xref: /freebsd/contrib/processor-trace/libipt/test/src/ptunit-packet.c (revision a03411e84728e9b267056fd31c7d1d9d1dc1b01e)
1 /*
2  * Copyright (c) 2014-2019, Intel Corporation
3  *
4  * Redistribution and use in source and binary forms, with or without
5  * modification, are permitted provided that the following conditions are met:
6  *
7  *  * Redistributions of source code must retain the above copyright notice,
8  *    this list of conditions and the following disclaimer.
9  *  * Redistributions in binary form must reproduce the above copyright notice,
10  *    this list of conditions and the following disclaimer in the documentation
11  *    and/or other materials provided with the distribution.
12  *  * Neither the name of Intel Corporation nor the names of its contributors
13  *    may be used to endorse or promote products derived from this software
14  *    without specific prior written permission.
15  *
16  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
17  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19  * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
20  * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
21  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
22  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
23  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
24  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
25  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
26  * POSSIBILITY OF SUCH DAMAGE.
27  */
28 
29 #include "ptunit.h"
30 
31 #include "pt_packet_decoder.h"
32 #include "pt_query_decoder.h"
33 #include "pt_encoder.h"
34 #include "pt_opcodes.h"
35 
36 #include "intel-pt.h"
37 
38 #include <string.h>
39 
40 
41 /* A test fixture providing everything needed for packet en- and de-coding. */
42 struct packet_fixture {
43 	/* The trace buffer. */
44 	uint8_t buffer[64];
45 
46 	/* Two packets for encoding[0] and decoding[1]. */
47 	struct pt_packet packet[2];
48 
49 	/* The configuration. */
50 	struct pt_config config;
51 
52 	/* The encoder. */
53 	struct pt_encoder encoder;
54 
55 	/* The decoder. */
56 	struct pt_packet_decoder decoder;
57 
58 	/* The return value for an unknown decode. */
59 	int unknown;
60 
61 	/* The test fixture initialization and finalization functions. */
62 	struct ptunit_result (*init)(struct packet_fixture *);
63 	struct ptunit_result (*fini)(struct packet_fixture *);
64 };
65 
66 static int pfix_decode_unknown(struct pt_packet_unknown *packet,
67 			       const struct pt_config *config,
68 			       const uint8_t *pos, void *context)
69 {
70 	struct packet_fixture *pfix;
71 
72 	if (!packet || !config)
73 		return -pte_internal;
74 
75 	pfix = (struct packet_fixture *) context;
76 	if (!pfix)
77 		return -pte_internal;
78 
79 	if (config->begin != pfix->buffer)
80 		return -pte_internal;
81 
82 	if (config->end != pfix->buffer + sizeof(pfix->buffer))
83 		return -pte_internal;
