Annotation of src/sys/miscfs/kernfs/kernfs_vnops.c, Revision 1.150
1.150 ! hannken 1: /* $NetBSD: kernfs_vnops.c,v 1.149 2014/01/23 10:13:57 hannken Exp $ */
1.27 cgd 2:
1.1 cgd 3: /*
1.23 mycroft 4: * Copyright (c) 1992, 1993
5: * The Regents of the University of California. All rights reserved.
1.1 cgd 6: *
1.17 cgd 7: * This code is derived from software donated to Berkeley by
1.1 cgd 8: * Jan-Simon Pendry.
9: *
1.2 cgd 10: * Redistribution and use in source and binary forms, with or without
11: * modification, are permitted provided that the following conditions
12: * are met:
13: * 1. Redistributions of source code must retain the above copyright
14: * notice, this list of conditions and the following disclaimer.
15: * 2. Redistributions in binary form must reproduce the above copyright
16: * notice, this list of conditions and the following disclaimer in the
17: * documentation and/or other materials provided with the distribution.
1.89 agc 18: * 3. Neither the name of the University nor the names of its contributors
1.2 cgd 19: * may be used to endorse or promote products derived from this software
20: * without specific prior written permission.
1.1 cgd 21: *
1.2 cgd 22: * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
23: * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
24: * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
25: * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
26: * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
27: * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
28: * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
29: * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
30: * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
31: * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
32: * SUCH DAMAGE.
1.1 cgd 33: *
1.57 fvdl 34: * @(#)kernfs_vnops.c 8.15 (Berkeley) 5/21/95
1.1 cgd 35: */
36:
37: /*
1.23 mycroft 38: * Kernel parameter filesystem (/kern)
1.1 cgd 39: */
1.77 lukem 40:
41: #include <sys/cdefs.h>
1.150 ! hannken 42: __KERNEL_RCSID(0, "$NetBSD: kernfs_vnops.c,v 1.149 2014/01/23 10:13:57 hannken Exp $");
1.55 mrg 43:
1.14 mycroft 44: #include <sys/param.h>
45: #include <sys/systm.h>
46: #include <sys/kernel.h>
1.23 mycroft 47: #include <sys/vmmeter.h>
1.14 mycroft 48: #include <sys/time.h>
49: #include <sys/proc.h>
1.23 mycroft 50: #include <sys/vnode.h>
51: #include <sys/malloc.h>
1.14 mycroft 52: #include <sys/file.h>
53: #include <sys/stat.h>
54: #include <sys/mount.h>
55: #include <sys/namei.h>
56: #include <sys/buf.h>
1.23 mycroft 57: #include <sys/dirent.h>
1.28 mycroft 58: #include <sys/msgbuf.h>
1.44 mycroft 59:
60: #include <miscfs/genfs/genfs.h>
1.17 cgd 61: #include <miscfs/kernfs/kernfs.h>
1.63 mrg 62:
1.54 mrg 63: #include <uvm/uvm_extern.h>
64:
1.17 cgd 65: #define KSTRING 256 /* Largest I/O available via this filesystem */
66: #define UIO_MX 32
1.1 cgd 67:
1.23 mycroft 68: #define READ_MODE (S_IRUSR|S_IRGRP|S_IROTH)
69: #define WRITE_MODE (S_IWUSR|S_IRUSR|S_IRGRP|S_IROTH)
1.101 cl 70: #define UREAD_MODE (S_IRUSR)
1.102 cl 71: #define DIR_MODE (S_IRUSR|S_IXUSR|S_IRGRP|S_IXGRP|S_IROTH|S_IXOTH)
72: #define UDIR_MODE (S_IRUSR|S_IXUSR)
1.23 mycroft 73:
1.90 itojun 74: #define N(s) sizeof(s)-1, s
1.75 jdolecek 75: const struct kern_target kern_targets[] = {
1.1 cgd 76: /* NOTE: The name must be less than UIO_MX-16 chars in length */
1.23 mycroft 77: /* name data tag type ro/rw */
1.98 darcy 78: { DT_DIR, N("."), 0, KFSkern, VDIR, DIR_MODE },
79: { DT_DIR, N(".."), 0, KFSroot, VDIR, DIR_MODE },
80: { DT_REG, N("boottime"), &boottime.tv_sec, KFSint, VREG, READ_MODE },
1.109 christos 81: /* XXXUNCONST */
82: { DT_REG, N("copyright"), __UNCONST(copyright),
1.98 darcy 83: KFSstring, VREG, READ_MODE },
84: { DT_REG, N("hostname"), 0, KFShostname, VREG, WRITE_MODE },
85: { DT_REG, N("hz"), &hz, KFSint, VREG, READ_MODE },
86: { DT_REG, N("loadavg"), 0, KFSavenrun, VREG, READ_MODE },
87: { DT_REG, N("msgbuf"), 0, KFSmsgbuf, VREG, READ_MODE },
88: { DT_REG, N("pagesize"), &uvmexp.pagesize, KFSint, VREG, READ_MODE },
89: { DT_REG, N("physmem"), &physmem, KFSint, VREG, READ_MODE },
1.17 cgd 90: #if 0
1.98 darcy 91: { DT_DIR, N("root"), 0, KFSnull, VDIR, DIR_MODE },
1.17 cgd 92: #endif
1.98 darcy 93: { DT_BLK, N("rootdev"), &rootdev, KFSdevice, VBLK, READ_MODE },
94: { DT_CHR, N("rrootdev"), &rrootdev, KFSdevice, VCHR, READ_MODE },
95: { DT_REG, N("time"), 0, KFStime, VREG, READ_MODE },
1.109 christos 96: /* XXXUNCONST */
97: { DT_REG, N("version"), __UNCONST(version),
1.98 darcy 98: KFSstring, VREG, READ_MODE },
1.90 itojun 99: };
1.102 cl 100: const struct kern_target subdir_targets[] = {
101: /* NOTE: The name must be less than UIO_MX-16 chars in length */
102: /* name data tag type ro/rw */
103: { DT_DIR, N("."), 0, KFSsubdir, VDIR, DIR_MODE },
104: { DT_DIR, N(".."), 0, KFSkern, VDIR, DIR_MODE },
105: };
1.23 mycroft 106: #undef N
1.102 cl 107: SIMPLEQ_HEAD(,dyn_kern_target) dyn_kern_targets =
108: SIMPLEQ_HEAD_INITIALIZER(dyn_kern_targets);
1.90 itojun 109: int nkern_targets = sizeof(kern_targets) / sizeof(kern_targets[0]);
