puffs_msgif.h revision 1.23
1 1.23 pooka /* $NetBSD: puffs_msgif.h,v 1.23 2007/04/06 17:05:34 pooka Exp $ */ 2 1.1 pooka 3 1.1 pooka /* 4 1.1 pooka * Copyright (c) 2005, 2006 Antti Kantee. All Rights Reserved. 5 1.1 pooka * 6 1.1 pooka * Development of this software was supported by the 7 1.1 pooka * Google Summer of Code program and the Ulla Tuominen Foundation. 8 1.1 pooka * The Google SoC project was mentored by Bill Studenmund. 9 1.1 pooka * 10 1.1 pooka * Redistribution and use in source and binary forms, with or without 11 1.1 pooka * modification, are permitted provided that the following conditions 12 1.1 pooka * are met: 13 1.1 pooka * 1. Redistributions of source code must retain the above copyright 14 1.1 pooka * notice, this list of conditions and the following disclaimer. 15 1.1 pooka * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 pooka * notice, this list of conditions and the following disclaimer in the 17 1.1 pooka * documentation and/or other materials provided with the distribution. 18 1.1 pooka * 3. The name of the company nor the name of the author may be used to 19 1.1 pooka * endorse or promote products derived from this software without specific 20 1.1 pooka * prior written permission. 21 1.1 pooka * 22 1.1 pooka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS 23 1.1 pooka * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 24 1.1 pooka * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 25 1.1 pooka * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 26 1.1 pooka * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 27 1.1 pooka * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 28 1.1 pooka * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 29 1.1 pooka * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 30 1.1 pooka * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 31 1.1 pooka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 32 1.1 pooka * SUCH DAMAGE. 33 1.1 pooka */ 34 1.1 pooka 35 1.1 pooka #ifndef _PUFFS_MSGIF_H_ 36 1.1 pooka #define _PUFFS_MSGIF_H_ 37 1.1 pooka 38 1.1 pooka #include <sys/param.h> 39 1.1 pooka #include <sys/time.h> 40 1.1 pooka #include <sys/ioccom.h> 41 1.1 pooka #include <sys/uio.h> 42 1.1 pooka #include <sys/vnode.h> 43 1.1 pooka #include <sys/ucred.h> 44 1.1 pooka #include <sys/statvfs.h> 45 1.1 pooka #include <sys/dirent.h> 46 1.1 pooka #include <sys/fcntl.h> 47 1.1 pooka 48 1.1 pooka #define PUFFSOP_VFS 1 49 1.1 pooka #define PUFFSOP_VN 2 50 1.20 pooka #define PUFFSOP_CACHE 3 51 1.5 pooka #define PUFFSOPFLAG_FAF 0x10 /* fire-and-forget */ 52 1.5 pooka 53 1.5 pooka #define PUFFSOP_OPCMASK 0x03 54 1.5 pooka #define PUFFSOP_OPCLASS(a) ((a) & PUFFSOP_OPCMASK) 55 1.6 pooka #define PUFFSOP_WANTREPLY(a) (((a) & PUFFSOPFLAG_FAF) == 0) 56 1.1 pooka 57 1.9 pooka /* XXX: we don't need everything */ 58 1.1 pooka enum { 59 1.1 pooka PUFFS_VFS_MOUNT, PUFFS_VFS_START, PUFFS_VFS_UNMOUNT, 60 1.1 pooka PUFFS_VFS_ROOT, PUFFS_VFS_STATVFS, PUFFS_VFS_SYNC, 