84 
85 	if (pos != pfix->buffer)
86 		return -pte_internal;
87 
88 	packet->priv = pfix;
89 
90 	return pfix->unknown;
91 }
92 
93 static struct ptunit_result pfix_init(struct packet_fixture *pfix)
94 {
95 	int errcode;
96 
97 	memset(pfix->buffer, 0, sizeof(pfix->buffer));
98 	memset(pfix->packet, 0, sizeof(pfix->packet));
99 	memset(&pfix->config, 0, sizeof(pfix->config));
100 	pfix->config.size = sizeof(pfix->config);
101 	pfix->config.begin = pfix->buffer;
102 	pfix->config.end = pfix->buffer + sizeof(pfix->buffer);
103 	pfix->config.decode.callback = pfix_decode_unknown;
104 	pfix->config.decode.context = pfix;
105 
106 	pt_encoder_init(&pfix->encoder, &pfix->config);
107 	pt_pkt_decoder_init(&pfix->decoder, &pfix->config);
108 
109 	errcode = pt_pkt_sync_set(&pfix->decoder, 0x0ull);
110 	ptu_int_eq(errcode, 0);
111 
112 	pfix->unknown = 0;
113 
114 	return ptu_passed();
115 }
116 
117 static struct ptunit_result pfix_fini(struct packet_fixture *pfix)
118 {
119 	pt_encoder_fini(&pfix->encoder);
120 	pt_pkt_decoder_fini(&pfix->decoder);
121 
122 	return ptu_passed();
123 }
124 
125 static struct ptunit_result ptu_pkt_eq(const struct pt_packet *enc,
126 				       const struct pt_packet *dec)
127 {
128 	const uint8_t *renc, *rdec;
129 	size_t byte;
130 
131 	ptu_ptr(enc);
132 	ptu_ptr(dec);
133 
134 	renc = (const uint8_t *) enc;
135 	rdec = (const uint8_t *) dec;
136 
137 	for (byte = 0; byte < sizeof(*enc); ++byte)
138 		ptu_uint_eq(renc[byte], rdec[byte]);
139 
140 	return ptu_passed();
141 }
142 
143 static struct ptunit_result pfix_test(struct packet_fixture *pfix)
144 {
145 	int size;
146 
147 	size = pt_enc_next(&pfix->encoder, &pfix->packet[0]);
148 	ptu_int_gt(size, 0);
149 
150 	pfix->packet[0].size = (uint8_t) size;
151 
152 	size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
153 			   sizeof(pfix->packet[1]));
154 	ptu_int_gt(size, 0);
155 
156 	return ptu_pkt_eq(&pfix->packet[0], &pfix->packet[1]);
157 }
158 
159 static struct ptunit_result no_payload(struct packet_fixture *pfix,
160 				       enum pt_packet_type type)
161 {
162 	pfix->packet[0].type = type;
163 
164 	ptu_test(pfix_test, pfix);
165 
166 	return ptu_passed();
167 }
168 
169 static struct ptunit_result unknown(struct packet_fixture *pfix, int exp)
170 {
171 	int size;
172 
173 	pfix->buffer[0] = pt_opc_bad;
174 	pfix->unknown = exp;
175 
176 	size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
177 			   sizeof(pfix->packet[1]));
178 	ptu_int_eq(size, pfix->unknown);
179 
180 	if (size >= 0) {
181 		ptu_int_eq(pfix->packet[1].type, ppt_unknown);
182 		ptu_uint_eq(pfix->packet[1].size, (uint8_t) size);
183 		ptu_ptr_eq(pfix->packet[1].payload.unknown.packet,
184 			   pfix->buffer);
185 		ptu_ptr_eq(pfix->packet[1].payload.unknown.priv, pfix);
186 	}
187 
188 	return ptu_passed();
189 }
190 
191 static struct ptunit_result unknown_ext(struct packet_fixture *pfix, int exp)
