xref: /openbmc/qemu/hw/9pfs/9p.c (revision 979a8902)
1 /*
2  * Virtio 9p backend
3  *
4  * Copyright IBM, Corp. 2010
5  *
6  * Authors:
7  *  Anthony Liguori   <aliguori@us.ibm.com>
8  *
9  * This work is licensed under the terms of the GNU GPL, version 2.  See
10  * the COPYING file in the top-level directory.
11  *
12  */
13 
14 #include "qemu/osdep.h"
15 #include <glib/gprintf.h>
16 #include "hw/virtio/virtio.h"
17 #include "qapi/error.h"
18 #include "qemu/error-report.h"
19 #include "qemu/iov.h"
20 #include "qemu/main-loop.h"
21 #include "qemu/sockets.h"
22 #include "virtio-9p.h"
23 #include "fsdev/qemu-fsdev.h"
24 #include "9p-xattr.h"
25 #include "coth.h"
26 #include "trace.h"
27 #include "migration/blocker.h"
28 #include "sysemu/qtest.h"
29 #include "qemu/xxhash.h"
30 #include <math.h>
31 
32 int open_fd_hw;
33 int total_open_fd;
34 static int open_fd_rc;
35 
36 enum {
37     Oread   = 0x00,
38     Owrite  = 0x01,
39     Ordwr   = 0x02,
40     Oexec   = 0x03,
41     Oexcl   = 0x04,
42     Otrunc  = 0x10,
43     Orexec  = 0x20,
44     Orclose = 0x40,
45     Oappend = 0x80,
46 };
47 
48 static ssize_t pdu_marshal(V9fsPDU *pdu, size_t offset, const char *fmt, ...)
49 {
50     ssize_t ret;
51     va_list ap;
52 
53     va_start(ap, fmt);
54     ret = pdu->s->transport->pdu_vmarshal(pdu, offset, fmt, ap);
55     va_end(ap);
56 
57     return ret;
58 }
59 
60 static ssize_t pdu_unmarshal(V9fsPDU *pdu, size_t offset, const char *fmt, ...)
61 {
62     ssize_t ret;
63     va_list ap;
64 
65     va_start(ap, fmt);
66     ret = pdu->s->transport->pdu_vunmarshal(pdu, offset, fmt, ap);
67     va_end(ap);
68 
69     return ret;
70 }
71 
72 static int omode_to_uflags(int8_t mode)
73 {
74     int ret = 0;
75 
76     switch (mode & 3) {
77     case Oread:
78         ret = O_RDONLY;
79         break;
80     case Ordwr:
81         ret = O_RDWR;
82         break;
83     case Owrite:
84         ret = O_WRONLY;
85         break;
86     case Oexec:
87         ret = O_RDONLY;
88         break;
89     }
90 
91     if (mode & Otrunc) {
92         ret |= O_TRUNC;
93     }
94 
95     if (mode & Oappend) {
96         ret |= O_APPEND;
97     }
98 
99     if (mode & Oexcl) {
100         ret |= O_EXCL;
101     }
102 
103     return ret;
104 }
105 
106 typedef struct DotlOpenflagMap {
107     int dotl_flag;
108     int open_flag;
109 } DotlOpenflagMap;
110 
111 static int dotl_to_open_flags(int flags)
112 {
113     int i;
114     /*
115      * We have same bits for P9_DOTL_READONLY, P9_DOTL_WRONLY
116      * and P9_DOTL_NOACCESS
117      */
118     int oflags = flags & O_ACCMODE;
119 
120     DotlOpenflagMap dotl_oflag_map[] = {
121         { P9_DOTL_CREATE, O_CREAT },
122         { P9_DOTL_EXCL, O_EXCL },
123         { P9_DOTL_NOCTTY , O_NOCTTY },
124         { P9_DOTL_TRUNC, O_TRUNC },
125         { P9_DOTL_APPEND, O_APPEND },
126         { P9_DOTL_NONBLOCK, O_NONBLOCK } ,
127         { P9_DOTL_DSYNC, O_DSYNC },
128         { P9_DOTL_FASYNC, FASYNC },
129         { P9_DOTL_DIRECT, O_DIRECT },
130         { P9_DOTL_LARGEFILE, O_LARGEFILE },
131         { P9_DOTL_DIRECTORY, O_DIRECTORY },
132         { P9_DOTL_NOFOLLOW, O_NOFOLLOW },
133         { P9_DOTL_NOATIME, O_NOATIME },
134         { P9_DOTL_SYNC, O_SYNC },
135     };
136 
137     for (i = 0; i < ARRAY_SIZE(dotl_oflag_map); i++) {
138         if (flags & dotl_oflag_map[i].dotl_flag) {
139             oflags |= dotl_oflag_map[i].open_flag;
140         }
141     }
142 
143     return oflags;
144 }
145 
146 void cred_init(FsCred *credp)
147 {
148     credp->fc_uid = -1;
149     credp->fc_gid = -1;
150     credp->fc_mode = -1;
151     credp->fc_rdev = -1;
152 }
153 
154 static int get_dotl_openflags(V9fsState *s, int oflags)
155 {
156     int flags;
157     /*
158      * Filter the client open flags
159      */
160     flags = dotl_to_open_flags(oflags);
161     flags &= ~(O_NOCTTY | O_ASYNC | O_CREAT);
162     /*
163      * Ignore direct disk access hint until the server supports it.
164      */
165     flags &= ~O_DIRECT;
166     return flags;
167 }
168 
169 void v9fs_path_init(V9fsPath *path)
170 {
171     path->data = NULL;
172     path->size = 0;
173 }
174 
175 void v9fs_path_free(V9fsPath *path)
176 {
177     g_free(path->data);
178     path->data = NULL;
179     path->size = 0;
180 }
181 
182 
183 void GCC_FMT_ATTR(2, 3)
184 v9fs_path_sprintf(V9fsPath *path, const char *fmt, ...)
185 {
186     va_list ap;
187 
188     v9fs_path_free(path);
189 
190     va_start(ap, fmt);
191     /* Bump the size for including terminating NULL */
192     path->size = g_vasprintf(&path->data, fmt, ap) + 1;
193     va_end(ap);
194 }
195 
196 void v9fs_path_copy(V9fsPath *dst, const V9fsPath *src)
197 {
198     v9fs_path_free(dst);
199     dst->size = src->size;
200     dst->data = g_memdup(src->data, src->size);
201 }
202 
203 int v9fs_name_to_path(V9fsState *s, V9fsPath *dirpath,
204                       const char *name, V9fsPath *path)
205 {
206     int err;
207     err = s->ops->name_to_path(&s->ctx, dirpath, name, path);
208     if (err < 0) {
209         err = -errno;
210     }
211     return err;
212 }
213 
214 /*
215  * Return TRUE if s1 is an ancestor of s2.
216  *
217  * E.g. "a/b" is an ancestor of "a/b/c" but not of "a/bc/d".
218  * As a special case, We treat s1 as ancestor of s2 if they are same!
219  */
220 static int v9fs_path_is_ancestor(V9fsPath *s1, V9fsPath *s2)
221 {
222     if (!strncmp(s1->data, s2->data, s1->size - 1)) {
223         if (s2->data[s1->size - 1] == '\0' || s2->data[s1->size - 1] == '/') {
224             return 1;
225         }
226     }
227     return 0;
228 }
229 
230 static size_t v9fs_string_size(V9fsString *str)
231 {
232     return str->size;
233 }
234 
235 /*
236  * returns 0 if fid got re-opened, 1 if not, < 0 on error */
237 static int coroutine_fn v9fs_reopen_fid(V9fsPDU *pdu, V9fsFidState *f)
238 {
239     int err = 1;
240     if (f->fid_type == P9_FID_FILE) {
241         if (f->fs.fd == -1) {
242             do {
243                 err = v9fs_co_open(pdu, f, f->open_flags);
244             } while (err == -EINTR && !pdu->cancelled);
245         }
246     } else if (f->fid_type == P9_FID_DIR) {
247         if (f->fs.dir.stream == NULL) {
248             do {
249                 err = v9fs_co_opendir(pdu, f);
250             } while (err == -EINTR && !pdu->cancelled);
251         }
252     }
253     return err;
254 }
255 
256 static V9fsFidState *coroutine_fn get_fid(V9fsPDU *pdu, int32_t fid)
257 {
258     int err;
259     V9fsFidState *f;
260     V9fsState *s = pdu->s;
261 
262     for (f = s->fid_list; f; f = f->next) {
263         BUG_ON(f->clunked);
264         if (f->fid == fid) {
265             /*
266              * Update the fid ref upfront so that
267              * we don't get reclaimed when we yield
268              * in open later.
269              */
270             f->ref++;
271             /*
272              * check whether we need to reopen the
273              * file. We might have closed the fd
274              * while trying to free up some file
275              * descriptors.
276              */
277             err = v9fs_reopen_fid(pdu, f);
278             if (err < 0) {
279                 f->ref--;
280                 return NULL;
281             }
282             /*
283              * Mark the fid as referenced so that the LRU
284              * reclaim won't close the file descriptor
285              */
286             f->flags |= FID_REFERENCED;
287             return f;
288         }
289     }
290     return NULL;
291 }
292 
293 static V9fsFidState *alloc_fid(V9fsState *s, int32_t fid)
294 {
295     V9fsFidState *f;
296 
297     for (f = s->fid_list; f; f = f->next) {
298         /* If fid is already there return NULL */
299         BUG_ON(f->clunked);
300         if (f->fid == fid) {
301             return NULL;
302         }
303     }
304     f = g_malloc0(sizeof(V9fsFidState));
305     f->fid = fid;
306     f->fid_type = P9_FID_NONE;
307     f->ref = 1;
308     /*
309      * Mark the fid as referenced so that the LRU
310      * reclaim won't close the file descriptor
311      */
312     f->flags |= FID_REFERENCED;
313     f->next = s->fid_list;
314     s->fid_list = f;
315 
316     v9fs_readdir_init(&f->fs.dir);
317     v9fs_readdir_init(&f->fs_reclaim.dir);
318 
319     return f;
320 }
321 
322 static int coroutine_fn v9fs_xattr_fid_clunk(V9fsPDU *pdu, V9fsFidState *fidp)
323 {
324     int retval = 0;
325 
326     if (fidp->fs.xattr.xattrwalk_fid) {
327         /* getxattr/listxattr fid */
328         goto free_value;
329     }
330     /*
331      * if this is fid for setxattr. clunk should
332      * result in setxattr localcall
333      */
334     if (fidp->fs.xattr.len != fidp->fs.xattr.copied_len) {
335         /* clunk after partial write */
336         retval = -EINVAL;
337         goto free_out;
338     }
339     if (fidp->fs.xattr.len) {
340         retval = v9fs_co_lsetxattr(pdu, &fidp->path, &fidp->fs.xattr.name,
341                                    fidp->fs.xattr.value,
342                                    fidp->fs.xattr.len,
343                                    fidp->fs.xattr.flags);
344     } else {
345         retval = v9fs_co_lremovexattr(pdu, &fidp->path, &fidp->fs.xattr.name);
346     }
347 free_out:
348     v9fs_string_free(&fidp->fs.xattr.name);
349 free_value:
350     g_free(fidp->fs.xattr.value);
351     return retval;
352 }
353 
354 static int coroutine_fn free_fid(V9fsPDU *pdu, V9fsFidState *fidp)
355 {
356     int retval = 0;
357 
358     if (fidp->fid_type == P9_FID_FILE) {
359         /* If we reclaimed the fd no need to close */
360         if (fidp->fs.fd != -1) {
361             retval = v9fs_co_close(pdu, &fidp->fs);
362         }
363     } else if (fidp->fid_type == P9_FID_DIR) {
364         if (fidp->fs.dir.stream != NULL) {
365             retval = v9fs_co_closedir(pdu, &fidp->fs);
366         }
367     } else if (fidp->fid_type == P9_FID_XATTR) {
368         retval = v9fs_xattr_fid_clunk(pdu, fidp);
369     }
370     v9fs_path_free(&fidp->path);
371     g_free(fidp);
372     return retval;
373 }
374 
375 static int coroutine_fn put_fid(V9fsPDU *pdu, V9fsFidState *fidp)
376 {
377     BUG_ON(!fidp->ref);
378     fidp->ref--;
379     /*
380      * Don't free the fid if it is in reclaim list
381      */
382     if (!fidp->ref && fidp->clunked) {
383         if (fidp->fid == pdu->s->root_fid) {
384             /*
385              * if the clunked fid is root fid then we
386              * have unmounted the fs on the client side.
387              * delete the migration blocker. Ideally, this
388              * should be hooked to transport close notification
389              */
390             if (pdu->s->migration_blocker) {
391                 migrate_del_blocker(pdu->s->migration_blocker);
392                 error_free(pdu->s->migration_blocker);
393                 pdu->s->migration_blocker = NULL;
394             }
395         }
396         return free_fid(pdu, fidp);
397     }
398     return 0;
399 }
400 
401 static V9fsFidState *clunk_fid(V9fsState *s, int32_t fid)
402 {
403     V9fsFidState **fidpp, *fidp;
404 
405     for (fidpp = &s->fid_list; *fidpp; fidpp = &(*fidpp)->next) {
406         if ((*fidpp)->fid == fid) {
407             break;
408         }
409     }
410     if (*fidpp == NULL) {
411         return NULL;
412     }
413     fidp = *fidpp;
414     *fidpp = fidp->next;
415     fidp->clunked = 1;
416     return fidp;
417 }
418 
419 void coroutine_fn v9fs_reclaim_fd(V9fsPDU *pdu)
420 {
421     int reclaim_count = 0;
422     V9fsState *s = pdu->s;
423     V9fsFidState *f, *reclaim_list = NULL;
424 
425     for (f = s->fid_list; f; f = f->next) {
426         /*
427          * Unlink fids cannot be reclaimed. Check
428          * for them and skip them. Also skip fids
429          * currently being operated on.
430          */
431         if (f->ref || f->flags & FID_NON_RECLAIMABLE) {
432             continue;
433         }
434         /*
435          * if it is a recently referenced fid
436          * we leave the fid untouched and clear the
437          * reference bit. We come back to it later
438          * in the next iteration. (a simple LRU without
439          * moving list elements around)
440          */
441         if (f->flags & FID_REFERENCED) {
442             f->flags &= ~FID_REFERENCED;
443             continue;
444         }
445         /*
446          * Add fids to reclaim list.
447          */
448         if (f->fid_type == P9_FID_FILE) {
449             if (f->fs.fd != -1) {
450                 /*
451                  * Up the reference count so that
452                  * a clunk request won't free this fid
453                  */
454                 f->ref++;
455                 f->rclm_lst = reclaim_list;
456                 reclaim_list = f;
457                 f->fs_reclaim.fd = f->fs.fd;
458                 f->fs.fd = -1;
459                 reclaim_count++;
460             }
461         } else if (f->fid_type == P9_FID_DIR) {
462             if (f->fs.dir.stream != NULL) {
463                 /*
464                  * Up the reference count so that
465                  * a clunk request won't free this fid
466                  */
467                 f->ref++;
468                 f->rclm_lst = reclaim_list;
469                 reclaim_list = f;
470                 f->fs_reclaim.dir.stream = f->fs.dir.stream;
471                 f->fs.dir.stream = NULL;
472                 reclaim_count++;
473             }
474         }
475         if (reclaim_count >= open_fd_rc) {
476             break;
477         }
478     }
479     /*
480      * Now close the fid in reclaim list. Free them if they
481      * are already clunked.
482      */
483     while (reclaim_list) {
484         f = reclaim_list;
485         reclaim_list = f->rclm_lst;
486         if (f->fid_type == P9_FID_FILE) {
487             v9fs_co_close(pdu, &f->fs_reclaim);
488         } else if (f->fid_type == P9_FID_DIR) {
489             v9fs_co_closedir(pdu, &f->fs_reclaim);
490         }
491         f->rclm_lst = NULL;
492         /*
493          * Now drop the fid reference, free it
494          * if clunked.
495          */
496         put_fid(pdu, f);
497     }
498 }
499 
500 static int coroutine_fn v9fs_mark_fids_unreclaim(V9fsPDU *pdu, V9fsPath *path)
501 {
502     int err;
503     V9fsState *s = pdu->s;
504     V9fsFidState *fidp, head_fid;
505 
506     head_fid.next = s->fid_list;
507     for (fidp = s->fid_list; fidp; fidp = fidp->next) {
508         if (fidp->path.size != path->size) {
509             continue;
510         }
511         if (!memcmp(fidp->path.data, path->data, path->size)) {
512             /* Mark the fid non reclaimable. */
513             fidp->flags |= FID_NON_RECLAIMABLE;
514 
515             /* reopen the file/dir if already closed */
516             err = v9fs_reopen_fid(pdu, fidp);
517             if (err < 0) {
518                 return err;
519             }
520             /*
521              * Go back to head of fid list because
522              * the list could have got updated when
523              * switched to the worker thread
524              */
525             if (err == 0) {
526                 fidp = &head_fid;
527             }
528         }
529     }
530     return 0;
531 }
532 
533 static void coroutine_fn virtfs_reset(V9fsPDU *pdu)
534 {
535     V9fsState *s = pdu->s;
536     V9fsFidState *fidp;
537 
538     /* Free all fids */
539     while (s->fid_list) {
540         /* Get fid */
541         fidp = s->fid_list;
542         fidp->ref++;
543 
544         /* Clunk fid */
545         s->fid_list = fidp->next;
546         fidp->clunked = 1;
547 
548         put_fid(pdu, fidp);
549     }
550 }
551 
552 #define P9_QID_TYPE_DIR         0x80
553 #define P9_QID_TYPE_SYMLINK     0x02
554 
555 #define P9_STAT_MODE_DIR        0x80000000
556 #define P9_STAT_MODE_APPEND     0x40000000
557 #define P9_STAT_MODE_EXCL       0x20000000
558 #define P9_STAT_MODE_MOUNT      0x10000000
559 #define P9_STAT_MODE_AUTH       0x08000000
560 #define P9_STAT_MODE_TMP        0x04000000
561 #define P9_STAT_MODE_SYMLINK    0x02000000
562 #define P9_STAT_MODE_LINK       0x01000000
563 #define P9_STAT_MODE_DEVICE     0x00800000
564 #define P9_STAT_MODE_NAMED_PIPE 0x00200000
565 #define P9_STAT_MODE_SOCKET     0x00100000
566 #define P9_STAT_MODE_SETUID     0x00080000
567 #define P9_STAT_MODE_SETGID     0x00040000
568 #define P9_STAT_MODE_SETVTX     0x00010000
569 
570 #define P9_STAT_MODE_TYPE_BITS (P9_STAT_MODE_DIR |          \
571                                 P9_STAT_MODE_SYMLINK |      \
572                                 P9_STAT_MODE_LINK |         \
573                                 P9_STAT_MODE_DEVICE |       \
574                                 P9_STAT_MODE_NAMED_PIPE |   \
575                                 P9_STAT_MODE_SOCKET)
576 
577 /* Mirrors all bits of a byte. So e.g. binary 10100000 would become 00000101. */
578 static inline uint8_t mirror8bit(uint8_t byte)
579 {
580     return (byte * 0x0202020202ULL & 0x010884422010ULL) % 1023;
581 }
582 
583 /* Same as mirror8bit() just for a 64 bit data type instead for a byte. */
584 static inline uint64_t mirror64bit(uint64_t value)
585 {
586     return ((uint64_t)mirror8bit(value         & 0xff) << 56) |
587            ((uint64_t)mirror8bit((value >> 8)  & 0xff) << 48) |
588            ((uint64_t)mirror8bit((value >> 16) & 0xff) << 40) |
589            ((uint64_t)mirror8bit((value >> 24) & 0xff) << 32) |
590            ((uint64_t)mirror8bit((value >> 32) & 0xff) << 24) |
591            ((uint64_t)mirror8bit((value >> 40) & 0xff) << 16) |
592            ((uint64_t)mirror8bit((value >> 48) & 0xff) << 8)  |
593            ((uint64_t)mirror8bit((value >> 56) & 0xff));
594 }
595 
596 /**
597  * @brief Parameter k for the Exponential Golomb algorihm to be used.