61 1.1 pooka PUFFS_VFS_VGET, PUFFS_VFS_FHTOVP, PUFFS_VFS_VPTOFH, 62 1.1 pooka PUFFS_VFS_INIT, PUFFS_VFS_DONE, PUFFS_VFS_SNAPSHOT, 63 1.19 pooka PUFFS_VFS_EXTATTCTL, PUFFS_VFS_SUSPEND 64 1.1 pooka }; 65 1.1 pooka #define PUFFS_VFS_MAX PUFFS_VFS_EXTATTCTL 66 1.1 pooka 67 1.9 pooka /* moreXXX: we don't need everything here either */ 68 1.1 pooka enum { 69 1.1 pooka PUFFS_VN_LOOKUP, PUFFS_VN_CREATE, PUFFS_VN_MKNOD, 70 1.1 pooka PUFFS_VN_OPEN, PUFFS_VN_CLOSE, PUFFS_VN_ACCESS, 71 1.1 pooka PUFFS_VN_GETATTR, PUFFS_VN_SETATTR, PUFFS_VN_READ, 72 1.1 pooka PUFFS_VN_WRITE, PUFFS_VN_IOCTL, PUFFS_VN_FCNTL, 73 1.1 pooka PUFFS_VN_POLL, PUFFS_VN_KQFILTER, PUFFS_VN_REVOKE, 74 1.1 pooka PUFFS_VN_MMAP, PUFFS_VN_FSYNC, PUFFS_VN_SEEK, 75 1.1 pooka PUFFS_VN_REMOVE, PUFFS_VN_LINK, PUFFS_VN_RENAME, 76 1.1 pooka PUFFS_VN_MKDIR, PUFFS_VN_RMDIR, PUFFS_VN_SYMLINK, 77 1.1 pooka PUFFS_VN_READDIR, PUFFS_VN_READLINK, PUFFS_VN_ABORTOP, 78 1.1 pooka PUFFS_VN_INACTIVE, PUFFS_VN_RECLAIM, PUFFS_VN_LOCK, 79 1.1 pooka PUFFS_VN_UNLOCK, PUFFS_VN_BMAP, PUFFS_VN_STRATEGY, 80 1.1 pooka PUFFS_VN_PRINT, PUFFS_VN_ISLOCKED, PUFFS_VN_PATHCONF, 81 1.1 pooka PUFFS_VN_ADVLOCK, PUFFS_VN_LEASE, PUFFS_VN_WHITEOUT, 82 1.1 pooka PUFFS_VN_GETPAGES, PUFFS_VN_PUTPAGES, PUFFS_VN_GETEXTATTR, 83 1.1 pooka PUFFS_VN_LISTEXTATTR, PUFFS_VN_OPENEXTATTR, PUFFS_VN_DELETEEXTATTR, 84 1.1 pooka PUFFS_VN_SETEXTATTR 85 1.1 pooka }; 86 1.1 pooka #define PUFFS_VN_MAX PUFFS_VN_SETEXTATTR 87 1.1 pooka 88 1.14 pooka #define PUFFSDEVELVERS 0x80000000 89 1.23 pooka #define PUFFSVERSION 4 90 1.1 pooka #define PUFFSNAMESIZE 32 91 1.1 pooka struct puffs_args { 92 1.14 pooka unsigned int pa_vers; 93 1.1 pooka int pa_fd; 94 1.9 pooka uint32_t pa_flags; 95 1.1 pooka size_t pa_maxreqlen; 96 1.14 pooka char pa_name[PUFFSNAMESIZE+1]; /* name for puffs type */ 97 1.9 pooka uint8_t pa_vnopmask[PUFFS_VN_MAX]; 98 1.1 pooka }; 99 1.10 pooka #define PUFFS_KFLAG_ALLOWCTL 0x01 /* ioctl/fcntl commands allowed */ 100 1.10 pooka #define PUFFS_KFLAG_NOCACHE 0x02 /* flush page cache immediately */ 101 1.10 pooka #define PUFFS_KFLAG_ALLOPS 0x04 /* ignore pa_vnopmask, send all */ 102 1.10 pooka #define PUFFS_KFLAG_MASK 0x07 103 1.1 pooka 104 1.1 pooka /* 105 1.1 pooka * This is the device minor number for the cloning device. Make it 106 1.1 pooka * a high number "just in case", even though we don't want to open 107 1.1 pooka * any specific devices currently. 108 1.1 pooka */ 109 1.1 pooka #define PUFFS_CLONER 0x7ffff 110 1.1 pooka 111 1.11 pooka struct puffs_reqh_get { 112 1.11 pooka void *phg_buf; /* user buffer */ 113 1.11 pooka size_t phg_buflen; /* user buffer length */ 114 1.11 pooka 115 1.11 pooka int phg_nops; /* max ops user wants / number delivered */ 116 1.11 pooka int phg_more; /* advisory: more ops available? */ 117 1.11 pooka }; 118 1.11 pooka 119 1.11 pooka struct puffs_reqh_put { 120 1.11 pooka int php_nops; /* ops available / ops handled */ 121 1.11 pooka 122 1.11 pooka /* these describe the first