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
10 #include <afs/param.h>
27 /* Used by cm_FollowMountPoint */
33 extern void afsi_log(char *pattern, ...);
36 int cm_enableServerLocks = 1;
39 * Case-folding array. This was constructed by inspecting of SMBtrace output.
40 * I do not know anything more about it.
42 unsigned char cm_foldUpper[256] = {
43 0x0, 0x1, 0x2, 0x3, 0x4, 0x5, 0x6, 0x7,
44 0x8, 0x9, 0xa, 0xb, 0xc, 0xd, 0xe, 0xf,
45 0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17,
46 0x18, 0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e, 0x1f,
47 0x20, 0x21, 0x22, 0x23, 0x24, 0x25, 0x26, 0x27,
48 0x28, 0x29, 0x2a, 0x2b, 0x2c, 0x2d, 0x2e, 0x2f,
49 0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37,
50 0x38, 0x39, 0x3a, 0x3b, 0x3c, 0x3d, 0x3e, 0x3f,
51 0x40, 0x41, 0x42, 0x43, 0x44, 0x45, 0x46, 0x47,
52 0x48, 0x49, 0x4a, 0x4b, 0x4c, 0x4d, 0x4e, 0x4f,
53 0x50, 0x51, 0x52, 0x53, 0x54, 0x55, 0x56, 0x57,
54 0x58, 0x59, 0x5a, 0x5b, 0x5c, 0x5d, 0x5e, 0x5f,
55 0x60, 0x41, 0x42, 0x43, 0x44, 0x45, 0x46, 0x47,
56 0x48, 0x49, 0x4a, 0x4b, 0x4c, 0x4d, 0x4e, 0x4f,
57 0x50, 0x51, 0x52, 0x53, 0x54, 0x55, 0x56, 0x57,
58 0x58, 0x59, 0x5a, 0x7b, 0x7c, 0x7d, 0x7e, 0x7f,
59 0x80, 0x9a, 0x90, 0x41, 0x8e, 0x41, 0x8f, 0x80,
60 0x45, 0x45, 0x45, 0x49, 0x49, 0x49, 0x8e, 0x8f,
61 0x90, 0x92, 0x92, 0x4f, 0x99, 0x4f, 0x55, 0x55,
62 0x59, 0x99, 0x9a, 0x9b, 0x9c, 0x9d, 0x9e, 0x9f,
63 0x41, 0x49, 0x4f, 0x55, 0xa5, 0xa5, 0x56, 0xa7,
64 0xa8, 0xa9, 0xaa, 0xab, 0xac, 0xad, 0xae, 0xaf,
65 0xb0, 0xb1, 0xb2, 0xb3, 0xb4, 0xb5, 0xb6, 0xb7,
66 0xb8, 0xb9, 0xba, 0xbb, 0xbc, 0xbd, 0xbe, 0xbf,
67 0xc0, 0xc1, 0xc2, 0xc3, 0xc4, 0xc5, 0xc6, 0xc7,
68 0xc8, 0xc9, 0xca, 0xcb, 0xcc, 0xcd, 0xce, 0xcf,
69 0xd0, 0xd1, 0xd2, 0xd3, 0xd4, 0xd5, 0xd6, 0xd7,
70 0xd8, 0xd9, 0xda, 0xdb, 0xdc, 0xdd, 0xde, 0xdf,
71 0xe0, 0xe1, 0xe2, 0xe3, 0xe4, 0xe5, 0xe6, 0xe7,
72 0xe8, 0xe9, 0xea, 0xeb, 0xec, 0xed, 0xee, 0xef,
73 0xf0, 0xf1, 0xf2, 0xf3, 0xf4, 0xf5, 0xf6, 0xf7,
74 0xf8, 0xf9, 0xfa, 0xfb, 0xfc, 0xfd, 0xfe, 0xff
78 * Case-insensitive string comparison. We used to use stricmp, but it doesn't
79 * know about 8-bit characters (e.g. 129 is lowercase u-umlaut, 154 is
80 * upper-case u-umlaut).
82 int cm_stricmp(const char *str1, const char *str2)
94 c1 = (char) cm_foldUpper[(unsigned char)(*str1++)];
95 c2 = (char) cm_foldUpper[(unsigned char)(*str2++)];
103 /* characters that are legal in an 8.3 name */
105 * We used to have 1's for all characters from 128 to 254. But
106 * the NT client behaves better if we create an 8.3 name for any
107 * name that has a character with the high bit on, and if we
108 * delete those characters from 8.3 names. In particular, see
109 * Sybase defect 10859.
111 char cm_LegalChars[256] = {
112 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
113 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
114 0, 1, 0, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 1, 0, 0,
115 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0,
116 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
117 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 1, 1,
118 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
119 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 1, 1, 1,
120 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
121 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
122 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
123 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
124 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
125 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
126 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
127 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0
130 /* return true iff component is a valid 8.3 name */
131 int cm_Is8Dot3(char *namep)
138 * can't have a leading dot;
139 * special case for . and ..
141 if (namep[0] == '.') {
144 if (namep[1] == '.' && namep[2] == 0)
148 while (tc = *namep++) {
150 /* saw another dot */
151 if (sawDot) return 0; /* second dot */
156 if (cm_LegalChars[tc] == 0)
159 if (!sawDot && charCount > 8)
160 /* more than 8 chars in name */
162 if (sawDot && charCount > 3)
163 /* more than 3 chars in extension */
170 * Number unparsing map for generating 8.3 names;
171 * The version taken from DFS was on drugs.
172 * You can't include '&' and '@' in a file name.
174 char cm_8Dot3Mapping[42] =
175 {'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
176 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'J', 'K',
177 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U',
178 'V', 'W', 'X', 'Y', 'Z', '_', '-', '$', '#', '!', '+', '='
180 int cm_8Dot3MapSize = sizeof(cm_8Dot3Mapping);
182 void cm_Gen8Dot3Name(cm_dirEntry_t *dep, char *shortName, char **shortNameEndp)
186 int vnode = ntohl(dep->fid.vnode);
188 int validExtension = 0;
189 char tc, *temp, *name;
191 /* Unparse the file's vnode number to get a "uniquifier" */
193 number[nsize] = cm_8Dot3Mapping[vnode % cm_8Dot3MapSize];
195 vnode /= cm_8Dot3MapSize;
199 * Look for valid extension. There has to be a dot, and
200 * at least one of the characters following has to be legal.
202 lastDot = strrchr(dep->name, '.');
204 temp = lastDot; temp++;
206 if (cm_LegalChars[tc])
212 /* Copy name characters */
214 for (i = 0, name = dep->name;
215 i < (7 - nsize) && name != lastDot; ) {
220 if (!cm_LegalChars[tc])
223 *shortName++ = toupper(tc);
229 /* Copy uniquifier characters */
230 memcpy(shortName, number, nsize);
233 if (validExtension) {
234 /* Copy extension characters */
235 *shortName++ = *lastDot++; /* copy dot */
236 for (i = 0, tc = *lastDot++;
239 if (cm_LegalChars[tc]) {
241 *shortName++ = toupper(tc);
250 *shortNameEndp = shortName;
253 /* return success if we can open this file in this mode */
254 long cm_CheckOpen(cm_scache_t *scp, int openMode, int trunc, cm_user_t *userp,
261 if (openMode != 1) rights |= PRSFS_READ;
262 if (openMode == 1 || openMode == 2 || trunc) rights |= PRSFS_WRITE;
264 lock_ObtainMutex(&scp->mx);
266 code = cm_SyncOp(scp, NULL, userp, reqp, rights,
267 CM_SCACHESYNC_GETSTATUS
268 | CM_SCACHESYNC_NEEDCALLBACK
269 | CM_SCACHESYNC_LOCK);
272 ((rights & PRSFS_WRITE) || (rights & PRSFS_READ)) &&
273 scp->fileType == CM_SCACHETYPE_FILE) {
276 unsigned int sLockType;
277 LARGE_INTEGER LOffset, LLength;
279 /* Check if there's some sort of lock on the file at the
282 key = cm_GenerateKey(CM_SESSION_CMINT,0,0);
284 if (rights & PRSFS_WRITE)
287 sLockType = LOCKING_ANDX_SHARED_LOCK;
289 LOffset.HighPart = CM_FLSHARE_OFFSET_HIGH;
290 LOffset.LowPart = CM_FLSHARE_OFFSET_LOW;
291 LLength.HighPart = CM_FLSHARE_LENGTH_HIGH;
292 LLength.LowPart = CM_FLSHARE_LENGTH_LOW;
294 code = cm_Lock(scp, sLockType, LOffset, LLength, key, 0, userp, reqp, NULL);
297 cm_Unlock(scp, sLockType, LOffset, LLength, key, userp, reqp);
299 /* In this case, we allow the file open to go through even
300 though we can't enforce mandatory locking on the
302 if (code == CM_ERROR_NOACCESS &&
303 !(rights & PRSFS_WRITE))
307 case CM_ERROR_ALLOFFLINE:
308 case CM_ERROR_ALLDOWN:
309 case CM_ERROR_ALLBUSY:
310 case CM_ERROR_TIMEDOUT:
312 case CM_ERROR_WOULDBLOCK:
315 code = CM_ERROR_SHARING_VIOLATION;
320 } else if (code != 0) {
324 cm_SyncOpDone(scp, NULL, CM_SCACHESYNC_LOCK);
328 lock_ReleaseMutex(&scp->mx);
333 /* return success if we can open this file in this mode */
334 long cm_CheckNTOpen(cm_scache_t *scp, unsigned int desiredAccess,
335 unsigned int createDisp, cm_user_t *userp, cm_req_t *reqp)
340 /* Always allow delete; the RPC will tell us if it's OK */
341 if (desiredAccess == DELETE)
346 if (desiredAccess & AFS_ACCESS_READ)
347 rights |= PRSFS_READ;
349 if ((desiredAccess & AFS_ACCESS_WRITE)
351 rights |= PRSFS_WRITE;
353 lock_ObtainMutex(&scp->mx);
355 code = cm_SyncOp(scp, NULL, userp, reqp, rights,
356 CM_SCACHESYNC_GETSTATUS
357 | CM_SCACHESYNC_NEEDCALLBACK
358 | CM_SCACHESYNC_LOCK);
361 * If the open will fail because the volume is readonly, then we will
362 * return an access denied error instead. This is to help brain-dead
363 * apps run correctly on replicated volumes.
364 * See defect 10007 for more information.
366 if (code == CM_ERROR_READONLY)
367 code = CM_ERROR_NOACCESS;
370 ((rights & PRSFS_WRITE) || (rights & PRSFS_READ)) &&
371 scp->fileType == CM_SCACHETYPE_FILE) {
373 unsigned int sLockType;
374 LARGE_INTEGER LOffset, LLength;
376 /* Check if there's some sort of lock on the file at the
379 key = cm_GenerateKey(CM_SESSION_CMINT,0,0);
380 if (rights & PRSFS_WRITE)
383 sLockType = LOCKING_ANDX_SHARED_LOCK;
385 /* single byte lock at offset 0x0100 0000 0000 0000 */
386 LOffset.HighPart = CM_FLSHARE_OFFSET_HIGH;
387 LOffset.LowPart = CM_FLSHARE_OFFSET_LOW;
388 LLength.HighPart = CM_FLSHARE_LENGTH_HIGH;
389 LLength.LowPart = CM_FLSHARE_LENGTH_LOW;
391 code = cm_Lock(scp, sLockType, LOffset, LLength, key, 0, userp, reqp, NULL);
394 cm_Unlock(scp, sLockType, LOffset, LLength, key, userp, reqp);
396 /* In this case, we allow the file open to go through even
397 though we can't enforce mandatory locking on the
399 if (code == CM_ERROR_NOACCESS &&
400 !(rights & PRSFS_WRITE))
404 case CM_ERROR_ALLOFFLINE:
405 case CM_ERROR_ALLDOWN:
406 case CM_ERROR_ALLBUSY:
407 case CM_ERROR_TIMEDOUT:
409 case CM_ERROR_WOULDBLOCK:
412 code = CM_ERROR_SHARING_VIOLATION;
416 } else if (code != 0) {
420 cm_SyncOpDone(scp, NULL, CM_SCACHESYNC_LOCK);
423 lock_ReleaseMutex(&scp->mx);
429 * When CAP_NT_SMBS has been negotiated, deletion (of files or directories) is
430 * done in three steps:
431 * (1) open for deletion (NT_CREATE_AND_X)
432 * (2) set for deletion on close (NT_TRANSACTION2, SET_FILE_INFO)
434 * We must not do the RPC until step 3. But if we are going to return an error
435 * code (e.g. directory not empty), we must return it by step 2, otherwise most
436 * clients will not notice it. So we do a preliminary check. For deleting
437 * files, this is almost free, since we have already done the RPC to get the
438 * parent directory's status bits. But for deleting directories, we must do an
439 * additional RPC to get the directory's data to check if it is empty. Sigh.
441 long cm_CheckNTDelete(cm_scache_t *dscp, cm_scache_t *scp, cm_user_t *userp,
448 unsigned short *hashTable;
450 int BeyondPage = 0, HaveDot = 0, HaveDotDot = 0;
452 /* First check permissions */
453 lock_ObtainMutex(&dscp->mx);
454 code = cm_SyncOp(dscp, NULL, userp, reqp, PRSFS_DELETE,
455 CM_SCACHESYNC_GETSTATUS
456 | CM_SCACHESYNC_NEEDCALLBACK);
457 lock_ReleaseMutex(&dscp->mx);
461 /* If deleting directory, must be empty */
463 if (scp->fileType != CM_SCACHETYPE_DIRECTORY)
466 thyper.HighPart = 0; thyper.LowPart = 0;
467 lock_ObtainRead(&scp->bufCreateLock);
468 code = buf_Get(scp, &thyper, &bufferp);
469 lock_ReleaseRead(&scp->bufCreateLock);
473 lock_ObtainMutex(&bufferp->mx);
474 lock_ObtainMutex(&scp->mx);
476 code = cm_SyncOp(scp, bufferp, userp, reqp, 0,
477 CM_SCACHESYNC_NEEDCALLBACK
479 | CM_SCACHESYNC_BUFLOCKED);
483 if (cm_HaveBuffer(scp, bufferp, 1))
486 /* otherwise, load the buffer and try again */
487 lock_ReleaseMutex(&bufferp->mx);
488 code = cm_GetBuffer(scp, bufferp, NULL, userp, reqp);
489 lock_ReleaseMutex(&scp->mx);
490 lock_ObtainMutex(&bufferp->mx);
491 lock_ObtainMutex(&scp->mx);
496 /* We try to determine emptiness without looking beyond the first page,
497 * and without assuming "." and ".." are present and are on the first
498 * page (though these assumptions might, after all, be reasonable).
500 hashTable = (unsigned short *)(bufferp->datap + (32 * 5));
501 for (i=0; i<128; i++) {
502 idx = ntohs(hashTable[i]);
508 dep = (cm_dirEntry_t *)(bufferp->datap + (32 * idx));
509 if (strcmp(dep->name, ".") == 0)
511 else if (strcmp(dep->name, "..") == 0)
514 code = CM_ERROR_NOTEMPTY;
517 idx = ntohs(dep->next);
520 if (BeyondPage && HaveDot && HaveDotDot)
521 code = CM_ERROR_NOTEMPTY;
525 lock_ReleaseMutex(&bufferp->mx);
526 buf_Release(bufferp);
527 lock_ReleaseMutex(&scp->mx);
532 * Iterate through all entries in a directory.
533 * When the function funcp is called, the buffer is locked but the
534 * directory vnode is not.
536 * If the retscp parameter is not NULL, the parmp must be a
537 * cm_lookupSearch_t object.
539 long cm_ApplyDir(cm_scache_t *scp, cm_DirFuncp_t funcp, void *parmp,
540 osi_hyper_t *startOffsetp, cm_user_t *userp, cm_req_t *reqp,
541 cm_scache_t **retscp)
548 osi_hyper_t dirLength;
549 osi_hyper_t bufferOffset;
550 osi_hyper_t curOffset;
554 cm_pageHeader_t *pageHeaderp;
556 long nextEntryCookie;
557 int numDirChunks; /* # of 32 byte dir chunks in this entry */
559 /* get the directory size */
560 lock_ObtainMutex(&scp->mx);
561 code = cm_SyncOp(scp, NULL, userp, reqp, PRSFS_LOOKUP,
562 CM_SCACHESYNC_NEEDCALLBACK | CM_SCACHESYNC_GETSTATUS);
564 lock_ReleaseMutex(&scp->mx);
568 if (scp->fileType != CM_SCACHETYPE_DIRECTORY) {
569 lock_ReleaseMutex(&scp->mx);
570 return CM_ERROR_NOTDIR;
573 if (retscp) /* if this is a lookup call */
575 cm_lookupSearch_t* sp = parmp;
577 #ifdef AFS_FREELANCE_CLIENT
578 /* Freelance entries never end up in the DNLC because they
579 * do not have an associated cm_server_t
581 if ( !(cm_freelanceEnabled &&
582 sp->fid.cell==AFS_FAKE_ROOT_CELL_ID &&
583 sp->fid.volume==AFS_FAKE_ROOT_VOL_ID ) )
584 #endif /* AFS_FREELANCE_CLIENT */
586 int casefold = sp->caseFold;
587 sp->caseFold = 0; /* we have a strong preference for exact matches */
588 if ( *retscp = cm_dnlcLookup(scp, sp)) /* dnlc hit */
590 sp->caseFold = casefold;
591 lock_ReleaseMutex(&scp->mx);
594 sp->caseFold = casefold;
599 * XXX We only get the length once. It might change when we drop the
602 dirLength = scp->length;
604 lock_ReleaseMutex(&scp->mx);
607 bufferOffset.LowPart = bufferOffset.HighPart = 0;
609 curOffset = *startOffsetp;
611 curOffset.HighPart = 0;
612 curOffset.LowPart = 0;
616 /* make sure that curOffset.LowPart doesn't point to the first
617 * 32 bytes in the 2nd through last dir page, and that it
618 * doesn't point at the first 13 32-byte chunks in the first
619 * dir page, since those are dir and page headers, and don't
620 * contain useful information.
622 temp = curOffset.LowPart & (2048-1);
623 if (curOffset.HighPart == 0 && curOffset.LowPart < 2048) {
624 /* we're in the first page */
625 if (temp < 13*32) temp = 13*32;
628 /* we're in a later dir page */
629 if (temp < 32) temp = 32;
632 /* make sure the low order 5 bits are zero */
635 /* now put temp bits back ito curOffset.LowPart */
636 curOffset.LowPart &= ~(2048-1);
637 curOffset.LowPart |= temp;
639 /* check if we've passed the dir's EOF */
640 if (LargeIntegerGreaterThanOrEqualTo(curOffset, dirLength))
643 /* see if we can use the bufferp we have now; compute in which
644 * page the current offset would be, and check whether that's
645 * the offset of the buffer we have. If not, get the buffer.
