2 * Copyright 2000, International Business Machines Corporation and others.
5 * This software has been released under the terms of the IBM Public
6 * License. For details, see the LICENSE file in the top-level source
7 * directory or online at http://www.openafs.org/dl/license10.html
17 #include <afsconfig.h>
18 #include "afs/param.h"
20 #include "afs/sysincludes.h" /* Standard vendor system headers */
21 #include "afsincludes.h" /* Afs-based standard headers */
22 #include "afs/afs_stats.h" /* statistics */
23 #include "afs/afs_cbqueue.h"
24 #include "afs/nfsclient.h"
25 #include "afs/exporter.h"
26 #include "afs/afs_osidnlc.h"
27 #include "afs/afs_dynroot.h"
29 extern struct vcache *afs_globalVp;
31 afs_int32 afs_bkvolpref = 0;
32 afs_int32 afs_bulkStatsDone;
33 static int bulkStatCounter = 0; /* counter for bulk stat seq. numbers */
34 int afs_fakestat_enable = 0; /* 1: fakestat-all, 2: fakestat-crosscell */
37 /* this would be faster if it did comparison as int32word, but would be
38 * dependant on byte-order and alignment, and I haven't figured out
39 * what "@sys" is in binary... */
40 #define AFS_EQ_ATSYS(name) (((name)[0]=='@')&&((name)[1]=='s')&&((name)[2]=='y')&&((name)[3]=='s')&&(!(name)[4]))
42 /* call under write lock, evaluate mvid field from a mt pt.
43 * avc is the vnode of the mount point object; must be write-locked.
44 * advc is the vnode of the containing directory (optional; if NULL and
45 * EvalMountPoint succeeds, caller must initialize *avolpp->dotdot)
46 * avolpp is where we return a pointer to the volume named by the mount pt, if success
47 * areq is the identity of the caller.
49 * NOTE: this function returns a held volume structure in *volpp if it returns 0!
52 EvalMountData(char type, char *data, afs_uint32 states, afs_uint32 cellnum,
53 struct volume **avolpp, struct vrequest *areq,
54 afs_uint32 *acellidxp, afs_uint32 *avolnump,
55 afs_uint32 *avnoidp, afs_uint32 *auniqp)
57 struct volume *tvp = 0;
60 char *cpos, *volnamep = NULL;
62 afs_int32 prefetch; /* 1=>None 2=>RO 3=>BK */
63 afs_int32 mtptCell, assocCell = 0, hac = 0;
64 afs_int32 samecell, roname, len;
65 afs_uint32 volid = 0, cellidx, vnoid = 0, uniq = 0;
67 /* Start by figuring out and finding the cell */
68 cpos = afs_strchr(data, ':'); /* if cell name present */
72 if ((afs_strtoi_r(data, &endptr, &cellnum) == 0) &&
74 tcell = afs_GetCell(cellnum, READ_LOCK);
76 tcell = afs_GetCellByName(data, READ_LOCK);
82 tcell = afs_GetCell(cellnum, READ_LOCK);
84 /* No cellname or cellnum; return ENODEV */
88 /* no cell found; return ENODEV */
92 cellidx = tcell->cellIndex;
93 mtptCell = tcell->cellNum; /* The cell for the mountpoint */
95 hac = 1; /* has associated cell */
96 assocCell = tcell->lcellp->cellNum; /* The associated cell */
98 afs_PutCell(tcell, READ_LOCK);
100 /* If there's nothing to look up, we can't proceed */
104 /* cell found. figure out volume */
105 cpos = afs_strchr(volnamep, ':');
109 /* Look for an all-numeric volume ID */
110 if ((afs_strtoi_r(volnamep, &endptr, &volid) == 0) &&
111 ((endptr == cpos) || (!*endptr)))
113 /* Ok. Is there a vnode and uniq? */
115 char *vnodep = (char *)(cpos + 1);
117 if ((!*vnodep) /* no vnode after colon */
118 || !(uniqp = afs_strchr(vnodep, ':')) /* no colon for uniq */
119 || (!*(++uniqp)) /* no uniq after colon */
120 || (afs_strtoi_r(vnodep, &endptr, &vnoid) != 0) /* bad vno */
121 || (*endptr != ':') /* bad vnode field */
122 || (afs_strtoi_r(uniqp, &endptr, &uniq) != 0) /* bad uniq */
123 || (*endptr)) /* anything after uniq */
126 /* sorry. vnode and uniq, or nothing */
134 * If the volume ID was all-numeric, and they didn't ask for a
135 * pointer to the volume structure, then just return the number
136 * as-is. This is currently only used for handling name lookups
137 * in the dynamic mount directory.
139 if (volid && !avolpp) {
146 * If the volume ID was all-numeric, and the type was '%', then
147 * assume whoever made the mount point knew what they were doing,
148 * and don't second-guess them by forcing use of a RW volume when
149 * they gave the ID of something else.
151 if (volid && type == '%') {
152 tfid.Fid.Volume = volid; /* remember BK volume */
153 tfid.Cell = mtptCell;
154 tvp = afs_GetVolume(&tfid, areq, WRITE_LOCK); /* get the new one */
155 if (cpos) /* one way or another we're done */
158 return ENODEV; /* afs_GetVolume failed; return ENODEV */
162 /* Is volume name a "<n>.backup" or "<n>.readonly" name */
163 len = strlen(volnamep);
164 roname = ((len > 9) && (strcmp(&volnamep[len - 9], ".readonly") == 0))
165 || ((len > 7) && (strcmp(&volnamep[len - 7], ".backup") == 0));
167 /* When we cross mountpoint, do we stay in the same cell */
168 samecell = (cellnum == mtptCell) || (hac && (cellnum == assocCell));
170 /* Decide whether to prefetch the BK, or RO. Also means we want the BK or
172 * If this is a regular mountpoint with a RW volume name
173 * - If BK preference is enabled AND we remain within the same cell AND
174 * start from a BK volume, then we will want to prefetch the BK volume.
175 * - If we cross a cell boundary OR start from a RO volume, then we will
176 * want to prefetch the RO volume.
178 if ((type == '#') && !roname) {
179 if (afs_bkvolpref && samecell && (states & CBackup))
180 prefetch = 3; /* Prefetch the BK */
181 else if (!samecell || (states & CRO))
182 prefetch = 2; /* Prefetch the RO */
184 prefetch = 1; /* Do not prefetch */
186 prefetch = 1; /* Do not prefetch */
189 /* Get the volume struct. Unless this volume name has ".readonly" or
190 * ".backup" in it, this will get the volume struct for the RW volume.
191 * The RO volume will be prefetched if requested (but not returned).
192 * Set up to use volname first.
194 tvp = afs_GetVolumeByName(volnamep, mtptCell, prefetch, areq, WRITE_LOCK);
196 /* If no volume was found in this cell, try the associated linked cell */
197 if (!tvp && hac && areq->volumeError) {
199 afs_GetVolumeByName(volnamep, assocCell, prefetch, areq,
203 /* Still not found. If we are looking for the RO, then perhaps the RW
204 * doesn't exist? Try adding ".readonly" to volname and look for that.
205 * Don't know why we do this. Would have still found it in above call - jpm.
207 if (!tvp && (prefetch == 2) && len < AFS_SMALLOCSIZ - 10) {
208 buf = (char *)osi_AllocSmallSpace(len + 10);
210 strcpy(buf, volnamep);
211 afs_strcat(buf, ".readonly");
213 tvp = afs_GetVolumeByName(buf, mtptCell, 1, areq, WRITE_LOCK);
215 /* Try the associated linked cell if failed */
216 if (!tvp && hac && areq->volumeError) {
217 tvp = afs_GetVolumeByName(buf, assocCell, 1, areq, WRITE_LOCK);
219 osi_FreeSmallSpace(buf);
221 /* done with volname */
225 return ENODEV; /* Couldn't find the volume */
229 /* Don't cross mountpoint from a BK to a BK volume */
230 if ((states & CBackup) && (tvp->states & VBackup)) {
231 afs_PutVolume(tvp, WRITE_LOCK);
235 /* If we want (prefetched) the BK and it exists, then drop the RW volume
237 * Otherwise, if we want (prefetched0 the RO and it exists, then drop the
238 * RW volume and get the RO.
