n\tmovw %%ss,(%d)\n", STACKOFFSET + 2 );
fprintf( outfile, "\t.byte 0x64\n\tmovw %%sp,(%d)\n", STACKOFFSET );
/* Transfer the arguments */
if (reg_func) BuildContext16( outfile );
else if (*args) argsize = TransferArgs16To32( outfile, args, cdecl );
else if (thunk)
{
/* Get the stack selector base */
fprintf( outfile, "\tmovw %%ss,%%ax\n" );
fprintf( outfile, "\tandl $0xfff8,%%eax\n" );
fprintf( outfile, "\tmovl " PREFIX "ldt_copy(%%eax),%%eax\n" );
fprintf( outfile, "\tmovl %%eax,-24(%%ebp)\n" );
/* Add the offset */
fprintf( outfile, "\tleal -16(%%ebp),%%eax\n" );
fprintf( outfile, "\taddl %%eax,-24(%%ebp)\n" );
}
/* Get the address of the API function */
fprintf( outfile, "\tmovl -4(%%ebp),%%eax\n" );
/* If necessary, save %edx over the API function address */
if (!reg_func && short_ret)
fprintf( outfile, "\tmovl %%edx,-4(%%ebp)\n" );
/* Restore %ebx and store the 32-bit stack pointer instead */
fprintf( outfile, "\tmovl %%ebx,%%ebp\n" );
fprintf( outfile, "\tpopl %%ebx\n" );
fprintf( outfile, "\tpushl %%ebp\n" );
/* Switch to the 32-bit stack */
fprintf( outfile, "\tpushl %%ds\n" );
fprintf( outfile, "\tpopl %%ss\n" );
fprintf( outfile, "\tleal -%d(%%ebp),%%esp\n",
reg_func ? sizeof(CONTEXT) : 4 * strlen(args) );
if (reg_func) /* Push the address of the context struct */
fprintf( outfile, "\tpushl %%esp\n" );
/* Setup %ebp to point to the previous stack frame (built by CallTo16) */
fprintf( outfile, "\taddl $%d,%%ebp\n", STRUCTOFFSET(STACK32FRAME,ebp) );
/* Print the debug information before the call */
if (debugging && !thunk)
{
int ftype = 0;
if (cdecl) ftype |= 4;
if (reg_func) ftype |= 2;
if (short_ret) ftype |= 1;
fprintf( outfile, "\tpushl %%eax\n" );
fprintf( outfile, "\tpushl $Profile_%s\n", profile );
fprintf( outfile, "\tpushl $%d\n", ftype );
fprintf( outfile, "\tcall " PREFIX "RELAY_DebugCallFrom16\n" );
fprintf( outfile, "\tpopl %%eax\n" );
fprintf( outfile, "\tpopl %%eax\n" );
fprintf( outfile, "\tpopl %%eax\n" );
}
/* Call the entry point */
if (thunk)
{
fprintf( outfile, "\tpushl %%ebp\n" );
fprintf( outfile, "\tleal -4(%%esp), %%ebp\n" );
fprintf( outfile, "\tcall *%%eax\n" );
fprintf( outfile, "\tpopl %%ebp\n" );
}
else
fprintf( outfile, "\tcall *%%eax\n" );
/* Print the debug information after the call */
if (debugging && !thunk)
{
if (reg_func)
{
/* Push again the address of the context struct in case */
/* it has been removed by an stdcall function */
fprintf( outfile, "\tleal -%d(%%ebp),%%esp\n",
sizeof(CONTEXT) + STRUCTOFFSET(STACK32FRAME,ebp) );
fprintf( outfile, "\tpushl %%esp\n" );
}
fprintf( outfile, "\tpushl %%eax\n" );
fprintf( outfile, "\tpushl $%d\n", reg_func ? 2 : (short_ret ? 1 : 0));
fprintf( outfile, "\tcall " PREFIX "RELAY_DebugCallFrom16Ret\n" );
fprintf( outfile, "\tpopl %%eax\n" );
fprintf( outfile, "\tpopl %%eax\n" );
}
/* Restore the 16-bit stack */
#ifdef __svr4__
fprintf( outfile, "\tdata16\n");
#endif
fprintf( outfile, "\t.byte 0x64\n\tmovw (%d),%%ss\n", STACKOFFSET + 2 );
fprintf( outfile, "\t.byte 0x64\n\tmovw (%d),%%sp\n", STACKOFFSET );
fprintf( outfile, "\t.byte 0x64\n\tpopl (%d)\n", STACKOFFSET );
if (reg_func)
{
/* Calc the arguments size */
while (*args)
{
switch(*args)
{
case 'w':
