1/*- 2 * Copyright (c) 2009 Rick Macklem, University of Guelph 3 * All rights reserved. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions 7 * are met: 8 * 1. Redistributions of source code must retain the above copyright 9 * notice, this list of conditions and the following disclaimer. 10 * 2. Redistributions in binary form must reproduce the above copyright 11 * notice, this list of conditions and the following disclaimer in the 12 * documentation and/or other materials provided with the distribution. 13 * 14 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 15 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 16 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 17 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 18 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 20 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 21 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 22 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24 * SUCH DAMAGE. 25 * 26 * $FreeBSD: releng/11.0/sys/fs/nfs/nfsclstate.h 268115 2014-07-01 20:47:16Z rmacklem $ 27 */ 28 29#ifndef _NFS_NFSCLSTATE_H_ 30#define _NFS_NFSCLSTATE_H_ 31 32/* 33 * Definitions for NFS V4 client state handling. 34 */ 35LIST_HEAD(nfsclopenhead, nfsclopen); 36LIST_HEAD(nfscllockownerhead, nfscllockowner); 37SLIST_HEAD(nfscllockownerfhhead, nfscllockownerfh); 38LIST_HEAD(nfscllockhead, nfscllock); 39LIST_HEAD(nfsclhead, nfsclclient); 40LIST_HEAD(nfsclownerhead, nfsclowner); 41TAILQ_HEAD(nfscldeleghead, nfscldeleg); 42LIST_HEAD(nfscldeleghash, nfscldeleg); 43TAILQ_HEAD(nfscllayouthead, nfscllayout); 44LIST_HEAD(nfscllayouthash, nfscllayout); 45LIST_HEAD(nfsclflayouthead, nfsclflayout); 46LIST_HEAD(nfscldevinfohead, nfscldevinfo); 47LIST_HEAD(nfsclrecalllayouthead, nfsclrecalllayout); 48#define NFSCLDELEGHASHSIZE 256 49#define NFSCLDELEGHASH(c, f, l) \ 50 (&((c)->nfsc_deleghash[ncl_hash((f), (l)) % NFSCLDELEGHASHSIZE])) 51#define NFSCLLAYOUTHASHSIZE 256 52#define NFSCLLAYOUTHASH(c, f, l) \ 53 (&((c)->nfsc_layouthash[ncl_hash((f), (l)) % NFSCLLAYOUTHASHSIZE])) 54 55/* Structure for NFSv4.1 session stuff. */ 56struct nfsclsession { 57 struct mtx nfsess_mtx; 58 struct nfsslot nfsess_cbslots[NFSV4_CBSLOTS]; 59 nfsquad_t nfsess_clientid; 60 SVCXPRT *nfsess_xprt; /* For backchannel callback */ 61 uint32_t nfsess_slotseq[64]; /* Max for 64bit nm_slots */ 62 uint64_t nfsess_slots; 63 uint32_t nfsess_sequenceid; 64 uint32_t nfsess_maxcache; /* Max size for cached reply. */ 65 uint16_t nfsess_foreslots; 66 uint16_t nfsess_backslots; 67 uint8_t nfsess_sessionid[NFSX_V4SESSIONID]; 68}; 69 70/* 71 * This structure holds the session, clientid and related information 72 * needed for an NFSv4.1 Meta Data Server (MDS) or Data Server (DS). 73 * It is malloc'd to the correct length. 