192 {
193 	int size;
194 
195 	pfix->buffer[0] = pt_opc_ext;
196 	pfix->buffer[1] = pt_ext_bad;
197 	pfix->unknown = exp;
198 
199 	size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
200 			   sizeof(pfix->packet[1]));
201 	ptu_int_eq(size, pfix->unknown);
202 
203 	if (size >= 0) {
204 		ptu_int_eq(pfix->packet[1].type, ppt_unknown);
205 		ptu_uint_eq(pfix->packet[1].size, (uint8_t) size);
206 		ptu_ptr_eq(pfix->packet[1].payload.unknown.packet,
207 			   pfix->buffer);
208 		ptu_ptr_eq(pfix->packet[1].payload.unknown.priv, pfix);
209 	}
210 
211 	return ptu_passed();
212 }
213 
214 static struct ptunit_result unknown_ext2(struct packet_fixture *pfix, int exp)
215 {
216 	int size;
217 
218 	pfix->buffer[0] = pt_opc_ext;
219 	pfix->buffer[1] = pt_ext_ext2;
220 	pfix->buffer[2] = pt_ext2_bad;
221 	pfix->unknown = exp;
222 
223 	size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
224 			   sizeof(pfix->packet[1]));
225 	ptu_int_eq(size, exp);
226 
227 	if (exp >= 0) {
228 		ptu_int_eq(pfix->packet[1].type, ppt_unknown);
229 		ptu_uint_eq(pfix->packet[1].size, (uint8_t) size);
230 		ptu_ptr_eq(pfix->packet[1].payload.unknown.packet,
231 			   pfix->buffer);
232 		ptu_ptr_eq(pfix->packet[1].payload.unknown.priv, pfix);
233 	}
234 
235 	return ptu_passed();
236 }
237 
238 static struct ptunit_result tnt_8(struct packet_fixture *pfix)
239 {
240 	pfix->packet[0].type = ppt_tnt_8;
241 	pfix->packet[0].payload.tnt.bit_size = 4;
242 	pfix->packet[0].payload.tnt.payload = 0x5ull;
243 
244 	ptu_test(pfix_test, pfix);
245 
246 	return ptu_passed();
247 }
248 
249 static struct ptunit_result tnt_64(struct packet_fixture *pfix)
250 {
251 	pfix->packet[0].type = ppt_tnt_64;
252 	pfix->packet[0].payload.tnt.bit_size = 23;
253 	pfix->packet[0].payload.tnt.payload = 0xabcdeull;
254 
255 	ptu_test(pfix_test, pfix);
256 
257 	return ptu_passed();
258 }
259 
260 static struct ptunit_result ip(struct packet_fixture *pfix,
261 			       enum pt_packet_type type,
262 			       enum pt_ip_compression ipc,
263 			       uint64_t ip)
264 {
265 	pfix->packet[0].type = type;
266 	pfix->packet[0].payload.ip.ipc = ipc;
267 	pfix->packet[0].payload.ip.ip = ip;
268 
269 	ptu_test(pfix_test, pfix);
270 
271 	return ptu_passed();
272 }
273 
274 static struct ptunit_result mode_exec(struct packet_fixture *pfix,
275 				      enum pt_exec_mode mode)
276 {
277 	struct pt_packet_mode_exec packet;
278 
279 	packet = pt_set_exec_mode(mode);
280 
281 	pfix->packet[0].type = ppt_mode;
282 	pfix->packet[0].payload.mode.leaf = pt_mol_exec;
283 	pfix->packet[0].payload.mode.bits.exec.csl = packet.csl;
284 	pfix->packet[0].payload.mode.bits.exec.csd = packet.csd;
285 
286 	ptu_test(pfix_test, pfix);
287 
288 	return ptu_passed();
289 }
290 
291 static struct ptunit_result mode_tsx(struct packet_fixture *pfix)
292 {
293 	pfix->packet[0].type = ppt_mode;
294 	pfix->packet[0].payload.mode.leaf = pt_mol_tsx;