case 's':
argsize += 2;
break;
case 'p':
case 't':
case 'l':
case 'T':
argsize += 4;
break;
default:
fprintf( stderr, "Unknown arg type '%c'\n", *args );
}
args++;
}
/* Restore registers from the context structure */
RestoreContext16( outfile );
}
else
{
/* Restore high 16 bits of ebp */
fprintf( outfile, "\tpopl %%ebp\n" );
/* Restore ds and es */
fprintf( outfile, "\tincl %%esp\n" ); /* Remove mutex count */
fprintf( outfile, "\tincl %%esp\n" );
fprintf( outfile, "\tpopl %%edx\n" ); /* Remove ip and fs */
fprintf( outfile, "\tmovw %%dx,%%fs\n" ); /* and restore fs */
fprintf( outfile, "\tpopl %%edx\n" ); /* Remove cs and ds */
fprintf( outfile, "\tmovw %%dx,%%ds\n" ); /* and restore ds */
fprintf( outfile, "\t.byte 0x66\n\tpopl %%es\n" ); /* Restore es */
if (short_ret) fprintf( outfile, "\tpopl %%edx\n" ); /* Restore edx */
else
{
/* Get the return value into dx:ax */
fprintf( outfile, "\tmovl %%eax,%%edx\n" );
fprintf( outfile, "\tshrl $16,%%edx\n" );
/* Remove API entry point */
fprintf( outfile, "\taddl $4,%%esp\n" );
}
/* Restore low 16 bits of ebp */
fprintf( outfile, "\tpopw %%bp\n" );
}
/* Remove the arguments and return */
if (thunk)
{
fprintf( outfile, "\tpopl %%ebx\n" );
fprintf( outfile, "\txorb %%ch,%%ch\n" );
fprintf( outfile, "\taddw %%cx, %%sp\n" );
fprintf( outfile, "\tpushl %%ebx\n" );
fprintf( outfile, "\t.byte 0x66\n" );
fprintf( outfile, "\tlret\n" );
}
else if (argsize && !cdecl)
{
fprintf( outfile, "\t.byte 0x66\n" );
fprintf( outfile, "\tlret $%d\n", argsize );
}
else
{
fprintf( outfile, "\t.byte 0x66\n" );
fprintf( outfile, "\tlret\n" );
}
}
/*******************************************************************
* BuildCallTo16Func
*
* Build a Wine-to-16-bit callback function.
*
* Stack frame of the callback function:
* ... ...
* (ebp+16) arg2
* (ebp+12) arg1
* (ebp+8) func to call
* (ebp+4) return address
* (ebp) previous ebp
*
* Prototypes for the CallTo16 functions:
* extern WINAPI WORD CallTo16_word_xxx( FARPROC16 func, args... );
* extern WINAPI LONG CallTo16_long_xxx( FARPROC16 func, args... );
* extern WINAPI void CallTo16_sreg_( const CONTEXT *context, int nb_args );
* extern WINAPI void CallTo16_lreg_( const CONTEXT *context, int nb_args );
*/
static void BuildCallTo16Func( FILE *outfile, char *profile )
{
int short_ret = 0;
int reg_func = 0;
char *args = profile + 5;
if (!strncmp( "word_", profile, 5 )) short_ret = 1;
else if (!strncmp( "sreg_", profile, 5 )) reg_func = 1;
else if (!strncmp( "lreg_", profile, 5 )) reg_func = 2;
else if (strncmp( "long_", profile, 5 ))
{
fprintf( stderr, "Invalid function name '%s'.\n", profile );
exit(1);
}
/* Function header */
fprintf( outfile, "\n\t.align 4\n" );
#ifdef USE_STABS
fprintf( outfile, ".stabs \"CallTo16_%s:F1\",36,0,0," PREFIX "CallTo16_%s\n",
profile, profile);
#endif
fprintf( outfile, "\t.globl " PREFIX "CallTo16_%s\n", profile );
fprintf( outfile, PREFIX "CallTo16_%s:\n", profile );
/* Entry code */
fprintf( outfile, "\tpushl %%ebp\n" );
fprintf( outfile, "\tmovl %%esp,%%ebp\n" );
/* Save the 32-bit registers */
fprintf( outfile, "\tpushl %%ebx\n" );
fprintf( outfile, "\tpushl %%ecx\n" );
fprintf( outfile, "\tpushl %%edx\n" );
fprintf( outfile, "\tpushl %%esi\n" );