74 */ 75struct nfsclds { 76 TAILQ_ENTRY(nfsclds) nfsclds_list; 77 struct nfsclsession nfsclds_sess; 78 struct mtx nfsclds_mtx; 79 struct nfssockreq *nfsclds_sockp; 80 time_t nfsclds_expire; 81 uint16_t nfsclds_flags; 82 uint16_t nfsclds_servownlen; 83 uint8_t nfsclds_verf[NFSX_VERF]; 84 uint8_t nfsclds_serverown[0]; 85}; 86 87/* 88 * Flags for nfsclds_flags. 89 */ 90#define NFSCLDS_HASWRITEVERF 0x0001 91#define NFSCLDS_MDS 0x0002 92#define NFSCLDS_DS 0x0004 93 94struct nfsclclient { 95 LIST_ENTRY(nfsclclient) nfsc_list; 96 struct nfsclownerhead nfsc_owner; 97 struct nfscldeleghead nfsc_deleg; 98 struct nfscldeleghash nfsc_deleghash[NFSCLDELEGHASHSIZE]; 99 struct nfscllayouthead nfsc_layout; 100 struct nfscllayouthash nfsc_layouthash[NFSCLLAYOUTHASHSIZE]; 101 struct nfscldevinfohead nfsc_devinfo; 102 struct nfsv4lock nfsc_lock; 103 struct proc *nfsc_renewthread; 104 struct nfsmount *nfsc_nmp; 105 time_t nfsc_expire; 106 u_int32_t nfsc_clientidrev; 107 u_int32_t nfsc_rev; 108 u_int32_t nfsc_renew; 109 u_int32_t nfsc_cbident; 110 u_int16_t nfsc_flags; 111 u_int16_t nfsc_idlen; 112 u_int8_t nfsc_id[1]; /* Malloc'd to correct length */ 113}; 114 115/* 116 * Bits for nfsc_flags. 117 */ 118#define NFSCLFLAGS_INITED 0x0001 119#define NFSCLFLAGS_HASCLIENTID 0x0002 120#define NFSCLFLAGS_RECOVER 0x0004 121#define NFSCLFLAGS_UMOUNT 0x0008 122#define NFSCLFLAGS_HASTHREAD 0x0010 123#define NFSCLFLAGS_AFINET6 0x0020 124#define NFSCLFLAGS_EXPIREIT 0x0040 125#define NFSCLFLAGS_FIRSTDELEG 0x0080 126#define NFSCLFLAGS_GOTDELEG 0x0100 127#define NFSCLFLAGS_RECVRINPROG 0x0200 128 129struct nfsclowner { 130 LIST_ENTRY(nfsclowner) nfsow_list; 131 struct nfsclopenhead nfsow_open; 132 struct nfsclclient *nfsow_clp; 133 u_int32_t nfsow_seqid; 134 u_int32_t nfsow_defunct; 135 struct nfsv4lock nfsow_rwlock; 136 u_int8_t nfsow_owner[NFSV4CL_LOCKNAMELEN]; 137}; 138 139/* 140 * MALLOC'd to the correct length to accommodate the file handle. 141 */ 142struct nfscldeleg { 143 TAILQ_ENTRY(nfscldeleg) nfsdl_list; 144 LIST_ENTRY(nfscldeleg) nfsdl_hash; 145 struct nfsclownerhead nfsdl_owner; /* locally issued state */ 146 struct nfscllockownerhead nfsdl_lock; 147 nfsv4stateid_t nfsdl_stateid; 148 struct acl_entry nfsdl_ace; /* Delegation ace */ 149 struct nfsclclient *nfsdl_clp; 150 struct nfsv4lock nfsdl_rwlock; /* for active I/O ops */ 151 struct nfscred nfsdl_cred; /* Cred. used for Open */ 152 time_t nfsdl_timestamp; /* used for stale cleanup */ 153 u_int64_t nfsdl_sizelimit; /* Limit for file growth */ 154 u_int64_t nfsdl_size; /* saved copy of file size */ 155 u_int64_t nfsdl_change; /* and change attribute */ 156 struct timespec nfsdl_modtime; /* local modify time */ 157 u_int16_t nfsdl_fhlen; 158 u_int8_t nfsdl_flags; 159 u_int8_t nfsdl_fh[1]; /* must be last */ 160}; 161 162/* 163 * nfsdl_flags bits. 164 */ 165#define NFSCLDL_READ 0x01 166#define NFSCLDL_WRITE 0x02 167#define NFSCLDL_RECALL 0x04 168#define NFSCLDL_NEEDRECLAIM 0x08 169#define NFSCLDL_ZAPPED 0x10 170#define NFSCLDL_MODTIMESET 0x20 171#define NFSCLDL_DELEGRET 0x40 172 173/* 174 * MALLOC'd to the correct length to accommodate the file handle. 