Properly declare handles.
[wine/multimedia.git] / tools / winebuild / relay.c
blob7c9fd94ee36d8f15a6c73e7f76a48227fdd0dd31
1 /*
2 * Relay calls helper routines
4 * Copyright 1993 Robert J. Amstadt
5 * Copyright 1995 Martin von Loewis
6 * Copyright 1995, 1996, 1997 Alexandre Julliard
7 * Copyright 1997 Eric Youngdale
8 * Copyright 1999 Ulrich Weigand
10 * This library is free software; you can redistribute it and/or
11 * modify it under the terms of the GNU Lesser General Public
12 * License as published by the Free Software Foundation; either
13 * version 2.1 of the License, or (at your option) any later version.
15 * This library is distributed in the hope that it will be useful,
16 * but WITHOUT ANY WARRANTY; without even the implied warranty of
17 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
18 * Lesser General Public License for more details.
20 * You should have received a copy of the GNU Lesser General Public
21 * License along with this library; if not, write to the Free Software
22 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
25 #include "config.h"
26 #include "wine/port.h"
28 #include <ctype.h>
30 #include "thread.h"
31 #include "wine/winbase16.h"
33 #include "build.h"
35 static void function_header( FILE *outfile, const char *name )
37 fprintf( outfile, "\n\t.align %d\n", get_alignment(4) );
38 fprintf( outfile, "\t%s\n", func_declaration(name) );
39 fprintf( outfile, "\t.globl %s\n", asm_name(name) );
40 fprintf( outfile, "%s:\n", asm_name(name) );
44 static void function_footer( FILE *outfile, const char *name )
46 const char *size = func_size( name );
47 if (size[0]) fprintf( outfile, "\t%s\n", size );
50 static inline const char *data16_prefix(void)
52 return (target_platform == PLATFORM_SVR4) ? "\tdata16\n" : "";
55 /*******************************************************************
56 * BuildCallFrom16Core
58 * This routine builds the core routines used in 16->32 thunks:
59 * CallFrom16Word, CallFrom16Long, CallFrom16Register, and CallFrom16Thunk.
61 * These routines are intended to be called via a far call (with 32-bit
62 * operand size) from 16-bit code. The 16-bit code stub must push %bp,
63 * the 32-bit entry point to be called, and the argument conversion
64 * routine to be used (see stack layout below).
66 * The core routine completes the STACK16FRAME on the 16-bit stack and
67 * switches to the 32-bit stack. Then, the argument conversion routine
68 * is called; it gets passed the 32-bit entry point and a pointer to the
69 * 16-bit arguments (on the 16-bit stack) as parameters. (You can either
70 * use conversion routines automatically generated by BuildCallFrom16,
71 * or write your own for special purposes.)
73 * The conversion routine must call the 32-bit entry point, passing it
74 * the converted arguments, and return its return value to the core.
75 * After the conversion routine has returned, the core switches back
76 * to the 16-bit stack, converts the return value to the DX:AX format
77 * (CallFrom16Long), and returns to the 16-bit call stub. All parameters,
78 * including %bp, are popped off the stack.
80 * The 16-bit call stub now returns to the caller, popping the 16-bit
81 * arguments if necessary (pascal calling convention).
83 * In the case of a 'register' function, CallFrom16Register fills a
84 * CONTEXT86 structure with the values all registers had at the point
85 * the first instruction of the 16-bit call stub was about to be
86 * executed. A pointer to this CONTEXT86 is passed as third parameter
87 * to the argument conversion routine, which typically passes it on
88 * to the called 32-bit entry point.
90 * CallFrom16Thunk is a special variant used by the implementation of
91 * the Win95 16->32 thunk functions C16ThkSL and C16ThkSL01 and is
92 * implemented as follows:
93 * On entry, the EBX register is set up to contain a flat pointer to the
94 * 16-bit stack such that EBX+22 points to the first argument.
95 * Then, the entry point is called, while EBP is set up to point
96 * to the return address (on the 32-bit stack).
97 * The called function returns with CX set to the number of bytes
98 * to be popped of the caller's stack.
100 * Stack layout upon entry to the core routine (STACK16FRAME):
101 * ... ...
102 * (sp+24) word first 16-bit arg
103 * (sp+22) word cs
104 * (sp+20) word ip
105 * (sp+18) word bp
106 * (sp+14) long 32-bit entry point (reused for Win16 mutex recursion count)
107 * (sp+12) word ip of actual entry point (necessary for relay debugging)
108 * (sp+8) long relay (argument conversion) function entry point
109 * (sp+4) long cs of 16-bit entry point
110 * (sp) long ip of 16-bit entry point
112 * Added on the stack:
113 * (sp-2) word saved gs
114 * (sp-4) word saved fs
115 * (sp-6) word saved es
116 * (sp-8) word saved ds
117 * (sp-12) long saved ebp
118 * (sp-16) long saved ecx
119 * (sp-20) long saved edx
120 * (sp-24) long saved previous stack
122 static void BuildCallFrom16Core( FILE *outfile, int reg_func, int thunk, int short_ret )
124 const char *name = thunk? "thunk" : reg_func? "regs" : short_ret? "word" : "long";
126 /* Function header */
127 if (thunk) function_header( outfile, "__wine_call_from_16_thunk" );
128 else if (reg_func) function_header( outfile, "__wine_call_from_16_regs" );
129 else if (short_ret) function_header( outfile, "__wine_call_from_16_word" );