239 * Otherwise, go with the RW.
241 if ((prefetch == 3) && tvp->backVol) {
242 tfid.Fid.Volume = tvp->backVol; /* remember BK volume */
243 tfid.Cell = tvp->cell;
244 afs_PutVolume(tvp, WRITE_LOCK); /* release old volume */
245 tvp = afs_GetVolume(&tfid, areq, WRITE_LOCK); /* get the new one */
247 return ENODEV; /* oops, can't do it */
248 } else if ((prefetch >= 2) && tvp->roVol) {
249 tfid.Fid.Volume = tvp->roVol; /* remember RO volume */
250 tfid.Cell = tvp->cell;
251 afs_PutVolume(tvp, WRITE_LOCK); /* release old volume */
252 tvp = afs_GetVolume(&tfid, areq, WRITE_LOCK); /* get the new one */
254 return ENODEV; /* oops, can't do it */
259 *acellidxp = cellidx;
269 afs_PutVolume(tvp, WRITE_LOCK);
274 EvalMountPoint(struct vcache *avc, struct vcache *advc,
275 struct volume **avolpp, struct vrequest *areq)
278 afs_uint32 avnoid, auniq;
280 AFS_STATCNT(EvalMountPoint);
282 if (avc->mvid && (avc->f.states & CMValid))
283 return 0; /* done while racing */
286 code = afs_HandleLink(avc, areq);
290 /* Determine which cell and volume the mointpoint goes to */
291 code = EvalMountData(avc->linkData[0], avc->linkData + 1,
292 avc->f.states, avc->f.fid.Cell, avolpp, areq, 0, 0,
294 if (code) return code;
304 (struct VenusFid *)osi_AllocSmallSpace(sizeof(struct VenusFid));
305 avc->mvid->Cell = (*avolpp)->cell;
306 avc->mvid->Fid.Volume = (*avolpp)->volume;
307 avc->mvid->Fid.Vnode = avnoid;
308 avc->mvid->Fid.Unique = auniq;
309 avc->f.states |= CMValid;
311 /* Used to: if the mount point is stored within a backup volume,
312 * then we should only update the parent pointer information if
313 * there's none already set, so as to avoid updating a volume's ..
314 * info with something in an OldFiles directory.
316 * Next two lines used to be under this if:
318 * if (!(avc->f.states & CBackup) || tvp->dotdot.Fid.Volume == 0)
320 * Now: update mount point back pointer on every call, so that we handle
321 * multiple mount points better. This way, when du tries to go back
322 * via chddir(".."), it will end up exactly where it started, yet
323 * cd'ing via a new path to a volume will reset the ".." pointer
326 (*avolpp)->mtpoint = avc->f.fid; /* setup back pointer to mtpoint */
329 (*avolpp)->dotdot = advc->f.fid;
337 * Must be called on an afs_fakestat_state object before calling
338 * afs_EvalFakeStat or afs_PutFakeStat. Calling afs_PutFakeStat
339 * without calling afs_EvalFakeStat is legal, as long as this
340 * function is called.
343 afs_InitFakeStat(struct afs_fakestat_state *state)
345 if (!afs_fakestat_enable)
350 state->need_release = 0;
354 * afs_EvalFakeStat_int
356 * The actual implementation of afs_EvalFakeStat and afs_TryEvalFakeStat,
357 * which is called by those wrapper functions.
359 * Only issues RPCs if canblock is non-zero.
362 afs_EvalFakeStat_int(struct vcache **avcp, struct afs_fakestat_state *state,
363 struct vrequest *areq, int canblock)
365 struct vcache *tvc, *root_vp;
366 struct volume *tvolp = NULL;
369 if (!afs_fakestat_enable)
372 osi_Assert(state->valid == 1);
373 osi_Assert(state->did_eval == 0);
377 if (tvc->mvstat != 1)
381 /* Is the call to VerifyVCache really necessary? */
382 code = afs_VerifyVCache(tvc, areq);
386 ObtainWriteLock(&tvc->lock, 599);
387 code = EvalMountPoint(tvc, NULL, &tvolp, areq);
388 ReleaseWriteLock(&tvc->lock);
392 tvolp->dotdot = tvc->f.fid;
393 tvolp->dotdot.Fid.Vnode = tvc->f.parent.vnode;
394 tvolp->dotdot.Fid.Unique = tvc->f.parent.unique;
397 if (tvc->mvid && (tvc->f.states & CMValid)) {
403 ObtainWriteLock(&afs_xvcache, 597);
404 root_vp = afs_FindVCache(tvc->mvid, &retry, IS_WLOCK);
405 if (root_vp && retry) {
406 ReleaseWriteLock(&afs_xvcache);
407 afs_PutVCache(root_vp);
409 } while (root_vp && retry);
410 ReleaseWriteLock(&afs_xvcache);
412 root_vp = afs_GetVCache(tvc->mvid, areq, NULL, NULL);
415 code = canblock ? ENOENT : 0;
418 #ifdef AFS_DARWIN80_ENV
419 root_vp->f.m.Type = VDIR;
421 code = afs_darwin_finalizevnode(root_vp, NULL, NULL, 0, 0);
424 vnode_ref(AFSTOV(root_vp));
426 if (tvolp && !afs_InReadDir(root_vp)) {
427 /* Is this always kosher? Perhaps we should instead use
428 * NBObtainWriteLock to avoid potential deadlock.
430 ObtainWriteLock(&root_vp->lock, 598);
432 root_vp->mvid = osi_AllocSmallSpace(sizeof(struct VenusFid));
433 *root_vp->mvid = tvolp->dotdot;
434 ReleaseWriteLock(&root_vp->lock);
436 state->need_release = 1;
437 state->root_vp = root_vp;
441 code = canblock ? ENOENT : 0;
446 afs_PutVolume(tvolp, WRITE_LOCK);
453 * Automatically does the equivalent of EvalMountPoint for vcache entries
454 * which are mount points. Remembers enough state to properly release
455 * the volume root vcache when afs_PutFakeStat() is called.
457 * State variable must be initialized by afs_InitFakeState() beforehand.
459 * Returns 0 when everything succeeds and *avcp points to the vcache entry
460 * that should be used for the real vnode operation. Returns non-zero if
461 * something goes wrong and the error code should be returned to the user.
464 afs_EvalFakeStat(struct vcache **avcp, struct afs_fakestat_state *state,
465 struct vrequest *areq)
467 return afs_EvalFakeStat_int(avcp, state, areq, 1);
471 * afs_TryEvalFakeStat
473 * Same as afs_EvalFakeStat, but tries not to talk to remote servers
474 * and only evaluate the mount point if all the data is already in
477 * Returns 0 if everything succeeds and *avcp points to a valid
478 * vcache entry (possibly evaluated).
481 afs_TryEvalFakeStat(struct vcache **avcp, struct afs_fakestat_state *state,
482 struct vrequest *areq)
484 return afs_EvalFakeStat_int(avcp, state, areq, 0);
490 * Perform any necessary cleanup at the end of a vnode op, given that
491 * afs_InitFakeStat was previously called with this state.