598  *
599  * The smaller this value, the smaller the minimum bit count for the Exp.
600  * Golomb generated affixes will be (at lowest index) however for the
601  * price of having higher maximum bit count of generated affixes (at highest
602  * index). Likewise increasing this parameter yields in smaller maximum bit
603  * count for the price of having higher minimum bit count.
604  *
605  * In practice that means: a good value for k depends on the expected amount
606  * of devices to be exposed by one export. For a small amount of devices k
607  * should be small, for a large amount of devices k might be increased
608  * instead. The default of k=0 should be fine for most users though.
609  *
610  * @b IMPORTANT: In case this ever becomes a runtime parameter; the value of
611  * k should not change as long as guest is still running! Because that would
612  * cause completely different inode numbers to be generated on guest.
613  */
614 #define EXP_GOLOMB_K    0
615 
616 /**
617  * @brief Exponential Golomb algorithm for arbitrary k (including k=0).
618  *
619  * The Exponential Golomb algorithm generates @b prefixes (@b not suffixes!)
620  * with growing length and with the mathematical property of being
621  * "prefix-free". The latter means the generated prefixes can be prepended
622  * in front of arbitrary numbers and the resulting concatenated numbers are
623  * guaranteed to be always unique.
624  *
625  * This is a minor adjustment to the original Exp. Golomb algorithm in the
626  * sense that lowest allowed index (@param n) starts with 1, not with zero.
627  *
628  * @param n - natural number (or index) of the prefix to be generated
629  *            (1, 2, 3, ...)
630  * @param k - parameter k of Exp. Golomb algorithm to be used
631  *            (see comment on EXP_GOLOMB_K macro for details about k)
632  */
633 static VariLenAffix expGolombEncode(uint64_t n, int k)
634 {
635     const uint64_t value = n + (1 << k) - 1;
636     const int bits = (int) log2(value) + 1;
637     return (VariLenAffix) {
638         .type = AffixType_Prefix,
639         .value = value,
640         .bits = bits + MAX((bits - 1 - k), 0)
641     };
642 }
643 
644 /**
645  * @brief Converts a suffix into a prefix, or a prefix into a suffix.
646  *
647  * Simply mirror all bits of the affix value, for the purpose to preserve
648  * respectively the mathematical "prefix-free" or "suffix-free" property
649  * after the conversion.
650  *
651  * If a passed prefix is suitable to create unique numbers, then the
652  * returned suffix is suitable to create unique numbers as well (and vice
653  * versa).
654  */
655 static VariLenAffix invertAffix(const VariLenAffix *affix)
656 {
657     return (VariLenAffix) {
658         .type =
659             (affix->type == AffixType_Suffix) ?
660                 AffixType_Prefix : AffixType_Suffix,
661         .value =
662             mirror64bit(affix->value) >>
663             ((sizeof(affix->value) * 8) - affix->bits),
664         .bits = affix->bits
665     };
666 }
667 
668 /**
669  * @brief Generates suffix numbers with "suffix-free" property.
670  *
671  * This is just a wrapper function on top of the Exp. Golomb algorithm.
672  *
673  * Since the Exp. Golomb algorithm generates prefixes, but we need suffixes,
674  * this function converts the Exp. Golomb prefixes into appropriate suffixes
675  * which are still suitable for generating unique numbers.
676  *
677  * @param n - natural number (or index) of the suffix to be generated
678  *            (1, 2, 3, ...)
679  */
680 static VariLenAffix affixForIndex(uint64_t index)
681 {
682     VariLenAffix prefix;
683     prefix = expGolombEncode(index, EXP_GOLOMB_K);
684     return invertAffix(&prefix); /* convert prefix to suffix */
685 }
686 
687 /* creative abuse of tb_hash_func7, which is based on xxhash */
688 static uint32_t qpp_hash(QppEntry e)
689 {
690     return qemu_xxhash7(e.ino_prefix, e.dev, 0, 0, 0);
691 }
692 
693 static uint32_t qpf_hash(QpfEntry e)
694 {
695     return qemu_xxhash7(e.ino, e.dev, 0, 0, 0);
696 }
697 
698 static bool qpd_cmp_func(const void *obj, const void *userp)
699 {
700     const QpdEntry *e1 = obj, *e2 = userp;
701     return e1->dev == e2->dev;
702 }
703 
704 static bool qpp_cmp_func(const void *obj, const void *userp)
705 {
706     const QppEntry *e1 = obj, *e2 = userp;
707     return e1->dev == e2->dev && e1->ino_prefix == e2->ino_prefix;
708 }
709 
710 static bool qpf_cmp_func(const void *obj, const void *userp)
711 {
712     const QpfEntry *e1 = obj, *e2 = userp;
713     return e1->dev == e2->dev && e1->ino == e2->ino;
714 }
715 
716 static void qp_table_remove(void *p, uint32_t h, void *up)
717 {
718     g_free(p);
719 }
720 
721 static void qp_table_destroy(struct qht *ht)
722 {
723     if (!ht || !ht->map) {
724         return;
725     }
726     qht_iter(ht, qp_table_remove, NULL);
727     qht_destroy(ht);
728 }
729 
730 static void qpd_table_init(struct qht *ht)
731 {
732     qht_init(ht, qpd_cmp_func, 1, QHT_MODE_AUTO_RESIZE);
733 }
734 
735 static void qpp_table_init(struct qht *ht)
736 {
737     qht_init(ht, qpp_cmp_func, 1, QHT_MODE_AUTO_RESIZE);
738 }
739 
740 static void qpf_table_init(struct qht *ht)
741 {
742     qht_init(ht, qpf_cmp_func, 1 << 16, QHT_MODE_AUTO_RESIZE);
743 }
744 
745 /*
746  * Returns how many (high end) bits of inode numbers of the passed fs
747  * device shall be used (in combination with the device number) to
748  * generate hash values for qpp_table entries.
749  *
750  * This function is required if variable length suffixes are used for inode
751  * number mapping on guest level. Since a device may end up having multiple
752  * entries in qpp_table, each entry most probably with a different suffix
753  * length, we thus need this function in conjunction with qpd_table to
754  * "agree" about a fix amount of bits (per device) to be always used for
755  * generating hash values for the purpose of accessing qpp_table in order
756  * get consistent behaviour when accessing qpp_table.
757  */
758 static int qid_inode_prefix_hash_bits(V9fsPDU *pdu, dev_t dev)
759 {
760     QpdEntry lookup = {
761         .dev = dev
762     }, *val;
763     uint32_t hash = dev;
764     VariLenAffix affix;
765 
766     val = qht_lookup(&pdu->s->qpd_table, &lookup, hash);
767     if (!val) {
768         val = g_malloc0(sizeof(QpdEntry));
769         *val = lookup;
770         affix = affixForIndex(pdu->s->qp_affix_next);
771         val->prefix_bits = affix.bits;
772         qht_insert(&pdu->s->qpd_table, val, hash, NULL);
773         pdu->s->qp_ndevices++;
774     }
775     return val->prefix_bits;
776 }
777 
778 /**
779  * @brief Slow / full mapping host inode nr -> guest inode nr.
780  *
781  * This function performs a slower and much more costly remapping of an
782  * original file inode number on host to an appropriate different inode
783  * number on guest. For every (dev, inode) combination on host a new
784  * sequential number is generated, cached and exposed as inode number on
785  * guest.
786  *
787  * This is just a "last resort" fallback solution if the much faster/cheaper
788  * qid_path_suffixmap() failed. In practice this slow / full mapping is not
789  * expected ever to be used at all though.
790  *
791  * @see qid_path_suffixmap() for details
792  *
793  */
794 static int qid_path_fullmap(V9fsPDU *pdu, const struct stat *stbuf,
795                             uint64_t *path)
796 {
797     QpfEntry lookup = {
798         .dev = stbuf->st_dev,
799         .ino = stbuf->st_ino
800     }, *val;
801     uint32_t hash = qpf_hash(lookup);
802     VariLenAffix affix;
803 
804     val = qht_lookup(&pdu->s->qpf_table, &lookup, hash);
805 
806     if (!val) {
807         if (pdu->s->qp_fullpath_next == 0) {
808             /* no more files can be mapped :'( */
809             error_report_once(
810                 "9p: No more prefixes available for remapping inodes from "
811                 "host to guest."
812             );
813             return -ENFILE;
814         }
815 
816         val = g_malloc0(sizeof(QppEntry));
817         *val = lookup;
818 
819         /* new unique inode and device combo */
820         affix = affixForIndex(
821             1ULL << (sizeof(pdu->s->qp_affix_next) * 8)
822         );
823         val->path = (pdu->s->qp_fullpath_next++ << affix.bits) | affix.value;
824         pdu->s->qp_fullpath_next &= ((1ULL << (64 - affix.bits)) - 1);
825         qht_insert(&pdu->s->qpf_table, val, hash, NULL);
826     }
827 
828     *path = val->path;
829     return 0;
830 }
831 
832 /**
833  * @brief Quick mapping host inode nr -> guest inode nr.
834  *
835  * This function performs quick remapping of an original file inode number
836  * on host to an appropriate different inode number on guest. This remapping
837  * of inodes is required to avoid inode nr collisions on guest which would
838  * happen if the 9p export contains more than 1 exported file system (or
839  * more than 1 file system data set), because unlike on host level where the
840  * files would have different device nrs, all files exported by 9p would
841  * share the same device nr on guest (the device nr of the virtual 9p device
842  * that is).
843  *
844  * Inode remapping is performed by chopping off high end bits of the original
845  * inode number from host, shifting the result upwards and then assigning a
846  * generated suffix number for the low end bits, where the same suffix number
847  * will be shared by all inodes with the same device id AND the same high end
848  * bits that have been chopped off. That approach utilizes the fact that inode
849  * numbers very likely share the same high end bits (i.e. due to their common
850  * sequential generation by file systems) and hence we only have to generate
851  * and track a very limited amount of suffixes in practice due to that.
852  *
853  * We generate variable size suffixes for that purpose. The 1st generated
854  * suffix will only have 1 bit and hence we only need to chop off 1 bit from
855  * the original inode number. The subsequent suffixes being generated will
856  * grow in (bit) size subsequently, i.e. the 2nd and 3rd suffix being
857  * generated will have 3 bits and hence we have to chop off 3 bits from their
858  * original inodes, and so on. That approach of using variable length suffixes
859  * (i.e. over fixed size ones) utilizes the fact that in practice only a very
860  * limited amount of devices are shared by the same export (e.g. typically
861  * less than 2 dozen devices per 9p export), so in practice we need to chop
862  * off less bits than with fixed size prefixes and yet are flexible to add
863  * new devices at runtime below host's export directory at any time without
864  * having to reboot guest nor requiring to reconfigure guest for that. And due
865  * to the very limited amount of original high end bits that we chop off that
866  * way, the total amount of suffixes we need to generate is less than by using
867  * fixed size prefixes and hence it also improves performance of the inode
868  * remapping algorithm, and finally has the nice side effect that the inode
869  * numbers on guest will be much smaller & human friendly. ;-)
870  */
871 static int qid_path_suffixmap(V9fsPDU *pdu, const struct stat *stbuf,
872                               uint64_t *path)
873 {
874     const int ino_hash_bits = qid_inode_prefix_hash_bits(pdu, stbuf->st_dev);
875     QppEntry lookup = {
876         .dev = stbuf->st_dev,
877         .ino_prefix = (uint16_t) (stbuf->st_ino >> (64 - ino_hash_bits))
878     }, *val;
879     uint32_t hash = qpp_hash(lookup);
880 
881     val = qht_lookup(&pdu->s->qpp_table, &lookup, hash);
882 
883     if (!val) {
884         if (pdu->s->qp_affix_next == 0) {
885             /* we ran out of affixes */
886             warn_report_once(
887                 "9p: Potential degraded performance of inode remapping"
888             );
889             return -ENFILE;
890         }
891 
892         val = g_malloc0(sizeof(QppEntry));
893         *val = lookup;
894 
895         /* new unique inode affix and device combo */
896         val->qp_affix_index = pdu->s->qp_affix_next++;
897         val->qp_affix = affixForIndex(val->qp_affix_index);
898         qht_insert(&pdu->s->qpp_table, val, hash, NULL);
899     }
900     /* assuming generated affix to be suffix type, not prefix */
901     *path = (stbuf->st_ino << val->qp_affix.bits) | val->qp_affix.value;
902     return 0;
903 }
904 
905 static int stat_to_qid(V9fsPDU *pdu, const struct stat *stbuf, V9fsQID *qidp)
906 {
907     int err;
908     size_t size;
909 
910     if (pdu->s->ctx.export_flags & V9FS_REMAP_INODES) {
911         /* map inode+device to qid path (fast path) */
912         err = qid_path_suffixmap(pdu, stbuf, &qidp->path);
913         if (err == -ENFILE) {
914             /* fast path didn't work, fall back to full map */
915             err = qid_path_fullmap(pdu, stbuf, &qidp->path);
916         }
917         if (err) {
918             return err;
919         }
920     } else {
921         if (pdu->s->dev_id != stbuf->st_dev) {
922             if (pdu->s->ctx.export_flags & V9FS_FORBID_MULTIDEVS) {
923                 error_report_once(
924                     "9p: Multiple devices detected in same VirtFS export. "
925                     "Access of guest to additional devices is (partly) "
926                     "denied due to virtfs option 'multidevs=forbid' being "
927                     "effective."
928                 );
929                 return -ENODEV;
930             } else {
931                 warn_report_once(
932                     "9p: Multiple devices detected in same VirtFS export, "
933                     "which might lead to file ID collisions and severe "
934                     "misbehaviours on guest! You should either use a "
935                     "separate export for each device shared from host or "
936                     "use virtfs option 'multidevs=remap'!"
937                 );
938             }
939         }
940         memset(&qidp->path, 0, sizeof(qidp->path));
941         size = MIN(sizeof(stbuf->st_ino), sizeof(qidp->path));
942         memcpy(&qidp->path, &stbuf->st_ino, size);
943     }
944 
945     qidp->version = stbuf->st_mtime ^ (stbuf->st_size << 8);
946     qidp->type = 0;
947     if (S_ISDIR(stbuf->st_mode)) {
948         qidp->type |= P9_QID_TYPE_DIR;
949     }
950     if (S_ISLNK(stbuf->st_mode)) {
951         qidp->type |= P9_QID_TYPE_SYMLINK;
952     }
953 
954     return 0;
955 }
956 
957 static int coroutine_fn fid_to_qid(V9fsPDU *pdu, V9fsFidState *fidp,
958                                    V9fsQID *qidp)
959 {
960     struct stat stbuf;
961     int err;
962 
963     err = v9fs_co_lstat(pdu, &fidp->path, &stbuf);
964     if (err < 0) {
965         return err;
966     }
967     err = stat_to_qid(pdu, &stbuf, qidp);
968     if (err < 0) {
969         return err;
970     }
971     return 0;
972 }
973 
974 static int coroutine_fn dirent_to_qid(V9fsPDU *pdu, V9fsFidState *fidp,
975                                       struct dirent *dent, V9fsQID *qidp)
976 {
977     struct stat stbuf;
978     V9fsPath path;
979     int err;
980 
981     v9fs_path_init(&path);
982 
983     err = v9fs_co_name_to_path(pdu, &fidp->path, dent->d_name, &path);
984     if (err < 0) {
985         goto out;
986     }
987     err = v9fs_co_lstat(pdu, &path, &stbuf);
988     if (err < 0) {
989         goto out;
990     }
991     err = stat_to_qid(pdu, &stbuf, qidp);
992 
993 out:
994     v9fs_path_free(&path);
995     return err;
996 }
997 
998 V9fsPDU *pdu_alloc(V9fsState *s)
999 {
1000     V9fsPDU *pdu = NULL;
1001 
1002     if (!QLIST_EMPTY(&s->free_list)) {
1003         pdu = QLIST_FIRST(&s->free_list);
1004         QLIST_REMOVE(pdu, next);
1005         QLIST_INSERT_HEAD(&s->active_list, pdu, next);
1006     }
1007     return pdu;
1008 }
1009 
1010 void pdu_free(V9fsPDU *pdu)
1011 {
1012     V9fsState *s = pdu->s;
1013 
1014     g_assert(!pdu->cancelled);
1015     QLIST_REMOVE(pdu, next);
1016     QLIST_INSERT_HEAD(&s->free_list, pdu, next);
1017 }
1018 
1019 static void coroutine_fn pdu_complete(V9fsPDU *pdu, ssize_t len)
1020 {
1021     int8_t id = pdu->id + 1; /* Response */
1022     V9fsState *s = pdu->s;
1023     int ret;
1024 
1025     /*
1026      * The 9p spec requires that successfully cancelled pdus receive no reply.
1027      * Sending a reply would confuse clients because they would
1028      * assume that any EINTR is the actual result of the operation,
1029      * rather than a consequence of the cancellation. However, if
1030      * the operation completed (succesfully or with an error other
1031      * than caused be cancellation), we do send out that reply, both
1032      * for efficiency and to avoid confusing the rest of the state machine
1033      * that assumes passing a non-error here will mean a successful
1034      * transmission of the reply.