fprintf( outfile, "\tpushl %%edi\n" );
/* Enter Win16 Mutex */
fprintf( outfile, "\tcall " PREFIX "SYSLEVEL_EnterWin16Lock\n" );
/* Print debugging info */
if (debugging)
{
/* Push the address of the first argument */
fprintf( outfile, "\tleal 8(%%ebp),%%eax\n" );
fprintf( outfile, "\tpushl $%d\n", reg_func ? -1 : strlen(args) );
fprintf( outfile, "\tpushl %%eax\n" );
fprintf( outfile, "\tcall " PREFIX "RELAY_DebugCallTo16\n" );
fprintf( outfile, "\tpopl %%eax\n" );
fprintf( outfile, "\tpopl %%eax\n" );
}
/* Call the actual CallTo16 routine (simulate a lcall) */
fprintf( outfile, "\tpushl %%cs\n" );
fprintf( outfile, "\tcall do_callto16_%s\n", profile );
fprintf( outfile, "\tpushl %%eax\n" );
/* Print debugging info */
if (debugging)
{
fprintf( outfile, "\tpushl %%eax\n" );
fprintf( outfile, "\tcall " PREFIX "RELAY_DebugCallTo16Ret\n" );
fprintf( outfile, "\tpopl %%eax\n" );
}
/* Leave Win16 Mutex */
fprintf( outfile, "\tcall " PREFIX "SYSLEVEL_LeaveWin16Lock\n" );
/* Restore the 32-bit registers */
fprintf( outfile, "\tpopl %%eax\n" );
fprintf( outfile, "\tpopl %%edi\n" );
fprintf( outfile, "\tpopl %%esi\n" );
fprintf( outfile, "\tpopl %%edx\n" );
fprintf( outfile, "\tpopl %%ecx\n" );
fprintf( outfile, "\tpopl %%ebx\n" );
/* Exit code */
#if 0
/* FIXME: this is a hack because of task.c */
if (!strcmp( profile, "word_" ))
{
fprintf( outfile, ".globl " PREFIX "CALLTO16_Restore\n" );
fprintf( outfile, PREFIX "CALLTO16_Restore:\n" );
}
#endif
fprintf( outfile, "\tpopl %%ebp\n" );
fprintf( outfile, "\tret $%d\n", 4 * strlen(args) + 4 );
/* Start of the actual CallTo16 routine */
fprintf( outfile, "do_callto16_%s:\n", profile );
/* Save the 32-bit stack */
fprintf( outfile, "\t.byte 0x64\n\tpushl (%d)\n", STACKOFFSET );
fprintf( outfile, "\tmovl %%ebp,%%ebx\n" );
fprintf( outfile, "\tmovl %%esp,%%edx\n" );
if (reg_func)
{
/* Switch to the 16-bit stack, saving the current %%esp, */
/* and adding the specified offset to the new sp */
fprintf( outfile, "\t.byte 0x64\n\tmovzwl (%d),%%eax\n", STACKOFFSET );
fprintf( outfile, "\tsubl 12(%%ebx),%%eax\n" ); /* Get the offset */
#ifdef __svr4__
fprintf( outfile,"\tdata16\n");
#endif
fprintf( outfile, "\t.byte 0x64\n\tmovw (%d),%%ss\n", STACKOFFSET + 2);
fprintf( outfile, "\tmovl %%eax,%%esp\n" );
fprintf( outfile, "\t.byte 0x64\n\tmovl %%edx,(%d)\n", STACKOFFSET );
/* Get the registers. ebx is handled later on. */
fprintf( outfile, "\tmovl 8(%%ebx),%%ebx\n" );
fprintf( outfile, "\tmovl %d(%%ebx),%%eax\n", CONTEXTOFFSET(SegEs) );
fprintf( outfile, "\tmovw %%ax,%%es\n" );
fprintf( outfile, "\tmovl %d(%%ebx),%%eax\n", CONTEXTOFFSET(SegFs) );
fprintf( outfile, "\tmovw %%ax,%%fs\n" );
fprintf( outfile, "\tmovl %d(%%ebx),%%ebp\n", CONTEXTOFFSET(Ebp) );
fprintf( outfile, "\tmovl %d(%%ebx),%%eax\n", CONTEXTOFFSET(Eax) );
fprintf( outfile, "\tmovl %d(%%ebx),%%ecx\n", CONTEXTOFFSET(Ecx) );
fprintf( outfile, "\tmovl %d(%%ebx),%%edx\n", CONTEXTOFFSET(Edx) );
fprintf( outfile, "\tmovl %d(%%ebx),%%esi\n", CONTEXTOFFSET(Esi) );
fprintf( outfile, "\tmovl %d(%%ebx),%%edi\n", CONTEXTOFFSET(Edi) );
/* Push the return address
* With sreg suffix, we push 16:16 address (normal lret)
