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1 /*
2 * QTest testcase for VirtIO 9P
3 *
4 * Copyright (c) 2014 SUSE LINUX Products GmbH
5 *
6 * This work is licensed under the terms of the GNU GPL, version 2 or later.
7 * See the COPYING file in the top-level directory.
8 */
9
10 #include "qemu/osdep.h"
11 #include "libqtest-single.h"
12 #include "qemu/module.h"
13 #include "hw/9pfs/9p.h"
14 #include "hw/9pfs/9p-synth.h"
15 #include "libqos/virtio-9p.h"
16 #include "libqos/qgraph.h"
17
18 #define QVIRTIO_9P_TIMEOUT_US (10 * 1000 * 1000)
19 static QGuestAllocator *alloc;
20
21 static void pci_config(void *obj, void *data, QGuestAllocator *t_alloc)
22 {
23 QVirtio9P *v9p = obj;
24 alloc = t_alloc;
25 size_t tag_len = qvirtio_config_readw(v9p->vdev, 0);
26 char *tag;
27 int i;
28
29 g_assert_cmpint(tag_len, ==, strlen(MOUNT_TAG));
30
31 tag = g_malloc(tag_len);
32 for (i = 0; i < tag_len; i++) {
33 tag[i] = qvirtio_config_readb(v9p->vdev, i + 2);
34 }
35 g_assert_cmpmem(tag, tag_len, MOUNT_TAG, tag_len);
36 g_free(tag);
37 }
38
39 #define P9_MAX_SIZE 4096 /* Max size of a T-message or R-message */
40
41 typedef struct {
42 QTestState *qts;
43 QVirtio9P *v9p;
44 uint16_t tag;
45 uint64_t t_msg;
46 uint32_t t_size;
47 uint64_t r_msg;
48 /* No r_size, it is hardcoded to P9_MAX_SIZE */
49 size_t t_off;
50 size_t r_off;
51 uint32_t free_head;
52 } P9Req;
53
54 static void v9fs_memwrite(P9Req *req, const void *addr, size_t len)
55 {
56 qtest_memwrite(req->qts, req->t_msg + req->t_off, addr, len);
57 req->t_off += len;
58 }
59
60 static void v9fs_memskip(P9Req *req, size_t len)
61 {
62 req->r_off += len;
63 }
64
65 static void v9fs_memread(P9Req *req, void *addr, size_t len)
66 {
67 qtest_memread(req->qts, req->r_msg + req->r_off, addr, len);
68 req->r_off += len;
69 }
70
71 static void v9fs_uint16_write(P9Req *req, uint16_t val)
72 {
73 uint16_t le_val = cpu_to_le16(val);
74
75 v9fs_memwrite(req, &le_val, 2);
76 }
77
78 static void v9fs_uint16_read(P9Req *req, uint16_t *val)
79 {
80 v9fs_memread(req, val, 2);
81 le16_to_cpus(val);
82 }
83
84 static void v9fs_uint32_write(P9Req *req, uint32_t val)
85 {
86 uint32_t le_val = cpu_to_le32(val);
87
88 v9fs_memwrite(req, &le_val, 4);
89 }
90
91 static void v9fs_uint64_write(P9Req *req, uint64_t val)
92 {
93 uint64_t le_val = cpu_to_le64(val);
94
95 v9fs_memwrite(req, &le_val, 8);
96 }
97
98 static void v9fs_uint32_read(P9Req *req, uint32_t *val)
99 {
100 v9fs_memread(req, val, 4);
101 le32_to_cpus(val);
102 }
103
104 /* len[2] string[len] */
105 static uint16_t v9fs_string_size(const char *string)
106 {
107 size_t len = strlen(string);
108
109 g_assert_cmpint(len, <=, UINT16_MAX - 2);
110
111 return 2 + len;
112 }
113
114 static void v9fs_string_write(P9Req *req, const char *string)
115 {
116 int len = strlen(string);
117
118 g_assert_cmpint(len, <=, UINT16_MAX);
119
120 v9fs_uint16_write(req, (uint16_t) len);
121 v9fs_memwrite(req, string, len);
122 }
123
124 static void v9fs_string_read(P9Req *req, uint16_t *len, char **string)
125 {
126 uint16_t local_len;
127
128 v9fs_uint16_read(req, &local_len);
129 if (len) {