1.102 cl 110: const int static_nkern_targets = sizeof(kern_targets) / sizeof(kern_targets[0]);
111: int nkern_dirs = 2;
1.90 itojun 112:
1.102 cl 113: int kernfs_try_fileop(kfstype, kfsfileop, void *, int);
1.124 bouyer 114: int kernfs_try_xread(kfstype, const struct kernfs_node *, char **,
1.123 bouyer 115: size_t, int);
1.102 cl 116: int kernfs_try_xwrite(kfstype, const struct kernfs_node *, char *,
117: size_t, int);
118:
1.123 bouyer 119: static int kernfs_default_xread(void *v);
1.102 cl 120: static int kernfs_default_xwrite(void *v);
121: static int kernfs_default_fileop_getattr(void *);
122:
123: /* must include all fileop's */
124: const struct kernfs_fileop kernfs_default_fileops[] = {
1.123 bouyer 125: { .kf_fileop = KERNFS_XREAD },
1.102 cl 126: { .kf_fileop = KERNFS_XWRITE },
127: { .kf_fileop = KERNFS_FILEOP_OPEN },
128: { .kf_fileop = KERNFS_FILEOP_GETATTR,
1.125 christos 129: .kf_vop = kernfs_default_fileop_getattr },
1.102 cl 130: { .kf_fileop = KERNFS_FILEOP_IOCTL },
131: { .kf_fileop = KERNFS_FILEOP_CLOSE },
1.125 christos 132: { .kf_fileop = KERNFS_FILEOP_READ,
133: .kf_vop = kernfs_default_xread },
134: { .kf_fileop = KERNFS_FILEOP_WRITE,
135: .kf_vop = kernfs_default_xwrite },
1.102 cl 136: };
1.1 cgd 137:
1.110 xtraeme 138: int kernfs_lookup(void *);
1.85 jdolecek 139: #define kernfs_create genfs_eopnotsupp
140: #define kernfs_mknod genfs_eopnotsupp
1.110 xtraeme 141: int kernfs_open(void *);
142: int kernfs_close(void *);
143: int kernfs_access(void *);
144: int kernfs_getattr(void *);
145: int kernfs_setattr(void *);
146: int kernfs_read(void *);
147: int kernfs_write(void *);
1.65 wrstuden 148: #define kernfs_fcntl genfs_fcntl
1.110 xtraeme 149: int kernfs_ioctl(void *);
1.45 mycroft 150: #define kernfs_poll genfs_poll
1.57 fvdl 151: #define kernfs_revoke genfs_revoke
1.44 mycroft 152: #define kernfs_fsync genfs_nullop
153: #define kernfs_seek genfs_nullop
1.85 jdolecek 154: #define kernfs_remove genfs_eopnotsupp
1.110 xtraeme 155: int kernfs_link(void *);
1.85 jdolecek 156: #define kernfs_rename genfs_eopnotsupp
157: #define kernfs_mkdir genfs_eopnotsupp
158: #define kernfs_rmdir genfs_eopnotsupp
1.110 xtraeme 159: int kernfs_symlink(void *);
160: int kernfs_readdir(void *);
1.44 mycroft 161: #define kernfs_readlink genfs_eopnotsupp
162: #define kernfs_abortop genfs_abortop
1.110 xtraeme 163: int kernfs_inactive(void *);
164: int kernfs_reclaim(void *);
1.64 wrstuden 165: #define kernfs_lock genfs_lock
166: #define kernfs_unlock genfs_unlock
1.44 mycroft 167: #define kernfs_bmap genfs_badop
168: #define kernfs_strategy genfs_badop
1.110 xtraeme 169: int kernfs_print(void *);
1.64 wrstuden 170: #define kernfs_islocked genfs_islocked
1.110 xtraeme 171: int kernfs_pathconf(void *);
1.62 kleink 172: #define kernfs_advlock genfs_einval
1.44 mycroft 173: #define kernfs_bwrite genfs_eopnotsupp
1.79 chs 174: #define kernfs_putpages genfs_putpages
1.41 christos 175:
1.110 xtraeme 176: static int kernfs_xread(struct kernfs_node *, int, char **,
177: size_t, size_t *);
178: static int kernfs_xwrite(const struct kernfs_node *, char *, size_t);
1.41 christos 179:
1.110 xtraeme 180: int (**kernfs_vnodeop_p)(void *);
1.71 jdolecek 181: const struct vnodeopv_entry_desc kernfs_vnodeop_entries[] = {
1.41 christos 182: { &vop_default_desc, vn_default_error },
1.44 mycroft 183: { &vop_lookup_desc, kernfs_lookup }, /* lookup */
184: { &vop_create_desc, kernfs_create }, /* create */
185: { &vop_mknod_desc, kernfs_mknod }, /* mknod */
186: { &vop_open_desc, kernfs_open }, /* open */
187: { &vop_close_desc, kernfs_close }, /* close */
188: { &vop_access_desc, kernfs_access }, /* access */
189: { &vop_getattr_desc, kernfs_getattr }, /* getattr */
190: { &vop_setattr_desc, kernfs_setattr }, /* setattr */
191: { &vop_read_desc, kernfs_read }, /* read */
192: { &vop_write_desc, kernfs_write }, /* write */
1.65 wrstuden 193: { &vop_fcntl_desc, kernfs_fcntl }, /* fcntl */
1.44 mycroft 194: { &vop_ioctl_desc, kernfs_ioctl }, /* ioctl */
1.45 mycroft 195: { &vop_poll_desc, kernfs_poll }, /* poll */
1.57 fvdl 196: { &vop_revoke_desc, kernfs_revoke }, /* revoke */
1.44 mycroft 197: { &vop_fsync_desc, kernfs_fsync }, /* fsync */
198: { &vop_seek_desc, kernfs_seek }, /* seek */
199: { &vop_remove_desc, kernfs_remove }, /* remove */
200: { &vop_link_desc, kernfs_link }, /* link */
201: { &vop_rename_desc, kernfs_rename }, /* rename */
202: { &vop_mkdir_desc, kernfs_mkdir }, /* mkdir */
203: { &vop_rmdir_desc, kernfs_rmdir }, /* rmdir */
204: { &vop_symlink_desc, kernfs_symlink }, /* symlink */
205: { &vop_readdir_desc, kernfs_readdir }, /* readdir */
206: { &vop_readlink_desc, kernfs_readlink }, /* readlink */
207: { &vop_abortop_desc, kernfs_abortop }, /* abortop */
208: { &vop_inactive_desc, kernfs_inactive }, /* inactive */
209: { &vop_reclaim_desc, kernfs_reclaim }, /* reclaim */
210: { &vop_lock_desc, kernfs_lock }, /* lock */
211: { &vop_unlock_desc, kernfs_unlock }, /* unlock */
212: { &vop_bmap_desc, kernfs_bmap }, /* bmap */
213: { &vop_strategy_desc, kernfs_strategy }, /* strategy */
214: { &vop_print_desc, kernfs_print }, /* print */