647 thyper.HighPart = curOffset.HighPart;
648 thyper.LowPart = curOffset.LowPart & ~(cm_data.buf_blockSize-1);
649 if (!bufferp || !LargeIntegerEqualTo(thyper, bufferOffset)) {
652 lock_ReleaseMutex(&bufferp->mx);
653 buf_Release(bufferp);
657 lock_ObtainRead(&scp->bufCreateLock);
658 code = buf_Get(scp, &thyper, &bufferp);
659 lock_ReleaseRead(&scp->bufCreateLock);
661 /* if buf_Get() fails we do not have a buffer object to lock */
667 /* for the IFS version, we bulkstat the dirents because this
668 routine is used in place of smb_ReceiveCoreSearchDir. our
669 other option is to modify smb_ReceiveCoreSearchDir itself,
670 but this seems to be the proper use for cm_ApplyDir. */
671 lock_ObtainMutex(&scp->mx);
672 if ((scp->flags & CM_SCACHEFLAG_BULKSTATTING) == 0
673 && (scp->bulkStatProgress.QuadPart <= thyper.QuadPart))
675 scp->flags |= CM_SCACHEFLAG_BULKSTATTING;
676 cm_TryBulkStat(scp, &thyper, userp, reqp);
677 scp->flags &= ~CM_SCACHEFLAG_BULKSTATTING;
678 scp->bulkStatProgress = thyper;
680 lock_ReleaseMutex(&scp->mx);
683 lock_ObtainMutex(&bufferp->mx);
684 bufferOffset = thyper;
686 /* now get the data in the cache */
688 lock_ObtainMutex(&scp->mx);
689 code = cm_SyncOp(scp, bufferp, userp, reqp,
691 CM_SCACHESYNC_NEEDCALLBACK
693 | CM_SCACHESYNC_BUFLOCKED);
695 lock_ReleaseMutex(&scp->mx);
699 if (cm_HaveBuffer(scp, bufferp, 1)) {
700 lock_ReleaseMutex(&scp->mx);
704 /* otherwise, load the buffer and try again */
705 lock_ReleaseMutex(&bufferp->mx);
706 code = cm_GetBuffer(scp, bufferp, NULL, userp,
708 lock_ReleaseMutex(&scp->mx);
709 lock_ObtainMutex(&bufferp->mx);
714 lock_ReleaseMutex(&bufferp->mx);
715 buf_Release(bufferp);
719 } /* if (wrong buffer) ... */
721 /* now we have the buffer containing the entry we're interested
722 * in; copy it out if it represents a non-deleted entry.
724 entryInDir = curOffset.LowPart & (2048-1);
725 entryInBuffer = curOffset.LowPart & (cm_data.buf_blockSize - 1);
727 /* page header will help tell us which entries are free. Page
728 * header can change more often than once per buffer, since
729 * AFS 3 dir page size may be less than (but not more than) a
730 * buffer package buffer.
732 /* only look intra-buffer */
733 temp = curOffset.LowPart & (cm_data.buf_blockSize - 1);
734 temp &= ~(2048 - 1); /* turn off intra-page bits */
735 pageHeaderp = (cm_pageHeader_t *) (bufferp->datap + temp);
737 /* now determine which entry we're looking at in the page. If
738 * it is free (there's a free bitmap at the start of the dir),
739 * we should skip these 32 bytes.
741 slotInPage = (entryInDir & 0x7e0) >> 5;
742 if (!(pageHeaderp->freeBitmap[slotInPage>>3]
743 & (1 << (slotInPage & 0x7)))) {
744 /* this entry is free */
745 numDirChunks = 1; /* only skip this guy */
749 tp = bufferp->datap + entryInBuffer;
750 dep = (cm_dirEntry_t *) tp; /* now points to AFS3 dir entry */
752 /* while we're here, compute the next entry's location, too,
753 * since we'll need it when writing out the cookie into the
754 * dir listing stream.
756 numDirChunks = cm_NameEntries(dep->name, NULL);
758 /* compute the offset of the cookie representing the next entry */
759 nextEntryCookie = curOffset.LowPart
760 + (CM_DIR_CHUNKSIZE * numDirChunks);
762 if (dep->fid.vnode != 0) {
763 /* this is one of the entries to use: it is not deleted */
764 code = (*funcp)(scp, dep, parmp, &curOffset);
767 } /* if we're including this name */
770 /* and adjust curOffset to be where the new cookie is */
772 thyper.LowPart = CM_DIR_CHUNKSIZE * numDirChunks;
773 curOffset = LargeIntegerAdd(thyper, curOffset);
774 } /* while copying data for dir listing */
776 /* release the mutex */
778 lock_ReleaseMutex(&bufferp->mx);
779 buf_Release(bufferp);
784 int cm_NoneUpper(char *s)
788 if (c >= 'A' && c <= 'Z')
793 int cm_NoneLower(char *s)
797 if (c >= 'a' && c <= 'z')
802 long cm_LookupSearchProc(cm_scache_t *scp, cm_dirEntry_t *dep, void *rockp,
805 cm_lookupSearch_t *sp;
810 sp = (cm_lookupSearch_t *) rockp;
812 matchName = dep->name;
814 match = cm_stricmp(matchName, sp->searchNamep);
816 match = strcmp(matchName, sp->searchNamep);
820 && !cm_Is8Dot3(dep->name)) {
821 matchName = shortName;
822 cm_Gen8Dot3Name(dep, shortName, NULL);
824 match = cm_stricmp(matchName, sp->searchNamep);
826 match = strcmp(matchName, sp->searchNamep);
836 if (!sp->caseFold || matchName == shortName) {
837 sp->fid.vnode = ntohl(dep->fid.vnode);
838 sp->fid.unique = ntohl(dep->fid.unique);
839 return CM_ERROR_STOPNOW;
843 * If we get here, we are doing a case-insensitive search, and we
844 * have found a match. Now we determine what kind of match it is:
845 * exact, lower-case, upper-case, or none of the above. This is done
846 * in order to choose among matches, if there are more than one.
849 /* Exact matches are the best. */
850 match = strcmp(matchName, sp->searchNamep);
853 sp->fid.vnode = ntohl(dep->fid.vnode);
854 sp->fid.unique = ntohl(dep->fid.unique);
855 return CM_ERROR_STOPNOW;
858 /* Lower-case matches are next. */
861 if (cm_NoneUpper(matchName)) {
866 /* Upper-case matches are next. */
869 if (cm_NoneLower(matchName)) {
874 /* General matches are last. */
880 sp->fid.vnode = ntohl(dep->fid.vnode);
881 sp->fid.unique = ntohl(dep->fid.unique);
885 /* read the contents of a mount point into the appropriate string.
886 * called with locked scp, and returns with locked scp.
888 long cm_ReadMountPoint(cm_scache_t *scp, cm_user_t *userp, cm_req_t *reqp)
895 if (scp->mountPointStringp[0])
898 /* otherwise, we have to read it in */
899 lock_ReleaseMutex(&scp->mx);
901 lock_ObtainRead(&scp->bufCreateLock);
902 thyper.LowPart = thyper.HighPart = 0;
903 code = buf_Get(scp, &thyper, &bufp);
904 lock_ReleaseRead(&scp->bufCreateLock);
906 lock_ObtainMutex(&scp->mx);
911 code = cm_SyncOp(scp, bufp, userp, reqp, 0,
912 CM_SCACHESYNC_READ | CM_SCACHESYNC_NEEDCALLBACK);
917 if (cm_HaveBuffer(scp, bufp, 0))
920 /* otherwise load buffer */
921 code = cm_GetBuffer(scp, bufp, NULL, userp, reqp);
926 /* locked, has callback, has valid data in buffer */
927 if ((tlen = scp->length.LowPart) > 1000)
928 return CM_ERROR_TOOBIG;
930 code = CM_ERROR_INVAL;
934 /* someone else did the work while we were out */
935 if (scp->mountPointStringp[0]) {
940 /* otherwise, copy out the link */
941 memcpy(scp->mountPointStringp, bufp->datap, tlen);
943 /* now make it null-terminated. Note that the original contents of a
944 * link that is a mount point is "#volname." where "." is there just to
945 * be turned into a null. That is, we can trash the last char of the
946 * link without damaging the vol name. This is a stupid convention,
947 * but that's the protocol.
949 scp->mountPointStringp[tlen-1] = 0;
958 /* called with a locked scp and chases the mount point, yielding outScpp.
959 * scp remains locked, just for simplicity of describing the interface.
961 long cm_FollowMountPoint(cm_scache_t *scp, cm_scache_t *dscp, cm_user_t *userp,
962 cm_req_t *reqp, cm_scache_t **outScpp)
977 if (scp->mountRootFid.cell != 0 && scp->mountRootGen >= cm_data.mountRootGen) {
978 tfid = scp->mountRootFid;
979 lock_ReleaseMutex(&scp->mx);
980 code = cm_GetSCache(&tfid, outScpp, userp, reqp);
981 lock_ObtainMutex(&scp->mx);
985 /* parse the volume name */
986 mpNamep = scp->mountPointStringp;
988 return CM_ERROR_NOSUCHPATH;
989 tlen = (int)strlen(scp->mountPointStringp);
990 mtType = *scp->mountPointStringp;
991 cellNamep = malloc(tlen);
992 volNamep = malloc(tlen);
994 cp = strrchr(mpNamep, ':');
996 /* cellular mount point */
997 memset(cellNamep, 0, tlen);
998 strncpy(cellNamep, mpNamep+1, cp - mpNamep - 1);
999 strcpy(volNamep, cp+1);
1000 /* now look up the cell */
1001 cellp = cm_GetCell(cellNamep, CM_FLAG_CREATE);
1005 strcpy(volNamep, mpNamep+1);
1007 cellp = cm_FindCellByID(scp->fid.cell);
1011 code = CM_ERROR_NOSUCHCELL;
1015 vnLength = strlen(volNamep);
1016 if (vnLength >= 8 && strcmp(volNamep + vnLength - 7, ".backup") == 0)
1018 else if (vnLength >= 10
1019 && strcmp(volNamep + vnLength - 9, ".readonly") == 0)
1024 /* check for backups within backups */
1026 && (scp->flags & (CM_SCACHEFLAG_RO | CM_SCACHEFLAG_PURERO))
1027 == CM_SCACHEFLAG_RO) {
1028 code = CM_ERROR_NOSUCHVOLUME;
1032 /* now we need to get the volume */
1033 lock_ReleaseMutex(&scp->mx);
1034 code = cm_GetVolumeByName(cellp, volNamep, userp, reqp, 0, &volp);
1035 lock_ObtainMutex(&scp->mx);
1038 /* save the parent of the volume root for this is the
1039 * place where the volume is mounted and we must remember
1040 * this in the volume structure rather than just in the
1041 * scache entry lest the scache entry gets recycled
1044 lock_ObtainMutex(&volp->mx);
1045 volp->dotdotFid = dscp->fid;
1046 lock_ReleaseMutex(&volp->mx);
1048 scp->mountRootFid.cell = cellp->cellID;
1049 /* if the mt pt is in a read-only volume (not just a
1050 * backup), and if there is a read-only volume for the
1051 * target, and if this is a type '#' mount point, use
1052 * the read-only, otherwise use the one specified.
1054 if (mtType == '#' && (scp->flags & CM_SCACHEFLAG_PURERO)
1055 && volp->roID != 0 && type == RWVOL)
1058 scp->mountRootFid.volume = volp->roID;
1059 else if (type == BACKVOL)
1060 scp->mountRootFid.volume = volp->bkID;
1062 scp->mountRootFid.volume = volp->rwID;
1064 /* the rest of the fid is a magic number */
1065 scp->mountRootFid.vnode = 1;
1066 scp->mountRootFid.unique = 1;
1067 scp->mountRootGen = cm_data.mountRootGen;
1069 tfid = scp->mountRootFid;
1070 lock_ReleaseMutex(&scp->mx);
1071 code = cm_GetSCache(&tfid, outScpp, userp, reqp);
1072 lock_ObtainMutex(&scp->mx);
1081 long cm_LookupInternal(cm_scache_t *dscp, char *namep, long flags, cm_user_t *userp,
1082 cm_req_t *reqp, cm_scache_t **outpScpp)
1085 int dnlcHit = 1; /* did we hit in the dnlc? yes, we did */
1086 cm_scache_t *tscp = NULL;
1087 cm_scache_t *mountedScp;
1088 cm_lookupSearch_t rock;
1091 if (dscp->fid.vnode == 1 && dscp->fid.unique == 1
1092 && strcmp(namep, "..") == 0) {
1093 if (dscp->dotdotFid.volume == 0)
1094 return CM_ERROR_NOSUCHVOLUME;
1095 rock.fid = dscp->dotdotFid;
1099 memset(&rock, 0, sizeof(rock));
1100 rock.fid.cell = dscp->fid.cell;
1101 rock.fid.volume = dscp->fid.volume;
1102 rock.searchNamep = namep;
1103 rock.caseFold = (flags & CM_FLAG_CASEFOLD);
1104 rock.hasTilde = ((strchr(namep, '~') != NULL) ? 1 : 0);
1106 /* If NOMOUNTCHASE, bypass DNLC by passing NULL scp pointer */
1107 code = cm_ApplyDir(dscp, cm_LookupSearchProc, &rock, NULL, userp, reqp,
1108 (flags & CM_FLAG_NOMOUNTCHASE) ? NULL : &tscp);
1110 /* code == 0 means we fell off the end of the dir, while stopnow means
1111 * that we stopped early, probably because we found the entry we're
1112 * looking for. Any other non-zero code is an error.
1114 if (code && code != CM_ERROR_STOPNOW) {
1115 /* if the cm_scache_t we are searching in is not a directory
1116 * we must return path not found because the error
1117 * is to describe the final component not an intermediary
1119 if (code == CM_ERROR_NOTDIR) {
1120 if (flags & CM_FLAG_CHECKPATH)
1121 return CM_ERROR_NOSUCHPATH;
1123 return CM_ERROR_NOSUCHFILE;
1128 getroot = (dscp==cm_data.rootSCachep) ;
1130 if (!cm_freelanceEnabled || !getroot) {
1131 if (flags & CM_FLAG_CHECKPATH)
1132 return CM_ERROR_NOSUCHPATH;
1134 return CM_ERROR_NOSUCHFILE;
1136 else { /* nonexistent dir on freelance root, so add it */
1137 char fullname[200] = ".";
1140 osi_Log1(afsd_logp,"cm_Lookup adding mount for non-existent directory: %s",
1141 osi_LogSaveString(afsd_logp,namep));
1142 if (namep[0] == '.') {
1143 if (cm_GetCell_Gen(&namep[1], &fullname[1], CM_FLAG_CREATE)) {
1145 if ( stricmp(&namep[1], &fullname[1]) )
1146 code = cm_FreelanceAddSymlink(namep, fullname, &rock.fid);
1148 code = cm_FreelanceAddMount(namep, &fullname[1], "root.cell.", 1, &rock.fid);
1151 if (cm_GetCell_Gen(namep, fullname, CM_FLAG_CREATE)) {
1153 if ( stricmp(namep, fullname) )
1154 code = cm_FreelanceAddSymlink(namep, fullname, &rock.fid);
1156 code = cm_FreelanceAddMount(namep, fullname, "root.cell.", 0, &rock.fid);
1159 if (!found || code < 0) { /* add mount point failed, so give up */
1160 if (flags & CM_FLAG_CHECKPATH)
1161 return CM_ERROR_NOSUCHPATH;
1163 return CM_ERROR_NOSUCHFILE;
1165 tscp = NULL; /* to force call of cm_GetSCache */
1170 if ( !tscp ) /* we did not find it in the dnlc */
1173 code = cm_GetSCache(&rock.fid, &tscp, userp, reqp);
1177 /* tscp is now held */
1179 lock_ObtainMutex(&tscp->mx);
1180 code = cm_SyncOp(tscp, NULL, userp, reqp, 0,
1181 CM_SCACHESYNC_GETSTATUS | CM_SCACHESYNC_NEEDCALLBACK);
1183 lock_ReleaseMutex(&tscp->mx);
1184 cm_ReleaseSCache(tscp);
1187 /* tscp is now locked */
1189 if (!(flags & CM_FLAG_NOMOUNTCHASE)
1190 && tscp->fileType == CM_SCACHETYPE_MOUNTPOINT) {
1191 /* mount points are funny: they have a volume name to mount
1194 code = cm_ReadMountPoint(tscp, userp, reqp);
1196 code = cm_FollowMountPoint(tscp, dscp, userp, reqp,
1198 lock_ReleaseMutex(&tscp->mx);
1199 cm_ReleaseSCache(tscp);
1206 lock_ReleaseMutex(&tscp->mx);
1209 /* copy back pointer */
1212 /* insert scache in dnlc */
1213 if ( !dnlcHit && !(flags & CM_FLAG_NOMOUNTCHASE) && rock.ExactFound ) {
1214 /* lock the directory entry to prevent racing callback revokes */
1215 lock_ObtainMutex(&dscp->mx);
1216 if ( dscp->cbServerp != NULL && dscp->cbExpires > 0 )
1217 cm_dnlcEnter(dscp, namep, tscp);
1218 lock_ReleaseMutex(&dscp->mx);
1225 int cm_ExpandSysName(char *inp, char *outp, long outSize, unsigned int index)
1230 tp = strrchr(inp, '@');
1232 return 0; /* no @sys */
1234 if (strcmp(tp, "@sys") != 0)
1235 return 0; /* no @sys */
1237 /* caller just wants to know if this is a valid @sys type of name */
1241 if (index >= MAXNUMSYSNAMES)
1244 /* otherwise generate the properly expanded @sys name */
1245 prefixCount = (int)(tp - inp);
1247 strncpy(outp, inp, prefixCount); /* copy out "a." from "a.@sys" */
1248 outp[prefixCount] = 0; /* null terminate the "a." */
1249 strcat(outp, cm_sysNameList[index]);/* append i386_nt40 */
1253 long cm_Lookup(cm_scache_t *dscp, char *namep, long flags, cm_user_t *userp,
1254 cm_req_t *reqp, cm_scache_t **outpScpp)
1258 int sysNameIndex = 0;
1259 cm_scache_t *scp = 0;
1261 if ( stricmp(namep,SMB_IOCTL_FILENAME_NOSLASH) == 0 ) {
1262 if (flags & CM_FLAG_CHECKPATH)
1263 return CM_ERROR_NOSUCHPATH;
1265 return CM_ERROR_NOSUCHFILE;
1268 for ( sysNameIndex = 0; sysNameIndex < MAXNUMSYSNAMES; sysNameIndex++) {
1269 code = cm_ExpandSysName(namep, tname, sizeof(tname), sysNameIndex);
1271 code = cm_LookupInternal(dscp, tname, flags, userp, reqp, &scp);
1277 cm_ReleaseSCache(scp);
1281 return cm_LookupInternal(dscp, namep, flags, userp, reqp, outpScpp);
1285 /* None of the possible sysName expansions could be found */
1286 if (flags & CM_FLAG_CHECKPATH)
1287 return CM_ERROR_NOSUCHPATH;
1289 return CM_ERROR_NOSUCHFILE;
1292 long cm_Unlink(cm_scache_t *dscp, char *namep, cm_user_t *userp, cm_req_t *reqp)
1298 AFSFetchStatus newDirStatus;
1300 struct rx_connection * callp;
1302 #ifdef AFS_FREELANCE_CLIENT
1303 if (cm_freelanceEnabled && dscp == cm_data.rootSCachep) {
1304 /* deleting a mount point from the root dir. */
1305 code = cm_FreelanceRemoveMount(namep);
1310 /* make sure we don't screw up the dir status during the merge */
1311 lock_ObtainMutex(&dscp->mx);
1312 sflags = CM_SCACHESYNC_STOREDATA;
1313 code = cm_SyncOp(dscp, NULL, userp, reqp, 0, sflags);
1314 lock_ReleaseMutex(&dscp->mx);
1319 afsFid.Volume = dscp->fid.volume;
1320 afsFid.Vnode = dscp->fid.vnode;
1321 afsFid.Unique = dscp->fid.unique;
1323 osi_Log1(afsd_logp, "CALL RemoveFile scp 0x%p", dscp);
1325 code = cm_Conn(&dscp->fid, userp, reqp, &connp);
1329 callp = cm_GetRxConn(connp);
1330 code = RXAFS_RemoveFile(callp, &afsFid, namep,
1331 &newDirStatus, &volSync);
1332 rx_PutConnection(callp);
1334 } while (cm_Analyze(connp, userp, reqp, &dscp->fid, &volSync, NULL, NULL, code));
1335 code = cm_MapRPCError(code, reqp);
1338 osi_Log1(afsd_logp, "CALL RemoveFile FAILURE, code 0x%x", code);
1340 osi_Log0(afsd_logp, "CALL RemoveFile SUCCESS");
1342 lock_ObtainMutex(&dscp->mx);
1343 cm_dnlcRemove(dscp, namep);
1344 cm_SyncOpDone(dscp, NULL, sflags);
1346 cm_MergeStatus(dscp, &newDirStatus, &volSync, userp, 0);
1347 else if (code == CM_ERROR_NOSUCHFILE) {
1348 /* windows would not have allowed the request to delete the file
1349 * if it did not believe the file existed. therefore, we must
1350 * have an inconsistent view of the world.