request */ 123 1.11 pooka uint64_t php_id; /* request id */ 124 1.11 pooka void *php_buf; /* user buffer address */ 125 1.11 pooka size_t php_buflen; /* user buffer length, hdr NOT incl. */ 126 1.11 pooka }; 127 1.11 pooka 128 1.1 pooka /* 129 1.11 pooka * The requests work as follows: 130 1.11 pooka * 131 1.11 pooka * + GETOP: When fetching operations from the kernel, the user server 132 1.11 pooka * supplies a flat buffer into which operations are written. 133 1.11 pooka * The number of operations written to the buffer is 134 1.11 pooka * MIN(prhg_nops, requests waiting, space in buffer). 135 1.11 pooka * 136 1.11 pooka * Operations follow each other and each one is described 137 1.11 pooka * by the puffs_req structure, which is immediately followed 138 1.11 pooka * by the aligned request data buffer in preq_buf. The next 139 1.11 pooka * puffs_req can be found at preq + preq_buflen. 140 1.11 pooka * 141 1.11 pooka * Visually, the server should expect: 142 1.11 pooka * 143 1.11 pooka * |<-- preq_buflen -->| 144 1.11 pooka * --------------------------------------------------------------- 145 1.11 pooka * |hdr| buffer |align|hdr| buffer |hdr| .... |buffer| | 146 1.11 pooka * --------------------------------------------------------------- 147 1.11 pooka * ^ start ^ unaligned ^ aligned ^ always aligned 148 1.11 pooka * 149 1.11 pooka * The server is allowed to modify the contents of the buffers. 150 1.11 pooka * Since the headers are the same size for both get and put, it 151 1.11 pooka * is possible to handle all operations simply by doing in-place 152 1.11 pooka * modification. Where more input is expected that what was put 153 1.11 pooka * out, the kernel leaves a hole in the buffer. This hole size 154 1.11 pooka * is derived from the operational semantics known by the vnode 155 1.11 pooka * layer. The hole size is included in preq_buflen. The 156 1.11 pooka * amount of relevant information in the buffer is call-specific 157 1.11 pooka * and can be deduced by the server from the call type. 158 1.11 pooka * 159 1.11 pooka * + PUTOP: When returning the results of an operation to the kernel, the 160 1.11 pooka * user server is allowed to input results in a scatter-gather 161 1.11 pooka * fashion. Each request is made up of a header and the buffer. 162 1.11 pooka * The header describes the *NEXT* request for copyin, *NOT* the 163 1.11 pooka * current one. The first request is described in puffs_reqh_put 164 1.11 pooka * and the last one is left uninterpreted. This is to halve the 165 1.11 pooka * amount of copyin's required. 166 1.11 pooka * 167 1.11 pooka * Fans of my ascii art, rejoice: 168 1.11 pooka * /-------------------->| preq_buflen | 169 1.11 pooka * ---^---------------------------------------------------------- 170 1.11 pooka * |hdr|buffer| empty spaces |hdr| buffer | | 171 1.11 pooka * --v-----------------------^-v--------------------------------- 172 1.11 pooka * \------- preq_buf -----/ \------- preq_buf .... 