1035      */
1036     bool discard = pdu->cancelled && len == -EINTR;
1037     if (discard) {
1038         trace_v9fs_rcancel(pdu->tag, pdu->id);
1039         pdu->size = 0;
1040         goto out_notify;
1041     }
1042 
1043     if (len < 0) {
1044         int err = -len;
1045         len = 7;
1046 
1047         if (s->proto_version != V9FS_PROTO_2000L) {
1048             V9fsString str;
1049 
1050             str.data = strerror(err);
1051             str.size = strlen(str.data);
1052 
1053             ret = pdu_marshal(pdu, len, "s", &str);
1054             if (ret < 0) {
1055                 goto out_notify;
1056             }
1057             len += ret;
1058             id = P9_RERROR;
1059         }
1060 
1061         ret = pdu_marshal(pdu, len, "d", err);
1062         if (ret < 0) {
1063             goto out_notify;
1064         }
1065         len += ret;
1066 
1067         if (s->proto_version == V9FS_PROTO_2000L) {
1068             id = P9_RLERROR;
1069         }
1070         trace_v9fs_rerror(pdu->tag, pdu->id, err); /* Trace ERROR */
1071     }
1072 
1073     /* fill out the header */
1074     if (pdu_marshal(pdu, 0, "dbw", (int32_t)len, id, pdu->tag) < 0) {
1075         goto out_notify;
1076     }
1077 
1078     /* keep these in sync */
1079     pdu->size = len;
1080     pdu->id = id;
1081 
1082 out_notify:
1083     pdu->s->transport->push_and_notify(pdu);
1084 
1085     /* Now wakeup anybody waiting in flush for this request */
1086     if (!qemu_co_queue_next(&pdu->complete)) {
1087         pdu_free(pdu);
1088     }
1089 }
1090 
1091 static mode_t v9mode_to_mode(uint32_t mode, V9fsString *extension)
1092 {
1093     mode_t ret;
1094 
1095     ret = mode & 0777;
1096     if (mode & P9_STAT_MODE_DIR) {
1097         ret |= S_IFDIR;
1098     }
1099 
1100     if (mode & P9_STAT_MODE_SYMLINK) {
1101         ret |= S_IFLNK;
1102     }
1103     if (mode & P9_STAT_MODE_SOCKET) {
1104         ret |= S_IFSOCK;
1105     }
1106     if (mode & P9_STAT_MODE_NAMED_PIPE) {
1107         ret |= S_IFIFO;
1108     }
1109     if (mode & P9_STAT_MODE_DEVICE) {
1110         if (extension->size && extension->data[0] == 'c') {
1111             ret |= S_IFCHR;
1112         } else {
1113             ret |= S_IFBLK;
1114         }
1115     }
1116 
1117     if (!(ret&~0777)) {
1118         ret |= S_IFREG;
1119     }
1120 
1121     if (mode & P9_STAT_MODE_SETUID) {
1122         ret |= S_ISUID;
1123     }
1124     if (mode & P9_STAT_MODE_SETGID) {
1125         ret |= S_ISGID;
1126     }
1127     if (mode & P9_STAT_MODE_SETVTX) {
1128         ret |= S_ISVTX;
1129     }
1130 
1131     return ret;
1132 }
1133 
1134 static int donttouch_stat(V9fsStat *stat)
1135 {
1136     if (stat->type == -1 &&
1137         stat->dev == -1 &&
1138         stat->qid.type == 0xff &&
1139         stat->qid.version == (uint32_t) -1 &&
1140         stat->qid.path == (uint64_t) -1 &&
1141         stat->mode == -1 &&
1142         stat->atime == -1 &&
1143         stat->mtime == -1 &&
1144         stat->length == -1 &&
1145         !stat->name.size &&
1146         !stat->uid.size &&
1147         !stat->gid.size &&
1148         !stat->muid.size &&
1149         stat->n_uid == -1 &&
1150         stat->n_gid == -1 &&
1151         stat->n_muid == -1) {
1152         return 1;
1153     }
1154 
1155     return 0;
1156 }
1157 
1158 static void v9fs_stat_init(V9fsStat *stat)
1159 {
1160     v9fs_string_init(&stat->name);
1161     v9fs_string_init(&stat->uid);
1162     v9fs_string_init(&stat->gid);
1163     v9fs_string_init(&stat->muid);
1164     v9fs_string_init(&stat->extension);
1165 }
1166 
1167 static void v9fs_stat_free(V9fsStat *stat)
1168 {
1169     v9fs_string_free(&stat->name);
1170     v9fs_string_free(&stat->uid);
1171     v9fs_string_free(&stat->gid);
1172     v9fs_string_free(&stat->muid);
1173     v9fs_string_free(&stat->extension);
1174 }
1175 
1176 static uint32_t stat_to_v9mode(const struct stat *stbuf)
1177 {
1178     uint32_t mode;
1179 
1180     mode = stbuf->st_mode & 0777;
1181     if (S_ISDIR(stbuf->st_mode)) {
1182         mode |= P9_STAT_MODE_DIR;
1183     }
1184 
1185     if (S_ISLNK(stbuf->st_mode)) {
1186         mode |= P9_STAT_MODE_SYMLINK;
1187     }
1188 
1189     if (S_ISSOCK(stbuf->st_mode)) {
1190         mode |= P9_STAT_MODE_SOCKET;
1191     }
1192 
1193     if (S_ISFIFO(stbuf->st_mode)) {
1194         mode |= P9_STAT_MODE_NAMED_PIPE;
1195     }
1196 
1197     if (S_ISBLK(stbuf->st_mode) || S_ISCHR(stbuf->st_mode)) {
1198         mode |= P9_STAT_MODE_DEVICE;
1199     }
1200 
1201     if (stbuf->st_mode & S_ISUID) {
1202         mode |= P9_STAT_MODE_SETUID;
1203     }
1204 
1205     if (stbuf->st_mode & S_ISGID) {
1206         mode |= P9_STAT_MODE_SETGID;
1207     }
1208 
1209     if (stbuf->st_mode & S_ISVTX) {
1210         mode |= P9_STAT_MODE_SETVTX;
1211     }
1212 
1213     return mode;
1214 }
1215 
1216 static int coroutine_fn stat_to_v9stat(V9fsPDU *pdu, V9fsPath *path,
1217                                        const char *basename,
1218                                        const struct stat *stbuf,
1219                                        V9fsStat *v9stat)
1220 {
1221     int err;
1222 
1223     memset(v9stat, 0, sizeof(*v9stat));
1224 
1225     err = stat_to_qid(pdu, stbuf, &v9stat->qid);
1226     if (err < 0) {
1227         return err;
1228     }
1229     v9stat->mode = stat_to_v9mode(stbuf);
1230     v9stat->atime = stbuf->st_atime;
1231     v9stat->mtime = stbuf->st_mtime;
1232     v9stat->length = stbuf->st_size;
1233 
1234     v9fs_string_free(&v9stat->uid);
1235     v9fs_string_free(&v9stat->gid);
1236     v9fs_string_free(&v9stat->muid);
1237 
1238     v9stat->n_uid = stbuf->st_uid;
1239     v9stat->n_gid = stbuf->st_gid;
1240     v9stat->n_muid = 0;
1241 
1242     v9fs_string_free(&v9stat->extension);
1243 
1244     if (v9stat->mode & P9_STAT_MODE_SYMLINK) {
1245         err = v9fs_co_readlink(pdu, path, &v9stat->extension);
1246         if (err < 0) {
1247             return err;
1248         }
1249     } else if (v9stat->mode & P9_STAT_MODE_DEVICE) {
1250         v9fs_string_sprintf(&v9stat->extension, "%c %u %u",
1251                 S_ISCHR(stbuf->st_mode) ? 'c' : 'b',
1252                 major(stbuf->st_rdev), minor(stbuf->st_rdev));
1253     } else if (S_ISDIR(stbuf->st_mode) || S_ISREG(stbuf->st_mode)) {
1254         v9fs_string_sprintf(&v9stat->extension, "%s %lu",
1255                 "HARDLINKCOUNT", (unsigned long)stbuf->st_nlink);
1256     }
1257 
1258     v9fs_string_sprintf(&v9stat->name, "%s", basename);
1259 
1260     v9stat->size = 61 +
1261         v9fs_string_size(&v9stat->name) +
1262         v9fs_string_size(&v9stat->uid) +
1263         v9fs_string_size(&v9stat->gid) +
1264         v9fs_string_size(&v9stat->muid) +
1265         v9fs_string_size(&v9stat->extension);
1266     return 0;
1267 }
1268 
1269 #define P9_STATS_MODE          0x00000001ULL
1270 #define P9_STATS_NLINK         0x00000002ULL
1271 #define P9_STATS_UID           0x00000004ULL
1272 #define P9_STATS_GID           0x00000008ULL
1273 #define P9_STATS_RDEV          0x00000010ULL
1274 #define P9_STATS_ATIME         0x00000020ULL
1275 #define P9_STATS_MTIME         0x00000040ULL
1276 #define P9_STATS_CTIME         0x00000080ULL
1277 #define P9_STATS_INO           0x00000100ULL
1278 #define P9_STATS_SIZE          0x00000200ULL
1279 #define P9_STATS_BLOCKS        0x00000400ULL
1280 
1281 #define P9_STATS_BTIME         0x00000800ULL
1282 #define P9_STATS_GEN           0x00001000ULL
1283 #define P9_STATS_DATA_VERSION  0x00002000ULL
1284 
1285 #define P9_STATS_BASIC         0x000007ffULL /* Mask for fields up to BLOCKS */
1286 #define P9_STATS_ALL           0x00003fffULL /* Mask for All fields above */
1287 
1288 
1289 static int stat_to_v9stat_dotl(V9fsPDU *pdu, const struct stat *stbuf,
1290                                 V9fsStatDotl *v9lstat)
1291 {
1292     memset(v9lstat, 0, sizeof(*v9lstat));
1293 
1294     v9lstat->st_mode = stbuf->st_mode;
1295     v9lstat->st_nlink = stbuf->st_nlink;
1296     v9lstat->st_uid = stbuf->st_uid;
1297     v9lstat->st_gid = stbuf->st_gid;
1298     v9lstat->st_rdev = stbuf->st_rdev;
1299     v9lstat->st_size = stbuf->st_size;
1300     v9lstat->st_blksize = stbuf->st_blksize;
1301     v9lstat->st_blocks = stbuf->st_blocks;
1302     v9lstat->st_atime_sec = stbuf->st_atime;
1303     v9lstat->st_atime_nsec = stbuf->st_atim.tv_nsec;
1304     v9lstat->st_mtime_sec = stbuf->st_mtime;
1305     v9lstat->st_mtime_nsec = stbuf->st_mtim.tv_nsec;
1306     v9lstat->st_ctime_sec = stbuf->st_ctime;
1307     v9lstat->st_ctime_nsec = stbuf->st_ctim.tv_nsec;
1308     /* Currently we only support BASIC fields in stat */
1309     v9lstat->st_result_mask = P9_STATS_BASIC;
1310 
1311     return stat_to_qid(pdu, stbuf, &v9lstat->qid);
1312 }
1313 
1314 static void print_sg(struct iovec *sg, int cnt)
1315 {
1316     int i;
1317 
1318     printf("sg[%d]: {", cnt);
1319     for (i = 0; i < cnt; i++) {
1320         if (i) {
1321             printf(", ");
1322         }
1323         printf("(%p, %zd)", sg[i].iov_base, sg[i].iov_len);
1324     }
1325     printf("}\n");
1326 }
1327 
1328 /* Will call this only for path name based fid */
1329 static void v9fs_fix_path(V9fsPath *dst, V9fsPath *src, int len)
1330 {
1331     V9fsPath str;
1332     v9fs_path_init(&str);
1333     v9fs_path_copy(&str, dst);
1334     v9fs_path_sprintf(dst, "%s%s", src->data, str.data + len);
1335     v9fs_path_free(&str);
1336 }
1337 
1338 static inline bool is_ro_export(FsContext *ctx)
1339 {
1340     return ctx->export_flags & V9FS_RDONLY;
1341 }
1342 
1343 static void coroutine_fn v9fs_version(void *opaque)
1344 {
1345     ssize_t err;
1346     V9fsPDU *pdu = opaque;
1347     V9fsState *s = pdu->s;
1348     V9fsString version;
1349     size_t offset = 7;
1350 
1351     v9fs_string_init(&version);
1352     err = pdu_unmarshal(pdu, offset, "ds", &s->msize, &version);
1353     if (err < 0) {
1354         goto out;
1355     }
1356     trace_v9fs_version(pdu->tag, pdu->id, s->msize, version.data);
1357 
1358     virtfs_reset(pdu);
1359 
1360     if (!strcmp(version.data, "9P2000.u")) {
1361         s->proto_version = V9FS_PROTO_2000U;
1362     } else if (!strcmp(version.data, "9P2000.L")) {
1363         s->proto_version = V9FS_PROTO_2000L;
1364     } else {
1365         v9fs_string_sprintf(&version, "unknown");
1366         /* skip min. msize check, reporting invalid version has priority */
1367         goto marshal;
1368     }
1369 
1370     if (s->msize < P9_MIN_MSIZE) {
1371         err = -EMSGSIZE;
1372         error_report(
1373             "9pfs: Client requested msize < minimum msize ("
1374             stringify(P9_MIN_MSIZE) ") supported by this server."
1375         );
1376         goto out;
1377     }
1378 
1379 marshal:
1380     err = pdu_marshal(pdu, offset, "ds", s->msize, &version);
1381     if (err < 0) {
1382         goto out;
1383     }
1384     err += offset;
1385     trace_v9fs_version_return(pdu->tag, pdu->id, s->msize, version.data);
1386 out:
1387     pdu_complete(pdu, err);
1388     v9fs_string_free(&version);
1389 }
1390 
1391 static void coroutine_fn v9fs_attach(void *opaque)
1392 {
1393     V9fsPDU *pdu = opaque;
1394     V9fsState *s = pdu->s;
1395     int32_t fid, afid, n_uname;
1396     V9fsString uname, aname;
1397     V9fsFidState *fidp;
1398     size_t offset = 7;
1399     V9fsQID qid;
1400     ssize_t err;
1401     Error *local_err = NULL;
1402 
1403     v9fs_string_init(&uname);
1404     v9fs_string_init(&aname);
1405     err = pdu_unmarshal(pdu, offset, "ddssd", &fid,
1406                         &afid, &uname, &aname, &n_uname);
1407     if (err < 0) {
1408         goto out_nofid;
1409     }
1410     trace_v9fs_attach(pdu->tag, pdu->id, fid, afid, uname.data, aname.data);
1411 
1412     fidp = alloc_fid(s, fid);
1413     if (fidp == NULL) {
1414         err = -EINVAL;
1415         goto out_nofid;
1416     }
1417     fidp->uid = n_uname;
1418     err = v9fs_co_name_to_path(pdu, NULL, "/", &fidp->path);
1419     if (err < 0) {
1420         err = -EINVAL;
1421         clunk_fid(s, fid);
1422         goto out;
1423     }
1424     err = fid_to_qid(pdu, fidp, &qid);
1425     if (err < 0) {
1426         err = -EINVAL;
1427         clunk_fid(s, fid);
1428         goto out;
1429     }
1430 
1431     /*
1432      * disable migration if we haven't done already.
1433      * attach could get called multiple times for the same export.
1434      */
1435     if (!s->migration_blocker) {
1436         error_setg(&s->migration_blocker,
1437                    "Migration is disabled when VirtFS export path '%s' is mounted in the guest using mount_tag '%s'",
1438                    s->ctx.fs_root ? s->ctx.fs_root : "NULL", s->tag);
1439         err = migrate_add_blocker(s->migration_blocker, &local_err);
1440         if (local_err) {
1441             error_free(local_err);
1442             error_free(s->migration_blocker);
1443             s->migration_blocker = NULL;
1444             clunk_fid(s, fid);
1445             goto out;
1446         }
1447         s->root_fid = fid;
1448     }
1449 
1450     err = pdu_marshal(pdu, offset, "Q", &qid);
1451     if (err < 0) {
1452         clunk_fid(s, fid);
1453         goto out;
1454     }
1455     err += offset;
1456 
1457     memcpy(&s->root_qid, &qid, sizeof(qid));
1458     trace_v9fs_attach_return(pdu->tag, pdu->id,
1459                              qid.type, qid.version, qid.path);
1460 out:
1461     put_fid(pdu, fidp);
1462 out_nofid:
1463     pdu_complete(pdu, err);
1464     v9fs_string_free(&uname);
1465     v9fs_string_free(&aname);
1466 }
1467 
1468 static void coroutine_fn v9fs_stat(void *opaque)
1469 {
1470     int32_t fid;
1471     V9fsStat v9stat;
1472     ssize_t err = 0;
1473     size_t offset = 7;
1474     struct stat stbuf;
1475     V9fsFidState *fidp;
1476     V9fsPDU *pdu = opaque;
1477     char *basename;
1478 
1479     err = pdu_unmarshal(pdu, offset, "d", &fid);
1480     if (err < 0) {
1481         goto out_nofid;
1482     }
1483     trace_v9fs_stat(pdu->tag, pdu->id, fid);
1484 
1485     fidp = get_fid(pdu, fid);
1486     if (fidp == NULL) {
1487         err = -ENOENT;
1488         goto out_nofid;
1489     }
1490     err = v9fs_co_lstat(pdu, &fidp->path, &stbuf);
1491     if (err < 0) {
1492         goto out;
1493     }
1494     basename = g_path_get_basename(fidp->path.data);
1495     err = stat_to_v9stat(pdu, &fidp->path, basename, &stbuf, &v9stat);
1496     g_free(basename);
1497     if (err < 0) {
1498         goto out;
1499     }
1500     err = pdu_marshal(pdu, offset, "wS", 0, &v9stat);
1501     if (err < 0) {
1502         v9fs_stat_free(&v9stat);
1503         goto out;
1504     }
1505     trace_v9fs_stat_return(pdu->tag, pdu->id, v9stat.mode,
1506                            v9stat.atime, v9stat.mtime, v9stat.length);
1507     err += offset;
1508     v9fs_stat_free(&v9stat);
1509 out:
1510     put_fid(pdu, fidp);
1511 out_nofid:
1512     pdu_complete(pdu, err);
1513 }
1514 
1515 static void coroutine_fn v9fs_getattr(void *opaque)
1516 {
1517     int32_t fid;
1518     size_t offset = 7;
1519     ssize_t retval = 0;
1520     struct stat stbuf;
1521     V9fsFidState *fidp;
1522     uint64_t request_mask;
1523     V9fsStatDotl v9stat_dotl;
1524     V9fsPDU *pdu = opaque;
1525 
1526     retval = pdu_unmarshal(pdu, offset, "dq", &fid, &request_mask);
1527     if (retval < 0) {
1528         goto out_nofid;
1529     }
1530     trace_v9fs_getattr(pdu->tag, pdu->id, fid, request_mask);
1531 
1532     fidp = get_fid(pdu, fid);
1533     if (fidp == NULL) {
1534         retval = -ENOENT;
1535         goto out_nofid;
1536     }
1537     /*
1538      * Currently we only support BASIC fields in stat, so there is no
1539      * need to look at request_mask.
