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source: vbox/trunk/src/VBox/ValidationKit/bootsectors/bootsector2-test1-template.mac@ 93288

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1; $Id: bootsector2-test1-template.mac 93115 2022-01-01 11:31:46Z vboxsync $
2;; @file
3; bootsector2 test1 - multi mode template.
4;
5
6;
7; Copyright (C) 2007-2022 Oracle Corporation
8;
9; This file is part of VirtualBox Open Source Edition (OSE), as
10; available from http://www.virtualbox.org. This file is free software;
11; you can redistribute it and/or modify it under the terms of the GNU
12; General Public License (GPL) as published by the Free Software
13; Foundation, in version 2 as it comes in the "COPYING" file of the
14; VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15; hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16;
17; The contents of this file may alternatively be used under the terms
18; of the Common Development and Distribution License Version 1.0
19; (CDDL) only, as it comes in the "COPYING.CDDL" file of the
20; VirtualBox OSE distribution, in which case the provisions of the
21; CDDL are applicable instead of those of the GPL.
22;
23; You may elect to license modified versions of this file under the
24; terms and conditions of either the GPL or the CDDL or both.
25;
26
27
28%include "bootsector2-template-header.mac"
29
30;;
31; Run the CPUID benchmark for this mode.
32;
33; @uses nothing
34;
35BEGINCODELOW
36BITS 16
37BEGINPROC TMPL_NM(BenchmarkFlushCmd_rm)
38 call TMPL_NM(Bs2IsModeSupported_rm)
39 jz .done
40 call TMPL_NM(Bs2EnterMode_rm)
41BITS TMPL_BITS
42 push xBP
43 mov xBP, xSP
44 push sAX
45 push sBX
46 push sCX
47 push sDX
48 push sDI
49 sub sSP, 20h
50
51 ; Get the current time.
52 mov xAX, xSP
53 call TMPL_NM_CMN(GetNanoTS)
54
55 ; Do the test.
56 mov edi, TEST_INSTRUCTION_COUNT_IO / 4
57%define MSR_IA32_FLUSH_CMD 0x10b
58%define MSR_IA32_FLUSH_CMD_F_L1D RT_BIT_32(0)
59 mov ecx, MSR_IA32_FLUSH_CMD
60 mov eax, MSR_IA32_FLUSH_CMD_F_L1D
61 xor edx, edx
62.again:
63 wrmsr
64 wrmsr
65 wrmsr
66 wrmsr
67 dec edi
68 jnz .again
69
70 ; Calc the elapsed time and report the result.
71 mov xAX, xSP
72 call TMPL_NM_CMN(GetElapsedNanoTS)
73
74 mov xCX, .s_szTestName
75 mov edx, TEST_INSTRUCTION_COUNT_IO
76 mov xAX, xSP
77 call TMPL_NM_CMN(ReportResult)
78
79 add sSP, 20h
80 pop sDI
81 pop sDX
82 pop sCX
83 pop sBX
84 pop sAX
85 leave
86
87 call TMPL_NM(Bs2ExitMode)
88BITS 16
89.done:
90 ret
91
92.s_szTestName:
93 db TMPL_MODE_STR, ', FLUSH_CMD', 0
94ENDPROC TMPL_NM(BenchmarkFlushCmd_rm)
95
96TMPL_BEGINCODE
97BITS TMPL_BITS
98
99
100;;
101; Run the CPUID benchmark for this mode.
102;
103; @uses nothing
104;
105BEGINCODELOW
106BITS 16
107BEGINPROC TMPL_NM(BenchmarkCpuId_rm)
108 call TMPL_NM(Bs2IsModeSupported_rm)
109 jz .done
110 call TMPL_NM(Bs2EnterMode_rm)
111BITS TMPL_BITS
112 push xBP
113 mov xBP, xSP
114 push sAX
115 push sBX
116 push sCX
117 push sDX
118 push sDI
119 sub sSP, 20h
120
121 ; Get the current time.