1352 dscp->cbServerp = NULL;
1354 lock_ReleaseMutex(&dscp->mx);
1359 /* called with a locked vnode, and fills in the link info.
1360 * returns this the vnode still locked.
1362 long cm_HandleLink(cm_scache_t *linkScp, cm_user_t *userp, cm_req_t *reqp)
1369 lock_AssertMutex(&linkScp->mx);
1370 if (!linkScp->mountPointStringp[0]) {
1371 /* read the link data */
1372 lock_ReleaseMutex(&linkScp->mx);
1373 thyper.LowPart = thyper.HighPart = 0;
1374 code = buf_Get(linkScp, &thyper, &bufp);
1375 lock_ObtainMutex(&linkScp->mx);
1379 code = cm_SyncOp(linkScp, bufp, userp, reqp, 0,
1380 CM_SCACHESYNC_NEEDCALLBACK | CM_SCACHESYNC_READ);
1385 if (cm_HaveBuffer(linkScp, bufp, 0))
1388 code = cm_GetBuffer(linkScp, bufp, NULL, userp, reqp);
1393 } /* while loop to get the data */
1395 /* now if we still have no link read in,
1396 * copy the data from the buffer */
1397 if ((temp = linkScp->length.LowPart) >= MOUNTPOINTLEN) {
1399 return CM_ERROR_TOOBIG;
1402 /* otherwise, it fits; make sure it is still null (could have
1403 * lost race with someone else referencing this link above),
1404 * and if so, copy in the data.
1406 if (!linkScp->mountPointStringp[0]) {
1407 strncpy(linkScp->mountPointStringp, bufp->datap, temp);
1408 linkScp->mountPointStringp[temp] = 0; /* null terminate */
1411 } /* don't have sym link contents cached */
1416 /* called with a held vnode and a path suffix, with the held vnode being a
1417 * symbolic link. Our goal is to generate a new path to interpret, and return
1418 * this new path in newSpaceBufferp. If the new vnode is relative to a dir
1419 * other than the directory containing the symbolic link, then the new root is
1420 * returned in *newRootScpp, otherwise a null is returned there.
1422 long cm_AssembleLink(cm_scache_t *linkScp, char *pathSuffixp,
1423 cm_scache_t **newRootScpp, cm_space_t **newSpaceBufferp,
1424 cm_user_t *userp, cm_req_t *reqp)
1431 lock_ObtainMutex(&linkScp->mx);
1432 code = cm_HandleLink(linkScp, userp, reqp);
1436 /* if we may overflow the buffer, bail out; buffer is signficantly
1437 * bigger than max path length, so we don't really have to worry about
1438 * being a little conservative here.
1440 if (strlen(linkScp->mountPointStringp) + strlen(pathSuffixp) + 2
1441 >= CM_UTILS_SPACESIZE)
1442 return CM_ERROR_TOOBIG;
1444 tsp = cm_GetSpace();
1445 linkp = linkScp->mountPointStringp;
1446 if (strncmp(linkp, cm_mountRoot, cm_mountRootLen) == 0) {
1447 if (strlen(linkp) > cm_mountRootLen)
1448 strcpy(tsp->data, linkp+cm_mountRootLen+1);
1451 *newRootScpp = cm_data.rootSCachep;
1452 cm_HoldSCache(cm_data.rootSCachep);
1453 } else if (linkp[0] == '\\' && linkp[1] == '\\') {
1454 if (!strnicmp(&linkp[2], cm_NetbiosName, (len = (long)strlen(cm_NetbiosName))))
1456 char * p = &linkp[len + 3];
1457 if (strnicmp(p, "all", 3) == 0)
1460 strcpy(tsp->data, p);
1461 for (p = tsp->data; *p; p++) {
1465 *newRootScpp = cm_data.rootSCachep;
1466 cm_HoldSCache(cm_data.rootSCachep);
1468 linkScp->fileType = CM_SCACHETYPE_DFSLINK;
1469 strcpy(tsp->data, linkp);
1470 *newRootScpp = NULL;
1471 code = CM_ERROR_PATH_NOT_COVERED;
1473 } else if ( !strnicmp(linkp, "msdfs:", (len = (long)strlen("msdfs:"))) ) {
1474 linkScp->fileType = CM_SCACHETYPE_DFSLINK;
1475 strcpy(tsp->data, linkp);
1476 *newRootScpp = NULL;
1477 code = CM_ERROR_PATH_NOT_COVERED;
1478 } else if (*linkp == '\\' || *linkp == '/') {
1480 /* formerly, this was considered to be from the AFS root,
1481 * but this seems to create problems. instead, we will just
1482 * reject the link */
1483 strcpy(tsp->data, linkp+1);
1484 *newRootScpp = cm_data.rootSCachep;
1485 cm_HoldSCache(cm_data.rootSCachep);
1487 /* we still copy the link data into the response so that
1488 * the user can see what the link points to
1490 linkScp->fileType = CM_SCACHETYPE_INVALID;
1491 strcpy(tsp->data, linkp);
1492 *newRootScpp = NULL;
1493 code = CM_ERROR_NOSUCHPATH;
1496 /* a relative link */
1497 strcpy(tsp->data, linkp);
1498 *newRootScpp = NULL;
1500 if (pathSuffixp[0] != 0) { /* if suffix string is non-null */
1501 strcat(tsp->data, "\\");
1502 strcat(tsp->data, pathSuffixp);
1504 *newSpaceBufferp = tsp;
1507 lock_ReleaseMutex(&linkScp->mx);
1511 long cm_NameI(cm_scache_t *rootSCachep, char *pathp, long flags,
1512 cm_user_t *userp, char *tidPathp, cm_req_t *reqp, cm_scache_t **outScpp)
1515 char *tp; /* ptr moving through input buffer */
1516 char tc; /* temp char */
1517 int haveComponent; /* has new component started? */
1518 char component[256]; /* this is the new component */
1519 char *cp; /* component name being assembled */
1520 cm_scache_t *tscp; /* current location in the hierarchy */
1521 cm_scache_t *nscp; /* next dude down */
1522 cm_scache_t *dirScp; /* last dir we searched */
1523 cm_scache_t *linkScp; /* new root for the symlink we just
1525 cm_space_t *psp; /* space for current path, if we've hit
1527 cm_space_t *tempsp; /* temp vbl */
1528 char *restp; /* rest of the pathname to interpret */
1529 int symlinkCount; /* count of # of symlinks traversed */
1530 int extraFlag; /* avoid chasing mt pts for dir cmd */
1531 int phase = 1; /* 1 = tidPathp, 2 = pathp */
1544 cm_HoldSCache(tscp);
1551 /* map Unix slashes into DOS ones so we can interpret Unix
1557 if (!haveComponent) {
1560 } else if (tc == 0) {
1574 /* we have a component here */
1575 if (tc == 0 || tc == '\\') {
1576 /* end of the component; we're at the last
1577 * component if tc == 0. However, if the last
1578 * is a symlink, we have more to do.
1580 *cp++ = 0; /* add null termination */
1582 if ((flags & CM_FLAG_DIRSEARCH) && tc == 0)
1583 extraFlag = CM_FLAG_NOMOUNTCHASE;
1584 code = cm_Lookup(tscp, component,
1586 userp, reqp, &nscp);
1588 cm_ReleaseSCache(tscp);
1590 cm_ReleaseSCache(dirScp);
1593 if (code == CM_ERROR_NOSUCHFILE && tscp->fileType == CM_SCACHETYPE_SYMLINK)
1594 return CM_ERROR_NOSUCHPATH;
1598 haveComponent = 0; /* component done */
1600 cm_ReleaseSCache(dirScp);
1601 dirScp = tscp; /* for some symlinks */
1602 tscp = nscp; /* already held */
1604 if (tc == 0 && !(flags & CM_FLAG_FOLLOW) && phase == 2) {
1607 cm_ReleaseSCache(dirScp);
1613 /* now, if tscp is a symlink, we should follow
1614 * it and assemble the path again.
1616 lock_ObtainMutex(&tscp->mx);
1617 code = cm_SyncOp(tscp, NULL, userp, reqp, 0,
1618 CM_SCACHESYNC_GETSTATUS
1619 | CM_SCACHESYNC_NEEDCALLBACK);
1621 lock_ReleaseMutex(&tscp->mx);
1622 cm_ReleaseSCache(tscp);
1625 cm_ReleaseSCache(dirScp);
1630 if (tscp->fileType == CM_SCACHETYPE_SYMLINK) {
1631 /* this is a symlink; assemble a new buffer */
1632 lock_ReleaseMutex(&tscp->mx);
1633 if (symlinkCount++ >= MAX_SYMLINK_COUNT) {
1634 cm_ReleaseSCache(tscp);
1637 cm_ReleaseSCache(dirScp);
1642 return CM_ERROR_TOO_MANY_SYMLINKS;
1648 code = cm_AssembleLink(tscp, restp, &linkScp, &tempsp, userp, reqp);
1650 /* something went wrong */
1651 cm_ReleaseSCache(tscp);
1654 cm_ReleaseSCache(dirScp);
1660 /* otherwise, tempsp has the new path,
1661 * and linkScp is the new root from
1662 * which to interpret that path.
1663 * Continue with the namei processing,
1664 * also doing the bookkeeping for the
1665 * space allocation and tracking the
1666 * vnode reference counts.
1672 cm_ReleaseSCache(tscp);
1677 * now, if linkScp is null, that's
1678 * AssembleLink's way of telling us that
1679 * the sym link is relative to the dir
1680 * containing the link. We have a ref
1681 * to it in dirScp, and we hold it now
1682 * and reuse it as the new spot in the
1690 /* not a symlink, we may be done */
1691 lock_ReleaseMutex(&tscp->mx);
1699 cm_ReleaseSCache(dirScp);
1707 cm_ReleaseSCache(dirScp);
1710 } /* end of a component */
1713 } /* we have a component */
1714 } /* big while loop over all components */
1718 cm_ReleaseSCache(dirScp);
1724 cm_ReleaseSCache(tscp);
1728 /* called with a dir, and a vnode within the dir that happens to be a symlink.
1729 * We chase the link, and return a held pointer to the target, if it exists,
1730 * in *outScpp. If we succeed, we return 0, otherwise we return an error code
1731 * and do not hold or return a target vnode.
1733 * This is very similar to calling cm_NameI with the last component of a name,
1734 * which happens to be a symlink, except that we've already passed by the name.
1736 * This function is typically called by the directory listing functions, which
1737 * encounter symlinks but need to return the proper file length so programs
1738 * like "more" work properly when they make use of the attributes retrieved from
1741 * The input vnode should not be locked when this function is called.
1743 long cm_EvaluateSymLink(cm_scache_t *dscp, cm_scache_t *linkScp,
1744 cm_scache_t **outScpp, cm_user_t *userp, cm_req_t *reqp)
1748 cm_scache_t *newRootScp;
1750 osi_Log1(afsd_logp, "Evaluating symlink scp 0x%p", linkScp);
1752 code = cm_AssembleLink(linkScp, "", &newRootScp, &spacep, userp, reqp);
1756 /* now, if newRootScp is NULL, we're really being told that the symlink
1757 * is relative to the current directory (dscp).
1759 if (newRootScp == NULL) {
1761 cm_HoldSCache(dscp);
1764 code = cm_NameI(newRootScp, spacep->data,
1765 CM_FLAG_CASEFOLD | CM_FLAG_FOLLOW | CM_FLAG_DIRSEARCH,
1766 userp, NULL, reqp, outScpp);
1768 if (code == CM_ERROR_NOSUCHFILE)
1769 code = CM_ERROR_NOSUCHPATH;
1771 /* this stuff is allocated no matter what happened on the namei call,
1773 cm_FreeSpace(spacep);
1774 cm_ReleaseSCache(newRootScp);
1779 /* make this big enough so that one buffer of dir pages won't overflow. We'll
1780 * check anyway, but we want to minimize the chance that we have to leave stuff
1783 #define CM_BULKMAX 128
1785 /* rock for bulk stat calls */
1786 typedef struct cm_bulkStat {
1787 osi_hyper_t bufOffset; /* only do it for things in this buffer page */
1789 /* info for the actual call */
1790 int counter; /* next free slot */
1791 AFSFid fids[CM_BULKMAX];
1792 AFSFetchStatus stats[CM_BULKMAX];
1793 AFSCallBack callbacks[CM_BULKMAX];
1796 /* for a given entry, make sure that it isn't in the stat cache, and then
1797 * add it to the list of file IDs to be obtained.
1799 * Don't bother adding it if we already have a vnode. Note that the dir
1800 * is locked, so we have to be careful checking the vnode we're thinking of
1801 * processing, to avoid deadlocks.
1803 long cm_TryBulkProc(cm_scache_t *scp, cm_dirEntry_t *dep, void *rockp,
1814 /* Don't overflow bsp. */
1815 if (bsp->counter >= CM_BULKMAX)
1816 return CM_ERROR_STOPNOW;
1818 thyper.LowPart = cm_data.buf_blockSize;
1819 thyper.HighPart = 0;
1820 thyper = LargeIntegerAdd(thyper, bsp->bufOffset);
1822 /* thyper is now the first byte past the end of the record we're
1823 * interested in, and bsp->bufOffset is the first byte of the record
1824 * we're interested in.
1825 * Skip data in the others.
1828 if (LargeIntegerLessThan(*offp, bsp->bufOffset))
1830 if (LargeIntegerGreaterThanOrEqualTo(*offp, thyper))
1831 return CM_ERROR_STOPNOW;
1832 if (strcmp(dep->name, ".") == 0 || strcmp(dep->name, "..") == 0)
1835 tfid.cell = scp->fid.cell;
1836 tfid.volume = scp->fid.volume;
1837 tfid.vnode = ntohl(dep->fid.vnode);
1838 tfid.unique = ntohl(dep->fid.unique);
1839 tscp = cm_FindSCache(&tfid);
1841 if (lock_TryMutex(&tscp->mx)) {
1842 /* we have an entry that we can look at */
1843 if (cm_HaveCallback(tscp)) {
1844 /* we have a callback on it. Don't bother
1845 * fetching this stat entry, since we're happy
1846 * with the info we have.
1848 lock_ReleaseMutex(&tscp->mx);
1849 cm_ReleaseSCache(tscp);
1852 lock_ReleaseMutex(&tscp->mx);
1854 cm_ReleaseSCache(tscp);
1857 #ifdef AFS_FREELANCE_CLIENT
1858 // yj: if this is a mountpoint under root.afs then we don't want it
1859 // to be bulkstat-ed, instead, we call getSCache directly and under
1860 // getSCache, it is handled specially.
1861 if ( cm_freelanceEnabled &&
1862 tfid.cell==AFS_FAKE_ROOT_CELL_ID &&
1863 tfid.volume==AFS_FAKE_ROOT_VOL_ID &&
1864 !(tfid.vnode==0x1 && tfid.unique==0x1) )
1866 osi_Log0(afsd_logp, "cm_TryBulkProc Freelance calls cm_SCache on root.afs mountpoint");
1867 return cm_GetSCache(&tfid, &tscp, NULL, NULL);
1869 #endif /* AFS_FREELANCE_CLIENT */
1872 bsp->fids[i].Volume = scp->fid.volume;
1873 bsp->fids[i].Vnode = tfid.vnode;
1874 bsp->fids[i].Unique = tfid.unique;
1878 /* called with a locked scp and a pointer to a buffer. Make bulk stat
1879 * calls on all undeleted files in the page of the directory specified.
1881 void cm_TryBulkStat(cm_scache_t *dscp, osi_hyper_t *offsetp, cm_user_t *userp,
1885 cm_bulkStat_t bb; /* this is *BIG*, probably 12K or so;
1886 * watch for stack problems */
1887 AFSCBFids fidStruct;
1888 AFSBulkStats statStruct;
1890 AFSCBs callbackStruct;
1893 cm_callbackRequest_t cbReq;
1899 struct rx_connection * callp;
1901 osi_Log1(afsd_logp, "cm_TryBulkStat dir 0x%p", dscp);
1903 /* should be on a buffer boundary */
1904 osi_assert((offsetp->LowPart & (cm_data.buf_blockSize - 1)) == 0);
1907 bb.bufOffset = *offsetp;
1909 lock_ReleaseMutex(&dscp->mx);
1910 /* first, assemble the file IDs we need to stat */
1911 code = cm_ApplyDir(dscp, cm_TryBulkProc, (void *) &bb, offsetp, userp, reqp, NULL);
1913 /* if we failed, bail out early */
1914 if (code && code != CM_ERROR_STOPNOW) {
1915 lock_ObtainMutex(&dscp->mx);
1919 /* otherwise, we may have one or more bulk stat's worth of stuff in bb;
1920 * make the calls to create the entries. Handle AFSCBMAX files at a
1924 while (filex < bb.counter) {
1925 filesThisCall = bb.counter - filex;
1926 if (filesThisCall > AFSCBMAX)
1927 filesThisCall = AFSCBMAX;
1929 fidStruct.AFSCBFids_len = filesThisCall;
1930 fidStruct.AFSCBFids_val = &bb.fids[filex];
1931 statStruct.AFSBulkStats_len = filesThisCall;
1932 statStruct.AFSBulkStats_val = &bb.stats[filex];
1933 callbackStruct.AFSCBs_len = filesThisCall;
1934 callbackStruct.AFSCBs_val = &bb.callbacks[filex];
1935 cm_StartCallbackGrantingCall(NULL, &cbReq);
1936 osi_Log1(afsd_logp, "CALL BulkStatus, %d entries", filesThisCall);
1938 code = cm_Conn(&dscp->fid, userp, reqp, &connp);
1942 callp = cm_GetRxConn(connp);
1943 code = RXAFS_BulkStatus(callp, &fidStruct,
1944 &statStruct, &callbackStruct, &volSync);
1945 rx_PutConnection(callp);
1947 } while (cm_Analyze(connp, userp, reqp, &dscp->fid,
1948 &volSync, NULL, &cbReq, code));
1949 code = cm_MapRPCError(code, reqp);
1952 osi_Log1(afsd_logp, "CALL BulkStatus FAILURE code 0x%x", code);
1954 osi_Log0(afsd_logp, "CALL BulkStatus SUCCESS");
1956 /* may as well quit on an error, since we're not going to do
1957 * much better on the next immediate call, either.
