/* * Copyright (c) 1995 - 2002 Kungliga Tekniska Högskolan * (Royal Institute of Technology, Stockholm, Sweden). * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ /* * NNPFS operations. */ #include #include #include #include #include #include #include #include RCSID("$arla: xfs_vnodeops-common.c,v 1.94 2003/01/27 11:58:50 lha Exp $"); static void xfs_handle_stale(struct xfs_node *xn) { #if __APPLE__ struct vnode *vp = XNODE_TO_VNODE(xn); #endif if ((xn->flags & NNPFS_STALE) == 0) return; #if __APPLE__ if (UBCISVALID(vp) && !ubc_isinuse(vp, 1)) { xn->flags &= ~NNPFS_STALE; ubc_setsize(vp, 0); NNPFS_TOKEN_CLEAR(xn, ~0, NNPFS_OPEN_MASK | NNPFS_ATTR_MASK | NNPFS_DATA_MASK | NNPFS_LOCK_MASK); } #endif } int xfs_open_valid(struct vnode *vp, struct ucred *cred, d_thread_t *p, u_int tok) { struct xfs *xfsp = NNPFS_FROM_VNODE(vp); struct xfs_node *xn = VNODE_TO_XNODE(vp); int error = 0; NNPFSDEB(XDEBVFOPS, ("xfs_open_valid\n")); xfs_handle_stale(xn); do { if (!NNPFS_TOKEN_GOT(xn, tok)) { struct xfs_message_open msg; msg.header.opcode = NNPFS_MSG_OPEN; msg.cred.uid = cred->cr_uid; msg.cred.pag = xfs_get_pag(cred); msg.handle = xn->handle; msg.tokens = tok; error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), p); if (error == 0) error = ((struct xfs_message_wakeup *) & msg)->error; } else { goto done; } } while (error == 0); done: NNPFSDEB(XDEBVFOPS, ("xfs_open_valid: error = %d\n", error)); return error; } int xfs_attr_valid(struct vnode *vp, struct ucred *cred, d_thread_t *p, u_int tok) { struct xfs *xfsp = NNPFS_FROM_VNODE(vp); struct xfs_node *xn = VNODE_TO_XNODE(vp); int error = 0; xfs_pag_t pag = xfs_get_pag(cred); do { if (!NNPFS_TOKEN_GOT(xn, tok) || !xfs_has_pag(xn, pag)) { struct xfs_message_getattr msg; msg.header.opcode = NNPFS_MSG_GETATTR; msg.cred.uid = cred->cr_uid; msg.cred.pag = pag; msg.handle = xn->handle; error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), p); if (error == 0) error = ((struct xfs_message_wakeup *) & msg)->error; } else { goto done; } } while (error == 0); done: return error; } int xfs_data_valid(struct vnode *vp, struct ucred *cred, d_thread_t *p, u_int tok, uint32_t want_offset) { struct xfs *xfsp = NNPFS_FROM_VNODE(vp); struct xfs_node *xn = VNODE_TO_XNODE(vp); int error = 0; uint32_t offset; struct xfs_message_getdata msg; do { offset = want_offset; if (NNPFS_TOKEN_GOT(xn, tok|NNPFS_ATTR_R) && offset > xn->attr.va_size) { offset = xn->attr.va_size; } NNPFSDEB(XDEBVNOPS, ("xfs_data_valid: offset: want %ld has %ld, " "tokens: want %lx has %lx length: %ld\n", (long) offset, (long) xn->offset, (long) tok, (long) xn->tokens, (long) xn->attr.va_size)); if (NNPFS_TOKEN_GOT(xn, tok)) { if (offset <= xn->offset || xn->attr.va_type == VDIR) { break; } } msg.header.opcode = NNPFS_MSG_GETDATA; msg.cred.uid = cred->cr_uid; msg.cred.pag = xfs_get_pag(cred); msg.handle = xn->handle; msg.tokens = tok; msg.offset = offset; error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), p); if (error == 0) error = ((struct xfs_message_wakeup *) & msg)->error; } while (error == 0); return