1540      */
1541     retval = v9fs_co_lstat(pdu, &fidp->path, &stbuf);
1542     if (retval < 0) {
1543         goto out;
1544     }
1545     retval = stat_to_v9stat_dotl(pdu, &stbuf, &v9stat_dotl);
1546     if (retval < 0) {
1547         goto out;
1548     }
1549 
1550     /*  fill st_gen if requested and supported by underlying fs */
1551     if (request_mask & P9_STATS_GEN) {
1552         retval = v9fs_co_st_gen(pdu, &fidp->path, stbuf.st_mode, &v9stat_dotl);
1553         switch (retval) {
1554         case 0:
1555             /* we have valid st_gen: update result mask */
1556             v9stat_dotl.st_result_mask |= P9_STATS_GEN;
1557             break;
1558         case -EINTR:
1559             /* request cancelled, e.g. by Tflush */
1560             goto out;
1561         default:
1562             /* failed to get st_gen: not fatal, ignore */
1563             break;
1564         }
1565     }
1566     retval = pdu_marshal(pdu, offset, "A", &v9stat_dotl);
1567     if (retval < 0) {
1568         goto out;
1569     }
1570     retval += offset;
1571     trace_v9fs_getattr_return(pdu->tag, pdu->id, v9stat_dotl.st_result_mask,
1572                               v9stat_dotl.st_mode, v9stat_dotl.st_uid,
1573                               v9stat_dotl.st_gid);
1574 out:
1575     put_fid(pdu, fidp);
1576 out_nofid:
1577     pdu_complete(pdu, retval);
1578 }
1579 
1580 /* Attribute flags */
1581 #define P9_ATTR_MODE       (1 << 0)
1582 #define P9_ATTR_UID        (1 << 1)
1583 #define P9_ATTR_GID        (1 << 2)
1584 #define P9_ATTR_SIZE       (1 << 3)
1585 #define P9_ATTR_ATIME      (1 << 4)
1586 #define P9_ATTR_MTIME      (1 << 5)
1587 #define P9_ATTR_CTIME      (1 << 6)
1588 #define P9_ATTR_ATIME_SET  (1 << 7)
1589 #define P9_ATTR_MTIME_SET  (1 << 8)
1590 
1591 #define P9_ATTR_MASK    127
1592 
1593 static void coroutine_fn v9fs_setattr(void *opaque)
1594 {
1595     int err = 0;
1596     int32_t fid;
1597     V9fsFidState *fidp;
1598     size_t offset = 7;
1599     V9fsIattr v9iattr;
1600     V9fsPDU *pdu = opaque;
1601 
1602     err = pdu_unmarshal(pdu, offset, "dI", &fid, &v9iattr);
1603     if (err < 0) {
1604         goto out_nofid;
1605     }
1606 
1607     trace_v9fs_setattr(pdu->tag, pdu->id, fid,
1608                        v9iattr.valid, v9iattr.mode, v9iattr.uid, v9iattr.gid,
1609                        v9iattr.size, v9iattr.atime_sec, v9iattr.mtime_sec);
1610 
1611     fidp = get_fid(pdu, fid);
1612     if (fidp == NULL) {
1613         err = -EINVAL;
1614         goto out_nofid;
1615     }
1616     if (v9iattr.valid & P9_ATTR_MODE) {
1617         err = v9fs_co_chmod(pdu, &fidp->path, v9iattr.mode);
1618         if (err < 0) {
1619             goto out;
1620         }
1621     }
1622     if (v9iattr.valid & (P9_ATTR_ATIME | P9_ATTR_MTIME)) {
1623         struct timespec times[2];
1624         if (v9iattr.valid & P9_ATTR_ATIME) {
1625             if (v9iattr.valid & P9_ATTR_ATIME_SET) {
1626                 times[0].tv_sec = v9iattr.atime_sec;
1627                 times[0].tv_nsec = v9iattr.atime_nsec;
1628             } else {
1629                 times[0].tv_nsec = UTIME_NOW;
1630             }
1631         } else {
1632             times[0].tv_nsec = UTIME_OMIT;
1633         }
1634         if (v9iattr.valid & P9_ATTR_MTIME) {
1635             if (v9iattr.valid & P9_ATTR_MTIME_SET) {
1636                 times[1].tv_sec = v9iattr.mtime_sec;
1637                 times[1].tv_nsec = v9iattr.mtime_nsec;
1638             } else {
1639                 times[1].tv_nsec = UTIME_NOW;
1640             }
1641         } else {
1642             times[1].tv_nsec = UTIME_OMIT;
1643         }
1644         err = v9fs_co_utimensat(pdu, &fidp->path, times);
1645         if (err < 0) {
1646             goto out;
1647         }
1648     }
1649     /*
1650      * If the only valid entry in iattr is ctime we can call
1651      * chown(-1,-1) to update the ctime of the file
1652      */
1653     if ((v9iattr.valid & (P9_ATTR_UID | P9_ATTR_GID)) ||
1654         ((v9iattr.valid & P9_ATTR_CTIME)
1655          && !((v9iattr.valid & P9_ATTR_MASK) & ~P9_ATTR_CTIME))) {
1656         if (!(v9iattr.valid & P9_ATTR_UID)) {
1657             v9iattr.uid = -1;
1658         }
1659         if (!(v9iattr.valid & P9_ATTR_GID)) {
1660             v9iattr.gid = -1;
1661         }
1662         err = v9fs_co_chown(pdu, &fidp->path, v9iattr.uid,
1663                             v9iattr.gid);
1664         if (err < 0) {
1665             goto out;
1666         }
1667     }
1668     if (v9iattr.valid & (P9_ATTR_SIZE)) {
1669         err = v9fs_co_truncate(pdu, &fidp->path, v9iattr.size);
1670         if (err < 0) {
1671             goto out;
1672         }
1673     }
1674     err = offset;
1675     trace_v9fs_setattr_return(pdu->tag, pdu->id);
1676 out:
1677     put_fid(pdu, fidp);
1678 out_nofid:
1679     pdu_complete(pdu, err);
1680 }
1681 
1682 static int v9fs_walk_marshal(V9fsPDU *pdu, uint16_t nwnames, V9fsQID *qids)
1683 {
1684     int i;
1685     ssize_t err;
1686     size_t offset = 7;
1687 
1688     err = pdu_marshal(pdu, offset, "w", nwnames);
1689     if (err < 0) {
1690         return err;
1691     }
1692     offset += err;
1693     for (i = 0; i < nwnames; i++) {
1694         err = pdu_marshal(pdu, offset, "Q", &qids[i]);
1695         if (err < 0) {
1696             return err;
1697         }
1698         offset += err;
1699     }
1700     return offset;
1701 }
1702 
1703 static bool name_is_illegal(const char *name)
1704 {
1705     return !*name || strchr(name, '/') != NULL;
1706 }
1707 
1708 static bool not_same_qid(const V9fsQID *qid1, const V9fsQID *qid2)
1709 {
1710     return
1711         qid1->type != qid2->type ||
1712         qid1->version != qid2->version ||
1713         qid1->path != qid2->path;
1714 }
1715 
1716 static void coroutine_fn v9fs_walk(void *opaque)
1717 {
1718     int name_idx;
1719     V9fsQID *qids = NULL;
1720     int i, err = 0;
1721     V9fsPath dpath, path;
1722     uint16_t nwnames;
1723     struct stat stbuf;
1724     size_t offset = 7;
1725     int32_t fid, newfid;
1726     V9fsString *wnames = NULL;
1727     V9fsFidState *fidp;
1728     V9fsFidState *newfidp = NULL;
1729     V9fsPDU *pdu = opaque;
1730     V9fsState *s = pdu->s;
1731     V9fsQID qid;
1732 
1733     err = pdu_unmarshal(pdu, offset, "ddw", &fid, &newfid, &nwnames);
1734     if (err < 0) {
1735         pdu_complete(pdu, err);
1736         return ;
1737     }
1738     offset += err;
1739 
1740     trace_v9fs_walk(pdu->tag, pdu->id, fid, newfid, nwnames);
1741 
1742     if (nwnames && nwnames <= P9_MAXWELEM) {
1743         wnames = g_new0(V9fsString, nwnames);
1744         qids   = g_new0(V9fsQID, nwnames);
1745         for (i = 0; i < nwnames; i++) {
1746             err = pdu_unmarshal(pdu, offset, "s", &wnames[i]);
1747             if (err < 0) {
1748                 goto out_nofid;
1749             }
1750             if (name_is_illegal(wnames[i].data)) {
1751                 err = -ENOENT;
1752                 goto out_nofid;
1753             }
1754             offset += err;
1755         }
1756     } else if (nwnames > P9_MAXWELEM) {
1757         err = -EINVAL;
1758         goto out_nofid;
1759     }
1760     fidp = get_fid(pdu, fid);
1761     if (fidp == NULL) {
1762         err = -ENOENT;
1763         goto out_nofid;
1764     }
1765 
1766     v9fs_path_init(&dpath);
1767     v9fs_path_init(&path);
1768 
1769     err = fid_to_qid(pdu, fidp, &qid);
1770     if (err < 0) {
1771         goto out;
1772     }
1773 
1774     /*
1775      * Both dpath and path initially poin to fidp.
1776      * Needed to handle request with nwnames == 0
1777      */
1778     v9fs_path_copy(&dpath, &fidp->path);
1779     v9fs_path_copy(&path, &fidp->path);
1780     for (name_idx = 0; name_idx < nwnames; name_idx++) {
1781         if (not_same_qid(&pdu->s->root_qid, &qid) ||
1782             strcmp("..", wnames[name_idx].data)) {
1783             err = v9fs_co_name_to_path(pdu, &dpath, wnames[name_idx].data,
1784                                        &path);
1785             if (err < 0) {
1786                 goto out;
1787             }
1788 
1789             err = v9fs_co_lstat(pdu, &path, &stbuf);
1790             if (err < 0) {
1791                 goto out;
1792             }
1793             err = stat_to_qid(pdu, &stbuf, &qid);
1794             if (err < 0) {
1795                 goto out;
1796             }
1797             v9fs_path_copy(&dpath, &path);
1798         }
1799         memcpy(&qids[name_idx], &qid, sizeof(qid));
1800     }
1801     if (fid == newfid) {
1802         if (fidp->fid_type != P9_FID_NONE) {
1803             err = -EINVAL;
1804             goto out;
1805         }
1806         v9fs_path_write_lock(s);
1807         v9fs_path_copy(&fidp->path, &path);
1808         v9fs_path_unlock(s);
1809     } else {
1810         newfidp = alloc_fid(s, newfid);
1811         if (newfidp == NULL) {
1812             err = -EINVAL;
1813             goto out;
1814         }
1815         newfidp->uid = fidp->uid;
1816         v9fs_path_copy(&newfidp->path, &path);
1817     }
1818     err = v9fs_walk_marshal(pdu, nwnames, qids);
1819     trace_v9fs_walk_return(pdu->tag, pdu->id, nwnames, qids);
1820 out:
1821     put_fid(pdu, fidp);
1822     if (newfidp) {
1823         put_fid(pdu, newfidp);
1824     }
1825     v9fs_path_free(&dpath);
1826     v9fs_path_free(&path);
1827 out_nofid:
1828     pdu_complete(pdu, err);
1829     if (nwnames && nwnames <= P9_MAXWELEM) {
1830         for (name_idx = 0; name_idx < nwnames; name_idx++) {
1831             v9fs_string_free(&wnames[name_idx]);
1832         }
1833         g_free(wnames);
1834         g_free(qids);
1835     }
1836 }
1837 
1838 static int32_t coroutine_fn get_iounit(V9fsPDU *pdu, V9fsPath *path)
1839 {
1840     struct statfs stbuf;
1841     int32_t iounit = 0;
1842     V9fsState *s = pdu->s;
1843 
1844     /*
1845      * iounit should be multiples of f_bsize (host filesystem block size
1846      * and as well as less than (client msize - P9_IOHDRSZ))
1847      */
1848     if (!v9fs_co_statfs(pdu, path, &stbuf)) {
1849         if (stbuf.f_bsize) {
1850             iounit = stbuf.f_bsize;
1851             iounit *= (s->msize - P9_IOHDRSZ) / stbuf.f_bsize;
1852         }
1853     }
1854     if (!iounit) {
1855         iounit = s->msize - P9_IOHDRSZ;
1856     }
1857     return iounit;
1858 }
1859 
1860 static void coroutine_fn v9fs_open(void *opaque)
1861 {
1862     int flags;
1863     int32_t fid;
1864     int32_t mode;
1865     V9fsQID qid;
1866     int iounit = 0;
1867     ssize_t err = 0;
1868     size_t offset = 7;
1869     struct stat stbuf;
1870     V9fsFidState *fidp;
1871     V9fsPDU *pdu = opaque;
1872     V9fsState *s = pdu->s;
1873 
1874     if (s->proto_version == V9FS_PROTO_2000L) {
1875         err = pdu_unmarshal(pdu, offset, "dd", &fid, &mode);
1876     } else {
1877         uint8_t modebyte;
1878         err = pdu_unmarshal(pdu, offset, "db", &fid, &modebyte);
1879         mode = modebyte;
1880     }
1881     if (err < 0) {
1882         goto out_nofid;
1883     }
1884     trace_v9fs_open(pdu->tag, pdu->id, fid, mode);
1885 
1886     fidp = get_fid(pdu, fid);
1887     if (fidp == NULL) {
1888         err = -ENOENT;
1889         goto out_nofid;
1890     }
1891     if (fidp->fid_type != P9_FID_NONE) {
1892         err = -EINVAL;
1893         goto out;
1894     }
1895 
1896     err = v9fs_co_lstat(pdu, &fidp->path, &stbuf);
1897     if (err < 0) {
1898         goto out;
1899     }
1900     err = stat_to_qid(pdu, &stbuf, &qid);
1901     if (err < 0) {
1902         goto out;
1903     }
1904     if (S_ISDIR(stbuf.st_mode)) {
1905         err = v9fs_co_opendir(pdu, fidp);
1906         if (err < 0) {
1907             goto out;
1908         }
1909         fidp->fid_type = P9_FID_DIR;
1910         err = pdu_marshal(pdu, offset, "Qd", &qid, 0);
1911         if (err < 0) {
1912             goto out;
1913         }
1914         err += offset;
1915     } else {
1916         if (s->proto_version == V9FS_PROTO_2000L) {
1917             flags = get_dotl_openflags(s, mode);
1918         } else {
1919             flags = omode_to_uflags(mode);
1920         }
1921         if (is_ro_export(&s->ctx)) {
1922             if (mode & O_WRONLY || mode & O_RDWR ||
1923                 mode & O_APPEND || mode & O_TRUNC) {
1924                 err = -EROFS;
1925                 goto out;
1926             }
1927         }
1928         err = v9fs_co_open(pdu, fidp, flags);
1929         if (err < 0) {
1930             goto out;
1931         }
1932         fidp->fid_type = P9_FID_FILE;
1933         fidp->open_flags = flags;
1934         if (flags & O_EXCL) {
1935             /*
1936              * We let the host file system do O_EXCL check
1937              * We should not reclaim such fd
1938              */
1939             fidp->flags |= FID_NON_RECLAIMABLE;
1940         }
1941         iounit = get_iounit(pdu, &fidp->path);
1942         err = pdu_marshal(pdu, offset, "Qd", &qid, iounit);
1943         if (err < 0) {
1944             goto out;
1945         }
1946         err += offset;
1947     }
1948     trace_v9fs_open_return(pdu->tag, pdu->id,
1949                            qid.type, qid.version, qid.path, iounit);
1950 out:
1951     put_fid(pdu, fidp);
1952 out_nofid:
1953     pdu_complete(pdu, err);
1954 }
1955 
1956 static void coroutine_fn v9fs_lcreate(void *opaque)
1957 {
1958     int32_t dfid, flags, mode;
1959     gid_t gid;
1960     ssize_t err = 0;
1961     ssize_t offset = 7;
1962     V9fsString name;
1963     V9fsFidState *fidp;
1964     struct stat stbuf;
1965     V9fsQID qid;
1966     int32_t iounit;
1967     V9fsPDU *pdu = opaque;
1968 
1969     v9fs_string_init(&name);
1970     err = pdu_unmarshal(pdu, offset, "dsddd", &dfid,
1971                         &name, &flags, &mode, &gid);
1972     if (err < 0) {
1973         goto out_nofid;
1974     }
1975     trace_v9fs_lcreate(pdu->tag, pdu->id, dfid, flags, mode, gid);
1976 
1977     if (name_is_illegal(name.data)) {
1978         err = -ENOENT;
1979         goto out_nofid;
1980     }
1981 
1982     if (!strcmp(".", name.data) || !strcmp("..", name.data)) {
1983         err = -EEXIST;
1984         goto out_nofid;
1985     }
1986 
1987     fidp = get_fid(pdu, dfid);
1988     if (fidp == NULL) {
1989         err = -ENOENT;
1990         goto out_nofid;
1991     }
1992     if (fidp->fid_type != P9_FID_NONE) {
1993         err = -EINVAL;
1994         goto out;
1995     }
1996 
1997     flags = get_dotl_openflags(pdu->s, flags);
1998     err = v9fs_co_open2(pdu, fidp, &name, gid,
1999                         flags | O_CREAT, mode, &stbuf);
2000     if (err < 0) {
2001         goto out;
2002     }
2003     fidp->fid_type = P9_FID_FILE;
2004     fidp->open_flags = flags;
2005     if (flags & O_EXCL) {
2006         /*
2007          * We let the host file system do O_EXCL check
2008          * We should not reclaim such fd
2009          */
2010         fidp->flags |= FID_NON_RECLAIMABLE;
2011     }
2012     iounit =  get_iounit(pdu, &fidp->path);
2013     err = stat_to_qid(pdu, &stbuf, &qid);
2014     if (err < 0) {
2015         goto out;
2016     }
2017     err = pdu_marshal(pdu, offset, "Qd", &qid, iounit);
2018     if (err < 0) {
2019         goto out;
2020     }
2021     err += offset;
2022     trace_v9fs_lcreate_return(pdu->tag, pdu->id,
2023                               qid.type, qid.version, qid.path, iounit);
2024 out:
2025     put_fid(pdu, fidp);
2026 out_nofid:
2027     pdu_complete(pdu, err);
2028     v9fs_string_free(&name);
2029 }
2030 
2031 static void coroutine_fn v9fs_fsync(void *opaque)
2032 {
2033     int err;
2034     int32_t fid;
2035     int datasync;
2036     size_t offset = 7;
2037     V9fsFidState *fidp;
2038     V9fsPDU *pdu = opaque;
2039 
2040     err = pdu_unmarshal(pdu, offset, "dd", &fid, &datasync);
2041     if (err < 0) {
2042         goto out_nofid;
2043     }
2044     trace_v9fs_fsync(pdu->tag, pdu->id, fid, datasync);
2045 
2046     fidp = get_fid(pdu, fid);
2047     if (fidp == NULL) {
2048         err = -ENOENT;
2049         goto out_nofid;
2050     }
2051     err = v9fs_co_fsync(pdu, fidp, datasync);
2052     if (!err) {
2053         err = offset;
2054     }
2055     put_fid(pdu, fidp);
2056 out_nofid:
2057     pdu_complete(pdu, err);
2058 }
2059 
2060 static void coroutine_fn v9fs_clunk(void *opaque)
2061 {
2062     int err;
2063     int32_t fid;
2064     size_t offset = 7;
2065     V9fsFidState *fidp;
2066     V9fsPDU *pdu = opaque;
2067     V9fsState *s = pdu->s;
2068 
2069     err = pdu_unmarshal(pdu, offset, "d", &fid);
2070     if (err < 0) {
2071         goto out_nofid;
2072     }
2073     trace_v9fs_clunk(pdu->tag, pdu->id, fid);
2074 
2075     fidp = clunk_fid(s, fid);
2076     if (fidp == NULL) {
2077         err = -ENOENT;
2078         goto out_nofid;
2079     }
2080     /*
2081      * Bump the ref so that put_fid will
2082      * free the fid.
2083      */
2084     fidp->ref++;
2085     err = put_fid(pdu, fidp);
2086     if (!err) {
2087         err = offset;
2088     }
2089 out_nofid:
2090     pdu_complete(pdu, err);
2091 }
2092 
2093 /*
2094  * Create a QEMUIOVector for a sub-region of PDU iovecs
2095  *
2096  * @qiov:       uninitialized QEMUIOVector
2097  * @skip:       number of bytes to skip from beginning of PDU
2098  * @size:       number of bytes to include
2099  * @is_write:   true - write, false - read
2100  *
2101  * The resulting QEMUIOVector has heap-allocated iovecs and must be cleaned up
2102  * with qemu_iovec_destroy().