215: { &vop_islocked_desc, kernfs_islocked }, /* islocked */
216: { &vop_pathconf_desc, kernfs_pathconf }, /* pathconf */
217: { &vop_advlock_desc, kernfs_advlock }, /* advlock */
218: { &vop_bwrite_desc, kernfs_bwrite }, /* bwrite */
1.79 chs 219: { &vop_putpages_desc, kernfs_putpages }, /* putpages */
1.76 chs 220: { NULL, NULL }
1.41 christos 221: };
1.71 jdolecek 222: const struct vnodeopv_desc kernfs_vnodeop_opv_desc =
1.41 christos 223: { &kernfs_vnodeop_p, kernfs_vnodeop_entries };
224:
1.116 perry 225: static inline int
1.102 cl 226: kernfs_fileop_compare(struct kernfs_fileop *a, struct kernfs_fileop *b)
227: {
228: if (a->kf_type < b->kf_type)
229: return -1;
230: if (a->kf_type > b->kf_type)
231: return 1;
232: if (a->kf_fileop < b->kf_fileop)
233: return -1;
234: if (a->kf_fileop > b->kf_fileop)
235: return 1;
236: return (0);
237: }
238:
239: SPLAY_HEAD(kfsfileoptree, kernfs_fileop) kfsfileoptree =
240: SPLAY_INITIALIZER(kfsfileoptree);
241: SPLAY_PROTOTYPE(kfsfileoptree, kernfs_fileop, kf_node, kernfs_fileop_compare);
242: SPLAY_GENERATE(kfsfileoptree, kernfs_fileop, kf_node, kernfs_fileop_compare);
243:
244: kfstype
245: kernfs_alloctype(int nkf, const struct kernfs_fileop *kf)
246: {
247: static u_char nextfreetype = KFSlasttype;
248: struct kernfs_fileop *dkf, *fkf, skf;
249: int i;
250:
251: /* XXX need to keep track of dkf's memory if we support
252: deallocating types */
253: dkf = malloc(sizeof(kernfs_default_fileops), M_TEMP, M_WAITOK);
254: memcpy(dkf, kernfs_default_fileops, sizeof(kernfs_default_fileops));
255:
256: for (i = 0; i < sizeof(kernfs_default_fileops) /
257: sizeof(kernfs_default_fileops[0]); i++) {
258: dkf[i].kf_type = nextfreetype;
259: SPLAY_INSERT(kfsfileoptree, &kfsfileoptree, &dkf[i]);
260: }
261:
262: for (i = 0; i < nkf; i++) {
263: skf.kf_type = nextfreetype;
264: skf.kf_fileop = kf[i].kf_fileop;
265: if ((fkf = SPLAY_FIND(kfsfileoptree, &kfsfileoptree, &skf)))
1.125 christos 266: fkf->kf_vop = kf[i].kf_vop;
1.102 cl 267: }
268:
269: return nextfreetype++;
270: }
271:
272: int
273: kernfs_try_fileop(kfstype type, kfsfileop fileop, void *v, int error)
274: {
275: struct kernfs_fileop *kf, skf;
276:
277: skf.kf_type = type;
278: skf.kf_fileop = fileop;
279: if ((kf = SPLAY_FIND(kfsfileoptree, &kfsfileoptree, &skf)))
280: if (kf->kf_vop)
281: return kf->kf_vop(v);
282: return error;
283: }
284:
285: int
1.124 bouyer 286: kernfs_try_xread(kfstype type, const struct kernfs_node *kfs, char **bfp,
287: size_t len, int error)
288: {
289: struct kernfs_fileop *kf, skf;
290:
291: skf.kf_type = type;
292: skf.kf_fileop = KERNFS_XREAD;
293: if ((kf = SPLAY_FIND(kfsfileoptree, &kfsfileoptree, &skf)))
294: if (kf->kf_xread)
295: return kf->kf_xread(kfs, bfp, len);
296: return error;
297: }
298:
299: int
1.109 christos 300: kernfs_try_xwrite(kfstype type, const struct kernfs_node *kfs, char *bf,
1.102 cl 301: size_t len, int error)
302: {
303: struct kernfs_fileop *kf, skf;
304:
305: skf.kf_type = type;
306: skf.kf_fileop = KERNFS_XWRITE;
307: if ((kf = SPLAY_FIND(kfsfileoptree, &kfsfileoptree, &skf)))
308: if (kf->kf_xwrite)
1.109 christos 309: return kf->kf_xwrite(kfs, bf, len);
1.102 cl 310: return error;
311: }
312:
313: int
314: kernfs_addentry(kernfs_parentdir_t *pkt, kernfs_entry_t *dkt)
315: {
316: struct kernfs_subdir *ks, *parent;
317:
318: if (pkt == NULL) {
319: SIMPLEQ_INSERT_TAIL(&dyn_kern_targets, dkt, dkt_queue);
320: nkern_targets++;
321: if (dkt->dkt_kt.kt_vtype == VDIR)
322: nkern_dirs++;
323: } else {
324: parent = (struct kernfs_subdir *)pkt->kt_data;
325: SIMPLEQ_INSERT_TAIL(&parent->ks_entries, dkt, dkt_queue);
326: parent->ks_nentries++;
327: if (dkt->dkt_kt.kt_vtype == VDIR)
328: parent->ks_dirs++;
329: }
330: if (dkt->dkt_kt.kt_vtype == VDIR && dkt->dkt_kt.kt_data == NULL) {
331: ks = malloc(sizeof(struct kernfs_subdir),
332: M_TEMP, M_WAITOK);
333: SIMPLEQ_INIT(&ks->ks_entries);
334: ks->ks_nentries = 2; /* . and .. */
335: ks->ks_dirs = 2;
336: ks->ks_parent = pkt ? pkt : &kern_targets[0];
337: dkt->dkt_kt.kt_data = ks;
338: }
339: return 0;
340: }
341:
1.82 jdolecek 342: static int
1.136 dsl 343: kernfs_xread(struct kernfs_node *kfs, int off, char **bufp, size_t len, size_t *wrlen)
1.1 cgd 344: {
1.90 itojun 345: const struct kern_target *kt;
1.124 bouyer 346: int err;
1.90 itojun 347:
348: kt = kfs->kfs_kt;
1.1 cgd 349:
1.90 itojun 350: switch (kfs->kfs_type) {
1.98 darcy 351: case KFStime: {
1.1 cgd 352: struct timeval tv;
1.28 mycroft 353:
1.1 cgd 354: microtime(&tv);
1.135 christos 355: snprintf(*bufp, len, "%lld %ld\n", (long long)tv.tv_sec,
356: (long)tv.tv_usec);
1.1 cgd 357: break;
358: }
359:
1.98 darcy 360: case KFSint: {
1.1 cgd 361: int *ip = kt->kt_data;
1.28 mycroft 362:
1.90 itojun 363: snprintf(*bufp, len, "%d\n", *ip);
1.1 cgd 364: break;
365: }
366:
1.98 darcy 367: case KFSstring: {
1.1 cgd 368: char *cp = kt->kt_data;
369:
1.28 mycroft 370: *bufp = cp;
371: break;
372: }
1.1 cgd 373:
1.98 darcy 374: case KFSmsgbuf: {
1.28 mycroft 375: long n;
376:
1.52 leo 377: /*
378: * deal with cases where the message buffer has
379: * become corrupted.