130 *len = local_len;
131 }
132 if (string) {
133 *string = g_malloc(local_len);
134 v9fs_memread(req, *string, local_len);
135 } else {
136 v9fs_memskip(req, local_len);
137 }
138 }
139
140 typedef struct {
141 uint32_t size;
142 uint8_t id;
143 uint16_t tag;
144 } QEMU_PACKED P9Hdr;
145
146 static P9Req *v9fs_req_init(QVirtio9P *v9p, uint32_t size, uint8_t id,
147 uint16_t tag)
148 {
149 P9Req *req = g_new0(P9Req, 1);
150 uint32_t total_size = 7; /* 9P header has well-known size of 7 bytes */
151 P9Hdr hdr = {
152 .id = id,
153 .tag = cpu_to_le16(tag)
154 };
155
156 g_assert_cmpint(total_size, <=, UINT32_MAX - size);
157 total_size += size;
158 hdr.size = cpu_to_le32(total_size);
159
160 g_assert_cmpint(total_size, <=, P9_MAX_SIZE);
161
162 req->qts = global_qtest;
163 req->v9p = v9p;
164 req->t_size = total_size;
165 req->t_msg = guest_alloc(alloc, req->t_size);
166 v9fs_memwrite(req, &hdr, 7);
167 req->tag = tag;
168 return req;
169 }
170
171 static void v9fs_req_send(P9Req *req)
172 {
173 QVirtio9P *v9p = req->v9p;
174
175 req->r_msg = guest_alloc(alloc, P9_MAX_SIZE);
176 req->free_head = qvirtqueue_add(req->qts, v9p->vq, req->t_msg, req->t_size,
177 false, true);
178 qvirtqueue_add(req->qts, v9p->vq, req->r_msg, P9_MAX_SIZE, true, false);
179 qvirtqueue_kick(req->qts, v9p->vdev, v9p->vq, req->free_head);
180 req->t_off = 0;
181 }
182
183 static const char *rmessage_name(uint8_t id)
184 {
185 return
186 id == P9_RLERROR ? "RLERROR" :
187 id == P9_RVERSION ? "RVERSION" :
188 id == P9_RATTACH ? "RATTACH" :
189 id == P9_RWALK ? "RWALK" :
190 id == P9_RLOPEN ? "RLOPEN" :
191 id == P9_RWRITE ? "RWRITE" :
192 id == P9_RFLUSH ? "RFLUSH" :
193 "<unknown>";
194 }
195
196 static void v9fs_req_wait_for_reply(P9Req *req, uint32_t *len)
197 {
198 QVirtio9P *v9p = req->v9p;
199
200 qvirtio_wait_used_elem(req->qts, v9p->vdev, v9p->vq, req->free_head, len,
201 QVIRTIO_9P_TIMEOUT_US);
202 }
203
204 static void v9fs_req_recv(P9Req *req, uint8_t id)
205 {
206 P9Hdr hdr;
207
208 v9fs_memread(req, &hdr, 7);
209 hdr.size = ldl_le_p(&hdr.size);
210 hdr.tag = lduw_le_p(&hdr.tag);
211
212 g_assert_cmpint(hdr.size, >=, 7);
213 g_assert_cmpint(hdr.size, <=, P9_MAX_SIZE);
214 g_assert_cmpint(hdr.tag, ==, req->tag);
215
216 if (hdr.id != id) {
217 g_printerr("Received response %d (%s) instead of %d (%s)\n",
218 hdr.id, rmessage_name(hdr.id), id, rmessage_name(id));
219
220 if (hdr.id == P9_RLERROR) {
221 uint32_t err;
222 v9fs_uint32_read(req, &err);
223 g_printerr("Rlerror has errno %d (%s)\n", err, strerror(err));
224 }
225 }
226 g_assert_cmpint(hdr.id, ==, id);
227 }
228
229 static void v9fs_req_free(P9Req *req)
230 {
231 guest_free(alloc, req->t_msg);
232 guest_free(alloc, req->r_msg);
233 g_free(req);
234 }
235
236 /* size[4] Rlerror tag[2] ecode[4] */
237 static void v9fs_rlerror(P9Req *req, uint32_t *err)
238 {
239 v9fs_req_recv(req, P9_RLERROR);
240 v9fs_uint32_read(req, err);
241 v9fs_req_free(req);
242 }
243
244 /* size[4] Tversion tag[2] msize[4] version[s] */
245 static P9Req *v9fs_tversion(QVirtio9P *v9p, uint32_t msize, const char *version,
246 uint16_t tag)
247 {
248 P9Req *req;