122 mov xAX, xSP
123 call TMPL_NM_CMN(GetNanoTS)
124
125 ; Do the test.
126 mov edi, TEST_INSTRUCTION_COUNT_CPUID / 4
127.again:
128 mov eax, 1
129 cpuid
130 mov eax, 1
131 cpuid
132 mov eax, 1
133 cpuid
134 mov eax, 1
135 cpuid
136 dec edi
137 jnz .again
138
139 ; Calc the elapsed time and report the result.
140 mov xAX, xSP
141 call TMPL_NM_CMN(GetElapsedNanoTS)
142
143 mov xCX, .s_szTestName
144 mov edx, TEST_INSTRUCTION_COUNT_CPUID
145 mov xAX, xSP
146 call TMPL_NM_CMN(ReportResult)
147
148 add sSP, 20h
149 pop sDI
150 pop sDX
151 pop sCX
152 pop sBX
153 pop sAX
154 leave
155
156 call TMPL_NM(Bs2ExitMode)
157BITS 16
158.done:
159 ret
160
161.s_szTestName:
162 db TMPL_MODE_STR, ', CPUID', 0
163ENDPROC TMPL_NM(BenchmarkCpuId_rm)
164
165TMPL_BEGINCODE
166BITS TMPL_BITS
167
168
169;;
170; Run the RDTSC benchmark for this mode.
171;
172; @uses nothing
173;
174BEGINCODELOW
175BITS 16
176BEGINPROC TMPL_NM(BenchmarkRdTsc_rm)
177 call TMPL_NM(Bs2IsModeSupported_rm)
178 jz .done
179 call TMPL_NM(Bs2EnterMode_rm)
180BITS TMPL_BITS
181 push xBP
182 mov xBP, xSP
183 push sAX
184 push sBX
185 push sCX
186 push sDX
187 push sDI
188 sub sSP, 20h
189
190 ; Get the current time.
191 mov xAX, xSP
192 call TMPL_NM_CMN(GetNanoTS)
193
194 ; Do the test.
195 mov edi, TEST_INSTRUCTION_COUNT_RDTSC / 4
196.again:
197 rdtsc
198 rdtsc
199 rdtsc
200 rdtsc
201 dec edi
202 jnz .again
203
204 ; Calc the elapsed time and report the result.
205 mov xAX, xSP
206 call TMPL_NM_CMN(GetElapsedNanoTS)
207
208 mov xCX, .s_szTestName
209 mov edx, TEST_INSTRUCTION_COUNT_RDTSC
210 mov xAX, xSP
211 call TMPL_NM_CMN(ReportResult)
212
213 add sSP, 20h
214 pop sDI
215 pop sDX
216 pop sCX
217 pop sBX
218 pop sAX
219 leave
220
221 call TMPL_NM(Bs2ExitMode)
222BITS 16
223.done:
224 ret
225
226.s_szTestName:
227 db TMPL_MODE_STR, ', RDTSC', 0
228ENDPROC TMPL_NM(BenchmarkRdTsc_rm)
229
230TMPL_BEGINCODE
231BITS TMPL_BITS
232
233
234;;
235; Run the Read CR4 benchmark for this mode.
236;
237; @uses nothing
238;
239BEGINCODELOW
240BITS 16
241BEGINPROC TMPL_NM(BenchmarkRdCr4_rm)
242 call TMPL_NM(Bs2IsModeSupported_rm)
243 jz .done
244 call TMPL_NM(Bs2EnterMode_rm)
245BITS TMPL_BITS
246 push xBP
247 mov xBP, xSP
248 push sAX
249 push sBX
250 push sCX
251 push sDX
252 push sDI
253 sub sSP, 20h
254
255 ; Get the current time.
256 mov xAX, xSP
257 call TMPL_NM_CMN(GetNanoTS)
258
259 ; Do the test.