173 1.11 pooka * 174 1.11 pooka * This scheme also allows for better in-place modification of the 175 1.11 pooka * request buffer when handling requests. The vision is that 176 1.11 pooka * operations which can be immediately satisfied will be edited 177 1.11 pooka * in-place while ones which can't will be left blank. Also, 178 1.11 pooka * requests from async operations which have been satisfied 179 1.11 pooka * meanwhile can be included. 180 1.11 pooka * 181 1.11 pooka * The total number of operations is given by the ioctl control 182 1.11 pooka * structure puffs_reqh. The values in the header in the final 183 1.11 pooka * are not used. 184 1.1 pooka */ 185 1.1 pooka struct puffs_req { 186 1.11 pooka uint64_t preq_id; /* get: cur, put: next */ 187 1.1 pooka 188 1.11 pooka union u { 189 1.11 pooka struct { 190 1.11 pooka uint8_t opclass; /* cur */ 191 1.11 pooka uint8_t optype; /* cur */ 192 1.11 pooka 193 1.11 pooka /* 194 1.11 pooka * preq_cookie is the node cookie associated with 195 1.11 pooka * the request. It always maps 1:1 to a vnode 196 1.11 pooka * and could map to a userspace struct puffs_node. 197 1.11 pooka * The cookie usually describes the first 198 1.11 pooka * vnode argument of the VOP_POP() in question. 199 1.11 pooka */ 200 1.11 pooka 201 1.11 pooka void *cookie; /* cur */ 202 1.11 pooka } out; 203 1.11 pooka struct { 204 1.11 pooka int rv; /* cur */ 205 1.11 pooka void *buf; /* next */ 206 1.11 pooka } in; 207 1.11 pooka } u; 208 1.1 pooka 209 1.11 pooka size_t preq_buflen; /* get: cur, put: next */ 210 1.1 pooka /* 211 1.11 pooka * the following helper pads the struct size to md alignment 212 1.11 pooka * multiple (should size_t not cut it). it makes sure that 213 1.11 pooka * whatever comes after this struct is aligned 214 1.1 pooka */ 215 1.11 pooka uint8_t preq_buf[0] __aligned(ALIGNBYTES+1); 216 1.1 pooka }; 217 1.11 pooka #define preq_opclass u.out.opclass 218 1.11 pooka #define preq_optype u.out.optype 219 1.11 pooka #define preq_cookie u.out.cookie 220 1.11 pooka #define preq_rv u.in.rv 221 1.11 pooka #define preq_nextbuf u.in.buf 222 1.1 pooka 223 1.1 pooka /* 224 1.1 pooka * Some operations have unknown size requirements. So as the first 225 1.1 pooka * stab at handling it, do an extra bounce between the kernel and 226 1.1 pooka * userspace. 227 1.1 pooka */ 228 1.1 pooka struct puffs_sizeop { 229 1.1 pooka uint64_t pso_reqid; 230 1.1 pooka 231 1.1 pooka uint8_t *pso_userbuf; 232 1.1 pooka size_t pso_bufsize; 233 1.1 pooka }; 234 1.1 pooka 235 1.1 pooka /* 236 1.16 pooka * Flush operation. This can be used to invalidate: 237 1.16 pooka * 1) name cache for one node 238 1.16 pooka * 2) name cache for all children 239 1.16 pooka * 3) name cache for the entire mount 240 1.16 pooka * 4) page cache for a set of ranges in one node 241 1.16 pooka * 5) page cache for one entire node 242 1.16 pooka * 243 1.16 pooka * It can be used to flush: 244 1.16 pooka * 1) page cache for a set of ranges in one