380: */
381: if (!msgbufenabled || msgbufp->msg_magic != MSG_MAGIC) {
382: msgbufenabled = 0;
383: return (ENXIO);
384: }
385:
386: /*
387: * Note that reads of /kern/msgbuf won't necessarily yield
388: * consistent results, if the message buffer is modified
389: * while the read is in progress. The worst that can happen
390: * is that incorrect data will be read. There's no way
391: * that this can crash the system unless the values in the
392: * message buffer header are corrupted, but that'll cause
393: * the system to die anyway.
394: */
1.82 jdolecek 395: if (off >= msgbufp->msg_bufs) {
396: *wrlen = 0;
1.28 mycroft 397: return (0);
1.82 jdolecek 398: }
1.28 mycroft 399: n = msgbufp->msg_bufx + off;
1.52 leo 400: if (n >= msgbufp->msg_bufs)
401: n -= msgbufp->msg_bufs;
402: len = min(msgbufp->msg_bufs - n, msgbufp->msg_bufs - off);
1.28 mycroft 403: *bufp = msgbufp->msg_bufc + n;
1.82 jdolecek 404: *wrlen = len;
405: return (0);
1.1 cgd 406: }
407:
1.98 darcy 408: case KFShostname: {
1.1 cgd 409: char *cp = hostname;
1.127 jmmv 410: size_t xlen = hostnamelen;
1.1 cgd 411:
1.90 itojun 412: if (xlen >= (len - 2))
1.1 cgd 413: return (EINVAL);
414:
1.60 perry 415: memcpy(*bufp, cp, xlen);
1.28 mycroft 416: (*bufp)[xlen] = '\n';
417: (*bufp)[xlen+1] = '\0';
1.1 cgd 418: break;
419: }
420:
1.98 darcy 421: case KFSavenrun:
1.31 mycroft 422: averunnable.fscale = FSCALE;
1.90 itojun 423: snprintf(*bufp, len, "%d %d %d %ld\n",
1.23 mycroft 424: averunnable.ldavg[0], averunnable.ldavg[1],
425: averunnable.ldavg[2], averunnable.fscale);
1.1 cgd 426: break;
427:
428: default:
1.124 bouyer 429: err = kernfs_try_xread(kfs->kfs_type, kfs, bufp, len,
430: EOPNOTSUPP);
431: if (err)
432: return err;
1.1 cgd 433: }
434:
1.28 mycroft 435: len = strlen(*bufp);
436: if (len <= off)
1.82 jdolecek 437: *wrlen = 0;
438: else {
439: *bufp += off;
440: *wrlen = len - off;
441: }
442: return (0);
1.1 cgd 443: }
444:
1.82 jdolecek 445: static int
1.136 dsl 446: kernfs_xwrite(const struct kernfs_node *kfs, char *bf, size_t len)
1.1 cgd 447: {
1.23 mycroft 448:
1.90 itojun 449: switch (kfs->kfs_type) {
1.98 darcy 450: case KFShostname:
1.109 christos 451: if (bf[len-1] == '\n')
1.1 cgd 452: --len;
1.109 christos 453: memcpy(hostname, bf, len);
1.17 cgd 454: hostname[len] = '\0';
1.82 jdolecek 455: hostnamelen = (size_t) len;
1.1 cgd 456: return (0);
457:
458: default:
1.109 christos 459: return kernfs_try_xwrite(kfs->kfs_type, kfs, bf, len, EIO);
1.1 cgd 460: }
461: }
462:
1.17 cgd 463:
464: /*
1.1 cgd 465: * vp is the current namei directory
466: * ndp is the name to locate in that directory...
467: */
1.41 christos 468: int
1.136 dsl 469: kernfs_lookup(void *v)
1.41 christos 470: {
1.150 ! hannken 471: struct vop_lookup_v2_args /* {
1.23 mycroft 472: struct vnode * a_dvp;
473: struct vnode ** a_vpp;
474: struct componentname * a_cnp;
1.41 christos 475: } */ *ap = v;
1.23 mycroft 476: struct componentname *cnp = ap->a_cnp;
477: struct vnode **vpp = ap->a_vpp;
478: struct vnode *dvp = ap->a_dvp;
1.48 cgd 479: const char *pname = cnp->cn_nameptr;
1.90 itojun 480: const struct kernfs_node *kfs;
1.75 jdolecek 481: const struct kern_target *kt;
1.102 cl 482: const struct dyn_kern_target *dkt;
483: const struct kernfs_subdir *ks;
1.129 chs 484: int error, i;
1.23 mycroft 485:
1.35 mycroft 486: *vpp = NULLVP;
487:
488: if (cnp->cn_nameiop == DELETE || cnp->cn_nameiop == RENAME)
489: return (EROFS);
490:
1.23 mycroft 491: if (cnp->cn_namelen == 1 && *pname == '.') {
492: *vpp = dvp;
1.139 pooka 493: vref(dvp);
1.1 cgd 494: return (0);
495: }
1.13 cgd 496:
1.90 itojun 497: kfs = VTOKERN(dvp);
498: switch (kfs->kfs_type) {
1.98 darcy 499: case KFSkern:
1.90 itojun 500: /*
501: * Shouldn't get here with .. in the root node.