2103  */
2104 static void v9fs_init_qiov_from_pdu(QEMUIOVector *qiov, V9fsPDU *pdu,
2105                                     size_t skip, size_t *size,
2106                                     bool is_write)
2107 {
2108     QEMUIOVector elem;
2109     struct iovec *iov;
2110     unsigned int niov;
2111     size_t alloc_size = *size + skip;
2112 
2113     if (is_write) {
2114         pdu->s->transport->init_out_iov_from_pdu(pdu, &iov, &niov, alloc_size);
2115     } else {
2116         pdu->s->transport->init_in_iov_from_pdu(pdu, &iov, &niov, &alloc_size);
2117     }
2118 
2119     if (alloc_size < skip) {
2120         *size = 0;
2121     } else {
2122         *size = alloc_size - skip;
2123     }
2124 
2125     qemu_iovec_init_external(&elem, iov, niov);
2126     qemu_iovec_init(qiov, niov);
2127     qemu_iovec_concat(qiov, &elem, skip, *size);
2128 }
2129 
2130 static int v9fs_xattr_read(V9fsState *s, V9fsPDU *pdu, V9fsFidState *fidp,
2131                            uint64_t off, uint32_t max_count)
2132 {
2133     ssize_t err;
2134     size_t offset = 7;
2135     size_t read_count;
2136     QEMUIOVector qiov_full;
2137 
2138     if (fidp->fs.xattr.len < off) {
2139         read_count = 0;
2140     } else if (fidp->fs.xattr.len - off < max_count) {
2141         read_count = fidp->fs.xattr.len - off;
2142     } else {
2143         read_count = max_count;
2144     }
2145     err = pdu_marshal(pdu, offset, "d", read_count);
2146     if (err < 0) {
2147         return err;
2148     }
2149     offset += err;
2150 
2151     v9fs_init_qiov_from_pdu(&qiov_full, pdu, offset, &read_count, false);
2152     err = v9fs_pack(qiov_full.iov, qiov_full.niov, 0,
2153                     ((char *)fidp->fs.xattr.value) + off,
2154                     read_count);
2155     qemu_iovec_destroy(&qiov_full);
2156     if (err < 0) {
2157         return err;
2158     }
2159     offset += err;
2160     return offset;
2161 }
2162 
2163 static int coroutine_fn v9fs_do_readdir_with_stat(V9fsPDU *pdu,
2164                                                   V9fsFidState *fidp,
2165                                                   uint32_t max_count)
2166 {
2167     V9fsPath path;
2168     V9fsStat v9stat;
2169     int len, err = 0;
2170     int32_t count = 0;
2171     struct stat stbuf;
2172     off_t saved_dir_pos;
2173     struct dirent *dent;
2174 
2175     /* save the directory position */
2176     saved_dir_pos = v9fs_co_telldir(pdu, fidp);
2177     if (saved_dir_pos < 0) {
2178         return saved_dir_pos;
2179     }
2180 
2181     while (1) {
2182         v9fs_path_init(&path);
2183 
2184         v9fs_readdir_lock(&fidp->fs.dir);
2185 
2186         err = v9fs_co_readdir(pdu, fidp, &dent);
2187         if (err || !dent) {
2188             break;
2189         }
2190         err = v9fs_co_name_to_path(pdu, &fidp->path, dent->d_name, &path);
2191         if (err < 0) {
2192             break;
2193         }
2194         err = v9fs_co_lstat(pdu, &path, &stbuf);
2195         if (err < 0) {
2196             break;
2197         }
2198         err = stat_to_v9stat(pdu, &path, dent->d_name, &stbuf, &v9stat);
2199         if (err < 0) {
2200             break;
2201         }
2202         if ((count + v9stat.size + 2) > max_count) {
2203             v9fs_readdir_unlock(&fidp->fs.dir);
2204 
2205             /* Ran out of buffer. Set dir back to old position and return */
2206             v9fs_co_seekdir(pdu, fidp, saved_dir_pos);
2207             v9fs_stat_free(&v9stat);
2208             v9fs_path_free(&path);
2209             return count;
2210         }
2211 
2212         /* 11 = 7 + 4 (7 = start offset, 4 = space for storing count) */
2213         len = pdu_marshal(pdu, 11 + count, "S", &v9stat);
2214 
2215         v9fs_readdir_unlock(&fidp->fs.dir);
2216 
2217         if (len < 0) {
2218             v9fs_co_seekdir(pdu, fidp, saved_dir_pos);
2219             v9fs_stat_free(&v9stat);
2220             v9fs_path_free(&path);
2221             return len;
2222         }
2223         count += len;
2224         v9fs_stat_free(&v9stat);
2225         v9fs_path_free(&path);
2226         saved_dir_pos = dent->d_off;
2227     }
2228 
2229     v9fs_readdir_unlock(&fidp->fs.dir);
2230 
2231     v9fs_path_free(&path);
2232     if (err < 0) {
2233         return err;
2234     }
2235     return count;
2236 }
2237 
2238 static void coroutine_fn v9fs_read(void *opaque)
2239 {
2240     int32_t fid;
2241     uint64_t off;
2242     ssize_t err = 0;
2243     int32_t count = 0;
2244     size_t offset = 7;
2245     uint32_t max_count;
2246     V9fsFidState *fidp;
2247     V9fsPDU *pdu = opaque;
2248     V9fsState *s = pdu->s;
2249 
2250     err = pdu_unmarshal(pdu, offset, "dqd", &fid, &off, &max_count);
2251     if (err < 0) {
2252         goto out_nofid;
2253     }
2254     trace_v9fs_read(pdu->tag, pdu->id, fid, off, max_count);
2255 
2256     fidp = get_fid(pdu, fid);
2257     if (fidp == NULL) {
2258         err = -EINVAL;
2259         goto out_nofid;
2260     }
2261     if (fidp->fid_type == P9_FID_DIR) {
2262 
2263         if (off == 0) {
2264             v9fs_co_rewinddir(pdu, fidp);
2265         }
2266         count = v9fs_do_readdir_with_stat(pdu, fidp, max_count);
2267         if (count < 0) {
2268             err = count;
2269             goto out;
2270         }
2271         err = pdu_marshal(pdu, offset, "d", count);
2272         if (err < 0) {
2273             goto out;
2274         }
2275         err += offset + count;
2276     } else if (fidp->fid_type == P9_FID_FILE) {
2277         QEMUIOVector qiov_full;
2278         QEMUIOVector qiov;
2279         int32_t len;
2280         size_t size = max_count;
2281 
2282         v9fs_init_qiov_from_pdu(&qiov_full, pdu, offset + 4, &size, false);
2283         qemu_iovec_init(&qiov, qiov_full.niov);
2284         max_count = size;
2285         do {
2286             qemu_iovec_reset(&qiov);
2287             qemu_iovec_concat(&qiov, &qiov_full, count, qiov_full.size - count);
2288             if (0) {
2289                 print_sg(qiov.iov, qiov.niov);
2290             }
2291             /* Loop in case of EINTR */
2292             do {
2293                 len = v9fs_co_preadv(pdu, fidp, qiov.iov, qiov.niov, off);
2294                 if (len >= 0) {
2295                     off   += len;
2296                     count += len;
2297                 }
2298             } while (len == -EINTR && !pdu->cancelled);
2299             if (len < 0) {
2300                 /* IO error return the error */
2301                 err = len;
2302                 goto out_free_iovec;
2303             }
2304         } while (count < max_count && len > 0);
2305         err = pdu_marshal(pdu, offset, "d", count);
2306         if (err < 0) {
2307             goto out_free_iovec;
2308         }
2309         err += offset + count;
2310 out_free_iovec:
2311         qemu_iovec_destroy(&qiov);
2312         qemu_iovec_destroy(&qiov_full);
2313     } else if (fidp->fid_type == P9_FID_XATTR) {
2314         err = v9fs_xattr_read(s, pdu, fidp, off, max_count);
2315     } else {
2316         err = -EINVAL;
2317     }
2318     trace_v9fs_read_return(pdu->tag, pdu->id, count, err);
2319 out:
2320     put_fid(pdu, fidp);
2321 out_nofid:
2322     pdu_complete(pdu, err);
2323 }
2324 
2325 static size_t v9fs_readdir_data_size(V9fsString *name)
2326 {
2327     /*
2328      * Size of each dirent on the wire: size of qid (13) + size of offset (8)
2329      * size of type (1) + size of name.size (2) + strlen(name.data)
2330      */
2331     return 24 + v9fs_string_size(name);
2332 }
2333 
2334 static int coroutine_fn v9fs_do_readdir(V9fsPDU *pdu, V9fsFidState *fidp,
2335                                         int32_t max_count)
2336 {
2337     size_t size;
2338     V9fsQID qid;
2339     V9fsString name;
2340     int len, err = 0;
2341     int32_t count = 0;
2342     off_t saved_dir_pos;
2343     struct dirent *dent;
2344 
2345     /* save the directory position */
2346     saved_dir_pos = v9fs_co_telldir(pdu, fidp);
2347     if (saved_dir_pos < 0) {
2348         return saved_dir_pos;
2349     }
2350 
2351     while (1) {
2352         v9fs_readdir_lock(&fidp->fs.dir);
2353 
2354         err = v9fs_co_readdir(pdu, fidp, &dent);
2355         if (err || !dent) {
2356             break;
2357         }
2358         v9fs_string_init(&name);
2359         v9fs_string_sprintf(&name, "%s", dent->d_name);
2360         if ((count + v9fs_readdir_data_size(&name)) > max_count) {
2361             v9fs_readdir_unlock(&fidp->fs.dir);
2362 
2363             /* Ran out of buffer. Set dir back to old position and return */
2364             v9fs_co_seekdir(pdu, fidp, saved_dir_pos);
2365             v9fs_string_free(&name);
2366             return count;
2367         }
2368 
2369         if (pdu->s->ctx.export_flags & V9FS_REMAP_INODES) {
2370             /*
2371              * dirent_to_qid() implies expensive stat call for each entry,
2372              * we must do that here though since inode remapping requires
2373              * the device id, which in turn might be different for
2374              * different entries; we cannot make any assumption to avoid
2375              * that here.
2376              */
2377             err = dirent_to_qid(pdu, fidp, dent, &qid);
2378             if (err < 0) {
2379                 v9fs_readdir_unlock(&fidp->fs.dir);
2380                 v9fs_co_seekdir(pdu, fidp, saved_dir_pos);
2381                 v9fs_string_free(&name);
2382                 return err;
2383             }
2384         } else {
2385             /*
2386              * Fill up just the path field of qid because the client uses
2387              * only that. To fill the entire qid structure we will have
2388              * to stat each dirent found, which is expensive. For the
2389              * latter reason we don't call dirent_to_qid() here. Only drawback
2390              * is that no multi-device export detection of stat_to_qid()
2391              * would be done and provided as error to the user here. But
2392              * user would get that error anyway when accessing those
2393              * files/dirs through other ways.
2394              */
2395             size = MIN(sizeof(dent->d_ino), sizeof(qid.path));
2396             memcpy(&qid.path, &dent->d_ino, size);
2397             /* Fill the other fields with dummy values */
2398             qid.type = 0;
2399             qid.version = 0;
2400         }
2401 
2402         /* 11 = 7 + 4 (7 = start offset, 4 = space for storing count) */
2403         len = pdu_marshal(pdu, 11 + count, "Qqbs",
2404                           &qid, dent->d_off,
2405                           dent->d_type, &name);
2406 
2407         v9fs_readdir_unlock(&fidp->fs.dir);
2408 
2409         if (len < 0) {
2410             v9fs_co_seekdir(pdu, fidp, saved_dir_pos);
2411             v9fs_string_free(&name);
2412             return len;
2413         }
2414         count += len;
2415         v9fs_string_free(&name);
2416         saved_dir_pos = dent->d_off;
2417     }
2418 
2419     v9fs_readdir_unlock(&fidp->fs.dir);
2420 
2421     if (err < 0) {
2422         return err;
2423     }
2424     return count;
2425 }
2426 
2427 static void coroutine_fn v9fs_readdir(void *opaque)
2428 {
2429     int32_t fid;
2430     V9fsFidState *fidp;
2431     ssize_t retval = 0;
2432     size_t offset = 7;
2433     uint64_t initial_offset;
2434     int32_t count;
2435     uint32_t max_count;
2436     V9fsPDU *pdu = opaque;
2437     V9fsState *s = pdu->s;
2438 
2439     retval = pdu_unmarshal(pdu, offset, "dqd", &fid,
2440                            &initial_offset, &max_count);
2441     if (retval < 0) {
2442         goto out_nofid;
2443     }
2444     trace_v9fs_readdir(pdu->tag, pdu->id, fid, initial_offset, max_count);
2445 
2446     /* Enough space for a R_readdir header: size[4] Rreaddir tag[2] count[4] */
2447     if (max_count > s->msize - 11) {
2448         max_count = s->msize - 11;
2449         warn_report_once(
2450             "9p: bad client: T_readdir with count > msize - 11"
2451         );
2452     }
2453 
2454     fidp = get_fid(pdu, fid);
2455     if (fidp == NULL) {
2456         retval = -EINVAL;
2457         goto out_nofid;
2458     }
2459     if (!fidp->fs.dir.stream) {
2460         retval = -EINVAL;
2461         goto out;
2462     }
2463     if (initial_offset == 0) {
2464         v9fs_co_rewinddir(pdu, fidp);
2465     } else {
2466         v9fs_co_seekdir(pdu, fidp, initial_offset);
2467     }
2468     count = v9fs_do_readdir(pdu, fidp, max_count);
2469     if (count < 0) {
2470         retval = count;
2471         goto out;
2472     }
2473     retval = pdu_marshal(pdu, offset, "d", count);
2474     if (retval < 0) {
2475         goto out;
2476     }
2477     retval += count + offset;
2478     trace_v9fs_readdir_return(pdu->tag, pdu->id, count, retval);
2479 out:
2480     put_fid(pdu, fidp);
2481 out_nofid:
2482     pdu_complete(pdu, retval);
2483 }
2484 
2485 static int v9fs_xattr_write(V9fsState *s, V9fsPDU *pdu, V9fsFidState *fidp,
2486                             uint64_t off, uint32_t count,
2487                             struct iovec *sg, int cnt)
2488 {
2489     int i, to_copy;
2490     ssize_t err = 0;
2491     uint64_t write_count;
2492     size_t offset = 7;
2493 
2494 
2495     if (fidp->fs.xattr.len < off) {
2496         return -ENOSPC;
2497     }
2498     write_count = fidp->fs.xattr.len - off;
2499     if (write_count > count) {
2500         write_count = count;
2501     }
2502     err = pdu_marshal(pdu, offset, "d", write_count);
2503     if (err < 0) {
2504         return err;
2505     }
2506     err += offset;
2507     fidp->fs.xattr.copied_len += write_count;
2508     /*
2509      * Now copy the content from sg list
2510      */
2511     for (i = 0; i < cnt; i++) {
2512         if (write_count > sg[i].iov_len) {
2513             to_copy = sg[i].iov_len;
2514         } else {
2515             to_copy = write_count;
2516         }
2517         memcpy((char *)fidp->fs.xattr.value + off, sg[i].iov_base, to_copy);
2518         /* updating vs->off since we are not using below */
2519         off += to_copy;
2520         write_count -= to_copy;
2521     }
2522 
2523     return err;
2524 }
2525 
2526 static void coroutine_fn v9fs_write(void *opaque)
2527 {
2528     ssize_t err;
2529     int32_t fid;
2530     uint64_t off;
2531     uint32_t count;
2532     int32_t len = 0;
2533     int32_t total = 0;
2534     size_t offset = 7;
2535     size_t size;
2536     V9fsFidState *fidp;
2537     V9fsPDU *pdu = opaque;
2538     V9fsState *s = pdu->s;
2539     QEMUIOVector qiov_full;
2540     QEMUIOVector qiov;
2541 
2542     err = pdu_unmarshal(pdu, offset, "dqd", &fid, &off, &count);
2543     if (err < 0) {
2544         pdu_complete(pdu, err);
2545         return;
2546     }
2547     offset += err;
2548     size = count;
2549     v9fs_init_qiov_from_pdu(&qiov_full, pdu, offset, &size, true);
2550     count = size;
2551     trace_v9fs_write(pdu->tag, pdu->id, fid, off, count, qiov_full.niov);
2552 
2553     fidp = get_fid(pdu, fid);
2554     if (fidp == NULL) {
2555         err = -EINVAL;
2556         goto out_nofid;
2557     }
2558     if (fidp->fid_type == P9_FID_FILE) {
2559         if (fidp->fs.fd == -1) {
2560             err = -EINVAL;
2561             goto out;
2562         }
2563     } else if (fidp->fid_type == P9_FID_XATTR) {
2564         /*
2565          * setxattr operation
2566          */
2567         err = v9fs_xattr_write(s, pdu, fidp, off, count,
2568                                qiov_full.iov, qiov_full.niov);
2569         goto out;
2570     } else {
2571         err = -EINVAL;
2572         goto out;
2573     }
2574     qemu_iovec_init(&qiov, qiov_full.niov);
2575     do {
2576         qemu_iovec_reset(&qiov);
2577         qemu_iovec_concat(&qiov, &qiov_full, total, qiov_full.size - total);
2578         if (0) {
2579             print_sg(qiov.iov, qiov.niov);
2580         }
2581         /* Loop in case of EINTR */
2582         do {