295 	pfix->packet[0].payload.mode.bits.tsx.intx = 1;
296 
297 	ptu_test(pfix_test, pfix);
298 
299 	return ptu_passed();
300 }
301 
302 static struct ptunit_result pip(struct packet_fixture *pfix)
303 {
304 	pfix->packet[0].type = ppt_pip;
305 	pfix->packet[0].payload.pip.cr3 = 0x4200ull;
306 	pfix->packet[0].payload.pip.nr = 1;
307 
308 	ptu_test(pfix_test, pfix);
309 
310 	return ptu_passed();
311 }
312 
313 static struct ptunit_result tsc(struct packet_fixture *pfix)
314 {
315 	pfix->packet[0].type = ppt_tsc;
316 	pfix->packet[0].payload.tsc.tsc = 0x42ull;
317 
318 	ptu_test(pfix_test, pfix);
319 
320 	return ptu_passed();
321 }
322 
323 static struct ptunit_result cbr(struct packet_fixture *pfix)
324 {
325 	pfix->packet[0].type = ppt_cbr;
326 	pfix->packet[0].payload.cbr.ratio = 0x23;
327 
328 	ptu_test(pfix_test, pfix);
329 
330 	return ptu_passed();
331 }
332 
333 static struct ptunit_result tma(struct packet_fixture *pfix)
334 {
335 	pfix->packet[0].type = ppt_tma;
336 	pfix->packet[0].payload.tma.ctc = 0x42;
337 	pfix->packet[0].payload.tma.fc = 0x123;
338 
339 	ptu_test(pfix_test, pfix);
340 
341 	return ptu_passed();
342 }
343 
344 static struct ptunit_result tma_bad(struct packet_fixture *pfix)
345 {
346 	int errcode;
347 
348 	pfix->packet[0].type = ppt_tma;
349 	pfix->packet[0].payload.tma.ctc = 0x42;
350 	pfix->packet[0].payload.tma.fc = 0x200;
351 
352 	errcode = pt_enc_next(&pfix->encoder, &pfix->packet[0]);
353 	ptu_int_eq(errcode, -pte_bad_packet);
354 
355 	return ptu_passed();
356 }
357 
358 static struct ptunit_result mtc(struct packet_fixture *pfix)
359 {
360 	pfix->packet[0].type = ppt_mtc;
361 	pfix->packet[0].payload.mtc.ctc = 0x23;
362 
363 	ptu_test(pfix_test, pfix);
364 
365 	return ptu_passed();
366 }
367 
368 static struct ptunit_result cyc(struct packet_fixture *pfix)
369 {
370 	pfix->packet[0].type = ppt_cyc;
371 	pfix->packet[0].payload.cyc.value = 0x23;
372 
373 	ptu_test(pfix_test, pfix);
374 
375 	return ptu_passed();
376 }
377 
378 static struct ptunit_result vmcs(struct packet_fixture *pfix)
379 {
380 	pfix->packet[0].type = ppt_vmcs;
381 	pfix->packet[0].payload.vmcs.base = 0xabcdef000ull;
382 
383 	ptu_test(pfix_test, pfix);
384 
385 	return ptu_passed();
386 }
387 
388 static struct ptunit_result mnt(struct packet_fixture *pfix)
389 {
390 	pfix->packet[0].type = ppt_mnt;
391 	pfix->packet[0].payload.mnt.payload = 0x1234567890abcdefull;
392 
393 	ptu_test(pfix_test, pfix);
394 
395 	return ptu_passed();
396 }
397 
398 static struct ptunit_result exstop(struct packet_fixture *pfix, int ip)
399 {
400 	pfix->packet[0].type = ppt_exstop;
401 	pfix->packet[0].payload.exstop.ip = ip ? 1 : 0;
402 
403 	ptu_test(pfix_test, pfix);
404 
405 	return ptu_passed();
406 }
407 
408 static struct ptunit_result mwait(struct packet_fixture *pfix)
409 {
410 	pfix->packet[0].type = ppt_mwait;
411 	pfix->packet[0].payload.mwait.hints = 0xc;
