/* * Copyright (c) 2000-2007 Apple Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ /* Copyright (c) 1995 NeXT Computer, Inc. All Rights Reserved */ /* * Copyright (c) 1989, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Rick Macklem at The University of Guelph. * * 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. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University 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 REGENTS 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 REGENTS 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. * * @(#)nfsm_subs.h 8.2 (Berkeley) 3/30/95 * FreeBSD-Id: nfsm_subs.h,v 1.13 1997/07/16 09:06:30 dfr Exp $ */ #ifndef _NFS_NFSM_SUBS_H_ #define _NFS_NFSM_SUBS_H_ #include #ifdef __APPLE_API_PRIVATE int nfsm_rpchead(struct nfsreq *, int, mbuf_t, u_int64_t *, mbuf_t *); int nfsm_rpchead2(int, int, int, int, int, int, kauth_cred_t, struct nfsreq *, mbuf_t, u_int64_t *, mbuf_t *); int nfsm_chain_new_mbuf(struct nfsm_chain *, size_t); int nfsm_chain_add_opaque_f(struct nfsm_chain *, const u_char *, uint32_t); int nfsm_chain_add_opaque_nopad_f(struct nfsm_chain *, const u_char *, uint32_t); int nfsm_chain_add_uio(struct nfsm_chain *, struct uio *, uint32_t); int nfsm_chain_add_fattr4_f(struct nfsm_chain *, struct vnode_attr *, struct nfsmount *); int nfsm_chain_add_v2sattr_f(struct nfsm_chain *, struct vnode_attr *, uint32_t); int nfsm_chain_add_v3sattr_f(struct nfsm_chain *, struct vnode_attr *); int nfsm_chain_advance(struct nfsm_chain *, uint32_t); int nfsm_chain_offset(struct nfsm_chain *); int nfsm_chain_reverse(struct nfsm_chain *, uint32_t); int nfsm_chain_get_opaque_pointer_f(struct nfsm_chain *, uint32_t, u_char **); int nfsm_chain_get_opaque_f(struct nfsm_chain *, uint32_t, u_char *); int nfsm_chain_get_uio(struct nfsm_chain *, uint32_t, struct uio *); int nfsm_chain_get_fh_attr(struct nfsm_chain *, nfsnode_t, vfs_context_t, int, uint64_t *, fhandle_t *, struct nfs_vattr *); int nfsm_chain_get_wcc_data_f(struct nfsm_chain *, nfsnode_t, struct timespec *, int *, u_int64_t *); #if NFSSERVER void nfsm_adj(mbuf_t, int, int); int nfsm_mbuf_get_list(size_t, mbuf_t *, int *); int nfsm_chain_add_fattr(struct nfsrv_descript *, struct nfsm_chain *, struct vnode_attr *); int nfsm_chain_add_wcc_data_f(struct nfsrv_descript *, struct nfsm_chain *, int, struct vnode_attr *, int, struct vnode_attr *); int nfsm_chain_get_path_namei(struct nfsm_chain *, uint32_t, struct nameidata *); int nfsm_chain_get_sattr(struct nfsrv_descript *, struct nfsm_chain *, struct vnode_attr *); int nfsm_chain_trim_data(struct nfsm_chain *, int, int *); #endif /* NFSSERVER */ /* check name length */ #define nfsm_name_len_check(E, ND, LEN) \ do { \ if (E) break; \ if (((ND)->nd_vers == NFS_VER2) && ((LEN) > NFS_MAXNAMLEN)) \ (E) = NFSERR_NAMETOL; \ if ((LEN) <= 0) \ error = EBADRPC; \ } while (0) #define nfsm_assert(E, COND, ERR) \ do { \ if (E) break; \ if (!