/* Copyright (c) 2010-2011 Gluster, Inc. This file is part of GlusterFS. GlusterFS is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. GlusterFS is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include "fuse-bridge.h" #if defined(GF_SOLARIS_HOST_OS) #include #else #include #endif static void fuse_resolve_wipe (fuse_resolve_t *resolve) { if (resolve->path) GF_FREE ((void *)resolve->path); if (resolve->bname) GF_FREE ((void *)resolve->bname); if (resolve->resolved) GF_FREE ((void *)resolve->resolved); if (resolve->fd) fd_unref (resolve->fd); loc_wipe (&resolve->resolve_loc); if (resolve->hint) { inode_unref (resolve->hint); resolve->hint = 0; } if (resolve->parhint) { inode_unref (resolve->parhint); resolve->parhint = 0; } } void free_fuse_state (fuse_state_t *state) { xlator_t *this = NULL; fuse_private_t *priv = NULL; uint64_t winds = 0; char switched = 0; this = state->this; priv = this->private; loc_wipe (&state->loc); loc_wipe (&state->loc2); if (state->xdata) { dict_unref (state->xdata); state->xdata = (void *)0xaaaaeeee; } if (state->xattr) dict_unref (state->xattr); if (state->name) { GF_FREE (state->name); state->name = NULL; } if (state->fd) { fd_unref (state->fd); state->fd = (void *)0xfdfdfdfd; } if (state->finh) { GF_FREE (state->finh); state->finh = NULL; } fuse_resolve_wipe (&state->resolve); fuse_resolve_wipe (&state->resolve2); pthread_mutex_lock (&priv->sync_mutex); { winds = --state->active_subvol->winds; switched = state->active_subvol->switched; } pthread_mutex_unlock (&priv->sync_mutex); if ((winds == 0) && (switched)) { xlator_notify (state->active_subvol, GF_EVENT_PARENT_DOWN, state->active_subvol, NULL); } #ifdef DEBUG memset (state, 0x90, sizeof (*state)); #endif GF_FREE (state); state = NULL; } fuse_state_t * get_fuse_state (xlator_t *this, fuse_in_header_t *finh) { fuse_state_t *state = NULL; xlator_t *active_subvol = NULL; fuse_private_t *priv = NULL; state = (void *)GF_CALLOC (1, sizeof (*state), gf_fuse_mt_fuse_state_t); if (!state) return NULL; state->this = THIS; priv = this->private; pthread_mutex_lock (&priv->sync_mutex); { active_subvol = fuse_active_subvol (state->this); active_subvol->winds++; } pthread_mutex_unlock (&priv->sync_mutex); state->active_subvol = active_subvol; state->itable = active_subvol->itable; state->pool = this->ctx->pool; state->finh = finh; state->this = this; LOCK_INIT (&state->lock); return state; } void frame_fill_groups (call_frame_t *frame) { #if defined(GF_LINUX_HOST_OS) char filename[32]; char line[4096]; char *ptr = NULL; FILE *fp = NULL; int idx = 0; long int id = 0; char *saveptr = NULL; char *endptr = NULL; int ret = 0; ret = snprintf (filename, sizeof filename, "/proc/%d/status", frame->root->pid); if (ret >= sizeof filename) goto out; fp = fopen (filename, "r"); if (!fp) goto out; while ((ptr = fgets (line, sizeof line, fp))) { if (strncmp (ptr, "Groups:", 7) != 0) continue; ptr = line + 8; for (ptr = strtok_r (ptr, " \t\r\n", &saveptr); ptr; ptr = strtok_r (NULL, " \t\r\n", &saveptr)) { errno = 0; id = strtol (ptr, &endptr, 0); if (errno == ERANGE) break; if (!endptr || *endptr) break; frame->root->groups[idx++] = id; if (idx == GF_MAX_AUX_GROUPS) break; } frame->root->ngrps = idx; break; } out: if (fp) fclose (fp); #elif defined(GF_SOLARIS_HOST_OS) char filename[32]; char scratch[128]; prcred_t *prcred = (prcred_t *) scratch; FILE *fp = NULL; int ret = 0; ret = snprintf (filename, sizeof filename, "/proc/%d/cred", frame->root->pid); if (ret < sizeof filename) { fp = fopen (filename, "r"); if (fp != NULL) { if (fgets (scratch, sizeof scratch, fp) != NULL) { frame->root->ngrps = MIN(prcred->pr_ngroups, GF_REQUEST_MAXGROUPS); } fclose (fp); } } #elif defined(CTL_KERN) /* DARWIN and *BSD */ /* N.B. CTL_KERN is an enum on Linux. (Meaning, if it's not obvious, that it's not subject to preprocessor directives like '#if defined'.) Unlike Linux, on Mac OS and the BSDs it is a #define. We could test to see that KERN_PROC is defined, but, barring any evidence to the contrary, I think that's overkill. We might also test that GF_DARWIN_HOST_OS is defined, why limit this to just Mac OS. It's equally valid for the BSDs and we do have people building on NetBSD and FreeBSD. */ int name[] = { CTL_KERN, KERN_PROC, KERN_PROC_PID, frame->root->pid }; size_t namelen = sizeof name / sizeof name[0]; struct kinfo_proc kp; size_t kplen = sizeof(kp); int i, ngroups; if (sysctl(name, namelen, &kp, &kplen, NULL, 0) != 0) return; ngroups = MIN(kp.kp_eproc.e_ucred.cr_ngroups, GF_REQUEST_MAXGROUPS); for (i = 0; i < ngroups; i++) frame->root->groups[i] = kp.kp_eproc.e_ucred.cr_groups[i]; frame->root->ngrps = ngroups; #else frame->root->ngrps = 0; #endif /* GF_LINUX_HOST_OS */ } call_frame_t * get_call_frame_for_req (fuse_state_t *state) { call_pool_t *pool = NULL; fuse_in_header_t *finh = NULL; call_frame_t *frame = NULL; xlator_t *this = NULL; fuse_private_t *priv = NULL; pool = state->pool; finh = state->finh; this = state->this; priv = this->private; frame = create_frame (this, pool); if (!frame) return NULL; if (finh) { frame->root->uid = finh->uid; frame->root->gid = finh->gid; frame->root->pid = finh->pid; frame->root->unique = finh->unique; set_lk_owner_from_uint64 (&frame->root->lk_owner, state->lk_owner); } frame_fill_groups (frame); if (priv && priv->client_pid_set) frame->root->pid = priv->client_pid; frame->root->type = GF_OP_TYPE_FOP; return frame; } inode_t * fuse_ino_to_inode (uint64_t ino, xlator_t *fuse) { inode_t *inode = NULL; xlator_t *active_subvol = NULL; if (ino == 1) { active_subvol = fuse_active_subvol (fuse); if (active_subvol) inode = active_subvol->itable->root; } else { inode = (inode_t *) (unsigned long) ino; inode_ref (inode); } return inode; } uint64_t inode_to_fuse_nodeid (inode_t *inode) { if (!inode || __is_root_gfid (inode->gfid)) return 1; return (unsigned long) inode; } GF_MUST_CHECK int32_t fuse_loc_fill (loc_t *loc, fuse_state_t *state, ino_t ino, ino_t par, const char *name) { inode_t *inode = NULL; inode_t *parent = NULL; int32_t ret = -1; char *path = NULL; uuid_t null_gfid = {0,}; /* resistance against multiple invocation of loc_fill not to get reference leaks via inode_search() */ if (name) { parent = loc->parent; if (!parent) { parent = fuse_ino_to_inode (par, state->this); loc->parent = parent; if (parent) uuid_copy (loc->pargfid, parent->gfid); } inode = loc->inode; if (!inode) { inode = inode_grep (parent->table, parent, name); loc->inode = inode; } ret = inode_path (parent, name, &path); if (ret <= 0) { gf_log ("glusterfs-fuse", GF_LOG_DEBUG, "inode_path failed for %s/%s", (parent)?uuid_utoa (parent->gfid):"0", name); goto fail; } loc->path = path; } else { inode = loc->inode; if (!inode) { inode = fuse_ino_to_inode (ino, state->this); loc->inode = inode; if (inode) uuid_copy (loc->gfid, inode->gfid); } parent = loc->parent; if (!parent) { parent = inode_parent (inode, null_gfid, NULL); loc->parent = parent; if (parent) uuid_copy (loc->pargfid, parent->gfid); } ret = inode_path (inode, NULL, &path); if (ret <= 0) { gf_log ("glusterfs-fuse", GF_LOG_DEBUG, "inode_path failed for %s", (inode) ? uuid_utoa (inode->gfid) : "0"); goto fail; } loc->path = path; } if (loc->path) { loc->name = strrchr (loc->path, '/'); if (loc->name) loc->name++; else loc->name = ""; } if ((ino != 1) && (parent == NULL)) { gf_log ("fuse-bridge", GF_LOG_DEBUG, "failed to search parent for %"PRId64"/%s (%"PRId64")", (ino_t)par, name, (ino_t)ino); ret = -1; goto fail; } ret = 0; fail: /* this should not happen as inode_path returns -1 when buf is NULL for sure */ if (path && !loc->path) GF_FREE (path); return ret; } /* courtesy of folly */ void gf_fuse_stat2attr (struct iatt *st, struct fuse_attr *fa) { fa->ino = st->ia_ino; fa->size = st->ia_size; fa->blocks = st->ia_blocks; fa->atime = st->ia_atime; fa->mtime = st->ia_mtime; fa->ctime = st->ia_ctime; fa->atimensec = st->ia_atime_nsec; fa->mtimensec = st->ia_mtime_nsec; fa->ctimensec = st->ia_ctime_nsec; fa->mode = st_mode_from_ia (st->ia_prot, st->ia_type); fa->nlink = st->ia_nlink; fa->uid = st->ia_uid; fa->gid = st->ia_gid; fa->rdev = makedev (ia_major (st->ia_rdev), ia_minor (st->ia_rdev)); #if FUSE_KERNEL_MINOR_VERSION >= 9 fa->blksize = st->ia_blksize; #endif #ifdef GF_DARWIN_HOST_OS fa->crtime = (uint64_t)-1; fa->crtimensec = (uint32_t)-1; fa->flags = 0; #endif } static int fuse_do_flip_xattr_ns (char *okey, const char *nns, char **nkey) { int ret = 0; char *key = NULL; okey = strchr (okey, '.'); GF_ASSERT (okey); key = GF_CALLOC (1, strlen (nns) + strlen(okey) + 1, gf_common_mt_char); if (!key) { ret = -1; goto out; } strcpy (key, nns); strcat (key, okey); *nkey = key; out: return ret; } static int fuse_xattr_alloc_default (char *okey, char **nkey) { int ret = 0; *nkey = gf_strdup (okey); if (!*nkey) ret = -1; return ret; } #define PRIV_XA_NS "trusted" #define UNPRIV_XA_NS "system" int fuse_flip_xattr_ns (fuse_private_t *priv, char *okey, char **nkey) { int ret = 0; gf_boolean_t need_flip = _gf_false; switch (priv->client_pid) { case GF_CLIENT_PID_GSYNCD: /* valid xattr(s): *xtime, volume-mark* */ gf_log("glusterfs-fuse", GF_LOG_DEBUG, "PID: %d, checking xattr(s): " "volume-mark*, *xtime", priv->client_pid); if ( (strcmp (okey, UNPRIV_XA_NS".glusterfs.volume-mark") == 0) || (fnmatch (UNPRIV_XA_NS".glusterfs.volume-mark.*", okey, FNM_PERIOD) == 0) || (fnmatch (UNPRIV_XA_NS".glusterfs.*.xtime", okey, FNM_PERIOD) == 0) ) need_flip = _gf_true; break; case GF_CLIENT_PID_HADOOP: /* valid xattr(s): pathinfo */ gf_log("glusterfs-fuse", GF_LOG_DEBUG, "PID: %d, checking xattr(s): " "pathinfo", priv->client_pid); if (strcmp (okey, UNPRIV_XA_NS".glusterfs.pathinfo") == 0) need_flip = _gf_true; break; } if (need_flip) { gf_log ("glusterfs-fuse", GF_LOG_DEBUG, "flipping %s to "PRIV_XA_NS" equivalent", okey); ret = fuse_do_flip_xattr_ns (okey, PRIV_XA_NS, nkey); } else { /* if we cannot match, continue with what we got */ ret = fuse_xattr_alloc_default (okey, nkey); } return ret; }