412 	pfix->packet[0].payload.mwait.ext = 0x1;
413 
414 	ptu_test(pfix_test, pfix);
415 
416 	return ptu_passed();
417 }
418 
419 static struct ptunit_result pwre(struct packet_fixture *pfix)
420 {
421 	pfix->packet[0].type = ppt_pwre;
422 	pfix->packet[0].payload.pwre.state = 0x0;
423 	pfix->packet[0].payload.pwre.sub_state = 0x3;
424 	pfix->packet[0].payload.pwre.hw = 1;
425 
426 	ptu_test(pfix_test, pfix);
427 
428 	return ptu_passed();
429 }
430 
431 static struct ptunit_result pwrx(struct packet_fixture *pfix)
432 {
433 	pfix->packet[0].type = ppt_pwrx;
434 	pfix->packet[0].payload.pwrx.last = 0x3;
435 	pfix->packet[0].payload.pwrx.deepest = 0xa;
436 	pfix->packet[0].payload.pwrx.store = 1;
437 
438 	ptu_test(pfix_test, pfix);
439 
440 	return ptu_passed();
441 }
442 
443 static struct ptunit_result ptw(struct packet_fixture *pfix, uint8_t plc,
444 				int ip)
445 {
446 	uint64_t pl, mask;
447 	int size;
448 
449 	size = pt_ptw_size(plc);
450 	ptu_int_gt(size, 0);
451 
452 	pl = 0x1234567890abcdefull;
453 
454 	ptu_uint_le((size_t) size, sizeof(mask));
455 	mask = ~0ull >> ((sizeof(mask) - (size_t) size) * 8);
456 
457 	pfix->packet[0].type = ppt_ptw;
458 	pfix->packet[0].payload.ptw.payload = pl & mask;
459 	pfix->packet[0].payload.ptw.plc = plc;
460 	pfix->packet[0].payload.ptw.ip = ip ? 1 : 0;
461 
462 	ptu_test(pfix_test, pfix);
463 
464 	return ptu_passed();
465 }
466 
467 static struct ptunit_result cutoff(struct packet_fixture *pfix,
468 				   enum pt_packet_type type)
469 {
470 	int size;
471 
472 	pfix->packet[0].type = type;
473 
474 	size = pt_enc_next(&pfix->encoder, &pfix->packet[0]);
475 	ptu_int_gt(size, 0);
476 
477 	pfix->decoder.config.end = pfix->encoder.pos - 1;
478 
479 	size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
480 			   sizeof(pfix->packet[1]));
481 	ptu_int_eq(size, -pte_eos);
482 
483 	return ptu_passed();
484 }
485 
486 static struct ptunit_result cutoff_ip(struct packet_fixture *pfix,
487 				      enum pt_packet_type type)
488 {
489 	int size;
490 
491 	pfix->packet[0].type = type;
492 	pfix->packet[0].payload.ip.ipc = pt_ipc_sext_48;
493 
494 	size = pt_enc_next(&pfix->encoder, &pfix->packet[0]);
495 	ptu_int_gt(size, 0);
496 
497 	pfix->decoder.config.end = pfix->encoder.pos - 1;
498 
499 	size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
500 			   sizeof(pfix->packet[1]));
501 	ptu_int_eq(size, -pte_eos);
502 
503 	return ptu_passed();
504 }
505 
506 static struct ptunit_result cutoff_cyc(struct packet_fixture *pfix)
507 {
508 	int size;
509 
510 	pfix->packet[0].type = ppt_cyc;
511 	pfix->packet[0].payload.cyc.value = 0xa8;
512 
513 	size = pt_enc_next(&pfix->encoder, &pfix->packet[0]);
514 	ptu_int_gt(size, 0);
515 
516 	pfix->decoder.config.end = pfix->encoder.pos - 1;
517 
518 	size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
519 			   sizeof(pfix->packet[1]));
520 	ptu_int_eq(size, -pte_eos);