130 else function_header( outfile, "__wine_call_from_16_long" );
132 /* Create STACK16FRAME (except STACK32FRAME link) */
133 fprintf( outfile, "\tpushw %%gs\n" );
134 fprintf( outfile, "\tpushw %%fs\n" );
135 fprintf( outfile, "\tpushw %%es\n" );
136 fprintf( outfile, "\tpushw %%ds\n" );
137 fprintf( outfile, "\tpushl %%ebp\n" );
138 fprintf( outfile, "\tpushl %%ecx\n" );
139 fprintf( outfile, "\tpushl %%edx\n" );
141 /* Save original EFlags register */
142 if (reg_func) fprintf( outfile, "\tpushfl\n" );
144 if ( UsePIC )
146 fprintf( outfile, "\tcall .Lcall_from_16_%s.getpc\n", name );
147 fprintf( outfile, ".Lcall_from_16_%s.getpc:\n", name );
148 fprintf( outfile, "\tpopl %%ecx\n" );
149 fprintf( outfile, "\t.byte 0x2e\n\tmovl %s-.Lcall_from_16_%s.getpc(%%ecx),%%edx\n",
150 asm_name("CallTo16_DataSelector"), name );
152 else
153 fprintf( outfile, "\t.byte 0x2e\n\tmovl %s,%%edx\n", asm_name("CallTo16_DataSelector") );
155 /* Load 32-bit segment registers */
156 fprintf( outfile, "%s\tmovw %%dx, %%ds\n", data16_prefix() );
157 fprintf( outfile, "%s\tmovw %%dx, %%es\n", data16_prefix() );
159 if ( UsePIC )
160 fprintf( outfile, "\tmovw %s-.Lcall_from_16_%s.getpc(%%ecx), %%fs\n",
161 asm_name("CallTo16_TebSelector"), name );
162 else
163 fprintf( outfile, "\tmovw %s, %%fs\n", asm_name("CallTo16_TebSelector") );
165 fprintf( outfile, "\t.byte 0x64\n\tmov (%d),%%gs\n", STRUCTOFFSET(TEB,gs_sel) );
167 /* Translate STACK16FRAME base to flat offset in %edx */
168 fprintf( outfile, "\tmovw %%ss, %%dx\n" );
169 fprintf( outfile, "\tandl $0xfff8, %%edx\n" );
170 fprintf( outfile, "\tshrl $1, %%edx\n" );
171 if (UsePIC)
173 fprintf( outfile, "\taddl wine_ldt_copy_ptr-.Lcall_from_16_%s.getpc(%%ecx),%%edx\n", name );
174 fprintf( outfile, "\tmovl (%%edx), %%edx\n" );
176 else
177 fprintf( outfile, "\tmovl %s(%%edx), %%edx\n", asm_name("wine_ldt_copy") );
178 fprintf( outfile, "\tmovzwl %%sp, %%ebp\n" );
179 fprintf( outfile, "\tleal %d(%%ebp,%%edx), %%edx\n", reg_func ? 0 : -4 );
181 /* Get saved flags into %ecx */
182 if (reg_func) fprintf( outfile, "\tpopl %%ecx\n" );
184 /* Get the 32-bit stack pointer from the TEB and complete STACK16FRAME */
185 fprintf( outfile, "\t.byte 0x64\n\tmovl (%d), %%ebp\n", STACKOFFSET );
186 fprintf( outfile, "\tpushl %%ebp\n" );
188 /* Switch stacks */
189 fprintf( outfile, "%s\t.byte 0x64\n\tmovw %%ss, (%d)\n", data16_prefix(), STACKOFFSET + 2 );
190 fprintf( outfile, "\t.byte 0x64\n\tmovw %%sp, (%d)\n", STACKOFFSET );
191 fprintf( outfile, "\tpushl %%ds\n" );
192 fprintf( outfile, "\tpopl %%ss\n" );
193 fprintf( outfile, "\tmovl %%ebp, %%esp\n" );
194 fprintf( outfile, "\taddl $%d, %%ebp\n", STRUCTOFFSET(STACK32FRAME, ebp) );
197 /* At this point:
198 STACK16FRAME is completely set up
199 DS, ES, SS: flat data segment
200 FS: current TEB
201 ESP: points to last STACK32FRAME
202 EBP: points to ebp member of last STACK32FRAME
203 EDX: points to current STACK16FRAME
204 ECX: contains saved flags
205 all other registers: unchanged */
207 /* Special case: C16ThkSL stub */
208 if ( thunk )
210 /* Set up registers as expected and call thunk */
211 fprintf( outfile, "\tleal %d(%%edx), %%ebx\n", sizeof(STACK16FRAME)-22 );
212 fprintf( outfile, "\tleal -4(%%esp), %%ebp\n" );
214 fprintf( outfile, "\tcall *%d(%%edx)\n", STACK16OFFSET(entry_point) );
216 /* Switch stack back */
217 fprintf( outfile, "\t.byte 0x64\n\tmovw (%d), %%ss\n", STACKOFFSET+2 );
218 fprintf( outfile, "\t.byte 0x64\n\tmovzwl (%d), %%esp\n", STACKOFFSET );
219 fprintf( outfile, "\t.byte 0x64\n\tpopl (%d)\n", STACKOFFSET );
221 /* Restore registers and return directly to caller */
222 fprintf( outfile, "\taddl $8, %%esp\n" );
223 fprintf( outfile, "\tpopl %%ebp\n" );
224 fprintf( outfile, "\tpopw %%ds\n" );
225 fprintf( outfile, "\tpopw %%es\n" );
226 fprintf( outfile, "\tpopw %%fs\n" );
227 fprintf( outfile, "\tpopw %%gs\n" );
228 fprintf( outfile, "\taddl $20, %%esp\n" );
230 fprintf( outfile, "\txorb %%ch, %%ch\n" );
231 fprintf( outfile, "\tpopl %%ebx\n" );
232 fprintf( outfile, "\taddw %%cx, %%sp\n" );
233 fprintf( outfile, "\tpush %%ebx\n" );
235 fprintf( outfile, "\t.byte 0x66\n" );
236 fprintf( outfile, "\tlret\n" );
238 return;
242 /* Build register CONTEXT */
243 if ( reg_func )
245 fprintf( outfile, "\tsubl $%d, %%esp\n", sizeof(CONTEXT86) );
247 fprintf( outfile, "\tmovl %%ecx, %d(%%esp)\n", CONTEXTOFFSET(EFlags) );
249 fprintf( outfile, "\tmovl %%eax, %d(%%esp)\n", CONTEXTOFFSET(Eax) );
250 fprintf( outfile, "\tmovl %%ebx, %d(%%esp)\n", CONTEXTOFFSET(Ebx) );
251 fprintf( outfile, "\tmovl %%esi, %d(%%esp)\n", CONTEXTOFFSET(Esi) );
252 fprintf( outfile, "\tmovl %%edi, %d(%%esp)\n", CONTEXTOFFSET(Edi) );
254 fprintf( outfile, "\tmovl %d(%%edx), %%eax\n", STACK16OFFSET(ebp) );
255 fprintf( outfile, "\tmovl %%eax, %d(%%esp)\n", CONTEXTOFFSET(Ebp) );
256 fprintf( outfile, "\tmovl %d(%%edx), %%eax\n", STACK16OFFSET(ecx) );
257 fprintf( outfile, "\tmovl %%eax, %d(%%esp)\n", CONTEXTOFFSET(Ecx) );
258 fprintf( outfile, "\tmovl %d(%%edx), %%eax\n", STACK16OFFSET(edx) );
259 fprintf( outfile, "\tmovl %%eax, %d(%%esp)\n", CONTEXTOFFSET(Edx) );
261 fprintf( outfile, "\tmovzwl %d(%%edx), %%eax\n", STACK16OFFSET(ds) );
262 fprintf( outfile, "\tmovl %%eax, %d(%%esp)\n", CONTEXTOFFSET(SegDs) );
263 fprintf( outfile, "\tmovzwl %d(%%edx), %%eax\n", STACK16OFFSET(es) );