2583             len = v9fs_co_pwritev(pdu, fidp, qiov.iov, qiov.niov, off);
2584             if (len >= 0) {
2585                 off   += len;
2586                 total += len;
2587             }
2588         } while (len == -EINTR && !pdu->cancelled);
2589         if (len < 0) {
2590             /* IO error return the error */
2591             err = len;
2592             goto out_qiov;
2593         }
2594     } while (total < count && len > 0);
2595 
2596     offset = 7;
2597     err = pdu_marshal(pdu, offset, "d", total);
2598     if (err < 0) {
2599         goto out_qiov;
2600     }
2601     err += offset;
2602     trace_v9fs_write_return(pdu->tag, pdu->id, total, err);
2603 out_qiov:
2604     qemu_iovec_destroy(&qiov);
2605 out:
2606     put_fid(pdu, fidp);
2607 out_nofid:
2608     qemu_iovec_destroy(&qiov_full);
2609     pdu_complete(pdu, err);
2610 }
2611 
2612 static void coroutine_fn v9fs_create(void *opaque)
2613 {
2614     int32_t fid;
2615     int err = 0;
2616     size_t offset = 7;
2617     V9fsFidState *fidp;
2618     V9fsQID qid;
2619     int32_t perm;
2620     int8_t mode;
2621     V9fsPath path;
2622     struct stat stbuf;
2623     V9fsString name;
2624     V9fsString extension;
2625     int iounit;
2626     V9fsPDU *pdu = opaque;
2627     V9fsState *s = pdu->s;
2628 
2629     v9fs_path_init(&path);
2630     v9fs_string_init(&name);
2631     v9fs_string_init(&extension);
2632     err = pdu_unmarshal(pdu, offset, "dsdbs", &fid, &name,
2633                         &perm, &mode, &extension);
2634     if (err < 0) {
2635         goto out_nofid;
2636     }
2637     trace_v9fs_create(pdu->tag, pdu->id, fid, name.data, perm, mode);
2638 
2639     if (name_is_illegal(name.data)) {
2640         err = -ENOENT;
2641         goto out_nofid;
2642     }
2643 
2644     if (!strcmp(".", name.data) || !strcmp("..", name.data)) {
2645         err = -EEXIST;
2646         goto out_nofid;
2647     }
2648 
2649     fidp = get_fid(pdu, fid);
2650     if (fidp == NULL) {
2651         err = -EINVAL;
2652         goto out_nofid;
2653     }
2654     if (fidp->fid_type != P9_FID_NONE) {
2655         err = -EINVAL;
2656         goto out;
2657     }
2658     if (perm & P9_STAT_MODE_DIR) {
2659         err = v9fs_co_mkdir(pdu, fidp, &name, perm & 0777,
2660                             fidp->uid, -1, &stbuf);
2661         if (err < 0) {
2662             goto out;
2663         }
2664         err = v9fs_co_name_to_path(pdu, &fidp->path, name.data, &path);
2665         if (err < 0) {
2666             goto out;
2667         }
2668         v9fs_path_write_lock(s);
2669         v9fs_path_copy(&fidp->path, &path);
2670         v9fs_path_unlock(s);
2671         err = v9fs_co_opendir(pdu, fidp);
2672         if (err < 0) {
2673             goto out;
2674         }
2675         fidp->fid_type = P9_FID_DIR;
2676     } else if (perm & P9_STAT_MODE_SYMLINK) {
2677         err = v9fs_co_symlink(pdu, fidp, &name,
2678                               extension.data, -1 , &stbuf);
2679         if (err < 0) {
2680             goto out;
2681         }
2682         err = v9fs_co_name_to_path(pdu, &fidp->path, name.data, &path);
2683         if (err < 0) {
2684             goto out;
2685         }
2686         v9fs_path_write_lock(s);
2687         v9fs_path_copy(&fidp->path, &path);
2688         v9fs_path_unlock(s);
2689     } else if (perm & P9_STAT_MODE_LINK) {
2690         int32_t ofid = atoi(extension.data);
2691         V9fsFidState *ofidp = get_fid(pdu, ofid);
2692         if (ofidp == NULL) {
2693             err = -EINVAL;
2694             goto out;
2695         }
2696         err = v9fs_co_link(pdu, ofidp, fidp, &name);
2697         put_fid(pdu, ofidp);
2698         if (err < 0) {
2699             goto out;
2700         }
2701         err = v9fs_co_name_to_path(pdu, &fidp->path, name.data, &path);
2702         if (err < 0) {
2703             fidp->fid_type = P9_FID_NONE;
2704             goto out;
2705         }
2706         v9fs_path_write_lock(s);
2707         v9fs_path_copy(&fidp->path, &path);
2708         v9fs_path_unlock(s);
2709         err = v9fs_co_lstat(pdu, &fidp->path, &stbuf);
2710         if (err < 0) {
2711             fidp->fid_type = P9_FID_NONE;
2712             goto out;
2713         }
2714     } else if (perm & P9_STAT_MODE_DEVICE) {
2715         char ctype;
2716         uint32_t major, minor;
2717         mode_t nmode = 0;
2718 
2719         if (sscanf(extension.data, "%c %u %u", &ctype, &major, &minor) != 3) {
2720             err = -errno;
2721             goto out;
2722         }
2723 
2724         switch (ctype) {
2725         case 'c':
2726             nmode = S_IFCHR;
2727             break;
2728         case 'b':
2729             nmode = S_IFBLK;
2730             break;
2731         default:
2732             err = -EIO;
2733             goto out;
2734         }
2735 
2736         nmode |= perm & 0777;
2737         err = v9fs_co_mknod(pdu, fidp, &name, fidp->uid, -1,
2738                             makedev(major, minor), nmode, &stbuf);
2739         if (err < 0) {
2740             goto out;
2741         }
2742         err = v9fs_co_name_to_path(pdu, &fidp->path, name.data, &path);
2743         if (err < 0) {
2744             goto out;
2745         }
2746         v9fs_path_write_lock(s);
2747         v9fs_path_copy(&fidp->path, &path);
2748         v9fs_path_unlock(s);
2749     } else if (perm & P9_STAT_MODE_NAMED_PIPE) {
2750         err = v9fs_co_mknod(pdu, fidp, &name, fidp->uid, -1,
2751                             0, S_IFIFO | (perm & 0777), &stbuf);
2752         if (err < 0) {
2753             goto out;
2754         }
2755         err = v9fs_co_name_to_path(pdu, &fidp->path, name.data, &path);
2756         if (err < 0) {
2757             goto out;
2758         }
2759         v9fs_path_write_lock(s);
2760         v9fs_path_copy(&fidp->path, &path);
2761         v9fs_path_unlock(s);
2762     } else if (perm & P9_STAT_MODE_SOCKET) {
2763         err = v9fs_co_mknod(pdu, fidp, &name, fidp->uid, -1,
2764                             0, S_IFSOCK | (perm & 0777), &stbuf);
2765         if (err < 0) {
2766             goto out;
2767         }
2768         err = v9fs_co_name_to_path(pdu, &fidp->path, name.data, &path);
2769         if (err < 0) {
2770             goto out;
2771         }
2772         v9fs_path_write_lock(s);
2773         v9fs_path_copy(&fidp->path, &path);
2774         v9fs_path_unlock(s);
2775     } else {
2776         err = v9fs_co_open2(pdu, fidp, &name, -1,
2777                             omode_to_uflags(mode)|O_CREAT, perm, &stbuf);
2778         if (err < 0) {
2779             goto out;
2780         }
2781         fidp->fid_type = P9_FID_FILE;
2782         fidp->open_flags = omode_to_uflags(mode);
2783         if (fidp->open_flags & O_EXCL) {
2784             /*
2785              * We let the host file system do O_EXCL check
2786              * We should not reclaim such fd
2787              */
2788             fidp->flags |= FID_NON_RECLAIMABLE;
2789         }
2790     }
2791     iounit = get_iounit(pdu, &fidp->path);
2792     err = stat_to_qid(pdu, &stbuf, &qid);
2793     if (err < 0) {
2794         goto out;
2795     }
2796     err = pdu_marshal(pdu, offset, "Qd", &qid, iounit);
2797     if (err < 0) {
2798         goto out;
2799     }
2800     err += offset;
2801     trace_v9fs_create_return(pdu->tag, pdu->id,
2802                              qid.type, qid.version, qid.path, iounit);
2803 out:
2804     put_fid(pdu, fidp);
2805 out_nofid:
2806    pdu_complete(pdu, err);
2807    v9fs_string_free(&name);
2808    v9fs_string_free(&extension);
2809    v9fs_path_free(&path);
2810 }
2811 
2812 static void coroutine_fn v9fs_symlink(void *opaque)
2813 {
2814     V9fsPDU *pdu = opaque;
2815     V9fsString name;
2816     V9fsString symname;
2817     V9fsFidState *dfidp;
2818     V9fsQID qid;
2819     struct stat stbuf;
2820     int32_t dfid;
2821     int err = 0;
2822     gid_t gid;
2823     size_t offset = 7;
2824 
2825     v9fs_string_init(&name);
2826     v9fs_string_init(&symname);
2827     err = pdu_unmarshal(pdu, offset, "dssd", &dfid, &name, &symname, &gid);
2828     if (err < 0) {
2829         goto out_nofid;
2830     }
2831     trace_v9fs_symlink(pdu->tag, pdu->id, dfid, name.data, symname.data, gid);
2832 
2833     if (name_is_illegal(name.data)) {
2834         err = -ENOENT;
2835         goto out_nofid;
2836     }
2837 
2838     if (!strcmp(".", name.data) || !strcmp("..", name.data)) {
2839         err = -EEXIST;
2840         goto out_nofid;
2841     }
2842 
2843     dfidp = get_fid(pdu, dfid);
2844     if (dfidp == NULL) {
2845         err = -EINVAL;
2846         goto out_nofid;
2847     }
2848     err = v9fs_co_symlink(pdu, dfidp, &name, symname.data, gid, &stbuf);
2849     if (err < 0) {
2850         goto out;
2851     }
2852     err = stat_to_qid(pdu, &stbuf, &qid);
2853     if (err < 0) {
2854         goto out;
2855     }
2856     err =  pdu_marshal(pdu, offset, "Q", &qid);
2857     if (err < 0) {
2858         goto out;
2859     }
2860     err += offset;
2861     trace_v9fs_symlink_return(pdu->tag, pdu->id,
2862                               qid.type, qid.version, qid.path);
2863 out:
2864     put_fid(pdu, dfidp);
2865 out_nofid:
2866     pdu_complete(pdu, err);
2867     v9fs_string_free(&name);
2868     v9fs_string_free(&symname);
2869 }
2870 
2871 static void coroutine_fn v9fs_flush(void *opaque)
2872 {
2873     ssize_t err;
2874     int16_t tag;
2875     size_t offset = 7;
2876     V9fsPDU *cancel_pdu = NULL;
2877     V9fsPDU *pdu = opaque;
2878     V9fsState *s = pdu->s;
2879 
2880     err = pdu_unmarshal(pdu, offset, "w", &tag);
2881     if (err < 0) {
2882         pdu_complete(pdu, err);
2883         return;
2884     }
2885     trace_v9fs_flush(pdu->tag, pdu->id, tag);
2886 
2887     if (pdu->tag == tag) {
2888         warn_report("the guest sent a self-referencing 9P flush request");
2889     } else {
2890         QLIST_FOREACH(cancel_pdu, &s->active_list, next) {
2891             if (cancel_pdu->tag == tag) {
2892                 break;
2893             }
2894         }
2895     }
2896     if (cancel_pdu) {
2897         cancel_pdu->cancelled = 1;
2898         /*
2899          * Wait for pdu to complete.
2900          */
2901         qemu_co_queue_wait(&cancel_pdu->complete, NULL);
2902         if (!qemu_co_queue_next(&cancel_pdu->complete)) {
2903             cancel_pdu->cancelled = 0;
2904             pdu_free(cancel_pdu);
2905         }
2906     }
2907     pdu_complete(pdu, 7);
2908 }
2909 
2910 static void coroutine_fn v9fs_link(void *opaque)
2911 {
2912     V9fsPDU *pdu = opaque;
2913     int32_t dfid, oldfid;
2914     V9fsFidState *dfidp, *oldfidp;
2915     V9fsString name;
2916     size_t offset = 7;
2917     int err = 0;
2918 
2919     v9fs_string_init(&name);
2920     err = pdu_unmarshal(pdu, offset, "dds", &dfid, &oldfid, &name);
2921     if (err < 0) {
2922         goto out_nofid;
2923     }
2924     trace_v9fs_link(pdu->tag, pdu->id, dfid, oldfid, name.data);
2925 
2926     if (name_is_illegal(name.data)) {
2927         err = -ENOENT;
2928         goto out_nofid;
2929     }
2930 
2931     if (!strcmp(".", name.data) || !strcmp("..", name.data)) {
2932         err = -EEXIST;
2933         goto out_nofid;
2934     }
2935 
2936     dfidp = get_fid(pdu, dfid);
2937     if (dfidp == NULL) {
2938         err = -ENOENT;
2939         goto out_nofid;
2940     }
2941 
2942     oldfidp = get_fid(pdu, oldfid);
2943     if (oldfidp == NULL) {
2944         err = -ENOENT;
2945         goto out;
2946     }
2947     err = v9fs_co_link(pdu, oldfidp, dfidp, &name);
2948     if (!err) {
2949         err = offset;
2950     }
2951     put_fid(pdu, oldfidp);
2952 out:
2953     put_fid(pdu, dfidp);
2954 out_nofid:
2955     v9fs_string_free(&name);
2956     pdu_complete(pdu, err);
2957 }
2958 
2959 /* Only works with path name based fid */
2960 static void coroutine_fn v9fs_remove(void *opaque)
2961 {
2962     int32_t fid;
2963     int err = 0;
2964     size_t offset = 7;
2965     V9fsFidState *fidp;
2966     V9fsPDU *pdu = opaque;
2967 
2968     err = pdu_unmarshal(pdu, offset, "d", &fid);
2969     if (err < 0) {
2970         goto out_nofid;
2971     }
2972     trace_v9fs_remove(pdu->tag, pdu->id, fid);
2973 
2974     fidp = get_fid(pdu, fid);
2975     if (fidp == NULL) {
2976         err = -EINVAL;
2977         goto out_nofid;
2978     }
2979     /* if fs driver is not path based, return EOPNOTSUPP */
2980     if (!(pdu->s->ctx.export_flags & V9FS_PATHNAME_FSCONTEXT)) {
2981         err = -EOPNOTSUPP;
2982         goto out_err;
2983     }
2984     /*
2985      * IF the file is unlinked, we cannot reopen
2986      * the file later. So don't reclaim fd
2987      */
2988     err = v9fs_mark_fids_unreclaim(pdu, &fidp->path);
2989     if (err < 0) {
2990         goto out_err;
2991     }
2992     err = v9fs_co_remove(pdu, &fidp->path);
2993     if (!err) {
2994         err = offset;
2995     }
2996 out_err:
2997     /* For TREMOVE we need to clunk the fid even on failed remove */
2998     clunk_fid(pdu->s, fidp->fid);
2999     put_fid(pdu, fidp);
3000 out_nofid:
3001     pdu_complete(pdu, err);
3002 }
3003 
3004 static void coroutine_fn v9fs_unlinkat(void *opaque)
3005 {
3006     int err = 0;
3007     V9fsString name;
3008     int32_t dfid, flags, rflags = 0;
3009     size_t offset = 7;
3010     V9fsPath path;
3011     V9fsFidState *dfidp;
3012     V9fsPDU *pdu = opaque;
3013 
3014     v9fs_string_init(&name);
3015     err = pdu_unmarshal(pdu, offset, "dsd", &dfid, &name, &flags);
3016     if (err < 0) {
3017         goto out_nofid;
3018     }
3019 
3020     if (name_is_illegal(name.data)) {
3021         err = -ENOENT;
3022         goto out_nofid;
3023     }
3024 
3025     if (!strcmp(".", name.data)) {
3026         err = -EINVAL;
3027         goto out_nofid;
3028     }
3029 
3030     if (!strcmp("..", name.data)) {
3031         err = -ENOTEMPTY;
3032         goto out_nofid;
3033     }
3034 
3035     if (flags & ~P9_DOTL_AT_REMOVEDIR) {
3036         err = -EINVAL;
3037         goto out_nofid;
3038     }
3039 
3040     if (flags & P9_DOTL_AT_REMOVEDIR) {
3041         rflags |= AT_REMOVEDIR;
3042     }
3043 
3044     dfidp = get_fid(pdu, dfid);
3045     if (dfidp == NULL) {
3046         err = -EINVAL;
3047         goto out_nofid;
3048     }
3049     /*
3050      * IF the file is unlinked, we cannot reopen
3051      * the file later. So don't reclaim fd
3052      */
3053     v9fs_path_init(&path);
3054     err = v9fs_co_name_to_path(pdu, &dfidp->path, name.data, &path);
3055     if (err < 0) {
3056         goto out_err;
3057     }
3058     err = v9fs_mark_fids_unreclaim(pdu, &path);
3059     if (err < 0) {
3060         goto out_err;
3061     }
3062     err = v9fs_co_unlinkat(pdu, &dfidp->path, &name, rflags);
3063     if (!err) {
3064         err = offset;
3065     }
3066 out_err:
3067     put_fid(pdu, dfidp);
3068     v9fs_path_free(&path);
3069 out_nofid:
3070     pdu_complete(pdu, err);
3071     v9fs_string_free(&name);
3072 }
3073 
3074 
3075 /* Only works with path name based fid */
3076 static int coroutine_fn v9fs_complete_rename(V9fsPDU *pdu, V9fsFidState *fidp,
3077                                              int32_t newdirfid,
3078                                              V9fsString *name)
3079 {
3080     int err = 0;
3081     V9fsPath new_path;
3082     V9fsFidState *tfidp;
3083     V9fsState *s = pdu->s;
3084     V9fsFidState *dirfidp = NULL;
3085 
3086     v9fs_path_init(&new_path);
3087     if (newdirfid != -1) {
3088         dirfidp = get_fid(pdu, newdirfid);
3089         if (dirfidp == NULL) {
3090             return -ENOENT;
3091         }
3092         if (fidp->fid_type != P9_FID_NONE) {
3093             err = -EINVAL;
3094             goto out;
3095         }
3096         err = v9fs_co_name_to_path(pdu, &dirfidp->path, name->data, &new_path);
3097         if (err < 0) {
3098             goto out;
3099         }
3100     } else {
3101         char *dir_name = g_path_get_dirname(fidp->path.data);
3102         V9fsPath dir_path;