(COND)) \ (E) = (ERR); \ } while (0) /* Initialize a vnode_attr to retrieve attributes for the NFS server. */ #define nfsm_srv_vattr_init(VAP, VERS) \ do { \ VATTR_INIT(VAP); \ VATTR_WANTED((VAP), va_type); \ VATTR_WANTED((VAP), va_mode); \ VATTR_WANTED((VAP), va_nlink); \ VATTR_WANTED((VAP), va_uid); \ VATTR_WANTED((VAP), va_gid); \ VATTR_WANTED((VAP), va_data_size); \ VATTR_WANTED((VAP), va_data_alloc); \ VATTR_WANTED((VAP), va_rdev); \ VATTR_WANTED((VAP), va_fsid); \ VATTR_WANTED((VAP), va_fileid); \ VATTR_WANTED((VAP), va_access_time); \ VATTR_WANTED((VAP), va_modify_time); \ VATTR_WANTED((VAP), va_change_time); \ if ((VERS) == NFS_VER2) \ VATTR_WANTED((VAP), va_iosize); \ } while (0) /* Initialize a vnode_attr to retrieve pre-operation attributes for the NFS server. */ #define nfsm_srv_pre_vattr_init(VAP) \ do { \ VATTR_INIT(VAP); \ VATTR_WANTED((VAP), va_data_size); \ VATTR_WANTED((VAP), va_modify_time); \ VATTR_WANTED((VAP), va_change_time); \ } while (0) /* round up to a multiple of 4 */ #define nfsm_rndup(a) (((a)+3)&(~0x3)) #define nfsm_pad(a) (nfsm_rndup(a) - (a)) /* * control flow macros: * go to the appropriate label on condition */ #define nfsmout_if(E) do { if (E) goto nfsmout; } while (0) #define nfsmerr_if(E) do { if (E) goto nfsmerr; } while (0) /* * For NFS v2 errors and EBADRPC, the reply contains only the error. * This macro is used to skip any reply building code and go straight * to nfsmout instead. */ #define nfsmout_on_status(ND, E) \ do { \ if (((ND)->nd_repstat == EBADRPC) || \ ((ND)->nd_repstat && ((ND)->nd_vers == NFS_VER2))) { \ (E) = 0; \ goto nfsmout; \ } \ } while (0) /* initialize an mbuf chain */ #define nfsm_chain_null(NMC) \ do { \ (NMC)->nmc_mhead = (NMC)->nmc_mcur = NULL; \ (NMC)->nmc_ptr = NULL; \ } while (0) /* cleanup an mbuf chain */ #define nfsm_chain_cleanup(NMC) \ do { \ if (!(NMC)->nmc_mhead) break; \ mbuf_freem((NMC)->nmc_mhead); \ nfsm_chain_null(NMC); \ } while (0) /* get an mbuf given a size hint */ #define nfsm_mbuf_get(E, MBP, SIZEHINT) \ do { \ *(MBP) = NULL; \ if ((size_t)(SIZEHINT) >= nfs_mbuf_minclsize) \ (E) = mbuf_mclget(MBUF_WAITOK, MBUF_TYPE_DATA, (MBP)); \ else \ (E) = mbuf_get(MBUF_WAITOK, MBUF_TYPE_DATA, (MBP)); \ } while (0) /* * macros for building NFS mbuf chains */ /* prepare an mbuf chain for building starting