* With lreg suffix, we push 16:32 address (0x66 lret, for KERNEL32_45)
*/
if (reg_func == 1)
fprintf( outfile, "\tpushl " PREFIX "CALLTO16_RetAddr_long\n" );
else
{
fprintf( outfile, "\tpushw $0\n" );
fprintf( outfile, "\tpushw " PREFIX "CALLTO16_RetAddr_eax+2\n" );
fprintf( outfile, "\tpushw $0\n" );
fprintf( outfile, "\tpushw " PREFIX "CALLTO16_RetAddr_eax\n" );
}
/* Push the called routine address */
fprintf( outfile, "\tpushw %d(%%ebx)\n", CONTEXTOFFSET(SegCs) );
fprintf( outfile, "\tpushw %d(%%ebx)\n", CONTEXTOFFSET(Eip) );
/* Get the 16-bit ds */
fprintf( outfile, "\tpushl %d(%%ebx)\n", CONTEXTOFFSET(SegDs) );
/* Get ebx from the 32-bit stack */
fprintf( outfile, "\tmovl %d(%%ebx),%%ebx\n", CONTEXTOFFSET(Ebx) );
fprintf( outfile, "\tpopl %%ds\n" );
}
else /* not a register function */
{
int pos = 12; /* first argument position */
/* Switch to the 16-bit stack */
#ifdef __svr4__
fprintf( outfile,"\tdata16\n");
#endif
fprintf( outfile, "\t.byte 0x64\n\tmovw (%d),%%ss\n", STACKOFFSET + 2);
fprintf( outfile, "\t.byte 0x64\n\tmovw (%d),%%sp\n", STACKOFFSET );
fprintf( outfile, "\t.byte 0x64\n\tmovl %%edx,(%d)\n", STACKOFFSET );
/* Make %bp point to the previous stackframe (built by CallFrom16) */
fprintf( outfile, "\tmovzwl %%sp,%%ebp\n" );
fprintf( outfile, "\tleal %d(%%ebp),%%ebp\n",
STRUCTOFFSET(STACK16FRAME,bp) );
/* Transfer the arguments */
while (*args)
{
switch(*args++)
{
case 'w': /* word */
fprintf( outfile, "\tpushw %d(%%ebx)\n", pos );
break;
case 'l': /* long */
fprintf( outfile, "\tpushl %d(%%ebx)\n", pos );
break;
default:
fprintf( stderr, "Unexpected case '%c' in BuildCallTo16Func\n",
args[-1] );
}
pos += 4;
}
/* Push the return address */
fprintf( outfile, "\tpushl " PREFIX "CALLTO16_RetAddr_%s\n",
short_ret ? "word" : "long" );
/* Push the called routine address */
fprintf( outfile, "\tpushl 8(%%ebx)\n" );
/* Set %fs to the value saved by the last CallFrom16 */
fprintf( outfile, "\tmovw -14(%%ebp),%%ax\n" );
fprintf( outfile, "\tmovw %%ax,%%fs\n" );
/* Set %ds and %es (and %ax just in case) equal to %ss */
fprintf( outfile, "\tmovw %%ss,%%ax\n" );
fprintf( outfile, "\tmovw %%ax,%%ds\n" );
fprintf( outfile, "\tmovw %%ax,%%es\n" );
}
/* Jump to the called routine */
fprintf( outfile, "\t.byte 0x66\n" );
fprintf( outfile, "\tlret\n" );
}
/*******************************************************************
* BuildRet16Func
*
* Build the return code for 16-bit callbacks
*/
static void BuildRet16Func( FILE *outfile )
{
fprintf( outfile, "\t.globl " PREFIX "CALLTO16_Ret_word\n" );
fprintf( outfile, "\t.globl " PREFIX "CALLTO16_Ret_long\n" );
fprintf( outfile, "\t.globl " PREFIX "CALLTO16_Ret_eax\n" );
fprintf( outfile, PREFIX "CALLTO16_Ret_word:\n" );
fprintf( outfile, "\txorl %%edx,%%edx\n" );
/* Put return value into %eax */
fprintf( outfile, PREFIX "CALLTO16_Ret_long:\n" );
fprintf( outfile, "\tshll $16,%%edx\n" );
fprintf( outfile, "\tmovw %%ax,%%dx\n" );
fprintf( outfile, "\tmovl %%edx,%%eax\n" );
fprintf( outfile, PREFIX "CALLTO16_Ret_eax:\n" );
/* Restore 32-bit segment registers */
fprintf( outfile, "\tmovw $0x%04x,%%bx\n", Data_Selector );
#ifdef __svr4__
fprintf( outfile, "\tdata16\n");
#endif
fprintf( outfile, "\tmovw %%bx,%%ds\n" );