264 fprintf( outfile, "\tmovl %%eax, %d(%%esp)\n", CONTEXTOFFSET(SegEs) );
265 fprintf( outfile, "\tmovzwl %d(%%edx), %%eax\n", STACK16OFFSET(fs) );
266 fprintf( outfile, "\tmovl %%eax, %d(%%esp)\n", CONTEXTOFFSET(SegFs) );
267 fprintf( outfile, "\tmovzwl %d(%%edx), %%eax\n", STACK16OFFSET(gs) );
268 fprintf( outfile, "\tmovl %%eax, %d(%%esp)\n", CONTEXTOFFSET(SegGs) );
270 fprintf( outfile, "\tmovzwl %d(%%edx), %%eax\n", STACK16OFFSET(cs) );
271 fprintf( outfile, "\tmovl %%eax, %d(%%esp)\n", CONTEXTOFFSET(SegCs) );
272 fprintf( outfile, "\tmovzwl %d(%%edx), %%eax\n", STACK16OFFSET(ip) );
273 fprintf( outfile, "\tmovl %%eax, %d(%%esp)\n", CONTEXTOFFSET(Eip) );
275 fprintf( outfile, "\t.byte 0x64\n\tmovzwl (%d), %%eax\n", STACKOFFSET+2 );
276 fprintf( outfile, "\tmovl %%eax, %d(%%esp)\n", CONTEXTOFFSET(SegSs) );
277 fprintf( outfile, "\t.byte 0x64\n\tmovzwl (%d), %%eax\n", STACKOFFSET );
278 fprintf( outfile, "\taddl $%d, %%eax\n", STACK16OFFSET(ip) );
279 fprintf( outfile, "\tmovl %%eax, %d(%%esp)\n", CONTEXTOFFSET(Esp) );
280 #if 0
281 fprintf( outfile, "\tfsave %d(%%esp)\n", CONTEXTOFFSET(FloatSave) );
282 #endif
284 /* Push address of CONTEXT86 structure -- popped by the relay routine */
285 fprintf( outfile, "\tpushl %%esp\n" );
288 /* Call relay routine (which will call the API entry point) */
289 fprintf( outfile, "\tleal %d(%%edx), %%eax\n", sizeof(STACK16FRAME) );
290 fprintf( outfile, "\tpushl %%eax\n" );
291 fprintf( outfile, "\tpushl %d(%%edx)\n", STACK16OFFSET(entry_point) );
292 fprintf( outfile, "\tcall *%d(%%edx)\n", STACK16OFFSET(relay) );
294 if ( reg_func )
296 fprintf( outfile, "\tleal -%d(%%ebp), %%ebx\n",
297 sizeof(CONTEXT) + STRUCTOFFSET(STACK32FRAME, ebp) );
299 /* Switch stack back */
300 fprintf( outfile, "\t.byte 0x64\n\tmovw (%d), %%ss\n", STACKOFFSET+2 );
301 fprintf( outfile, "\t.byte 0x64\n\tmovzwl (%d), %%esp\n", STACKOFFSET );
302 fprintf( outfile, "\t.byte 0x64\n\tpopl (%d)\n", STACKOFFSET );
304 /* Get return address to CallFrom16 stub */
305 fprintf( outfile, "\taddw $%d, %%sp\n", STACK16OFFSET(callfrom_ip)-4 );
306 fprintf( outfile, "\tpopl %%eax\n" );
307 fprintf( outfile, "\tpopl %%edx\n" );
309 /* Restore all registers from CONTEXT */
310 fprintf( outfile, "\tmovw %d(%%ebx), %%ss\n", CONTEXTOFFSET(SegSs) );
311 fprintf( outfile, "\tmovl %d(%%ebx), %%esp\n", CONTEXTOFFSET(Esp) );
312 fprintf( outfile, "\taddl $4, %%esp\n" ); /* room for final return address */
314 fprintf( outfile, "\tpushw %d(%%ebx)\n", CONTEXTOFFSET(SegCs) );
315 fprintf( outfile, "\tpushw %d(%%ebx)\n", CONTEXTOFFSET(Eip) );
316 fprintf( outfile, "\tpushl %%edx\n" );
317 fprintf( outfile, "\tpushl %%eax\n" );
318 fprintf( outfile, "\tpushl %d(%%ebx)\n", CONTEXTOFFSET(EFlags) );
319 fprintf( outfile, "\tpushl %d(%%ebx)\n", CONTEXTOFFSET(SegDs) );
321 fprintf( outfile, "\tpushl %d(%%ebx)\n", CONTEXTOFFSET(SegEs) );
322 fprintf( outfile, "\tpopl %%es\n" );
323 fprintf( outfile, "\tpushl %d(%%ebx)\n", CONTEXTOFFSET(SegFs) );
324 fprintf( outfile, "\tpopl %%fs\n" );
325 fprintf( outfile, "\tpushl %d(%%ebx)\n", CONTEXTOFFSET(SegGs) );
326 fprintf( outfile, "\tpopl %%gs\n" );
328 fprintf( outfile, "\tmovl %d(%%ebx), %%ebp\n", CONTEXTOFFSET(Ebp) );
329 fprintf( outfile, "\tmovl %d(%%ebx), %%esi\n", CONTEXTOFFSET(Esi) );
330 fprintf( outfile, "\tmovl %d(%%ebx), %%edi\n", CONTEXTOFFSET(Edi) );
331 fprintf( outfile, "\tmovl %d(%%ebx), %%eax\n", CONTEXTOFFSET(Eax) );
332 fprintf( outfile, "\tmovl %d(%%ebx), %%edx\n", CONTEXTOFFSET(Edx) );
333 fprintf( outfile, "\tmovl %d(%%ebx), %%ecx\n", CONTEXTOFFSET(Ecx) );
334 fprintf( outfile, "\tmovl %d(%%ebx), %%ebx\n", CONTEXTOFFSET(Ebx) );
336 fprintf( outfile, "\tpopl %%ds\n" );
337 fprintf( outfile, "\tpopfl\n" );
338 fprintf( outfile, "\tlret\n" );
340 else
342 /* Switch stack back */
343 fprintf( outfile, "\t.byte 0x64\n\tmovw (%d), %%ss\n", STACKOFFSET+2 );
344 fprintf( outfile, "\t.byte 0x64\n\tmovzwl (%d), %%esp\n", STACKOFFSET );
345 fprintf( outfile, "\t.byte 0x64\n\tpopl (%d)\n", STACKOFFSET );
347 /* Restore registers */
348 fprintf( outfile, "\tpopl %%edx\n" );
349 fprintf( outfile, "\tpopl %%ecx\n" );
350 fprintf( outfile, "\tpopl %%ebp\n" );
351 fprintf( outfile, "\tpopw %%ds\n" );
352 fprintf( outfile, "\tpopw %%es\n" );
353 fprintf( outfile, "\tpopw %%fs\n" );
354 fprintf( outfile, "\tpopw %%gs\n" );
356 /* Prepare return value and set flags accordingly */
357 if ( !short_ret )
358 fprintf( outfile, "\tshldl $16, %%eax, %%edx\n" );
359 fprintf( outfile, "\torl %%eax, %%eax\n" );
361 /* Return to return stub which will return to caller */
362 fprintf( outfile, "\tlret $12\n" );
364 if (thunk) function_footer( outfile, "__wine_call_from_16_thunk" );
365 else if (reg_func) function_footer( outfile, "__wine_call_from_16_regs" );
366 else if (short_ret) function_footer( outfile, "__wine_call_from_16_word" );
367 else function_footer( outfile, "__wine_call_from_16_long" );
371 /*******************************************************************
372 * BuildCallTo16Core
374 * This routine builds the core routines used in 32->16 thunks:
376 * extern DWORD WINAPI wine_call_to_16( FARPROC16 target, DWORD cbArgs, PEXCEPTION_HANDLER handler );
377 * extern void WINAPI wine_call_to_16_regs( CONTEXT86 *context, DWORD cbArgs, PEXCEPTION_HANDLER handler );
379 * These routines can be called directly from 32-bit code.