with the given mbuf */ #define nfsm_chain_init(NMC, MB) \ do { \ (NMC)->nmc_mhead = (MB); \ (NMC)->nmc_mcur = (NMC)->nmc_mhead; \ (NMC)->nmc_ptr = mbuf_data((NMC)->nmc_mcur); \ (NMC)->nmc_left = mbuf_trailingspace((NMC)->nmc_mcur); \ (NMC)->nmc_flags = 0; \ } while (0) /* prepare an mbuf chain for building starting with a newly allocated mbuf */ #define nfsm_chain_build_alloc_init(E, NMC, SIZEHINT) \ do { \ mbuf_t ncbimb; \ nfsm_mbuf_get((E), &ncbimb, (SIZEHINT)); \ if (E) break; \ nfsm_chain_init((NMC), ncbimb); \ } while (0) /* done building an mbuf chain */ #define nfsm_chain_build_done(E, NMC) \ do { \ if ((E) || !(NMC)->nmc_mcur) break; \ /* cap off current mbuf */ \ mbuf_setlen((NMC)->nmc_mcur, \ (NMC)->nmc_ptr - (caddr_t)mbuf_data((NMC)->nmc_mcur)); \ } while (0) /* * set the TCP record mark at the head of an mbuf chain - * assumes 4 bytes are already allocated in the head mbuf */ #define nfsm_chain_set_recmark(E, NMC, VAL) \ do { \ if (E) break; \ *((uint32_t*)mbuf_data((NMC)->nmc_mhead)) \ = txdr_unsigned(VAL); \ } while (0) /* make sure there's room for size bytes in current mbuf */ #define nfsm_chain_check_size(E, NMC, SIZE) \ do { \ if (E) break; \ if ((NMC)->nmc_left < (SIZE)) { \ (E) = nfsm_chain_new_mbuf((NMC), (SIZE)); \ if (!(E) && ((NMC)->nmc_left < (SIZE))) \ (E) = ENOMEM; \ } \ } while (0) /* add a 32bit value to an mbuf chain extending if necessary */ #define nfsm_chain_add_32(E, NMC, VAL) \ do { \ nfsm_chain_check_size((E), (NMC), NFSX_UNSIGNED); \ if (E) break; \ *((uint32_t*)(NMC)->nmc_ptr) = txdr_unsigned(VAL); \ (NMC)->nmc_ptr += NFSX_UNSIGNED; \ (NMC)->nmc_left -= NFSX_UNSIGNED; \ } while (0) /* add a 64bit value to an mbuf chain */ #define nfsm_chain_add_64(E, NMC, VAL) \ do { \ uint64_t __tmp64; \ nfsm_chain_check_size((E), (NMC), 2 * NFSX_UNSIGNED); \ if (E) break; \ __tmp64 = (VAL); \ txdr_hyper(&__tmp64, (NMC)->nmc_ptr); \ (NMC)->nmc_ptr += 2 * NFSX_UNSIGNED; \ (NMC)->nmc_left -= 2 * NFSX_UNSIGNED; \ } while (0) /* zero the last 4 bytes for a range of opaque */ /* data to make sure any pad bytes will be zero. */ #define nfsm_chain_zero_opaque_pad(BUF, LEN) \ *(((uint32_t*)(BUF))+((nfsm_rndup(LEN)>>2)-1)) = 0 /* add buffer of opaque data to an mbuf chain */ #define nfsm_chain_add_opaque(E, NMC, BUF, LEN) \ do { \ uint32_t rndlen = nfsm_rndup(LEN); \ if (E) break; \ if ((NMC)->nmc_left < rndlen) { \ (E) = nfsm_chain_add_opaque_f((NMC), (const u_char*)(BUF), (LEN)); \ break; \ } \ nfsm_chain_zero_opaque_pad((NMC)->nmc_ptr, (LEN)); \ bcopy((BUF), (NMC)->nmc_ptr, (LEN)); \ (NMC)->nmc_ptr += rndlen; \ (NMC)->nmc_left -= rndlen; \ } while (0) /* add buffer