249 uint32_t body_size = 4;
250 uint16_t string_size = v9fs_string_size(version);
251
252 g_assert_cmpint(body_size, <=, UINT32_MAX - string_size);
253 body_size += string_size;
254 req = v9fs_req_init(v9p, body_size, P9_TVERSION, tag);
255
256 v9fs_uint32_write(req, msize);
257 v9fs_string_write(req, version);
258 v9fs_req_send(req);
259 return req;
260 }
261
262 /* size[4] Rversion tag[2] msize[4] version[s] */
263 static void v9fs_rversion(P9Req *req, uint16_t *len, char **version)
264 {
265 uint32_t msize;
266
267 v9fs_req_recv(req, P9_RVERSION);
268 v9fs_uint32_read(req, &msize);
269
270 g_assert_cmpint(msize, ==, P9_MAX_SIZE);
271
272 if (len || version) {
273 v9fs_string_read(req, len, version);
274 }
275
276 v9fs_req_free(req);
277 }
278
279 /* size[4] Tattach tag[2] fid[4] afid[4] uname[s] aname[s] n_uname[4] */
280 static P9Req *v9fs_tattach(QVirtio9P *v9p, uint32_t fid, uint32_t n_uname,
281 uint16_t tag)
282 {
283 const char *uname = ""; /* ignored by QEMU */
284 const char *aname = ""; /* ignored by QEMU */
285 P9Req *req = v9fs_req_init(v9p, 4 + 4 + 2 + 2 + 4, P9_TATTACH, tag);
286
287 v9fs_uint32_write(req, fid);
288 v9fs_uint32_write(req, P9_NOFID);
289 v9fs_string_write(req, uname);
290 v9fs_string_write(req, aname);
291 v9fs_uint32_write(req, n_uname);
292 v9fs_req_send(req);
293 return req;
294 }
295
296 typedef char v9fs_qid[13];
297
298 /* size[4] Rattach tag[2] qid[13] */
299 static void v9fs_rattach(P9Req *req, v9fs_qid *qid)
300 {
301 v9fs_req_recv(req, P9_RATTACH);
302 if (qid) {
303 v9fs_memread(req, qid, 13);
304 }
305 v9fs_req_free(req);
306 }
307
308 /* size[4] Twalk tag[2] fid[4] newfid[4] nwname[2] nwname*(wname[s]) */
309 static P9Req *v9fs_twalk(QVirtio9P *v9p, uint32_t fid, uint32_t newfid,
310 uint16_t nwname, char *const wnames[], uint16_t tag)
311 {
312 P9Req *req;
313 int i;
314 uint32_t body_size = 4 + 4 + 2;
315
316 for (i = 0; i < nwname; i++) {
317 uint16_t wname_size = v9fs_string_size(wnames[i]);
318
319 g_assert_cmpint(body_size, <=, UINT32_MAX - wname_size);
320 body_size += wname_size;
321 }
322 req = v9fs_req_init(v9p, body_size, P9_TWALK, tag);
323 v9fs_uint32_write(req, fid);
324 v9fs_uint32_write(req, newfid);
325 v9fs_uint16_write(req, nwname);
326 for (i = 0; i < nwname; i++) {
327 v9fs_string_write(req, wnames[i]);
328 }
329 v9fs_req_send(req);
330 return req;
331 }
332
333 /* size[4] Rwalk tag[2] nwqid[2] nwqid*(wqid[13]) */
334 static void v9fs_rwalk(P9Req *req, uint16_t *nwqid, v9fs_qid **wqid)
335 {
336 uint16_t local_nwqid;
337
338 v9fs_req_recv(req, P9_RWALK);
339 v9fs_uint16_read(req, &local_nwqid);
340 if (nwqid) {
341 *nwqid = local_nwqid;
342 }
343 if (wqid) {
344 *wqid = g_malloc(local_nwqid * 13);
345 v9fs_memread(req, *wqid, local_nwqid * 13);
346 }
347 v9fs_req_free(req);
348 }
349
350 /* size[4] Tlopen tag[2] fid[4] flags[4] */
351 static P9Req *v9fs_tlopen(QVirtio9P *v9p, uint32_t fid, uint32_t flags,
352 uint16_t tag)
353 {
354 P9Req *req;
355
356 req = v9fs_req_init(v9p, 4 + 4, P9_TLOPEN, tag);
357 v9fs_uint32_write(req, fid);
358 v9fs_uint32_write(req, flags);
359 v9fs_req_send(req);
360 return req;