502: */
503: if (cnp->cn_flags & ISDOTDOT)
504: return (EIO);
1.64 wrstuden 505:
1.102 cl 506: for (i = 0; i < static_nkern_targets; i++) {
1.90 itojun 507: kt = &kern_targets[i];
508: if (cnp->cn_namelen == kt->kt_namlen &&
509: memcmp(kt->kt_name, pname, cnp->cn_namelen) == 0)
510: goto found;
511: }
1.102 cl 512: SIMPLEQ_FOREACH(dkt, &dyn_kern_targets, dkt_queue) {
513: if (cnp->cn_namelen == dkt->dkt_kt.kt_namlen &&
514: memcmp(dkt->dkt_kt.kt_name, pname, cnp->cn_namelen) == 0) {
515: kt = &dkt->dkt_kt;
516: goto found;
517: }
518: }
1.90 itojun 519: break;
1.25 mycroft 520:
1.90 itojun 521: found:
522: error = kernfs_allocvp(dvp->v_mount, vpp, kt->kt_tag, kt, 0);
1.150 ! hannken 523: if (error)
! 524: return error;
! 525: VOP_UNLOCK(*vpp);
! 526: return 0;
1.64 wrstuden 527:
1.102 cl 528: case KFSsubdir:
529: ks = (struct kernfs_subdir *)kfs->kfs_kt->kt_data;
530: if (cnp->cn_flags & ISDOTDOT) {
531: kt = ks->ks_parent;
532: goto found;
533: }
534:
535: SIMPLEQ_FOREACH(dkt, &ks->ks_entries, dkt_queue) {
536: if (cnp->cn_namelen == dkt->dkt_kt.kt_namlen &&
537: memcmp(dkt->dkt_kt.kt_name, pname, cnp->cn_namelen) == 0) {
538: kt = &dkt->dkt_kt;
539: goto found;
540: }
541: }
542: break;
543:
1.90 itojun 544: default:
545: return (ENOTDIR);
546: }
547:
548: return (cnp->cn_nameiop == LOOKUP ? ENOENT : EROFS);
549: }
550:
551: int
1.136 dsl 552: kernfs_open(void *v)
1.90 itojun 553: {
554: struct vop_open_args /* {
555: struct vnode *a_vp;
556: int a_mode;
1.120 elad 557: kauth_cred_t a_cred;
1.90 itojun 558: } */ *ap = v;
559: struct kernfs_node *kfs = VTOKERN(ap->a_vp);
560:
1.146 drochner 561: return kernfs_try_fileop(kfs->kfs_type, KERNFS_FILEOP_OPEN, v, 0);
1.90 itojun 562: }
1.1 cgd 563:
1.90 itojun 564: int
1.136 dsl 565: kernfs_close(void *v)
1.90 itojun 566: {
567: struct vop_close_args /* {
568: struct vnode *a_vp;
569: int a_fflag;
1.120 elad 570: kauth_cred_t a_cred;
1.90 itojun 571: } */ *ap = v;
572: struct kernfs_node *kfs = VTOKERN(ap->a_vp);
573:
1.146 drochner 574: return kernfs_try_fileop(kfs->kfs_type, KERNFS_FILEOP_CLOSE, v, 0);
1.1 cgd 575: }
576:
1.28 mycroft 577: int
1.136 dsl 578: kernfs_access(void *v)
1.41 christos 579: {
1.23 mycroft 580: struct vop_access_args /* {
581: struct vnode *a_vp;
1.34 mycroft 582: int a_mode;
1.120 elad 583: kauth_cred_t a_cred;
1.41 christos 584: } */ *ap = v;
1.90 itojun 585: struct vattr va;
586: int error;
1.17 cgd 587:
1.133 pooka 588: if ((error = VOP_GETATTR(ap->a_vp, &va, ap->a_cred)) != 0)
1.90 itojun 589: return (error);
1.49 mycroft 590:
1.145 elad 591: return kauth_authorize_vnode(ap->a_cred,
1.147 plunky 592: KAUTH_ACCESS_ACTION(ap->a_mode, ap->a_vp->v_type, va.va_mode),
1.145 elad 593: ap->a_vp, NULL, genfs_can_access(va.va_type, va.va_mode,
594: va.va_uid, va.va_gid, ap->a_mode, ap->a_cred));
1.23 mycroft 595: }
596:
1.102 cl 597: static int
1.136 dsl 598: kernfs_default_fileop_getattr(void *v)
1.102 cl 599: {
600: struct vop_getattr_args /* {
601: struct vnode *a_vp;
602: struct vattr *a_vap;
1.120 elad 603: kauth_cred_t a_cred;
1.102 cl 604: } */ *ap = v;
605: struct vattr *vap = ap->a_vap;
606:
607: vap->va_nlink = 1;
608: vap->va_bytes = vap->va_size = 0;
609:
610: return 0;
611: }
612:
1.41 christos 613: int
1.136 dsl 614: kernfs_getattr(void *v)
1.41 christos 615: {
1.23 mycroft 616: struct vop_getattr_args /* {
617: struct vnode *a_vp;
618: struct vattr *a_vap;
1.120 elad 619: kauth_cred_t a_cred;
1.41 christos 620: } */ *ap = v;
1.90 itojun 621: struct kernfs_node *kfs = VTOKERN(ap->a_vp);
1.102 cl 622: struct kernfs_subdir *ks;
1.23 mycroft 623: struct vattr *vap = ap->a_vap;
1.1 cgd 624: int error = 0;
1.109 christos 625: char strbuf[KSTRING], *bf;
1.90 itojun 626: size_t nread, total;
1.1 cgd 627:
1.139 pooka 628: vattr_null(vap);
1.90 itojun 629: vap->va_type = ap->a_vp->v_type;
1.17 cgd 630: vap->va_uid = 0;
631: vap->va_gid = 0;
1.90 itojun 632: vap->va_mode = kfs->kfs_mode;
633: vap->va_fileid = kfs->kfs_fileno;
634: vap->va_flags = 0;
1.23 mycroft 635: vap->va_size = 0;
1.1 cgd 636: vap->va_blocksize = DEV_BSIZE;
1.121 kardel 637: /* Make all times be current TOD, except for the "boottime" node. */
1.132 elad 638: if (kfs->kfs_kt->kt_namlen == 8 &&
1.92 dan 639: !memcmp(kfs->kfs_kt->kt_name, "boottime", 8)) {
1.135 christos 640: vap->va_ctime = boottime;
1.92 dan 641: } else {
1.121 kardel 642: getnanotime(&vap->va_ctime);
1.92 dan 643: }
1.81 lukem 644: vap->va_atime = vap->va_mtime = vap->va_ctime;
1.1 cgd 645: vap->va_gen = 0;
646: vap->va_flags = 0;
647: vap->va_rdev = 0;
648: vap->va_bytes = 0;
649:
1.90 itojun 650: switch (kfs->kfs_type) {
1.98 darcy 651: case KFSkern:
1.102 cl 652: vap->va_nlink = nkern_dirs;
1.90 itojun 653: vap->va_bytes = vap->va_size = DEV_BSIZE;
654: break;
655:
1.98 darcy 656: case KFSroot:
1.90 itojun 657: vap->va_nlink = 1;
658: vap->va_bytes = vap->va_size = DEV_BSIZE;
659: break;
660:
1.102 cl 661: case KFSsubdir:
662: ks = (struct kernfs_subdir *)kfs->kfs_kt->kt_data;
663: vap->va_nlink = ks->ks_dirs;
664: vap->va_bytes = vap->va_size = DEV_BSIZE;
665: break;
666:
1.98 darcy 667: case KFSnull:
668: case KFStime:
669: case KFSint:
670: case KFSstring:
671: case KFShostname:
672: case KFSavenrun:
673: case KFSdevice:
674: case KFSmsgbuf:
1.1 cgd 675: vap->va_nlink = 1;
1.84 jdolecek 676: total = 0;
677: do {
1.109 christos 678: bf = strbuf;
679: error = kernfs_xread(kfs, total, &bf,
1.90 itojun 680: sizeof(strbuf), &nread);
1.84 jdolecek 681: total += nread;
682: } while (error == 0 && nread != 0);
1.90 itojun 683: vap->va_bytes = vap->va_size = total;
684: break;
685:
686: default:
1.102 cl 687: error = kernfs_try_fileop(kfs->kfs_type,
688: KERNFS_FILEOP_GETATTR, v, EINVAL);
1.90 itojun 689: break;
1.1 cgd 690: }
691:
692: return (error);
693: }
694:
1.41 christos 695: /*ARGSUSED*/
696: int
1.128 christos 697: kernfs_setattr(void *v)
1.1 cgd 698: {
1.90 itojun 699:
1.1 cgd 700: /*
1.17 cgd 701: * Silently ignore attribute changes.