260 mov edi, TEST_INSTRUCTION_COUNT_READCR4 / 4
261.again:
262 mov sAX, cr4
263 mov sAX, cr4
264 mov sAX, cr4
265 mov sAX, cr4
266 dec edi
267 jnz .again
268
269 ; Calc the elapsed time and report the result.
270 mov xAX, xSP
271 call TMPL_NM_CMN(GetElapsedNanoTS)
272
273 mov xCX, .s_szTestName
274 mov edx, TEST_INSTRUCTION_COUNT_READCR4
275 mov xAX, xSP
276 call TMPL_NM_CMN(ReportResult)
277
278 add sSP, 20h
279 pop sDI
280 pop sDX
281 pop sCX
282 pop sBX
283 pop sAX
284 leave
285
286 call TMPL_NM(Bs2ExitMode)
287BITS 16
288.done:
289 ret
290
291.s_szTestName:
292 db TMPL_MODE_STR, ', Read CR4', 0
293ENDPROC TMPL_NM(BenchmarkRdCr4_rm)
294
295TMPL_BEGINCODE
296BITS TMPL_BITS
297
298
299;;
300; Prologue for the I/O port tests.
301%ifndef HaveIoPortPrologue
302%define HaveIoPortPrologue
303%macro IoPortPrologue 2
304 push xBP
305 mov xBP, xSP
306 push sAX
307 push sDX
308 push sCX
309 sub xSP, 20h
310
311 ; Get the current time.
312 mov xAX, xSP
313 call TMPL_NM_CMN(GetNanoTS)
314
315 ; Do the test.
316 mov dx, %2
317 mov ecx, (%1) / 5
318%endmacro
319%endif
320
321
322;;
323; Epilogue for the I/O port tests.
324%ifndef HaveIoPortEpilogue
325%define HaveIoPortEpilogue
326%macro IoPortEpilogue 1
327 ; Calc the elapsed time and report the result.
328 mov xAX, xSP
329 call TMPL_NM_CMN(GetElapsedNanoTS)
330
331 mov xCX, .s_szTestName
332 mov edx, (%1)
333 mov xAX, xSP
334 call TMPL_NM_CMN(ReportResult)
335
336 add xSP, 20h
337 pop sCX
338 pop sDX
339 pop sAX
340 leave
341 ret
342%endmacro
343%endif
344
345
346;;
347; Benchmarks: IN eax, NOP
348;
349; @uses nothing
350;
351BEGINPROC TMPL_NM(BenchmarkIoPortNop32In)
352 IoPortPrologue TEST_INSTRUCTION_COUNT_IO, VMMDEV_TESTING_IOPORT_NOP
353.again:
354 in eax, dx
355 in eax, dx
356 in eax, dx
357 in eax, dx
358 in eax, dx
359 dec ecx
360 jnz .again
361 IoPortEpilogue TEST_INSTRUCTION_COUNT_IO
362.s_szTestName:
363 db TMPL_MODE_STR, ', 32-bit IN', 0
364ENDPROC TMPL_NM(BenchmarkIoPortNop32In)
365
366
367;;
368; Benchmarks: OUT NOP, eax
369;
370; @uses nothing
371;
372BEGINPROC TMPL_NM(BenchmarkIoPortNop32Out)
373 IoPortPrologue TEST_INSTRUCTION_COUNT_IO, VMMDEV_TESTING_IOPORT_NOP
374.again:
375 out dx, eax
376 out dx, eax
377 out dx, eax
378 out dx, eax
379 out dx, eax
380 dec ecx
381 jnz .again
382 IoPortEpilogue TEST_INSTRUCTION_COUNT_IO
383.s_szTestName:
384 db TMPL_MODE_STR, ', 32-bit OUT', 0
385ENDPROC TMPL_NM(BenchmarkIoPortNop32Out)
386
387
388;;
389; Benchmarks: IN ax, NOP
390;
391; @uses nothing
392;
393BEGINPROC TMPL_NM(BenchmarkIoPortNop16In)
394 IoPortPrologue TEST_INSTRUCTION_COUNT_IO, VMMDEV_TESTING_IOPORT_NOP
395.again:
396 in ax, dx