1960 cm_EndCallbackGrantingCall(NULL, &cbReq, NULL, 0);
1964 /* otherwise, we should do the merges */
1965 for (i = 0; i<filesThisCall; i++) {
1967 tfid.cell = dscp->fid.cell;
1968 tfid.volume = bb.fids[j].Volume;
1969 tfid.vnode = bb.fids[j].Vnode;
1970 tfid.unique = bb.fids[j].Unique;
1971 code = cm_GetSCache(&tfid, &scp, userp, reqp);
1975 /* otherwise, if this entry has no callback info,
1978 lock_ObtainMutex(&scp->mx);
1979 /* now, we have to be extra paranoid on merging in this
1980 * information, since we didn't use cm_SyncOp before
1981 * starting the fetch to make sure that no bad races
1982 * were occurring. Specifically, we need to make sure
1983 * we don't obliterate any newer information in the
1984 * vnode than have here.
1986 * Right now, be pretty conservative: if there's a
1987 * callback or a pending call, skip it.
1989 if (scp->cbServerp == NULL
1991 (CM_SCACHEFLAG_FETCHING
1992 | CM_SCACHEFLAG_STORING
1993 | CM_SCACHEFLAG_SIZESTORING))) {
1994 cm_EndCallbackGrantingCall(scp, &cbReq,
1996 CM_CALLBACK_MAINTAINCOUNT);
1997 cm_MergeStatus(scp, &bb.stats[j], &volSync,
2000 lock_ReleaseMutex(&scp->mx);
2001 cm_ReleaseSCache(scp);
2002 } /* all files in the response */
2003 /* now tell it to drop the count,
2004 * after doing the vnode processing above */
2005 cm_EndCallbackGrantingCall(NULL, &cbReq, NULL, 0);
2007 filex += filesThisCall;
2008 } /* while there are still more files to process */
2009 lock_ObtainMutex(&dscp->mx);
2010 osi_Log0(afsd_logp, "END cm_TryBulkStat");
2013 void cm_StatusFromAttr(AFSStoreStatus *statusp, cm_scache_t *scp, cm_attr_t *attrp)
2017 /* initialize store back mask as inexpensive local variable */
2019 memset(statusp, 0, sizeof(AFSStoreStatus));
2021 /* copy out queued info from scache first, if scp passed in */
2023 if (scp->mask & CM_SCACHEMASK_CLIENTMODTIME) {
2024 statusp->ClientModTime = scp->clientModTime;
2025 mask |= AFS_SETMODTIME;
2026 scp->mask &= ~CM_SCACHEMASK_CLIENTMODTIME;
2031 /* now add in our locally generated request */
2032 if (attrp->mask & CM_ATTRMASK_CLIENTMODTIME) {
2033 statusp->ClientModTime = attrp->clientModTime;
2034 mask |= AFS_SETMODTIME;
2036 if (attrp->mask & CM_ATTRMASK_UNIXMODEBITS) {
2037 statusp->UnixModeBits = attrp->unixModeBits;
2038 mask |= AFS_SETMODE;
2040 if (attrp->mask & CM_ATTRMASK_OWNER) {
2041 statusp->Owner = attrp->owner;
2042 mask |= AFS_SETOWNER;
2044 if (attrp->mask & CM_ATTRMASK_GROUP) {
2045 statusp->Group = attrp->group;
2046 mask |= AFS_SETGROUP;
2049 statusp->Mask = mask;
2052 /* set the file size, and make sure that all relevant buffers have been
2053 * truncated. Ensure that any partially truncated buffers have been zeroed
2054 * to the end of the buffer.
2056 long cm_SetLength(cm_scache_t *scp, osi_hyper_t *sizep, cm_user_t *userp,
2062 /* start by locking out buffer creation */
2063 lock_ObtainWrite(&scp->bufCreateLock);
2065 /* verify that this is a file, not a dir or a symlink */
2066 lock_ObtainMutex(&scp->mx);
2067 code = cm_SyncOp(scp, NULL, userp, reqp, 0,
2068 CM_SCACHESYNC_NEEDCALLBACK | CM_SCACHESYNC_GETSTATUS);
2072 if (scp->fileType != CM_SCACHETYPE_FILE) {
2073 code = CM_ERROR_ISDIR;
2078 if (LargeIntegerLessThan(*sizep, scp->length))
2083 lock_ReleaseMutex(&scp->mx);
2085 /* can't hold scp->mx lock here, since we may wait for a storeback to
2086 * finish if the buffer package is cleaning a buffer by storing it to
2090 buf_Truncate(scp, userp, reqp, sizep);
2092 /* now ensure that file length is short enough, and update truncPos */
2093 lock_ObtainMutex(&scp->mx);
2095 /* make sure we have a callback (so we have the right value for the
2096 * length), and wait for it to be safe to do a truncate.
2098 code = cm_SyncOp(scp, NULL, userp, reqp, PRSFS_WRITE,
2099 CM_SCACHESYNC_NEEDCALLBACK | CM_SCACHESYNC_GETSTATUS
2100 | CM_SCACHESYNC_SETSTATUS | CM_SCACHESYNC_SETSIZE);
2104 if (LargeIntegerLessThan(*sizep, scp->length)) {
2105 /* a real truncation. If truncPos is not set yet, or is bigger
2106 * than where we're truncating the file, set truncPos to this
2111 if (!(scp->mask & CM_SCACHEMASK_TRUNCPOS)
2112 || LargeIntegerLessThan(*sizep, scp->length)) {
2114 scp->truncPos = *sizep;
2115 scp->mask |= CM_SCACHEMASK_TRUNCPOS;
2117 /* in either case, the new file size has been changed */
2118 scp->length = *sizep;
2119 scp->mask |= CM_SCACHEMASK_LENGTH;
2121 else if (LargeIntegerGreaterThan(*sizep, scp->length)) {
2122 /* really extending the file */
2123 scp->length = *sizep;
2124 scp->mask |= CM_SCACHEMASK_LENGTH;
2127 /* done successfully */
2131 lock_ReleaseMutex(&scp->mx);
2132 lock_ReleaseWrite(&scp->bufCreateLock);
2137 /* set the file size or other attributes (but not both at once) */
2138 long cm_SetAttr(cm_scache_t *scp, cm_attr_t *attrp, cm_user_t *userp,
2143 AFSFetchStatus afsOutStatus;
2147 AFSStoreStatus afsInStatus;
2148 struct rx_connection * callp;
2150 /* handle file length setting */
2151 if (attrp->mask & CM_ATTRMASK_LENGTH)
2152 return cm_SetLength(scp, &attrp->length, userp, reqp);
2154 flags = CM_SCACHESYNC_STORESTATUS;
2156 lock_ObtainMutex(&scp->mx);
2157 /* otherwise, we have to make an RPC to get the status */
2158 code = cm_SyncOp(scp, NULL, userp, reqp, 0, CM_SCACHESYNC_STORESTATUS);
2160 /* make the attr structure */
2161 cm_StatusFromAttr(&afsInStatus, scp, attrp);
2163 tfid.Volume = scp->fid.volume;
2164 tfid.Vnode = scp->fid.vnode;
2165 tfid.Unique = scp->fid.unique;
2167 lock_ReleaseMutex(&scp->mx);
2171 /* now make the RPC */
2172 osi_Log1(afsd_logp, "CALL StoreStatus scp 0x%p", scp);
2174 code = cm_Conn(&scp->fid, userp, reqp, &connp);
2178 callp = cm_GetRxConn(connp);
2179 code = RXAFS_StoreStatus(callp, &tfid,
2180 &afsInStatus, &afsOutStatus, &volSync);
2181 rx_PutConnection(callp);
2183 } while (cm_Analyze(connp, userp, reqp,
2184 &scp->fid, &volSync, NULL, NULL, code));
2185 code = cm_MapRPCError(code, reqp);
2188 osi_Log1(afsd_logp, "CALL StoreStatus FAILURE, code 0x%x", code);
2190 osi_Log0(afsd_logp, "CALL StoreStatus SUCCESS");
2192 lock_ObtainMutex(&scp->mx);
2193 cm_SyncOpDone(scp, NULL, CM_SCACHESYNC_STORESTATUS);
2195 cm_MergeStatus(scp, &afsOutStatus, &volSync, userp,
2196 CM_MERGEFLAG_FORCE);
2198 /* if we're changing the mode bits, discard the ACL cache,
2199 * since we changed the mode bits.
2201 if (afsInStatus.Mask & AFS_SETMODE) cm_FreeAllACLEnts(scp);
2202 lock_ReleaseMutex(&scp->mx);
2206 long cm_Create(cm_scache_t *dscp, char *namep, long flags, cm_attr_t *attrp,
2207 cm_scache_t **scpp, cm_user_t *userp, cm_req_t *reqp)
2212 cm_callbackRequest_t cbReq;
2217 AFSStoreStatus inStatus;
2218 AFSFetchStatus updatedDirStatus;
2219 AFSFetchStatus newFileStatus;
2220 AFSCallBack newFileCallback;
2222 struct rx_connection * callp;
2224 /* can't create names with @sys in them; must expand it manually first.
2225 * return "invalid request" if they try.
2227 if (cm_ExpandSysName(namep, NULL, 0, 0)) {
2228 return CM_ERROR_ATSYS;
2231 /* before starting the RPC, mark that we're changing the file data, so
2232 * that someone who does a chmod will know to wait until our call
2235 lock_ObtainMutex(&dscp->mx);
2236 code = cm_SyncOp(dscp, NULL, userp, reqp, 0, CM_SCACHESYNC_STOREDATA);
2238 cm_StartCallbackGrantingCall(NULL, &cbReq);
2240 lock_ReleaseMutex(&dscp->mx);
2246 cm_StatusFromAttr(&inStatus, NULL, attrp);
2248 /* try the RPC now */
2249 osi_Log1(afsd_logp, "CALL CreateFile scp 0x%p", dscp);
2251 code = cm_Conn(&dscp->fid, userp, reqp, &connp);
2255 dirAFSFid.Volume = dscp->fid.volume;
2256 dirAFSFid.Vnode = dscp->fid.vnode;
2257 dirAFSFid.Unique = dscp->fid.unique;
2259 callp = cm_GetRxConn(connp);
2260 code = RXAFS_CreateFile(connp->callp, &dirAFSFid, namep,
2261 &inStatus, &newAFSFid, &newFileStatus,
2262 &updatedDirStatus, &newFileCallback,
2264 rx_PutConnection(callp);
2266 } while (cm_Analyze(connp, userp, reqp,
2267 &dscp->fid, &volSync, NULL, &cbReq, code));
2268 code = cm_MapRPCError(code, reqp);
2271 osi_Log1(afsd_logp, "CALL CreateFile FAILURE, code 0x%x", code);
2273 osi_Log0(afsd_logp, "CALL CreateFile SUCCESS");
2275 lock_ObtainMutex(&dscp->mx);
2276 cm_SyncOpDone(dscp, NULL, CM_SCACHESYNC_STOREDATA);
2278 cm_MergeStatus(dscp, &updatedDirStatus, &volSync, userp, 0);
2280 lock_ReleaseMutex(&dscp->mx);
2282 /* now try to create the file's entry, too, but be careful to
2283 * make sure that we don't merge in old info. Since we weren't locking
2284 * out any requests during the file's creation, we may have pretty old
2288 newFid.cell = dscp->fid.cell;
2289 newFid.volume = dscp->fid.volume;
2290 newFid.vnode = newAFSFid.Vnode;
2291 newFid.unique = newAFSFid.Unique;
2292 code = cm_GetSCache(&newFid, &scp, userp, reqp);
2294 lock_ObtainMutex(&scp->mx);
2295 scp->creator = userp; /* remember who created it */
2296 if (!cm_HaveCallback(scp)) {
2297 cm_MergeStatus(scp, &newFileStatus, &volSync,
2299 cm_EndCallbackGrantingCall(scp, &cbReq,
2300 &newFileCallback, 0);
2303 lock_ReleaseMutex(&scp->mx);
2308 /* make sure we end things properly */
2310 cm_EndCallbackGrantingCall(NULL, &cbReq, NULL, 0);
2315 long cm_FSync(cm_scache_t *scp, cm_user_t *userp, cm_req_t *reqp)
2319 lock_ObtainWrite(&scp->bufCreateLock);
2320 code = buf_CleanVnode(scp, userp, reqp);
2321 lock_ReleaseWrite(&scp->bufCreateLock);
2323 lock_ObtainMutex(&scp->mx);
2324 scp->flags &= ~(CM_SCACHEFLAG_OVERQUOTA
2325 | CM_SCACHEFLAG_OUTOFSPACE);
2326 if (scp->mask & (CM_SCACHEMASK_TRUNCPOS
2327 | CM_SCACHEMASK_CLIENTMODTIME
2328 | CM_SCACHEMASK_LENGTH))
2329 code = cm_StoreMini(scp, userp, reqp);
2330 lock_ReleaseMutex(&scp->mx);
2335 long cm_MakeDir(cm_scache_t *dscp, char *namep, long flags, cm_attr_t *attrp,
2336 cm_user_t *userp, cm_req_t *reqp)
2341 cm_callbackRequest_t cbReq;
2346 AFSStoreStatus inStatus;
2347 AFSFetchStatus updatedDirStatus;
2348 AFSFetchStatus newDirStatus;
2349 AFSCallBack newDirCallback;
2351 struct rx_connection * callp;
2353 /* can't create names with @sys in them; must expand it manually first.
2354 * return "invalid request" if they try.
2356 if (cm_ExpandSysName(namep, NULL, 0, 0)) {
2357 return CM_ERROR_ATSYS;
2360 /* before starting the RPC, mark that we're changing the directory
2361 * data, so that someone who does a chmod on the dir will wait until
2362 * our call completes.