of opaque data to an mbuf chain without padding */ #define nfsm_chain_add_opaque_nopad(E, NMC, BUF, LEN) \ do { \ if (E) break; \ if ((NMC)->nmc_left < (uint32_t) (LEN)) { \ (E) = nfsm_chain_add_opaque_nopad_f((NMC), (const u_char*)(BUF), (LEN)); \ break; \ } \ bcopy((BUF), (NMC)->nmc_ptr, (LEN)); \ (NMC)->nmc_ptr += (LEN); \ (NMC)->nmc_left -= (LEN); \ } while (0) /* finish an mbuf in a chain to allow subsequent insertion */ #define nfsm_chain_finish_mbuf(E, NMC) \ do { \ if (E) break; \ mbuf_setlen((NMC)->nmc_mcur, \ (NMC)->nmc_ptr - (caddr_t)mbuf_data((NMC)->nmc_mcur)); \ (NMC)->nmc_left = 0; \ } while (0) /* add a file handle to an mbuf chain */ #define nfsm_chain_add_fh(E, NMC, VERS, FHP, FHLEN) \ do { \ if (E) break; \ if ((VERS) != NFS_VER2) \ nfsm_chain_add_32((E), (NMC), (FHLEN)); \ nfsm_chain_add_opaque((E), (NMC), (FHP), (FHLEN)); \ } while (0) /* add a string to an mbuf chain */ #define nfsm_chain_add_string(E, NMC, STR, LEN) \ do { \ nfsm_chain_add_32((E), (NMC), (LEN)); \ nfsm_chain_add_opaque((E), (NMC), (STR), (LEN)); \ } while (0) /* add an NFSv2 time to an mbuf chain */ #define nfsm_chain_add_v2time(E, NMC, TVP) \ do { \ if (TVP) { \ nfsm_chain_add_32((E), (NMC), (TVP)->tv_sec); \ nfsm_chain_add_32((E), (NMC), ((TVP)->tv_nsec != -1) ? \ ((uint32_t)(TVP)->tv_nsec / 1000) : 0xffffffff); \ } else { \ /* no time... use -1 */ \ nfsm_chain_add_32((E), (NMC), -1); \ nfsm_chain_add_32((E), (NMC), -1); \ } \ } while (0) /* add an NFSv3 time to an mbuf chain */ #define nfsm_chain_add_v3time(E, NMC, TVP) \ do { \ nfsm_chain_add_32((E), (NMC), (TVP)->tv_sec); \ nfsm_chain_add_32((E), (NMC), (TVP)->tv_nsec); \ } while (0) /* add an NFS v2 or v3 time to an mbuf chain */ #define nfsm_chain_add_time(E, NMC, VERS, TVP) \ do { \ if ((VERS) == NFS_VER2) { \ nfsm_chain_add_v2time((E), (NMC), (TVP)); \ } else { \ nfsm_chain_add_v3time((E), (NMC), (TVP)); \ } \ } while (0) /* add an NFSv3 postop file handle to an mbuf chain */ #define nfsm_chain_add_postop_fh(E, NMC, FHP, FHLEN) \ do { \ nfsm_chain_add_32((E), (NMC), TRUE); \ nfsm_chain_add_fh((E), (NMC), NFS_VER3, (FHP), (FHLEN)); \ } while (0) /* add NFSv3 postop attributes to an mbuf chain */ #define nfsm_chain_add_postop_attr(E, ND, NMC, ATTRERR, VAP) \ do { \ if (E) break; \ if (ATTRERR) { \ nfsm_chain_add_32((E), (NMC), FALSE); \ break; \ } \ nfsm_chain_add_32((E), (NMC), TRUE); \ if (E) break; \ (E) = nfsm_chain_add_fattr((ND), (NMC), (VAP)); \ } while (0) /* Add an NFSv2 "sattr" structure to an mbuf chain */ #define nfsm_chain_add_v2sattr(E, NMC, VAP, SZRDEV) \ do { \ if (E) break; \ (E) = nfsm_chain_add_v2sattr_f((NMC), (VAP), (SZRDEV)); \ } while (0) /* Add an NFSv3 "sattr" structure to an mbuf chain */ #define nfsm_chain_add_v3sattr(E, NMC, VAP) \ do { \ if (E) break; \ (E) = nfsm_chain_add_v3sattr_f((NMC), (VAP)); \ } while (0) /* Add an NFSv4 "fattr" structure to an mbuf chain */ #define nfsm_chain_add_fattr4(E, NMC, VAP, NMP) \ do { \ if (E) break; \ (E) = nfsm_chain_add_fattr4_f((NMC), (VAP), (NMP)); \ } while (0) /* add NFSv3 WCC data to an mbuf chain */ #define nfsm_chain_add_wcc_data(E, ND, NMC, PREERR, PREVAP, POSTERR, POSTVAP) \ do { \ if (E) break; \ (E) = nfsm_chain_add_wcc_data_f((ND), (NMC), \ (PREERR), (PREVAP), (POSTERR), (POSTVAP)); \ } while (0) /* add NFSv4 COMPOUND header */ #define nfsm_chain_add_compound_header(E, NMC, TAG, NUMOPS) \ do { \ if ((TAG) && strlen(TAG)) \ nfsm_chain_add_string((E), (NMC), (TAG), strlen(TAG)); \ else \ nfsm_chain_add_32((E), (NMC), 0); \ nfsm_chain_add_32((E), (NMC), 0); /*minorversion*/ \ nfsm_chain_add_32((E), (NMC), (NUMOPS)); \ } while (0) /* add NFSv4 attr bitmap */ #define nfsm_chain_add_bitmap(E, NMC, B, LEN) \ do { \ int __i; \ nfsm_chain_add_32((E), (NMC), (LEN)); \ for (__i=0; __i < (LEN); __i++) \ nfsm_chain_add_32((E), (NMC), (B)[__i]); \ } while (0) /* add NFSv4 attr bitmap masked with the given mask */ #define nfsm_chain_add_bitmap_masked(E, NMC, B, LEN, MASK) \ do { \ int __i; \ nfsm_chain_add_32((E), (NMC), (LEN)); \ for (__i=0; __i < (LEN); __i++) \ nfsm_chain_add_32((E), (NMC), ((B)[__i] & (MASK)[__i])); \ } while (0) /* * macros for dissecting NFS mbuf chains */ /* prepare an mbuf chain for dissection starting with the given mbuf */ #define nfsm_chain_dissect_init(E, NMC, H) \ do { \ if (!(H)) { \ (E) = EINVAL; \ break; \ } \ (NMC)->nmc_mcur = (NMC)->nmc_mhead = (H); \ (NMC)->nmc_ptr = mbuf_data(H); \ (NMC)->nmc_left = mbuf_len(H); \ } while (0) /* skip a number of bytes in an mbuf chain */ #define nfsm_chain_adv(E, NMC, LEN) \ do { \ if (E) break; \ if ((NMC)->nmc_left >= (uint32_t)(LEN)) { \ (NMC)->nmc_left -= (LEN); \ (NMC)->nmc_ptr += (LEN); \ } else { \ (E) = nfsm_chain_advance((NMC), (LEN)); \ } \ } while (0) /* get a 32bit value from an mbuf chain */ #define nfsm_chain_get_32(E, NMC, LVAL) \ do { \ uint32_t __tmp32, *__tmpptr; \ if (E) break; \ if ((NMC)->nmc_left >= NFSX_UNSIGNED) { \ __tmpptr = (uint32_t*)(NMC)->nmc_ptr; \ (NMC)->nmc_left -= NFSX_UNSIGNED; \ (NMC)->nmc_ptr += NFSX_UNSIGNED; \ } else { \ __tmpptr = &__tmp32; \ (E) = nfsm_chain_get_opaque_f((NMC), NFSX_UNSIGNED, (u_char*)__tmpptr); \ if (E) break; \ } \ (LVAL) = fxdr_unsigned(uint32_t, *__tmpptr); \ } while (0) /* get a 64bit value from an mbuf chain */ #define