397 in ax, dx
398 in ax, dx
399 in ax, dx
400 in ax, dx
401 dec ecx
402 jnz .again
403 IoPortEpilogue TEST_INSTRUCTION_COUNT_IO
404.s_szTestName:
405 db TMPL_MODE_STR, ', 16-bit IN', 0
406ENDPROC TMPL_NM(BenchmarkIoPortNop16In)
407
408
409;;
410; Benchmarks: OUT NOP, ax
411;
412; @uses nothing
413;
414BEGINPROC TMPL_NM(BenchmarkIoPortNop16Out)
415 IoPortPrologue TEST_INSTRUCTION_COUNT_IO, VMMDEV_TESTING_IOPORT_NOP
416.again:
417 out dx, ax
418 out dx, ax
419 out dx, ax
420 out dx, ax
421 out dx, ax
422 dec ecx
423 jnz .again
424 IoPortEpilogue TEST_INSTRUCTION_COUNT_IO
425.s_szTestName:
426 db TMPL_MODE_STR, ', 16-bit OUT', 0
427ENDPROC TMPL_NM(BenchmarkIoPortNop16Out)
428
429
430;;
431; Benchmarks: IN al, NOP
432;
433; @uses nothing
434;
435BEGINPROC TMPL_NM(BenchmarkIoPortNop8In)
436 IoPortPrologue TEST_INSTRUCTION_COUNT_IO, VMMDEV_TESTING_IOPORT_NOP
437.again:
438 in al, dx
439 in al, dx
440 in al, dx
441 in al, dx
442 in al, dx
443 dec ecx
444 jnz .again
445 IoPortEpilogue TEST_INSTRUCTION_COUNT_IO
446.s_szTestName:
447 db TMPL_MODE_STR, ', 8-bit IN', 0
448ENDPROC TMPL_NM(BenchmarkIoPortNop8In)
449
450
451;;
452; Benchmarks: OUT NOP, al
453;
454; @uses nothing
455;
456BEGINPROC TMPL_NM(BenchmarkIoPortNop8Out)
457 IoPortPrologue TEST_INSTRUCTION_COUNT_IO, VMMDEV_TESTING_IOPORT_NOP
458.again:
459 out dx, al
460 out dx, al
461 out dx, al
462 out dx, al
463 out dx, al
464 dec ecx
465 jnz .again
466 IoPortEpilogue TEST_INSTRUCTION_COUNT_IO
467.s_szTestName:
468 db TMPL_MODE_STR, ', 8-bit OUT', 0
469ENDPROC TMPL_NM(BenchmarkIoPortNop8Out)
470
471
472;;
473; Benchmarks: IN eax, NOP_R3
474;
475; @uses nothing
476;
477BEGINPROC TMPL_NM(BenchmarkIoPortRing3Nop32In)
478 IoPortPrologue TEST_INSTRUCTION_COUNT_IO, VMMDEV_TESTING_IOPORT_NOP_R3
479.again:
480 in eax, dx
481 in eax, dx
482 in eax, dx
483 in eax, dx
484 in eax, dx
485 dec ecx
486 jnz .again
487 IoPortEpilogue TEST_INSTRUCTION_COUNT_IO
488.s_szTestName:
489 db TMPL_MODE_STR, ', 32-bit IN-to-ring-3', 0
490ENDPROC TMPL_NM(BenchmarkIoPortRing3Nop32In)
491
492
493;;
494; Benchmarks: OUT NOP_R3, eax
495;
496; @uses nothing
497;
498BEGINPROC TMPL_NM(BenchmarkIoPortRing3Nop32Out)
499 IoPortPrologue TEST_INSTRUCTION_COUNT_IO, VMMDEV_TESTING_IOPORT_NOP_R3
500.again:
501 out dx, eax
502 out dx, eax
503 out dx, eax
504 out dx, eax
505 out dx, eax
506 dec ecx
507 jnz .again
508 IoPortEpilogue TEST_INSTRUCTION_COUNT_IO
509.s_szTestName:
510 db TMPL_MODE_STR, ', 32-bit OUT-to-ring-3', 0
511ENDPROC TMPL_NM(BenchmarkIoPortRing3Nop32Out)
512
513
514%undef IoPortPrologue
515%undef IoPortEpilogue
516
517
518;;
519; Run the I/O benchmarks for this mode.