175 */ 176struct nfsclopen { 177 LIST_ENTRY(nfsclopen) nfso_list; 178 struct nfscllockownerhead nfso_lock; 179 nfsv4stateid_t nfso_stateid; 180 struct nfsclowner *nfso_own; 181 struct nfscred nfso_cred; /* Cred. used for Open */ 182 u_int32_t nfso_mode; 183 u_int32_t nfso_opencnt; 184 u_int16_t nfso_fhlen; 185 u_int8_t nfso_posixlock; /* 1 for POSIX type locking */ 186 u_int8_t nfso_fh[1]; /* must be last */ 187}; 188 189/* 190 * Return values for nfscl_open(). NFSCLOPEN_OK must == 0. 191 */ 192#define NFSCLOPEN_OK 0 193#define NFSCLOPEN_DOOPEN 1 194#define NFSCLOPEN_DOOPENDOWNGRADE 2 195#define NFSCLOPEN_SETCRED 3 196 197struct nfscllockowner { 198 LIST_ENTRY(nfscllockowner) nfsl_list; 199 struct nfscllockhead nfsl_lock; 200 struct nfsclopen *nfsl_open; 201 NFSPROC_T *nfsl_inprog; 202 nfsv4stateid_t nfsl_stateid; 203 int nfsl_lockflags; 204 u_int32_t nfsl_seqid; 205 struct nfsv4lock nfsl_rwlock; 206 u_int8_t nfsl_owner[NFSV4CL_LOCKNAMELEN]; 207 u_int8_t nfsl_openowner[NFSV4CL_LOCKNAMELEN]; 208}; 209 210/* 211 * Byte range entry for the above lock owner. 212 */ 213struct nfscllock { 214 LIST_ENTRY(nfscllock) nfslo_list; 215 u_int64_t nfslo_first; 216 u_int64_t nfslo_end; 217 short nfslo_type; 218}; 219 220/* This structure is used to collect a list of lockowners to free up. */ 221struct nfscllockownerfh { 222 SLIST_ENTRY(nfscllockownerfh) nfslfh_list; 223 struct nfscllockownerhead nfslfh_lock; 224 int nfslfh_len; 225 uint8_t nfslfh_fh[NFSX_V4FHMAX]; 226}; 227 228/* 229 * MALLOC'd to the correct length to accommodate the file handle. 230 */ 231struct nfscllayout { 232 TAILQ_ENTRY(nfscllayout) nfsly_list; 233 LIST_ENTRY(nfscllayout) nfsly_hash; 234 nfsv4stateid_t nfsly_stateid; 235 struct nfsv4lock nfsly_lock; 236 uint64_t nfsly_filesid[2]; 237 uint64_t nfsly_lastbyte; 238 struct nfsclflayouthead nfsly_flayread; 239 struct nfsclflayouthead nfsly_flayrw; 240 struct nfsclrecalllayouthead nfsly_recall; 241 time_t nfsly_timestamp; 242 struct nfsclclient *nfsly_clp; 243 uint16_t nfsly_flags; 244 uint16_t nfsly_fhlen; 245 uint8_t nfsly_fh[1]; 246}; 247 248/* 249 * Flags for nfsly_flags. 250 */ 251#define NFSLY_FILES 0x0001 252#define NFSLY_BLOCK 0x0002 253#define NFSLY_OBJECT 0x0004 254#define NFSLY_RECALL 0x0008 255#define NFSLY_RECALLFILE 0x0010 256#define NFSLY_RECALLFSID 0x0020 257#define NFSLY_RECALLALL 0x0040 258#define NFSLY_RETONCLOSE 0x0080 259#define NFSLY_WRITTEN 0x0100 /* Has been used to write to a DS. */ 260 261/* 262 * MALLOC'd to the correct length to accommodate the file handle list. 263 * These hang off of nfsly_flayread and nfsly_flayrw, sorted in increasing 264 * offset order. 