nfsm_chain_get_64(E, NMC, LVAL) \ do { \ uint64_t __tmp64, *__tmpptr; \ if (E) break; \ if ((NMC)->nmc_left >= 2 * NFSX_UNSIGNED) { \ __tmpptr = (uint64_t*)(NMC)->nmc_ptr; \ (NMC)->nmc_left -= 2 * NFSX_UNSIGNED; \ (NMC)->nmc_ptr += 2 * NFSX_UNSIGNED; \ } else { \ __tmpptr = &__tmp64; \ (E) = nfsm_chain_get_opaque_f((NMC), 2 * NFSX_UNSIGNED, (u_char*)__tmpptr); \ if (E) break; \ } \ fxdr_hyper(__tmpptr, &(LVAL)); \ } while (0) /* get a pointer to the next consecutive bytes in an mbuf chain */ #define nfsm_chain_get_opaque_pointer(E, NMC, LEN, PTR) \ do { \ uint32_t rndlen; \ if (E) break; \ rndlen = nfsm_rndup(LEN); \ if ((NMC)->nmc_left >= rndlen) { \ (PTR) = (void*)(NMC)->nmc_ptr; \ (NMC)->nmc_left -= rndlen; \ (NMC)->nmc_ptr += rndlen; \ } else { \ (E) = nfsm_chain_get_opaque_pointer_f((NMC), (LEN), (u_char**)&(PTR)); \ } \ } while (0) /* copy the next consecutive bytes of opaque data from an mbuf chain */ #define nfsm_chain_get_opaque(E, NMC, LEN, PTR) \ do { \ uint32_t rndlen; \ if (E) break; \ rndlen = nfsm_rndup(LEN); \ if ((NMC)->nmc_left >= rndlen) { \ u_char *__tmpptr = (u_char*)(NMC)->nmc_ptr; \ (NMC)->nmc_left -= rndlen; \ (NMC)->nmc_ptr += rndlen; \ bcopy(__tmpptr, (PTR), (LEN)); \ } else { \ (E) = nfsm_chain_get_opaque_f((NMC), (LEN), (u_char*)(PTR)); \ } \ } while (0) /* get the size of and a pointer to a file handle in an mbuf chain */ #define nfsm_chain_get_fh_ptr(E, NMC, VERS, FHP, FHSIZE) \ do { \ if ((VERS) != NFS_VER2) \ nfsm_chain_get_32((E), (NMC), (FHSIZE)); \ else \ (FHSIZE) = NFSX_V2FH;\ nfsm_chain_get_opaque_pointer((E), (NMC), (FHSIZE), (FHP));\ } while (0) /* get the size of and data for a file handle in an mbuf chain */ #define nfsm_chain_get_fh(E, NMC, VERS, FHP) \ do { \ if ((VERS) != NFS_VER2) \ nfsm_chain_get_32((E), (NMC), (FHP)->fh_len); \ else \ (FHP)->fh_len = NFSX_V2FH;\ nfsm_chain_get_opaque((E), (NMC), (uint32_t)(FHP)->fh_len, (FHP)->fh_data);\ if (E) \ (FHP)->fh_len = 0;\ } while (0) /* get an NFS v2 or v3 time from an mbuf chain */ #define nfsm_chain_get_time(E, NMC, VERS, TSEC, TNSEC) \ do { \ nfsm_chain_get_32((E), (NMC), (TSEC)); \ nfsm_chain_get_32((E), (NMC), (TNSEC)); \ if ((E) || ((VERS) != NFS_VER2)) break; \ if ((uint32_t)(TNSEC) == 0xffffffff) \ (TNSEC) = 0; \ else \ (TNSEC) *= 1000; \ } while (0) /* get postop attributes from an mbuf chain */ #define nfsm_chain_postop_attr_get(E, NMC, F, VAP) \ do { \ (F) = 0; \ if ((E) || !(NMC)->nmc_mhead) break; \ nfsm_chain_get_32((E), (NMC), (F)); \ if ((E) || !