520;
521; @uses nothing
522;
523BEGINCODELOW
524BITS 16
525BEGINPROC TMPL_NM(BenchmarkIoPortNop_rm)
526 call TMPL_NM(Bs2IsModeSupported_rm)
527 jz .done
528 call TMPL_NM(Bs2EnterMode_rm)
529BITS TMPL_BITS
530
531 call TMPL_NM(BenchmarkIoPortNop32In)
532 call TMPL_NM(BenchmarkIoPortNop32Out)
533%ifndef QUICK_TEST
534 call TMPL_NM(BenchmarkIoPortNop16In)
535 call TMPL_NM(BenchmarkIoPortNop16Out)
536 call TMPL_NM(BenchmarkIoPortNop8In)
537 call TMPL_NM(BenchmarkIoPortNop8Out)
538%endif
539 call TMPL_NM(BenchmarkIoPortRing3Nop32In)
540 call TMPL_NM(BenchmarkIoPortRing3Nop32Out)
541
542 call TMPL_NM(Bs2ExitMode)
543BITS 16
544.done:
545 ret
546ENDPROC TMPL_NM(BenchmarkIoPortNop_rm)
547
548TMPL_BEGINCODE
549BITS TMPL_BITS
550
551
552
553
554;;
555; Prologue for the MMIO tests.
556%ifndef HaveMmioPrologue
557%define HaveMmioPrologue
558%macro MmioPrologue 2
559 push xBP
560 mov xBP, xSP
561 push sAX
562 push sDX
563 push sCX
564 push sBX
565 sub xSP, 20h
566
567 ; Get the current time.
568 mov xAX, xSP
569 call TMPL_NM_CMN(GetNanoTS)
570
571 ; Do the test - X million 32-bit IN instructions.
572%ifdef TMPL_16BIT
573 mov dx, ds ; save ds
574 %ifdef TMPL_RM
575 mov bx, VMMDEV_TESTING_MMIO_RM_SEL
576 mov ds, bx
577 mov ebx, VMMDEV_TESTING_MMIO_RM_OFF(%2)
578 %else
579 mov bx, BS2_SEL_MMIO16
580 mov ds, bx
581 mov ebx, %2 - BS2_SEL_MMIO16_BASE
582 %endif
583%else
584 mov xBX, %2
585%endif
586 mov ecx, (%1) / 5
587%endmacro
588%endif
589
590;;
591; Epilogue for the MMIO tests.
592%ifndef HaveMmioEpilogue
593%define HaveMmioEpilogue
594%macro MmioEpilogue 1
595%ifdef TMPL_16BIT
596 mov ds, dx ; restore ds
597%endif
598
599 ; Calc the elapsed time and report the result.