#ifdef __svr4__
fprintf( outfile, "\tdata16\n");
#endif
fprintf( outfile, "\tmovw %%bx,%%es\n" );
fprintf( outfile, "\tmovw " PREFIX "SYSLEVEL_Win16CurrentTeb,%%fs\n" );
/* Restore the 32-bit stack */
#ifdef __svr4__
fprintf( outfile, "\tdata16\n");
#endif
fprintf( outfile, "\tmovw %%bx,%%ss\n" );
fprintf( outfile, "\t.byte 0x64\n\tmovl (%d),%%esp\n", STACKOFFSET );
fprintf( outfile, "\t.byte 0x64\n\tpopl (%d)\n", STACKOFFSET );
/* Return to caller */
fprintf( outfile, "\tlret\n" );
/* Declare the return address variables */
fprintf( outfile, "\t.data\n" );
fprintf( outfile, "\t.globl " PREFIX "CALLTO16_RetAddr_word\n" );
fprintf( outfile, "\t.globl " PREFIX "CALLTO16_RetAddr_long\n" );
fprintf( outfile, "\t.globl " PREFIX "CALLTO16_RetAddr_eax\n" );
fprintf( outfile, PREFIX "CALLTO16_RetAddr_word:\t.long 0\n" );
fprintf( outfile, PREFIX "CALLTO16_RetAddr_long:\t.long 0\n" );
fprintf( outfile, PREFIX "CALLTO16_RetAddr_eax:\t.long 0\n" );
fprintf( outfile, "\t.text\n" );
}
/*******************************************************************
* BuildCallTo32LargeStack
*
* Build the function used to switch to the original 32-bit stack
* before calling a 32-bit function from 32-bit code. This is used for
* functions that need a large stack, like X bitmaps functions.
*
* The generated function has the following prototype:
* int xxx( int (*func)(), void *arg );
*
* The pointer to the function can be retrieved by calling CALL32_Init,
* which also takes care of saving the current 32-bit stack pointer.
*
* Stack layout:
* ... ...
* (ebp+12) arg
* (ebp+8) func
* (ebp+4) ret addr
* (ebp) ebp
*/
static void BuildCallTo32LargeStack( FILE *outfile )
{
/* Initialization function */
fprintf( outfile, "\n\t.align 4\n" );
#ifdef USE_STABS
fprintf( outfile, ".stabs \"CALL32_Init:F1\",36,0,0," PREFIX "CALL32_Init\n");
#endif
fprintf( outfile, "\t.globl " PREFIX "CALL32_Init\n" );
fprintf( outfile, "\t.type " PREFIX "CALL32_Init,@function\n" );
fprintf( outfile, PREFIX "CALL32_Init:\n" );
fprintf( outfile, "\tleal -256(%%esp),%%eax\n" );
fprintf( outfile, "\tmovl %%eax,CALL32_Original32_esp\n" );
fprintf( outfile, "\tmovl $CALL32_LargeStack,%%eax\n" );
fprintf( outfile, "\tret\n" );
/* Function header */
fprintf( outfile, "\n\t.align 4\n" );
#ifdef USE_STABS
fprintf( outfile, ".stabs \"CALL32_LargeStack:F1\",36,0,0,CALL32_LargeStack\n");
#endif
fprintf( outfile, "CALL32_LargeStack:\n" );
/* Entry code */
fprintf( outfile, "\tpushl %%ebp\n" );
fprintf( outfile, "\tmovl %%esp,%%ebp\n" );
/* Switch to the original 32-bit stack pointer */
fprintf( outfile, "\tmovl CALL32_Original32_esp, %%esp\n" );
/* Transfer the argument and call the function */
fprintf( outfile, "\tpushl 12(%%ebp)\n" );
fprintf( outfile, "\tcall *8(%%ebp)\n" );
/* Restore registers and return */
fprintf( outfile, "\tmovl %%ebp,%%esp\n" );
fprintf( outfile, "\tpopl %%ebp\n" );
fprintf( outfile, "\tret\n" );
/* Data */
fprintf( outfile, "\t.data\n" );
fprintf( outfile, "CALL32_Original32_esp:\t.long 0\n" );
fprintf( outfile, "\t.text\n" );
}
/*******************************************************************
* BuildCallFrom32Regs
*
* Build a 32-bit-to-Wine call-back function for a 'register' function.