494 afs_PutFakeStat(struct afs_fakestat_state *state)
496 if (!afs_fakestat_enable)
499 osi_Assert(state->valid == 1);
500 if (state->need_release)
501 afs_PutVCache(state->root_vp);
506 afs_ENameOK(char *aname)
510 AFS_STATCNT(ENameOK);
511 tlen = strlen(aname);
512 if (tlen >= 4 && strcmp(aname + tlen - 4, "@sys") == 0)
518 afs_getsysname(struct vrequest *areq, struct vcache *adp,
519 char *bufp, int *num, char **sysnamelist[])
524 AFS_STATCNT(getsysname);
526 *sysnamelist = afs_sysnamelist;
528 if (!afs_nfsexporter)
529 strcpy(bufp, (*sysnamelist)[0]);
531 au = afs_GetUser(areq->uid, adp->f.fid.Cell, READ_LOCK);
533 error = EXP_SYSNAME(au->exporter, (char *)0, sysnamelist, num, 0);
535 strcpy(bufp, "@sys");
536 afs_PutUser(au, READ_LOCK);
539 strcpy(bufp, (*sysnamelist)[0]);
542 strcpy(bufp, afs_sysname);
543 afs_PutUser(au, READ_LOCK);
549 Check_AtSys(struct vcache *avc, const char *aname,
550 struct sysname_info *state, struct vrequest *areq)
553 char **sysnamelist[MAXNUMSYSNAMES];
555 if (AFS_EQ_ATSYS(aname)) {
557 state->name = (char *)osi_AllocLargeSpace(MAXSYSNAME);
560 afs_getsysname(areq, avc, state->name, &num, sysnamelist);
565 state->name = (char *)aname;
570 Next_AtSys(struct vcache *avc, struct vrequest *areq,
571 struct sysname_info *state)
573 int num = afs_sysnamecount;
574 char **sysnamelist[MAXNUMSYSNAMES];
576 if (state->index == -1)
577 return 0; /* No list */
579 /* Check for the initial state of aname != "@sys" in Check_AtSys */
580 if (state->offset == -1 && state->allocked == 0) {
583 /* Check for .*@sys */
584 for (tname = state->name; *tname; tname++)
585 /*Move to the end of the string */ ;
587 if ((tname > state->name + 4) && (AFS_EQ_ATSYS(tname - 4))) {
588 state->offset = (tname - 4) - state->name;
589 tname = (char *)osi_AllocLargeSpace(AFS_LRALLOCSIZ);
590 strncpy(tname, state->name, state->offset);
595 afs_getsysname(areq, avc, state->name + state->offset, &num,
599 return 0; /* .*@sys doesn't match either */
604 *sysnamelist = afs_sysnamelist;
606 if (afs_nfsexporter) {
607 au = afs_GetUser(areq->uid, avc->f.fid.Cell, READ_LOCK);
610 EXP_SYSNAME(au->exporter, (char *)0, sysnamelist, &num, 0);
612 afs_PutUser(au, READ_LOCK);
616 afs_PutUser(au, READ_LOCK);
618 if (++(state->index) >= num || !(*sysnamelist)[(unsigned int)state->index])
619 return 0; /* end of list */
621 strcpy(state->name + state->offset, (*sysnamelist)[(unsigned int)state->index]);
625 extern int BlobScan(struct dcache * afile, afs_int32 ablob);
627 /* called with an unlocked directory and directory cookie. Areqp
628 * describes who is making the call.
629 * Scans the next N (about 30, typically) directory entries, and does
630 * a bulk stat call to stat them all.
632 * Must be very careful when merging in RPC responses, since we dont
633 * want to overwrite newer info that was added by a file system mutating
634 * call that ran concurrently with our bulk stat call.
636 * We do that, as described below, by not merging in our info (always
637 * safe to skip the merge) if the status info is valid in the vcache entry.
639 * If adapt ever implements the bulk stat RPC, then this code will need to
640 * ensure that vcaches created for failed RPC's to older servers have the
643 static struct vcache *BStvc = NULL;
646 afs_DoBulkStat(struct vcache *adp, long dirCookie, struct vrequest *areqp)
648 int nentries; /* # of entries to prefetch */
649 int nskip; /* # of slots in the LRU queue to skip */
650 #ifdef AFS_DARWIN80_ENV
654 struct vcache *lruvcp; /* vcache ptr of our goal pos in LRU queue */
655 struct dcache *dcp; /* chunk containing the dir block */
656 afs_size_t temp; /* temp for holding chunk length, &c. */
657 struct AFSFid *fidsp; /* file IDs were collecting */
658 struct AFSCallBack *cbsp; /* call back pointers */
659 struct AFSCallBack *tcbp; /* temp callback ptr */
660 struct AFSFetchStatus *statsp; /* file status info */
661 struct AFSVolSync volSync; /* vol sync return info */
662 struct vcache *tvcp; /* temp vcp */
663 struct afs_q *tq; /* temp queue variable */
664 AFSCBFids fidParm; /* file ID parm for bulk stat */
665 AFSBulkStats statParm; /* stat info parm for bulk stat */
666 int fidIndex = 0; /* which file were stating */
667 struct afs_conn *tcp = 0; /* conn for call */
668 AFSCBs cbParm; /* callback parm for bulk stat */
669 struct server *hostp = 0; /* host we got callback from */
670 long startTime; /* time we started the call,
671 * for callback expiration base
673 int ftype[4] = {VNON, VREG, VDIR, VLNK}; /* verify type is as expected */
674 afs_size_t statSeqNo = 0; /* Valued of file size to detect races */
675 int code; /* error code */
676 long newIndex; /* new index in the dir */
677 struct DirBuffer entry; /* Buffer for dir manipulation */
678 struct DirEntry *dirEntryp; /* dir entry we are examining */
680 struct VenusFid afid; /* file ID we are using now */
681 struct VenusFid tfid; /* another temp. file ID */
682 afs_int32 retry; /* handle low-level SGI MP race conditions */
683 long volStates; /* flags from vol structure */
684 struct volume *volp = 0; /* volume ptr */
685 struct VenusFid dotdot = {0, {0, 0, 0}};
686 int flagIndex = 0; /* First file with bulk fetch flag set */
687 struct rx_connection *rxconn;
690 dotdot.Fid.Unique = 0;
691 dotdot.Fid.Vnode = 0;
693 /* first compute some basic parameters. We dont want to prefetch more
694 * than a fraction of the cache in any given call, and we want to preserve
695 * a portion of the LRU queue in any event, so as to avoid thrashing
696 * the entire stat cache (we will at least leave some of it alone).
697 * presently dont stat more than 1/8 the cache in any one call. */
698 nentries = afs_cacheStats / 8;
700 /* dont bother prefetching more than one calls worth of info */
701 if (nentries > AFSCBMAX)
704 /* heuristic to make sure that things fit in 4K. This means that
705 * we shouldnt make it any bigger than 47 entries. I am typically
706 * going to keep it a little lower, since we don't want to load
707 * too much of the stat cache.
712 /* now, to reduce the stack size, well allocate two 4K blocks,
713 * one for fids and callbacks, and one for stat info. Well set
714 * up our pointers to the memory from there, too.
716 statsp = (AFSFetchStatus *)
717 osi_Alloc(AFSCBMAX * sizeof(AFSFetchStatus));
718 fidsp = (AFSFid *) osi_AllocLargeSpace(nentries * sizeof(AFSFid));
719 cbsp = (AFSCallBack *)
720 osi_Alloc(AFSCBMAX * sizeof(AFSCallBack));
722 /* next, we must iterate over the directory, starting from the specified
723 * cookie offset (dirCookie), and counting out nentries file entries.
724 * We skip files that already have stat cache entries, since we
725 * dont want to bulk stat files that are already in the cache.
728 code = afs_VerifyVCache(adp, areqp);
732 dcp = afs_GetDCache(adp, (afs_size_t) 0, areqp, &temp, &temp, 1);
738 /* lock the directory cache entry */
739 ObtainReadLock(&adp->lock);
740 ObtainReadLock(&dcp->lock);
743 * Make sure that the data in the cache is current. There are two
744 * cases we need to worry about:
745 * 1. The cache data is being fetched by another process.
746 * 2. The cache data is no longer valid
748 while ((adp->f.states & CStatd)
749 && (dcp->dflags & DFFetching)
750 && hsame(adp->f.m.DataVersion, dcp->f.versionNo)) {
751 afs_Trace4(afs_iclSetp, CM_TRACE_DCACHEWAIT, ICL_TYPE_STRING,
752 __FILE__, ICL_TYPE_INT32, __LINE__, ICL_TYPE_POINTER, dcp,
753 ICL_TYPE_INT32, dcp->dflags);
754 ReleaseReadLock(&dcp->lock);
755 ReleaseReadLock(&adp->lock);
756 afs_osi_Sleep(&dcp->validPos);
757 ObtainReadLock(&adp->lock);
758 ObtainReadLock(&dcp->lock);
760 if (!(adp->f.states & CStatd)
761 || !hsame(adp->f.m.DataVersion, dcp->f.versionNo)) {
762 ReleaseReadLock(&dcp->lock);
763 ReleaseReadLock(&adp->lock);
768 /* Generate a sequence number so we can tell whether we should
769 * store the attributes when processing the response. This number is
770 * stored in the file size when we set the CBulkFetching bit. If the
771 * CBulkFetching is still set and this value hasn't changed, then
772 * we know we were the last to set CBulkFetching bit for this file,
773 * and it is safe to set the status information for this file.