600 mov xAX, xSP
601 call TMPL_NM_CMN(GetElapsedNanoTS)
602
603 mov xCX, .s_szTestName
604 mov edx, (%1)
605 mov xAX, xSP
606 call TMPL_NM_CMN(ReportResult)
607
608 add xSP, 20h
609 pop sBX
610 pop sCX
611 pop sDX
612 pop sAX
613 leave
614 ret
615%endmacro
616%endif
617
618
619;;
620; Benchmarks: MOV eax, [NOP]
621;
622; @uses nothing
623;
624BEGINPROC TMPL_NM(BenchmarkMmioNop32Read)
625 MmioPrologue TEST_INSTRUCTION_COUNT_MMIO, VMMDEV_TESTING_MMIO_NOP
626.again:
627 mov eax, [sBX]
628 mov eax, [sBX]
629 mov eax, [sBX]
630 mov eax, [sBX]
631 mov eax, [sBX]
632 dec ecx
633 jnz .again
634 MmioEpilogue TEST_INSTRUCTION_COUNT_MMIO
635.s_szTestName:
636 db TMPL_MODE_STR, ', 32-bit read', 0
637ENDPROC TMPL_NM(BenchmarkMmioNop32Read)
638
639
640;;
641; Benchmarks: MOV [NOP], eax
642;
643; @uses nothing
644;
645BEGINPROC TMPL_NM(BenchmarkMmioNop32Write)
646 MmioPrologue TEST_INSTRUCTION_COUNT_MMIO, VMMDEV_TESTING_MMIO_NOP
647.again:
648 mov [sBX], eax
649 mov [sBX], eax
650 mov [sBX], eax
651 mov [sBX], eax
652 mov [sBX], eax
653 dec ecx
654 jnz .again
655 MmioEpilogue TEST_INSTRUCTION_COUNT_MMIO
656.s_szTestName:
657 db TMPL_MODE_STR, ', 32-bit write', 0
658ENDPROC TMPL_NM(BenchmarkMmioNop32Write)
659
660
661;;
662; Benchmarks: MOV ax, [NOP]
663;
664; @uses nothing
665;
666BEGINPROC TMPL_NM(BenchmarkMmioNop16Read)
667 MmioPrologue TEST_INSTRUCTION_COUNT_MMIO, VMMDEV_TESTING_MMIO_NOP
668.again:
669 mov ax, [xBX]
670 mov ax, [xBX]
671 mov ax, [xBX]
672 mov ax, [xBX]
673 mov ax, [xBX]
674 dec ecx
675 jnz .again
676 MmioEpilogue TEST_INSTRUCTION_COUNT_MMIO
677.s_szTestName:
678 db TMPL_MODE_STR, ', 16-bit read', 0
679ENDPROC TMPL_NM(BenchmarkMmioNop16Read)
680
681
682;;
683; Benchmarks: MOV [NOP], ax
684;
685; @uses nothing
686;
687BEGINPROC TMPL_NM(BenchmarkMmioNop16Write)
688 MmioPrologue TEST_INSTRUCTION_COUNT_MMIO, VMMDEV_TESTING_MMIO_NOP
689.again:
690 mov [xBX], ax
691 mov [xBX], ax
692 mov [xBX], ax
693 mov [xBX], ax
694 mov [xBX], ax
695 dec ecx
696 jnz .again
697 MmioEpilogue TEST_INSTRUCTION_COUNT_MMIO
698.s_szTestName:
699 db TMPL_MODE_STR, ', 16-bit write', 0
700ENDPROC TMPL_NM(BenchmarkMmioNop16Write)
701
702
703;;
704; Benchmarks: MOV al, [NOP]
705;
706; @uses nothing
707;
708BEGINPROC TMPL_NM(BenchmarkMmioNop8Read)
709 MmioPrologue TEST_INSTRUCTION_COUNT_MMIO, VMMDEV_TESTING_MMIO_NOP
710.again:
711 mov al, [xBX]
712 mov al, [xBX]
713 mov al, [xBX]
714 mov al, [xBX]
715 mov al, [xBX]
716 dec ecx
717 jnz .again
718 MmioEpilogue TEST_INSTRUCTION_COUNT_MMIO
