/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * utility routines for the /dev fs */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef DEBUG int sdev_debug = 0x00000001; int sdev_debug_cache_flags = 0; #endif /* * globals */ /* prototype memory vattrs */ vattr_t sdev_vattr_dir = { AT_TYPE|AT_MODE|AT_UID|AT_GID, /* va_mask */ VDIR, /* va_type */ SDEV_DIRMODE_DEFAULT, /* va_mode */ SDEV_UID_DEFAULT, /* va_uid */ SDEV_GID_DEFAULT, /* va_gid */ 0, /* va_fsid */ 0, /* va_nodeid */ 0, /* va_nlink */ 0, /* va_size */ 0, /* va_atime */ 0, /* va_mtime */ 0, /* va_ctime */ 0, /* va_rdev */ 0, /* va_blksize */ 0, /* va_nblocks */ 0 /* va_vcode */ }; vattr_t sdev_vattr_lnk = { AT_TYPE|AT_MODE, /* va_mask */ VLNK, /* va_type */ SDEV_LNKMODE_DEFAULT, /* va_mode */ SDEV_UID_DEFAULT, /* va_uid */ SDEV_GID_DEFAULT, /* va_gid */ 0, /* va_fsid */ 0, /* va_nodeid */ 0, /* va_nlink */ 0, /* va_size */ 0, /* va_atime */ 0, /* va_mtime */ 0, /* va_ctime */ 0, /* va_rdev */ 0, /* va_blksize */ 0, /* va_nblocks */ 0 /* va_vcode */ }; vattr_t sdev_vattr_blk = { AT_TYPE|AT_MODE|AT_UID|AT_GID, /* va_mask */ VBLK, /* va_type */ S_IFBLK | SDEV_DEVMODE_DEFAULT, /* va_mode */ SDEV_UID_DEFAULT, /* va_uid */ SDEV_GID_DEFAULT, /* va_gid */ 0, /* va_fsid */ 0, /* va_nodeid */ 0, /* va_nlink */ 0, /* va_size */ 0, /* va_atime */ 0, /* va_mtime */ 0, /* va_ctime */ 0, /* va_rdev */ 0, /* va_blksize */ 0, /* va_nblocks */ 0 /* va_vcode */ }; vattr_t sdev_vattr_chr = { AT_TYPE|AT_MODE|AT_UID|AT_GID, /* va_mask */ VCHR, /* va_type */ S_IFCHR | SDEV_DEVMODE_DEFAULT, /* va_mode */ SDEV_UID_DEFAULT, /* va_uid */ SDEV_GID_DEFAULT, /* va_gid */ 0, /* va_fsid */ 0, /* va_nodeid */ 0, /* va_nlink */ 0, /* va_size */ 0, /* va_atime */ 0, /* va_mtime */ 0, /* va_ctime */ 0, /* va_rdev */ 0, /* va_blksize */ 0, /* va_nblocks */ 0 /* va_vcode */ }; kmem_cache_t *sdev_node_cache; /* sdev_node cache */ int devtype; /* fstype */ struct devname_ops *devname_ns_ops; /* default name service directory ops */ kmutex_t devname_nsmaps_lock; /* protect devname_nsmaps */ /* static */ static struct devname_nsmap *devname_nsmaps = NULL; /* contents from /etc/dev/devname_master */ static int devname_nsmaps_invalidated = 0; /* "devfsadm -m" has run */ static struct vnodeops *sdev_get_vop(struct sdev_node *); static void sdev_set_no_nocache(struct sdev_node *); static int sdev_get_moduleops(struct sdev_node *); static void sdev_handle_alloc(struct sdev_node *); static fs_operation_def_t *sdev_merge_vtab(const fs_operation_def_t []); static void sdev_free_vtab(fs_operation_def_t *); static void sdev_prof_free(struct sdev_node *dv) { ASSERT(!SDEV_IS_GLOBAL(dv)); if (dv->sdev_prof.dev_name) nvlist_free(dv->sdev_prof.dev_name); if (dv->sdev_prof.dev_map) nvlist_free(dv->sdev_prof.dev_map); if (dv->sdev_prof.dev_symlink) nvlist_free(dv->sdev_prof.dev_symlink); if (dv->sdev_prof.dev_glob_incdir) nvlist_free(dv->sdev_prof.dev_glob_incdir); if (dv->sdev_prof.dev_glob_excdir) nvlist_free(dv->sdev_prof.dev_glob_excdir); bzero(&dv->sdev_prof, sizeof (dv->sdev_prof)); } /* * sdev_node cache constructor */ /*ARGSUSED1*/ static int i_sdev_node_ctor(void *buf, void *cfarg, int flag) { struct sdev_node *dv = (struct sdev_node *)buf; struct vnode *vp; ASSERT(flag == KM_SLEEP); bzero(buf, sizeof (struct sdev_node)); rw_init(&dv->sdev_contents, NULL, RW_DEFAULT, NULL); dv->sdev_vnode = vn_alloc(KM_SLEEP); vp = SDEVTOV(dv); vp->v_data = (caddr_t)dv; return (0); } /* sdev_node destructor for kmem cache */ /*ARGSUSED1*/ static void i_sdev_node_dtor(void *buf, void *arg) { struct sdev_node *dv = (struct sdev_node *)buf; struct vnode *vp = SDEVTOV(dv); rw_destroy(&dv->sdev_contents); vn_free(vp); } /* initialize sdev_node cache */ void sdev_node_cache_init() { int flags = 0; #ifdef DEBUG flags = sdev_debug_cache_flags; if (flags) sdcmn_err(("cache debug flags 0x%x\n", flags)); #endif /* DEBUG */ ASSERT(sdev_node_cache == NULL); sdev_node_cache = kmem_cache_create("sdev_node_cache", sizeof (struct sdev_node), 0, i_sdev_node_ctor, i_sdev_node_dtor, NULL, NULL, NULL, flags); } /* destroy sdev_node cache */ void sdev_node_cache_fini() { ASSERT(sdev_node_cache != NULL); kmem_cache_destroy(sdev_node_cache); sdev_node_cache = NULL; } void sdev_set_nodestate(struct sdev_node *dv, sdev_node_state_t state) { ASSERT(dv); ASSERT(RW_WRITE_HELD(&dv->sdev_contents)); dv->sdev_state = state; } static void sdev_attrinit(struct sdev_node *dv, vattr_t *vap) { timestruc_t now; ASSERT(vap); dv->sdev_attr = kmem_zalloc(sizeof (struct vattr), KM_SLEEP); *dv->sdev_attr = *vap; dv->sdev_attr->va_mode = MAKEIMODE(vap->va_type, vap->va_mode); gethrestime(&now); dv->sdev_attr->va_atime = now; dv->sdev_attr->va_mtime = now; dv->sdev_attr->va_ctime = now; } /* alloc and initialize a sdev_node */ int sdev_nodeinit(struct sdev_node *ddv, char *nm, struct sdev_node **newdv, vattr_t *vap) { struct sdev_node *dv = NULL; struct vnode *vp; size_t nmlen, len; devname_handle_t *dhl; nmlen = strlen(nm) + 1; if (nmlen > MAXNAMELEN) { sdcmn_err9(("sdev_nodeinit: node name %s" " too long\n", nm)); *newdv = NULL; return (ENAMETOOLONG); } dv = kmem_cache_alloc(sdev_node_cache, KM_SLEEP); dv->sdev_name = kmem_alloc(nmlen, KM_SLEEP); bcopy(nm, dv->sdev_name, nmlen); dv->sdev_namelen = nmlen - 1; /* '\0' not included */ len = strlen(ddv->sdev_path) + strlen(nm) + 2; dv->sdev_path = kmem_alloc(len, KM_SLEEP); (void) snprintf(dv->sdev_path, len, "%s/%s", ddv->sdev_path, nm); /* overwritten for VLNK nodes */ dv->sdev_symlink = NULL; vp = SDEVTOV(dv); vn_reinit(vp); vp->v_vfsp = SDEVTOV(ddv)->v_vfsp; if (vap) vp->v_type = vap->va_type; /* * initialized to the parent's vnodeops. * maybe overwriten for a VDIR */ vn_setops(vp, vn_getops(SDEVTOV(ddv))); vn_exists(vp); dv->sdev_dotdot = NULL; dv->sdev_dot = NULL; dv->sdev_next = NULL; dv->sdev_attrvp = NULL; if (vap) { sdev_attrinit(dv, vap); } else { dv->sdev_attr = NULL; } dv->sdev_ino = sdev_mkino(dv); dv->sdev_nlink = 0; /* updated on insert */ dv->sdev_flags = ddv->sdev_flags; /* inherit from the parent first */ dv->sdev_flags |= SDEV_BUILD; mutex_init(&dv->sdev_lookup_lock, NULL, MUTEX_DEFAULT, NULL); cv_init(&dv->sdev_lookup_cv, NULL, CV_DEFAULT, NULL); if (SDEV_IS_GLOBAL(ddv)) { dv->sdev_flags |= SDEV_GLOBAL; dv->sdev_mapinfo = NULL; dhl = &(dv->sdev_handle); dhl->dh_data = dv; dhl->dh_spec = DEVNAME_NS_NONE; dhl->dh_args = NULL; sdev_set_no_nocache(dv); dv->sdev_gdir_gen = 0; } else { dv->sdev_flags &= ~SDEV_GLOBAL; dv->sdev_origin = NULL; /* set later */ bzero(&dv->sdev_prof, sizeof (dv->sdev_prof)); dv->sdev_ldir_gen = 0; dv->sdev_devtree_gen = 0; } rw_enter(&dv->sdev_contents, RW_WRITER); sdev_set_nodestate(dv, SDEV_INIT); rw_exit(&dv->sdev_contents); *newdv = dv; return (0); } /* * transition a sdev_node into SDEV_READY state */ int sdev_nodeready(struct sdev_node *dv, struct vattr *vap, struct vnode *avp, void *args, struct cred *cred) { int error = 0; struct vnode *vp = SDEVTOV(dv); vtype_t type; ASSERT(dv && (dv->sdev_state != SDEV_READY) && vap); type = vap->va_type; vp->v_type = type; vp->v_rdev = vap->va_rdev; rw_enter(&dv->sdev_contents, RW_WRITER); if (type == VDIR) { dv->sdev_nlink = 2; dv->sdev_flags &= ~SDEV_PERSIST; dv->sdev_flags &= ~SDEV_DYNAMIC; vn_setops(vp, sdev_get_vop(dv)); /* from internal vtab */ error = sdev_get_moduleops(dv); /* from plug-in module */ ASSERT(dv->sdev_dotdot); ASSERT(SDEVTOV(dv->sdev_dotdot)->v_type == VDIR); vp->v_rdev = SDEVTOV(dv->sdev_dotdot)->v_rdev; } else if (type == VLNK) { ASSERT(args); dv->sdev_nlink = 1; dv->sdev_symlink = i_ddi_strdup((char *)args, KM_SLEEP); } else { dv->sdev_nlink = 1; } if (!(SDEV_IS_GLOBAL(dv))) { dv->sdev_origin = (struct sdev_node *)args; dv->sdev_flags &= ~SDEV_PERSIST; } /* * shadow node is created here OR * if failed (indicated by dv->sdev_attrvp == NULL), * created later in sdev_setattr */ if (avp) { dv->sdev_attrvp = avp; } else { if (dv->sdev_attr == NULL) sdev_attrinit(dv, vap); else *dv->sdev_attr = *vap; if ((SDEV_IS_PERSIST(dv) && (dv->sdev_attrvp == NULL)) || ((SDEVTOV(dv)->v_type == VDIR) && (dv->sdev_attrvp == NULL))) error = sdev_shadow_node(dv, cred); } /* transition to READY state */ sdev_set_nodestate(dv, SDEV_READY); sdev_nc_node_exists(dv); rw_exit(&dv->sdev_contents); return (error); } /* * setting ZOMBIE state */ static int sdev_nodezombied(struct sdev_node *dv) { rw_enter(&dv->sdev_contents, RW_WRITER); sdev_set_nodestate(dv, SDEV_ZOMBIE); rw_exit(&dv->sdev_contents); return (0); } /* * Build the VROOT sdev_node. */ /*ARGSUSED*/ struct sdev_node * sdev_mkroot(struct vfs *vfsp, dev_t devdev, struct vnode *mvp, struct vnode *avp, struct cred *cred) { struct sdev_node *dv; struct vnode *vp; char devdir[] = "/dev"; ASSERT(sdev_node_cache != NULL); ASSERT(avp); dv = kmem_cache_alloc(sdev_node_cache, KM_SLEEP); vp = SDEVTOV(dv); vn_reinit(vp); vp->v_flag |= VROOT; vp->v_vfsp = vfsp; vp->v_type = VDIR; vp->v_rdev = devdev; vn_setops(vp, sdev_vnodeops); /* apply the default vnodeops at /dev */ vn_exists(vp); if (vfsp->vfs_mntpt) dv->sdev_name = i_ddi_strdup( (char *)refstr_value(vfsp->vfs_mntpt), KM_SLEEP); else /* vfs_mountdev1 set mount point later */ dv->sdev_name = i_ddi_strdup("/dev", KM_SLEEP); dv->sdev_namelen = strlen(dv->sdev_name); /* '\0' not included */ dv->sdev_path = i_ddi_strdup(devdir, KM_SLEEP); dv->sdev_ino = SDEV_ROOTINO; dv->sdev_nlink = 2; /* name + . (no sdev_insert) */ dv->sdev_dotdot = dv; /* .. == self */ dv->sdev_attrvp = avp; dv->sdev_attr = NULL; mutex_init(&dv->sdev_lookup_lock, NULL, MUTEX_DEFAULT, NULL); cv_init(&dv->sdev_lookup_cv, NULL, CV_DEFAULT, NULL); if (strcmp(dv->sdev_name, "/dev") == 