775 statSeqNo = bulkStatCounter++;
776 /* ensure against wrapping */
778 statSeqNo = bulkStatCounter++;
780 /* now we have dir data in the cache, so scan the dir page */
783 while (1) { /* Should probably have some constant bound */
784 /* look for first safe entry to examine in the directory. BlobScan
785 * looks for a the 1st allocated dir after the dirCookie slot.
787 newIndex = BlobScan(dcp, (dirCookie >> 5));
791 /* remember the updated directory cookie */
792 dirCookie = newIndex << 5;
794 /* get a ptr to the dir entry */
795 code = afs_dir_GetBlob(dcp, newIndex, &entry);
798 dirEntryp = (struct DirEntry *)entry.data;
800 /* dont copy more than we have room for */
801 if (fidIndex >= nentries) {
806 /* now, if the dir entry looks good, copy it out to our list. Vnode
807 * 0 means deleted, although it should also be free were it deleted.
809 if (dirEntryp->fid.vnode != 0) {
810 /* dont copy entries we have in our cache. This check will
811 * also make us skip "." and probably "..", unless it has
812 * disappeared from the cache since we did our namei call.
814 tfid.Cell = adp->f.fid.Cell;
815 tfid.Fid.Volume = adp->f.fid.Fid.Volume;
816 tfid.Fid.Vnode = ntohl(dirEntryp->fid.vnode);
817 tfid.Fid.Unique = ntohl(dirEntryp->fid.vunique);
820 ObtainWriteLock(&afs_xvcache, 130);
821 tvcp = afs_FindVCache(&tfid, &retry, IS_WLOCK /* no stats | LRU */ );
823 ReleaseWriteLock(&afs_xvcache);
826 } while (tvcp && retry);
827 if (!tvcp) { /* otherwise, create manually */
828 tvcp = afs_NewBulkVCache(&tfid, hostp, statSeqNo);
831 ObtainWriteLock(&tvcp->lock, 505);
832 #ifdef AFS_DARWIN80_ENV
833 /* use even/odd hack to guess file versus dir.
834 let links be reaped. oh well. */
835 if (dirEntryp->fid.vnode & 1)
836 tvcp->f.m.Type = VDIR;
838 tvcp->f.m.Type = VREG;
839 /* finalize to a best guess */
840 afs_darwin_finalizevnode(tvcp, VTOAFS(adp), NULL, 0, 1);
841 /* re-acquire usecount that finalizevnode disposed of */
842 vnode_ref(AFSTOV(tvcp));
844 ReleaseWriteLock(&afs_xvcache);
845 afs_RemoveVCB(&tfid);
846 ReleaseWriteLock(&tvcp->lock);
848 ReleaseWriteLock(&afs_xvcache);
851 ReleaseWriteLock(&afs_xvcache);
856 ReleaseReadLock(&dcp->lock);
857 ReleaseReadLock(&adp->lock);
859 goto done; /* can happen if afs_NewVCache fails */
862 /* WARNING: afs_DoBulkStat uses the Length field to store a
863 * sequence number for each bulk status request. Under no
864 * circumstances should afs_DoBulkStat store a sequence number
865 * if the new length will be ignored when afs_ProcessFS is
866 * called with new stats. */
868 if (!(tvcp->f.states & CStatd)
869 && (!((tvcp->f.states & CBulkFetching) &&
870 (tvcp->f.m.Length != statSeqNo)))
871 && (tvcp->execsOrWriters <= 0)
872 && !afs_DirtyPages(tvcp)
873 && !AFS_VN_MAPPED((vnode_t *) tvcp))
875 if (!(tvcp->f.states & CStatd)
876 && (!((tvcp->f.states & CBulkFetching) &&
877 (tvcp->f.m.Length != statSeqNo)))
878 && (tvcp->execsOrWriters <= 0)
879 && !afs_DirtyPages(tvcp))
883 /* this entry doesnt exist in the cache, and is not
884 * already being fetched by someone else, so add it to the
885 * list of file IDs to obtain.
887 * We detect a callback breaking race condition by checking the
888 * CBulkFetching state bit and the value in the file size.
889 * It is safe to set the status only if the CBulkFetching
890 * flag is still set and the value in the file size does
891 * not change. NewBulkVCache sets us up for the new ones.
892 * Set up the rest here.
894 * Don't fetch status for dirty files. We need to
895 * preserve the value of the file size. We could
896 * flush the pages, but it wouldn't be worthwhile.
898 if (!(tvcp->f.states & CBulkFetching)) {
899 tvcp->f.states |= CBulkFetching;
900 tvcp->f.m.Length = statSeqNo;
902 memcpy((char *)(fidsp + fidIndex), (char *)&tfid.Fid,
909 /* if dir vnode has non-zero entry */
910 /* move to the next dir entry by adding in the # of entries
911 * used by this dir entry.
913 temp = afs_dir_NameBlobs(dirEntryp->name) << 5;
918 } /* while loop over all dir entries */
920 /* now release the dir lock and prepare to make the bulk RPC */
921 ReleaseReadLock(&dcp->lock);
922 ReleaseReadLock(&adp->lock);
924 /* release the chunk */
927 /* dont make a null call */
932 /* setup the RPC parm structures */
933 fidParm.AFSCBFids_len = fidIndex;
934 fidParm.AFSCBFids_val = fidsp;
935 statParm.AFSBulkStats_len = fidIndex;
936 statParm.AFSBulkStats_val = statsp;
937 cbParm.AFSCBs_len = fidIndex;
938 cbParm.AFSCBs_val = cbsp;
940 /* start the timer; callback expirations are relative to this */
941 startTime = osi_Time();
943 tcp = afs_Conn(&adp->f.fid, areqp, SHARED_LOCK, &rxconn);
945 hostp = tcp->parent->srvr->server;
947 for (i = 0; i < fidIndex; i++) {
948 /* we must set tvcp->callback before the BulkStatus call, so
949 * we can detect concurrent InitCallBackState's */
951 afid.Cell = adp->f.fid.Cell;
952 afid.Fid.Volume = adp->f.fid.Fid.Volume;
953 afid.Fid.Vnode = fidsp[i].Vnode;
954 afid.Fid.Unique = fidsp[i].Unique;
958 ObtainReadLock(&afs_xvcache);
959 tvcp = afs_FindVCache(&afid, &retry, 0 /* !stats&!lru */);
960 ReleaseReadLock(&afs_xvcache);
961 } while (tvcp && retry);
967 if ((tvcp->f.states & CBulkFetching) &&
968 (tvcp->f.m.Length == statSeqNo)) {
969 tvcp->callback = hostp;
976 XSTATS_START_TIME(AFS_STATS_FS_RPCIDX_BULKSTATUS);
978 if (!(tcp->parent->srvr->server->flags & SNO_INLINEBULK)) {
981 RXAFS_InlineBulkStatus(rxconn, &fidParm, &statParm,
984 if (code == RXGEN_OPCODE) {
985 tcp->parent->srvr->server->flags |= SNO_INLINEBULK;
988 RXAFS_BulkStatus(rxconn, &fidParm, &statParm,
992 /* The InlineBulkStatus call itself succeeded, but we
993 * may have failed to stat the first entry. Use the error
994 * from the first entry for processing. */
995 code = (&statsp[0])->errorCode;
1000 RXAFS_BulkStatus(rxconn, &fidParm, &statParm, &cbParm,
1007 } while (afs_Analyze
1008 (tcp, rxconn, code, &adp->f.fid, areqp, AFS_STATS_FS_RPCIDX_BULKSTATUS,
1009 SHARED_LOCK, NULL));
1011 /* now, if we didnt get the info, bail out. */
1015 /* we need vol flags to create the entries properly */
1016 dotdot.Fid.Volume = 0;
1017 volp = afs_GetVolume(&adp->f.fid, areqp, READ_LOCK);
1019 volStates = volp->states;
1020 if (volp->dotdot.Fid.Volume != 0)
1021 dotdot = volp->dotdot;
1025 /* find the place to merge the info into We do this by skipping
1026 * nskip entries in the LRU queue. The more we skip, the more
1027 * we preserve, since the head of the VLRU queue is the most recently
1031 nskip = afs_cacheStats / 2; /* preserved fraction of the cache */
1032 ObtainReadLock(&afs_xvcache);
1033 #ifdef AFS_DARWIN80_ENV
1036 if (QEmpty(&VLRU)) {
1037 /* actually a serious error, probably should panic. Probably will
1038 * panic soon, oh well. */
1039 ReleaseReadLock(&afs_xvcache);
1040 afs_warnuser("afs_DoBulkStat: VLRU empty!");
1043 if ((VLRU.next->prev != &VLRU) || (VLRU.prev->next != &VLRU)) {
1044 refpanic("Bulkstat VLRU inconsistent");
1046 for (tq = VLRU.next; tq != &VLRU; tq = QNext(tq)) {
1048 #ifdef AFS_DARWIN80_ENV
1049 if ((!(QTOV(tq)->f.states & CDeadVnode)&&!(QTOV(tq)->f.states & CVInit)))
1053 if (QNext(QPrev(tq)) != tq) {
1055 refpanic("BulkStat VLRU inconsistent");
1061 lruvcp = QTOV(VLRU.next);
1063 /* now we have to hold this entry, so that it does not get moved
1064 * into the free list while we're running. It could still get
1065 * moved within the lru queue, but hopefully that will be rare; it
1066 * doesn't hurt nearly as much.