2364 lock_ObtainMutex(&dscp->mx);
2365 code = cm_SyncOp(dscp, NULL, userp, reqp, 0, CM_SCACHESYNC_STOREDATA);
2367 cm_StartCallbackGrantingCall(NULL, &cbReq);
2369 lock_ReleaseMutex(&dscp->mx);
2375 cm_StatusFromAttr(&inStatus, NULL, attrp);
2377 /* try the RPC now */
2378 osi_Log1(afsd_logp, "CALL MakeDir scp 0x%p", dscp);
2380 code = cm_Conn(&dscp->fid, userp, reqp, &connp);
2384 dirAFSFid.Volume = dscp->fid.volume;
2385 dirAFSFid.Vnode = dscp->fid.vnode;
2386 dirAFSFid.Unique = dscp->fid.unique;
2388 callp = cm_GetRxConn(connp);
2389 code = RXAFS_MakeDir(connp->callp, &dirAFSFid, namep,
2390 &inStatus, &newAFSFid, &newDirStatus,
2391 &updatedDirStatus, &newDirCallback,
2393 rx_PutConnection(callp);
2395 } while (cm_Analyze(connp, userp, reqp,
2396 &dscp->fid, &volSync, NULL, &cbReq, code));
2397 code = cm_MapRPCError(code, reqp);
2400 osi_Log1(afsd_logp, "CALL MakeDir FAILURE, code 0x%x", code);
2402 osi_Log0(afsd_logp, "CALL MakeDir SUCCESS");
2404 lock_ObtainMutex(&dscp->mx);
2405 cm_SyncOpDone(dscp, NULL, CM_SCACHESYNC_STOREDATA);
2407 cm_MergeStatus(dscp, &updatedDirStatus, &volSync, userp, 0);
2409 lock_ReleaseMutex(&dscp->mx);
2411 /* now try to create the new dir's entry, too, but be careful to
2412 * make sure that we don't merge in old info. Since we weren't locking
2413 * out any requests during the file's creation, we may have pretty old
2417 newFid.cell = dscp->fid.cell;
2418 newFid.volume = dscp->fid.volume;
2419 newFid.vnode = newAFSFid.Vnode;
2420 newFid.unique = newAFSFid.Unique;
2421 code = cm_GetSCache(&newFid, &scp, userp, reqp);
2423 lock_ObtainMutex(&scp->mx);
2424 if (!cm_HaveCallback(scp)) {
2425 cm_MergeStatus(scp, &newDirStatus, &volSync,
2427 cm_EndCallbackGrantingCall(scp, &cbReq,
2428 &newDirCallback, 0);
2431 lock_ReleaseMutex(&scp->mx);
2432 cm_ReleaseSCache(scp);
2436 /* make sure we end things properly */
2438 cm_EndCallbackGrantingCall(NULL, &cbReq, NULL, 0);
2440 /* and return error code */
2444 long cm_Link(cm_scache_t *dscp, char *namep, cm_scache_t *sscp, long flags,
2445 cm_user_t *userp, cm_req_t *reqp)
2450 AFSFid existingAFSFid;
2451 AFSFetchStatus updatedDirStatus;
2452 AFSFetchStatus newLinkStatus;
2454 struct rx_connection * callp;
2456 if (dscp->fid.cell != sscp->fid.cell ||
2457 dscp->fid.volume != sscp->fid.volume) {
2458 return CM_ERROR_CROSSDEVLINK;
2461 lock_ObtainMutex(&dscp->mx);
2462 code = cm_SyncOp(dscp, NULL, userp, reqp, 0, CM_SCACHESYNC_STOREDATA);
2463 lock_ReleaseMutex(&dscp->mx);
2468 /* try the RPC now */
2469 osi_Log1(afsd_logp, "CALL Link scp 0x%p", dscp);
2471 code = cm_Conn(&dscp->fid, userp, reqp, &connp);
2474 dirAFSFid.Volume = dscp->fid.volume;
2475 dirAFSFid.Vnode = dscp->fid.vnode;
2476 dirAFSFid.Unique = dscp->fid.unique;
2478 existingAFSFid.Volume = sscp->fid.volume;
2479 existingAFSFid.Vnode = sscp->fid.vnode;
2480 existingAFSFid.Unique = sscp->fid.unique;
2482 callp = cm_GetRxConn(connp);
2483 code = RXAFS_Link(callp, &dirAFSFid, namep, &existingAFSFid,
2484 &newLinkStatus, &updatedDirStatus, &volSync);
2485 rx_PutConnection(callp);
2486 osi_Log1(smb_logp," RXAFS_Link returns 0x%x", code);
2488 } while (cm_Analyze(connp, userp, reqp,
2489 &dscp->fid, &volSync, NULL, NULL, code));
2491 code = cm_MapRPCError(code, reqp);
2494 osi_Log1(afsd_logp, "CALL Link FAILURE, code 0x%x", code);
2496 osi_Log0(afsd_logp, "CALL Link SUCCESS");
2498 lock_ObtainMutex(&dscp->mx);
2499 cm_SyncOpDone(dscp, NULL, CM_SCACHESYNC_STOREDATA);
2501 cm_MergeStatus(dscp, &updatedDirStatus, &volSync, userp, 0);
2503 lock_ReleaseMutex(&dscp->mx);
2508 long cm_SymLink(cm_scache_t *dscp, char *namep, char *contentsp, long flags,
2509 cm_attr_t *attrp, cm_user_t *userp, cm_req_t *reqp)
2517 AFSStoreStatus inStatus;
2518 AFSFetchStatus updatedDirStatus;
2519 AFSFetchStatus newLinkStatus;
2521 struct rx_connection * callp;
2523 /* before starting the RPC, mark that we're changing the directory data,
2524 * so that someone who does a chmod on the dir will wait until our
2527 lock_ObtainMutex(&dscp->mx);
2528 code = cm_SyncOp(dscp, NULL, userp, reqp, 0, CM_SCACHESYNC_STOREDATA);
2529 lock_ReleaseMutex(&dscp->mx);
2534 cm_StatusFromAttr(&inStatus, NULL, attrp);
2536 /* try the RPC now */
2537 osi_Log1(afsd_logp, "CALL Symlink scp 0x%p", dscp);
2539 code = cm_Conn(&dscp->fid, userp, reqp, &connp);
2543 dirAFSFid.Volume = dscp->fid.volume;
2544 dirAFSFid.Vnode = dscp->fid.vnode;
2545 dirAFSFid.Unique = dscp->fid.unique;
2547 callp = cm_GetRxConn(connp);
2548 code = RXAFS_Symlink(callp, &dirAFSFid, namep, contentsp,
2549 &inStatus, &newAFSFid, &newLinkStatus,
2550 &updatedDirStatus, &volSync);
2551 rx_PutConnection(callp);
2553 } while (cm_Analyze(connp, userp, reqp,
2554 &dscp->fid, &volSync, NULL, NULL, code));
2555 code = cm_MapRPCError(code, reqp);
2558 osi_Log1(afsd_logp, "CALL Symlink FAILURE, code 0x%x", code);
2560 osi_Log0(afsd_logp, "CALL Symlink SUCCESS");
2562 lock_ObtainMutex(&dscp->mx);
2563 cm_SyncOpDone(dscp, NULL, CM_SCACHESYNC_STOREDATA);
2565 cm_MergeStatus(dscp, &updatedDirStatus, &volSync, userp, 0);
2567 lock_ReleaseMutex(&dscp->mx);
2569 /* now try to create the new dir's entry, too, but be careful to
2570 * make sure that we don't merge in old info. Since we weren't locking
2571 * out any requests during the file's creation, we may have pretty old
2575 newFid.cell = dscp->fid.cell;
2576 newFid.volume = dscp->fid.volume;
2577 newFid.vnode = newAFSFid.Vnode;
2578 newFid.unique = newAFSFid.Unique;
2579 code = cm_GetSCache(&newFid, &scp, userp, reqp);
2581 lock_ObtainMutex(&scp->mx);
2582 if (!cm_HaveCallback(scp)) {
2583 cm_MergeStatus(scp, &newLinkStatus, &volSync,
2586 lock_ReleaseMutex(&scp->mx);
2587 cm_ReleaseSCache(scp);
2591 /* and return error code */
2595 long cm_RemoveDir(cm_scache_t *dscp, char *namep, cm_user_t *userp,
2602 AFSFetchStatus updatedDirStatus;
2604 struct rx_connection * callp;
2606 /* before starting the RPC, mark that we're changing the directory data,
2607 * so that someone who does a chmod on the dir will wait until our
2610 lock_ObtainMutex(&dscp->mx);
2611 code = cm_SyncOp(dscp, NULL, userp, reqp, 0, CM_SCACHESYNC_STOREDATA);
2612 lock_ReleaseMutex(&dscp->mx);
2618 /* try the RPC now */
2619 osi_Log1(afsd_logp, "CALL RemoveDir scp 0x%p", dscp);
2621 code = cm_Conn(&dscp->fid, userp, reqp, &connp);
2625 dirAFSFid.Volume = dscp->fid.volume;
2626 dirAFSFid.Vnode = dscp->fid.vnode;
2627 dirAFSFid.Unique = dscp->fid.unique;
2629 callp = cm_GetRxConn(connp);
2630 code = RXAFS_RemoveDir(callp, &dirAFSFid, namep,
2631 &updatedDirStatus, &volSync);
2632 rx_PutConnection(callp);
2634 } while (cm_Analyze(connp, userp, reqp,
2635 &dscp->fid, &volSync, NULL, NULL, code));
2636 code = cm_MapRPCErrorRmdir(code, reqp);
2639 osi_Log1(afsd_logp, "CALL RemoveDir FAILURE, code 0x%x", code);
2641 osi_Log0(afsd_logp, "CALL RemoveDir SUCCESS");
2643 lock_ObtainMutex(&dscp->mx);
2644 cm_SyncOpDone(dscp, NULL, CM_SCACHESYNC_STOREDATA);
2646 cm_dnlcRemove(dscp, namep);
2647 cm_MergeStatus(dscp, &updatedDirStatus, &volSync, userp, 0);
2649 lock_ReleaseMutex(&dscp->mx);
2651 /* and return error code */
2655 long cm_Open(cm_scache_t *scp, int type, cm_user_t *userp)
2657 /* grab mutex on contents */
2658 lock_ObtainMutex(&scp->mx);
2660 /* reset the prefetch info */
2661 scp->prefetch.base.LowPart = 0; /* base */
2662 scp->prefetch.base.HighPart = 0;
2663 scp->prefetch.end.LowPart = 0; /* and end */
2664 scp->prefetch.end.HighPart = 0;
2666 /* release mutex on contents */
2667 lock_ReleaseMutex(&scp->mx);
2673 long cm_Rename(cm_scache_t *oldDscp, char *oldNamep, cm_scache_t *newDscp,
2674 char *newNamep, cm_user_t *userp, cm_req_t *reqp)
2678 AFSFid oldDirAFSFid;
2679 AFSFid newDirAFSFid;
2681 AFSFetchStatus updatedOldDirStatus;
2682 AFSFetchStatus updatedNewDirStatus;
2685 struct rx_connection * callp;
2687 /* before starting the RPC, mark that we're changing the directory data,
2688 * so that someone who does a chmod on the dir will wait until our call
2689 * completes. We do this in vnode order so that we don't deadlock,
2690 * which makes the code a little verbose.
2692 if (oldDscp == newDscp) {
2693 /* check for identical names */
2694 if (strcmp(oldNamep, newNamep) == 0)
2695 return CM_ERROR_RENAME_IDENTICAL;
2698 lock_ObtainMutex(&oldDscp->mx);
2699 cm_dnlcRemove(oldDscp, oldNamep);
2700 cm_dnlcRemove(oldDscp, newNamep);
2701 code = cm_SyncOp(oldDscp, NULL, userp, reqp, 0,
2702 CM_SCACHESYNC_STOREDATA);
2703 lock_ReleaseMutex(&oldDscp->mx);
2706 /* two distinct dir vnodes */
2708 if (oldDscp->fid.cell != newDscp->fid.cell ||
2709 oldDscp->fid.volume != newDscp->fid.volume)
2710 return CM_ERROR_CROSSDEVLINK;
2712 /* shouldn't happen that we have distinct vnodes for two
2713 * different files, but could due to deliberate attack, or
2714 * stale info. Avoid deadlocks and quit now.
2716 if (oldDscp->fid.vnode == newDscp->fid.vnode)
2717 return CM_ERROR_CROSSDEVLINK;
2719 if (oldDscp->fid.vnode < newDscp->fid.vnode) {
2720 lock_ObtainMutex(&oldDscp->mx);
2721 cm_dnlcRemove(oldDscp, oldNamep);
2722 code = cm_SyncOp(oldDscp, NULL, userp, reqp, 0,
2723 CM_SCACHESYNC_STOREDATA);
2724 lock_ReleaseMutex(&oldDscp->mx);
2726 lock_ObtainMutex(&newDscp->mx);
2727 cm_dnlcRemove(newDscp, newNamep);
2728 code = cm_SyncOp(newDscp, NULL, userp, reqp, 0,
2729 CM_SCACHESYNC_STOREDATA);
2730 lock_ReleaseMutex(&newDscp->mx);
2732 /* cleanup first one */
2733 lock_ObtainMutex(&newDscp->mx);
2734 cm_SyncOpDone(oldDscp, NULL,
2735 CM_SCACHESYNC_STOREDATA);
2736 lock_ReleaseMutex(&oldDscp->mx);
2741 /* lock the new vnode entry first */
2742 lock_ObtainMutex(&newDscp->mx);
2743 cm_dnlcRemove(newDscp, newNamep);
2744 code = cm_SyncOp(newDscp, NULL, userp, reqp, 0,
2745 CM_SCACHESYNC_STOREDATA);
2746 lock_ReleaseMutex(&newDscp->mx);
2748 lock_ObtainMutex(&oldDscp->mx);
2749 cm_dnlcRemove(oldDscp, oldNamep);
2750 code = cm_SyncOp(oldDscp, NULL, userp, reqp, 0,
2751 CM_SCACHESYNC_STOREDATA);
2752 lock_ReleaseMutex(&oldDscp->mx);
2754 /* cleanup first one */
2755 lock_ObtainMutex(&newDscp->mx);
2756 cm_SyncOpDone(newDscp, NULL,
2757 CM_SCACHESYNC_STOREDATA);
2758 lock_ReleaseMutex(&newDscp->mx);
2762 } /* two distinct vnodes */
2769 /* try the RPC now */
2770 osi_Log2(afsd_logp, "CALL Rename old scp 0x%p new scp 0x%p",
2773 code = cm_Conn(&oldDscp->fid, userp, reqp, &connp);
2777 oldDirAFSFid.Volume = oldDscp->fid.volume;
2778 oldDirAFSFid.Vnode = oldDscp->fid.vnode;
2779 oldDirAFSFid.Unique = oldDscp->fid.unique;
2780 newDirAFSFid.Volume = newDscp->fid.volume;
2781 newDirAFSFid.Vnode = newDscp->fid.vnode;
2782 newDirAFSFid.Unique = newDscp->fid.unique;
2784 callp = cm_GetRxConn(connp);
2785 code = RXAFS_Rename(callp, &oldDirAFSFid, oldNamep,
2786 &newDirAFSFid, newNamep,
2787 &updatedOldDirStatus, &updatedNewDirStatus,
2789 rx_PutConnection(callp);
2791 } while (cm_Analyze(connp, userp, reqp, &oldDscp->fid,
2792 &volSync, NULL, NULL, code));
2793 code = cm_MapRPCError(code, reqp);
2796 osi_Log1(afsd_logp, "CALL Rename FAILURE, code 0x%x", code);
2798 osi_Log0(afsd_logp, "CALL Rename SUCCESS");
2800 /* update the individual stat cache entries for the directories */
2801 lock_ObtainMutex(&oldDscp->mx);
2802 cm_SyncOpDone(oldDscp, NULL, CM_SCACHESYNC_STOREDATA);
2804 cm_MergeStatus(oldDscp, &updatedOldDirStatus, &volSync,
2807 lock_ReleaseMutex(&oldDscp->mx);
2809 /* and update it for the new one, too, if necessary */
2811 lock_ObtainMutex(&newDscp->mx);
2812 cm_SyncOpDone(newDscp, NULL, CM_SCACHESYNC_STOREDATA);
2814 cm_MergeStatus(newDscp, &updatedNewDirStatus, &volSync,
2817 lock_ReleaseMutex(&newDscp->mx);
2820 /* and return error code */
2824 /* Byte range locks:
2826 The OpenAFS Windows client has to fake byte range locks given no
2827 server side support for such locks. This is implemented as keyed
2828 byte range locks on the cache manager.
2830 Keyed byte range locks:
2832 Each cm_scache_t structure keeps track of a list of keyed locks.
2833 The key for a lock identifies an owner of a set of locks (referred
2834 to as a client). Each key is represented by a value. The set of
2835 key values used within a specific cm_scache_t structure form a
2836 namespace that has a scope of just that cm_scache_t structure. The
2837 same key value can be used with another cm_scache_t structure and
2838 correspond to a completely different client. However it is
2839 advantageous for the SMB or IFS layer to make sure that there is a
2840 1-1 mapping between client and keys over all cm_scache_t objects.
2842 Assume a client C has key Key(C) (although, since the scope of the
2843 key is a cm_scache_t, the key can be Key(C,S), where S is the
2844 cm_scache_t. But assume a 1-1 relation between keys and clients).
2845 A byte range (O,+L) denotes byte addresses (O) through (O+L-1)
2846 inclusive (a.k.a. [O,O+L-1]). The function Key(x) is implemented
2847 through cm_generateKey() function for both SMB and IFS.
2849 The list of locks for a cm_scache_t object S is maintained in
2850 S->fileLocks. The cache manager will set a lock on the AFS file
2851 server in order to assert the locks in S->fileLocks. If only
2852 shared locks are in place for S, then the cache manager will obtain
2853 a LockRead lock, while if there are any exclusive locks, it will
2854 obtain a LockWrite lock. If the exclusive locks are all released
2855 while the shared locks remain, then the cache manager will
2856 downgrade the lock from LockWrite to LockRead. Similarly, if an
2857 exclusive lock is obtained when only shared locks exist, then the
2858 cache manager will try to upgrade the lock from LockRead to
2861 Each lock L owned by client C maintains a key L->key such that
2862 L->key == Key(C), the effective range defined by L->LOffset and
2863 L->LLength such that the range of bytes affected by the lock is
2864 (L->LOffset, +L->LLength), a type maintained in L->LockType which
2865 is either exclusive or shared.
2869 A lock exists iff it is in S->fileLocks for some cm_scache_t
2870 S. Existing locks are in one of the following states: ACTIVE,
2871 WAITLOCK, WAITUNLOCK, LOST, DELETED.
2873 The following sections describe each lock and the associated
2876 1. ACTIVE: A lock L is ACTIVE iff the cache manager has asserted
2877 the lock with the AFS file server. This type of lock can be
2878 exercised by a client to read or write to the locked region (as
2881 1.1 ACTIVE->LOST: When the AFS file server fails to extend a
2882 server lock that was required to assert the lock. Before
2883 marking the lock as lost, the cache manager checks if the file
2884 has changed on the server. If the file has not changed, then
2885 the cache manager will attempt to obtain a new server lock
2886 that is sufficient to assert the client side locks for the
2887 file. If any of these fail, the lock is marked as LOST.
2888 Otherwise, it is left as ACTIVE.
2890 1.2 ACTIVE->DELETED: Lock is released.
2892 2. WAITLOCK: A lock is in a WAITLOCK state if the cache manager
2893 grants the lock but the lock is yet to be asserted with the AFS
2894 file server. Once the file server grants the lock, the state
2895 will transition to an ACTIVE lock.
2897 2.1 WAITLOCK->ACTIVE: The server granted the lock.
2899 2.2 WAITLOCK->DELETED: Lock is abandoned, or timed out during
2902 2.3 WAITLOCK->LOST: One or more locks from this client were
2903 marked as LOST. No further locks will be granted to this
2904 client until all lost locks are removed.
2906 3. WAITUNLOCK: A lock is in a WAITUNLOCK state if the cache manager
2907 receives a request for a lock that conflicts with an existing
2908 ACTIVE or WAITLOCK lock. The lock will be placed in the queue
2909 and will be granted at such time the conflicting locks are
2910 removed, at which point the state will transition to either
2913 3.1 WAITUNLOCK->ACTIVE: The conflicting lock was removed. The
2914 current serverLock is sufficient to assert this lock, or a
2915 sufficient serverLock is obtained.
2917 3.2 WAITUNLOCK->WAITLOCK: The conflicting lock was removed,
2918 however the required serverLock is yet to be asserted with the
2921 3.3 WAITUNLOCK->DELETED: The lock is abandoned, timed out or
2924 3.5 WAITUNLOCK->LOST: One or more locks from this client were
2925 marked as LOST. No further locks will be granted to this
2926 client until all lost locks are removed.
2928 4. LOST: A lock L is LOST if the server lock that was required to
2929 assert the lock could not be obtained or if it could not be
2930 extended, or if other locks by the same client were LOST.
2931 Essentially, once a lock is LOST, the contract between the cache
2932 manager and that specific client is no longer valid.
2934 The cache manager rechecks the server lock once every minute and
2935 extends it as appropriate. If this is not done for 5 minutes,
2936 the AFS file server will release the lock (the 5 minute timeout
2937 is based on current file server code and is fairly arbitrary).
2938 Once released, the lock cannot be re-obtained without verifying
2939 that the contents of the file hasn't been modified since the
2940 time the lock was released. Re-obtaining the lock without
2941 verifying this may lead to data corruption. If the lock can not
2942 be obtained safely, then all active locks for the cm_scache_t
2945 4.1 LOST->DELETED: The lock is released.
2947 5. DELETED: The lock is no longer relevant. Eventually, it will
2948 get removed from the cm_scache_t. In the meantime, it will be
2949 treated as if it does not exist.
2951 5.1 DELETED->not exist: The lock is removed from the
2954 The following are classifications of locks based on their state.
2956 6* A lock L is ACCEPTED if it is ACTIVE or WAITLOCK. These locks
2957 have been accepted by the cache manager, but may or may not have
2958 been granted back to the client.
2960 7* A lock L is QUEUED if it is ACTIVE, WAITLOCK or WAITUNLOCK.
2962 8* A lock L is WAITING if it is WAITLOCK or WAITUNLOCK.
2966 A client C can READ range (Offset,+Length) of a file represented by
2967 cm_scache_t S iff (1):
2969 1. for all _a_ in (Offset,+Length), all of the following is true:
2971 1.1 For each ACTIVE lock L in S->fileLocks such that _a_ in
2972 (L->LOffset,+L->LLength); L->key == Key(C) OR L->LockType is
2975 1.2 For each LOST lock L in S->fileLocks such that _a_ in
2976 (L->LOffset,+L->LLength); L->LockType is shared AND L->key !=
2979 (When locks are lost on an cm_scache_t, all locks are lost. By
2980 4.2 (below), if there is an exclusive LOST lock, then there
2981 can't be any overlapping ACTIVE locks.)
2983 A client C can WRITE range (Offset,+Length) of cm_scache_t S iff (2):
2985 2. for all _a_ in (Offset,+Length), one of the following is true:
2987 2.1 Byte _a_ of S is unowned (as specified in 1.1) AND there
2988 does not exist a LOST lock L such that _a_ in
2989 (L->LOffset,+L->LLength).