* 'args' is the number of dword arguments.
*
* Stack layout:
* ... ...
* (esp+336) ret addr (or relay addr when debugging(relay) is on)
* (esp+332) entry point
* (esp+204) buffer area to allow stack frame manipulation
* (esp+0) CONTEXT struct
*/
static void BuildCallFrom32Regs( FILE *outfile )
{
#define STACK_SPACE 128
/* Function header */
fprintf( outfile, "\n\t.align 4\n" );
#ifdef USE_STABS
fprintf( outfile, ".stabs \"CALL32_Regs:F1\",36,0,0," PREFIX "CALL32_Regs\n" );
#endif
fprintf( outfile, "\t.globl " PREFIX "CALL32_Regs\n" );
fprintf( outfile, PREFIX "CALL32_Regs:\n" );
/* Allocate some buffer space on the stack */
fprintf( outfile, "\tleal -%d(%%esp), %%esp\n", STACK_SPACE );
/* Build the context structure */
fprintf( outfile, "\tpushw $0\n" );
fprintf( outfile, "\t.byte 0x66\n\tpushl %%ss\n" );
fprintf( outfile, "\tpushl %%eax\n" ); /* %esp place holder */
fprintf( outfile, "\tpushfl\n" );
fprintf( outfile, "\tpushw $0\n" );
fprintf( outfile, "\t.byte 0x66\n\tpushl %%cs\n" );
fprintf( outfile, "\tpushl %d(%%esp)\n", 16+STACK_SPACE+4 ); /* %eip at time of call */
fprintf( outfile, "\tpushl %%ebp\n" );
fprintf( outfile, "\tpushl %%eax\n" );
fprintf( outfile, "\tpushl %%ecx\n" );
fprintf( outfile, "\tpushl %%edx\n" );
fprintf( outfile, "\tpushl %%ebx\n" );
fprintf( outfile, "\tpushl %%esi\n" );
fprintf( outfile, "\tpushl %%edi\n" );
fprintf( outfile, "\txorl %%eax,%%eax\n" );
fprintf( outfile, "\tmovw %%ds,%%ax\n" );
fprintf( outfile, "\tpushl %%eax\n" );
fprintf( outfile, "\tmovw %%es,%%ax\n" );
fprintf( outfile, "\tpushl %%eax\n" );
fprintf( outfile, "\tmovw %%fs,%%ax\n" );
fprintf( outfile, "\tpushl %%eax\n" );
fprintf( outfile, "\tmovw %%gs,%%ax\n" );
fprintf( outfile, "\tpushl %%eax\n" );
fprintf( outfile, "\tleal -%d(%%esp),%%esp\n",
sizeof(FLOATING_SAVE_AREA) + 6 * sizeof(DWORD) /* DR regs */ );
fprintf( outfile, "\tpushl $0x0001001f\n" ); /* ContextFlags */
fprintf( outfile, "\tfsave %d(%%esp)\n", CONTEXTOFFSET(FloatSave) );
fprintf( outfile, "\tleal %d(%%esp),%%eax\n",
sizeof(CONTEXT) + STACK_SPACE + 4 ); /* %esp at time of call */
fprintf( outfile, "\tmovl %%eax,%d(%%esp)\n", CONTEXTOFFSET(Esp) );
fprintf( outfile, "\tcall " PREFIX "RELAY_CallFrom32Regs\n" );
/* Restore the context structure */
fprintf( outfile, "\tfrstor %d(%%esp)\n", CONTEXTOFFSET(FloatSave) );
/* Store %eip value onto the new stack */
fprintf( outfile, "\tmovl %d(%%esp),%%eax\n", CONTEXTOFFSET(Eip) );
fprintf( outfile, "\tmovl %d(%%esp),%%ebx\n", CONTEXTOFFSET(Esp) );
fprintf( outfile, "\tmovl %%eax,0(%%ebx)\n" );
/* Restore all registers */
fprintf( outfile, "\tleal %d(%%esp),%%esp\n",
sizeof(FLOATING_SAVE_AREA) + 7 * sizeof(DWORD) );
fprintf( outfile, "\tpopl %%eax\n" );
fprintf( outfile, "\tmovw %%ax,%%gs\n" );
fprintf( outfile, "\tpopl %%eax\n" );
fprintf( outfile, "\tmovw %%ax,%%fs\n" );
fprintf( outfile, "\tpopl %%eax\n" );
fprintf( outfile, "\tmovw %%ax,%%es\n" );