0) { mutex_init(&devname_nsmaps_lock, NULL, MUTEX_DEFAULT, NULL); dv->sdev_mapinfo = NULL; dv->sdev_flags = SDEV_BUILD|SDEV_GLOBAL|SDEV_PERSIST; bzero(&dv->sdev_handle, sizeof (dv->sdev_handle)); dv->sdev_gdir_gen = 0; } else { dv->sdev_flags = SDEV_BUILD; dv->sdev_flags &= ~SDEV_PERSIST; bzero(&dv->sdev_prof, sizeof (dv->sdev_prof)); dv->sdev_ldir_gen = 0; dv->sdev_devtree_gen = 0; } rw_enter(&dv->sdev_contents, RW_WRITER); sdev_set_nodestate(dv, SDEV_READY); rw_exit(&dv->sdev_contents); sdev_nc_node_exists(dv); return (dv); } /* * 1. load the module * 2. modload invokes sdev_module_register, which in turn sets * the dv->sdev_mapinfo->dir_ops * * note: locking order: * dv->sdev_contents -> map->dir_lock */ static int sdev_get_moduleops(struct sdev_node *dv) { int error = 0; struct devname_nsmap *map = NULL; char *module; char *path; int load = 1; ASSERT(SDEVTOV(dv)->v_type == VDIR); if (devname_nsmaps == NULL) return (0); if (!sdev_nsmaps_loaded() && !sdev_nsmaps_reloaded()) return (0); path = dv->sdev_path; if ((map = sdev_get_nsmap_by_dir(path, 0))) { rw_enter(&map->dir_lock, RW_READER); if (map->dir_invalid) { if (map->dir_module && map->dir_newmodule && (strcmp(map->dir_module, map->dir_newmodule) == 0)) { load = 0; } sdev_replace_nsmap(map, map->dir_newmodule, map->dir_newmap); } module = map->dir_module; if (module && load) { sdcmn_err6(("sdev_get_moduleops: " "load module %s", module)); rw_exit(&map->dir_lock); error = modload("devname", module); sdcmn_err6(("sdev_get_moduleops: error %d\n", error)); if (error < 0) { return (-1); } } else if (module == NULL) { /* * loading the module ops for name services */ if (devname_ns_ops == NULL) { sdcmn_err6(( "sdev_get_moduleops: modload default\n")); error = modload("devname", DEVNAME_NSCONFIG); sdcmn_err6(( "sdev_get_moduleops: error %d\n", error)); if (error < 0) { return (-1); } } if (!rw_tryupgrade(&map->dir_lock)) { rw_exit(&map->dir_lock); rw_enter(&map->dir_lock, RW_WRITER); } ASSERT(devname_ns_ops); map->dir_ops = devname_ns_ops; rw_exit(&map->dir_lock); } } dv->sdev_mapinfo = map; return (0); } /* directory dependent vop table */ struct sdev_vop_table { char *vt_name; /* subdirectory name */ const fs_operation_def_t *vt_service; /* vnodeops table */ struct vnodeops *vt_vops; /* constructed vop */ struct vnodeops **vt_global_vops; /* global container for vop */ int (*vt_vtor)(struct sdev_node *); /* validate sdev_node */ int vt_flags; }; /* * A nice improvement would be to provide a plug-in mechanism * for this table instead of a const table. */ static struct sdev_vop_table vtab[] = { { "pts", devpts_vnodeops_tbl, NULL, &devpts_vnodeops, devpts_validate, SDEV_DYNAMIC | SDEV_VTOR }, { "zcons", NULL, NULL, NULL, NULL, SDEV_NO_NCACHE }, { NULL, NULL, NULL, NULL, NULL, 0} }; /* * sets a directory's vnodeops if the directory is in the vtab; */ static struct vnodeops * sdev_get_vop(struct sdev_node *dv) { int i; char *path; path = dv->sdev_path; ASSERT(path); /* gets the relative path to /dev/ */ path += 5; /* gets the vtab entry if matches */ for (i = 0; vtab[i].vt_name; i++) { if (strcmp(vtab[i].vt_name, path) != 0) continue; dv->sdev_flags |= vtab[i].vt_flags; if (vtab[i].vt_vops) { if (vtab[i].vt_global_vops) *(vtab[i].vt_global_vops) = vtab[i].vt_vops; return (vtab[i].vt_vops); } if (vtab[i].vt_service) { fs_operation_def_t *templ; templ = sdev_merge_vtab(vtab[i].vt_service); if (vn_make_ops(vtab[i].vt_name, (const fs_operation_def_t *)templ, &vtab[i].vt_vops) != 0) { cmn_err(CE_PANIC, "%s: malformed vnode ops\n", vtab[i].vt_name); /*NOTREACHED*/ } if (vtab[i].vt_global_vops) { *(vtab[i].vt_global_vops) = vtab[i].vt_vops; } sdev_free_vtab(templ); return (vtab[i].vt_vops); } return (sdev_vnodeops); } /* child inherits the persistence of the parent */ if (SDEV_IS_PERSIST(dv->sdev_dotdot)) dv->sdev_flags |= SDEV_PERSIST; return (sdev_vnodeops); } static void sdev_set_no_nocache(struct sdev_node *dv) { int i; char *path; ASSERT(dv->sdev_path); path = dv->sdev_path + strlen("/dev/"); for (i = 0; vtab[i].vt_name; i++) { if (strcmp(vtab[i].vt_name, path) == 0) { if (vtab[i].vt_flags & SDEV_NO_NCACHE) dv->sdev_flags |= SDEV_NO_NCACHE; break; } } } void * sdev_get_vtor(struct sdev_node *dv) { int i; for (i = 0; vtab[i].vt_name; i++) { if (strcmp(vtab[i].vt_name, dv->sdev_name) != 0) continue; return ((void *)vtab[i].vt_vtor); } return (NULL); } /* * Build the base root inode */ ino_t sdev_mkino(struct sdev_node *dv) { ino_t ino; /* * for now, follow the lead of tmpfs here * need to someday understand the requirements here */ ino = (ino_t)(uint32_t)((uintptr_t)dv >> 3); ino += SDEV_ROOTINO + 1; return (ino); } static int sdev_getlink(struct vnode *linkvp, char **link) { int err; char *buf; struct uio uio = {0}; struct iovec iov = {0}; if (linkvp == NULL) return (ENOENT); ASSERT(linkvp->v_type == VLNK); buf = kmem_zalloc(MAXPATHLEN, KM_SLEEP); iov.iov_base = buf; iov.iov_len = MAXPATHLEN; uio.uio_iov = &iov; uio.uio_iovcnt = 1; uio.uio_resid = MAXPATHLEN; uio.uio_segflg = UIO_SYSSPACE; uio.uio_llimit = MAXOFFSET_T; err = VOP_READLINK(linkvp, &uio, kcred); if (err) { cmn_err(CE_WARN, "readlink %s failed in dev\n", buf); kmem_free(buf, MAXPATHLEN); return (ENOENT); } /* mission complete */ *link = i_ddi_strdup(buf, KM_SLEEP); kmem_free(buf, MAXPATHLEN); return (0); } /* * A convenient wrapper to get the devfs node vnode for a device * minor functionality: readlink() of a /dev symlink * Place the link into dv->sdev_symlink */ static int sdev_follow_link(struct sdev_node *dv) { int err; struct vnode *linkvp; char *link = NULL; linkvp = SDEVTOV(dv); if (linkvp == NULL) return (ENOENT); ASSERT(linkvp->v_type == VLNK); err = sdev_getlink(linkvp, &link); if (err) { (void) sdev_nodezombied(dv); dv->sdev_symlink = NULL; return (ENOENT); } ASSERT(link != NULL); dv->sdev_symlink = link; return (0); } static int sdev_node_check(struct sdev_node *dv, struct vattr *nvap, void *nargs) { vtype_t otype = SDEVTOV(dv)->v_type; /* * existing sdev_node has a different type. */ if (otype != nvap->va_type) { sdcmn_err9(("sdev_node_check: existing node " " %s type %d does not match new node type %d\n", dv->sdev_name, otype, nvap->va_type)); return (EEXIST); } /* * For a symlink, the target should be the same. */ if (otype == VLNK) { ASSERT(nargs != NULL); ASSERT(dv->sdev_symlink != NULL); if (strcmp(dv->sdev_symlink, (char *)nargs) != 0) { sdcmn_err9(("sdev_node_check: existing node " " %s has different symlink %s as new node " " %s\n", dv->sdev_name, dv->sdev_symlink, (char *)nargs)); return (EEXIST); } } return (0); } /* * sdev_mknode - a wrapper for sdev_nodeinit(), sdev_nodeready() * * arguments: * - ddv (parent) * - nm (child name) * - newdv (sdev_node for nm is returned here) * - vap (vattr for the node to be created, va_type should be set. * the defaults should be used if unknown) * - cred * - args * . tnm (for VLNK) * . global sdev_node (for !SDEV_GLOBAL) * - state: SDEV_INIT, SDEV_READY * * only ddv, nm, newddv, vap, cred are required for sdev_mknode(SDEV_INIT) * * NOTE: directory contents writers lock needs to be held before * calling this routine. */ int sdev_mknode(struct sdev_node *ddv, char *nm, struct sdev_node **newdv, struct vattr *vap, struct vnode *avp, void *args, struct cred *cred, sdev_node_state_t state) { int error = 0; sdev_node_state_t node_state; struct sdev_node *dv = NULL; ASSERT(state != SDEV_ZOMBIE); ASSERT(RW_WRITE_HELD(&ddv->sdev_contents)); if (*newdv) { dv = *newdv; } else { /* allocate and initialize a sdev_node */ if (ddv->sdev_state == SDEV_ZOMBIE) { sdcmn_err9(("sdev_mknode: parent %s ZOMBIEd\n", ddv->sdev_path)); return (ENOENT); } error = sdev_nodeinit(ddv, nm, &dv, vap); if (error != 0) { sdcmn_err9(("sdev_mknode: error %d," " name %s can not be initialized\n", error, nm)); return (ENOENT); } ASSERT(dv); /* insert into the directory cache */ error = sdev_cache_update(ddv, &dv, nm, SDEV_CACHE_ADD); if (error) { sdcmn_err9(("sdev_mknode: node %s can not" " be added into directory cache\n", nm)); return (ENOENT); } } ASSERT(dv); node_state = dv->sdev_state; ASSERT(node_state != SDEV_ZOMBIE); if (state == SDEV_READY) { switch (node_state) { case SDEV_INIT: error = sdev_nodeready(dv, vap, avp, args, cred); /* * masking the errors with ENOENT */ if (error) { sdcmn_err9(("sdev_mknode: node %s can NOT" " be transitioned into READY state, " "error %d\n", nm, error)); error = ENOENT; } break; case SDEV_READY: /* * Do some sanity checking to make sure * the existing sdev_node is what has been * asked for. */ error = sdev_node_check(dv, vap, args); break; default: break; } } if (!error) { *newdv = dv; ASSERT((*newdv)->sdev_state != SDEV_ZOMBIE); } else { SDEV_SIMPLE_RELE(dv); *newdv = NULL; } return (error); } /* * convenient wrapper to change vp's ATIME, CTIME and ATIME */ void sdev_update_timestamps(struct vnode *vp, cred_t *cred, uint_t mask) { struct vattr attr; timestruc_t now; int err; ASSERT(vp); gethrestime(&now); if (mask & AT_CTIME) attr.va_ctime = now; if (mask & AT_MTIME) attr.va_mtime = now; if (mask & AT_ATIME) attr.va_atime = now; attr.va_mask = (mask & AT_TIMES); err = VOP_SETATTR(vp, &attr, 0, cred, NULL); if (err && (err != EROFS)) { sdcmn_err(("update timestamps error %d\n", err)); } } /* * the backing store vnode is released here */ /*ARGSUSED1*/ void sdev_nodedestroy(struct sdev_node *dv, uint_t flags) { /* no references */ ASSERT(dv->sdev_nlink == 0); if (dv->sdev_attrvp != NULLVP) { VN_RELE(dv->sdev_attrvp); /* * reset the attrvp so that no more * references can be made on this already * vn_rele() vnode */ dv->sdev_attrvp = NULLVP; } if (dv->sdev_attr != NULL) { kmem_free(dv->sdev_attr, sizeof (struct vattr)); dv->sdev_attr = NULL; } if (dv->sdev_name != NULL) { kmem_free(dv->sdev_name, dv->sdev_namelen + 1); dv->sdev_name = NULL; } if (dv->sdev_symlink != NULL) { kmem_free(dv->sdev_symlink, strlen(dv->sdev_symlink) + 1); dv->sdev_symlink = NULL; } if (dv->sdev_path) { kmem_free(dv->sdev_path, strlen(dv->sdev_path) + 1); dv->sdev_path = NULL; } if (!SDEV_IS_GLOBAL(dv)) sdev_prof_free(dv); mutex_destroy(&dv->sdev_lookup_lock); cv_destroy(&dv->sdev_lookup_cv); /* return node to initial state as per constructor */ (void) memset((void *)&dv->sdev_instance_data, 0, sizeof (dv->sdev_instance_data)); vn_invalid(SDEVTOV(dv)); kmem_cache_free(sdev_node_cache, dv); } /* * DIRECTORY CACHE lookup */ struct sdev_node * sdev_findbyname(struct sdev_node *ddv, char *nm) { struct sdev_node *dv; size_t nmlen = strlen(nm); ASSERT(RW_LOCK_HELD(&ddv->sdev_contents)); for (dv = ddv->sdev_dot; dv; dv = dv->sdev_next) { if (dv->sdev_namelen != nmlen) { continue; } /* * Can't lookup stale nodes */ if (dv->sdev_flags & SDEV_STALE) { sdcmn_err9(( "sdev_findbyname: skipped stale node: %s\n", dv->sdev_name)); continue; } if (strcmp(dv->sdev_name, nm) == 0) { SDEV_HOLD(dv); return (dv); } } return (NULL); } /* * Inserts a new sdev_node in a parent directory */ void sdev_direnter(struct sdev_node *ddv, struct sdev_node *dv) { ASSERT(RW_WRITE_HELD(&ddv->sdev_contents)); ASSERT(SDEVTOV(ddv)->v_type == VDIR); ASSERT(ddv->sdev_nlink >= 2); ASSERT(dv->sdev_nlink == 0); dv->sdev_dotdot = ddv; dv->sdev_next = ddv->sdev_dot; ddv->sdev_dot = dv; ddv->sdev_nlink++; } /* * The following check is needed because while sdev_nodes are linked * in SDEV_INIT state, they have their link counts incremented only * in SDEV_READY state. */ static void decr_link(struct sdev_node *dv) { if (dv->sdev_state != SDEV_INIT) dv->sdev_nlink--; else ASSERT(dv->sdev_nlink == 0); } /* * Delete an existing dv from directory cache * * In the case of a node is still held by non-zero reference count, * the node is put into ZOMBIE state. Once the reference count * reaches "0", the node is unlinked and destroyed, * in sdev_inactive(). */ static int sdev_dirdelete(struct sdev_node *ddv, struct sdev_node *dv) { struct sdev_node *idv; struct sdev_node *prev = NULL; struct vnode *vp; ASSERT(RW_WRITE_HELD(&ddv->sdev_contents)); vp = SDEVTOV(dv); mutex_enter(&vp->v_lock); /* dv is held still */ if (vp->v_count > 1) { rw_enter(&dv->sdev_contents, RW_WRITER); if (dv->sdev_state == SDEV_READY) { sdcmn_err9(( "sdev_delete: node %s busy with count %d\n", dv->sdev_name, vp->v_count)); dv->sdev_state = SDEV_ZOMBIE; } rw_exit(&dv->sdev_contents); --vp->v_count; mutex_exit(&vp->v_lock); return (EBUSY); } ASSERT(vp->v_count == 1); /* unlink from the memory cache */ ddv->sdev_nlink--; /* .. to above */ if (vp->v_type == VDIR) { decr_link(dv); /* . to self */ } for (idv = ddv->sdev_dot; idv && idv != dv; prev = idv, idv = idv->sdev_next) ; ASSERT(idv == dv); /* node to be deleted must exist */ if (prev == NULL) ddv->sdev_dot = dv->sdev_next; else prev->sdev_next = dv->sdev_next; dv->sdev_next = NULL; decr_link(dv); /* name, back to zero */ vp->v_count--; mutex_exit(&vp->v_lock); /* destroy the node */ sdev_nodedestroy(dv, 0); return (0); } /* * check if the source is in the path of the target * * source and target are different */ /*ARGSUSED2*/ static int sdev_checkpath(struct sdev_node *sdv, struct sdev_node *tdv, struct cred *cred) { int error = 0; struct sdev_node *dotdot, *dir; dotdot = tdv->sdev_dotdot; ASSERT(dotdot); /* fs root */ if (dotdot == tdv) { return (0); } for (;;) { /* * avoid error cases like * mv a a/b * mv a a/b/c * etc. */ if (dotdot == sdv) { error = EINVAL; break; } dir = dotdot; dotdot = dir->sdev_dotdot; /* done checking because root is reached */ if (dir == dotdot) { break; } } return (error); } int sdev_rnmnode(struct sdev_node *oddv, struct sdev_node *odv, struct sdev_node *nddv, struct sdev_node **ndvp, char *nnm, struct cred *cred) { int error = 0; struct vnode *ovp = SDEVTOV(odv); struct vnode *nvp; struct vattr vattr; int doingdir = (ovp->v_type == VDIR); char *link = NULL; int samedir = (oddv == nddv) ? 1 : 0; int bkstore = 0; struct sdev_node *idv = NULL; struct sdev_node *ndv = NULL; timestruc_t now; vattr.va_mask = AT_MODE|AT_UID|AT_GID; error = VOP_GETATTR(ovp, &vattr, 0, cred); if (error) return (error); if (!samedir) rw_enter(&oddv->sdev_contents, RW_WRITER); rw_enter(&nddv->sdev_contents, RW_WRITER); /* * the source may have been deleted by another thread before * we gets here. */ if (odv->sdev_state != SDEV_READY) { error = ENOENT; goto err_out; } if (doingdir && (odv == nddv)) { error = EINVAL; goto err_out; } /* * If renaming a directory, and the parents are different (".." must be * changed) then the source dir must not be in the dir hierarchy above * the target since it would orphan everything below the source dir. */ if (doingdir && (oddv != nddv)) { error = sdev_checkpath(odv, nddv, cred); if (error) goto err_out; } /* destination existing */ if (*ndvp) { nvp = SDEVTOV(*ndvp); ASSERT(nvp); /* handling renaming to itself */ if (odv == *ndvp) { error = 0; goto err_out; } if (nvp->v_type == VDIR) { if (!doingdir) { error = EISDIR; goto err_out; } if (vn_vfswlock(nvp)) { error = EBUSY; goto err_out; } if (vn_mountedvfs(nvp) != NULL) { vn_vfsunlock(nvp); error = EBUSY; goto err_out; } /* in case dir1 exists in dir2 and "mv dir1 dir2" */ if ((*ndvp)->sdev_nlink > 2) { vn_vfsunlock(nvp); error = EEXIST; goto err_out; } vn_vfsunlock(nvp); (void) sdev_dirdelete(nddv, *ndvp); *ndvp = NULL; error = VOP_RMDIR(nddv->sdev_attrvp, nnm, nddv->sdev_attrvp, cred); if (error) goto err_out; } else { if (doingdir) { error = ENOTDIR; goto err_out; } if (SDEV_IS_PERSIST((*ndvp))) { bkstore = 1; } /* * get rid of the node from the directory cache * note, in case EBUSY is returned, the ZOMBIE * node is taken care in sdev_mknode. */ (void) sdev_dirdelete(nddv, *ndvp); *ndvp = NULL; if (bkstore) { error = VOP_REMOVE(nddv->sdev_attrvp, nnm, cred); if (error) goto err_out; } } } /* fix the source for a symlink */ if (vattr.va_type == VLNK) { if (odv->sdev_symlink == NULL) { error = sdev_follow_link(odv); if (error) { error = ENOENT; goto err_out; } } ASSERT(odv->sdev_symlink); link = i_ddi_strdup(odv->sdev_symlink, KM_SLEEP); } /* * make a fresh node from the source attrs */ ASSERT(RW_WRITE_HELD(&nddv->sdev_contents)); error = sdev_mknode(nddv, nnm, ndvp, &vattr, NULL, (void *)link, cred, SDEV_READY); if (link) kmem_free(link, strlen(link) + 1); if (error) goto err_out; ASSERT(*ndvp); ASSERT((*ndvp)->sdev_state == SDEV_READY); /* move dir contents */ if (doingdir) { for (idv = odv->sdev_dot; idv; idv = idv->sdev_next) { error = sdev_rnmnode(odv, idv, (struct sdev_node *)(*ndvp), &ndv, idv->sdev_name, cred); if (error) goto err_out; ndv = NULL; } } if ((*ndvp)->sdev_attrvp) { sdev_update_timestamps((*ndvp)->sdev_attrvp, kcred, AT_CTIME|AT_ATIME); } else { ASSERT((*ndvp)->sdev_attr); gethrestime(&now); (*ndvp)->sdev_attr->va_ctime = now; (*ndvp)->sdev_attr->va_atime = now; } if (nddv->sdev_attrvp) { sdev_update_timestamps(nddv->sdev_attrvp, kcred, AT_MTIME|AT_ATIME); } else { ASSERT(nddv->sdev_attr); gethrestime(&now); nddv->sdev_attr->va_mtime = now; nddv->sdev_attr->va_atime = now; } rw_exit(&nddv->sdev_contents); if (!samedir) rw_exit(&oddv->sdev_contents); SDEV_RELE(*ndvp); return (error); err_out: rw_exit(&nddv->sdev_contents); if (!samedir) rw_exit(&oddv->sdev_contents); return (error); } /* * Merge sdev_node specific information into an attribute structure. * * note: sdev_node is not locked here */ void sdev_vattr_merge(struct sdev_node *dv, struct vattr *vap) { struct vnode *vp = SDEVTOV(dv); vap->va_nlink = dv->sdev_nlink; vap->va_nodeid = dv->sdev_ino; vap->va_fsid = SDEVTOV(dv->sdev_dotdot)->v_rdev; vap->va_type = vp->v_type; if (vp->v_type == VDIR) { vap->va_rdev = 0; vap->va_fsid = vp->v_rdev; } else if (vp->v_type == VLNK) { vap->va_rdev = 0; vap->va_mode &= ~S_IFMT; vap->va_mode |= S_IFLNK; } else if ((vp->v_type == VCHR) || (vp->v_type == VBLK)) { vap->va_rdev = vp->v_rdev; vap->va_mode &= ~S_IFMT; if (vap->va_type == VCHR) vap->va_mode |= S_IFCHR; else vap->va_mode |= S_IFBLK; } else { vap->va_rdev = 0; } } static struct vattr * sdev_getdefault_attr(enum vtype type) { if (type == VDIR) return (&sdev_vattr_dir); else if (type == VCHR) return (&sdev_vattr_chr); else if (type == VBLK) return (&sdev_vattr_blk); else if (type == VLNK) return (&sdev_vattr_lnk); else return (NULL); } int sdev_to_vp(struct sdev_node *dv, struct vnode **vpp) { int rv = 0; struct vnode *vp = SDEVTOV(dv); switch (vp->v_type) { case VCHR: case VBLK: /* * If vnode is a device, return special vnode instead * (though it knows all about -us- via sp->s_realvp) */ *vpp = specvp(vp, vp->v_rdev, vp->v_type, kcred); VN_RELE(vp); if (*vpp == NULLVP) rv = ENOSYS; break; default: /* most types are returned as is */ *vpp = vp; break; } return (rv); } /* * loopback into sdev_lookup() */ static struct vnode * devname_find_by_devpath(char *devpath, struct vattr *vattr) { int error = 0; struct vnode *vp; error = lookupname(devpath, UIO_SYSSPACE, NO_FOLLOW, NULLVPP, &vp); if (error) { return (NULL); } if (vattr) (void) VOP_GETATTR(vp, vattr, 0, kcred); return (vp); } /* * the junction between devname and devfs */ static struct vnode * devname_configure_by_path(char *physpath, struct vattr *vattr) { int error = 0; struct vnode *vp; ASSERT(strncmp(physpath, "/devices/", sizeof ("/devices/") - 1) == 0); error = devfs_lookupname(physpath + sizeof ("/devices/") - 1, NULLVPP, &vp); if (error != 0) { if (error == ENODEV) { cmn_err(CE_CONT, "%s: not found (line %d)\n", physpath, __LINE__); } return (NULL); } if (vattr) (void) VOP_GETATTR(vp, vattr, 0, kcred); return (vp); } /* * junction between devname and root file system, e.g. ufs */ int devname_backstore_lookup(struct sdev_node *ddv, char *nm, struct vnode **rvp) { struct vnode *rdvp = ddv->sdev_attrvp; int rval = 0; ASSERT(rdvp); rval = VOP_LOOKUP(rdvp, nm, rvp, NULL, 0, NULL, kcred); return (rval); } static int sdev_filldir_from_store(struct sdev_node *ddv, int dlen, struct cred *cred) { struct sdev_node *dv = NULL; char *nm; struct vnode *dirvp; int error; vnode_t *vp; int eof; struct iovec iov; struct uio uio; struct dirent64 *dp; dirent64_t *dbuf; size_t dbuflen; struct vattr vattr; char *link = NULL; if (ddv->sdev_attrvp == NULL) return (0); if (!