381 * All routines expect that the 16-bit stack contents (arguments) and the
382 * return address (segptr to CallTo16_Ret) were already set up by the
383 * caller; nb_args must contain the number of bytes to be conserved. The
384 * 16-bit SS:SP will be set accordinly.
386 * All other registers are either taken from the CONTEXT86 structure
387 * or else set to default values. The target routine address is either
388 * given directly or taken from the CONTEXT86.
390 static void BuildCallTo16Core( FILE *outfile, int reg_func )
392 const char *name = reg_func ? "wine_call_to_16_regs" : "wine_call_to_16";
394 /* Function header */
395 function_header( outfile, name );
397 /* Function entry sequence */
398 fprintf( outfile, "\tpushl %%ebp\n" );
399 fprintf( outfile, "\tmovl %%esp, %%ebp\n" );
401 /* Save the 32-bit registers */
402 fprintf( outfile, "\tpushl %%ebx\n" );
403 fprintf( outfile, "\tpushl %%esi\n" );
404 fprintf( outfile, "\tpushl %%edi\n" );
405 fprintf( outfile, "\t.byte 0x64\n\tmov %%gs,(%d)\n", STRUCTOFFSET(TEB,gs_sel) );
407 /* Setup exception frame */
408 fprintf( outfile, "\t.byte 0x64\n\tpushl (%d)\n", STACKOFFSET );
409 fprintf( outfile, "\tpushl 16(%%ebp)\n" ); /* handler */
410 fprintf( outfile, "\t.byte 0x64\n\tpushl (%d)\n", STRUCTOFFSET(TEB,Tib.ExceptionList) );
411 fprintf( outfile, "\t.byte 0x64\n\tmovl %%esp,(%d)\n", STRUCTOFFSET(TEB,Tib.ExceptionList) );
413 /* Call the actual CallTo16 routine (simulate a lcall) */
414 fprintf( outfile, "\tpushl %%cs\n" );
415 fprintf( outfile, "\tcall .L%s\n", name );
417 /* Remove exception frame */
418 fprintf( outfile, "\t.byte 0x64\n\tpopl (%d)\n", STRUCTOFFSET(TEB,Tib.ExceptionList) );
419 fprintf( outfile, "\taddl $4, %%esp\n" );
420 fprintf( outfile, "\t.byte 0x64\n\tpopl (%d)\n", STACKOFFSET );
422 if ( !reg_func )
424 /* Convert return value */
425 fprintf( outfile, "\tandl $0xffff,%%eax\n" );
426 fprintf( outfile, "\tshll $16,%%edx\n" );
427 fprintf( outfile, "\torl %%edx,%%eax\n" );
429 else
432 * Modify CONTEXT86 structure to contain new values
434 * NOTE: We restore only EAX, EBX, EDX, EDX, EBP, and ESP.
435 * The segment registers as well as ESI and EDI should
436 * not be modified by a well-behaved 16-bit routine in
437 * any case. [If necessary, we could restore them as well,
438 * at the cost of a somewhat less efficient return path.]
441 fprintf( outfile, "\tmovl %d(%%esp), %%edi\n", STACK32OFFSET(target) - STACK32OFFSET(edi));
442 /* everything above edi has been popped already */
444 fprintf( outfile, "\tmovl %%eax, %d(%%edi)\n", CONTEXTOFFSET(Eax) );
445 fprintf( outfile, "\tmovl %%ebx, %d(%%edi)\n", CONTEXTOFFSET(Ebx) );
446 fprintf( outfile, "\tmovl %%ecx, %d(%%edi)\n", CONTEXTOFFSET(Ecx) );
447 fprintf( outfile, "\tmovl %%edx, %d(%%edi)\n", CONTEXTOFFSET(Edx) );
448 fprintf( outfile, "\tmovl %%ebp, %d(%%edi)\n", CONTEXTOFFSET(Ebp) );
449 fprintf( outfile, "\tmovl %%esi, %d(%%edi)\n", CONTEXTOFFSET(Esp) );
450 /* The return glue code saved %esp into %esi */
453 /* Restore the 32-bit registers */
454 fprintf( outfile, "\tpopl %%edi\n" );
455 fprintf( outfile, "\tpopl %%esi\n" );
456 fprintf( outfile, "\tpopl %%ebx\n" );
458 /* Function exit sequence */
459 fprintf( outfile, "\tpopl %%ebp\n" );
460 fprintf( outfile, "\tret $12\n" );
463 /* Start of the actual CallTo16 routine */
465 fprintf( outfile, ".L%s:\n", name );
467 /* Switch to the 16-bit stack */
468 fprintf( outfile, "\tmovl %%esp,%%edx\n" );
469 fprintf( outfile, "%s\t.byte 0x64\n\tmovw (%d),%%ss\n", data16_prefix(), STACKOFFSET + 2);
470 fprintf( outfile, "\t.byte 0x64\n\tmovw (%d),%%sp\n", STACKOFFSET );
471 fprintf( outfile, "\t.byte 0x64\n\tmovl %%edx,(%d)\n", STACKOFFSET );
473 /* Make %bp point to the previous stackframe (built by CallFrom16) */
474 fprintf( outfile, "\tmovzwl %%sp,%%ebp\n" );
475 fprintf( outfile, "\tleal %d(%%ebp),%%ebp\n", STACK16OFFSET(bp) );
477 /* Add the specified offset to the new sp */
478 fprintf( outfile, "\tsubw %d(%%edx), %%sp\n", STACK32OFFSET(nb_args) );
480 if (reg_func)
482 /* Push the called routine address */
483 fprintf( outfile, "\tmovl %d(%%edx),%%edx\n", STACK32OFFSET(target) );
484 fprintf( outfile, "\tpushw %d(%%edx)\n", CONTEXTOFFSET(SegCs) );
485 fprintf( outfile, "\tpushw %d(%%edx)\n", CONTEXTOFFSET(Eip) );
487 /* Get the registers */
488 fprintf( outfile, "\tpushw %d(%%edx)\n", CONTEXTOFFSET(SegDs) );
489 fprintf( outfile, "\tpushl %d(%%edx)\n", CONTEXTOFFSET(SegEs) );
490 fprintf( outfile, "\tpopl %%es\n" );
491 fprintf( outfile, "\tpushl %d(%%edx)\n", CONTEXTOFFSET(SegFs) );
492 fprintf( outfile, "\tpopl %%fs\n" );
493 fprintf( outfile, "\tpushl %d(%%edx)\n", CONTEXTOFFSET(SegGs) );
494 fprintf( outfile, "\tpopl %%gs\n" );
495 fprintf( outfile, "\tmovl %d(%%edx),%%ebp\n", CONTEXTOFFSET(Ebp) );
496 fprintf( outfile, "\tmovl %d(%%edx),%%esi\n", CONTEXTOFFSET(Esi) );