702: * This allows for open with truncate to have no
703: * effect until some data is written. I want to
704: * do it this way because all writes are atomic.
1.1 cgd 705: */
1.17 cgd 706: return (0);
1.1 cgd 707: }
708:
1.28 mycroft 709: int
1.136 dsl 710: kernfs_default_xread(void *v)
1.41 christos 711: {
1.23 mycroft 712: struct vop_read_args /* {
713: struct vnode *a_vp;
714: struct uio *a_uio;
715: int a_ioflag;
1.120 elad 716: kauth_cred_t a_cred;
1.41 christos 717: } */ *ap = v;
1.23 mycroft 718: struct uio *uio = ap->a_uio;
1.90 itojun 719: struct kernfs_node *kfs = VTOKERN(ap->a_vp);
1.109 christos 720: char strbuf[KSTRING], *bf;
1.114 christos 721: int off;
1.82 jdolecek 722: size_t len;
1.28 mycroft 723: int error;
1.23 mycroft 724:
1.90 itojun 725: if (ap->a_vp->v_type == VDIR)
1.144 njoly 726: return EISDIR;
1.23 mycroft 727:
1.114 christos 728: off = (int)uio->uio_offset;
1.112 christos 729: /* Don't allow negative offsets */
1.114 christos 730: if (off < 0)
1.112 christos 731: return EINVAL;
732:
1.109 christos 733: bf = strbuf;
734: if ((error = kernfs_xread(kfs, off, &bf, sizeof(strbuf), &len)) == 0)
735: error = uiomove(bf, len, uio);
1.82 jdolecek 736: return (error);
1.1 cgd 737: }
738:
1.123 bouyer 739: int
1.136 dsl 740: kernfs_read(void *v)
1.123 bouyer 741: {
742: struct vop_read_args /* {
743: struct vnode *a_vp;
744: struct uio *a_uio;
745: int a_ioflag;
746: struct ucred *a_cred;
747: } */ *ap = v;
748: struct kernfs_node *kfs = VTOKERN(ap->a_vp);
749:
1.124 bouyer 750: if (kfs->kfs_type < KFSlasttype) {
751: /* use default function */
752: return kernfs_default_xread(v);
753: }
754: return kernfs_try_fileop(kfs->kfs_type, KERNFS_FILEOP_READ, v,
755: EOPNOTSUPP);
1.123 bouyer 756: }
757:
1.102 cl 758: static int
1.136 dsl 759: kernfs_default_xwrite(void *v)
1.41 christos 760: {
1.23 mycroft 761: struct vop_write_args /* {
762: struct vnode *a_vp;
763: struct uio *a_uio;
764: int a_ioflag;
1.120 elad 765: kauth_cred_t a_cred;
1.41 christos 766: } */ *ap = v;
1.90 itojun 767: struct kernfs_node *kfs = VTOKERN(ap->a_vp);
1.23 mycroft 768: struct uio *uio = ap->a_uio;
1.127 jmmv 769: int error;
770: size_t xlen;
1.1 cgd 771: char strbuf[KSTRING];
1.23 mycroft 772:
1.1 cgd 773: if (uio->uio_offset != 0)
774: return (EINVAL);
775:
776: xlen = min(uio->uio_resid, KSTRING-1);
1.41 christos 777: if ((error = uiomove(strbuf, xlen, uio)) != 0)
1.1 cgd 778: return (error);
779:
780: if (uio->uio_resid != 0)
781: return (EIO);
782:
783: strbuf[xlen] = '\0';
1.17 cgd 784: xlen = strlen(strbuf);
1.90 itojun 785: return (kernfs_xwrite(kfs, strbuf, xlen));
1.1 cgd 786: }
787:
1.102 cl 788: int
1.136 dsl 789: kernfs_write(void *v)
1.102 cl 790: {
791: struct vop_write_args /* {
792: struct vnode *a_vp;
793: struct uio *a_uio;
794: int a_ioflag;
1.120 elad 795: kauth_cred_t a_cred;
1.102 cl 796: } */ *ap = v;
797: struct kernfs_node *kfs = VTOKERN(ap->a_vp);
798:
1.124 bouyer 799: if (kfs->kfs_type < KFSlasttype) {
800: /* use default function */
801: return kernfs_default_xwrite(v);
802: }
803: return kernfs_try_fileop(kfs->kfs_type, KERNFS_FILEOP_WRITE, v,
804: EOPNOTSUPP);
1.102 cl 805: }
806:
807: int
1.136 dsl 808: kernfs_ioctl(void *v)
1.102 cl 809: {
810: struct vop_ioctl_args /* {
811: const struct vnodeop_desc *a_desc;
812: struct vnode *a_vp;
813: u_long a_command;
814: void *a_data;
815: int a_fflag;
1.120 elad 816: kauth_cred_t a_cred;
1.102 cl 817: } */ *ap = v;
818: struct kernfs_node *kfs = VTOKERN(ap->a_vp);
819:
820: return kernfs_try_fileop(kfs->kfs_type, KERNFS_FILEOP_IOCTL, v,
821: EPASSTHROUGH);
822: }
823:
1.101 cl 824: static int
825: kernfs_setdirentfileno_kt(struct dirent *d, const struct kern_target *kt,
826: u_int32_t value, struct vop_readdir_args *ap)
827: {
828: struct kernfs_node *kfs;
829: struct vnode *vp;
830: int error;
831:
832: if ((error = kernfs_allocvp(ap->a_vp->v_mount, &vp, kt->kt_tag, kt,
833: value)) != 0)
834: return error;
835: if (kt->kt_tag == KFSdevice) {
836: struct vattr va;
1.117 yamt 837:
1.133 pooka 838: error = VOP_GETATTR(vp, &va, ap->a_cred);
1.117 yamt 839: if (error != 0) {
840: return error;
841: }
1.101 cl 842: d->d_fileno = va.va_fileid;
843: } else {
844: kfs = VTOKERN(vp);
845: d->d_fileno = kfs->kfs_fileno;
846: }
847: vput(vp);
848: return 0;
849: }
850:
851: static int
852: kernfs_setdirentfileno(struct dirent *d, off_t entry,