(F)) break; \ if (((E) = nfs_parsefattr((NMC), NFS_VER3, (VAP)))) \ (F) = 0; \ } while (0) /* update a node's attribute cache with postop attributes from an mbuf chain */ /* (F returns whether the attributes were updated or not) */ #define nfsm_chain_postop_attr_update_flag(E, NMC, NP, F, X) \ do { \ struct nfs_vattr ttvattr; \ nfsm_chain_postop_attr_get((E), (NMC), (F), &ttvattr); \ if ((E) || !(F)) break; \ if (((E) = nfs_loadattrcache((NP), &ttvattr, (X), 1))) { \ (F) = 0; \ break; \ } \ if (*(X) == 0) \ (F) = 0; \ } while (0) /* update a node's attribute cache with postop attributes from an mbuf chain */ #define nfsm_chain_postop_attr_update(E, NMC, NP, X) \ do { \ int __dummy_flag = 0; \ nfsm_chain_postop_attr_update_flag((E), (NMC), (NP), __dummy_flag, (X)); \ } while (0) /* get and process NFSv3 WCC data from an mbuf chain */ #define nfsm_chain_get_wcc_data(E, NMC, NP, PREMTIME, NEWPOSTATTR, X) \ do { \ if (E) break; \ (E) = nfsm_chain_get_wcc_data_f((NMC), (NP), (PREMTIME), (NEWPOSTATTR), (X)); \ } while (0) /* update a node's attribute cache with attributes from an mbuf chain */ #define nfsm_chain_loadattr(E, NMC, NP, VERS, A, X) \ do { \ struct nfs_vattr ttvattr, *ttnvap; \ if (E) break; \ ttnvap = (A) ? (A) : &ttvattr; \ if ((VERS) == NFS_VER4) { \ NFS_CLEAR_ATTRIBUTES(ttnvap->nva_bitmap); \ (E) = nfs4_parsefattr((NMC), NULL, ttnvap, NULL, NULL); \ } else { \ (E) = nfs_parsefattr((NMC), (VERS), ttnvap); \ } \ if (E) break; \ (E) = nfs_loadattrcache((NP), ttnvap, (X), 0); \ } while (0) /* get NFSv4 attr bitmap */ #define nfsm_chain_get_bitmap(E, NMC, B, LEN) \ do { \ uint32_t __len, __i; \ nfsm_chain_get_32((E), (NMC), __len); \ if (E) break; \ for (__i=0; __i < MIN(__len, (LEN)); __i++) \ nfsm_chain_get_32((E), (NMC), (B)[__i]); \ if (E) break; \ for (; __i < (LEN); __i++) \ (B)[__i] = 0; \ (LEN) = __len; \ } while (0) #define nfsm_chain_skip_tag(E, NMC) \ do { \ uint32_t __val; \ nfsm_chain_get_32((E), (NMC), __val); \ nfsm_chain_adv((E), (NMC), nfsm_rndup(__val)); \ } while (0) #define nfsm_chain_op_check(E, NMC, OP) \ do { \ uint32_t __val = 0; \ nfsm_chain_get_32((E), (NMC), __val); \ nfsm_assert((E), (__val == (OP)), EBADRPC); \ nfsm_chain_get_32((E), (NMC), __val); \ nfsm_assert((E), (__val == NFS_OK), __val); \ } while (0) #define nfsm_chain_check_change_info(E, NMC, DNP) \ do { \ uint64_t __ci_before, __ci_after; \ uint32_t __ci_atomic = 0; \ nfsm_chain_get_32((E), (NMC), __ci_atomic); \ nfsm_chain_get_64((E), (NMC), __ci_before); \ nfsm_chain_get_64((E), (NMC), __ci_after); \ if (E) break; \ if (__ci_atomic && (__ci_before == (DNP)->n_ncchange)) \ (DNP)->n_ncchange = __ci_after; \ else \ cache_purge(NFSTOV(DNP)); \ } while (0) #endif /* __APPLE_API_PRIVATE */ #endif /* _NFS_NFSM_SUBS_H_ */