3103 
3104         v9fs_path_init(&dir_path);
3105         v9fs_path_sprintf(&dir_path, "%s", dir_name);
3106         g_free(dir_name);
3107 
3108         err = v9fs_co_name_to_path(pdu, &dir_path, name->data, &new_path);
3109         v9fs_path_free(&dir_path);
3110         if (err < 0) {
3111             goto out;
3112         }
3113     }
3114     err = v9fs_co_rename(pdu, &fidp->path, &new_path);
3115     if (err < 0) {
3116         goto out;
3117     }
3118     /*
3119      * Fixup fid's pointing to the old name to
3120      * start pointing to the new name
3121      */
3122     for (tfidp = s->fid_list; tfidp; tfidp = tfidp->next) {
3123         if (v9fs_path_is_ancestor(&fidp->path, &tfidp->path)) {
3124             /* replace the name */
3125             v9fs_fix_path(&tfidp->path, &new_path, strlen(fidp->path.data));
3126         }
3127     }
3128 out:
3129     if (dirfidp) {
3130         put_fid(pdu, dirfidp);
3131     }
3132     v9fs_path_free(&new_path);
3133     return err;
3134 }
3135 
3136 /* Only works with path name based fid */
3137 static void coroutine_fn v9fs_rename(void *opaque)
3138 {
3139     int32_t fid;
3140     ssize_t err = 0;
3141     size_t offset = 7;
3142     V9fsString name;
3143     int32_t newdirfid;
3144     V9fsFidState *fidp;
3145     V9fsPDU *pdu = opaque;
3146     V9fsState *s = pdu->s;
3147 
3148     v9fs_string_init(&name);
3149     err = pdu_unmarshal(pdu, offset, "dds", &fid, &newdirfid, &name);
3150     if (err < 0) {
3151         goto out_nofid;
3152     }
3153 
3154     if (name_is_illegal(name.data)) {
3155         err = -ENOENT;
3156         goto out_nofid;
3157     }
3158 
3159     if (!strcmp(".", name.data) || !strcmp("..", name.data)) {
3160         err = -EISDIR;
3161         goto out_nofid;
3162     }
3163 
3164     fidp = get_fid(pdu, fid);
3165     if (fidp == NULL) {
3166         err = -ENOENT;
3167         goto out_nofid;
3168     }
3169     if (fidp->fid_type != P9_FID_NONE) {
3170         err = -EINVAL;
3171         goto out;
3172     }
3173     /* if fs driver is not path based, return EOPNOTSUPP */
3174     if (!(pdu->s->ctx.export_flags & V9FS_PATHNAME_FSCONTEXT)) {
3175         err = -EOPNOTSUPP;
3176         goto out;
3177     }
3178     v9fs_path_write_lock(s);
3179     err = v9fs_complete_rename(pdu, fidp, newdirfid, &name);
3180     v9fs_path_unlock(s);
3181     if (!err) {
3182         err = offset;
3183     }
3184 out:
3185     put_fid(pdu, fidp);
3186 out_nofid:
3187     pdu_complete(pdu, err);
3188     v9fs_string_free(&name);
3189 }
3190 
3191 static int coroutine_fn v9fs_fix_fid_paths(V9fsPDU *pdu, V9fsPath *olddir,
3192                                            V9fsString *old_name,
3193                                            V9fsPath *newdir,
3194                                            V9fsString *new_name)
3195 {
3196     V9fsFidState *tfidp;
3197     V9fsPath oldpath, newpath;
3198     V9fsState *s = pdu->s;
3199     int err;
3200 
3201     v9fs_path_init(&oldpath);
3202     v9fs_path_init(&newpath);
3203     err = v9fs_co_name_to_path(pdu, olddir, old_name->data, &oldpath);
3204     if (err < 0) {
3205         goto out;
3206     }
3207     err = v9fs_co_name_to_path(pdu, newdir, new_name->data, &newpath);
3208     if (err < 0) {
3209         goto out;
3210     }
3211 
3212     /*
3213      * Fixup fid's pointing to the old name to
3214      * start pointing to the new name
3215      */
3216     for (tfidp = s->fid_list; tfidp; tfidp = tfidp->next) {
3217         if (v9fs_path_is_ancestor(&oldpath, &tfidp->path)) {
3218             /* replace the name */
3219             v9fs_fix_path(&tfidp->path, &newpath, strlen(oldpath.data));
3220         }
3221     }
3222 out:
3223     v9fs_path_free(&oldpath);
3224     v9fs_path_free(&newpath);
3225     return err;
3226 }
3227 
3228 static int coroutine_fn v9fs_complete_renameat(V9fsPDU *pdu, int32_t olddirfid,
3229                                                V9fsString *old_name,
3230                                                int32_t newdirfid,
3231                                                V9fsString *new_name)
3232 {
3233     int err = 0;
3234     V9fsState *s = pdu->s;
3235     V9fsFidState *newdirfidp = NULL, *olddirfidp = NULL;
3236 
3237     olddirfidp = get_fid(pdu, olddirfid);
3238     if (olddirfidp == NULL) {
3239         err = -ENOENT;
3240         goto out;
3241     }
3242     if (newdirfid != -1) {
3243         newdirfidp = get_fid(pdu, newdirfid);
3244         if (newdirfidp == NULL) {
3245             err = -ENOENT;
3246             goto out;
3247         }
3248     } else {
3249         newdirfidp = get_fid(pdu, olddirfid);
3250     }
3251 
3252     err = v9fs_co_renameat(pdu, &olddirfidp->path, old_name,
3253                            &newdirfidp->path, new_name);
3254     if (err < 0) {
3255         goto out;
3256     }
3257     if (s->ctx.export_flags & V9FS_PATHNAME_FSCONTEXT) {
3258         /* Only for path based fid  we need to do the below fixup */
3259         err = v9fs_fix_fid_paths(pdu, &olddirfidp->path, old_name,
3260                                  &newdirfidp->path, new_name);
3261     }
3262 out:
3263     if (olddirfidp) {
3264         put_fid(pdu, olddirfidp);
3265     }
3266     if (newdirfidp) {
3267         put_fid(pdu, newdirfidp);
3268     }
3269     return err;
3270 }
3271 
3272 static void coroutine_fn v9fs_renameat(void *opaque)
3273 {
3274     ssize_t err = 0;
3275     size_t offset = 7;
3276     V9fsPDU *pdu = opaque;
3277     V9fsState *s = pdu->s;
3278     int32_t olddirfid, newdirfid;
3279     V9fsString old_name, new_name;
3280 
3281     v9fs_string_init(&old_name);
3282     v9fs_string_init(&new_name);
3283     err = pdu_unmarshal(pdu, offset, "dsds", &olddirfid,
3284                         &old_name, &newdirfid, &new_name);
3285     if (err < 0) {
3286         goto out_err;
3287     }
3288 
3289     if (name_is_illegal(old_name.data) || name_is_illegal(new_name.data)) {
3290         err = -ENOENT;
3291         goto out_err;
3292     }
3293 
3294     if (!strcmp(".", old_name.data) || !strcmp("..", old_name.data) ||
3295         !strcmp(".", new_name.data) || !strcmp("..", new_name.data)) {
3296         err = -EISDIR;
3297         goto out_err;
3298     }
3299 
3300     v9fs_path_write_lock(s);
3301     err = v9fs_complete_renameat(pdu, olddirfid,
3302                                  &old_name, newdirfid, &new_name);
3303     v9fs_path_unlock(s);
3304     if (!err) {
3305         err = offset;
3306     }
3307 
3308 out_err:
3309     pdu_complete(pdu, err);
3310     v9fs_string_free(&old_name);
3311     v9fs_string_free(&new_name);
3312 }
3313 
3314 static void coroutine_fn v9fs_wstat(void *opaque)
3315 {
3316     int32_t fid;
3317     int err = 0;
3318     int16_t unused;
3319     V9fsStat v9stat;
3320     size_t offset = 7;
3321     struct stat stbuf;
3322     V9fsFidState *fidp;
3323     V9fsPDU *pdu = opaque;
3324     V9fsState *s = pdu->s;
3325 
3326     v9fs_stat_init(&v9stat);
3327     err = pdu_unmarshal(pdu, offset, "dwS", &fid, &unused, &v9stat);
3328     if (err < 0) {
3329         goto out_nofid;
3330     }
3331     trace_v9fs_wstat(pdu->tag, pdu->id, fid,
3332                      v9stat.mode, v9stat.atime, v9stat.mtime);
3333 
3334     fidp = get_fid(pdu, fid);
3335     if (fidp == NULL) {
3336         err = -EINVAL;
3337         goto out_nofid;
3338     }
3339     /* do we need to sync the file? */
3340     if (donttouch_stat(&v9stat)) {
3341         err = v9fs_co_fsync(pdu, fidp, 0);
3342         goto out;
3343     }
3344     if (v9stat.mode != -1) {
3345         uint32_t v9_mode;
3346         err = v9fs_co_lstat(pdu, &fidp->path, &stbuf);
3347         if (err < 0) {
3348             goto out;
3349         }
3350         v9_mode = stat_to_v9mode(&stbuf);
3351         if ((v9stat.mode & P9_STAT_MODE_TYPE_BITS) !=
3352             (v9_mode & P9_STAT_MODE_TYPE_BITS)) {
3353             /* Attempting to change the type */
3354             err = -EIO;
3355             goto out;
3356         }
3357         err = v9fs_co_chmod(pdu, &fidp->path,
3358                             v9mode_to_mode(v9stat.mode,
3359                                            &v9stat.extension));
3360         if (err < 0) {
3361             goto out;
3362         }
3363     }
3364     if (v9stat.mtime != -1 || v9stat.atime != -1) {
3365         struct timespec times[2];
3366         if (v9stat.atime != -1) {
3367             times[0].tv_sec = v9stat.atime;
3368             times[0].tv_nsec = 0;
3369         } else {
3370             times[0].tv_nsec = UTIME_OMIT;
3371         }
3372         if (v9stat.mtime != -1) {
3373             times[1].tv_sec = v9stat.mtime;
3374             times[1].tv_nsec = 0;
3375         } else {
3376             times[1].tv_nsec = UTIME_OMIT;
3377         }
3378         err = v9fs_co_utimensat(pdu, &fidp->path, times);
3379         if (err < 0) {
3380             goto out;
3381         }
3382     }
3383     if (v9stat.n_gid != -1 || v9stat.n_uid != -1) {
3384         err = v9fs_co_chown(pdu, &fidp->path, v9stat.n_uid, v9stat.n_gid);
3385         if (err < 0) {
3386             goto out;
3387         }
3388     }
3389     if (v9stat.name.size != 0) {
3390         v9fs_path_write_lock(s);
3391         err = v9fs_complete_rename(pdu, fidp, -1, &v9stat.name);
3392         v9fs_path_unlock(s);
3393         if (err < 0) {
3394             goto out;
3395         }
3396     }
3397     if (v9stat.length != -1) {
3398         err = v9fs_co_truncate(pdu, &fidp->path, v9stat.length);
3399         if (err < 0) {
3400             goto out;
3401         }
3402     }
3403     err = offset;
3404 out:
3405     put_fid(pdu, fidp);
3406 out_nofid:
3407     v9fs_stat_free(&v9stat);
3408     pdu_complete(pdu, err);
3409 }
3410 
3411 static int v9fs_fill_statfs(V9fsState *s, V9fsPDU *pdu, struct statfs *stbuf)
3412 {
3413     uint32_t f_type;
3414     uint32_t f_bsize;
3415     uint64_t f_blocks;
3416     uint64_t f_bfree;
3417     uint64_t f_bavail;
3418     uint64_t f_files;
3419     uint64_t f_ffree;
3420     uint64_t fsid_val;
3421     uint32_t f_namelen;
3422     size_t offset = 7;
3423     int32_t bsize_factor;
3424 
3425     /*
3426      * compute bsize factor based on host file system block size
3427      * and client msize
3428      */
3429     bsize_factor = (s->msize - P9_IOHDRSZ)/stbuf->f_bsize;
3430     if (!bsize_factor) {
3431         bsize_factor = 1;
3432     }
3433     f_type  = stbuf->f_type;
3434     f_bsize = stbuf->f_bsize;
3435     f_bsize *= bsize_factor;
3436     /*
3437      * f_bsize is adjusted(multiplied) by bsize factor, so we need to
3438      * adjust(divide) the number of blocks, free blocks and available
3439      * blocks by bsize factor
3440      */
3441     f_blocks = stbuf->f_blocks/bsize_factor;
3442     f_bfree  = stbuf->f_bfree/bsize_factor;
3443     f_bavail = stbuf->f_bavail/bsize_factor;
3444     f_files  = stbuf->f_files;
3445     f_ffree  = stbuf->f_ffree;
3446     fsid_val = (unsigned int) stbuf->f_fsid.__val[0] |
3447                (unsigned long long)stbuf->f_fsid.__val[1] << 32;
3448     f_namelen = stbuf->f_namelen;
3449 
3450     return pdu_marshal(pdu, offset, "ddqqqqqqd",
3451                        f_type, f_bsize, f_blocks, f_bfree,
3452                        f_bavail, f_files, f_ffree,
3453                        fsid_val, f_namelen);
3454 }
3455 
3456 static void coroutine_fn v9fs_statfs(void *opaque)
3457 {
3458     int32_t fid;
3459     ssize_t retval = 0;
3460     size_t offset = 7;
3461     V9fsFidState *fidp;
3462     struct statfs stbuf;
3463     V9fsPDU *pdu = opaque;
3464     V9fsState *s = pdu->s;
3465 
3466     retval = pdu_unmarshal(pdu, offset, "d", &fid);
3467     if (retval < 0) {
3468         goto out_nofid;
3469     }
3470     fidp = get_fid(pdu, fid);
3471     if (fidp == NULL) {
3472         retval = -ENOENT;
3473         goto out_nofid;
3474     }
3475     retval = v9fs_co_statfs(pdu, &fidp->path, &stbuf);
3476     if (retval < 0) {
3477         goto out;
3478     }
3479     retval = v9fs_fill_statfs(s, pdu, &stbuf);
3480     if (retval < 0) {
3481         goto out;
3482     }
3483     retval += offset;
3484 out:
3485     put_fid(pdu, fidp);
3486 out_nofid:
3487     pdu_complete(pdu, retval);
3488 }
3489 
3490 static void coroutine_fn v9fs_mknod(void *opaque)
3491 {
3492 
3493     int mode;
3494     gid_t gid;
3495     int32_t fid;
3496     V9fsQID qid;
3497     int err = 0;
3498     int major, minor;
3499     size_t offset = 7;
3500     V9fsString name;
3501     struct stat stbuf;
3502     V9fsFidState *fidp;
3503     V9fsPDU *pdu = opaque;
3504 
3505     v9fs_string_init(&name);
3506     err = pdu_unmarshal(pdu, offset, "dsdddd", &fid, &name, &mode,
3507                         &major, &minor, &gid);
3508     if (err < 0) {
3509         goto out_nofid;
3510     }
3511     trace_v9fs_mknod(pdu->tag, pdu->id, fid, mode, major, minor);
3512 
3513     if (name_is_illegal(name.data)) {
3514         err = -ENOENT;
3515         goto out_nofid;
3516     }
3517 
3518     if (!strcmp(".", name.data) || !strcmp("..", name.data)) {
3519         err = -EEXIST;
3520         goto out_nofid;
3521     }
3522 
3523     fidp = get_fid(pdu, fid);
3524     if (fidp == NULL) {
3525         err = -ENOENT;
3526         goto out_nofid;
3527     }
3528     err = v9fs_co_mknod(pdu, fidp, &name, fidp->uid, gid,
3529                         makedev(major, minor), mode, &stbuf);
3530     if (err < 0) {
3531         goto out;
3532     }
3533     err = stat_to_qid(pdu, &stbuf, &qid);
3534     if (err < 0) {
3535         goto out;
3536     }
3537     err = pdu_marshal(pdu, offset, "Q", &qid);
3538     if (err < 0) {
3539         goto out;
3540     }
3541     err += offset;
3542     trace_v9fs_mknod_return(pdu->tag, pdu->id,
3543                             qid.type, qid.version, qid.path);
3544 out:
3545     put_fid(pdu, fidp);
3546 out_nofid:
3547     pdu_complete(pdu, err);
3548     v9fs_string_free(&name);
3549 }
3550 
3551 /*
3552  * Implement posix byte range locking code
3553  * Server side handling of locking code is very simple, because 9p server in
3554  * QEMU can handle only one client. And most of the lock handling
3555  * (like conflict, merging) etc is done by the VFS layer itself, so no need to
3556  * do any thing in * qemu 9p server side lock code path.
3557  * So when a TLOCK request comes, always return success
3558  */
3559 static void coroutine_fn v9fs_lock(void *opaque)
3560 {
3561     V9fsFlock flock;
3562     size_t offset = 7;
3563     struct stat stbuf;
3564     V9fsFidState *fidp;
3565     int32_t fid, err = 0;
3566     V9fsPDU *pdu = opaque;
3567 
3568     v9fs_string_init(&flock.client_id);
3569     err = pdu_unmarshal(pdu, offset, "dbdqqds", &fid, &flock.type,
3570                         &flock.flags, &flock.start, &flock.length,
3571                         &flock.proc_id, &flock.client_id);
3572     if (err < 0) {
3573         goto out_nofid;
3574     }
3575     trace_v9fs_lock(pdu->tag, pdu->id, fid,
3576                     flock.type, flock.start, flock.length);
3577 
3578 
3579     /* We support only block flag now (that too ignored currently) */
3580     if (flock.flags & ~P9_LOCK_FLAGS_BLOCK) {
3581         err = -EINVAL;
3582         goto out_nofid;
3583     }
3584     fidp = get_fid(pdu, fid);
3585     if (fidp == NULL) {
3586         err = -ENOENT;
3587         goto out_nofid;
3588     }
3589     err = v9fs_co_fstat(pdu, fidp, &stbuf);
3590     if (err < 0) {
3591         goto out;
3592     }
3593     err = pdu_marshal(pdu, offset, "b", P9_LOCK_SUCCESS);
3594     if (err < 0) {
3595         goto out;
3596     }
3597     err += offset;
3598     trace_v9fs_lock_return(pdu->tag, pdu->id, P9_LOCK_SUCCESS);
3599 out:
3600     put_fid(pdu, fidp);
3601 out_nofid:
3602     pdu_complete(pdu, err);
3603     v9fs_string_free(&flock.client_id);
3604 }
3605 
3606 /*
3607  * When a TGETLOCK request comes, always return success because all lock
3608  * handling is done by client's VFS layer.