error; } int xfs_open_common(struct vnode *vp, int mode, struct ucred *cred, d_thread_t *p) { struct xfs_node *xn = VNODE_TO_XNODE(vp); int ret; NNPFSDEB(XDEBVNOPS, ("xfs_open\n")); if (mode & FWRITE) { ret = xfs_open_valid(vp, cred, p, NNPFS_OPEN_NW); } else { ret = xfs_open_valid(vp, cred, p, NNPFS_OPEN_NR); } /* always update the read cred */ if (mode & FWRITE) xfs_update_write_cred(xn, cred); xfs_update_read_cred(xn, cred); return ret; } static int do_fsync(struct xfs *xfsp, struct xfs_node *xn, struct ucred *cred, d_thread_t *p, u_int flag) { int error; struct xfs_message_putdata msg; msg.header.opcode = NNPFS_MSG_PUTDATA; if (cred != NOCRED) { msg.cred.uid = cred->cr_uid; msg.cred.pag = xfs_get_pag(cred); } else { msg.cred.uid = 0; msg.cred.pag = NNPFS_ANONYMOUSID; } msg.handle = xn->handle; vattr2xfs_attr(&xn->attr, &msg.attr); msg.flag = flag; error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), p); if (error == 0) error = ((struct xfs_message_wakeup *) & msg)->error; if (error == 0) xn->flags &= ~NNPFS_DATA_DIRTY; return error; } int xfs_fsync_common(struct vnode *vp, struct ucred *cred, int waitfor, d_thread_t *proc) { struct xfs *xfsp = NNPFS_FROM_VNODE(vp); struct xfs_node *xn = VNODE_TO_XNODE(vp); int error = 0; NNPFSDEB(XDEBVNOPS, ("xfs_fsync: %lx\n", (unsigned long)vp)); /* * It seems that fsync is sometimes called after reclaiming a node. * In that case we just look happy. */ if (xn == NULL) { printf("NNPFS PANIC WARNING! xfs_fsync called after reclaiming!\n"); return 0; } xfs_pushdirty(vp, cred, proc); if (xn->flags & NNPFS_DATA_DIRTY) { #ifdef FSYNC_RECLAIM /* writing back the data from this vnode failed */ if (waitfor & FSYNC_RECLAIM) { printf("xfs_fsync: data lost, failed to write back\n"); xn->flags &= ~NNPFS_DATA_DIRTY; return 0; } #endif error = do_fsync(xfsp, xn, cred, proc, NNPFS_WRITE | NNPFS_FSYNC); } return error; } int xfs_close_common(struct vnode *vp, int fflag, d_thread_t *proc, struct ucred *cred) { struct xfs *xfsp = NNPFS_FROM_VNODE(vp); struct xfs_node *xn = VNODE_TO_XNODE(vp); int error = 0; NNPFSDEB(XDEBVNOPS, ("xfs_close cred = %lx, fflag = %x, xn->flags = %x\n", (unsigned long)cred, fflag, xn->flags)); if (vp->v_type == VREG) xfs_pushdirty(vp, cred, proc); if (fflag & FWRITE && xn->flags & NNPFS_DATA_DIRTY) error = do_fsync(xfsp, xn, cred, proc, NNPFS_WRITE); return error; } size_t xfs_uio_end_length (struct uio *uio) { #ifdef DIAGNOSTIC size_t sz = 0; int i; for (i = 0; i < uio->uio_iovcnt; i++) sz += uio->uio_iov[i].iov_len; if (sz != uio->uio_resid) panic("xfs_uio_end_length"); #endif return uio->uio_offset + uio->uio_resid; } int xfs_read_common(struct vnode *vp, struct uio *uio, int ioflag, struct ucred *cred) { int error = 0; int i; NNPFSDEB(XDEBVNOPS, ("xfs_read\n")); xfs_update_read_cred(VNODE_TO_XNODE(vp), cred); #ifdef HAVE_FREEBSD_THREAD error = xfs_data_valid(vp, cred, xfs_uio_to_thread(uio), NNPFS_DATA_R, xfs_uio_end_length(uio)); #else error = xfs_data_valid(vp, cred, xfs_uio_to_proc(uio), NNPFS_DATA_R, xfs_uio_end_length(uio)); #endif NNPFSDEB(XDEBVNOPS, ("xfs_read: iovcnt: %d\n", uio->uio_iovcnt)); for (i = 0; i < uio->uio_iovcnt; i++) NNPFSDEB(XDEBVNOPS, (" base: %lx len: %lu\n", (unsigned long)uio->uio_iov[i].iov_base, (unsigned long)uio->uio_iov[i].iov_len)); if (error == 0) { struct vnode *t = DATA_FROM_VNODE(vp); #ifdef HAVE_FREEBSD_THREAD xfs_vfs_readlock(t, xfs_uio_to_thread(uio)); xfs_vop_read(t, uio, ioflag, cred, error); xfs_vfs_unlock(t, xfs_uio_to_thread(uio)); #else xfs_vfs_readlock(t, xfs_uio_to_proc(uio)); xfs_vop_read(t, uio, ioflag, cred, error); xfs_vfs_unlock(t, xfs_uio_to_proc(uio)); #endif } NNPFSDEB(XDEBVNOPS, ("xfs_read offset: %lu resid: %lu\n", (unsigned long)uio->uio_offset, (unsigned long)uio->uio_resid)); NNPFSDEB(XDEBVNOPS, ("xfs_read error: %d\n", error)); return error; } int xfs_write_common(struct vnode *vp, struct uio *uiop, int ioflag, struct ucred *cred) { struct xfs_node *xn = VNODE_TO_XNODE(vp); int error = 0; NNPFSDEB(XDEBVNOPS, ("xfs_write\n")); xfs_update_write_cred(xn, cred); #ifdef HAVE_FREEBSD_THREAD error = xfs_data_valid(vp, cred, xfs_uio_to_thread(uiop), NNPFS_DATA_W, VNODE_TO_XNODE(vp)->attr.va_size); #else error = xfs_data_valid(vp, cred, xfs_uio_to_proc(uiop), NNPFS_DATA_W, VNODE_TO_XNODE(vp)->attr.va_size); #endif if (error == 0) { struct vnode *t = DATA_FROM_XNODE(xn); struct vattr sub_attr; int error2 = 0; #ifdef HAVE_FREEBSD_THREAD xfs_vfs_writelock(t, xfs_uio_to_thread(uiop)); xfs_vop_write(t, uiop, ioflag, cred, error); VNODE_TO_XNODE(vp)->flags |= NNPFS_DATA_DIRTY; xfs_vop_getattr(t, &sub_attr, cred, xfs_uio_to_thread(uiop), error2); #else xfs_vfs_writelock(t, xfs_uio_to_proc(uiop)); xfs_vop_write(t, uiop, ioflag, cred, error); VNODE_TO_XNODE(vp)->flags |= NNPFS_DATA_DIRTY; xfs_vop_getattr(t, &sub_attr, cred, xfs_uio_to_proc(uiop), error2); #endif if (error2 == 0) { xn->attr.va_size = sub_attr.va_size; xn->attr.va_bytes = sub_attr.va_size; xn->attr.va_mtime = sub_attr.va_mtime; xfs_set_vp_size(vp, sub_attr.va_size); xn->offset = sub_attr.va_size; } #ifdef HAVE_FREEBSD_THREAD xfs_vfs_unlock(t, xfs_uio_to_thread(uiop)); #else xfs_vfs_unlock(t, xfs_uio_to_proc(uiop)); #endif } return error; } int xfs_getattr_common(struct vnode *vp, struct vattr *vap, struct ucred *cred, d_thread_t *p) { int error = 0; struct xfs_node *xn = VNODE_TO_XNODE(vp); NNPFSDEB(XDEBVNOPS, ("xfs_getattr\n")); error = xfs_attr_valid(vp, cred, p, NNPFS_ATTR_R); if (error == 0) *vap = xn->attr; return error; } int xfs_setattr_common(struct vnode *vp, struct vattr *vap, struct ucred *cred, d_thread_t *p) { struct xfs *xfsp = NNPFS_FROM_VNODE(vp); struct xfs_node *xn = VNODE_TO_XNODE(vp); int error = 0; NNPFSDEB(XDEBVNOPS, ("xfs_setattr\n")); #define CHECK_NNPFSATTR(A, cast) (vap->A == cast VNOVAL || vap->A == xn->attr.A) if (CHECK_NNPFSATTR(va_mode,(mode_t)) && CHECK_NNPFSATTR(va_nlink,(short)) && CHECK_NNPFSATTR(va_size,(va_size_t)) && CHECK_NNPFSATTR(va_uid,(uid_t)) && CHECK_NNPFSATTR(va_gid,(gid_t)) && CHECK_NNPFSATTR(va_mtime.tv_sec,(unsigned int)) && CHECK_NNPFSATTR(va_fileid,(long)) && CHECK_NNPFSATTR(va_type,(enum vtype))) return 