1069 #ifdef AFS_DARWIN80_ENV
1070 if (((lruvcp->f.states & CDeadVnode)||(lruvcp->f.states & CVInit))) {
1076 panic("Can't find non-dead vnode in VLRU\n");
1078 lruvp = AFSTOV(lruvcp);
1079 if (vnode_get(lruvp)) /* this bumps ref count */
1081 else if (vnode_ref(lruvp)) {
1083 /* AFSTOV(lruvcp) may be NULL */
1089 osi_vnhold(lruvcp, &retry);
1091 ReleaseReadLock(&afs_xvcache); /* could be read lock */
1095 /* otherwise, merge in the info. We have to be quite careful here,
1096 * since we need to ensure that we don't merge old info over newer
1097 * stuff in a stat cache entry. We're very conservative here: we don't
1098 * do the merge at all unless we ourselves create the stat cache
1099 * entry. That's pretty safe, and should work pretty well, since we
1100 * typically expect to do the stat cache creation ourselves.
1102 * We also have to take into account racing token revocations.
1104 for (i = 0; i < fidIndex; i++) {
1105 if ((&statsp[i])->errorCode)
1107 afid.Cell = adp->f.fid.Cell;
1108 afid.Fid.Volume = adp->f.fid.Fid.Volume;
1109 afid.Fid.Vnode = fidsp[i].Vnode;
1110 afid.Fid.Unique = fidsp[i].Unique;
1113 ObtainReadLock(&afs_xvcache);
1114 tvcp = afs_FindVCache(&afid, &retry, 0/* !stats&!lru */);
1115 ReleaseReadLock(&afs_xvcache);
1116 } while (tvcp && retry);
1118 /* The entry may no longer exist */
1123 /* now we have the entry held, but we need to fill it in */
1124 ObtainWriteLock(&tvcp->lock, 131);
1126 /* if CBulkFetching is not set, or if the file size no longer
1127 * matches the value we placed there when we set the CBulkFetching
1128 * flag, then someone else has done something with this node,
1129 * and we may not have the latest status information for this
1130 * file. Leave the entry alone. There's also a file type
1131 * change here, for OSX bulkstat support.
1133 if (!(tvcp->f.states & CBulkFetching)
1134 || (tvcp->f.m.Length != statSeqNo)
1135 || (ftype[(&statsp[i])->FileType] != vType(tvcp))) {
1137 ReleaseWriteLock(&tvcp->lock);
1138 afs_PutVCache(tvcp);
1142 /* now copy ".." entry back out of volume structure, if necessary */
1143 if (tvcp->mvstat == 2 && (dotdot.Fid.Volume != 0)) {
1145 tvcp->mvid = (struct VenusFid *)
1146 osi_AllocSmallSpace(sizeof(struct VenusFid));
1147 *tvcp->mvid = dotdot;
1150 #ifdef AFS_DARWIN80_ENV
1151 if (((lruvcp->f.states & CDeadVnode)||(lruvcp->f.states & CVInit)))
1152 panic("vlru control point went dead\n");
1155 ObtainWriteLock(&afs_xvcache, 132);
1156 if ((VLRU.next->prev != &VLRU) || (VLRU.prev->next != &VLRU)) {
1157 refpanic("Bulkstat VLRU inconsistent2");
1159 if ((QNext(QPrev(&tvcp->vlruq)) != &tvcp->vlruq)
1160 || (QPrev(QNext(&tvcp->vlruq)) != &tvcp->vlruq)) {
1161 refpanic("Bulkstat VLRU inconsistent4");
1163 if ((QNext(QPrev(&lruvcp->vlruq)) != &lruvcp->vlruq)
1164 || (QPrev(QNext(&lruvcp->vlruq)) != &lruvcp->vlruq)) {
1165 refpanic("Bulkstat VLRU inconsistent5");
1168 if (tvcp != lruvcp) { /* if they are == don't move it, don't corrupt vlru */
1169 QRemove(&tvcp->vlruq);
1170 QAdd(&lruvcp->vlruq, &tvcp->vlruq);
1173 if ((VLRU.next->prev != &VLRU) || (VLRU.prev->next != &VLRU)) {
1174 refpanic("Bulkstat VLRU inconsistent3");
1176 if ((QNext(QPrev(&tvcp->vlruq)) != &tvcp->vlruq)
1177 || (QPrev(QNext(&tvcp->vlruq)) != &tvcp->vlruq)) {
1178 refpanic("Bulkstat VLRU inconsistent5");
1180 if ((QNext(QPrev(&lruvcp->vlruq)) != &lruvcp->vlruq)
1181 || (QPrev(QNext(&lruvcp->vlruq)) != &lruvcp->vlruq)) {
1182 refpanic("Bulkstat VLRU inconsistent6");
1184 ReleaseWriteLock(&afs_xvcache);
1186 ObtainWriteLock(&afs_xcbhash, 494);
1188 /* We need to check the flags again. We may have missed
1189 * something while we were waiting for a lock.
1191 if (!(tvcp->f.states & CBulkFetching) || (tvcp->f.m.Length != statSeqNo)) {
1193 ReleaseWriteLock(&tvcp->lock);
1194 ReleaseWriteLock(&afs_xcbhash);
1195 afs_PutVCache(tvcp);
1199 /* now merge in the resulting status back into the vnode.
1200 * We only do this if the entry looks clear.