3609  */
3610 static void coroutine_fn v9fs_getlock(void *opaque)
3611 {
3612     size_t offset = 7;
3613     struct stat stbuf;
3614     V9fsFidState *fidp;
3615     V9fsGetlock glock;
3616     int32_t fid, err = 0;
3617     V9fsPDU *pdu = opaque;
3618 
3619     v9fs_string_init(&glock.client_id);
3620     err = pdu_unmarshal(pdu, offset, "dbqqds", &fid, &glock.type,
3621                         &glock.start, &glock.length, &glock.proc_id,
3622                         &glock.client_id);
3623     if (err < 0) {
3624         goto out_nofid;
3625     }
3626     trace_v9fs_getlock(pdu->tag, pdu->id, fid,
3627                        glock.type, glock.start, glock.length);
3628 
3629     fidp = get_fid(pdu, fid);
3630     if (fidp == NULL) {
3631         err = -ENOENT;
3632         goto out_nofid;
3633     }
3634     err = v9fs_co_fstat(pdu, fidp, &stbuf);
3635     if (err < 0) {
3636         goto out;
3637     }
3638     glock.type = P9_LOCK_TYPE_UNLCK;
3639     err = pdu_marshal(pdu, offset, "bqqds", glock.type,
3640                           glock.start, glock.length, glock.proc_id,
3641                           &glock.client_id);
3642     if (err < 0) {
3643         goto out;
3644     }
3645     err += offset;
3646     trace_v9fs_getlock_return(pdu->tag, pdu->id, glock.type, glock.start,
3647                               glock.length, glock.proc_id);
3648 out:
3649     put_fid(pdu, fidp);
3650 out_nofid:
3651     pdu_complete(pdu, err);
3652     v9fs_string_free(&glock.client_id);
3653 }
3654 
3655 static void coroutine_fn v9fs_mkdir(void *opaque)
3656 {
3657     V9fsPDU *pdu = opaque;
3658     size_t offset = 7;
3659     int32_t fid;
3660     struct stat stbuf;
3661     V9fsQID qid;
3662     V9fsString name;
3663     V9fsFidState *fidp;
3664     gid_t gid;
3665     int mode;
3666     int err = 0;
3667 
3668     v9fs_string_init(&name);
3669     err = pdu_unmarshal(pdu, offset, "dsdd", &fid, &name, &mode, &gid);
3670     if (err < 0) {
3671         goto out_nofid;
3672     }
3673     trace_v9fs_mkdir(pdu->tag, pdu->id, fid, name.data, mode, gid);
3674 
3675     if (name_is_illegal(name.data)) {
3676         err = -ENOENT;
3677         goto out_nofid;
3678     }
3679 
3680     if (!strcmp(".", name.data) || !strcmp("..", name.data)) {
3681         err = -EEXIST;
3682         goto out_nofid;
3683     }
3684 
3685     fidp = get_fid(pdu, fid);
3686     if (fidp == NULL) {
3687         err = -ENOENT;
3688         goto out_nofid;
3689     }
3690     err = v9fs_co_mkdir(pdu, fidp, &name, mode, fidp->uid, gid, &stbuf);
3691     if (err < 0) {
3692         goto out;
3693     }
3694     err = stat_to_qid(pdu, &stbuf, &qid);
3695     if (err < 0) {
3696         goto out;
3697     }
3698     err = pdu_marshal(pdu, offset, "Q", &qid);
3699     if (err < 0) {
3700         goto out;
3701     }
3702     err += offset;
3703     trace_v9fs_mkdir_return(pdu->tag, pdu->id,
3704                             qid.type, qid.version, qid.path, err);
3705 out:
3706     put_fid(pdu, fidp);
3707 out_nofid:
3708     pdu_complete(pdu, err);
3709     v9fs_string_free(&name);
3710 }
3711 
3712 static void coroutine_fn v9fs_xattrwalk(void *opaque)
3713 {
3714     int64_t size;
3715     V9fsString name;
3716     ssize_t err = 0;
3717     size_t offset = 7;
3718     int32_t fid, newfid;
3719     V9fsFidState *file_fidp;
3720     V9fsFidState *xattr_fidp = NULL;
3721     V9fsPDU *pdu = opaque;
3722     V9fsState *s = pdu->s;
3723 
3724     v9fs_string_init(&name);
3725     err = pdu_unmarshal(pdu, offset, "dds", &fid, &newfid, &name);
3726     if (err < 0) {
3727         goto out_nofid;
3728     }
3729     trace_v9fs_xattrwalk(pdu->tag, pdu->id, fid, newfid, name.data);
3730 
3731     file_fidp = get_fid(pdu, fid);
3732     if (file_fidp == NULL) {
3733         err = -ENOENT;
3734         goto out_nofid;
3735     }
3736     xattr_fidp = alloc_fid(s, newfid);
3737     if (xattr_fidp == NULL) {
3738         err = -EINVAL;
3739         goto out;
3740     }
3741     v9fs_path_copy(&xattr_fidp->path, &file_fidp->path);
3742     if (!v9fs_string_size(&name)) {
3743         /*
3744          * listxattr request. Get the size first
3745          */
3746         size = v9fs_co_llistxattr(pdu, &xattr_fidp->path, NULL, 0);
3747         if (size < 0) {
3748             err = size;
3749             clunk_fid(s, xattr_fidp->fid);
3750             goto out;
3751         }
3752         /*
3753          * Read the xattr value
3754          */
3755         xattr_fidp->fs.xattr.len = size;
3756         xattr_fidp->fid_type = P9_FID_XATTR;
3757         xattr_fidp->fs.xattr.xattrwalk_fid = true;
3758         xattr_fidp->fs.xattr.value = g_malloc0(size);
3759         if (size) {
3760             err = v9fs_co_llistxattr(pdu, &xattr_fidp->path,
3761                                      xattr_fidp->fs.xattr.value,
3762                                      xattr_fidp->fs.xattr.len);
3763             if (err < 0) {
3764                 clunk_fid(s, xattr_fidp->fid);
3765                 goto out;
3766             }
3767         }
3768         err = pdu_marshal(pdu, offset, "q", size);
3769         if (err < 0) {
3770             goto out;
3771         }
3772         err += offset;
3773     } else {
3774         /*
3775          * specific xattr fid. We check for xattr
3776          * presence also collect the xattr size
3777          */
3778         size = v9fs_co_lgetxattr(pdu, &xattr_fidp->path,
3779                                  &name, NULL, 0);
3780         if (size < 0) {
3781             err = size;
3782             clunk_fid(s, xattr_fidp->fid);
3783             goto out;
3784         }
3785         /*
3786          * Read the xattr value
3787          */
3788         xattr_fidp->fs.xattr.len = size;
3789         xattr_fidp->fid_type = P9_FID_XATTR;
3790         xattr_fidp->fs.xattr.xattrwalk_fid = true;
3791         xattr_fidp->fs.xattr.value = g_malloc0(size);
3792         if (size) {
3793             err = v9fs_co_lgetxattr(pdu, &xattr_fidp->path,
3794                                     &name, xattr_fidp->fs.xattr.value,
3795                                     xattr_fidp->fs.xattr.len);
3796             if (err < 0) {
3797                 clunk_fid(s, xattr_fidp->fid);
3798                 goto out;
3799             }
3800         }
3801         err = pdu_marshal(pdu, offset, "q", size);
3802         if (err < 0) {
3803             goto out;
3804         }
3805         err += offset;
3806     }
3807     trace_v9fs_xattrwalk_return(pdu->tag, pdu->id, size);
3808 out:
3809     put_fid(pdu, file_fidp);
3810     if (xattr_fidp) {
3811         put_fid(pdu, xattr_fidp);
3812     }
3813 out_nofid:
3814     pdu_complete(pdu, err);
3815     v9fs_string_free(&name);
3816 }
3817 
3818 static void coroutine_fn v9fs_xattrcreate(void *opaque)
3819 {
3820     int flags, rflags = 0;
3821     int32_t fid;
3822     uint64_t size;
3823     ssize_t err = 0;
3824     V9fsString name;
3825     size_t offset = 7;
3826     V9fsFidState *file_fidp;
3827     V9fsFidState *xattr_fidp;
3828     V9fsPDU *pdu = opaque;
3829 
3830     v9fs_string_init(&name);
3831     err = pdu_unmarshal(pdu, offset, "dsqd", &fid, &name, &size, &flags);
3832     if (err < 0) {
3833         goto out_nofid;
3834     }
3835     trace_v9fs_xattrcreate(pdu->tag, pdu->id, fid, name.data, size, flags);
3836 
3837     if (flags & ~(P9_XATTR_CREATE | P9_XATTR_REPLACE)) {
3838         err = -EINVAL;
3839         goto out_nofid;
3840     }
3841 
3842     if (flags & P9_XATTR_CREATE) {
3843         rflags |= XATTR_CREATE;
3844     }
3845 
3846     if (flags & P9_XATTR_REPLACE) {
3847         rflags |= XATTR_REPLACE;
3848     }
3849 
3850     if (size > XATTR_SIZE_MAX) {
3851         err = -E2BIG;
3852         goto out_nofid;
3853     }
3854 
3855     file_fidp = get_fid(pdu, fid);
3856     if (file_fidp == NULL) {
3857         err = -EINVAL;
3858         goto out_nofid;
3859     }
3860     if (file_fidp->fid_type != P9_FID_NONE) {
3861         err = -EINVAL;
3862         goto out_put_fid;
3863     }
3864 
3865     /* Make the file fid point to xattr */
3866     xattr_fidp = file_fidp;
3867     xattr_fidp->fid_type = P9_FID_XATTR;
3868     xattr_fidp->fs.xattr.copied_len = 0;
3869     xattr_fidp->fs.xattr.xattrwalk_fid = false;
3870     xattr_fidp->fs.xattr.len = size;
3871     xattr_fidp->fs.xattr.flags = rflags;
3872     v9fs_string_init(&xattr_fidp->fs.xattr.name);
3873     v9fs_string_copy(&xattr_fidp->fs.xattr.name, &name);
3874     xattr_fidp->fs.xattr.value = g_malloc0(size);
3875     err = offset;
3876 out_put_fid:
3877     put_fid(pdu, file_fidp);
3878 out_nofid:
3879     pdu_complete(pdu, err);
3880     v9fs_string_free(&name);
3881 }
3882 
3883 static void coroutine_fn v9fs_readlink(void *opaque)
3884 {
3885     V9fsPDU *pdu = opaque;
3886     size_t offset = 7;
3887     V9fsString target;
3888     int32_t fid;
3889     int err = 0;
3890     V9fsFidState *fidp;
3891 
3892     err = pdu_unmarshal(pdu, offset, "d", &fid);
3893     if (err < 0) {
3894         goto out_nofid;
3895     }
3896     trace_v9fs_readlink(pdu->tag, pdu->id, fid);
3897     fidp = get_fid(pdu, fid);
3898     if (fidp == NULL) {
3899         err = -ENOENT;
3900         goto out_nofid;
3901     }
3902 
3903     v9fs_string_init(&target);
3904     err = v9fs_co_readlink(pdu, &fidp->path, &target);
3905     if (err < 0) {
3906         goto out;
3907     }
3908     err = pdu_marshal(pdu, offset, "s", &target);
3909     if (err < 0) {
3910         v9fs_string_free(&target);
3911         goto out;
3912     }
3913     err += offset;
3914     trace_v9fs_readlink_return(pdu->tag, pdu->id, target.data);
3915     v9fs_string_free(&target);
3916 out:
3917     put_fid(pdu, fidp);
3918 out_nofid:
3919     pdu_complete(pdu, err);
3920 }
3921 
3922 static CoroutineEntry *pdu_co_handlers[] = {
3923     [P9_TREADDIR] = v9fs_readdir,
3924     [P9_TSTATFS] = v9fs_statfs,
3925     [P9_TGETATTR] = v9fs_getattr,
3926     [P9_TSETATTR] = v9fs_setattr,
3927     [P9_TXATTRWALK] = v9fs_xattrwalk,
3928     [P9_TXATTRCREATE] = v9fs_xattrcreate,
3929     [P9_TMKNOD] = v9fs_mknod,
3930     [P9_TRENAME] = v9fs_rename,
3931     [P9_TLOCK] = v9fs_lock,
3932     [P9_TGETLOCK] = v9fs_getlock,
3933     [P9_TRENAMEAT] = v9fs_renameat,
3934     [P9_TREADLINK] = v9fs_readlink,
3935     [P9_TUNLINKAT] = v9fs_unlinkat,
3936     [P9_TMKDIR] = v9fs_mkdir,
3937     [P9_TVERSION] = v9fs_version,
3938     [P9_TLOPEN] = v9fs_open,
3939     [P9_TATTACH] = v9fs_attach,
3940     [P9_TSTAT] = v9fs_stat,
3941     [P9_TWALK] = v9fs_walk,
3942     [P9_TCLUNK] = v9fs_clunk,
3943     [P9_TFSYNC] = v9fs_fsync,
3944     [P9_TOPEN] = v9fs_open,
3945     [P9_TREAD] = v9fs_read,
3946 #if 0
3947     [P9_TAUTH] = v9fs_auth,
3948 #endif
3949     [P9_TFLUSH] = v9fs_flush,
3950     [P9_TLINK] = v9fs_link,
3951     [P9_TSYMLINK] = v9fs_symlink,
3952     [P9_TCREATE] = v9fs_create,
3953     [P9_TLCREATE] = v9fs_lcreate,
3954     [P9_TWRITE] = v9fs_write,
3955     [P9_TWSTAT] = v9fs_wstat,
3956     [P9_TREMOVE] = v9fs_remove,
3957 };
3958 
3959 static void coroutine_fn v9fs_op_not_supp(void *opaque)
3960 {
3961     V9fsPDU *pdu = opaque;
3962     pdu_complete(pdu, -EOPNOTSUPP);
3963 }
3964 
3965 static void coroutine_fn v9fs_fs_ro(void *opaque)
3966 {
3967     V9fsPDU *pdu = opaque;
3968     pdu_complete(pdu, -EROFS);
3969 }
3970 
3971 static inline bool is_read_only_op(V9fsPDU *pdu)
3972 {
3973     switch (pdu->id) {
3974     case P9_TREADDIR:
3975     case P9_TSTATFS:
3976     case P9_TGETATTR:
3977     case P9_TXATTRWALK:
3978     case P9_TLOCK:
3979     case P9_TGETLOCK:
3980     case P9_TREADLINK:
3981     case P9_TVERSION:
3982     case P9_TLOPEN:
3983     case P9_TATTACH:
3984     case P9_TSTAT:
3985     case P9_TWALK:
3986     case P9_TCLUNK:
3987     case P9_TFSYNC:
3988     case P9_TOPEN:
3989     case P9_TREAD:
3990     case P9_TAUTH:
3991     case P9_TFLUSH:
3992         return 1;
3993     default:
3994         return 0;
3995     }
3996 }
3997 
3998 void pdu_submit(V9fsPDU *pdu, P9MsgHeader *hdr)
3999 {
4000     Coroutine *co;
4001     CoroutineEntry *handler;
4002     V9fsState *s = pdu->s;
4003 
4004     pdu->size = le32_to_cpu(hdr->size_le);
4005     pdu->id = hdr->id;
4006     pdu->tag = le16_to_cpu(hdr->tag_le);
4007 
4008     if (pdu->id >= ARRAY_SIZE(pdu_co_handlers) ||
4009         (pdu_co_handlers[pdu->id] == NULL)) {
4010         handler = v9fs_op_not_supp;
4011     } else if (is_ro_export(&s->ctx) && !is_read_only_op(pdu)) {
4012         handler = v9fs_fs_ro;
4013     } else {
4014         handler = pdu_co_handlers[pdu->id];
4015     }
4016 
4017     qemu_co_queue_init(&pdu->complete);
4018     co = qemu_coroutine_create(handler, pdu);
4019     qemu_coroutine_enter(co);
4020 }
4021 
4022 /* Returns 0 on success, 1 on failure. */
4023 int v9fs_device_realize_common(V9fsState *s, const V9fsTransport *t,
4024                                Error **errp)
4025 {
4026     int i, len;
4027     struct stat stat;
4028     FsDriverEntry *fse;
4029     V9fsPath path;
4030     int rc = 1;
4031 
4032     assert(!s->transport);
4033     s->transport = t;
4034 
4035     /* initialize pdu allocator */
4036     QLIST_INIT(&s->free_list);
4037     QLIST_INIT(&s->active_list);
4038     for (i = 0; i < MAX_REQ; i++) {
4039         QLIST_INSERT_HEAD(&s->free_list, &s->pdus[i], next);
4040         s->pdus[i].s = s;
4041         s->pdus[i].idx = i;
4042     }
4043 
4044     v9fs_path_init(&path);
4045 
4046     fse = get_fsdev_fsentry(s->fsconf.fsdev_id);
4047 
4048     if (!fse) {
4049         /* We don't have a fsdev identified by fsdev_id */
4050         error_setg(errp, "9pfs device couldn't find fsdev with the "
4051                    "id = %s",
4052                    s->fsconf.fsdev_id ? s->fsconf.fsdev_id : "NULL");
4053         goto out;
4054     }
4055 
4056     if (!s->fsconf.tag) {
4057         /* we haven't specified a mount_tag */
4058         error_setg(errp, "fsdev with id %s needs mount_tag arguments",
4059                    s->fsconf.fsdev_id);
4060         goto out;
4061     }
4062 
4063     s->ctx.export_flags = fse->export_flags;
4064     s->ctx.fs_root = g_strdup(fse->path);
4065     s->ctx.exops.get_st_gen = NULL;
4066     len = strlen(s->fsconf.tag);
4067     if (len > MAX_TAG_LEN - 1) {
4068         error_setg(errp, "mount tag '%s' (%d bytes) is longer than "
4069                    "maximum (%d bytes)", s->fsconf.tag, len, MAX_TAG_LEN - 1);
4070         goto out;
4071     }
4072 
4073     s->tag = g_strdup(s->fsconf.tag);
4074     s->ctx.uid = -1;
4075 
4076     s->ops = fse->ops;
4077 
4078     s->ctx.fmode = fse->fmode;
4079     s->ctx.dmode = fse->dmode;
4080 
4081     s->fid_list = NULL;
4082     qemu_co_rwlock_init(&s->rename_lock);
4083 
4084     if (s->ops->init(&s->ctx, errp) < 0) {
4085         error_prepend(errp, "cannot initialize fsdev '%s': ",
4086                       s->fsconf.fsdev_id);
4087         goto out;
4088     }
4089 
4090     /*
4091      * Check details of export path, We need to use fs driver
4092      * call back to do that. Since we are in the init path, we don't
4093      * use co-routines here.
4094      */
4095     if (s->ops->name_to_path(&s->ctx, NULL, "/", &path) < 0) {
4096         error_setg(errp,
4097                    "error in converting name to path %s", strerror(errno));
4098         goto out;
4099     }
4100     if (s->ops->lstat(&s->ctx, &path, &stat)) {
4101         error_setg(errp, "share path %s does not exist", fse->path);
4102         goto out;
4103     } else if (!S_ISDIR(stat.st_mode)) {
4104         error_setg(errp, "share path %s is not a directory", fse->path);
4105         goto out;
4106     }
4107 
4108     s->dev_id = stat.st_dev;
4109 
4110     /* init inode remapping : */
4111     /* hash table for variable length inode suffixes */
4112     qpd_table_init(&s->qpd_table);
4113     /* hash table for slow/full inode remapping (most users won't need it) */
4114     qpf_table_init(&s->qpf_table);
4115     /* hash table for quick inode remapping */
4116     qpp_table_init(&s->qpp_table);
4117     s->qp_ndevices = 0;
4118     s->qp_affix_next = 1; /* reserve 0 to detect overflow */
4119     s->qp_fullpath_next = 1;
4120 
4121     s->ctx.fst = &fse->fst;
4122     fsdev_throttle_init(s->ctx.fst);
4123 
4124     rc = 0;
4125 out:
4126     if (rc) {
4127         v9fs_device_unrealize_common(s, NULL);
4128     }
4129     v9fs_path_free(&path);
4130     return rc;
4131 }
4132 
4133 void v9fs_device_unrealize_common(V9fsState *s, Error **errp)
4134 {
4135     if (s->ops && s->ops->cleanup) {
4136         s->ops->cleanup(&s->ctx);
4137     }
4138     if (s->ctx.fst) {
4139         fsdev_throttle_cleanup(s->ctx.fst);
4140     }
4141     g_free(s->tag);
4142     qp_table_destroy(&s->qpd_table);
4143     qp_table_destroy(&s->qpp_table);
4144     qp_table_destroy(&s->qpf_table);
4145     g_free(s->ctx.fs_root);
4146 }
4147 
4148 typedef struct VirtfsCoResetData {
4149     V9fsPDU pdu;
4150     bool done;
4151 } VirtfsCoResetData;
4152 
4153 static void coroutine_fn virtfs_co_reset(void *opaque)
4154 {
4155     VirtfsCoResetData *data = opaque;
4156 
4157     virtfs_reset(&data->pdu);
4158     data->done = true;
4159 }
4160 
4161 void v9fs_reset(V9fsState *s)
4162 {
4163     VirtfsCoResetData data = { .pdu = { .s = s }, .done = false };
4164     Coroutine *co;
4165 
4166     while (!QLIST_EMPTY(&s->active_list)) {
4167         aio_poll(qemu_get_aio_context(), true);
4168     }
4169 
4170     co = qemu_coroutine_create(virtfs_co_reset, &data);
4171     qemu_coroutine_enter(co);
4172 
4173     while (!data.done) {
4174         aio_poll(qemu_get_aio_context(), true);
4175     }
4176 }
4177 
4178 static void __attribute__((__constructor__)) v9fs_set_fd_limit(void)
4179 {
4180     struct rlimit rlim;
4181     if (getrlimit(RLIMIT_NOFILE, &rlim) < 0) {
4182         error_report("Failed to get the resource limit");
4183         exit(1);
4184     }
4185     open_fd_hw = rlim.rlim_cur - MIN(400, rlim.rlim_cur/3);
4186     open_fd_rc = rlim.rlim_cur/2;
4187 }
4188