497 fprintf( outfile, "\tmovl %d(%%edx),%%edi\n", CONTEXTOFFSET(Edi) );
498 fprintf( outfile, "\tmovl %d(%%edx),%%eax\n", CONTEXTOFFSET(Eax) );
499 fprintf( outfile, "\tmovl %d(%%edx),%%ebx\n", CONTEXTOFFSET(Ebx) );
500 fprintf( outfile, "\tmovl %d(%%edx),%%ecx\n", CONTEXTOFFSET(Ecx) );
501 fprintf( outfile, "\tmovl %d(%%edx),%%edx\n", CONTEXTOFFSET(Edx) );
503 /* Get the 16-bit ds */
504 fprintf( outfile, "\tpopw %%ds\n" );
506 else /* not a register function */
508 /* Push the called routine address */
509 fprintf( outfile, "\tpushl %d(%%edx)\n", STACK32OFFSET(target) );
511 /* Set %fs and %gs to the value saved by the last CallFrom16 */
512 fprintf( outfile, "\tpushw %d(%%ebp)\n", STACK16OFFSET(fs)-STACK16OFFSET(bp) );
513 fprintf( outfile, "\tpopw %%fs\n" );
514 fprintf( outfile, "\tpushw %d(%%ebp)\n", STACK16OFFSET(gs)-STACK16OFFSET(bp) );
515 fprintf( outfile, "\tpopw %%gs\n" );
517 /* Set %ds and %es (and %ax just in case) equal to %ss */
518 fprintf( outfile, "\tmovw %%ss,%%ax\n" );
519 fprintf( outfile, "\tmovw %%ax,%%ds\n" );
520 fprintf( outfile, "\tmovw %%ax,%%es\n" );
523 /* Jump to the called routine */
524 fprintf( outfile, "\t.byte 0x66\n" );
525 fprintf( outfile, "\tlret\n" );
527 /* Function footer */
528 function_footer( outfile, name );
532 /*******************************************************************
533 * BuildRet16Func
535 * Build the return code for 16-bit callbacks
537 static void BuildRet16Func( FILE *outfile )
539 function_header( outfile, "__wine_call_to_16_ret" );
541 /* Save %esp into %esi */
542 fprintf( outfile, "\tmovl %%esp,%%esi\n" );
544 /* Restore 32-bit segment registers */
546 fprintf( outfile, "\t.byte 0x2e\n\tmovl %s", asm_name("CallTo16_DataSelector") );
547 fprintf( outfile, "-%s,%%edi\n", asm_name("__wine_call16_start") );
548 fprintf( outfile, "%s\tmovw %%di,%%ds\n", data16_prefix() );
549 fprintf( outfile, "%s\tmovw %%di,%%es\n", data16_prefix() );
551 fprintf( outfile, "\t.byte 0x2e\n\tmov %s", asm_name("CallTo16_TebSelector") );
552 fprintf( outfile, "-%s,%%fs\n", asm_name("__wine_call16_start") );
554 fprintf( outfile, "\t.byte 0x64\n\tmov (%d),%%gs\n", STRUCTOFFSET(TEB,gs_sel) );
556 /* Restore the 32-bit stack */
558 fprintf( outfile, "%s\tmovw %%di,%%ss\n", data16_prefix() );
559 fprintf( outfile, "\t.byte 0x64\n\tmovl (%d),%%esp\n", STACKOFFSET );
561 /* Return to caller */
563 fprintf( outfile, "\tlret\n" );
564 function_footer( outfile, "__wine_call_to_16_ret" );
568 /*******************************************************************
569 * BuildCallTo32CBClient
571 * Call a CBClient relay stub from 32-bit code (KERNEL.620).
573 * Since the relay stub is itself 32-bit, this should not be a problem;
574 * unfortunately, the relay stubs are expected to switch back to a
575 * 16-bit stack (and 16-bit code) after completion :-(
577 * This would conflict with our 16- vs. 32-bit stack handling, so
578 * we simply switch *back* to our 32-bit stack before returning to
579 * the caller ...
581 * The CBClient relay stub expects to be called with the following
582 * 16-bit stack layout, and with ebp and ebx pointing into the 16-bit
583 * stack at the designated places:
585 * ...
586 * (ebp+14) original arguments to the callback routine
587 * (ebp+10) far return address to original caller
588 * (ebp+6) Thunklet target address
589 * (ebp+2) Thunklet relay ID code
590 * (ebp) BP (saved by CBClientGlueSL)
591 * (ebp-2) SI (saved by CBClientGlueSL)
592 * (ebp-4) DI (saved by CBClientGlueSL)
593 * (ebp-6) DS (saved by CBClientGlueSL)
595 * ... buffer space used by the 16-bit side glue for temp copies
597 * (ebx+4) far return address to 16-bit side glue code
598 * (ebx) saved 16-bit ss:sp (pointing to ebx+4)
600 * The 32-bit side glue code accesses both the original arguments (via ebp)
601 * and the temporary copies prepared by the 16-bit side glue (via ebx).
602 * After completion, the stub will load ss:sp from the buffer at ebx
603 * and perform a far return to 16-bit code.
605 * To trick the relay stub into returning to us, we replace the 16-bit
606 * return address to the glue code by a cs:ip pair pointing to our
607 * return entry point (the original return address is saved first).
608 * Our return stub thus called will then reload the 32-bit ss:esp and
609 * return to 32-bit code (by using and ss:esp value that we have also
610 * pushed onto the 16-bit stack before and a cs:eip values found at
611 * that position on the 32-bit stack). The ss:esp to be restored is
612 * found relative to the 16-bit stack pointer at:
614 * (ebx-4) ss (flat)
615 * (ebx-8) sp (32-bit stack pointer)
617 * The second variant of this routine, CALL32_CBClientEx, which is used
618 * to implement KERNEL.621, has to cope with yet another problem: Here,
619 * the 32-bit side directly returns to the caller of the CBClient thunklet,
620 * restoring registers saved by CBClientGlueSL and cleaning up the stack.