853: struct kernfs_node *thisdir_kfs, const struct kern_target *parent_kt,
854: const struct kern_target *kt, struct vop_readdir_args *ap)
855: {
856: const struct kern_target *ikt;
857: int error;
858:
859: switch (entry) {
860: case 0:
861: d->d_fileno = thisdir_kfs->kfs_fileno;
862: return 0;
863: case 1:
864: ikt = parent_kt;
865: break;
866: default:
867: ikt = kt;
868: break;
869: }
870: if (ikt != thisdir_kfs->kfs_kt) {
871: if ((error = kernfs_setdirentfileno_kt(d, ikt, 0, ap)) != 0)
872: return error;
873: } else
874: d->d_fileno = thisdir_kfs->kfs_fileno;
875: return 0;
876: }
877:
1.41 christos 878: int
1.136 dsl 879: kernfs_readdir(void *v)
1.41 christos 880: {
1.23 mycroft 881: struct vop_readdir_args /* {
882: struct vnode *a_vp;
883: struct uio *a_uio;
1.120 elad 884: kauth_cred_t a_cred;
1.26 mycroft 885: int *a_eofflag;
1.57 fvdl 886: off_t **a_cookies;
887: int a_*ncookies;
1.41 christos 888: } */ *ap = v;
1.23 mycroft 889: struct uio *uio = ap->a_uio;
1.37 mycroft 890: struct dirent d;
1.90 itojun 891: struct kernfs_node *kfs = VTOKERN(ap->a_vp);
1.75 jdolecek 892: const struct kern_target *kt;
1.102 cl 893: const struct dyn_kern_target *dkt = NULL;
894: const struct kernfs_subdir *ks;
895: off_t i, j;
1.1 cgd 896: int error;
1.57 fvdl 897: off_t *cookies = NULL;
1.90 itojun 898: int ncookies = 0, n;
1.23 mycroft 899:
1.37 mycroft 900: if (uio->uio_resid < UIO_MX)
901: return (EINVAL);
1.38 mycroft 902: if (uio->uio_offset < 0)
1.37 mycroft 903: return (EINVAL);
1.26 mycroft 904:
1.1 cgd 905: error = 0;
1.38 mycroft 906: i = uio->uio_offset;
1.90 itojun 907: memset(&d, 0, sizeof(d));
908: d.d_reclen = UIO_MX;
909: ncookies = uio->uio_resid / UIO_MX;
910:
911: switch (kfs->kfs_type) {
1.98 darcy 912: case KFSkern:
1.90 itojun 913: if (i >= nkern_targets)
914: return (0);
1.66 sommerfe 915:
1.90 itojun 916: if (ap->a_ncookies) {
917: ncookies = min(ncookies, (nkern_targets - i));
918: cookies = malloc(ncookies * sizeof(off_t), M_TEMP,
919: M_WAITOK);
920: *ap->a_cookies = cookies;
921: }
922:
923: n = 0;
924: for (; i < nkern_targets && uio->uio_resid >= UIO_MX; i++) {
1.102 cl 925: if (i < static_nkern_targets)
926: kt = &kern_targets[i];
927: else {
928: if (dkt == NULL) {
929: dkt = SIMPLEQ_FIRST(&dyn_kern_targets);
930: for (j = static_nkern_targets; j < i &&
931: dkt != NULL; j++)
932: dkt = SIMPLEQ_NEXT(dkt, dkt_queue);
933: if (j != i)
934: break;
935: } else {
936: dkt = SIMPLEQ_NEXT(dkt, dkt_queue);
937: }
1.119 christos 938: if (dkt == NULL)
939: break;
1.102 cl 940: kt = &dkt->dkt_kt;
941: }
1.98 darcy 942: if (kt->kt_tag == KFSdevice) {
1.94 itojun 943: dev_t *dp = kt->kt_data;
944: struct vnode *fvp;
945:
946: if (*dp == NODEV ||
947: !vfinddev(*dp, kt->kt_vtype, &fvp))
948: continue;
1.143 hannken 949: vrele(fvp);
1.94 itojun 950: }
1.141 pooka 951: if (kt->kt_tag == KFSmsgbuf) {
952: if (!msgbufenabled
953: || msgbufp->msg_magic != MSG_MAGIC) {
954: continue;
955: }
956: }
1.90 itojun 957: d.d_namlen = kt->kt_namlen;
1.101 cl 958: if ((error = kernfs_setdirentfileno(&d, i, kfs,
959: &kern_targets[0], kt, ap)) != 0)
960: break;
1.90 itojun 961: memcpy(d.d_name, kt->kt_name, kt->kt_namlen + 1);
962: d.d_type = kt->kt_type;
1.99 jrf 963: if ((error = uiomove(&d, UIO_MX, uio)) != 0)
1.90 itojun 964: break;
965: if (cookies)
966: *cookies++ = i + 1;
967: n++;
968: }
969: ncookies = n;
970: break;
971:
1.98 darcy 972: case KFSroot:
1.90 itojun 973: if (i >= 2)
974: return 0;
975:
976: if (ap->a_ncookies) {
977: ncookies = min(ncookies, (2 - i));
978: cookies = malloc(ncookies * sizeof(off_t), M_TEMP,
979: M_WAITOK);
980: *ap->a_cookies = cookies;
981: }
982:
983: n = 0;
984: for (; i < 2 && uio->uio_resid >= UIO_MX; i++) {
985: kt = &kern_targets[i];
986: d.d_namlen = kt->kt_namlen;
987: d.d_fileno = KERNFS_FILENO(kt, kt->kt_tag, 0);
988: memcpy(d.d_name, kt->kt_name, kt->kt_namlen + 1);
989: d.d_type = kt->kt_type;
1.99 jrf 990: if ((error = uiomove(&d, UIO_MX, uio)) != 0)
1.90 itojun 991: break;
992: if (cookies)
993: *cookies++ = i + 1;
994: n++;
995: }
996: ncookies = n;
997: break;
998:
1.102 cl 999: case KFSsubdir:
1000: ks = (struct kernfs_subdir *)kfs->kfs_kt->kt_data;
1001: if (i >= ks->ks_nentries)
1002: return (0);
1003:
1004: if (ap->a_ncookies) {
1005: ncookies = min(ncookies, (ks->ks_nentries - i));
1006: cookies = malloc(ncookies * sizeof(off_t), M_TEMP,
1007: M_WAITOK);
1008: *ap->a_cookies = cookies;