1202 afs_ProcessFS(tvcp, &statsp[i], areqp);
1203 #if defined(AFS_LINUX22_ENV)
1204 afs_fill_inode(AFSTOV(tvcp), NULL); /* reset inode operations */
1207 /* do some accounting for bulk stats: mark this entry as
1208 * loaded, so we can tell if we use it before it gets
1211 tvcp->f.states |= CBulkStat;
1212 tvcp->f.states &= ~CBulkFetching;
1214 afs_bulkStatsDone++;
1216 /* merge in vol info */
1217 if (volStates & VRO)
1218 tvcp->f.states |= CRO;
1219 if (volStates & VBackup)
1220 tvcp->f.states |= CBackup;
1221 if (volStates & VForeign)
1222 tvcp->f.states |= CForeign;
1224 /* merge in the callback info */
1225 tvcp->f.states |= CTruth;
1227 /* get ptr to the callback we are interested in */
1230 if (tcbp->ExpirationTime != 0) {
1231 tvcp->cbExpires = tcbp->ExpirationTime + startTime;
1232 tvcp->callback = hostp;
1233 tvcp->f.states |= CStatd;
1234 afs_QueueCallback(tvcp, CBHash(tcbp->ExpirationTime), volp);
1235 } else if (tvcp->f.states & CRO) {
1236 /* ordinary callback on a read-only volume -- AFS 3.2 style */
1237 tvcp->cbExpires = 3600 + startTime;
1238 tvcp->callback = hostp;
1239 tvcp->f.states |= CStatd;
1240 afs_QueueCallback(tvcp, CBHash(3600), volp);
1243 tvcp->f.states &= ~(CStatd | CUnique);
1244 afs_DequeueCallback(tvcp);
1245 if ((tvcp->f.states & CForeign) || (vType(tvcp) == VDIR))
1246 osi_dnlc_purgedp(tvcp); /* if it (could be) a directory */
1248 #ifdef AFS_DARWIN80_ENV
1249 /* reclaim->FlushVCache will need xcbhash */
1250 if (((tvcp->f.states & CDeadVnode)||(tvcp->f.states & CVInit))) {
1251 ReleaseWriteLock(&afs_xcbhash);
1252 /* passing in a parent hangs getting the vnode lock */
1253 code = afs_darwin_finalizevnode(tvcp, NULL, NULL, 0, 1);
1255 /* It's gonna get recycled - shouldn't happen */
1257 tvcp->f.states &= ~(CStatd | CUnique);
1258 afs_DequeueCallback(tvcp);
1259 if ((tvcp->f.states & CForeign) || (vType(tvcp) == VDIR))
1260 osi_dnlc_purgedp(tvcp); /* if it (could be) a directory */
1262 /* re-acquire the usecount that finalizevnode disposed of */
1263 vnode_ref(AFSTOV(tvcp));
1266 ReleaseWriteLock(&afs_xcbhash);
1268 ReleaseWriteLock(&tvcp->lock);
1269 /* finally, we're done with the entry */
1270 afs_PutVCache(tvcp);
1271 } /* for all files we got back */
1273 /* finally return the pointer into the LRU queue */
1274 #ifdef AFS_DARWIN80_ENV
1275 if (((lruvcp->f.states & CDeadVnode)||(lruvcp->f.states & CVInit)))
1276 panic("vlru control point went dead before put\n");
1282 afs_PutVCache(lruvcp);
1286 /* Be sure to turn off the CBulkFetching flags */
1287 for (i = flagIndex; i < fidIndex; i++) {
1288 afid.Cell = adp->f.fid.Cell;
1289 afid.Fid.Volume = adp->f.fid.Fid.Volume;
1290 afid.Fid.Vnode = fidsp[i].Vnode;
1291 afid.Fid.Unique = fidsp[i].Unique;
1294 ObtainReadLock(&afs_xvcache);
1295 tvcp = afs_FindVCache(&afid, &retry, 0 /* !stats&!lru */);
1296 ReleaseReadLock(&afs_xvcache);
1297 } while (tvcp && retry);
1299 if ((tvcp->f.states & CBulkFetching)
1300 && (tvcp->f.m.Length == statSeqNo)) {
1301 tvcp->f.states &= ~CBulkFetching;
1303 afs_PutVCache(tvcp);
1307 afs_PutVolume(volp, READ_LOCK);
1310 osi_FreeLargeSpace((char *)fidsp);
1311 osi_Free((char *)statsp, AFSCBMAX * sizeof(AFSFetchStatus));
1312 osi_Free((char *)cbsp, AFSCBMAX * sizeof(AFSCallBack));
1316 /* was: (AFS_DEC_ENV) || defined(AFS_OSF30_ENV) || defined(AFS_NCR_ENV) */
1317 #ifdef AFS_DARWIN80_ENV
1320 static int AFSDOBULK = 1;
1324 osi_lookup_isdot(const char *aname)
1328 /* in Solaris, we can get passed "" as a path component if we are the
1329 * root directory, e.g. after a call to chroot. It is equivalent to
1333 #endif /* AFS_SUN5_ENV */
1334 if (aname[0] == '.' && !aname[1]) {
1341 #if defined(AFS_SUN5_ENV) || defined(AFS_SGI_ENV)
1342 afs_lookup(OSI_VC_DECL(adp), char *aname, struct vcache **avcp, struct pathname *pnp, int flags, struct vnode *rdir, afs_ucred_t *acred)
1343 #elif defined(UKERNEL)
1344 afs_lookup(OSI_VC_DECL(adp), char *aname, struct vcache **avcp, afs_ucred_t *acred, int flags)
1346 afs_lookup(OSI_VC_DECL(adp), char *aname, struct vcache **avcp, afs_ucred_t *acred)
1349 struct vrequest treq;
1351 struct vcache *tvc = 0;
1353 afs_int32 bulkcode = 0;
1354 int pass = 0, hit = 0;
1355 int force_eval = afs_fakestat_enable ? 0 : 1;
1357 extern afs_int32 afs_mariner; /*Writing activity to log? */
1358 afs_hyper_t versionNo;
1359 int no_read_access = 0;
1360 struct sysname_info sysState; /* used only for @sys checking */
1361 int dynrootRetry = 1;
1362 struct afs_fakestat_state fakestate;
1363 int tryEvalOnly = 0;
1364 OSI_VC_CONVERT(adp);
1366 AFS_STATCNT(afs_lookup);
1367 afs_InitFakeStat(&fakestate);
1371 if ((code = afs_InitReq(&treq, acred)))
1374 if (afs_fakestat_enable && adp->mvstat == 1) {
1375 if (strcmp(aname, ".directory") == 0)
1379 #if defined(AFS_DARWIN_ENV)
1380 /* Workaround for MacOSX Finder, which tries to look for
1381 * .DS_Store and Contents under every directory.
1383 if (afs_fakestat_enable && adp->mvstat == 1) {
1384 if (strcmp(aname, ".DS_Store") == 0)
1386 if (strcmp(aname, "Contents") == 0)
1389 if (afs_fakestat_enable && adp->mvstat == 2) {
1390 if (strncmp(aname, "._", 2) == 0)
1396 code = afs_TryEvalFakeStat(&adp, &fakestate, &treq);
1398 code = afs_EvalFakeStat(&adp, &fakestate, &treq);
1400 /*printf("Code is %d\n", code);*/
1402 if (tryEvalOnly && adp->mvstat == 1)
1407 *avcp = NULL; /* Since some callers don't initialize it */
1409 /* come back to here if we encounter a non-existent object in a read-only
1410 * volume's directory */
1413 *avcp = NULL; /* Since some callers don't initialize it */
1416 if (!(adp->f.states & CStatd) && !afs_InReadDir(adp)) {
1417 if ((code = afs_VerifyVCache2(adp, &treq))) {
1423 /* watch for ".." in a volume root */
1424 if (adp->mvstat == 2 && aname[0] == '.' && aname[1] == '.' && !aname[2]) {
1425 /* looking up ".." in root via special hacks */
1426 if (adp->mvid == (struct VenusFid *)0 || adp->mvid->Fid.Volume == 0) {
1430 /* otherwise we have the fid here, so we use it */
1431 /*printf("Getting vcache\n");*/
1432 tvc = afs_GetVCache(adp->mvid, &treq, NULL, NULL);
1433 afs_Trace3(afs_iclSetp, CM_TRACE_GETVCDOTDOT, ICL_TYPE_FID, adp->mvid,
1434 ICL_TYPE_POINTER, tvc, ICL_TYPE_INT32, code);
1436 code = (tvc ? 0 : ENOENT);
1438 if (tvc && !VREFCOUNT_GT(tvc, 0)) {
1442 /*printf("LOOKUP GETVCDOTDOT -> %d\n", code); */
1447 /* now check the access */
1448 if (treq.uid != adp->last_looker) {
1449 if (!afs_AccessOK(adp, PRSFS_LOOKUP, &treq, CHECK_MODE_BITS)) {
1454 adp->last_looker = treq.uid;
1457 /* Check for read access as well. We need read access in order to
1458 * stat files, but not to stat subdirectories. */
1459 if (!afs_AccessOK(adp, PRSFS_READ, &treq, CHECK_MODE_BITS))
1462 /* special case lookup of ".". Can we check for it sooner in this code,
1463 * for instance, way up before "redo:" ??