0; /* Nothing to do */ #undef CHECK_NNPFSATTR if (NNPFS_TOKEN_GOT(xn, NNPFS_ATTR_W)) { /* Update attributes and mark them dirty. */ VNODE_TO_XNODE(vp)->flags |= NNPFS_ATTR_DIRTY; error = EINVAL; /* XXX not yet implemented */ goto done; } else { struct xfs_message_putattr msg; msg.header.opcode = NNPFS_MSG_PUTATTR; if (cred != NOCRED) { msg.cred.uid = cred->cr_uid; msg.cred.pag = xfs_get_pag(cred); } else { msg.cred.uid = 0; msg.cred.pag = NNPFS_ANONYMOUSID; } msg.handle = xn->handle; vattr2xfs_attr(vap, &msg.attr); if (NNPFS_TOKEN_GOT(xn, NNPFS_DATA_R)) { if (vp->v_type == VREG) { if (vap->va_size != (va_size_t)VNOVAL) XA_SET_SIZE(&msg.attr, vap->va_size); else XA_SET_SIZE(&msg.attr, xn->attr.va_size); #ifdef __APPLE__ /* XXX needed ? */ if (UBCINFOEXISTS(vp)) ubc_setsize(vp, msg.attr.xa_size); #endif } if (vap->va_mtime.tv_sec != (unsigned int)VNOVAL) XA_SET_MTIME(&msg.attr, vap->va_mtime.tv_sec); else XA_SET_MTIME(&msg.attr, xn->attr.va_mtime.tv_sec); } NNPFS_TOKEN_CLEAR(xn, NNPFS_ATTR_VALID, NNPFS_ATTR_MASK); error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), p); if (error == 0) error = ((struct xfs_message_wakeup *) & msg)->error; } done: return error; } static int check_rights (u_char rights, int mode) { int error = 0; if (mode & VREAD) if ((rights & NNPFS_RIGHT_R) == 0) error = EACCES; if (mode & VWRITE) if ((rights & NNPFS_RIGHT_W) == 0) error = EACCES; if (mode & VEXEC) if ((rights & NNPFS_RIGHT_X) == 0) error = EACCES; return error; } int xfs_access_common(struct vnode *vp, int mode, struct ucred *cred, d_thread_t *p) { int error = 0; xfs_pag_t pag = xfs_get_pag(cred); NNPFSDEB(XDEBVNOPS, ("xfs_access mode = 0%o\n", mode)); error = xfs_attr_valid(vp, cred, p, NNPFS_ATTR_R); if (error == 0) { struct xfs_node *xn = VNODE_TO_XNODE(vp); int i; error = check_rights (xn->anonrights, mode); if (error == 0) goto done; NNPFSDEB(XDEBVNOPS, ("xfs_access anonaccess failed\n")); error = EACCES; /* default to EACCES if pag isn't in xn->id */ for (i = 0; i < MAXRIGHTS; i++) if (xn->id[i] == pag) { error = check_rights (xn->rights[i], mode); break; } } done: NNPFSDEB(XDEBVNOPS, ("xfs_access(0%o) = %d\n", mode, error)); return error; } int xfs_lookup_common(struct vnode *dvp, xfs_componentname *cnp, struct vnode **vpp) { struct xfs_message_getnode msg; struct xfs *xfsp = NNPFS_FROM_VNODE(dvp); struct xfs_node *d = VNODE_TO_XNODE(dvp); int error = 0; #ifdef HAVE_FREEBSD_THREAD d_thread_t *proc = xfs_cnp_to_thread(cnp); struct ucred *cred = xfs_thread_to_cred(proc); #else d_thread_t *proc = xfs_cnp_to_proc(cnp); struct ucred *cred = xfs_proc_to_cred(proc); #endif NNPFSDEB(XDEBVNOPS, ("xfs_lookup_common: enter\n")); *vpp = NULL; if (cnp->cn_namelen >= NNPFS_MAX_NAME) return ENAMETOOLONG; if (dvp->v_type != VDIR) return ENOTDIR; if (cnp->cn_namelen == 1 && cnp->cn_nameptr[0] == '.') { *vpp = dvp; VREF(*vpp); return 0; } do { xfs_vop_access(dvp, VEXEC, cred, proc, error); if (error != 0) goto done; NNPFSDEB(XDEBVNOPS, ("xfs_lookup_common: dvp = %lx\n", (unsigned long) dvp)); NNPFSDEB(XDEBVNOPS, ("xfs_lookup_common: cnp = %lx, " "cnp->cn_nameiop = %d\n", (unsigned long) cnp, (int)cnp->cn_nameiop)); error = xfs_dnlc_lookup(dvp, cnp, vpp); if (error == 0) { /* * Doesn't quite work. */ #if 0 if ((cnp->cn_nameiop == CREATE || cnp->cn_nameiop == RENAME) && (cnp->cn_flags & ISLASTCN)) { error = EJUSTRETURN; goto done; } #endif msg.header.opcode = NNPFS_MSG_GETNODE; if (cnp->cn_cred != NOCRED) { msg.cred.uid = cnp->cn_cred->cr_uid; msg.cred.pag = xfs_get_pag(cnp->cn_cred); } else { msg.cred.uid = 0; msg.cred.pag = NNPFS_ANONYMOUSID; } msg.parent_handle = d->handle; memcpy(msg.name, cnp->cn_nameptr, cnp->cn_namelen); msg.name[cnp->cn_namelen] = '\0'; error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), proc); if (error == 0) error = ((struct xfs_message_wakeup *) & msg)->error; if(error == ENOENT && cnp->cn_nameiop != CREATE) { NNPFSDEB(XDEBVNOPS, ("xfs_lookup: neg cache %lx (%s, %ld)\n", (unsigned long)dvp, cnp->cn_nameptr, cnp->cn_namelen)); xfs_dnlc_enter (dvp, cnp, NULL); } } else if (error == -1) { error = 0; goto done; } } while (error == 0); done: NNPFSDEB(XDEBVNOPS, ("xfs_lookup_common: return error = %d\n", error)); return error; } int xfs_create_common(struct vnode *dvp, const char *name, struct vattr *vap, struct ucred *cred, d_thread_t *p) { struct xfs *xfsp = NNPFS_FROM_VNODE(dvp); struct xfs_node *xn = VNODE_TO_XNODE(dvp); int error = 0; NNPFSDEB(XDEBVNOPS, ("xfs_create: (%lx, %s)\n", (unsigned long)dvp, name)); { struct xfs_message_create msg; msg.header.opcode = NNPFS_MSG_CREATE; msg.parent_handle = xn->handle; if (strlcpy(msg.name, name, sizeof(msg.name)) >= NNPFS_MAX_NAME) return ENAMETOOLONG; vattr2xfs_attr(vap, &msg.attr); msg.mode = 0; /* XXX - mode */ if (cred != NOCRED) { msg.cred.uid = cred->cr_uid; msg.cred.pag = xfs_get_pag(cred); } else { msg.cred.uid = 0; msg.cred.pag = NNPFS_ANONYMOUSID; } error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), p); if (error == 0) error = ((struct xfs_message_wakeup *) & msg)->error; } #if 0 if (error == EEXIST) error = 0; #endif return error; } int xfs_remove_common(struct vnode *dvp, struct vnode *vp, const char *name, struct ucred *cred, d_thread_t *p) { struct xfs *xfsp = NNPFS_FROM_VNODE(dvp); struct xfs_node *xn = VNODE_TO_XNODE(dvp); struct xfs_message_remove msg; int error; NNPFSDEB(XDEBVNOPS, ("xfs_remove: %s\n", name)); msg.header.opcode = NNPFS_MSG_REMOVE; msg.parent_handle = xn->handle; msg.cred.uid = cred->cr_uid; msg.cred.pag = xfs_get_pag(cred); if (strlcpy(msg.name, name, sizeof(msg.name)) >= NNPFS_MAX_NAME) error = ENAMETOOLONG; else error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), p); if (error == 0) error = ((struct xfs_message_wakeup *) &msg)->error; if (error == 0) xfs_dnlc_purge (vp); return error; } int xfs_rename_common(struct vnode *fdvp, struct vnode *fvp, const char *fname, struct vnode *tdvp, struct vnode *tvp, const char *tname, struct ucred *cred, d_thread_t *p) { struct xfs *xfsp = NNPFS_FROM_VNODE(fdvp); int error; NNPFSDEB(XDEBVNOPS, ("xfs_rename: %s %s\n", fname, tname)); if ((fvp->v_mount != tdvp->v_mount) || (tvp && (fvp->v_mount != tvp->v_mount))) { return EXDEV; } { struct xfs_message_rename msg; msg.header.opcode = NNPFS_MSG_RENAME; msg.old_parent_handle = VNODE_TO_XNODE(fdvp)->handle; if (strlcpy(msg.old_name, fname, sizeof(msg.old_name)) >= NNPFS_MAX_NAME) return ENAMETOOLONG; msg.new_parent_handle = VNODE_TO_XNODE(tdvp)->handle; if (strlcpy(msg.new_name, tname, sizeof(msg.new_name)) >= NNPFS_MAX_NAME) return ENAMETOOLONG; msg.cred.uid = cred->cr_uid; msg.cred.pag = xfs_get_pag(cred); error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), p); if (error == 0) error = ((struct xfs_message_wakeup *) &msg)->error; } NNPFSDEB(XDEBVNOPS, ("xfs_rename: error = %d\n", error)); return error; } int xfs_mkdir_common(struct vnode *dvp, const char *name, struct vattr *vap, struct ucred *cred, d_thread_t *p) { struct xfs *xfsp = NNPFS_FROM_VNODE(dvp); struct xfs_node *xn = VNODE_TO_XNODE(dvp); int error = 0; NNPFSDEB(XDEBVNOPS, ("xfs_mkdir: %s\n", name)); { struct xfs_message_mkdir msg; msg.header.opcode = NNPFS_MSG_MKDIR; msg.parent_handle = xn->handle; if (strlcpy(msg.name, name, sizeof(msg.name)) >= NNPFS_MAX_NAME) return ENAMETOOLONG; vattr2xfs_attr(vap, &msg.attr); if (cred != NOCRED) { msg.cred.uid = cred->cr_uid; msg.cred.pag = xfs_get_pag(cred); } else { msg.cred.uid = 0; msg.cred.pag = NNPFS_ANONYMOUSID; } error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), p); if (error == 0) error = ((struct xfs_message_wakeup *) & msg)->error; } return error; } int xfs_rmdir_common(struct vnode *dvp, struct vnode *vp, const char *name, struct ucred *cred, d_thread_t *p) { struct xfs *xfsp = NNPFS_FROM_VNODE(dvp); struct xfs_node *xn = VNODE_TO_XNODE(dvp); struct xfs_message_rmdir msg; int error; NNPFSDEB(XDEBVNOPS, ("xfs_rmdir: %s\n", name)); msg.header.opcode = NNPFS_MSG_RMDIR; msg.parent_handle = xn->handle; msg.cred.uid = cred->cr_uid; msg.cred.pag = xfs_get_pag(cred); if (strlcpy(msg.name, name, sizeof(msg.name)) >= NNPFS_MAX_NAME) error = ENAMETOOLONG; else error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), p); if (error == 0) error = ((struct xfs_message_wakeup *) &msg)->error; if (error == 0) xfs_dnlc_purge (vp); NNPFSDEB(XDEBVNOPS, ("xfs_rmdir error: %d\n", error)); return error; } int xfs_readdir_common(struct vnode *vp, struct uio *uiop, struct ucred *cred, d_thread_t *p, int *eofflag) { int error = 0; NNPFSDEB(XDEBVNOPS, ("xfs_readdir\n")); if(eofflag) *eofflag = 0; #ifdef HAVE_FREEBSD_THREAD error = xfs_data_valid(vp, cred, xfs_uio_to_thread(uiop), NNPFS_DATA_R, xfs_uio_end_length(uiop)); #else error = xfs_data_valid(vp, cred, xfs_uio_to_proc(uiop), NNPFS_DATA_R, xfs_uio_end_length(uiop)); #endif if (error == 0) { struct vnode *t = DATA_FROM_VNODE(vp); #ifdef HAVE_FREEBSD_THREAD xfs_vfs_readlock(t, xfs_uio_to_thread(uiop)); #else xfs_vfs_readlock(t, xfs_uio_to_proc(uiop)); #endif xfs_vop_read(t, uiop, 0, cred, error); if (eofflag) { struct vattr t_attr; int error2; #ifdef HAVE_FREEBSD_THREAD xfs_vop_getattr(t, &t_attr, cred, xfs_uio_to_thread(uiop), error2); #else xfs_vop_getattr(t, &t_attr, cred, xfs_uio_to_proc(uiop), error2); #endif