2991 2.2 Byte _a_ of S is owned by C under lock L (as specified in
2992 1.2) AND L->LockType is exclusive.
2994 A client C can OBTAIN a lock L on cm_scache_t S iff (both 3 and 4):
2996 3. for all _a_ in (L->LOffset,+L->LLength), ALL of the following is
2999 3.1 If L->LockType is exclusive then there does NOT exist a
3000 ACCEPTED lock M in S->fileLocks such that _a_ in
3001 (M->LOffset,+M->LLength).
3003 (If we count all QUEUED locks then we hit cases such as
3004 cascading waiting locks where the locks later on in the queue
3005 can be granted without compromising file integrity. On the
3006 other hand if only ACCEPTED locks are considered, then locks
3007 that were received earlier may end up waiting for locks that
3008 were received later to be unlocked. The choice of ACCEPTED
3009 locks was made to mimic the Windows byte range lock
3012 3.2 If L->LockType is shared then for each ACCEPTED lock M in
3013 S->fileLocks, if _a_ in (M->LOffset,+M->LLength) then
3014 M->LockType is shared.
3016 4. For all LOST locks M in S->fileLocks, ALL of the following are true:
3018 4.1 M->key != Key(C)
3020 4.2 If M->LockType is exclusive, then (L->LOffset,+L->LLength)
3021 and (M->LOffset,+M->LLength) do not intersect.
3023 (Note: If a client loses a lock, it loses all locks.
3024 Subsequently, it will not be allowed to obtain any more locks
3025 until all existing LOST locks that belong to the client are
3026 released. Once all locks are released by a single client,
3027 there exists no further contract between the client and AFS
3028 about the contents of the file, hence the client can then
3029 proceed to obtain new locks and establish a new contract.
3031 This doesn't quite work as you think it should, because most
3032 applications aren't built to deal with losing locks they
3033 thought they once had. For now, we don't have a good
3034 solution to lost locks.
3036 Also, for consistency reasons, we have to hold off on
3037 granting locks that overlap exclusive LOST locks.)
3039 A client C can only unlock locks L in S->fileLocks which have
3042 The representation and invariants are as follows:
3044 - Each cm_scache_t structure keeps:
3046 - A queue of byte-range locks (cm_scache_t::fileLocks) which
3047 are of type cm_file_lock_t.
3049 - A record of the highest server-side lock that has been
3050 obtained for this object (cm_scache_t::serverLock), which is
3051 one of (-1), LockRead, LockWrite.
3053 - A count of ACCEPTED exclusive and shared locks that are in the
3054 queue (cm_scache_t::sharedLocks and
3055 cm_scache_t::exclusiveLocks)
3057 - Each cm_file_lock_t structure keeps:
3059 - The type of lock (cm_file_lock_t::LockType)
3061 - The key associated with the lock (cm_file_lock_t::key)
3063 - The offset and length of the lock (cm_file_lock_t::LOffset
3064 and cm_file_lock_t::LLength)
3066 - The state of the lock.
3068 - Time of issuance or last successful extension
3070 Semantic invariants:
3072 I1. The number of ACCEPTED locks in S->fileLocks are
3073 (S->sharedLocks + S->exclusiveLocks)
3075 External invariants:
3077 I3. S->serverLock is the lock that we have asserted with the
3078 AFS file server for this cm_scache_t.
3080 I4. S->serverLock == LockRead iff there is at least one ACTIVE
3081 shared lock, but no ACTIVE exclusive locks.
3083 I5. S->serverLock == LockWrite iff there is at least one ACTIVE
3086 I6. If L is a LOST lock, then for each lock M in S->fileLocks,
3087 M->key == L->key IMPLIES M is LOST or DELETED.
3092 #define IS_LOCK_ACTIVE(lockp) (((lockp)->flags & (CM_FILELOCK_FLAG_DELETED|CM_FILELOCK_FLAG_WAITLOCK|CM_FILELOCK_FLAG_WAITUNLOCK|CM_FILELOCK_FLAG_LOST)) == 0)
3094 #define IS_LOCK_WAITLOCK(lockp) (((lockp)->flags & (CM_FILELOCK_FLAG_DELETED|CM_FILELOCK_FLAG_WAITLOCK|CM_FILELOCK_FLAG_WAITUNLOCK|CM_FILELOCK_FLAG_LOST)) == CM_FILELOCK_FLAG_WAITLOCK)
3096 #define IS_LOCK_WAITUNLOCK(lockp) (((lockp)->flags & (CM_FILELOCK_FLAG_DELETED|CM_FILELOCK_FLAG_WAITLOCK|CM_FILELOCK_FLAG_WAITUNLOCK|CM_FILELOCK_FLAG_LOST)) == CM_FILELOCK_FLAG_WAITUNLOCK)
3098 #define IS_LOCK_LOST(lockp) (((lockp)->flags & (CM_FILELOCK_FLAG_DELETED|CM_FILELOCK_FLAG_LOST)) == CM_FILELOCK_FLAG_LOST)
3100 #define IS_LOCK_DELETED(lockp) (((lockp)->flags & CM_FILELOCK_FLAG_DELETED) == CM_FILELOCK_FLAG_DELETED)
3103 #define IS_LOCK_ACCEPTED(lockp) (IS_LOCK_ACTIVE(lockp) || IS_LOCK_WAITLOCK(lockp))
3106 #define IS_LOCK_CLIENTONLY(lockp) ((((lockp)->scp->flags & CM_SCACHEFLAG_RO) == CM_SCACHEFLAG_RO) || (((lockp)->flags & CM_FILELOCK_FLAG_CLIENTONLY) == CM_FILELOCK_FLAG_CLIENTONLY))
3109 #define INTERSECT_RANGE(r1,r2) (((r2).offset+(r2).length) > (r1).offset && ((r1).offset +(r1).length) > (r2).offset)
3112 #define CONTAINS_RANGE(r1,r2) (((r2).offset+(r2).length) <= ((r1).offset+(r1).length) && (r1).offset <= (r2).offset)
3114 #if defined(VICED_CAPABILITY_USE_BYTE_RANGE_LOCKS) && !defined(LOCK_TESTING)
3115 #define SCP_SUPPORTS_BRLOCKS(scp) ((scp)->cbServerp && ((scp)->cbServerp->capabilities & VICED_CAPABILITY_USE_BYTE_RANGE_LOCKS))
3117 #define SCP_SUPPORTS_BRLOCKS(scp) (1)
3120 #define SERVERLOCKS_ENABLED(scp) (!((scp)->flags & CM_SCACHEFLAG_RO) && cm_enableServerLocks && SCP_SUPPORTS_BRLOCKS(scp))
3122 static void cm_LockRangeSubtract(cm_range_t * pos, const cm_range_t * neg)
3124 afs_int64 int_begin;
3127 int_begin = MAX(pos->offset, neg->offset);
3128 int_end = MIN(pos->offset+pos->length, neg->offset+neg->length);
3130 if (int_begin < int_end) {
3131 if (int_begin == pos->offset) {
3132 pos->length = pos->offset + pos->length - int_end;
3133 pos->offset = int_end;
3134 } else if (int_end == pos->offset + pos->length) {
3135 pos->length = int_begin - pos->offset;
3138 /* We only subtract ranges if the resulting range is
3139 contiguous. If we try to support non-contigous ranges, we
3140 aren't actually improving performance. */
3144 /* Called with scp->mx held. Returns 0 if all is clear to read the
3145 specified range by the client identified by key.
3147 long cm_LockCheckRead(cm_scache_t *scp,
3148 LARGE_INTEGER LOffset,
3149 LARGE_INTEGER LLength,
3152 #ifndef ADVISORY_LOCKS
3154 cm_file_lock_t *fileLock;
3158 int substract_ranges = FALSE;
3160 range.offset = LOffset.QuadPart;
3161 range.length = LLength.QuadPart;
3165 1. for all _a_ in (Offset,+Length), all of the following is true:
3167 1.1 For each ACTIVE lock L in S->fileLocks such that _a_ in
3168 (L->LOffset,+L->LLength); L->key == Key(C) OR L->LockType is
3171 1.2 For each LOST lock L in S->fileLocks such that _a_ in
3172 (L->LOffset,+L->LLength); L->LockType is shared AND L->key !=
3177 lock_ObtainRead(&cm_scacheLock);
3179 for (q = scp->fileLocksH; q && range.length > 0; q = osi_QNext(q)) {
3181 (cm_file_lock_t *)((char *) q - offsetof(cm_file_lock_t, fileq));
3183 if (INTERSECT_RANGE(range, fileLock->range)) {
3184 if (IS_LOCK_ACTIVE(fileLock)) {
3185 if (fileLock->key == key) {
3187 /* If there is an active lock for this client, it
3188 is safe to substract ranges.*/
3189 cm_LockRangeSubtract(&range, &fileLock->range);
3190 substract_ranges = TRUE;
3192 if (fileLock->lockType != LockRead) {
3193 code = CM_ERROR_LOCK_CONFLICT;
3197 /* even if the entire range is locked for reading,
3198 we still can't grant the lock at this point
3199 because the client may have lost locks. That
3200 is, unless we have already seen an active lock
3201 belonging to the client, in which case there
3202 can't be any lost locks for this client. */
3203 if (substract_ranges)
3204 cm_LockRangeSubtract(&range, &fileLock->range);
3206 } else if (IS_LOCK_LOST(fileLock) &&
3207 (fileLock->key == key || fileLock->lockType == LockWrite)) {
3208 code = CM_ERROR_BADFD;
3214 lock_ReleaseRead(&cm_scacheLock);
3216 osi_Log4(afsd_logp, "cm_LockCheckRead scp 0x%x offset %d length %d code 0x%x",
3217 scp, (unsigned long)LOffset.QuadPart, (unsigned long)LLength.QuadPart, code);
3228 /* Called with scp->mx held. Returns 0 if all is clear to write the
3229 specified range by the client identified by key.
3231 long cm_LockCheckWrite(cm_scache_t *scp,
3232 LARGE_INTEGER LOffset,
3233 LARGE_INTEGER LLength,
3236 #ifndef ADVISORY_LOCKS
3238 cm_file_lock_t *fileLock;
3243 range.offset = LOffset.QuadPart;
3244 range.length = LLength.QuadPart;
3247 A client C can WRITE range (Offset,+Length) of cm_scache_t S iff (2):
3249 2. for all _a_ in (Offset,+Length), one of the following is true:
3251 2.1 Byte _a_ of S is unowned AND there does not exist a LOST
3252 lock L such that _a_ in (L->LOffset,+L->LLength).
3254 2.2 Byte _a_ of S is owned by C under lock L AND L->LockType is
3258 lock_ObtainRead(&cm_scacheLock);
3260 for (q = scp->fileLocksH; q && range.length > 0; q = osi_QNext(q)) {
3262 (cm_file_lock_t *)((char *) q - offsetof(cm_file_lock_t, fileq));
3264 if (INTERSECT_RANGE(range, fileLock->range)) {
3265 if (IS_LOCK_ACTIVE(fileLock)) {
3266 if (fileLock->key == key) {
3267 if (fileLock->lockType == LockWrite) {
3269 /* if there is an active lock for this client, it
3270 is safe to substract ranges */
3271 cm_LockRangeSubtract(&range, &fileLock->range);
3273 code = CM_ERROR_LOCK_CONFLICT;
3277 code = CM_ERROR_LOCK_CONFLICT;
3280 } else if (IS_LOCK_LOST(fileLock)) {
3281 code = CM_ERROR_BADFD;
3287 lock_ReleaseRead(&cm_scacheLock);
3289 osi_Log4(afsd_logp, "cm_LockCheckWrite scp 0x%x offset %d length %d code 0x%x",
3290 scp, (unsigned long)LOffset.QuadPart, (unsigned long)LLength.QuadPart, code);
3302 static void cm_LockMarkSCacheLost(cm_scache_t * scp);
3304 /* Called with cm_scacheLock write locked */
3305 static cm_file_lock_t * cm_GetFileLock(void) {
3308 l = (cm_file_lock_t *) cm_freeFileLocks;
3310 osi_QRemove(&cm_freeFileLocks, &l->q);
3312 l = malloc(sizeof(cm_file_lock_t));
3316 memset(l, 0, sizeof(cm_file_lock_t));
3321 /* Called with cm_scacheLock write locked */
3322 static void cm_PutFileLock(cm_file_lock_t *l) {
3323 osi_QAdd(&cm_freeFileLocks, &l->q);
3326 /* called with scp->mx held. May release it during processing, but
3327 leaves it held on exit. */
3328 long cm_IntSetLock(cm_scache_t * scp, cm_user_t * userp, int lockType,
3334 struct rx_connection * callp;
3337 tfid.Volume = scp->fid.volume;
3338 tfid.Vnode = scp->fid.vnode;
3339 tfid.Unique = scp->fid.unique;
3342 osi_Log2(afsd_logp, "CALL SetLock scp 0x%p for lock %d", scp, lockType);
3344 lock_ReleaseMutex(&scp->mx);
3347 code = cm_Conn(&cfid, userp, reqp, &connp);
3351 callp = cm_GetRxConn(connp);
3352 code = RXAFS_SetLock(callp, &tfid, lockType,
3354 rx_PutConnection(callp);
3356 } while (cm_Analyze(connp, userp, reqp, &cfid, &volSync,
3359 code = cm_MapRPCError(code, reqp);
3361 osi_Log1(afsd_logp, "CALL SetLock FAILURE, code 0x%x", code);
3363 osi_Log0(afsd_logp, "CALL SetLock SUCCESS");
3366 lock_ObtainMutex(&scp->mx);
3371 /* called with scp->mx held. Releases it during processing */
3372 long cm_IntReleaseLock(cm_scache_t * scp, cm_user_t * userp,
3378 struct rx_connection * callp;
3381 tfid.Volume = scp->fid.volume;
3382 tfid.Vnode = scp->fid.vnode;
3383 tfid.Unique = scp->fid.unique;
3386 lock_ReleaseMutex(&scp->mx);
3388 osi_Log1(afsd_logp, "CALL ReleaseLock scp 0x%p", scp);
3391 code = cm_Conn(&cfid, userp, reqp, &connp);
3395 callp = cm_GetRxConn(connp);
3396 code = RXAFS_ReleaseLock(callp, &tfid, &volSync);
3397 rx_PutConnection(callp);
3399 } while (cm_Analyze(connp, userp, reqp, &cfid, &volSync,
3401 code = cm_MapRPCError(code, reqp);
3404 "CALL ReleaseLock FAILURE, code 0x%x", code);
3407 "CALL ReleaseLock SUCCESS");
3409 lock_ObtainMutex(&scp->mx);
3414 /* called with scp->mx held. May release it during processing, but
3415 will exit with lock held.
3419 - 0 if the user has permission to get the specified lock for the scp
3421 - CM_ERROR_NOACCESS if not
3423 Any other error from cm_SyncOp will be sent down untranslated.
3425 long cm_LockCheckPerms(cm_scache_t * scp,
3433 /* lock permissions are slightly tricky because of the 'i' bit.
3434 If the user has PRSFS_LOCK, she can read-lock the file. If the
3435 user has PRSFS_WRITE, she can write-lock the file. However, if
3436 the user has PRSFS_INSERT, then she can write-lock new files,
3437 but not old ones. Since we don't have information about
3438 whether a file is new or not, we assume that if the user owns
3439 the scp, then she has the permissions that are granted by
3442 osi_Log3(afsd_logp, "cm_LockCheckPerms for scp[0x%p] type[%d] user[0x%p]",
3443 scp, lock_type, userp);
3445 if (lock_type == LockRead)
3446 rights |= PRSFS_LOCK;
3447 else if (lock_type == LockWrite)
3448 rights |= PRSFS_WRITE;
3455 code = cm_SyncOp(scp, NULL, userp, reqp, rights,
3456 CM_SCACHESYNC_GETSTATUS |
3457 CM_SCACHESYNC_NEEDCALLBACK);
3459 if (code == CM_ERROR_NOACCESS &&
3460 lock_type == LockWrite &&
3461 scp->creator == userp) {
3462 /* check for PRSFS_INSERT. */
3465 code = cm_SyncOp(scp, NULL, userp, reqp, PRSFS_INSERT,
3466 CM_SCACHESYNC_GETSTATUS |
3467 CM_SCACHESYNC_NEEDCALLBACK);
3469 if (code == CM_ERROR_NOACCESS)
3470 osi_Log0(afsd_logp, "cm_LockCheckPerms user is creator but has no INSERT bits for scp");
3474 osi_Log1(afsd_logp, "cm_LockCheckPerms returning code %d", code);
3479 /* called with scp->mx held */
3480 long cm_Lock(cm_scache_t *scp, unsigned char sLockType,
3481 LARGE_INTEGER LOffset, LARGE_INTEGER LLength,
3483 int allowWait, cm_user_t *userp, cm_req_t *reqp,
3484 cm_file_lock_t **lockpp)
3487 int Which = ((sLockType & LOCKING_ANDX_SHARED_LOCK) ? LockRead : LockWrite);
3488 cm_file_lock_t *fileLock;
3491 int wait_unlock = FALSE;
3492 int force_client_lock = FALSE;
3494 osi_Log4(afsd_logp, "cm_Lock scp 0x%x type 0x%x offset %d length %d",
3495 scp, sLockType, (unsigned long)LOffset.QuadPart, (unsigned long)LLength.QuadPart);
3496 osi_Log3(afsd_logp, "... allowWait %d key 0x%x:%x", allowWait,
3497 (unsigned long)(key >> 32), (unsigned long)(key & 0xffffffff));
3500 A client C can OBTAIN a lock L on cm_scache_t S iff (both 3 and 4):
3502 3. for all _a_ in (L->LOffset,+L->LLength), ALL of the following is
3505 3.1 If L->LockType is exclusive then there does NOT exist a
3506 ACCEPTED lock M in S->fileLocks such that _a_ in
3507 (M->LOffset,+M->LLength).
3509 3.2 If L->LockType is shared then for each ACCEPTED lock M in
3510 S->fileLocks, if _a_ in (M->LOffset,+M->LLength) then
3511 M->LockType is shared.
3513 4. For all LOST locks M in S->fileLocks, ALL of the following are true:
3515 4.1 M->key != Key(C)
3517 4.2 If M->LockType is exclusive, then (L->LOffset,+L->LLength)
3518 and (M->LOffset,+M->LLength) do not intersect.