1464 * I'm not fiddling with the LRUQ here, either, perhaps I should, or else
1465 * invent a lightweight version of GetVCache.
1467 if (osi_lookup_isdot(aname)) { /* special case */
1468 ObtainReadLock(&afs_xvcache);
1470 ReleaseReadLock(&afs_xvcache);
1471 #ifdef AFS_DARWIN80_ENV
1472 vnode_get(AFSTOV(adp));
1477 if (adp && !VREFCOUNT_GT(adp, 0)) {
1484 * Special case lookup of ".." in the dynamic mount directory.
1485 * The parent of this directory is _always_ the AFS root volume.
1487 if (afs_IsDynrootMount(adp) &&
1488 aname[0] == '.' && aname[1] == '.' && !aname[2]) {
1490 ObtainReadLock(&afs_xvcache);
1491 osi_vnhold(afs_globalVp, 0);
1492 ReleaseReadLock(&afs_xvcache);
1493 #ifdef AFS_DARWIN80_ENV
1494 vnode_get(AFSTOV(afs_globalVp));
1497 *avcp = tvc = afs_globalVp;
1503 * Special case lookups in the dynamic mount directory.
1504 * The names here take the form cell:volume, similar to a mount point.
1505 * EvalMountData parses that and returns a cell and volume ID, which
1506 * we use to construct the appropriate dynroot Fid.
1508 if (afs_IsDynrootMount(adp)) {
1509 struct VenusFid tfid;
1510 afs_uint32 cellidx, volid, vnoid, uniq;
1512 code = EvalMountData('%', aname, 0, 0, NULL, &treq, &cellidx, &volid, &vnoid, &uniq);
1515 /* If a vnode was returned, it's not a real mount point */
1517 struct cell *tcell = afs_GetCellByIndex(cellidx, READ_LOCK);
1518 tfid.Cell = tcell->cellNum;
1519 afs_PutCell(tcell, READ_LOCK);
1520 tfid.Fid.Vnode = vnoid;
1521 tfid.Fid.Volume = volid;
1522 tfid.Fid.Unique = uniq;
1524 afs_GetDynrootMountFid(&tfid);
1525 tfid.Fid.Vnode = VNUM_FROM_TYPEID(VN_TYPE_MOUNT, cellidx << 2);
1526 tfid.Fid.Unique = volid;
1528 *avcp = tvc = afs_GetVCache(&tfid, &treq, NULL, NULL);
1529 code = (tvc ? 0 : ENOENT);
1534 #ifdef AFS_LINUX26_ENV
1536 * Special case of the dynamic mount volume in a static root.
1537 * This is really unfortunate, but we need this for the translator.
1539 if (adp == afs_globalVp && !afs_GetDynrootEnable() &&
1540 !strcmp(aname, AFS_DYNROOT_MOUNTNAME)) {
1541 struct VenusFid tfid;
1543 afs_GetDynrootMountFid(&tfid);
1544 *avcp = tvc = afs_GetVCache(&tfid, &treq, NULL, NULL);
1551 Check_AtSys(adp, aname, &sysState, &treq);
1552 tname = sysState.name;
1554 /* 1st Check_AtSys and lookup by tname is required here, for now,
1555 * because the dnlc is *not* told to remove entries for the parent
1556 * dir of file/dir op that afs_LocalHero likes, but dnlc is informed
1557 * if the cached entry for the parent dir is invalidated for a
1559 * Otherwise, we'd be able to do a dnlc lookup on an entry ending
1560 * w/@sys and know the dnlc was consistent with reality. */
1561 tvc = osi_dnlc_lookup(adp, tname, WRITE_LOCK);
1562 *avcp = tvc; /* maybe wasn't initialized, but it is now */
1564 if (no_read_access && vType(tvc) != VDIR && vType(tvc) != VLNK) {
1565 /* need read access on dir to stat non-directory / non-link */
1571 #ifdef AFS_LINUX22_ENV
1572 if (tvc->mvstat == 2) { /* we don't trust the dnlc for root vcaches */
1573 AFS_RELE(AFSTOV(tvc));
1580 #else /* non - LINUX */
1584 #endif /* linux22 */
1587 { /* sub-block just to reduce stack usage */
1589 afs_size_t dirOffset, dirLen;
1590 struct VenusFid tfid;
1592 /* now we have to lookup the next fid */
1593 if (afs_InReadDir(adp))
1594 tdc = adp->dcreaddir;
1596 tdc = afs_GetDCache(adp, (afs_size_t) 0, &treq,
1597 &dirOffset, &dirLen, 1);
1599 *avcp = NULL; /* redundant, but harmless */
1604 /* now we will just call dir package with appropriate inode.
1605 * Dirs are always fetched in their entirety for now */
1606 ObtainReadLock(&adp->lock);
1607 ObtainReadLock(&tdc->lock);
1610 * Make sure that the data in the cache is current. There are two
1611 * cases we need to worry about:
1612 * 1. The cache data is being fetched by another process.
1613 * 2. The cache data is no longer valid
1615 * If a readdir is in progress _in this thread_, it has a shared
1616 * lock on the vcache and has obtained current data, so we just
1617 * use that. This eliminates several possible deadlocks.
1619 if (!afs_InReadDir(adp)) {
1620 while ((adp->f.states & CStatd)
1621 && (tdc->dflags & DFFetching)
1622 && hsame(adp->f.m.DataVersion, tdc->f.versionNo)) {
1623 ReleaseReadLock(&tdc->lock);
1624 ReleaseReadLock(&adp->lock);
1625 afs_osi_Sleep(&tdc->validPos);
1626 ObtainReadLock(&adp->lock);
1627 ObtainReadLock(&tdc->lock);
1629 if (!(adp->f.states & CStatd)
1630 || !hsame(adp->f.m.DataVersion, tdc->f.versionNo)) {
1631 ReleaseReadLock(&tdc->lock);
1632 ReleaseReadLock(&adp->lock);
1634 if (tname && tname != aname)
1635 osi_FreeLargeSpace(tname);
1640 /* Save the version number for when we call osi_dnlc_enter */
1641 hset(versionNo, tdc->f.versionNo);
1644 * check for, and handle "@sys" if it's there. We should be able
1645 * to avoid the alloc and the strcpy with a little work, but it's
1646 * not pressing. If there aren't any remote users (ie, via the
1647 * NFS translator), we have a slightly easier job.
1648 * the faster way to do this is to check for *aname == '@' and if
1649 * it's there, check for @sys, otherwise, assume there's no @sys
1650 * then, if the lookup fails, check for .*@sys...
1652 /* above now implemented by Check_AtSys and Next_AtSys */
1654 /* lookup the name in the appropriate dir, and return a cache entry
1655 * on the resulting fid */
1657 afs_dir_LookupOffset(tdc, sysState.name, &tfid.Fid,
1660 /* If the first lookup doesn't succeed, maybe it's got @sys in the name */
1661 while (code == ENOENT && Next_AtSys(adp, &treq, &sysState))
1663 afs_dir_LookupOffset(tdc, sysState.name, &tfid.Fid,
1665 tname = sysState.name;
1667 ReleaseReadLock(&tdc->lock);
1668 if (!afs_InReadDir(adp))
1670 if (code == ENOENT && afs_IsDynroot(adp) && dynrootRetry && !tryEvalOnly) {
1672 char *cn = (tname[0] == '.') ? tname + 1 : tname;
1673 ReleaseReadLock(&adp->lock);
1674 /* confirm it's not just hushed */
1675 tc = afs_GetCellByName(cn, WRITE_LOCK);
1677 if (tc->states & CHush) {
1678 tc->states &= ~CHush;
1679 ReleaseWriteLock(&tc->lock);
1680 afs_DynrootInvalidate();
1683 ReleaseWriteLock(&tc->lock);
1685 /* Allow a second dynroot retry if the cell was hushed before */
1687 if (tname[0] == '.')