(ddv->sdev_flags & SDEV_BUILD)) return (0); dirvp = ddv->sdev_attrvp; VN_HOLD(dirvp); dbuf = kmem_zalloc(dlen, KM_SLEEP); uio.uio_iov = &iov; uio.uio_iovcnt = 1; uio.uio_segflg = UIO_SYSSPACE; uio.uio_fmode = 0; uio.uio_extflg = UIO_COPY_CACHED; uio.uio_loffset = 0; uio.uio_llimit = MAXOFFSET_T; eof = 0; error = 0; while (!error && !eof) { uio.uio_resid = dlen; iov.iov_base = (char *)dbuf; iov.iov_len = dlen; (void) VOP_RWLOCK(dirvp, V_WRITELOCK_FALSE, NULL); error = VOP_READDIR(dirvp, &uio, kcred, &eof); VOP_RWUNLOCK(dirvp, V_WRITELOCK_FALSE, NULL); dbuflen = dlen - uio.uio_resid; if (error || dbuflen == 0) break; if (!(ddv->sdev_flags & SDEV_BUILD)) { error = 0; break; } for (dp = dbuf; ((intptr_t)dp < (intptr_t)dbuf + dbuflen); dp = (dirent64_t *)((intptr_t)dp + dp->d_reclen)) { nm = dp->d_name; if (strcmp(nm, ".") == 0 || strcmp(nm, "..") == 0) continue; vp = NULLVP; dv = sdev_cache_lookup(ddv, nm); if (dv) { if (dv->sdev_state != SDEV_ZOMBIE) { SDEV_SIMPLE_RELE(dv); } else { /* * A ZOMBIE node may not have been * cleaned up from the backing store, * bypass this entry in this case, * and clean it up from the directory * cache if this is the last call. */ (void) sdev_dirdelete(ddv, dv); } continue; } /* refill the cache if not already */ error = devname_backstore_lookup(ddv, nm, &vp); if (error) continue; vattr.va_mask = AT_MODE|AT_UID|AT_GID; error = VOP_GETATTR(vp, &vattr, 0, cred); if (error) continue; if (vattr.va_type == VLNK) { error = sdev_getlink(vp, &link); if (error) { continue; } ASSERT(link != NULL); } if (!rw_tryupgrade(&ddv->sdev_contents)) { rw_exit(&ddv->sdev_contents); rw_enter(&ddv->sdev_contents, RW_WRITER); } error = sdev_mknode(ddv, nm, &dv, &vattr, vp, link, cred, SDEV_READY); rw_downgrade(&ddv->sdev_contents); if (link != NULL) { kmem_free(link, strlen(link) + 1); link = NULL; } if (!error) { ASSERT(dv); ASSERT(dv->sdev_state != SDEV_ZOMBIE); SDEV_SIMPLE_RELE(dv); } vp = NULL; dv = NULL; } } done: VN_RELE(dirvp); kmem_free(dbuf, dlen); return (error); } static int sdev_filldir_dynamic(struct sdev_node *ddv) { int error; int i; struct vattr *vap; char *nm = NULL; struct sdev_node *dv = NULL; if (!(ddv->sdev_flags & SDEV_BUILD)) { return (0); } ASSERT(RW_READ_HELD(&ddv->sdev_contents)); if (!rw_tryupgrade(&ddv->sdev_contents)) { rw_exit(&ddv->sdev_contents); rw_enter(&ddv->sdev_contents, RW_WRITER); } vap = sdev_getdefault_attr(VDIR); for (i = 0; vtab[i].vt_name != NULL; i++) { nm = vtab[i].vt_name; ASSERT(RW_WRITE_HELD(&ddv->sdev_contents)); error = sdev_mknode(ddv, nm, &dv, vap, NULL, NULL, kcred, SDEV_READY); if (error) continue; ASSERT(dv); ASSERT(dv->sdev_state != SDEV_ZOMBIE); SDEV_SIMPLE_RELE(dv); dv = NULL; } rw_downgrade(&ddv->sdev_contents); return (0); } /* * Creating a backing store entry based on sdev_attr. * This is called either as part of node creation in a persistent directory * or from setattr/setsecattr to persist access attributes across reboot. */ int sdev_shadow_node(struct sdev_node *dv, struct cred *cred) { int error = 0; struct vnode *dvp = SDEVTOV(dv->sdev_dotdot); struct vnode *rdvp = VTOSDEV(dvp)->sdev_attrvp; struct vattr *vap = dv->sdev_attr; char *nm = dv->sdev_name; struct vnode *tmpvp, **rvp = &tmpvp, *rrvp = NULL; ASSERT(dv && dv->sdev_name && rdvp); ASSERT(RW_WRITE_HELD(&dv->sdev_contents) && dv->sdev_attrvp == NULL); lookup: /* try to find it in the backing store */ error = VOP_LOOKUP(rdvp, nm, rvp, NULL, 0, NULL, cred); if (error == 0) { if (VOP_REALVP(*rvp, &rrvp) == 0) { VN_HOLD(rrvp); VN_RELE(*rvp); *rvp = rrvp; } kmem_free(dv->sdev_attr, sizeof (vattr_t)); dv->sdev_attr = NULL; dv->sdev_attrvp = *rvp; return (0); } /* let's try to persist the node */ gethrestime(&vap->va_atime); vap->va_mtime = vap->va_atime; vap->va_ctime = vap->va_atime; vap->va_mask |= AT_TYPE|AT_MODE; switch (vap->va_type) { case VDIR: error = VOP_MKDIR(rdvp, nm, vap, rvp, cred); sdcmn_err9(("sdev_shadow_node: mkdir vp %p error %d\n", (void *)(*rvp), error)); break; case VCHR: case VBLK: case VREG: case VDOOR: error = VOP_CREATE(rdvp, nm, vap, NONEXCL, VREAD|VWRITE, rvp, cred, 0); sdcmn_err9(("sdev_shadow_node: create vp %p, error %d\n", (void *)(*rvp), error)); if (!error) VN_RELE(*rvp); break; case VLNK: ASSERT(dv->sdev_symlink); error = VOP_SYMLINK(rdvp, nm, vap, dv->sdev_symlink, cred); sdcmn_err9(("sdev_shadow_node: create symlink error %d\n", error)); break; default: cmn_err(CE_PANIC, "dev: %s: sdev_shadow_node " "create\n", nm); /*NOTREACHED*/ } /* go back to lookup to factor out spec node and set attrvp */ if (error == 0) goto lookup; return (error); } static int sdev_cache_add(struct sdev_node *ddv, struct sdev_node **dv, char *nm) { int error = 0; struct sdev_node *dup = NULL; ASSERT(RW_WRITE_HELD(&ddv->sdev_contents)); if ((dup = sdev_findbyname(ddv, nm)) == NULL) { sdev_direnter(ddv, *dv); } else { if (dup->sdev_state == SDEV_ZOMBIE) { error = sdev_dirdelete(ddv, dup); /* * The ZOMBIE node is still hanging * around with more than one reference counts. * Fail the new node creation so that * the directory cache won't have * duplicate entries for the same named node */ if (error == EBUSY) { SDEV_SIMPLE_RELE(*dv); sdev_nodedestroy(*dv, 0); *dv = NULL; return (error); } sdev_direnter(ddv, *dv); } else { ASSERT((*dv)->sdev_state != SDEV_ZOMBIE); SDEV_SIMPLE_RELE(*dv); sdev_nodedestroy(*dv, 0); *dv = dup; } } return (0); } static int sdev_cache_delete(struct sdev_node *ddv, struct sdev_node **dv) { ASSERT(RW_WRITE_HELD(&ddv->sdev_contents)); return (sdev_dirdelete(ddv, *dv)); } /* * update the in-core directory cache */ int sdev_cache_update(struct sdev_node *ddv, struct sdev_node **dv, char *nm, sdev_cache_ops_t ops) { int error = 0; ASSERT((SDEV_HELD(*dv))); ASSERT(RW_WRITE_HELD(&ddv->sdev_contents)); switch (ops) { case SDEV_CACHE_ADD: error = sdev_cache_add(ddv, dv, nm); break; case SDEV_CACHE_DELETE: error = sdev_cache_delete(ddv, dv); break; default: break; } return (error); } /* * retrive the named entry from the directory cache */ struct sdev_node * sdev_cache_lookup(struct sdev_node *ddv, char *nm) { struct sdev_node *dv = NULL; ASSERT(RW_LOCK_HELD(&ddv->sdev_contents)); dv = sdev_findbyname(ddv, nm); return (dv); } /* * Implicit reconfig for nodes constructed by a link generator * Start devfsadm if needed, or if devfsadm is in progress, * prepare to block on devfsadm either completing or * constructing the desired node. As devfsadmd is global * in scope, constructing all necessary nodes, we only * need to initiate it once. */ static int sdev_call_devfsadmd(struct sdev_node *ddv, struct sdev_node *dv, char *nm) { int error = 0; if (DEVNAME_DEVFSADM_IS_RUNNING(devfsadm_state)) { sdcmn_err6(("lookup: waiting for %s/%s, 0x%x\n", ddv->sdev_name, nm, devfsadm_state)); mutex_enter(&dv->sdev_lookup_lock); SDEV_BLOCK_OTHERS(dv, (SDEV_LOOKUP | SDEV_LGWAITING)); mutex_exit(&dv->sdev_lookup_lock); error = 0; } else if (!DEVNAME_DEVFSADM_HAS_RUN(devfsadm_state)) { sdcmn_err6(("lookup %s/%s starting devfsadm, 0x%x\n", ddv->sdev_name, nm, devfsadm_state)); sdev_devfsadmd_thread(ddv, dv, kcred); mutex_enter(&dv->sdev_lookup_lock); SDEV_BLOCK_OTHERS(dv, (SDEV_LOOKUP | SDEV_LGWAITING)); mutex_exit(&dv->sdev_lookup_lock); error = 0; } else { error = -1; } return (error); } static int sdev_call_modulelookup(struct sdev_node *ddv, struct sdev_node **dvp, char *nm, int (*fn)(char *, devname_handle_t *, struct cred *), struct cred *cred) { struct vnode *rvp = NULL; int error = 0; struct vattr *vap; devname_spec_t spec; devname_handle_t *hdl; void *args = NULL; struct sdev_node *dv = *dvp; ASSERT(dv && ddv); hdl = &(dv->sdev_handle); ASSERT(hdl->dh_data == dv); mutex_enter(&dv->sdev_lookup_lock); SDEV_BLOCK_OTHERS(dv, SDEV_LOOKUP); mutex_exit(&dv->sdev_lookup_lock); error = (*fn)(nm, hdl, cred); if (error) { return (error); } spec = hdl->dh_spec; args = hdl->dh_args; ASSERT(args); switch (spec) { case DEVNAME_NS_PATH: /* * symlink of: * /dev/dir/nm -> /device/... */ rvp = devname_configure_by_path((char *)args, NULL); break; case DEVNAME_NS_DEV: /* * symlink of: * /dev/dir/nm -> /dev/... */ rvp = devname_find_by_devpath((char *)args, NULL); break; default: if (args) kmem_free((char *)args, strlen(args) + 1); return (ENOENT); } if (rvp == NULL) { if (args) kmem_free((char *)args, strlen(args) + 1); return (ENOENT); } else { vap = sdev_getdefault_attr(VLNK); ASSERT(RW_READ_HELD(&ddv->sdev_contents)); /* * Could sdev_mknode return a different dv_node * once the lock is dropped? */ if (!rw_tryupgrade(&ddv->sdev_contents)) { rw_exit(&ddv->sdev_contents); rw_enter(&ddv->sdev_contents, RW_WRITER); } error = sdev_mknode(ddv, nm, &dv, vap, NULL, args, cred, SDEV_READY); rw_downgrade(&ddv->sdev_contents); if (error) { if (args) kmem_free((char *)args, strlen(args) + 1); return (error); } else { mutex_enter(&dv->sdev_lookup_lock); SDEV_UNBLOCK_OTHERS(dv, SDEV_LOOKUP); mutex_exit(&dv->sdev_lookup_lock); error = 0; } } if (args) kmem_free((char *)args, strlen(args) + 1); *dvp = dv; return (0); } /* * Support for specialized device naming construction mechanisms */ static int sdev_call_dircallback(struct sdev_node *ddv, struct sdev_node **dvp, char *nm, int (*callback)(struct sdev_node *, char *, void **, struct cred *, void *, char *), int flags, struct cred *cred) { int rv = 0; char *physpath = NULL; struct vnode *rvp = NULL; struct vattr vattr; struct vattr *vap; struct sdev_node *dv = *dvp; mutex_enter(&dv->sdev_lookup_lock); SDEV_BLOCK_OTHERS(dv, SDEV_LOOKUP); mutex_exit(&dv->sdev_lookup_lock); /* for non-devfsadm devices */ if (flags & SDEV_PATH) { physpath = kmem_zalloc(MAXPATHLEN, KM_SLEEP); rv = callback(ddv, nm, (void *)&physpath, kcred, NULL, NULL); if (rv) { kmem_free(physpath, MAXPATHLEN); return (-1); } ASSERT(physpath); rvp = devname_configure_by_path(physpath, NULL); if (rvp == NULL) { sdcmn_err3(("devname_configure_by_path: " "failed for /dev/%s/%s\n", ddv->sdev_name, nm)); kmem_free(physpath, MAXPATHLEN); rv = -1; } else { vap = sdev_getdefault_attr(VLNK); ASSERT(RW_READ_HELD(&ddv->sdev_contents)); /* * Sdev_mknode may return back a different sdev_node * that was created by another thread that * raced to the directroy cache before this thread. * * With current directory cache mechanism * (linked list with the sdev_node name as * the entity key), this is a way to make sure * only one entry exists for the same name * in the same directory. The outcome is * the winner wins. */ if (!rw_tryupgrade(&ddv->sdev_contents)) { rw_exit(&ddv->sdev_contents); rw_enter(&ddv->sdev_contents, RW_WRITER); } rv = sdev_mknode(ddv, nm, &dv, vap, NULL, (void *)physpath, cred, SDEV_READY); rw_downgrade(&ddv->sdev_contents); kmem_free(physpath, MAXPATHLEN); if (rv) { return (rv); } else { mutex_enter(&dv->sdev_lookup_lock); SDEV_UNBLOCK_OTHERS(dv, SDEV_LOOKUP); mutex_exit(&dv->sdev_lookup_lock); return (0); } } } else if (flags & SDEV_VNODE) { /* * DBNR has its own way to create the device * and return a backing store vnode in rvp */ ASSERT(callback); rv = callback(ddv, nm, (void *)&rvp, kcred, NULL, NULL); if (rv || (rvp == NULL)) { sdcmn_err3(("devname_lookup_func: SDEV_VNODE " "callback failed \n")); return (-1); } vap = sdev_getdefault_attr(rvp->v_type); if (vap == NULL) return (-1); ASSERT(RW_READ_HELD(&ddv->sdev_contents)); if (!rw_tryupgrade(&ddv->sdev_contents)) { rw_exit(&ddv->sdev_contents); rw_enter(&ddv->sdev_contents, RW_WRITER); } rv = sdev_mknode(ddv, nm, &dv, vap, rvp, NULL, cred, SDEV_READY); rw_downgrade(&ddv->sdev_contents); if (rv) return (rv); mutex_enter(&dv->sdev_lookup_lock); SDEV_UNBLOCK_OTHERS(dv, SDEV_LOOKUP); mutex_exit(&dv->sdev_lookup_lock); return (0); } else if (flags & SDEV_VATTR) { /* * /dev/pts * * DBNR has its own way to create the device * "0" is returned upon success. * * callback is responsible to set the basic attributes, * e.g. va_type/va_uid/va_gid/ * dev_t if VCHR or VBLK/ */ ASSERT(callback); rv = callback(ddv, nm, (void *)&vattr, kcred, NULL, NULL); if (rv) { sdcmn_err3(("devname_lookup_func: SDEV_NONE " "callback failed \n")); return (-1); } ASSERT(RW_READ_HELD(&ddv->sdev_contents)); if (!rw_tryupgrade(&ddv->sdev_contents)) { rw_exit(&ddv->sdev_contents); rw_enter(&ddv->sdev_contents, RW_WRITER); } rv = sdev_mknode(ddv, nm, &dv, &vattr, NULL, NULL, cred, SDEV_READY); rw_downgrade(&ddv->sdev_contents); if (rv) return (rv); mutex_enter(&dv->sdev_lookup_lock); SDEV_UNBLOCK_OTHERS(dv, SDEV_LOOKUP); mutex_exit(&dv->sdev_lookup_lock); return (0); } else { impossible(("lookup: %s/%s by %s not supported (%d)\n", SDEVTOV(ddv)->v_path, nm, curproc->p_user.u_comm, __LINE__)); rv = -1; } *dvp = dv; return (rv); } static int is_devfsadm_thread(char *exec_name) { /* * note: because devfsadmd -> /usr/sbin/devfsadm * it is safe to use "devfsadm" to capture the lookups * from devfsadm and its daemon version. */ if (strcmp(exec_name, "devfsadm") == 0) return (1); return (0); } /* * Lookup Order: * sdev_node cache; * backing store (SDEV_PERSIST); * DBNR: a. dir_ops implemented in the loadable modules; * b. vnode ops in vtab. */ int devname_lookup_func(struct sdev_node *ddv, char *nm, struct vnode **vpp, struct cred *cred, int (*callback)(struct sdev_node *, char *, void **, struct cred *, void *, char *), int flags) { int rv = 0, nmlen; struct vnode *rvp = NULL; struct sdev_node *dv = NULL; int retried = 0; int error = 0; struct devname_nsmap *map = NULL; struct devname_ops *dirops = NULL; int (*fn)(char *, devname_handle_t *, struct cred *) = NULL; struct vattr vattr; char *lookup_thread = curproc->p_user.u_comm; int failed_flags = 0; int (*vtor)(struct sdev_node *) = NULL; int state; int parent_state; char *link = NULL; if (SDEVTOV(ddv)->v_type != VDIR) return (ENOTDIR); /* * Empty name or ., return node itself. */ nmlen = strlen(nm); if ((nmlen == 0) || ((nmlen == 1) && (nm[0] == '.'))) { *vpp = SDEVTOV(ddv); VN_HOLD(*vpp); return (0); } /* * .., return the parent directory */ if ((nmlen == 2) && (strcmp(nm, "..") == 0)) { *vpp = SDEVTOV(ddv->sdev_dotdot); VN_HOLD(*vpp); return (0); } rw_enter(&ddv->sdev_contents, RW_READER); if (ddv->sdev_flags & SDEV_VTOR) { vtor = (int (*)(struct sdev_node *))sdev_get_vtor(ddv); ASSERT(vtor); } tryagain: /* * (a) directory cache lookup: */ ASSERT(RW_READ_HELD(&ddv->sdev_contents)); parent_state = ddv->sdev_state; dv = sdev_cache_lookup(ddv, nm); if (dv) { state = dv->sdev_state; switch (state) { case SDEV_INIT: if (is_devfsadm_thread(lookup_thread)) break; /* ZOMBIED parent won't allow node creation */ if (parent_state == SDEV_ZOMBIE) { SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); goto nolock_notfound; } mutex_enter(&dv->sdev_lookup_lock); /* compensate the threads started after devfsadm */ if (DEVNAME_DEVFSADM_IS_RUNNING(devfsadm_state) && !(SDEV_IS_LOOKUP(dv))) SDEV_BLOCK_OTHERS(dv, (SDEV_LOOKUP | SDEV_LGWAITING)); if (SDEV_IS_LOOKUP(dv)) { failed_flags |= SLF_REBUILT; rw_exit(&ddv->sdev_contents); error = sdev_wait4lookup(dv, SDEV_LOOKUP); mutex_exit(&dv->sdev_lookup_lock); rw_enter(&ddv->sdev_contents, RW_READER); if (error != 0) { SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); goto nolock_notfound; } state = dv->sdev_state; if (state == SDEV_INIT) { SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); goto nolock_notfound; } else if (state == SDEV_READY) { goto found; } else if (state == SDEV_ZOMBIE) { rw_exit(&ddv->sdev_contents); SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); SDEV_RELE(dv); goto lookup_failed; } } else { mutex_exit(&dv->sdev_lookup_lock); } break; case SDEV_READY: goto found; case SDEV_ZOMBIE: rw_exit(&ddv->sdev_contents); SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); SDEV_RELE(dv); goto lookup_failed; default: rw_exit(&ddv->sdev_contents); SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); sdev_lookup_failed(ddv, nm, failed_flags); *vpp = NULLVP; return (ENOENT); } } ASSERT(RW_READ_HELD(&ddv->sdev_contents)); /* * ZOMBIED parent does not allow new node creation. * bail out early */ if (parent_state == SDEV_ZOMBIE) { rw_exit(&ddv->sdev_contents); *vpp = NULL; SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); return (ENOENT); } /* * (b0): backing store lookup * SDEV_PERSIST is default except: * 1) pts nodes * 2) non-chmod'ed local nodes */ if (SDEV_IS_PERSIST(ddv)) { error = devname_backstore_lookup(ddv, nm, &rvp); if (!error) { sdcmn_err3(("devname_backstore_lookup: " "found attrvp %p for %s\n", (void *)rvp, nm)); vattr.va_mask = AT_MODE|AT_UID|AT_GID; error = VOP_GETATTR(rvp, &vattr, 0, cred); if (error) { rw_exit(&ddv->sdev_contents); if (dv) SDEV_RELE(dv); SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); sdev_lookup_failed(ddv, nm, failed_flags); *vpp = NULLVP; return (ENOENT); } if (vattr.va_type == VLNK) { error = sdev_getlink(rvp, &link); if (error) { rw_exit(&ddv->sdev_contents); if (dv) SDEV_RELE(dv); SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); sdev_lookup_failed(ddv, nm, failed_flags); *vpp = NULLVP; return (ENOENT); } ASSERT(link != NULL); } if (!rw_tryupgrade(&ddv->sdev_contents)) { rw_exit(&ddv->sdev_contents); rw_enter(&ddv->sdev_contents, RW_WRITER); } error = sdev_mknode(ddv, nm, &dv, &vattr, rvp, link, cred, SDEV_READY); rw_downgrade(&ddv->sdev_contents); if (link != NULL) { kmem_free(link, strlen(link) + 1); link = NULL; } if (error) { SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); rw_exit(&ddv->sdev_contents); if (dv) SDEV_RELE(dv); goto lookup_failed; } else { goto found; } } else if (retried) { rw_exit(&ddv->sdev_contents); sdcmn_err3(("retry of lookup of %s/%s: failed\n", ddv->sdev_name, nm)); if (dv) SDEV_RELE(dv); SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); sdev_lookup_failed(ddv, nm, failed_flags); *vpp = NULLVP; return (ENOENT); } } /* first thread that is doing the lookup on this node */ if (!dv) { if (!rw_tryupgrade(&ddv->sdev_contents)) { rw_exit(&ddv->sdev_contents); rw_enter(&ddv->sdev_contents, RW_WRITER); } error = sdev_mknode(ddv, nm, &dv, NULL, NULL, NULL, cred, SDEV_INIT); if (!dv) { rw_exit(&ddv->sdev_contents); SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); sdev_lookup_failed(ddv, nm, failed_flags); *vpp = NULLVP; return (ENOENT); } rw_downgrade(&ddv->sdev_contents); } ASSERT(dv); ASSERT(SDEV_HELD(dv)); if (SDEV_IS_NO_NCACHE(dv)) { failed_flags |= SLF_NO_NCACHE; } if (SDEV_IS_GLOBAL(ddv)) { map = sdev_get_map(ddv, 1); dirops = map ? map->dir_ops : NULL; fn = dirops ? dirops->devnops_lookup : NULL; } /* * (b1) invoking devfsadm once per life time for devfsadm nodes */ if ((fn == NULL) && !callback) { if (sdev_reconfig_boot || !i_ddi_io_initialized() || SDEV_IS_DYNAMIC(ddv) || SDEV_IS_NO_NCACHE(dv) || ((moddebug & MODDEBUG_FINI_EBUSY) != 0)) { ASSERT(SDEV_HELD(dv)); SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); goto nolock_notfound; } /* * filter out known non-existent devices recorded * during initial reconfiguration boot for which * reconfig should not be done and lookup may * be short-circuited now. */ if (sdev_lookup_filter(ddv, nm)) { SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); goto nolock_notfound; } /* bypassing devfsadm internal nodes */ if (is_devfsadm_thread(lookup_thread)) { SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); goto nolock_notfound; } if (sdev_reconfig_disable) { SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); goto nolock_notfound; } error = sdev_call_devfsadmd(ddv, dv, nm); if (error == 0) { sdcmn_err8(("lookup of %s/%s by %s: reconfig\n", ddv->sdev_name, nm, curproc->p_user.u_comm)); if (sdev_reconfig_verbose) { cmn_err(CE_CONT, "?lookup of %s/%s by %s: reconfig\n", ddv->sdev_name, nm, curproc->p_user.u_comm); } retried = 1; failed_flags |= SLF_REBUILT; ASSERT(dv->sdev_state != SDEV_ZOMBIE); SDEV_SIMPLE_RELE(dv); goto tryagain; } else { SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); goto nolock_notfound; } } /* * (b2) Directory Based Name Resolution (DBNR): * ddv - parent * nm - /dev/(ddv->sdev_name)/nm * * note: module vnode ops take precedence than the build-in ones */ if (fn) { error = sdev_call_modulelookup(ddv, &dv, nm, fn, cred); if (error) { SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); goto notfound; } else { goto found; } } else if (callback) { error = sdev_call_dircallback(ddv, &dv, nm, callback, flags, cred); if (error == 0) { goto found; } else { SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); goto notfound; } } ASSERT(rvp); found: ASSERT(!(dv->sdev_flags & SDEV_STALE)); ASSERT(dv->sdev_state == SDEV_READY); if (vtor) { /* * Check validity of returned node */ switch (vtor(dv)) { case SDEV_VTOR_VALID: break; case SDEV_VTOR_INVALID: SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); sdcmn_err7(("lookup: destroy invalid " "node: %s(%p)\n", dv->sdev_name, (void *)dv)); goto nolock_notfound; case SDEV_VTOR_SKIP: sdcmn_err7(("lookup: node not applicable - " "skipping: %s(%p)\n", dv->sdev_name, (void *)dv)); rw_exit(&ddv->sdev_contents); SD_TRACE_FAILED_LOOKUP(ddv, nm, retried); SDEV_RELE(dv); goto lookup_failed; default: cmn_err(CE_PANIC, "dev fs: validator failed: %s(%p)\n", dv->sdev_name, (void *)dv); break; /*NOTREACHED*/ } } if ((SDEVTOV(dv)->v_type == VDIR) && SDEV_IS_GLOBAL(dv)) { rw_enter(&dv->sdev_contents, RW_READER); (void) sdev_get_map(dv, 1); rw_exit(&dv->sdev_contents); } rw_exit(&ddv->sdev_contents); rv = sdev_to_vp(dv, vpp); sdcmn_err3(("devname_lookup_func: returning vp %p v_count %d state %d " "for nm %s, error %d\n", (void *)*vpp, (*vpp)->v_count, dv->sdev_state, nm, rv)); return (rv); notfound: mutex_enter(&dv->sdev_lookup_lock); SDEV_UNBLOCK_OTHERS(dv, SDEV_LOOKUP); mutex_exit(&dv->sdev_lookup_lock); nolock_notfound: /* * Destroy the node that is created for synchronization purposes. */ sdcmn_err3(("devname_lookup_func: %s with state %d\n", nm, dv->sdev_state)); ASSERT(RW_READ_HELD(&ddv->sdev_contents)); if (dv->sdev_state == SDEV_INIT) { if (!rw_tryupgrade(&ddv->sdev_contents)) { rw_exit(&ddv->sdev_contents); rw_enter(&ddv->sdev_contents, RW_WRITER); } /* * Node state may have changed during the lock * changes. Re-check. */ if (dv->sdev_state == SDEV_INIT) { (void) sdev_dirdelete(ddv, dv); rw_exit(&ddv->sdev_contents); sdev_lookup_failed(ddv, nm, failed_flags); *vpp = NULL; return (ENOENT); } } rw_exit(&ddv->sdev_contents); SDEV_RELE(dv); lookup_failed: sdev_lookup_failed(ddv, nm, failed_flags); *vpp = NULL; return (ENOENT); } /* * Given a directory node, mark all nodes beneath as * STALE, i.e. nodes that don't exist as far as new * consumers are concerned */ void sdev_stale(struct sdev_node *ddv) { struct sdev_node *dv; struct vnode *vp; ASSERT(SDEVTOV(ddv)->v_type == VDIR); rw_enter(&ddv->sdev_contents, RW_WRITER); for (dv = ddv->sdev_dot; dv; dv = dv->sdev_next) { vp = SDEVTOV(dv); if (vp->v_type == VDIR) sdev_stale(dv); sdcmn_err9(("sdev_stale: setting stale %s\n", dv->sdev_name)); dv->sdev_flags |= SDEV_STALE; } ddv->sdev_flags |= SDEV_BUILD; rw_exit(&ddv->sdev_contents); } /* * Given a directory node, clean out all the nodes beneath. * If expr is specified, clean node with names matching expr. * If SDEV_ENFORCE is specified in flags, busy nodes are made stale, * so they are excluded from future lookups. */ int sdev_cleandir(struct sdev_node *ddv, char *expr, uint_t flags) { int error = 0; int busy = 0; struct vnode *vp; struct sdev_node *dv, *next = NULL; int bkstore = 0; int len = 0; char *bks_name = NULL; ASSERT(SDEVTOV(ddv)->v_type == VDIR); /* * We try our best to destroy all unused sdev_node's */ rw_enter(&ddv->sdev_contents, RW_WRITER); for (dv = ddv->sdev_dot; dv; dv = next) { next = dv->sdev_next; vp = SDEVTOV(dv); if (expr && gmatch(dv->sdev_name, expr) == 0) continue; if (vp->v_type == VDIR && sdev_cleandir(dv, NULL, flags) != 0) { sdcmn_err9(("sdev_cleandir: dir %s busy\n", dv->sdev_name)); busy++; continue; } if (vp->v_count > 0 && (flags & SDEV_ENFORCE) == 0) { sdcmn_err9(("sdev_cleandir: dir %s busy\n", dv->sdev_name)); busy++; continue; } /* * at this point, either dv is not held or SDEV_ENFORCE * is specified. In either case, dv needs to be deleted */ SDEV_HOLD(dv); bkstore = SDEV_IS_PERSIST(dv) ? 1 : 0; if (bkstore && (vp->v_type == VDIR)) bkstore += 1; if (bkstore) { len = strlen(dv->sdev_name) + 1; bks_name = kmem_alloc(len, KM_SLEEP); bcopy(dv->sdev_name, bks_name, len); } error = sdev_dirdelete(ddv, dv); if (error == EBUSY) { sdcmn_err9(("sdev_cleandir: dir busy\n")); busy++; } /* take care the backing store clean up */ if (bkstore && (error == 0)) { ASSERT(bks_name); ASSERT(ddv->sdev_attrvp); if (bkstore == 1) { error = VOP_REMOVE(ddv->sdev_attrvp, bks_name, kcred); } else if (bkstore == 2) { error = VOP_RMDIR(ddv->sdev_attrvp, bks_name, ddv->sdev_attrvp, kcred); } /* do not propagate the backing store errors */ if (error) { sdcmn_err9(("sdev_cleandir: backing store" "not cleaned\n")); error = 0; } bkstore = 0; kmem_free(bks_name, len); bks_name = NULL; len = 0; } } ddv->sdev_flags |= SDEV_BUILD; rw_exit(&ddv->sdev_contents); if (busy) { error = EBUSY; } return (error); } /* * a convenient wrapper for readdir() funcs */ size_t add_dir_entry(dirent64_t *de, char *nm, size_t size, ino_t ino, offset_t off) { size_t reclen = DIRENT64_RECLEN(strlen(nm)); if (reclen > size) return (0); de->d_ino = (ino64_t)ino; de->d_off = (off64_t)off + 1; de->d_reclen = (ushort_t)reclen; (void) strncpy(de->d_name, nm, DIRENT64_NAMELEN(reclen)); return (reclen); } /* * sdev_mount service routines */ int sdev_copyin_mountargs(struct mounta *uap, struct sdev_mountargs *args) { int error; if (uap->datalen != sizeof (*args)) return (EINVAL); if (error = copyin(uap->dataptr, args, sizeof (*args))) { cmn_err(CE_WARN, "sdev_copyin_mountargs: can not" "get user data. error %d\n", error); return (EFAULT); } return (0); } #ifdef nextdp #undef nextdp #endif #define nextdp(dp) ((struct dirent64 *)((char *)(dp) + (dp)->d_reclen)) /* * readdir helper func */ int devname_readdir_func(vnode_t *vp, uio_t *uiop, cred_t *cred, int *eofp, int flags) { struct sdev_node *ddv = VTOSDEV(vp); struct sdev_node *dv; dirent64_t *dp; ulong_t outcount = 0; size_t namelen; ulong_t alloc_count; void *outbuf; struct iovec *iovp; int error = 0; size_t reclen; offset_t diroff; offset_t soff; int this_reclen; struct devname_nsmap *map = NULL; struct devname_ops *dirops = NULL; int (*fn)(devname_handle_t *, struct cred *) = NULL; int (*vtor)(struct sdev_node *) = NULL; struct vattr attr; timestruc_t now; ASSERT(ddv->sdev_attr || ddv->sdev_attrvp); ASSERT(RW_READ_HELD(&ddv->sdev_contents)); if (uiop->uio_loffset >= MAXOFF_T) { if (eofp) *eofp = 1; return (0); } if (uiop->uio_iovcnt != 1) return (EINVAL); if (vp->v_type != VDIR) return (ENOTDIR); if (ddv->sdev_flags & SDEV_VTOR) { vtor = (int (*)(struct sdev_node *))sdev_get_vtor(ddv); ASSERT(vtor); } if (eofp != NULL) *eofp = 0; soff = uiop->uio_offset; iovp = uiop->uio_iov; alloc_count = iovp->iov_len; dp = outbuf = kmem_alloc(alloc_count, KM_SLEEP); outcount = 0; if (ddv->sdev_state == SDEV_ZOMBIE) goto get_cache; if (SDEV_IS_GLOBAL(ddv)) { map = sdev_get_map(ddv, 0); dirops = map ? map->dir_ops : NULL; fn = dirops ? dirops->devnops_readdir : NULL; if (map && map->dir_map) { /* * load the name mapping rule database * through invoking devfsadm and symlink * all the entries in the map */ devname_rdr_result_t rdr_result; int do_thread = 0; rw_enter(&map->dir_lock, RW_READER); do_thread = map->dir_maploaded ? 