361 }
362
363 /* size[4] Rlopen tag[2] qid[13] iounit[4] */
364 static void v9fs_rlopen(P9Req *req, v9fs_qid *qid, uint32_t *iounit)
365 {
366 v9fs_req_recv(req, P9_RLOPEN);
367 if (qid) {
368 v9fs_memread(req, qid, 13);
369 } else {
370 v9fs_memskip(req, 13);
371 }
372 if (iounit) {
373 v9fs_uint32_read(req, iounit);
374 }
375 v9fs_req_free(req);
376 }
377
378 /* size[4] Twrite tag[2] fid[4] offset[8] count[4] data[count] */
379 static P9Req *v9fs_twrite(QVirtio9P *v9p, uint32_t fid, uint64_t offset,
380 uint32_t count, const void *data, uint16_t tag)
381 {
382 P9Req *req;
383 uint32_t body_size = 4 + 8 + 4;
384
385 g_assert_cmpint(body_size, <=, UINT32_MAX - count);
386 body_size += count;
387 req = v9fs_req_init(v9p, body_size, P9_TWRITE, tag);
388 v9fs_uint32_write(req, fid);
389 v9fs_uint64_write(req, offset);
390 v9fs_uint32_write(req, count);
391 v9fs_memwrite(req, data, count);
392 v9fs_req_send(req);
393 return req;
394 }
395
396 /* size[4] Rwrite tag[2] count[4] */
397 static void v9fs_rwrite(P9Req *req, uint32_t *count)
398 {
399 v9fs_req_recv(req, P9_RWRITE);
400 if (count) {
401 v9fs_uint32_read(req, count);
402 }
403 v9fs_req_free(req);
404 }
405
406 /* size[4] Tflush tag[2] oldtag[2] */
407 static P9Req *v9fs_tflush(QVirtio9P *v9p, uint16_t oldtag, uint16_t tag)
408 {
409 P9Req *req;
410
411 req = v9fs_req_init(v9p, 2, P9_TFLUSH, tag);
412 v9fs_uint32_write(req, oldtag);
413 v9fs_req_send(req);
414 return req;
415 }
416
417 /* size[4] Rflush tag[2] */
418 static void v9fs_rflush(P9Req *req)
419 {
420 v9fs_req_recv(req, P9_RFLUSH);
421 v9fs_req_free(req);
422 }
423
424 static void fs_version(void *obj, void *data, QGuestAllocator *t_alloc)
425 {
426 QVirtio9P *v9p = obj;
427 alloc = t_alloc;
428 const char *version = "9P2000.L";
429 uint16_t server_len;
430 char *server_version;
431 P9Req *req;
432
433 req = v9fs_tversion(v9p, P9_MAX_SIZE, version, P9_NOTAG);
434 v9fs_req_wait_for_reply(req, NULL);
435 v9fs_rversion(req, &server_len, &server_version);
436
437 g_assert_cmpmem(server_version, server_len, version, strlen(version));
438
439 g_free(server_version);
440 }
441
442 static void fs_attach(void *obj, void *data, QGuestAllocator *t_alloc)
443 {
444 QVirtio9P *v9p = obj;
445 alloc = t_alloc;
446 P9Req *req;
447
448 fs_version(v9p, NULL, t_alloc);
449 req = v9fs_tattach(v9p, 0, getuid(), 0);
450 v9fs_req_wait_for_reply(req, NULL);
451 v9fs_rattach(req, NULL);
452 }
453
454 static void fs_walk(void *obj, void *data, QGuestAllocator *t_alloc)
455 {
456 QVirtio9P *v9p = obj;
457 alloc = t_alloc;
458 char *wnames[P9_MAXWELEM];
459 uint16_t nwqid;
460 v9fs_qid *wqid;
461 int i;
462 P9Req *req;
463
464 for (i = 0; i < P9_MAXWELEM; i++) {
465 wnames[i] = g_strdup_printf(QTEST_V9FS_SYNTH_WALK_FILE, i);
466 }
467
468 fs_attach(v9p, NULL, t_alloc);
469 req = v9fs_twalk(v9p, 0, 1, P9_MAXWELEM, wnames, 0);
470 v9fs_req_wait_for_reply(req, NULL);
471 v9fs_rwalk(req, &nwqid, &wqid);
472
473 g_assert_cmpint(nwqid, ==, P9_MAXWELEM);
474
475 for (i = 0; i < P9_MAXWELEM; i++) {
476 g_free(wnames[i]);
477 }
478
479 g_free(wqid);
480 }
481