if (error2 == 0) *eofflag = t_attr.va_size <= uiop->uio_offset; } #ifdef HAVE_FREEBSD_THREAD xfs_vfs_unlock(t, xfs_uio_to_thread(uiop)); #else xfs_vfs_unlock(t, xfs_uio_to_proc(uiop)); #endif } return error; } int xfs_link_common(struct vnode *dvp, struct vnode *vp, const char *name, struct ucred *cred, d_thread_t *p) { struct xfs *xfsp = NNPFS_FROM_VNODE(dvp); struct xfs_node *xn = VNODE_TO_XNODE(dvp); struct xfs_node *xn2 = VNODE_TO_XNODE(vp); struct xfs_message_link msg; int error = 0; NNPFSDEB(XDEBVNOPS, ("xfs_link: %s\n", name)); msg.header.opcode = NNPFS_MSG_LINK; msg.parent_handle = xn->handle; msg.from_handle = xn2->handle; if (strlcpy(msg.name, name, sizeof(msg.name)) >= NNPFS_MAX_NAME) return ENAMETOOLONG; msg.cred.uid = cred->cr_uid; msg.cred.pag = xfs_get_pag(cred); error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), p); if (error == 0) error = ((struct xfs_message_wakeup *) & msg)->error; return error; } int xfs_symlink_common(struct vnode *dvp, struct vnode **vpp, xfs_componentname *cnp, struct vattr *vap, char *target) { struct xfs *xfsp = NNPFS_FROM_VNODE(dvp); struct xfs_node *xn = VNODE_TO_XNODE(dvp); #ifdef HAVE_FREEBSD_THREAD d_thread_t *proc = xfs_cnp_to_thread(cnp); struct ucred *cred = xfs_thread_to_cred(proc); #else d_thread_t *proc = xfs_cnp_to_proc(cnp); struct ucred *cred = xfs_proc_to_cred(proc); #endif struct xfs_message_symlink *msg = NULL; const char *name = cnp->cn_nameptr; int error = 0; NNPFSDEB(XDEBVNOPS, ("xfs_symlink: %s\n", name)); msg = malloc(sizeof(struct xfs_message_symlink), M_TEMP, M_WAITOK); if (msg == NULL) { error = ENOMEM; goto done; } memset(msg, 0, sizeof(*msg)); msg->header.opcode = NNPFS_MSG_SYMLINK; msg->parent_handle = xn->handle; vattr2xfs_attr(vap, &msg->attr); msg->cred.uid = cred->cr_uid; msg->cred.pag = xfs_get_pag(cred); if (strlcpy (msg->contents, target, sizeof(msg->contents)) >= NNPFS_MAX_SYMLINK_CONTENT) { error = ENAMETOOLONG; goto done; } if (strlcpy(msg->name, name, sizeof(msg->name)) >= NNPFS_MAX_NAME) { error = ENAMETOOLONG; goto done; } error = xfs_message_rpc(xfsp->fd, &msg->header, sizeof(*msg), proc); if (error == 0) error = ((struct xfs_message_wakeup *) msg)->error; done: free(msg, M_TEMP); return error; } int xfs_readlink_common(struct vnode *vp, struct uio *uiop, struct ucred *cred) { int error = 0; NNPFSDEB(XDEBVNOPS, ("xfs_readlink\n")); #ifdef HAVE_FREEBSD_THREAD error = xfs_data_valid(vp, cred, xfs_uio_to_thread(uiop), NNPFS_DATA_R, xfs_uio_end_length(uiop)); #else error = xfs_data_valid(vp, cred, xfs_uio_to_proc(uiop), NNPFS_DATA_R, xfs_uio_end_length(uiop)); #endif if (error == 0) { struct vnode *t = DATA_FROM_VNODE(vp); #ifdef HAVE_FREEBSD_THREAD xfs_vfs_readlock(t, xfs_uio_to_thread(uiop)); xfs_vop_read(t, uiop, 0, cred, error); xfs_vfs_unlock(t, xfs_uio_to_thread(uiop)); #else xfs_vfs_readlock(t, xfs_uio_to_proc(uiop)); xfs_vop_read(t, uiop, 0, cred, error); xfs_vfs_unlock(t, xfs_uio_to_proc(uiop)); #endif } return error; } int xfs_inactive_common(struct vnode *vp, d_thread_t *p) { int error; struct