fprintf( outfile, "\tpopl %%eax\n" );
fprintf( outfile, "\tmovw %%ax,%%ds\n" );
fprintf( outfile, "\tpopl %%edi\n" );
fprintf( outfile, "\tpopl %%esi\n" );
fprintf( outfile, "\tpopl %%ebx\n" );
fprintf( outfile, "\tpopl %%edx\n" );
fprintf( outfile, "\tpopl %%ecx\n" );
fprintf( outfile, "\tpopl %%eax\n" );
fprintf( outfile, "\tpopl %%ebp\n" );
fprintf( outfile, "\tleal 8(%%esp),%%esp\n" ); /* skip %eip and %cs */
fprintf( outfile, "\tpopfl\n" );
fprintf( outfile, "\tpopl %%esp\n" );
fprintf( outfile, "\tret\n" );
#undef STACK_SPACE
}
/*******************************************************************
* BuildSpec
*
* Build the spec files
*/
static int BuildSpec( FILE *outfile, int argc, char *argv[] )
{
int i;
for (i = 2; i < argc; i++)
if (BuildSpecFile( outfile, argv[i] ) < 0) return -1;
return 0;
}
/*******************************************************************
* BuildCallFrom16
*
* Build the 16-bit-to-Wine callbacks
*/
static int BuildCallFrom16( FILE *outfile, char * outname, int argc, char *argv[] )
{
int i;
char buffer[1024];
/* File header */
fprintf( outfile, "/* File generated automatically. Do not edit! */\n\n" );
fprintf( outfile, "\t.text\n" );
#ifdef USE_STABS
fprintf( outfile, "\t.file\t\"%s\"\n", outname );
getcwd(buffer, sizeof(buffer));
/*
* The stabs help the internal debugger as they are an indication that it
* is sensible to step into a thunk/trampoline.
*/
fprintf( outfile, ".stabs \"%s/\",100,0,0,Code_Start\n", buffer);
fprintf( outfile, ".stabs \"%s\",100,0,0,Code_Start\n", outname);
fprintf( outfile, "\t.text\n" );
fprintf( outfile, "\t.align 4\n" );
fprintf( outfile, "Code_Start:\n\n" );
#endif
/* Build the callback functions */
for (i = 2; i < argc; i++) BuildCallFrom16Func( outfile, argv[i] );
/* Build the thunk callback function */
BuildCallFrom16Func( outfile, "t_long_" );
/* Output the argument debugging strings */
if (debugging)
{
fprintf( outfile, "/* Argument strings */\n" );
for (i = 2; i < argc; i++)
{
fprintf( outfile, "Profile_%s:\t", argv[i] );
fprintf( outfile, STRING " \"%s\\0\"\n", argv[i] + 7 );
}
}
#ifdef USE_STABS
fprintf( outfile, "\t.text\n");
fprintf( outfile, "\t.stabs \"\",100,0,0,.Letext\n");
fprintf( outfile, ".Letext:\n");
#endif
return 0;
}
/*******************************************************************
* BuildCallTo16
*
* Build the Wine-to-16-bit callbacks
*/
static int BuildCallTo16( FILE *outfile, char * outname, int argc, char *argv[] )
{
char buffer[1024];
FILE *infile;
if (argc > 2)
{
infile = fopen( argv[2], "r" );
if (!infile)
{
perror( argv[2] );
exit( 1 );
}
}
else infile = stdin;
/* File header */
fprintf( outfile, "/* File generated automatically. Do not edit! */\n\n" );
fprintf( outfile, "\t.text\n" );
#ifdef USE_STABS
fprintf( outfile, "\t.file\t\"%s\"\n", outname );
getcwd(buffer, sizeof(buffer));
/*
* The stabs help the internal debugger as they are an indication that it
* is sensible to step into a thunk/trampoline.