719.s_szTestName:
720 db TMPL_MODE_STR, ', 8-bit read', 0
721ENDPROC TMPL_NM(BenchmarkMmioNop8Read)
722
723
724;;
725; Benchmarks: MOV [NOP], al
726;
727; @uses nothing
728;
729BEGINPROC TMPL_NM(BenchmarkMmioNop8Write)
730 MmioPrologue TEST_INSTRUCTION_COUNT_MMIO, VMMDEV_TESTING_MMIO_NOP
731.again:
732 mov [xBX], al
733 mov [xBX], al
734 mov [xBX], al
735 mov [xBX], al
736 mov [xBX], al
737 dec ecx
738 jnz .again
739 MmioEpilogue TEST_INSTRUCTION_COUNT_MMIO
740.s_szTestName:
741 db TMPL_MODE_STR, ', 8-bit write', 0
742ENDPROC TMPL_NM(BenchmarkMmioNop8Write)
743
744
745;;
746; Benchmarks: MOV eax, [NOP_R3]
747;
748; @uses nothing
749;
750BEGINPROC TMPL_NM(BenchmarkMmioRing3Nop32Read)
751 MmioPrologue TEST_INSTRUCTION_COUNT_MMIO, VMMDEV_TESTING_MMIO_NOP_R3
752.again:
753 mov eax, [sBX]
754 mov eax, [sBX]
755 mov eax, [sBX]
756 mov eax, [sBX]
757 mov eax, [sBX]
758 dec ecx
759 jnz .again
760 MmioEpilogue TEST_INSTRUCTION_COUNT_MMIO
761.s_szTestName:
762 db TMPL_MODE_STR, ', 32-bit read-to-ring-3', 0
763ENDPROC TMPL_NM(BenchmarkMmioRing3Nop32Read)
764
765
766;;
767; Benchmarks: MOV [NOP_R3], eax
768;
769; @uses nothing
770;
771BEGINPROC TMPL_NM(BenchmarkMmioRing3Nop32Write)
772 MmioPrologue TEST_INSTRUCTION_COUNT_MMIO, VMMDEV_TESTING_MMIO_NOP_R3
773.again:
774 mov [sBX], eax
775 mov [sBX], eax
776 mov [sBX], eax
777 mov [sBX], eax
778 mov [sBX], eax
779 dec ecx
780 jnz .again
781 MmioEpilogue TEST_INSTRUCTION_COUNT_MMIO
782.s_szTestName:
783 db TMPL_MODE_STR, ', 32-bit write-to-ring-3', 0
784ENDPROC TMPL_NM(BenchmarkMmioRing3Nop32Write)
785
786
787%undef MmioPrologue
788%undef MmioEpilogue
789
790
791;;
792; Do the MMIO tests for this mode.
793;
794; @uses nothing
795;
796BEGINCODELOW
797BITS 16
798BEGINPROC TMPL_NM(BenchmarkMmioNop_rm)
799 call TMPL_NM(Bs2IsModeSupported_rm)
800 jz .done
801 call TMPL_NM(Bs2EnterMode_rm)
802BITS TMPL_BITS
803
804 call TMPL_NM(BenchmarkMmioNop32Read)
805 call TMPL_NM(BenchmarkMmioNop32Write)
806%ifndef QUICK_TEST
807 call TMPL_NM(BenchmarkMmioNop16Read)
808 call TMPL_NM(BenchmarkMmioNop16Write)
809 call TMPL_NM(BenchmarkMmioNop8Read)
810 call TMPL_NM(BenchmarkMmioNop8Write)
811%endif
812 call TMPL_NM(BenchmarkMmioRing3Nop32Read)
813 call TMPL_NM(BenchmarkMmioRing3Nop32Write)
814
815 call TMPL_NM(Bs2ExitMode)
816BITS 16
817.done:
818 ret
819ENDPROC TMPL_NM(BenchmarkMmioNop_rm)
820
821TMPL_BEGINCODE
822BITS TMPL_BITS
823
824
825%include "bootsector2-template-footer.mac"
826
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