621 * As we have to return to our 32-bit code first, we have to adapt the
622 * layout of our temporary area so as to include values for the registers
623 * that are to be restored, and later (in the implementation of KERNEL.621)
624 * we *really* restore them. The return stub restores DS, DI, SI, and BP
625 * from the stack, skips the next 8 bytes (CBClient relay code / target),
626 * and then performs a lret NN, where NN is the number of arguments to be
627 * removed. Thus, we prepare our temporary area as follows:
629 * (ebx+22) 16-bit cs (this segment)
630 * (ebx+20) 16-bit ip ('16-bit' return entry point)
631 * (ebx+16) 32-bit ss (flat)
632 * (ebx+12) 32-bit sp (32-bit stack pointer)
633 * (ebx+10) 16-bit bp (points to ebx+24)
634 * (ebx+8) 16-bit si (ignored)
635 * (ebx+6) 16-bit di (ignored)
636 * (ebx+4) 16-bit ds (we actually use the flat DS here)
637 * (ebx+2) 16-bit ss (16-bit stack segment)
638 * (ebx+0) 16-bit sp (points to ebx+4)
640 * Note that we ensure that DS is not changed and remains the flat segment,
641 * and the 32-bit stack pointer our own return stub needs fits just
642 * perfectly into the 8 bytes that are skipped by the Windows stub.
643 * One problem is that we have to determine the number of removed arguments,
644 * as these have to be really removed in KERNEL.621. Thus, the BP value
645 * that we place in the temporary area to be restored, contains the value
646 * that SP would have if no arguments were removed. By comparing the actual
647 * value of SP with this value in our return stub we can compute the number
648 * of removed arguments. This is then returned to KERNEL.621.
650 * The stack layout of this function:
651 * (ebp+20) nArgs pointer to variable receiving nr. of args (Ex only)
652 * (ebp+16) esi pointer to caller's esi value
653 * (ebp+12) arg ebp value to be set for relay stub
654 * (ebp+8) func CBClient relay stub address
655 * (ebp+4) ret addr
656 * (ebp) ebp
658 static void BuildCallTo32CBClient( FILE *outfile, BOOL isEx )
660 function_header( outfile, isEx ? "CALL32_CBClientEx" : "CALL32_CBClient" );
662 /* Entry code */
664 fprintf( outfile, "\tpushl %%ebp\n" );
665 fprintf( outfile, "\tmovl %%esp,%%ebp\n" );
666 fprintf( outfile, "\tpushl %%edi\n" );
667 fprintf( outfile, "\tpushl %%esi\n" );
668 fprintf( outfile, "\tpushl %%ebx\n" );
670 /* Get pointer to temporary area and save the 32-bit stack pointer */
672 fprintf( outfile, "\tmovl 16(%%ebp), %%ebx\n" );
673 fprintf( outfile, "\tleal -8(%%esp), %%eax\n" );
675 if ( !isEx )
676 fprintf( outfile, "\tmovl %%eax, -8(%%ebx)\n" );
677 else
678 fprintf( outfile, "\tmovl %%eax, 12(%%ebx)\n" );
680 /* Set up registers and call CBClient relay stub (simulating a far call) */
682 fprintf( outfile, "\tmovl 20(%%ebp), %%esi\n" );
683 fprintf( outfile, "\tmovl (%%esi), %%esi\n" );
685 fprintf( outfile, "\tmovl 8(%%ebp), %%eax\n" );
686 fprintf( outfile, "\tmovl 12(%%ebp), %%ebp\n" );
688 fprintf( outfile, "\tpushl %%cs\n" );
689 fprintf( outfile, "\tcall *%%eax\n" );
691 /* Return new esi value to caller */
693 fprintf( outfile, "\tmovl 32(%%esp), %%edi\n" );
694 fprintf( outfile, "\tmovl %%esi, (%%edi)\n" );
696 /* Return argument size to caller */
697 if ( isEx )
699 fprintf( outfile, "\tmovl 36(%%esp), %%ebx\n" );
700 fprintf( outfile, "\tmovl %%ebp, (%%ebx)\n" );
703 /* Restore registers and return */
705 fprintf( outfile, "\tpopl %%ebx\n" );
706 fprintf( outfile, "\tpopl %%esi\n" );
707 fprintf( outfile, "\tpopl %%edi\n" );
708 fprintf( outfile, "\tpopl %%ebp\n" );
709 fprintf( outfile, "\tret\n" );
710 function_footer( outfile, isEx ? "CALL32_CBClientEx" : "CALL32_CBClient" );
712 /* '16-bit' return stub */
714 function_header( outfile, isEx ? "CALL32_CBClientEx_Ret" : "CALL32_CBClient_Ret" );
715 if ( !isEx )
717 fprintf( outfile, "\tmovzwl %%sp, %%ebx\n" );
718 fprintf( outfile, "\tlssl %%ss:-16(%%ebx), %%esp\n" );
720 else
722 fprintf( outfile, "\tmovzwl %%bp, %%ebx\n" );
723 fprintf( outfile, "\tsubw %%bp, %%sp\n" );
724 fprintf( outfile, "\tmovzwl %%sp, %%ebp\n" );
725 fprintf( outfile, "\tlssl %%ss:-12(%%ebx), %%esp\n" );
727 fprintf( outfile, "\tlret\n" );
728 function_footer( outfile, isEx ? "CALL32_CBClientEx_Ret" : "CALL32_CBClient_Ret" );
732 /*******************************************************************
733 * BuildCallFrom32Regs
735 * Build a 32-bit-to-Wine call-back function for a 'register' function.
736 * 'args' is the number of dword arguments.
738 * Stack layout:
739 * ...
740 * (ebp+12) first arg
741 * (ebp+8) ret addr to user code
742 * (ebp+4) ret addr to relay code
743 * (ebp+0) saved ebp
744 * (ebp-128) buffer area to allow stack frame manipulation
745 * (ebp-332) CONTEXT86 struct
746 * (ebp-336) CONTEXT86 *argument
747 * .... other arguments copied from (ebp+12)
749 * The entry point routine is called with a CONTEXT* extra argument,
750 * following the normal args. In this context structure, EIP_reg
751 * contains the return address to user code, and ESP_reg the stack
752 * pointer on return (with the return address and arguments already
753 * removed).