0 : 1; rw_exit(&map->dir_lock); if (do_thread) { mutex_enter(&ddv->sdev_lookup_lock); SDEV_BLOCK_OTHERS(ddv, SDEV_READDIR); mutex_exit(&ddv->sdev_lookup_lock); sdev_dispatch_to_nsrdr_thread(ddv, map->dir_map, &rdr_result); } } else if ((sdev_boot_state == SDEV_BOOT_STATE_COMPLETE) && !sdev_reconfig_boot && (flags & SDEV_BROWSE) && !SDEV_IS_DYNAMIC(ddv) && !SDEV_IS_NO_NCACHE(ddv) && ((moddebug & MODDEBUG_FINI_EBUSY) == 0) && !DEVNAME_DEVFSADM_HAS_RUN(devfsadm_state) && !DEVNAME_DEVFSADM_IS_RUNNING(devfsadm_state) && !sdev_reconfig_disable) { /* * invoking "devfsadm" to do system device reconfig */ mutex_enter(&ddv->sdev_lookup_lock); SDEV_BLOCK_OTHERS(ddv, (SDEV_READDIR|SDEV_LGWAITING)); mutex_exit(&ddv->sdev_lookup_lock); sdcmn_err8(("readdir of %s by %s: reconfig\n", ddv->sdev_path, curproc->p_user.u_comm)); if (sdev_reconfig_verbose) { cmn_err(CE_CONT, "?readdir of %s by %s: reconfig\n", ddv->sdev_path, curproc->p_user.u_comm); } sdev_devfsadmd_thread(ddv, NULL, kcred); } else if (DEVNAME_DEVFSADM_IS_RUNNING(devfsadm_state)) { /* * compensate the "ls" started later than "devfsadm" */ mutex_enter(&ddv->sdev_lookup_lock); SDEV_BLOCK_OTHERS(ddv, (SDEV_READDIR|SDEV_LGWAITING)); mutex_exit(&ddv->sdev_lookup_lock); } /* * release the contents lock so that * the cache maybe updated by devfsadmd */ rw_exit(&ddv->sdev_contents); mutex_enter(&ddv->sdev_lookup_lock); if (SDEV_IS_READDIR(ddv)) (void) sdev_wait4lookup(ddv, SDEV_READDIR); mutex_exit(&ddv->sdev_lookup_lock); rw_enter(&ddv->sdev_contents, RW_READER); sdcmn_err4(("readdir of directory %s by %s\n", ddv->sdev_name, curproc->p_user.u_comm)); while (ddv->sdev_flags & SDEV_BUILD) { if (SDEV_IS_PERSIST(ddv)) { error = sdev_filldir_from_store(ddv, alloc_count, cred); } /* * pre-creating the directories * defined in vtab */ if (SDEVTOV(ddv)->v_flag & VROOT) { error = sdev_filldir_dynamic(ddv); } if (!error) ddv->sdev_flags &= ~SDEV_BUILD; } } get_cache: /* handle "." and ".." */ diroff = 0; if (soff == 0) { /* first time */ this_reclen = DIRENT64_RECLEN(1); if (alloc_count < this_reclen) { error = EINVAL; goto done; } dp->d_ino = (ino64_t)ddv->sdev_ino; dp->d_off = (off64_t)1; dp->d_reclen = (ushort_t)this_reclen; (void) strncpy(dp->d_name, ".", DIRENT64_NAMELEN(this_reclen)); outcount += dp->d_reclen; dp = nextdp(dp); } diroff++; if (soff <= 1) { this_reclen = DIRENT64_RECLEN(2); if (alloc_count < outcount + this_reclen) { error = EINVAL; goto done; } dp->d_reclen = (ushort_t)this_reclen; dp->d_ino = (ino64_t)ddv->sdev_dotdot->sdev_ino; dp->d_off = (off64_t)2; (void) strncpy(dp->d_name, "..", DIRENT64_NAMELEN(this_reclen)); outcount += dp->d_reclen; dp = nextdp(dp); } /* gets the cache */ diroff++; for (dv = ddv->sdev_dot; dv; dv = dv->sdev_next, diroff++) { sdcmn_err3(("sdev_readdir: diroff %lld soff %lld for '%s' \n", diroff, soff, dv->sdev_name)); /* bypassing pre-matured nodes */ if (diroff < soff || (dv->sdev_state != SDEV_READY)) { sdcmn_err3(("sdev_readdir: pre-mature node " "%s\n", dv->sdev_name)); continue; } /* don't list stale nodes */ if (dv->sdev_flags & SDEV_STALE) { sdcmn_err4(("sdev_readdir: STALE node " "%s\n", dv->sdev_name)); continue; } /* * Check validity of node */ if (vtor) { switch (vtor(dv)) { case SDEV_VTOR_VALID: break; case SDEV_VTOR_INVALID: case SDEV_VTOR_SKIP: continue; default: cmn_err(CE_PANIC, "dev fs: validator failed: %s(%p)\n", dv->sdev_name, (void *)dv); break; /*NOTREACHED*/ } } /* * call back into the module for the validity/bookkeeping * of this entry */ if (fn) { error = (*fn)(&(dv->sdev_handle), cred); if (error) { sdcmn_err4(("sdev_readdir: module did not " "validate %s\n", dv->sdev_name)); continue; } } namelen = strlen(dv->sdev_name); reclen = DIRENT64_RECLEN(namelen); if (outcount + reclen > alloc_count) { goto full; } dp->d_reclen = (ushort_t)reclen; dp->d_ino = (ino64_t)dv->sdev_ino; dp->d_off = (off64_t)diroff + 1; (void) strncpy(dp->d_name, dv->sdev_name, DIRENT64_NAMELEN(reclen)); outcount += reclen; dp = nextdp(dp); } full: sdcmn_err4(("sdev_readdir: moving %lu bytes: " "diroff %lld, soff %lld, dv %p\n", outcount, diroff, soff, (void *)dv)); if (outcount) error = uiomove(outbuf, outcount, UIO_READ, uiop); if (!error) { uiop->uio_offset = diroff; if (eofp) *eofp = dv ? 0 : 1; } if (ddv->sdev_attrvp) { gethrestime(&now); attr.va_ctime = now; attr.va_atime = now; attr.va_mask = AT_CTIME|AT_ATIME; (void) VOP_SETATTR(ddv->sdev_attrvp, &attr, 0, kcred, NULL); } done: kmem_free(outbuf, alloc_count); return (error); } static int sdev_modctl_lookup(const char *path, vnode_t **r_vp) { vnode_t *vp; vnode_t *cvp; struct sdev_node *svp; char *nm; struct pathname pn; int error; int persisted = 0; if (error = pn_get((char *)path, UIO_SYSSPACE, &pn)) return (error); nm = kmem_alloc(MAXNAMELEN, KM_SLEEP); vp = rootdir; VN_HOLD(vp); while (pn_pathleft(&pn)) { ASSERT(vp->v_type == VDIR); (void) pn_getcomponent(&pn, nm); error = VOP_LOOKUP(vp, nm, &cvp, NULL, 0, NULL, kcred); VN_RELE(vp); if (error) break; /* traverse mount points encountered on our journey */ if (vn_ismntpt(cvp) && (error = traverse(&cvp)) != 0) { VN_RELE(cvp); break; } /* * Direct the operation to the persisting filesystem * underlying /dev. Bail if we encounter a * non-persistent dev entity here. */ if (cvp->v_vfsp->vfs_fstype == devtype) { if ((VTOSDEV(cvp)->sdev_flags & SDEV_PERSIST) == 0) { error = ENOENT; VN_RELE(cvp); break; } if (VTOSDEV(cvp) == NULL) { error = ENOENT; VN_RELE(cvp); break; } svp = VTOSDEV(cvp); if ((vp = svp->sdev_attrvp) == NULL) { error = ENOENT; VN_RELE(cvp); break; } persisted = 1; VN_HOLD(vp); VN_RELE(cvp); cvp = vp; } vp = cvp; pn_skipslash(&pn); } kmem_free(nm, MAXNAMELEN); pn_free(&pn); if (error) return (error); /* * Only return persisted nodes in the filesystem underlying /dev. */ if (!persisted) { VN_RELE(vp); return (ENOENT); } *r_vp = vp; return (0); } int sdev_modctl_readdir(const char *dir, char ***dirlistp, int *npathsp, int *npathsp_alloc) { char **pathlist = NULL; char **newlist = NULL; int npaths = 0; int npaths_alloc = 0; dirent64_t *dbuf = NULL; int n; char *s; int error; vnode_t *vp; int eof; struct iovec iov; struct uio uio; struct dirent64 *dp; size_t dlen; size_t dbuflen; int ndirents = 64; char *nm; error = sdev_modctl_lookup(dir, &vp); sdcmn_err11(("modctl readdir: %s by %s: %s\n", dir, curproc->p_user.u_comm, (error == 0) ? "ok" : "failed")); if (error) return (error); dlen = ndirents * (sizeof (*dbuf)); dbuf = kmem_alloc(dlen, KM_SLEEP); uio.uio_iov = &iov; uio.uio_iovcnt = 1; uio.uio_segflg = UIO_SYSSPACE; uio.uio_fmode = 0; uio.uio_extflg = UIO_COPY_CACHED; uio.uio_loffset = 0; uio.uio_llimit = MAXOFFSET_T; eof = 0; error = 0; while (!error && !eof) { uio.uio_resid = dlen; iov.iov_base = (char *)dbuf; iov.iov_len = dlen; (void) VOP_RWLOCK(vp, V_WRITELOCK_FALSE, NULL); error = VOP_READDIR(vp, &uio, kcred, &eof); VOP_RWUNLOCK(vp, V_WRITELOCK_FALSE, NULL); dbuflen = dlen - uio.uio_resid; if (error || dbuflen == 0) break; for (dp = dbuf; ((intptr_t)dp < (intptr_t)dbuf + dbuflen); dp = (dirent64_t *)((intptr_t)dp + dp->d_reclen)) { nm = dp->d_name; if (strcmp(nm, ".") == 0 || strcmp(nm, "..") == 0) continue; if (npaths == npaths_alloc) { npaths_alloc += 64; newlist = (char **) kmem_zalloc((npaths_alloc + 1) * sizeof (char *), KM_SLEEP); if (pathlist) { bcopy(pathlist, newlist, npaths * sizeof (char *)); kmem_free(pathlist, (npaths + 1) * sizeof (char *)); } pathlist = newlist; } n = strlen(nm) + 1; s = kmem_alloc(n, KM_SLEEP); bcopy(nm, s, n); pathlist[npaths++] = s; sdcmn_err11((" %s/%s\n", dir, s)); } } exit: VN_RELE(vp); if (dbuf) kmem_free(dbuf, dlen); if (error) return (error); *dirlistp = pathlist; *npathsp = npaths; *npathsp_alloc = npaths_alloc; return (0); } void sdev_modctl_readdir_free(char **pathlist, int npaths, int npaths_alloc) { int i, n; for (i = 0; i < npaths; i++) { n = strlen(pathlist[i]) + 1; kmem_free(pathlist[i], n); } kmem_free(pathlist, (npaths_alloc + 1) * sizeof (char *)); } int sdev_modctl_devexists(const char *path) { vnode_t *vp; int error; error = sdev_modctl_lookup(path, &vp); sdcmn_err11(("modctl dev exists: %s by %s: %s\n", path, curproc->p_user.u_comm, (error == 0) ? "ok" : "failed")); if (error == 0) VN_RELE(vp); return (error); } void sdev_update_newnsmap(struct devname_nsmap *map, char *module, char *mapname) { rw_enter(&map->dir_lock, RW_WRITER); if (module) { ASSERT(map->dir_newmodule == NULL); map->dir_newmodule = i_ddi_strdup(module, KM_SLEEP); } if (mapname) { ASSERT(map->dir_newmap == NULL); map->dir_newmap = i_ddi_strdup(mapname, KM_SLEEP); } map->dir_invalid = 1; rw_exit(&map->dir_lock); } void sdev_replace_nsmap(struct devname_nsmap *map, char *module, char *mapname) { char *old_module = NULL; char *old_map = NULL; ASSERT(RW_LOCK_HELD(&map->dir_lock)); if (!rw_tryupgrade(&map->dir_lock)) { rw_exit(&map->dir_lock); rw_enter(&map->dir_lock, RW_WRITER); } old_module = map->dir_module; if (module) { if (old_module && strcmp(old_module, module) != 0) { kmem_free(old_module, strlen(old_module) + 1); } map->dir_module = module; map->dir_newmodule = NULL; } old_map = map->dir_map; if (mapname) { if (old_map && strcmp(old_map, mapname) != 0) { kmem_free(old_map, strlen(old_map) + 1); } map->dir_map = mapname; map->dir_newmap = NULL; } map->dir_maploaded = 0; map->dir_invalid = 0; rw_downgrade(&map->dir_lock); } /* * dir_name should have at least one attribute, * dir_module * or dir_map * or both * caller holds the devname_nsmaps_lock */ void sdev_insert_nsmap(char *dir_name, char *dir_module, char *dir_map) { struct devname_nsmap *map; int len = 0; ASSERT(dir_name); ASSERT(dir_module || dir_map); ASSERT(MUTEX_HELD(&devname_nsmaps_lock)); if (map = sdev_get_nsmap_by_dir(dir_name, 1)) { sdev_update_newnsmap(map, dir_module, dir_map); return; } map = (struct devname_nsmap *)kmem_zalloc(sizeof (*map), KM_SLEEP); map->dir_name = i_ddi_strdup(dir_name, KM_SLEEP); if (dir_module) { map->dir_module = i_ddi_strdup(dir_module, KM_SLEEP); } if (dir_map) { if (dir_map[0] != '/') { len = strlen(ETC_DEV_DIR) + strlen(dir_map) + 2; map->dir_map = kmem_zalloc(len, KM_SLEEP); (void) snprintf(map->dir_map, len, "%s/%s", ETC_DEV_DIR, dir_map); } else { map->dir_map = i_ddi_strdup(dir_map, KM_SLEEP); } } map->dir_ops = NULL; map->dir_maploaded = 0; map->dir_invalid = 