482 static void fs_walk_no_slash(void *obj, void *data, QGuestAllocator *t_alloc)
483 {
484 QVirtio9P *v9p = obj;
485 alloc = t_alloc;
486 char *const wnames[] = { g_strdup(" /") };
487 P9Req *req;
488 uint32_t err;
489
490 fs_attach(v9p, NULL, t_alloc);
491 req = v9fs_twalk(v9p, 0, 1, 1, wnames, 0);
492 v9fs_req_wait_for_reply(req, NULL);
493 v9fs_rlerror(req, &err);
494
495 g_assert_cmpint(err, ==, ENOENT);
496
497 g_free(wnames[0]);
498 }
499
500 static void fs_walk_dotdot(void *obj, void *data, QGuestAllocator *t_alloc)
501 {
502 QVirtio9P *v9p = obj;
503 alloc = t_alloc;
504 char *const wnames[] = { g_strdup("..") };
505 v9fs_qid root_qid, *wqid;
506 P9Req *req;
507
508 fs_version(v9p, NULL, t_alloc);
509 req = v9fs_tattach(v9p, 0, getuid(), 0);
510 v9fs_req_wait_for_reply(req, NULL);
511 v9fs_rattach(req, &root_qid);
512
513 req = v9fs_twalk(v9p, 0, 1, 1, wnames, 0);
514 v9fs_req_wait_for_reply(req, NULL);
515 v9fs_rwalk(req, NULL, &wqid); /* We now we'll get one qid */
516
517 g_assert_cmpmem(&root_qid, 13, wqid[0], 13);
518
519 g_free(wqid);
520 g_free(wnames[0]);
521 }
522
523 static void fs_lopen(void *obj, void *data, QGuestAllocator *t_alloc)
524 {
525 QVirtio9P *v9p = obj;
526 alloc = t_alloc;
527 char *const wnames[] = { g_strdup(QTEST_V9FS_SYNTH_LOPEN_FILE) };
528 P9Req *req;
529
530 fs_attach(v9p, NULL, t_alloc);
531 req = v9fs_twalk(v9p, 0, 1, 1, wnames, 0);
532 v9fs_req_wait_for_reply(req, NULL);
533 v9fs_rwalk(req, NULL, NULL);
534
535 req = v9fs_tlopen(v9p, 1, O_WRONLY, 0);
536 v9fs_req_wait_for_reply(req, NULL);
537 v9fs_rlopen(req, NULL, NULL);
538
539 g_free(wnames[0]);
540 }
541
542 static void fs_write(void *obj, void *data, QGuestAllocator *t_alloc)
543 {
544 QVirtio9P *v9p = obj;
545 alloc = t_alloc;
546 static const uint32_t write_count = P9_MAX_SIZE / 2;
547 char *const wnames[] = { g_strdup(QTEST_V9FS_SYNTH_WRITE_FILE) };
548 char *buf = g_malloc0(write_count);
549 uint32_t count;
550 P9Req *req;
551
552 fs_attach(v9p, NULL, t_alloc);
553 req = v9fs_twalk(v9p, 0, 1, 1, wnames, 0);
554 v9fs_req_wait_for_reply(req, NULL);
555 v9fs_rwalk(req, NULL, NULL);
556
557 req = v9fs_tlopen(v9p, 1, O_WRONLY, 0);
558 v9fs_req_wait_for_reply(req, NULL);
559 v9fs_rlopen(req, NULL, NULL);
560
561 req = v9fs_twrite(v9p, 1, 0, write_count, buf, 0);
562 v9fs_req_wait_for_reply(req, NULL);
563 v9fs_rwrite(req, &count);
564 g_assert_cmpint(count, ==, write_count);
565
566 g_free(buf);
567 g_free(wnames[0]);
568 }
569
570 static void fs_flush_success(void *obj, void *data, QGuestAllocator *t_alloc)
571 {
572 QVirtio9P *v9p = obj;
573 alloc = t_alloc;
574 char *const wnames[] = { g_strdup(QTEST_V9FS_SYNTH_FLUSH_FILE) };
575 P9Req *req, *flush_req;
576 uint32_t reply_len;
577 uint8_t should_block;
578
579 fs_attach(v9p, NULL, t_alloc);
580 req = v9fs_twalk(v9p, 0, 1, 1, wnames, 0);
581 v9fs_req_wait_for_reply(req, NULL);
582 v9fs_rwalk(req, NULL, NULL);
583
584 req = v9fs_tlopen(v9p, 1, O_WRONLY, 0);
585 v9fs_req_wait_for_reply(req, NULL);
586 v9fs_rlopen(req, NULL, NULL);
587
588 /* This will cause the 9p server to try to write data to the backend,
589 * until the write request gets cancelled.