521 
522 	return ptu_passed();
523 }
524 
525 static struct ptunit_result cutoff_mode(struct packet_fixture *pfix,
526 					enum pt_mode_leaf leaf)
527 {
528 	int size;
529 
530 	pfix->packet[0].type = ppt_mode;
531 	pfix->packet[0].payload.mode.leaf = leaf;
532 
533 	size = pt_enc_next(&pfix->encoder, &pfix->packet[0]);
534 	ptu_int_gt(size, 0);
535 
536 	pfix->decoder.config.end = pfix->encoder.pos - 1;
537 
538 	size = pt_pkt_next(&pfix->decoder, &pfix->packet[1],
539 			   sizeof(pfix->packet[1]));
540 	ptu_int_eq(size, -pte_eos);
541 
542 	return ptu_passed();
543 }
544 
545 int main(int argc, char **argv)
546 {
547 	struct packet_fixture pfix;
548 	struct ptunit_suite suite;
549 
550 	pfix.init = pfix_init;
551 	pfix.fini = pfix_fini;
552 
553 	suite = ptunit_mk_suite(argc, argv);
554 
555 	ptu_run_fp(suite, no_payload, pfix, ppt_pad);
556 	ptu_run_fp(suite, no_payload, pfix, ppt_psb);
557 	ptu_run_fp(suite, no_payload, pfix, ppt_ovf);
558 	ptu_run_fp(suite, no_payload, pfix, ppt_psbend);
559 	ptu_run_fp(suite, no_payload, pfix, ppt_stop);
560 
561 	ptu_run_fp(suite, unknown, pfix, 4);
562 	ptu_run_fp(suite, unknown, pfix, -pte_nomem);
563 	ptu_run_fp(suite, unknown_ext, pfix, 4);
564 	ptu_run_fp(suite, unknown_ext, pfix, -pte_nomem);
565 	ptu_run_fp(suite, unknown_ext2, pfix, 4);
566 	ptu_run_fp(suite, unknown_ext2, pfix, -pte_nomem);
567 
568 	ptu_run_f(suite, tnt_8, pfix);
569 	ptu_run_f(suite, tnt_64, pfix);
570 
571 	ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_suppressed, 0x0ull);
572 	ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_update_16, 0x42ull);
573 	ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_update_32, 0x4200ull);
574 	ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_update_48, 0x4200ull);
575 	ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_sext_48, 0x42ull);
576 	ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_full, 0x42ull);
577 
578 	ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_suppressed, 0x0ull);
579 	ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_update_16, 0x42ull);
580 	ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_update_32, 0x4200ull);
581 	ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_update_48, 0x4200ull);
582 	ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_sext_48, 0x42ull);
583 	ptu_run_fp(suite, ip, pfix, ppt_tip, pt_ipc_full, 0x42ull);
584 
585 	ptu_run_fp(suite, ip, pfix, ppt_tip_pge, pt_ipc_suppressed, 0x0ull);
586 	ptu_run_fp(suite, ip, pfix, ppt_tip_pge, pt_ipc_update_16, 0x42ull);
587 	ptu_run_fp(suite, ip, pfix, ppt_tip_pge, pt_ipc_update_32, 0x4200ull);
588 	ptu_run_fp(suite, ip, pfix, ppt_tip_pge, pt_ipc_update_48, 0x4200ull);
589 	ptu_run_fp(suite, ip, pfix, ppt_tip_pge, pt_ipc_sext_48, 0x42ull);
590 	ptu_run_fp(suite, ip, pfix, ppt_tip_pge, pt_ipc_full, 0x42ull);
591 
592 	ptu_run_fp(suite, ip, pfix, ppt_tip_pgd, pt_ipc_suppressed, 0x0ull);