0; rw_init(&map->dir_lock, NULL, RW_DEFAULT, NULL); map->next = devname_nsmaps; map->prev = NULL; if (devname_nsmaps) { devname_nsmaps->prev = map; } devname_nsmaps = map; } struct devname_nsmap * sdev_get_nsmap_by_dir(char *dir_path, int locked) { struct devname_nsmap *map = NULL; if (!locked) mutex_enter(&devname_nsmaps_lock); for (map = devname_nsmaps; map; map = map->next) { sdcmn_err6(("sdev_get_nsmap_by_dir: dir %s\n", map->dir_name)); if (strcmp(map->dir_name, dir_path) == 0) { if (!locked) mutex_exit(&devname_nsmaps_lock); return (map); } } if (!locked) mutex_exit(&devname_nsmaps_lock); return (NULL); } struct devname_nsmap * sdev_get_nsmap_by_module(char *mod_name) { struct devname_nsmap *map = NULL; mutex_enter(&devname_nsmaps_lock); for (map = devname_nsmaps; map; map = map->next) { sdcmn_err7(("sdev_get_nsmap_by_module: module %s\n", map->dir_module)); if (map->dir_module && strcmp(map->dir_module, mod_name) == 0) { mutex_exit(&devname_nsmaps_lock); return (map); } } mutex_exit(&devname_nsmaps_lock); return (NULL); } void sdev_invalidate_nsmaps() { struct devname_nsmap *map = NULL; ASSERT(MUTEX_HELD(&devname_nsmaps_lock)); if (devname_nsmaps == NULL) return; for (map = devname_nsmaps; map; map = map->next) { rw_enter(&map->dir_lock, RW_WRITER); map->dir_invalid = 1; rw_exit(&map->dir_lock); } devname_nsmaps_invalidated = 1; } int sdev_nsmaps_loaded() { int ret = 0; mutex_enter(&devname_nsmaps_lock); if (devname_nsmaps_loaded) ret = 1; mutex_exit(&devname_nsmaps_lock); return (ret); } int sdev_nsmaps_reloaded() { int ret = 0; mutex_enter(&devname_nsmaps_lock); if (devname_nsmaps_invalidated) ret = 1; mutex_exit(&devname_nsmaps_lock); return (ret); } static void sdev_free_nsmap(struct devname_nsmap *map) { ASSERT(map); if (map->dir_name) kmem_free(map->dir_name, strlen(map->dir_name) + 1); if (map->dir_module) kmem_free(map->dir_module, strlen(map->dir_module) + 1); if (map->dir_map) kmem_free(map->dir_map, strlen(map->dir_map) + 1); rw_destroy(&map->dir_lock); kmem_free(map, sizeof (*map)); } void sdev_validate_nsmaps() { struct devname_nsmap *map = NULL; struct devname_nsmap *oldmap = NULL; ASSERT(MUTEX_HELD(&devname_nsmaps_lock)); map = devname_nsmaps; while (map) { rw_enter(&map->dir_lock, RW_READER); if ((map->dir_invalid == 1) && (map->dir_newmodule == NULL) && (map->dir_newmap == NULL)) { oldmap = map; rw_exit(&map->dir_lock); if (map->prev) map->prev->next = oldmap->next; if (map == devname_nsmaps) devname_nsmaps = oldmap->next; map = oldmap->next; if (map) map->prev = oldmap->prev; sdev_free_nsmap(oldmap); oldmap = NULL; } else { rw_exit(&map->dir_lock); map = map->next; } } devname_nsmaps_invalidated = 0; } static int sdev_map_is_invalid(struct devname_nsmap *map) { int ret = 0; ASSERT(map); rw_enter(&map->dir_lock, RW_READER); if (map->dir_invalid) ret = 1; rw_exit(&map->dir_lock); return (ret); } static int sdev_check_map(struct devname_nsmap *map) { struct devname_nsmap *mapp; mutex_enter(&devname_nsmaps_lock); if (devname_nsmaps == NULL) { mutex_exit(&devname_nsmaps_lock); return (1); } for (mapp = devname_nsmaps; mapp; mapp = mapp->next) { if (mapp == map) { mutex_exit(&devname_nsmaps_lock); return (0); } } mutex_exit(&devname_nsmaps_lock); return (1); } struct devname_nsmap * sdev_get_map(struct sdev_node *dv, int validate) { struct devname_nsmap *map; int error; ASSERT(RW_READ_HELD(&dv->sdev_contents)); map = dv->sdev_mapinfo; if (map && sdev_check_map(map)) { if (!rw_tryupgrade(&dv->sdev_contents)) { rw_exit(&dv->sdev_contents); rw_enter(&dv->sdev_contents, RW_WRITER); } dv->sdev_mapinfo = NULL; rw_downgrade(&dv->sdev_contents); return (NULL); } if (validate && (!map || (map && sdev_map_is_invalid(map)))) { if (!rw_tryupgrade(&dv->sdev_contents)) { rw_exit(&dv->sdev_contents); rw_enter(&dv->sdev_contents, RW_WRITER); } error = sdev_get_moduleops(dv); if (!error) map = dv->sdev_mapinfo; rw_downgrade(&dv->sdev_contents); } return (map); } void sdev_handle_alloc(struct sdev_node *dv) { rw_enter(&dv->sdev_contents, RW_WRITER); dv->sdev_handle.dh_data = dv; rw_exit(&dv->sdev_contents); } extern int sdev_vnodeops_tbl_size; /* * construct a new template with overrides from vtab */ static fs_operation_def_t * sdev_merge_vtab(const fs_operation_def_t tab[]) { fs_operation_def_t *new; const fs_operation_def_t *tab_entry; /* make a copy of standard vnode ops table */ new = kmem_alloc(sdev_vnodeops_tbl_size, KM_SLEEP); bcopy((void *)sdev_vnodeops_tbl, new, sdev_vnodeops_tbl_size); /* replace the overrides from tab */ for (tab_entry = tab; tab_entry->name != NULL; tab_entry++) { fs_operation_def_t *std_entry = new; while (std_entry->name) { if (strcmp(tab_entry->name, std_entry->name) == 0) { std_entry->func = tab_entry->func; break; } std_entry++; } if (std_entry->name == NULL) cmn_err(CE_NOTE, "sdev_merge_vtab: entry %s unused.", tab_entry->name); } return (new); } /* free memory allocated by sdev_merge_vtab */ static void sdev_free_vtab(fs_operation_def_t *new) { kmem_free(new, sdev_vnodeops_tbl_size); } void devname_get_vnode(devname_handle_t *hdl, vnode_t **vpp) { struct sdev_node *dv = hdl->dh_data; ASSERT(dv); rw_enter(&dv->sdev_contents, RW_READER); *vpp = SDEVTOV(dv); rw_exit(&dv->sdev_contents); } int devname_get_path(devname_handle_t *hdl, char **path) { struct sdev_node *dv = hdl->dh_data; ASSERT(dv); rw_enter(&dv->sdev_contents, RW_READER); *path = dv->sdev_path; rw_exit(&dv->sdev_contents); return (0); } int devname_get_name(devname_handle_t *hdl, char **entry) { struct sdev_node *dv = hdl->dh_data; ASSERT(dv); rw_enter(&dv->sdev_contents, RW_READER); *entry = dv->sdev_name; rw_exit(&dv->sdev_contents); return (0); } void devname_get_dir_vnode(devname_handle_t *hdl, vnode_t **vpp) { struct sdev_node *dv = hdl->dh_data->sdev_dotdot; ASSERT(dv); rw_enter(&dv->sdev_contents, RW_READER); *vpp = SDEVTOV(dv); rw_exit(&dv->sdev_contents); } int devname_get_dir_path(devname_handle_t *hdl, char **path) { struct sdev_node *dv = hdl->dh_data->sdev_dotdot; ASSERT(dv); rw_enter(&dv->sdev_contents, RW_READER); *path = dv->sdev_path; rw_exit(&dv->sdev_contents); return (0); } int devname_get_dir_name(devname_handle_t *hdl, char **entry) { struct sdev_node *dv = hdl->dh_data->sdev_dotdot; ASSERT(dv); rw_enter(&dv->sdev_contents, RW_READER); *entry = dv->sdev_name; rw_exit(&dv->sdev_contents); return (0); } int devname_get_dir_nsmap(devname_handle_t *hdl, struct devname_nsmap **map) { struct sdev_node *dv = hdl->dh_data->sdev_dotdot; ASSERT(dv); rw_enter(&dv->sdev_contents, RW_READER); *map = dv->sdev_mapinfo; rw_exit(&dv->sdev_contents); return (0); } int devname_get_dir_handle(devname_handle_t *hdl, devname_handle_t **dir_hdl) { struct sdev_node *dv = hdl->dh_data->sdev_dotdot; ASSERT(dv); rw_enter(&dv->sdev_contents, RW_READER); *dir_hdl = &(dv->sdev_handle); rw_exit(&dv->sdev_contents); return (0); } void devname_set_nodetype(devname_handle_t *hdl, void *args, int spec) { struct sdev_node *dv = hdl->dh_data; ASSERT(dv); rw_enter(&dv->sdev_contents, RW_WRITER); hdl->dh_spec = (devname_spec_t)spec; hdl->dh_args = (void *)i_ddi_strdup((char *)args, KM_SLEEP); rw_exit(&dv->sdev_contents); } /* * a generic setattr() function * * note: flags only supports AT_UID and AT_GID. * Future enhancements can be done for other types, e.g. AT_MODE */ int devname_setattr_func(struct vnode *vp, struct vattr *vap, int flags, struct cred *cred, int (*callback)(struct sdev_node *, struct vattr *, int), int protocol) { struct sdev_node *dv = VTOSDEV(vp); struct sdev_node *parent = dv->sdev_dotdot; struct vattr *get; uint_t mask = vap->va_mask; int error; /* some sanity checks */ if (vap->va_mask & AT_NOSET) return (EINVAL); if (vap->va_mask & AT_SIZE) { if (vp->v_type == VDIR) { return (EISDIR); } } /* no need to set attribute, but do not fail either */ ASSERT(parent); rw_enter(&parent->sdev_contents, RW_READER); if (dv->sdev_state == SDEV_ZOMBIE) { rw_exit(&parent->sdev_contents); return (0); } /* If backing store exists, just set it. */ if (dv->sdev_attrvp) { rw_exit(&parent->sdev_contents); return (VOP_SETATTR(dv->sdev_attrvp, vap, flags, cred, NULL)); } /* * Otherwise, for nodes with the persistence attribute, create it. */ ASSERT(dv->sdev_attr); if (SDEV_IS_PERSIST(dv) || ((vap->va_mask & ~AT_TIMES) != 0 && !SDEV_IS_DYNAMIC(dv))) { sdev_vattr_merge(dv, vap); rw_enter(&dv->sdev_contents, RW_WRITER); error = sdev_shadow_node(dv, cred); rw_exit(&dv->sdev_contents); rw_exit(&parent->sdev_contents); if (error) return (error); return (VOP_SETATTR(dv->sdev_attrvp, vap, flags, cred, NULL)); } /* * sdev_attr was allocated in sdev_mknode */ rw_enter(&dv->sdev_contents, RW_WRITER); error = secpolicy_vnode_setattr(cred, vp, vap, dv->sdev_attr, flags, sdev_unlocked_access, dv); if (error) { rw_exit(&dv->sdev_contents); rw_exit(&parent->sdev_contents); return (error); } get = dv->sdev_attr; if (mask & AT_MODE) { get->va_mode &= S_IFMT; get->va_mode |= vap->va_mode & ~S_IFMT; } if ((mask & AT_UID) || (mask & AT_GID)) { if (mask & AT_UID) get->va_uid = vap->va_uid; if (mask & AT_GID) get->va_gid = vap->va_gid; /* * a callback must be provided if the protocol is set */ if ((protocol & AT_UID) || (protocol & AT_GID)) { ASSERT(callback); error = callback(dv, get, protocol); if (error) { rw_exit(&dv->sdev_contents); rw_exit(&parent->sdev_contents); return (error); } } } if (mask & AT_ATIME) get->va_atime = vap->va_atime; if (mask & AT_MTIME) get->va_mtime = vap->va_mtime; if (mask & (AT_MODE | AT_UID | AT_GID | AT_CTIME)) { gethrestime(&get->va_ctime); } sdev_vattr_merge(dv, get); rw_exit(&dv->sdev_contents); rw_exit(&parent->sdev_contents); return (0); }