xfs_node *xn = VNODE_TO_XNODE(vp); NNPFSDEB(XDEBVNOPS, ("xfs_inactive, %lx\n", (unsigned long)vp)); /* * This seems rather bogus, but sometimes we get an already * cleaned node to be made inactive. Just ignoring it seems safe. */ if (xn == NULL) { NNPFSDEB(XDEBVNOPS, ("xfs_inactive: clean node\n")); return 0; } /* xn->wr_cred not set -> NOCRED */ if (vp->v_type == VREG) xfs_pushdirty(vp, xn->wr_cred, p); error = xfs_fsync_common(vp, xn->wr_cred, /* XXX */ 0, p); if (error) { printf ("xfs_inactive: failed writing back data: %d\n", error); xn->flags &= ~NNPFS_DATA_DIRTY; } /* If this node is no longer valid, recycle immediately. */ if (!NNPFS_TOKEN_GOT(xn, NNPFS_ATTR_R | NNPFS_ATTR_W) || (xn->flags & NNPFS_STALE) == NNPFS_STALE) { #ifndef __osf__ xfs_vfs_unlock(vp, p); NNPFSDEB(XDEBVNOPS, ("xfs_inactive: vrecycle\n")); vrecycle(vp, p); #else /* __osf__ */ NNPFSDEB(XDEBVNOPS, ("xfs_inactive: vp = %lx vp->v_usecount= %d\n", (unsigned long)vp, vp?vp->v_usecount:0)); #endif /* __osf__ */ } else { #ifndef __osf__ xfs_vfs_unlock(vp, p); #endif xn->flags &= ~NNPFS_STALE; } NNPFSDEB(XDEBVNOPS, ("return: xfs_inactive\n")); return 0; } int xfs_reclaim_common(struct vnode *vp) { struct xfs_message_inactivenode msg; struct xfs *xfsp = NNPFS_FROM_VNODE(vp); struct xfs_node *xn = VNODE_TO_XNODE(vp); NNPFSDEB(XDEBVNOPS, ("xfs_reclaim: %lx\n", (unsigned long)vp)); NNPFS_TOKEN_CLEAR(xn, ~0, NNPFS_OPEN_MASK | NNPFS_ATTR_MASK | NNPFS_DATA_MASK | NNPFS_LOCK_MASK); /* Release, data if we still have it. */ if (DATA_FROM_XNODE(xn) != 0) { vrele(DATA_FROM_XNODE(xn)); DATA_FROM_XNODE(xn) = 0; } xfs_remove_node(&xfsp->nodehead, xn); msg.header.opcode = NNPFS_MSG_INACTIVENODE; msg.handle = xn->handle; msg.flag = NNPFS_NOREFS | NNPFS_DELETE; xfs_message_send(xfsp->fd, &msg.header, sizeof(msg)); xfs_dnlc_purge(vp); free_xfs_node(xn); return 0; } /* * */ #if 0 int xfs_advlock_common(struct vnode *dvp, int locktype, unsigned long lockid, /* XXX this good ? */ struct ucred *cred) { struct xfs *xfsp = NNPFS_FROM_VNODE(dvp); struct xfs_node *xn = VNODE_TO_XNODE(dvp); int error = 0; NNPFSDEB(XDEBVNOPS, ("xfs_advlock\n")); { struct xfs_message_advlock msg; msg.header.opcode = NNPFS_MSG_ADVLOCK; msg.handle = xn->handle; msg.locktype = locktype; msg.lockid = lockid; if (cred != NOCRED) { msg.cred.uid = cred->cr_uid; msg.cred.pag = xfs_get_pag(cred); } else { msg.cred.uid = 0; msg.cred.pag = NNPFS_ANONYMOUSID; } error = xfs_message_rpc(xfsp->fd, &msg.header, sizeof(msg), p); if (error == 0) error = ((struct xfs_message_wakeup *) & msg)->error; } if (error == 0) { /* sleep until woken */ } else { /* die */ } return error; } #endif /* * */ void xfs_printnode_common (struct vnode *vp) { struct xfs_node *xn = VNODE_TO_XNODE(vp); printf ("xnode: fid: %d.%d.%d.%d\n", xn->handle.a, xn->handle.b, xn->handle.c, xn->handle.d); printf ("\tattr: %svalid\n", NNPFS_TOKEN_GOT(xn, NNPFS_ATTR_VALID) ? "": "in"); printf ("\tdata: %svalid\n", NNPFS_TOKEN_GOT(xn, NNPFS_DATA_VALID) ? "": "in"); printf ("\tflags: 0x%x\n", xn->flags); printf ("\toffset: %d\n", xn->offset); }