1009: }
1010:
1011: dkt = SIMPLEQ_FIRST(&ks->ks_entries);
1012: for (j = 0; j < i && dkt != NULL; j++)
1013: dkt = SIMPLEQ_NEXT(dkt, dkt_queue);
1014: n = 0;
1015: for (; i < ks->ks_nentries && uio->uio_resid >= UIO_MX; i++) {
1016: if (i < 2)
1017: kt = &subdir_targets[i];
1018: else {
1019: /* check if ks_nentries lied to us */
1020: if (dkt == NULL)
1021: break;
1022: kt = &dkt->dkt_kt;
1023: dkt = SIMPLEQ_NEXT(dkt, dkt_queue);
1024: }
1025: if (kt->kt_tag == KFSdevice) {
1026: dev_t *dp = kt->kt_data;
1027: struct vnode *fvp;
1028:
1029: if (*dp == NODEV ||
1030: !vfinddev(*dp, kt->kt_vtype, &fvp))
1031: continue;
1.143 hannken 1032: vrele(fvp);
1.102 cl 1033: }
1034: d.d_namlen = kt->kt_namlen;
1035: if ((error = kernfs_setdirentfileno(&d, i, kfs,
1036: ks->ks_parent, kt, ap)) != 0)
1037: break;
1038: memcpy(d.d_name, kt->kt_name, kt->kt_namlen + 1);
1039: d.d_type = kt->kt_type;
1.103 jrf 1040: if ((error = uiomove(&d, UIO_MX, uio)) != 0)
1.102 cl 1041: break;
1042: if (cookies)
1043: *cookies++ = i + 1;
1044: n++;
1045: }
1046: ncookies = n;
1047: break;
1048:
1.90 itojun 1049: default:
1050: error = ENOTDIR;
1051: break;
1.57 fvdl 1052: }
1053:
1054: if (ap->a_ncookies) {
1055: if (error) {
1.90 itojun 1056: if (cookies)
1057: free(*ap->a_cookies, M_TEMP);
1.57 fvdl 1058: *ap->a_ncookies = 0;
1059: *ap->a_cookies = NULL;
1060: } else
1061: *ap->a_ncookies = ncookies;
1.1 cgd 1062: }
1063:
1.38 mycroft 1064: uio->uio_offset = i;
1.1 cgd 1065: return (error);
1066: }
1067:
1.41 christos 1068: int
1.136 dsl 1069: kernfs_inactive(void *v)
1.41 christos 1070: {
1.23 mycroft 1071: struct vop_inactive_args /* {
1072: struct vnode *a_vp;
1.134 ad 1073: bool *a_recycle;
1.41 christos 1074: } */ *ap = v;
1.23 mycroft 1075: struct vnode *vp = ap->a_vp;
1076:
1.134 ad 1077: *ap->a_recycle = false;
1.142 hannken 1078: VOP_UNLOCK(vp);
1.23 mycroft 1079: return (0);
1080: }
1081:
1.41 christos 1082: int
1.136 dsl 1083: kernfs_reclaim(void *v)
1.41 christos 1084: {
1.23 mycroft 1085: struct vop_reclaim_args /* {
1086: struct vnode *a_vp;
1.41 christos 1087: } */ *ap = v;
1.23 mycroft 1088:
1.90 itojun 1089: return (kernfs_freevp(ap->a_vp));
1.1 cgd 1090: }
1091:
1092: /*
1.23 mycroft 1093: * Return POSIX pathconf information applicable to special devices.
1094: */
1.41 christos 1095: int
1.136 dsl 1096: kernfs_pathconf(void *v)
1.41 christos 1097: {
1.23 mycroft 1098: struct vop_pathconf_args /* {
1099: struct vnode *a_vp;
1100: int a_name;
1.29 cgd 1101: register_t *a_retval;
1.41 christos 1102: } */ *ap = v;
1.23 mycroft 1103:
1104: switch (ap->a_name) {
1105: case _PC_LINK_MAX:
1106: *ap->a_retval = LINK_MAX;
1107: return (0);
1108: case _PC_MAX_CANON:
1109: *ap->a_retval = MAX_CANON;
1110: return (0);
1111: case _PC_MAX_INPUT:
1112: *ap->a_retval = MAX_INPUT;
1113: return (0);
1114: case _PC_PIPE_BUF:
1115: *ap->a_retval = PIPE_BUF;
1116: return (0);
1117: case _PC_CHOWN_RESTRICTED:
1118: *ap->a_retval = 1;
1119: return (0);
1120: case _PC_VDISABLE:
1121: *ap->a_retval = _POSIX_VDISABLE;
1.59 kleink 1122: return (0);
1123: case _PC_SYNC_IO:
1124: *ap->a_retval = 1;
1.23 mycroft 1125: return (0);
1126: default:
1127: return (EINVAL);
1128: }
1129: /* NOTREACHED */
1130: }
1131:
1132: /*
1133: * Print out the contents of a /dev/fd vnode.
1.1 cgd 1134: */
1135: /* ARGSUSED */
1.41 christos 1136: int
1.128 christos 1137: kernfs_print(void *v)
1.23 mycroft 1138: {
1139:
1.47 christos 1140: printf("tag VT_KERNFS, kernfs vnode\n");
1.23 mycroft 1141: return (0);
1142: }
1143:
1.40 mycroft 1144: int
1.136 dsl 1145: kernfs_link(void *v)
1.41 christos 1146: {
1.40 mycroft 1147: struct vop_link_args /* {
1148: struct vnode *a_dvp;
1.107 perry 1149: struct vnode *a_vp;
1.40 mycroft 1150: struct componentname *a_cnp;
1.41 christos 1151: } */ *ap = v;
1.107 perry 1152:
1.40 mycroft 1153: VOP_ABORTOP(ap->a_dvp, ap->a_cnp);
1154: vput(ap->a_dvp);
1155: return (EROFS);
1156: }
1157:
1158: int
1.136 dsl 1159: kernfs_symlink(void *v)
1.41 christos 1160: {
1.149 hannken 1161: struct vop_symlink_v3_args /* {
1.40 mycroft 1162: struct vnode *a_dvp;
1163: struct vnode **a_vpp;
1164: struct componentname *a_cnp;
1165: struct vattr *a_vap;
1166: char *a_target;
1.41 christos 1167: } */ *ap = v;
1.107 perry 1168:
1.40 mycroft 1169: VOP_ABORTOP(ap->a_dvp, ap->a_cnp);
1170: return (EROFS);
1.1 cgd 1171: }
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