590 */
591 should_block = 1;
592 req = v9fs_twrite(v9p, 1, 0, sizeof(should_block), &should_block, 0);
593
594 flush_req = v9fs_tflush(v9p, req->tag, 1);
595
596 /* The write request is supposed to be flushed: the server should just
597 * mark the write request as used and reply to the flush request.
598 */
599 v9fs_req_wait_for_reply(req, &reply_len);
600 g_assert_cmpint(reply_len, ==, 0);
601 v9fs_req_free(req);
602 v9fs_rflush(flush_req);
603
604 g_free(wnames[0]);
605 }
606
607 static void fs_flush_ignored(void *obj, void *data, QGuestAllocator *t_alloc)
608 {
609 QVirtio9P *v9p = obj;
610 alloc = t_alloc;
611 char *const wnames[] = { g_strdup(QTEST_V9FS_SYNTH_FLUSH_FILE) };
612 P9Req *req, *flush_req;
613 uint32_t count;
614 uint8_t should_block;
615
616 fs_attach(v9p, NULL, t_alloc);
617 req = v9fs_twalk(v9p, 0, 1, 1, wnames, 0);
618 v9fs_req_wait_for_reply(req, NULL);
619 v9fs_rwalk(req, NULL, NULL);
620
621 req = v9fs_tlopen(v9p, 1, O_WRONLY, 0);
622 v9fs_req_wait_for_reply(req, NULL);
623 v9fs_rlopen(req, NULL, NULL);
624
625 /* This will cause the write request to complete right away, before it
626 * could be actually cancelled.
627 */
628 should_block = 0;
629 req = v9fs_twrite(v9p, 1, 0, sizeof(should_block), &should_block, 0);
630
631 flush_req = v9fs_tflush(v9p, req->tag, 1);
632
633 /* The write request is supposed to complete. The server should
634 * reply to the write request and the flush request.
635 */
636 v9fs_req_wait_for_reply(req, NULL);
637 v9fs_rwrite(req, &count);
638 g_assert_cmpint(count, ==, sizeof(should_block));
639 v9fs_rflush(flush_req);
640
641 g_free(wnames[0]);
642 }
643
644 static void register_virtio_9p_test(void)
645 {
646 qos_add_test("config", "virtio-9p", pci_config, NULL);
647 qos_add_test("fs/version/basic", "virtio-9p", fs_version, NULL);
648 qos_add_test("fs/attach/basic", "virtio-9p", fs_attach, NULL);
649 qos_add_test("fs/walk/basic", "virtio-9p", fs_walk, NULL);
650 qos_add_test("fs/walk/no_slash", "virtio-9p", fs_walk_no_slash,
651 NULL);
652 qos_add_test("fs/walk/dotdot_from_root", "virtio-9p",
653 fs_walk_dotdot, NULL);
654 qos_add_test("fs/lopen/basic", "virtio-9p", fs_lopen, NULL);
655 qos_add_test("fs/write/basic", "virtio-9p", fs_write, NULL);
656 qos_add_test("fs/flush/success", "virtio-9p", fs_flush_success,
657 NULL);
658 qos_add_test("fs/flush/ignored", "virtio-9p", fs_flush_ignored,
659 NULL);
660 }
661
662 libqos_init(register_virtio_9p_test);
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