*/
fprintf( outfile, ".stabs \"%s/\",100,0,0,Code_Start\n", buffer);
fprintf( outfile, ".stabs \"%s\",100,0,0,Code_Start\n", outname);
fprintf( outfile, "\t.text\n" );
fprintf( outfile, "\t.align 4\n" );
fprintf( outfile, "Code_Start:\n\n" );
#endif
fprintf( outfile, "\t.globl " PREFIX "CALLTO16_Start\n" );
fprintf( outfile, PREFIX "CALLTO16_Start:\n" );
/* Build the callback functions */
while (fgets( buffer, sizeof(buffer), infile ))
{
if (strstr( buffer, "### start build ###" )) break;
}
while (fgets( buffer, sizeof(buffer), infile ))
{
char *p = strstr( buffer, "CallTo16_" );
if (p)
{
char *profile = p + strlen( "CallTo16_" );
p = profile;
while ((*p == '_') || isalpha(*p)) p++;
*p = '\0';
BuildCallTo16Func( outfile, profile );
}
if (strstr( buffer, "### stop build ###" )) break;
}
/* Output the 16-bit return code */
BuildRet16Func( outfile );
fprintf( outfile, "\t.globl " PREFIX "CALLTO16_End\n" );
fprintf( outfile, PREFIX "CALLTO16_End:\n" );
#ifdef USE_STABS
fprintf( outfile, "\t.text\n");
fprintf( outfile, "\t.stabs \"\",100,0,0,.Letext\n");
fprintf( outfile, ".Letext:\n");
#endif
fclose( infile );
return 0;
}
/*******************************************************************
* BuildCall32
*
* Build the 32-bit callbacks
*/
static int BuildCall32( FILE *outfile, char * outname )
{
char buffer[1024];
/* File header */
fprintf( outfile, "/* File generated automatically. Do not edit! */\n\n" );
fprintf( outfile, "\t.text\n" );
#ifdef __i386__
#ifdef USE_STABS
fprintf( outfile, "\t.file\t\"%s\"\n", outname );
getcwd(buffer, sizeof(buffer));
/*
* The stabs help the internal debugger as they are an indication that it
* is sensible to step into a thunk/trampoline.
*/
fprintf( outfile, ".stabs \"%s/\",100,0,0,Code_Start\n", buffer);
fprintf( outfile, ".stabs \"%s\",100,0,0,Code_Start\n", outname);
fprintf( outfile, "\t.text\n" );
fprintf( outfile, "\t.align 4\n" );
fprintf( outfile, "Code_Start:\n" );
#endif
/* Build the 32-bit large stack callback */
BuildCallTo32LargeStack( outfile );
/* Build the register callback function */
BuildCallFrom32Regs( outfile );
#ifdef USE_STABS
fprintf( outfile, "\t.text\n");
fprintf( outfile, "\t.stabs \"\",100,0,0,.Letext\n");
fprintf( outfile, ".Letext:\n");
#endif
#else /* __i386__ */
/* Just to avoid an empty file */
fprintf( outfile, "\t.long 0\n" );
#endif /* __i386__ */
return 0;
}
/*******************************************************************
* usage
*/
static void usage(void)
{
fprintf( stderr,
"usage: build [-o outfile] -spec SPECNAMES\n"
" build [-o outfile] -callfrom16 FUNCTION_PROFILES\n"
" build [-o outfile] -callto16 FUNCTION_PROFILES\n"
" build [-o outfile] -call32\n" );
exit(1);
}
/*******************************************************************
* main
*/
int main(int argc, char **argv)
{
char *outname = NULL;
FILE *outfile = stdout;
int res = -1;
if (argc < 2) usage();
if (!strcmp( argv[1], "-o" ))
{
outname = argv[2];
argv += 2;
argc -= 2;
if (argc < 2) usage();
if (!(outfile = fopen( outname, "w" )))
{
fprintf( stderr, "Unable to create output file '%s'\n", outname );
exit(1);
}
}
/* Retrieve the selector values; this assumes that we are building
* the asm files on the platform that will also run them. Probably
* a safe assumption to make.
*/
GET_CS( Code_Selector );
GET_DS( Data_Selector );
if (!strcmp( argv[1], "-spec" ))
res = BuildSpec( outfile, argc, argv );
else if (!strcmp( argv[1], "-callfrom16" ))
res = BuildCallFrom16( outfile, outname, argc, argv );
else if (!strcmp( argv[1], "-callto16" ))
res = BuildCallTo16( outfile, outname, argc, argv );
else if (!strcmp( argv[1], "-call32" ))
res = BuildCall32( outfile, outname );
else
{
fclose( outfile );
unlink( outname );
usage();
}
fclose( outfile );
if (res < 0)
{
unlink( outname );
return 1;
}
return 0;
}