1688 afs_LookupAFSDB(tname + 1);
1690 afs_LookupAFSDB(tname);
1691 if (tname && tname != aname)
1692 osi_FreeLargeSpace(tname);
1695 ReleaseReadLock(&adp->lock);
1698 /* new fid has same cell and volume */
1699 tfid.Cell = adp->f.fid.Cell;
1700 tfid.Fid.Volume = adp->f.fid.Fid.Volume;
1701 afs_Trace4(afs_iclSetp, CM_TRACE_LOOKUP, ICL_TYPE_POINTER, adp,
1702 ICL_TYPE_STRING, tname, ICL_TYPE_FID, &tfid,
1703 ICL_TYPE_INT32, code);
1706 if (code != ENOENT) {
1707 /*printf("LOOKUP dirLookupOff -> %d\n", code);*/
1712 /* prefetch some entries, if the dir is currently open. The variable
1713 * dirCookie tells us where to start prefetching from.
1715 if (!AFS_IS_DISCONNECTED &&
1716 AFSDOBULK && adp->opens > 0 && !(adp->f.states & CForeign)
1717 && !afs_IsDynroot(adp) && !afs_InReadDir(adp)) {
1719 /* if the entry is not in the cache, or is in the cache,
1720 * but hasn't been statd, then do a bulk stat operation.
1724 ObtainReadLock(&afs_xvcache);
1725 tvc = afs_FindVCache(&tfid, &retry, 0 /* !stats,!lru */ );
1726 ReleaseReadLock(&afs_xvcache);
1727 } while (tvc && retry);
1729 if (!tvc || !(tvc->f.states & CStatd))
1730 bulkcode = afs_DoBulkStat(adp, dirCookie, &treq);
1734 /* if the vcache isn't usable, release it */
1735 if (tvc && !(tvc->f.states & CStatd)) {
1744 /* now get the status info, if we don't already have it */
1745 /* This is kind of weird, but we might wind up accidentally calling
1746 * RXAFS_Lookup because we happened upon a file which legitimately
1747 * has a 0 uniquifier. That is the result of allowing unique to wrap
1748 * to 0. This was fixed in AFS 3.4. For CForeign, Unique == 0 means that
1749 * the file has not yet been looked up.
1752 afs_int32 cached = 0;
1753 if (!tfid.Fid.Unique && (adp->f.states & CForeign)) {
1754 tvc = afs_LookupVCache(&tfid, &treq, &cached, adp, tname);
1756 if (!tvc && !bulkcode) { /* lookup failed or wasn't called */
1757 tvc = afs_GetVCache(&tfid, &treq, &cached, NULL);
1760 } /* sub-block just to reduce stack usage */
1763 if (adp->f.states & CForeign)
1764 tvc->f.states |= CForeign;
1765 tvc->f.parent.vnode = adp->f.fid.Fid.Vnode;
1766 tvc->f.parent.unique = adp->f.fid.Fid.Unique;
1767 tvc->f.states &= ~CBulkStat;
1769 if (afs_fakestat_enable == 2 && tvc->mvstat == 1) {
1770 ObtainSharedLock(&tvc->lock, 680);
1771 if (!tvc->linkData) {
1772 UpgradeSToWLock(&tvc->lock, 681);
1773 code = afs_HandleLink(tvc, &treq);
1774 ConvertWToRLock(&tvc->lock);
1776 ConvertSToRLock(&tvc->lock);
1779 if (!code && !afs_strchr(tvc->linkData, ':'))
1781 ReleaseReadLock(&tvc->lock);
1783 if (tvc->mvstat == 1 && (tvc->f.states & CMValid) && tvc->mvid != NULL)
1784 force_eval = 1; /* This is now almost for free, get it correct */
1786 #if defined(UKERNEL)
1787 if (!(flags & AFS_LOOKUP_NOEVAL))
1788 /* don't eval mount points */
1789 #endif /* UKERNEL */
1790 if (tvc->mvstat == 1 && force_eval) {
1791 /* a mt point, possibly unevaluated */
1792 struct volume *tvolp;
1794 ObtainWriteLock(&tvc->lock, 133);
1795 code = EvalMountPoint(tvc, adp, &tvolp, &treq);
1796 ReleaseWriteLock(&tvc->lock);
1801 afs_PutVolume(tvolp, WRITE_LOCK);
1805 /* next, we want to continue using the target of the mt point */
1806 if (tvc->mvid && (tvc->f.states & CMValid)) {
1808 /* now lookup target, to set .. pointer */
1809 afs_Trace2(afs_iclSetp, CM_TRACE_LOOKUP1,
1810 ICL_TYPE_POINTER, tvc, ICL_TYPE_FID,
1812 uvc = tvc; /* remember for later */
1814 if (tvolp && (tvolp->states & VForeign)) {
1815 /* XXXX tvolp has ref cnt on but not locked! XXX */
1817 afs_GetRootVCache(tvc->mvid, &treq, NULL, tvolp);
1819 tvc = afs_GetVCache(tvc->mvid, &treq, NULL, NULL);
1821 afs_PutVCache(uvc); /* we're done with it */
1826 afs_PutVolume(tvolp, WRITE_LOCK);
1831 /* now, if we came via a new mt pt (say because of a new
1832 * release of a R/O volume), we must reevaluate the ..
1833 * ptr to point back to the appropriate place */
1835 ObtainWriteLock(&tvc->lock, 134);
1836 if (tvc->mvid == NULL) {
1837 tvc->mvid = (struct VenusFid *)
1838 osi_AllocSmallSpace(sizeof(struct VenusFid));
1840 /* setup backpointer */
1841 *tvc->mvid = tvolp->dotdot;
1842 ReleaseWriteLock(&tvc->lock);
1843 afs_PutVolume(tvolp, WRITE_LOCK);
1849 afs_PutVolume(tvolp, WRITE_LOCK);
1854 if (tvc && !VREFCOUNT_GT(tvc, 0)) {
1859 /* if we get here, we found something in a directory that couldn't
1860 * be located (a Multics "connection failure"). If the volume is
1861 * read-only, we try flushing this entry from the cache and trying
1863 if (!AFS_IS_DISCONNECTED) {
1866 tv = afs_GetVolume(&adp->f.fid, &treq, READ_LOCK);
1868 if (tv->states & VRO) {
1869 pass = 1; /* try this *once* */
1870 ObtainWriteLock(&afs_xcbhash, 495);
1871 afs_DequeueCallback(adp);
1872 /* re-stat to get later version */
1873 adp->f.states &= ~CStatd;
1874 ReleaseWriteLock(&afs_xcbhash);
1875 osi_dnlc_purgedp(adp);
1876 afs_PutVolume(tv, READ_LOCK);
1879 afs_PutVolume(tv, READ_LOCK);
1889 /* put the network buffer back, if need be */
1890 if (tname != aname && tname)
1891 osi_FreeLargeSpace(tname);
1895 afs_AddMarinerName(aname, tvc);
1897 #if defined(UKERNEL)
1898 if (!(flags & AFS_LOOKUP_NOEVAL)) {
1899 /* Here we don't enter the name into the DNLC because we want the
1900 * evaluated mount dir to be there (the vcache for the mounted
1901 * volume) rather than the vc of the mount point itself. We can
1902 * still find the mount point's vc in the vcache by its fid. */
1903 #endif /* UKERNEL */
1904 if (!hit && force_eval) {
1905 osi_dnlc_enter(adp, aname, tvc, &versionNo);
1907 #ifdef AFS_LINUX20_ENV
1908 /* So Linux inode cache is up to date. */
1909 code = afs_VerifyVCache(tvc, &treq);
1911 afs_PutFakeStat(&fakestate);
1912 AFS_DISCON_UNLOCK();
1913 return 0; /* can't have been any errors if hit and !code */
1916 #if defined(UKERNEL)
1923 code = afs_CheckCode(code, &treq, 19);
1925 /* If there is an error, make sure *avcp is null.
1926 * Alphas panic otherwise - defect 10719.
1931 afs_PutFakeStat(&fakestate);
1932 AFS_DISCON_UNLOCK();