3521 range.offset = LOffset.QuadPart;
3522 range.length = LLength.QuadPart;
3524 lock_ObtainRead(&cm_scacheLock);
3526 for (q = scp->fileLocksH; q; q = osi_QNext(q)) {
3528 (cm_file_lock_t *)((char *) q - offsetof(cm_file_lock_t, fileq));
3530 if (IS_LOCK_LOST(fileLock)) {
3531 if (fileLock->key == key) {
3532 code = CM_ERROR_BADFD;
3534 } else if (fileLock->lockType == LockWrite && INTERSECT_RANGE(range, fileLock->range)) {
3535 code = CM_ERROR_WOULDBLOCK;
3541 /* we don't need to check for deleted locks here since deleted
3542 locks are dequeued from scp->fileLocks */
3543 if (IS_LOCK_ACCEPTED(fileLock) &&
3544 INTERSECT_RANGE(range, fileLock->range)) {
3546 if ((sLockType & LOCKING_ANDX_SHARED_LOCK) == 0 ||
3547 fileLock->lockType != LockRead) {
3549 code = CM_ERROR_WOULDBLOCK;
3555 lock_ReleaseRead(&cm_scacheLock);
3557 if (code == 0 && SERVERLOCKS_ENABLED(scp)) {
3558 if (Which == scp->serverLock ||
3559 (Which == LockRead && scp->serverLock == LockWrite)) {
3561 /* we already have the lock we need */
3562 osi_Log3(afsd_logp, " we already have the correct lock. exclusives[%d], shared[%d], serverLock[%d]",
3563 scp->exclusiveLocks, scp->sharedLocks, (int)(signed char) scp->serverLock);
3565 code = cm_LockCheckPerms(scp, Which, userp, reqp);
3567 /* special case: if we don't have permission to read-lock
3568 the file, then we force a clientside lock. This is to
3569 compensate for applications that obtain a read-lock for
3570 reading files off of directories that don't grant
3571 read-locks to the user. */
3572 if (code == CM_ERROR_NOACCESS && Which == LockRead) {
3573 osi_Log0(afsd_logp, " User has no read-lock perms. Forcing client-side lock");
3574 force_client_lock = TRUE;
3577 } else if ((scp->exclusiveLocks > 0) ||
3578 (scp->sharedLocks > 0 && scp->serverLock != LockRead)) {
3580 /* We are already waiting for some other lock. We should
3581 wait for the daemon to catch up instead of generating a
3582 flood of SetLock calls. */
3583 osi_Log3(afsd_logp, " already waiting for other lock. exclusives[%d], shared[%d], serverLock[%d]",
3584 scp->exclusiveLocks, scp->sharedLocks, (int)(signed char) scp->serverLock);
3586 /* see if we have permission to create the lock in the
3588 code = cm_LockCheckPerms(scp, Which, userp, reqp);
3590 code = CM_ERROR_WOULDBLOCK;
3591 else if (code == CM_ERROR_NOACCESS && Which == LockRead) {
3592 osi_Log0(afsd_logp, " User has no read-lock perms. Forcing client-side lock");
3593 force_client_lock = TRUE;
3596 /* leave any other codes as-is */
3600 int check_data_version = FALSE;
3602 /* first check if we have permission to elevate or obtain
3604 code = cm_LockCheckPerms(scp, Which, userp, reqp);
3606 if (code == CM_ERROR_NOACCESS && Which == LockRead) {
3607 osi_Log0(afsd_logp, " User has no read-lock perms. Forcing client-side lock");
3608 force_client_lock = TRUE;
3613 if (scp->serverLock == LockRead && Which == LockWrite) {
3615 /* We want to escalate the lock to a LockWrite.
3616 Unfortunately that's not really possible without
3617 letting go of the current lock. But for now we do
3621 " attempting to UPGRADE from LockRead to LockWrite.");
3623 " dataVersion on scp: %d", scp->dataVersion);
3625 /* we assume at this point (because scp->serverLock
3626 was valid) that we had a valid server lock. */
3627 scp->lockDataVersion = scp->dataVersion;
3628 check_data_version = TRUE;
3630 code = cm_IntReleaseLock(scp, userp, reqp);
3633 /* We couldn't release the lock */
3636 scp->serverLock = -1;
3640 /* We need to obtain a server lock of type Which in order
3641 to assert this file lock */
3642 #ifndef AGGRESSIVE_LOCKS
3645 newLock = LockWrite;
3647 code = cm_IntSetLock(scp, userp, newLock, reqp);
3649 if (code == CM_ERROR_WOULDBLOCK && newLock != Which) {
3650 /* we wanted LockRead. We tried LockWrite. Now try
3655 osi_assert(newLock == LockRead);
3657 code = cm_IntSetLock(scp, userp, newLock, reqp);
3660 if (code == 0 && check_data_version &&
3661 scp->dataVersion != scp->lockDataVersion) {
3662 /* We lost a race. Although we successfully obtained
3663 a lock, someone modified the file in between. The
3664 locks have all been technically lost. */
3667 " Data version mismatch while upgrading lock.");
3669 " Data versions before=%d, after=%d",
3670 scp->lockDataVersion,
3673 " Releasing stale lock for scp 0x%x", scp);
3675 code = cm_IntReleaseLock(scp, userp, reqp);
3677 scp->serverLock = -1;
3679 code = CM_ERROR_INVAL;
3680 } else if (code == 0) {
3681 scp->serverLock = newLock;
3682 scp->lockDataVersion = scp->dataVersion;
3686 (scp->sharedLocks > 0 || scp->exclusiveLocks > 0) &&
3687 scp->serverLock == -1) {
3688 /* Oops. We lost the lock. */
3689 cm_LockMarkSCacheLost(scp);
3692 } else if (code == 0) { /* server locks not enabled */
3694 " Skipping server lock for scp");
3699 if (code != 0 && !force_client_lock) {
3700 /* Special case error translations
3702 Applications don't expect certain errors from a
3703 LockFile/UnlockFile call. We need to translate some error
3704 code to codes that apps expect and handle. */
3706 /* We shouldn't actually need to handle this case since we
3707 simulate locks for RO scps anyway. */
3708 if (code == CM_ERROR_READONLY) {
3709 osi_Log0(afsd_logp, " Reinterpreting CM_ERROR_READONLY as CM_ERROR_NOACCESS");
3710 code = CM_ERROR_NOACCESS;
3714 if (code == 0 || (code == CM_ERROR_WOULDBLOCK && allowWait) ||
3715 force_client_lock) {
3717 /* clear the error if we are forcing a client lock, so we
3718 don't get confused later. */
3719 if (force_client_lock && code != CM_ERROR_WOULDBLOCK)
3722 lock_ObtainWrite(&cm_scacheLock);
3723 fileLock = cm_GetFileLock();
3724 lock_ReleaseWrite(&cm_scacheLock);
3726 fileLock->fid = scp->fid;
3728 fileLock->key = key;
3729 fileLock->lockType = Which;
3731 fileLock->userp = userp;
3732 fileLock->range = range;
3733 fileLock->flags = (code == 0 ? 0 :
3735 CM_FILELOCK_FLAG_WAITUNLOCK :
3736 CM_FILELOCK_FLAG_WAITLOCK));
3738 if (force_client_lock || !SERVERLOCKS_ENABLED(scp))
3739 fileLock->flags |= CM_FILELOCK_FLAG_CLIENTONLY;
3741 fileLock->lastUpdate = (code == 0 && !force_client_lock) ? time(NULL) : 0;
3743 lock_ObtainWrite(&cm_scacheLock);
3744 osi_QAddT(&scp->fileLocksH, &scp->fileLocksT, &fileLock->fileq);
3745 cm_HoldSCacheNoLock(scp);
3746 fileLock->scp = scp;
3747 osi_QAdd(&cm_allFileLocks, &fileLock->q);
3748 lock_ReleaseWrite(&cm_scacheLock);
3754 if (IS_LOCK_CLIENTONLY(fileLock)) {
3756 } else if (IS_LOCK_ACCEPTED(fileLock)) {
3757 if (Which == LockRead)
3760 scp->exclusiveLocks++;
3764 "cm_Lock Lock added 0x%p flags 0x%x to scp [0x%p]",
3765 fileLock, fileLock->flags, scp);
3767 " exclusives[%d] shared[%d] client[%d] serverLock[%d]",
3768 scp->exclusiveLocks, scp->sharedLocks, scp->clientLocks,
3769 (int)(signed char) scp->serverLock);
3772 "cm_Lock Rejecting lock (code = 0x%x)", code);
3778 static int cm_KeyEquals(cm_key_t k1, cm_key_t k2, int flags);
3780 /* Called with scp->mx held */
3781 long cm_UnlockByKey(cm_scache_t * scp,
3788 cm_file_lock_t *fileLock;
3789 osi_queue_t *q, *qn;
3792 osi_Log4(afsd_logp, "cm_UnlockByKey scp 0x%p key 0x%x:%x flags=0x%x",
3794 (unsigned long)(key >> 32),
3795 (unsigned long)(key & 0xffffffff),
3798 lock_ObtainWrite(&cm_scacheLock);
3800 for (q = scp->fileLocksH; q; q = qn) {
3803 fileLock = (cm_file_lock_t *)
3804 ((char *) q - offsetof(cm_file_lock_t, fileq));
3807 osi_Log4(afsd_logp, " Checking lock[0x%x] range[%d,+%d] type[%d]",
3809 (unsigned long) fileLock->range.offset,
3810 (unsigned long) fileLock->range.length,
3811 fileLock->lockType);
3812 osi_Log3(afsd_logp, " key[0x%x:%x] flags[0x%x]",
3813 (unsigned long)(fileLock->key >> 32),
3814 (unsigned long)(fileLock->key & 0xffffffff),
3817 if (cm_FidCmp(&fileLock->fid, &fileLock->scp->fid)) {
3818 osi_Log0(afsd_logp, "!!fileLock->fid != scp->fid");
3819 osi_Log4(afsd_logp, " fileLock->fid(cell=[%d], volume=[%d], vnode=[%d], unique=[%d]",
3821 fileLock->fid.volume,
3822 fileLock->fid.vnode,
3823 fileLock->fid.unique);
3824 osi_Log4(afsd_logp, " scp->fid(cell=[%d], volume=[%d], vnode=[%d], unique=[%d]",
3825 fileLock->scp->fid.cell,
3826 fileLock->scp->fid.volume,
3827 fileLock->scp->fid.vnode,
3828 fileLock->scp->fid.unique);
3833 if (!IS_LOCK_DELETED(fileLock) &&
3834 cm_KeyEquals(fileLock->key, key, flags)) {
3835 osi_Log3(afsd_logp, "...Unlock range [%d,+%d] type %d",
3836 fileLock->range.offset,
3837 fileLock->range.length,
3838 fileLock->lockType);
3840 if (scp->fileLocksT == q)
3841 scp->fileLocksT = osi_QPrev(q);
3842 osi_QRemoveHT(&scp->fileLocksH, &scp->fileLocksT, q);
3844 if (IS_LOCK_CLIENTONLY(fileLock)) {
3846 } else if (IS_LOCK_ACCEPTED(fileLock)) {
3847 if (fileLock->lockType == LockRead)
3850 scp->exclusiveLocks--;
3853 fileLock->flags |= CM_FILELOCK_FLAG_DELETED;
3855 cm_ReleaseUser(fileLock->userp);
3856 cm_ReleaseSCacheNoLock(scp);
3858 fileLock->userp = NULL;
3859 fileLock->scp = NULL;
3865 lock_ReleaseWrite(&cm_scacheLock);
3867 if (n_unlocks == 0) {
3868 osi_Log0(afsd_logp, "cm_UnlockByKey no locks found");
3869 osi_Log3(afsd_logp, " Leaving scp with exclusives[%d], shared[%d], serverLock[%d]",
3870 scp->exclusiveLocks, scp->sharedLocks, (int)(signed char) scp->serverLock);
3875 osi_Log1(afsd_logp, "cm_UnlockByKey done with %d locks", n_unlocks);
3877 osi_assertx(scp->sharedLocks >= 0, "scp->sharedLocks < 0");
3878 osi_assertx(scp->exclusiveLocks >= 0, "scp->exclusiveLocks < 0");
3879 osi_assertx(scp->clientLocks >= 0, "scp->clientLocks < 0");
3881 if (!SERVERLOCKS_ENABLED(scp)) {
3882 osi_Log0(afsd_logp, " Skipping server lock for scp");
3886 /* Ideally we would go through the rest of the locks to determine
3887 * if one or more locks that were formerly in WAITUNLOCK can now
3888 * be put to ACTIVE or WAITLOCK and update scp->exclusiveLocks and
3889 * scp->sharedLocks accordingly. However, the retrying of locks
3890 * in that manner is done cm_RetryLock() manually.
3893 if (scp->serverLock == LockWrite &&
3894 scp->exclusiveLocks == 0 &&
3895 scp->sharedLocks > 0) {
3897 /* The serverLock should be downgraded to LockRead */
3898 osi_Log0(afsd_logp, " DOWNGRADE lock from LockWrite to LockRead");
3900 /* since scp->serverLock looked sane, we are going to assume
3901 that we have a valid server lock. */
3902 scp->lockDataVersion = scp->dataVersion;
3903 osi_Log1(afsd_logp, " dataVersion on scp = %d", scp->dataVersion);
3905 code = cm_IntReleaseLock(scp, userp, reqp);
3908 /* so we couldn't release it. Just let the lock be for now */
3912 scp->serverLock = -1;
3915 code = cm_IntSetLock(scp, userp, LockRead, reqp);
3917 if (code == 0 && scp->lockDataVersion == scp->dataVersion) {
3918 scp->serverLock = LockRead;
3919 } else if (code == 0 && scp->lockDataVersion != scp->dataVersion) {
3920 /* We lost a race condition. Although we have a valid
3921 lock on the file, the data has changed and essentially
3922 we have lost the lock we had during the transition. */
3924 osi_Log0(afsd_logp, "Data version mismatch during lock downgrade");
3925 osi_Log2(afsd_logp, " Data versions before=%d, after=%d",
3926 scp->lockDataVersion,
3929 code = cm_IntReleaseLock(scp, userp, reqp);
3931 code = CM_ERROR_INVAL;
3932 scp->serverLock = -1;
3936 (scp->sharedLocks > 0 || scp->exclusiveLocks > 0) &&
3937 (scp->serverLock == -1)) {
3939 cm_LockMarkSCacheLost(scp);
3942 /* failure here has no bearing on the return value of
3946 } else if (scp->serverLock != (-1) &&
3947 scp->exclusiveLocks == 0 &&
3948 scp->sharedLocks == 0) {
3949 /* The serverLock should be released entirely */
3951 code = cm_IntReleaseLock(scp, userp, reqp);
3954 scp->serverLock = (-1);
3959 osi_Log1(afsd_logp, "cm_UnlockByKey code 0x%x", code);
3960 osi_Log4(afsd_logp, " Leaving scp with excl[%d], shared[%d], client[%d], serverLock[%d]",
3961 scp->exclusiveLocks, scp->sharedLocks, scp->clientLocks,
3962 (int)(signed char) scp->serverLock);
3967 long cm_Unlock(cm_scache_t *scp,
3968 unsigned char sLockType,
3969 LARGE_INTEGER LOffset, LARGE_INTEGER LLength,
3975 int Which = ((sLockType & LOCKING_ANDX_SHARED_LOCK) ? LockRead : LockWrite);
3976 cm_file_lock_t *fileLock;
3978 int release_userp = FALSE;
3980 osi_Log4(afsd_logp, "cm_Unlock scp 0x%p type 0x%x offset %d length %d",
3981 scp, sLockType, (unsigned long)LOffset.QuadPart, (unsigned long)LLength.QuadPart);
3982 osi_Log2(afsd_logp, "... key 0x%x:%x",
3983 (unsigned long) (key >> 32), (unsigned long) (key & 0xffffffff));
3985 lock_ObtainRead(&cm_scacheLock);
3987 for (q = scp->fileLocksH; q; q = osi_QNext(q)) {
3988 fileLock = (cm_file_lock_t *)
3989 ((char *) q - offsetof(cm_file_lock_t, fileq));
3992 if (cm_FidCmp(&fileLock->fid, &fileLock->scp->fid)) {
3993 osi_Log0(afsd_logp, "!!fileLock->fid != scp->fid");
3994 osi_Log4(afsd_logp, " fileLock->fid(cell=[%d], volume=[%d], vnode=[%d], unique=[%d]",
3996 fileLock->fid.volume,
3997 fileLock->fid.vnode,
3998 fileLock->fid.unique);
3999 osi_Log4(afsd_logp, " scp->fid(cell=[%d], volume=[%d], vnode=[%d], unique=[%d]",
4000 fileLock->scp->fid.cell,
4001 fileLock->scp->fid.volume,
4002 fileLock->scp->fid.vnode,
4003 fileLock->scp->fid.unique);
4007 if (!IS_LOCK_DELETED(fileLock) &&
4008 fileLock->key == key &&
4009 fileLock->range.offset == LOffset.QuadPart &&
4010 fileLock->range.length == LLength.QuadPart) {
4016 osi_Log0(afsd_logp, "cm_Unlock lock not found; failure");
4018 lock_ReleaseRead(&cm_scacheLock);
4020 /* The lock didn't exist anyway. *shrug* */
4024 lock_ReleaseRead(&cm_scacheLock);
4026 /* discard lock record */
4027 lock_ObtainWrite(&cm_scacheLock);
4028 if (scp->fileLocksT == q)
4029 scp->fileLocksT = osi_QPrev(q);
4030 osi_QRemoveHT(&scp->fileLocksH, &scp->fileLocksT, q);
4033 * Don't delete it here; let the daemon delete it, to simplify
4034 * the daemon's traversal of the list.
4037 if (IS_LOCK_CLIENTONLY(fileLock)) {
4039 } else if (IS_LOCK_ACCEPTED(fileLock)) {
4040 if (fileLock->lockType == LockRead)
4043 scp->exclusiveLocks--;
4046 fileLock->flags |= CM_FILELOCK_FLAG_DELETED;
4047 if (userp != NULL) {
4048 cm_ReleaseUser(fileLock->userp);
4050 userp = fileLock->userp;
4051 release_userp = TRUE;
4053 fileLock->userp = NULL;
4054 cm_ReleaseSCacheNoLock(scp);
4055 fileLock->scp = NULL;
4056 lock_ReleaseWrite(&cm_scacheLock);
4058 if (!SERVERLOCKS_ENABLED(scp)) {
4059 osi_Log0(afsd_logp, " Skipping server locks for scp");
4063 /* Ideally we would go through the rest of the locks to determine
4064 * if one or more locks that were formerly in WAITUNLOCK can now
4065 * be put to ACTIVE or WAITLOCK and update scp->exclusiveLocks and
4066 * scp->sharedLocks accordingly. However, the retrying of locks
4067 * in that manner is done cm_RetryLock() manually.