265 * The nfsly_flayread list holds the ones with iomode == NFSLAYOUTIOMODE_READ, 266 * whereas the nfsly_flayrw holds the ones with iomode == NFSLAYOUTIOMODE_RW. 267 */ 268struct nfsclflayout { 269 LIST_ENTRY(nfsclflayout) nfsfl_list; 270 uint8_t nfsfl_dev[NFSX_V4DEVICEID]; 271 uint64_t nfsfl_off; 272 uint64_t nfsfl_end; 273 uint64_t nfsfl_patoff; 274 struct nfscldevinfo *nfsfl_devp; 275 uint32_t nfsfl_iomode; 276 uint32_t nfsfl_util; 277 uint32_t nfsfl_stripe1; 278 uint16_t nfsfl_flags; 279 uint16_t nfsfl_fhcnt; 280 struct nfsfh *nfsfl_fh[1]; /* FH list for DS */ 281}; 282 283/* 284 * Flags for nfsfl_flags. 285 */ 286#define NFSFL_RECALL 0x0001 /* File layout has been recalled */ 287 288/* 289 * Structure that is used to store a LAYOUTRECALL. 290 */ 291struct nfsclrecalllayout { 292 LIST_ENTRY(nfsclrecalllayout) nfsrecly_list; 293 uint64_t nfsrecly_off; 294 uint64_t nfsrecly_len; 295 int nfsrecly_recalltype; 296 uint32_t nfsrecly_iomode; 297 uint32_t nfsrecly_stateseqid; 298}; 299 300/* 301 * Stores the NFSv4.1 Device Info. Malloc'd to the correct length to 302 * store the list of network connections and list of indices. 303 * nfsdi_data[] is allocated the following way: 304 * - nfsdi_addrcnt * struct nfsclds 305 * - stripe indices, each stored as one byte, since there can be many 306 * of them. (This implies a limit of 256 on nfsdi_addrcnt, since the 307 * indices select which address.) 308 */ 309struct nfscldevinfo { 310 LIST_ENTRY(nfscldevinfo) nfsdi_list; 311 uint8_t nfsdi_deviceid[NFSX_V4DEVICEID]; 312 struct nfsclclient *nfsdi_clp; 313 uint32_t nfsdi_refcnt; 314 uint32_t nfsdi_layoutrefs; 315 uint16_t nfsdi_stripecnt; 316 uint16_t nfsdi_addrcnt; 317 struct nfsclds *nfsdi_data[0]; 318}; 319 320/* These inline functions return values from nfsdi_data[]. */ 321/* 322 * Return a pointer to the address at "pos". 323 */ 324static __inline struct nfsclds ** 325nfsfldi_addr(struct nfscldevinfo *ndi, int pos) 326{ 327 328 if (pos >= ndi->nfsdi_addrcnt) 329 return (NULL); 330 return (&ndi->nfsdi_data[pos]); 331} 332 333/* 334 * Return the Nth ("pos") stripe index. 335 */ 336static __inline int 337nfsfldi_stripeindex(struct nfscldevinfo *ndi, int pos) 338{ 339 uint8_t *valp; 340 341 if (pos >= ndi->nfsdi_stripecnt) 342 return (-1); 343 valp = (uint8_t *)&ndi->nfsdi_data[ndi->nfsdi_addrcnt]; 344 valp += pos; 345 return ((int)*valp); 346} 347 348/* 349 * Set the Nth ("pos") stripe index to "val". 350 */ 351static __inline void 352nfsfldi_setstripeindex(struct nfscldevinfo *ndi, int pos, uint8_t val) 353{ 354 uint8_t *valp; 355 356 if (pos >= ndi->nfsdi_stripecnt) 357 return; 358 valp = (uint8_t *)&ndi->nfsdi_data[ndi->nfsdi_addrcnt]; 359 valp += pos; 360 *valp = val; 361} 362 363/* 364 * Macro for incrementing the seqid#. 365 */ 366#define NFSCL_INCRSEQID(s, n) do { \ 367 if (((n)->nd_flag & ND_INCRSEQID)) \ 368 (s)++; \ 369 } while (0) 370 371#endif /* _NFS_NFSCLSTATE_H_ */ 372