755 static void BuildCallFrom32Regs( FILE *outfile )
757 static const int STACK_SPACE = 128 + sizeof(CONTEXT86);
759 /* Function header */
761 function_header( outfile, "__wine_call_from_32_regs" );
763 /* Allocate some buffer space on the stack */
765 fprintf( outfile, "\tpushl %%ebp\n" );
766 fprintf( outfile, "\tmovl %%esp,%%ebp\n ");
767 fprintf( outfile, "\tleal -%d(%%esp), %%esp\n", STACK_SPACE );
769 /* Build the context structure */
771 fprintf( outfile, "\tmovl %%eax,%d(%%ebp)\n", CONTEXTOFFSET(Eax) - STACK_SPACE );
772 fprintf( outfile, "\tpushfl\n" );
773 fprintf( outfile, "\tpopl %%eax\n" );
774 fprintf( outfile, "\tmovl %%eax,%d(%%ebp)\n", CONTEXTOFFSET(EFlags) - STACK_SPACE );
775 fprintf( outfile, "\tmovl 0(%%ebp),%%eax\n" );
776 fprintf( outfile, "\tmovl %%eax,%d(%%ebp)\n", CONTEXTOFFSET(Ebp) - STACK_SPACE );
777 fprintf( outfile, "\tmovl %%ebx,%d(%%ebp)\n", CONTEXTOFFSET(Ebx) - STACK_SPACE );
778 fprintf( outfile, "\tmovl %%ecx,%d(%%ebp)\n", CONTEXTOFFSET(Ecx) - STACK_SPACE );
779 fprintf( outfile, "\tmovl %%edx,%d(%%ebp)\n", CONTEXTOFFSET(Edx) - STACK_SPACE );
780 fprintf( outfile, "\tmovl %%esi,%d(%%ebp)\n", CONTEXTOFFSET(Esi) - STACK_SPACE );
781 fprintf( outfile, "\tmovl %%edi,%d(%%ebp)\n", CONTEXTOFFSET(Edi) - STACK_SPACE );
783 fprintf( outfile, "\txorl %%eax,%%eax\n" );
784 fprintf( outfile, "\tmovw %%cs,%%ax\n" );
785 fprintf( outfile, "\tmovl %%eax,%d(%%ebp)\n", CONTEXTOFFSET(SegCs) - STACK_SPACE );
786 fprintf( outfile, "\tmovw %%es,%%ax\n" );
787 fprintf( outfile, "\tmovl %%eax,%d(%%ebp)\n", CONTEXTOFFSET(SegEs) - STACK_SPACE );
788 fprintf( outfile, "\tmovw %%fs,%%ax\n" );
789 fprintf( outfile, "\tmovl %%eax,%d(%%ebp)\n", CONTEXTOFFSET(SegFs) - STACK_SPACE );
790 fprintf( outfile, "\tmovw %%gs,%%ax\n" );
791 fprintf( outfile, "\tmovl %%eax,%d(%%ebp)\n", CONTEXTOFFSET(SegGs) - STACK_SPACE );
792 fprintf( outfile, "\tmovw %%ss,%%ax\n" );
793 fprintf( outfile, "\tmovl %%eax,%d(%%ebp)\n", CONTEXTOFFSET(SegSs) - STACK_SPACE );
794 fprintf( outfile, "\tmovw %%ds,%%ax\n" );
795 fprintf( outfile, "\tmovl %%eax,%d(%%ebp)\n", CONTEXTOFFSET(SegDs) - STACK_SPACE );
796 fprintf( outfile, "\tmovw %%ax,%%es\n" ); /* set %es equal to %ds just in case */
798 fprintf( outfile, "\tmovl $0x%x,%%eax\n", CONTEXT86_FULL );
799 fprintf( outfile, "\tmovl %%eax,%d(%%ebp)\n", CONTEXTOFFSET(ContextFlags) - STACK_SPACE );
801 fprintf( outfile, "\tmovl 8(%%ebp),%%eax\n" ); /* Get %eip at time of call */
802 fprintf( outfile, "\tmovl %%eax,%d(%%ebp)\n", CONTEXTOFFSET(Eip) - STACK_SPACE );
804 /* Transfer the arguments */
806 fprintf( outfile, "\tmovl 4(%%ebp),%%ebx\n" ); /* get relay code addr */
807 fprintf( outfile, "\tpushl %%esp\n" ); /* push ptr to context struct */
808 fprintf( outfile, "\tmovzbl 4(%%ebx),%%ecx\n" ); /* fetch number of args to copy */
809 fprintf( outfile, "\tjecxz 1f\n" );
810 fprintf( outfile, "\tsubl %%ecx,%%esp\n" );
811 fprintf( outfile, "\tleal 12(%%ebp),%%esi\n" ); /* get %esp at time of call */
812 fprintf( outfile, "\tmovl %%esp,%%edi\n" );
813 fprintf( outfile, "\tshrl $2,%%ecx\n" );
814 fprintf( outfile, "\tcld\n" );
815 fprintf( outfile, "\trep\n\tmovsl\n" ); /* copy args */
817 fprintf( outfile, "1:\tmovzbl 5(%%ebx),%%eax\n" ); /* fetch number of args to remove */
818 fprintf( outfile, "\tleal 12(%%ebp,%%eax),%%eax\n" );
819 fprintf( outfile, "\tmovl %%eax,%d(%%ebp)\n", CONTEXTOFFSET(Esp) - STACK_SPACE );
821 /* Call the entry point */
823 fprintf( outfile, "\taddl (%%ebx),%%ebx\n" );
824 fprintf( outfile, "\tcall *%%ebx\n" );
825 fprintf( outfile, "\tleal -%d(%%ebp),%%ecx\n", STACK_SPACE );
827 /* Restore the context structure */
829 fprintf( outfile, "2:\tpushl %d(%%ecx)\n", CONTEXTOFFSET(SegEs) );
830 fprintf( outfile, "\tpopl %%es\n" );
831 fprintf( outfile, "\tpushl %d(%%ecx)\n", CONTEXTOFFSET(SegFs) );
832 fprintf( outfile, "\tpopl %%fs\n" );
833 fprintf( outfile, "\tpushl %d(%%ecx)\n", CONTEXTOFFSET(SegGs) );
834 fprintf( outfile, "\tpopl %%gs\n" );
836 fprintf( outfile, "\tmovl %d(%%ecx),%%edi\n", CONTEXTOFFSET(Edi) );
837 fprintf( outfile, "\tmovl %d(%%ecx),%%esi\n", CONTEXTOFFSET(Esi) );
838 fprintf( outfile, "\tmovl %d(%%ecx),%%edx\n", CONTEXTOFFSET(Edx) );
839 fprintf( outfile, "\tmovl %d(%%ecx),%%ebx\n", CONTEXTOFFSET(Ebx) );
840 fprintf( outfile, "\tmovl %d(%%ecx),%%eax\n", CONTEXTOFFSET(Eax) );
841 fprintf( outfile, "\tmovl %d(%%ecx),%%ebp\n", CONTEXTOFFSET(Ebp) );
843 fprintf( outfile, "\tpushl %d(%%ecx)\n", CONTEXTOFFSET(SegSs) );
844 fprintf( outfile, "\tpopl %%ss\n" );
845 fprintf( outfile, "\tmovl %d(%%ecx),%%esp\n", CONTEXTOFFSET(Esp) );
847 fprintf( outfile, "\tpushl %d(%%ecx)\n", CONTEXTOFFSET(EFlags) );
848 fprintf( outfile, "\tpushl %d(%%ecx)\n", CONTEXTOFFSET(SegCs) );
849 fprintf( outfile, "\tpushl %d(%%ecx)\n", CONTEXTOFFSET(Eip) );
850 fprintf( outfile, "\tpushl %d(%%ecx)\n", CONTEXTOFFSET(SegDs) );
851 fprintf( outfile, "\tmovl %d(%%ecx),%%ecx\n", CONTEXTOFFSET(Ecx) );
853 fprintf( outfile, "\tpopl %%ds\n" );
854 fprintf( outfile, "\tiret\n" );
855 function_footer( outfile, "__wine_call_from_32_regs" );
857 function_header( outfile, "__wine_call_from_32_restore_regs" );
858 fprintf( outfile, "\tleal 4(%%esp),%%ecx\n" );
859 fprintf( outfile, "\tjmp 2b\n" );
860 function_footer( outfile, "__wine_call_from_32_restore_regs" );
864 /*******************************************************************
865 * BuildPendingEventCheck
867 * Build a function that checks whether there are any
868 * pending DPMI events.