593 	ptu_run_fp(suite, ip, pfix, ppt_tip_pgd, pt_ipc_update_16, 0x42ull);
594 	ptu_run_fp(suite, ip, pfix, ppt_tip_pgd, pt_ipc_update_32, 0x4200ull);
595 	ptu_run_fp(suite, ip, pfix, ppt_tip_pgd, pt_ipc_update_48, 0x4200ull);
596 	ptu_run_fp(suite, ip, pfix, ppt_tip_pgd, pt_ipc_sext_48, 0x42ull);
597 	ptu_run_fp(suite, ip, pfix, ppt_tip_pgd, pt_ipc_full, 0x42ull);
598 
599 	ptu_run_fp(suite, ip, pfix, ppt_fup, pt_ipc_suppressed, 0x0ull);
600 	ptu_run_fp(suite, ip, pfix, ppt_fup, pt_ipc_update_16, 0x42ull);
601 	ptu_run_fp(suite, ip, pfix, ppt_fup, pt_ipc_update_32, 0x4200ull);
602 	ptu_run_fp(suite, ip, pfix, ppt_fup, pt_ipc_update_48, 0x4200ull);
603 	ptu_run_fp(suite, ip, pfix, ppt_fup, pt_ipc_sext_48, 0x42ull);
604 	ptu_run_fp(suite, ip, pfix, ppt_fup, pt_ipc_full, 0x42ull);
605 
606 	ptu_run_fp(suite, mode_exec, pfix, ptem_16bit);
607 	ptu_run_fp(suite, mode_exec, pfix, ptem_32bit);
608 	ptu_run_fp(suite, mode_exec, pfix, ptem_64bit);
609 	ptu_run_f(suite, mode_tsx, pfix);
610 
611 	ptu_run_f(suite, pip, pfix);
612 	ptu_run_f(suite, tsc, pfix);
613 	ptu_run_f(suite, cbr, pfix);
614 	ptu_run_f(suite, tma, pfix);
615 	ptu_run_f(suite, tma_bad, pfix);
616 	ptu_run_f(suite, mtc, pfix);
617 	ptu_run_f(suite, cyc, pfix);
618 	ptu_run_f(suite, vmcs, pfix);
619 	ptu_run_f(suite, mnt, pfix);
620 	ptu_run_fp(suite, exstop, pfix, 0);
621 	ptu_run_fp(suite, exstop, pfix, 1);
622 	ptu_run_f(suite, mwait, pfix);
623 	ptu_run_f(suite, pwre, pfix);
624 	ptu_run_f(suite, pwrx, pfix);
625 	ptu_run_fp(suite, ptw, pfix, 0, 1);
626 	ptu_run_fp(suite, ptw, pfix, 1, 0);
627 
628 	ptu_run_fp(suite, cutoff, pfix, ppt_psb);
629 	ptu_run_fp(suite, cutoff_ip, pfix, ppt_tip);
630 	ptu_run_fp(suite, cutoff_ip, pfix, ppt_tip_pge);
631 	ptu_run_fp(suite, cutoff_ip, pfix, ppt_tip_pgd);
632 	ptu_run_fp(suite, cutoff_ip, pfix, ppt_fup);
633 	ptu_run_fp(suite, cutoff, pfix, ppt_ovf);
634 	ptu_run_fp(suite, cutoff, pfix, ppt_psbend);
635 	ptu_run_fp(suite, cutoff, pfix, ppt_tnt_64);
636 	ptu_run_fp(suite, cutoff, pfix, ppt_tsc);
637 	ptu_run_fp(suite, cutoff, pfix, ppt_cbr);
638 	ptu_run_fp(suite, cutoff, pfix, ppt_tma);
639 	ptu_run_fp(suite, cutoff, pfix, ppt_mtc);
640 	ptu_run_f(suite, cutoff_cyc, pfix);
641 	ptu_run_fp(suite, cutoff_mode, pfix, pt_mol_exec);
642 	ptu_run_fp(suite, cutoff_mode, pfix, pt_mol_tsx);
643 	ptu_run_fp(suite, cutoff, pfix, ppt_vmcs);
644 	ptu_run_fp(suite, cutoff, pfix, ppt_mnt);
645 	ptu_run_fp(suite, cutoff, pfix, ppt_exstop);
646 	ptu_run_fp(suite, cutoff, pfix, ppt_mwait);
647 	ptu_run_fp(suite, cutoff, pfix, ppt_pwre);
648 	ptu_run_fp(suite, cutoff, pfix, ppt_pwrx);
649 	ptu_run_fp(suite, cutoff, pfix, ppt_ptw);
650 
651 	return ptunit_report(&suite);
652 }
653 
654 
655 /* Dummy decode functions to satisfy link dependencies.
656  *
657  * As a nice side-effect, we will know if we need to add more tests when
658  * adding new decoder functions.