4070 if (scp->serverLock == LockWrite &&
4071 scp->exclusiveLocks == 0 &&
4072 scp->sharedLocks > 0) {
4074 /* The serverLock should be downgraded to LockRead */
4075 osi_Log0(afsd_logp, " DOWNGRADE lock from LockWrite to LockRead");
4077 /* Since we already had a lock, we assume that there is a
4078 valid server lock. */
4079 scp->lockDataVersion = scp->dataVersion;
4080 osi_Log1(afsd_logp, " dataVersion on scp is %d", scp->dataVersion);
4082 code = cm_IntReleaseLock(scp, userp, reqp);
4085 /* so we couldn't release it. Just let the lock be for now */
4089 scp->serverLock = -1;
4092 code = cm_IntSetLock(scp, userp, LockRead, reqp);
4094 if (code == 0 && scp->lockDataVersion == scp->dataVersion) {
4095 scp->serverLock = LockRead;
4096 } else if (code == 0 && scp->lockDataVersion != scp->dataVersion) {
4097 /* Lost a race. We obtained a new lock, but that is
4098 meaningless since someone modified the file
4102 "Data version mismatch while downgrading lock");
4104 " Data versions before=%d, after=%d",
4105 scp->lockDataVersion,
4108 code = cm_IntReleaseLock(scp, userp, reqp);
4110 scp->serverLock = -1;
4111 code = CM_ERROR_INVAL;
4115 (scp->sharedLocks > 0 || scp->exclusiveLocks > 0) &&
4116 (scp->serverLock == -1)) {
4118 cm_LockMarkSCacheLost(scp);
4121 /* failure here has no bearing on the return value of
4125 } else if (scp->serverLock != (-1) &&
4126 scp->exclusiveLocks == 0 &&
4127 scp->sharedLocks == 0) {
4128 /* The serverLock should be released entirely */
4130 code = cm_IntReleaseLock(scp, userp, reqp);
4133 scp->serverLock = (-1);
4138 cm_ReleaseUser(userp);
4142 osi_Log1(afsd_logp, "cm_Unlock code 0x%x", code);
4143 osi_Log4(afsd_logp, " leaving scp with excl[%d], shared[%d], client[%d], serverLock[%d]",
4144 scp->exclusiveLocks, scp->sharedLocks, scp->clientLocks,
4145 (int)(signed char) scp->serverLock);
4150 /* called with scp->mx held */
4151 static void cm_LockMarkSCacheLost(cm_scache_t * scp)
4153 cm_file_lock_t *fileLock;
4156 osi_Log1(afsd_logp, "cm_LockMarkSCacheLost scp 0x%x", scp);
4159 /* With the current code, we can't lose a lock on a RO scp */
4160 osi_assert(!(scp->flags & CM_SCACHEFLAG_RO));
4163 /* cm_scacheLock needed because we are modifying fileLock->flags */
4164 lock_ObtainWrite(&cm_scacheLock);
4166 for (q = scp->fileLocksH; q; q = osi_QNext(q)) {
4168 (cm_file_lock_t *)((char *) q - offsetof(cm_file_lock_t, fileq));
4170 if (IS_LOCK_ACTIVE(fileLock) &&
4171 !IS_LOCK_CLIENTONLY(fileLock)) {
4172 if (fileLock->lockType == LockRead)
4175 scp->exclusiveLocks--;
4177 fileLock->flags |= CM_FILELOCK_FLAG_LOST;
4181 scp->serverLock = -1;
4182 scp->lockDataVersion = -1;
4183 lock_ReleaseWrite(&cm_scacheLock);
4186 /* Called with no relevant locks held */
4187 void cm_CheckLocks()
4189 osi_queue_t *q, *nq;
4190 cm_file_lock_t *fileLock;
4196 struct rx_connection * callp;
4201 lock_ObtainWrite(&cm_scacheLock);
4203 cm_lockRefreshCycle++;
4205 osi_Log1(afsd_logp, "cm_CheckLocks starting lock check cycle %d", cm_lockRefreshCycle);
4207 for (q = cm_allFileLocks; q; q = nq) {
4208 fileLock = (cm_file_lock_t *) q;
4212 if (IS_LOCK_DELETED(fileLock)) {
4214 osi_QRemove(&cm_allFileLocks, q);
4215 cm_PutFileLock(fileLock);
4217 } else if (IS_LOCK_ACTIVE(fileLock) && !IS_LOCK_CLIENTONLY(fileLock)) {
4219 /* Server locks must have been enabled for us to have
4220 received an active non-client-only lock. */
4221 osi_assert(cm_enableServerLocks);
4223 scp = fileLock->scp;
4224 osi_assert(scp != NULL);
4226 cm_HoldSCacheNoLock(scp);
4229 if (cm_FidCmp(&fileLock->fid, &fileLock->scp->fid)) {
4230 osi_Log0(afsd_logp, "!!fileLock->fid != scp->fid");
4231 osi_Log4(afsd_logp, " fileLock->fid(cell=[%d], volume=[%d], vnode=[%d], unique=[%d]",
4233 fileLock->fid.volume,
4234 fileLock->fid.vnode,
4235 fileLock->fid.unique);
4236 osi_Log4(afsd_logp, " scp->fid(cell=[%d], volume=[%d], vnode=[%d], unique=[%d]",
4237 fileLock->scp->fid.cell,
4238 fileLock->scp->fid.volume,
4239 fileLock->scp->fid.vnode,
4240 fileLock->scp->fid.unique);
4244 /* Server locks are extended once per scp per refresh
4246 if (scp->lastRefreshCycle != cm_lockRefreshCycle) {
4248 int scp_done = FALSE;
4250 osi_Log1(afsd_logp, "cm_CheckLocks Updating scp 0x%x", scp);
4252 lock_ReleaseWrite(&cm_scacheLock);
4253 lock_ObtainMutex(&scp->mx);
4255 /* did the lock change while we weren't holding the lock? */
4256 if (!IS_LOCK_ACTIVE(fileLock))
4257 goto post_syncopdone;
4259 code = cm_SyncOp(scp, NULL, fileLock->userp, &req, 0,
4260 CM_SCACHESYNC_NEEDCALLBACK
4261 | CM_SCACHESYNC_GETSTATUS
4262 | CM_SCACHESYNC_LOCK);
4266 "cm_CheckLocks SyncOp failure code 0x%x", code);
4267 goto post_syncopdone;
4270 /* cm_SyncOp releases scp->mx during which the lock
4271 may get released. */
4272 if (!IS_LOCK_ACTIVE(fileLock))
4273 goto pre_syncopdone;
4275 if (scp->serverLock != -1) {
4279 tfid.Volume = scp->fid.volume;
4280 tfid.Vnode = scp->fid.vnode;
4281 tfid.Unique = scp->fid.unique;
4283 userp = fileLock->userp;
4285 osi_Log3(afsd_logp, "CALL ExtendLock lock 0x%p for scp=0x%p with lock %d",
4288 (int) scp->serverLock);
4290 lock_ReleaseMutex(&scp->mx);
4293 code = cm_Conn(&cfid, userp,
4298 callp = cm_GetRxConn(connp);
4299 code = RXAFS_ExtendLock(callp, &tfid,
4301 rx_PutConnection(callp);
4303 osi_Log1(afsd_logp, " ExtendLock returns %d", code);
4305 } while (cm_Analyze(connp, userp, &req,
4306 &cfid, &volSync, NULL, NULL,
4309 code = cm_MapRPCError(code, &req);
4311 lock_ObtainMutex(&scp->mx);
4314 osi_Log1(afsd_logp, "CALL ExtendLock FAILURE, code 0x%x", code);
4316 osi_Log0(afsd_logp, "CALL ExtendLock SUCCESS");
4317 scp->lockDataVersion = scp->dataVersion;
4320 if ((code == EINVAL || code == CM_ERROR_INVAL) &&
4321 scp->lockDataVersion == scp->dataVersion) {
4325 (scp->exclusiveLocks > 0) ? LockWrite: LockRead;
4327 /* we might still have a chance to obtain a
4330 code = cm_IntSetLock(scp, userp, lockType, &req);
4333 code = CM_ERROR_INVAL;
4334 } else if (scp->lockDataVersion != scp->dataVersion) {
4336 /* now check if we still have the file at
4337 the right data version. */
4339 "Data version mismatch on scp 0x%p",
4342 " Data versions: before=%d, after=%d",
4343 scp->lockDataVersion,
4346 code = cm_IntReleaseLock(scp, userp, &req);
4348 code = CM_ERROR_INVAL;
4352 if (code == EINVAL || code == CM_ERROR_INVAL) {
4353 cm_LockMarkSCacheLost(scp);
4357 /* interestingly, we have found an active lock
4358 belonging to an scache that has no
4360 cm_LockMarkSCacheLost(scp);
4367 cm_SyncOpDone(scp, NULL, CM_SCACHESYNC_LOCK);
4370 lock_ReleaseMutex(&scp->mx);
4372 lock_ObtainWrite(&cm_scacheLock);
4375 fileLock->lastUpdate = time(NULL);
4379 scp->lastRefreshCycle = cm_lockRefreshCycle;
4382 /* we have already refreshed the locks on this scp */
4383 fileLock->lastUpdate = time(NULL);
4386 cm_ReleaseSCacheNoLock(scp);
4388 } else if (IS_LOCK_ACTIVE(fileLock) && IS_LOCK_CLIENTONLY(fileLock)) {
4389 /* TODO: Check callbacks */
4393 lock_ReleaseWrite(&cm_scacheLock);
4394 osi_Log1(afsd_logp, "cm_CheckLocks completes lock check cycle %d", cm_lockRefreshCycle);
4397 /* NOT called with scp->mx held. */
4398 long cm_RetryLock(cm_file_lock_t *oldFileLock, int client_is_dead)
4401 cm_scache_t *scp = NULL;
4402 cm_file_lock_t *fileLock;
4406 int force_client_lock = FALSE;
4410 if (client_is_dead) {
4411 code = CM_ERROR_TIMEDOUT;
4415 lock_ObtainRead(&cm_scacheLock);
4417 osi_Log2(afsd_logp, "cm_RetryLock checking lock %p (scp=%p)", oldFileLock, oldFileLock->scp);
4418 osi_Log4(afsd_logp, " offset(%x:%x) length(%x:%x)",
4419 (unsigned)(oldFileLock->range.offset >> 32),
4420 (unsigned)(oldFileLock->range.offset & 0xffffffff),
4421 (unsigned)(oldFileLock->range.length >> 32),
4422 (unsigned)(oldFileLock->range.length & 0xffffffff));
4423 osi_Log3(afsd_logp, " key(%x:%x) flags=%x",
4424 (unsigned)(oldFileLock->key >> 32),
4425 (unsigned)(oldFileLock->key & 0xffffffff),
4426 (unsigned)(oldFileLock->flags));
4428 /* if the lock has already been granted, then we have nothing to do */
4429 if (IS_LOCK_ACTIVE(oldFileLock)) {
4430 lock_ReleaseRead(&cm_scacheLock);
4431 osi_Log0(afsd_logp, "cm_RetryLock lock already granted");
4435 /* we can't do anything with lost or deleted locks at the moment. */
4436 if (IS_LOCK_LOST(oldFileLock) || IS_LOCK_DELETED(oldFileLock)) {
4437 code = CM_ERROR_BADFD;
4438 osi_Log0(afsd_logp, "cm_RetryLock lock is lost or deleted");
4439 lock_ReleaseRead(&cm_scacheLock);
4443 scp = oldFileLock->scp;
4445 osi_assert(scp != NULL);
4447 lock_ReleaseRead(&cm_scacheLock);
4448 lock_ObtainMutex(&scp->mx);
4450 code = cm_LockCheckPerms(scp, oldFileLock->lockType,
4454 if (code == CM_ERROR_NOACCESS && oldFileLock->lockType == LockRead) {
4455 force_client_lock = TRUE;
4458 lock_ReleaseMutex(&scp->mx);
4462 lock_ObtainWrite(&cm_scacheLock);
4464 /* Check if we already have a sufficient server lock to allow this
4465 lock to go through. */
4466 if (IS_LOCK_WAITLOCK(oldFileLock) &&
4467 (!SERVERLOCKS_ENABLED(scp) ||
4468 scp->serverLock == oldFileLock->lockType ||
4469 scp->serverLock == LockWrite)) {
4471 oldFileLock->flags &= ~CM_FILELOCK_FLAG_WAITLOCK;
4473 if (SERVERLOCKS_ENABLED(scp)) {
4474 osi_Log1(afsd_logp, "cm_RetryLock Server lock (%d) is sufficient for lock. Granting",
4475 (int) scp->serverLock);
4477 osi_Log0(afsd_logp, "cm_RetryLock skipping server lock for scp");
4480 lock_ReleaseWrite(&cm_scacheLock);
4481 lock_ReleaseMutex(&scp->mx);
4486 if (IS_LOCK_WAITUNLOCK(oldFileLock)) {
4488 /* check if the conflicting locks have dissappeared already */
4489 for (q = scp->fileLocksH; q; q = osi_QNext(q)) {
4491 fileLock = (cm_file_lock_t *)
4492 ((char *) q - offsetof(cm_file_lock_t, fileq));
4494 if (IS_LOCK_LOST(fileLock)) {
4495 if (fileLock->key == oldFileLock->key) {
4496 code = CM_ERROR_BADFD;
4497 oldFileLock->flags |= CM_FILELOCK_FLAG_LOST;
4498 osi_Log1(afsd_logp, " found lost lock %p for same key. Marking lock as lost",
4501 } else if (fileLock->lockType == LockWrite &&
4502 INTERSECT_RANGE(oldFileLock->range, fileLock->range)) {
4503 osi_Log1(afsd_logp, " found conflicting LOST lock %p", fileLock);
4504 code = CM_ERROR_WOULDBLOCK;
4509 if (IS_LOCK_ACCEPTED(fileLock) &&
4510 INTERSECT_RANGE(oldFileLock->range, fileLock->range)) {
4512 if (oldFileLock->lockType != LockRead ||
4513 fileLock->lockType != LockRead) {
4515 osi_Log1(afsd_logp, " found conflicting lock %p", fileLock);
4516 code = CM_ERROR_WOULDBLOCK;
4524 lock_ReleaseWrite(&cm_scacheLock);
4525 lock_ReleaseMutex(&scp->mx);
4530 /* when we get here, the lock is either a WAITUNLOCK or WAITLOCK.
4531 If it is WAITUNLOCK, then we didn't find any conflicting lock
4532 but we haven't verfied whether the serverLock is sufficient to
4533 assert it. If it is WAITLOCK, then the serverLock is
4534 insufficient to assert it. Eitherway, we are ready to accept
4535 the lock as either ACTIVE or WAITLOCK depending on the
4538 /* First, promote the WAITUNLOCK to a WAITLOCK */
4539 if (IS_LOCK_WAITUNLOCK(oldFileLock)) {
4540 if (oldFileLock->lockType == LockRead)
4543 scp->exclusiveLocks++;
4545 oldFileLock->flags &= ~CM_FILELOCK_FLAG_WAITUNLOCK;
4546 oldFileLock->flags |= CM_FILELOCK_FLAG_WAITLOCK;
4549 if (force_client_lock ||
4550 !SERVERLOCKS_ENABLED(scp) ||
4551 scp->serverLock == oldFileLock->lockType ||
4552 (oldFileLock->lockType == LockRead &&
4553 scp->serverLock == LockWrite)) {
4555 oldFileLock->flags &= ~CM_FILELOCK_FLAG_WAITLOCK;
4557 if ((force_client_lock ||
4558 !SERVERLOCKS_ENABLED(scp)) &&
4559 !IS_LOCK_CLIENTONLY(oldFileLock)) {
4561 oldFileLock->flags |= CM_FILELOCK_FLAG_CLIENTONLY;
4563 if (oldFileLock->lockType == LockRead)
4566 scp->exclusiveLocks--;
4571 lock_ReleaseWrite(&cm_scacheLock);
4572 lock_ReleaseMutex(&scp->mx);
4579 code = cm_SyncOp(scp, NULL, oldFileLock->userp, &req, 0,
4580 CM_SCACHESYNC_NEEDCALLBACK
4581 | CM_SCACHESYNC_GETSTATUS
4582 | CM_SCACHESYNC_LOCK);
4584 osi_Log1(smb_logp, "cm_RetryLock SyncOp failure code 0x%x", code);
4585 lock_ReleaseWrite(&cm_scacheLock);
4586 goto post_syncopdone;
4589 if (!IS_LOCK_WAITLOCK(oldFileLock))
4590 goto pre_syncopdone;
4592 userp = oldFileLock->userp;
4594 #ifndef AGGRESSIVE_LOCKS
4595 newLock = oldFileLock->lockType;
4597 newLock = LockWrite;
4600 lock_ReleaseWrite(&cm_scacheLock);
4602 code = cm_IntSetLock(scp, userp, newLock, &req);
4605 cm_SyncOpDone(scp, NULL, CM_SCACHESYNC_LOCK);
4611 if (code != 0 && code != CM_ERROR_WOULDBLOCK) {
4612 lock_ObtainWrite(&cm_scacheLock);
4613 if (scp->fileLocksT == &oldFileLock->fileq)
4614 scp->fileLocksT = osi_QPrev(&oldFileLock->fileq);
4615 osi_QRemoveHT(&scp->fileLocksH, &scp->fileLocksT, &oldFileLock->fileq);
4616 lock_ReleaseWrite(&cm_scacheLock);
4617 } else if (code == 0 && IS_LOCK_WAITLOCK(oldFileLock)) {
4618 scp->serverLock = newLock;
4620 lock_ReleaseMutex(&scp->mx);
4623 lock_ObtainWrite(&cm_scacheLock);
4625 oldFileLock->flags &= ~CM_FILELOCK_FLAG_WAITLOCK;
4626 } else if (code != CM_ERROR_WOULDBLOCK) {
4627 oldFileLock->flags |= CM_FILELOCK_FLAG_DELETED;
4628 cm_ReleaseUser(oldFileLock->userp);
4629 oldFileLock->userp = NULL;
4630 if (oldFileLock->scp) {
4631 cm_ReleaseSCacheNoLock(oldFileLock->scp);
4632 oldFileLock->scp = NULL;
4635 lock_ReleaseWrite(&cm_scacheLock);
4640 cm_key_t cm_GenerateKey(unsigned int session_id, unsigned long process_id, unsigned int file_id)
4643 osi_assert((process_id & 0xffffffff) == process_id);
4644 osi_assert((session_id & 0xffff) == session_id);
4645 osi_assert((file_id & 0xffff) == file_id);
4649 (((cm_key_t) (process_id & 0xffffffff)) << 32) |
4650 (((cm_key_t) (session_id & 0xffff)) << 16) |
4651 (((cm_key_t) (file_id & 0xffff)));
4654 static int cm_KeyEquals(cm_key_t k1, cm_key_t k2, int flags)
4656 if (flags & CM_UNLOCK_BY_FID) {
4657 return ((k1 & 0xffffffff) == (k2 & 0xffffffff));
4663 void cm_ReleaseAllLocks(void)
4669 cm_file_lock_t *fileLock;
4672 for (i = 0; i < cm_data.hashTableSize; i++)
4674 for ( scp = cm_data.hashTablep[i]; scp; scp = scp->nextp ) {
4675 while (scp->fileLocksH != NULL) {
4676 lock_ObtainMutex(&scp->mx);
4677 lock_ObtainWrite(&cm_scacheLock);
4678 if (!scp->fileLocksH) {
4679 lock_ReleaseWrite(&cm_scacheLock);
4680 lock_ReleaseMutex(&scp->mx);
4683 fileLock = (cm_file_lock_t *)((char *) scp->fileLocksH - offsetof(cm_file_lock_t, fileq));
4684 userp = fileLock->userp;
4686 key = fileLock->key;
4687 cm_HoldSCacheNoLock(scp);
4688 lock_ReleaseWrite(&cm_scacheLock);
4689 cm_UnlockByKey(scp, key, 0, userp, &req);
4690 cm_ReleaseSCache(scp);
4691 cm_ReleaseUser(userp);
4692 lock_ReleaseMutex(&scp->mx);