870 * Stack layout:
872 * (sp+12) long eflags
873 * (sp+6) long cs
874 * (sp+2) long ip
875 * (sp) word fs
877 * On entry to function, fs register points to a valid TEB.
878 * On exit from function, stack will be popped.
880 static void BuildPendingEventCheck( FILE *outfile )
882 /* Function header */
884 function_header( outfile, "DPMI_PendingEventCheck" );
886 /* Check for pending events. */
888 fprintf( outfile, "\t.byte 0x64\n\ttestl $0xffffffff,(%d)\n",
889 STRUCTOFFSET(TEB,vm86_pending) );
890 fprintf( outfile, "\tje %s\n", asm_name("DPMI_PendingEventCheck_Cleanup") );
892 fprintf( outfile, "\t.byte 0x64\n\ttestl $0xffffffff,(%d)\n",
893 STRUCTOFFSET(TEB,dpmi_vif) );
895 fprintf( outfile, "\tje %s\n", asm_name("DPMI_PendingEventCheck_Cleanup") );
897 /* Process pending events. */
899 fprintf( outfile, "\tsti\n" );
901 /* Start cleanup. Restore fs register. */
903 fprintf( outfile, "\t.globl %s\n", asm_name("DPMI_PendingEventCheck_Cleanup") );
904 fprintf( outfile, "%s:\n", asm_name("DPMI_PendingEventCheck_Cleanup") );
905 fprintf( outfile, "\tpopw %%fs\n" );
907 /* Return from function. */
909 fprintf( outfile, "\t.globl %s\n", asm_name("DPMI_PendingEventCheck_Return") );
910 fprintf( outfile, "%s:\n", asm_name("DPMI_PendingEventCheck_Return") );
911 fprintf( outfile, "\tiret\n" );
913 function_footer( outfile, "DPMI_PendingEventCheck" );
917 /*******************************************************************
918 * BuildRelays16
920 * Build all the 16-bit relay callbacks
922 void BuildRelays16( FILE *outfile )
924 if (target_cpu != CPU_x86)
926 fprintf( outfile, "/* File not used with this architecture. Do not edit! */\n\n" );
927 return;
930 /* File header */
932 fprintf( outfile, "/* File generated automatically. Do not edit! */\n\n" );
933 fprintf( outfile, "\t.text\n" );
935 fprintf( outfile, "%s:\n\n", asm_name("__wine_spec_thunk_text_16") );
937 fprintf( outfile, "\t.globl %s\n", asm_name("__wine_call16_start") );
938 fprintf( outfile, "%s:\n", asm_name("__wine_call16_start") );
940 /* Standard CallFrom16 routine (WORD return) */
941 BuildCallFrom16Core( outfile, FALSE, FALSE, TRUE );
943 /* Standard CallFrom16 routine (DWORD return) */
944 BuildCallFrom16Core( outfile, FALSE, FALSE, FALSE );
946 /* Register CallFrom16 routine */
947 BuildCallFrom16Core( outfile, TRUE, FALSE, FALSE );
949 /* C16ThkSL CallFrom16 routine */
950 BuildCallFrom16Core( outfile, FALSE, TRUE, FALSE );
952 /* Standard CallTo16 routine */
953 BuildCallTo16Core( outfile, 0 );
955 /* Register CallTo16 routine */
956 BuildCallTo16Core( outfile, 1 );
958 /* Standard CallTo16 return stub */
959 BuildRet16Func( outfile );
961 /* CBClientThunkSL routine */
962 BuildCallTo32CBClient( outfile, FALSE );
964 /* CBClientThunkSLEx routine */
965 BuildCallTo32CBClient( outfile, TRUE );
967 /* Pending DPMI events check stub */
968 BuildPendingEventCheck( outfile );
970 fprintf( outfile, "\t.globl %s\n", asm_name("__wine_call16_end") );
971 fprintf( outfile, "%s:\n", asm_name("__wine_call16_end") );
972 function_footer( outfile, "__wine_spec_thunk_text_16" );
974 /* Declare the return address and data selector variables */
975 fprintf( outfile, "\n\t.data\n\t.align %d\n", get_alignment(4) );
976 fprintf( outfile, "\t.globl %s\n", asm_name("CallTo16_DataSelector") );
977 fprintf( outfile, "%s:\t.long 0\n", asm_name("CallTo16_DataSelector") );
978 fprintf( outfile, "\t.globl %s\n", asm_name("CallTo16_TebSelector") );
979 fprintf( outfile, "%s:\t.long 0\n", asm_name("CallTo16_TebSelector") );
980 if (UsePIC) fprintf( outfile, "wine_ldt_copy_ptr:\t.long %s\n", asm_name("wine_ldt_copy") );
983 /*******************************************************************
984 * BuildRelays32
986 * Build all the 32-bit relay callbacks
988 void BuildRelays32( FILE *outfile )
990 if (target_cpu != CPU_x86)
992 fprintf( outfile, "/* File not used with this architecture. Do not edit! */\n\n" );
993 return;
996 /* File header */
998 fprintf( outfile, "/* File generated automatically. Do not edit! */\n\n" );
999 fprintf( outfile, "\t.text\n" );
1000 fprintf( outfile, "%s:\n\n", asm_name("__wine_spec_thunk_text_32") );
1002 /* 32-bit register entry point */
1003 BuildCallFrom32Regs( outfile );
1005 function_footer( outfile, "__wine_spec_thunk_text_32" );