659  */
660 struct pt_query_decoder;
661 
662 int pt_qry_decode_unknown(struct pt_query_decoder *d)
663 {
664 	(void) d;
665 
666 	return -pte_internal;
667 }
668 int pt_qry_decode_pad(struct pt_query_decoder *d)
669 {
670 	(void) d;
671 
672 	return -pte_internal;
673 }
674 int pt_qry_decode_psb(struct pt_query_decoder *d)
675 {
676 	(void) d;
677 
678 	return -pte_internal;
679 }
680 int pt_qry_decode_tip(struct pt_query_decoder *d)
681 {
682 	(void) d;
683 
684 	return -pte_internal;
685 }
686 int pt_qry_decode_tnt_8(struct pt_query_decoder *d)
687 {
688 	(void) d;
689 
690 	return -pte_internal;
691 }
692 int pt_qry_decode_tnt_64(struct pt_query_decoder *d)
693 {
694 	(void) d;
695 
696 	return -pte_internal;
697 }
698 int pt_qry_decode_tip_pge(struct pt_query_decoder *d)
699 {
700 	(void) d;
701 
702 	return -pte_internal;
703 }
704 int pt_qry_decode_tip_pgd(struct pt_query_decoder *d)
705 {
706 	(void) d;
707 
708 	return -pte_internal;
709 }
710 int pt_qry_decode_fup(struct pt_query_decoder *d)
711 {
712 	(void) d;
713 
714 	return -pte_internal;
715 }
716 int pt_qry_header_fup(struct pt_query_decoder *d)
717 {
718 	(void) d;
719 
720 	return -pte_internal;
721 }
722 int pt_qry_decode_pip(struct pt_query_decoder *d)
723 {
724 	(void) d;
725 
726 	return -pte_internal;
727 }
728 int pt_qry_header_pip(struct pt_query_decoder *d)
729 {
730 	(void) d;
731 
732 	return -pte_internal;
733 }
734 int pt_qry_decode_ovf(struct pt_query_decoder *d)
735 {
736 	(void) d;
737 
738 	return -pte_internal;
739 }
740 int pt_qry_decode_mode(struct pt_query_decoder *d)
741 {
742 	(void) d;
743 
744 	return -pte_internal;
745 }
746 int pt_qry_header_mode(struct pt_query_decoder *d)
747 {
748 	(void) d;
749 
750 	return -pte_internal;
751 }
752 int pt_qry_decode_psbend(struct pt_query_decoder *d)
753 {
754 	(void) d;
755 
756 	return -pte_internal;
757 }
758 int pt_qry_decode_tsc(struct pt_query_decoder *d)
759 {
760 	(void) d;
761 
762 	return -pte_internal;
763 }
764 int pt_qry_header_tsc(struct pt_query_decoder *d)
765 {
766 	(void) d;
767 
768 	return -pte_internal;
769 }
770 int pt_qry_decode_cbr(struct pt_query_decoder *d)
771 {
772 	(void) d;
773 
774 	return -pte_internal;
775 }
776 int pt_qry_header_cbr(struct pt_query_decoder *d)
777 {
778 	(void) d;
779 
780 	return -pte_internal;
781 }
782 int pt_qry_decode_tma(struct pt_query_decoder *d)
783 {
784 	(void) d;
785 
786 	return -pte_internal;
787 }
788 int pt_qry_decode_mtc(struct pt_query_decoder *d)
789 {
790 	(void) d;
791 
792 	return -pte_internal;
793 }
794 int pt_qry_decode_cyc(struct pt_query_decoder *d)
795 {
796 	(void) d;
797 
798 	return -pte_internal;
799 }
800 int pt_qry_decode_stop(struct pt_query_decoder *d)
801 {
802 	(void) d;
803 
804 	return -pte_internal;
805 }
806 int pt_qry_decode_vmcs(struct pt_query_decoder *d)
807 {
808 	(void) d;
809 
810 	return -pte_internal;
811 }
812 int pt_qry_header_vmcs(struct pt_query_decoder *d)
813 {
814 	(void) d;
815 
816 	return -pte_internal;
817 }
818 int pt_qry_decode_mnt(struct pt_query_decoder *d)
819 {
820 	(void) d;
821 
822 	return -pte_internal;
823 }
824 int pt_qry_header_mnt(struct pt_query_decoder *d)
825 {
826 	(void) d;
827 
828 	return -pte_internal;
829 }
830 int pt_qry_decode_exstop(struct pt_query_decoder *d)
831 {
832 	(void) d;
833 
834 	return -pte_internal;
835 }
836 int pt_qry_decode_mwait(struct pt_query_decoder *d)
837 {
838 	(void) d;
839 
840 	return -pte_internal;
841 }
842 int pt_qry_decode_pwre(struct pt_query_decoder *d)
843 {
844 	(void) d;
845 
846 	return -pte_internal;
847 }
848 int pt_qry_decode_pwrx(struct pt_query_decoder *d)
849 {
850 	(void) d;
851 
852 	return -pte_internal;
853 }
854 int pt_qry_decode_ptw(struct pt_query_decoder *d)
855 {
856 	(void) d;
857 
858 	return -pte_internal;
859 }
860