node 245 1.16 pooka * 2) page cache for one entire node 246 1.16 pooka */ 247 1.16 pooka 248 1.20 pooka /* XXX: needs restructuring */ 249 1.16 pooka struct puffs_flush { 250 1.16 pooka void *pf_cookie; 251 1.16 pooka 252 1.16 pooka int pf_op; 253 1.20 pooka off_t pf_start; 254 1.20 pooka off_t pf_end; 255 1.16 pooka }; 256 1.16 pooka #define PUFFS_INVAL_NAMECACHE_NODE 0 257 1.16 pooka #define PUFFS_INVAL_NAMECACHE_DIR 1 258 1.16 pooka #define PUFFS_INVAL_NAMECACHE_ALL 2 259 1.16 pooka #define PUFFS_INVAL_PAGECACHE_NODE_RANGE 3 260 1.23 pooka #define PUFFS_FLUSH_PAGECACHE_NODE_RANGE 4 261 1.16 pooka 262 1.16 pooka 263 1.16 pooka /* 264 1.16 pooka * Available ioctl operations 265 1.16 pooka */ 266 1.16 pooka #define PUFFSSTARTOP _IOWR('p', 1, struct puffs_startreq) 267 1.16 pooka #define PUFFSGETOP _IOWR('p', 2, struct puffs_reqh_get) 268 1.16 pooka #define PUFFSPUTOP _IOWR('p', 3, struct puffs_reqh_put) 269 1.16 pooka #define PUFFSSIZEOP _IOWR('p', 4, struct puffs_sizeop) 270 1.16 pooka #define PUFFSFLUSHOP _IOW ('p', 5, struct puffs_flush) 271 1.17 pooka #if 0 272 1.16 pooka #define PUFFSFLUSHMULTIOP _IOW ('p', 6, struct puffs_flushmulti) 273 1.17 pooka #endif 274 1.19 pooka #define PUFFSSUSPENDOP _IO ('p', 7) 275 1.16 pooka 276 1.16 pooka 277 1.16 pooka /* 278 1.1 pooka * Credentials for an operation. Can be either struct uucred for 279 1.1 pooka * ops called from a credential context or NOCRED/FSCRED for ops 280 1.1 pooka * called from within the kernel. It is up to the implementation 281 1.1 pooka * if it makes a difference between these two and the super-user. 282 1.1 pooka */ 283 1.1 pooka struct puffs_cred { 284 1.1 pooka struct uucred pcr_uuc; 285 1.1 pooka uint8_t pcr_type; 286 1.1 pooka uint8_t pcr_internal; 287 1.1 pooka }; 288 1.1 pooka #define PUFFCRED_TYPE_UUC 1 289 1.1 pooka #define PUFFCRED_TYPE_INTERNAL 2 290 1.1 pooka #define PUFFCRED_CRED_NOCRED 1 291 1.1 pooka #define PUFFCRED_CRED_FSCRED 2 292 1.1 pooka 293 1.1 pooka /* 294 1.22 pooka * 2*MAXPHYS is the max size the system will attempt to copy, 295 1.1 pooka * else treated as garbage 296 1.1 pooka */ 297 1.22 pooka #define PUFFS_REQ_MAXSIZE 2*MAXPHYS 298 1.2 pooka #define PUFFS_REQSTRUCT_MAX 4096 /* XXX: approxkludge */ 299 1.1 pooka 300 1.1 pooka #define PUFFS_TOMOVE(a,b) (MIN((a), b->pmp_req_maxsize - PUFFS_REQSTRUCT_MAX)) 301 1.1 pooka 302 1.13 pooka /* puffs struct componentname built by kernel */ 303 1.13 pooka struct puffs_kcn { 304 1.1 pooka /* args */ 305 1.13 pooka u_long pkcn_nameiop; /* namei operation */ 306 1.13 pooka u_long pkcn_flags; /* flags */ 307 1.13 pooka pid_t pkcn_pid; /* caller pid */ 308 1.13 pooka struct puffs_cred pkcn_cred; /* caller creds */ 309 1.13 pooka 310 1.13 pooka char pkcn_name[MAXPATHLEN+1]; /* nul-terminated path component */ 311 1.13 pooka long pkcn_namelen; 312 1.1 pooka }; 313 1.1 pooka 314 1.1 pooka /* 315 1.1 pooka * XXX: figure out what to do with these, copied from namei.h for now 316 1.1 pooka */ 317 1.1 pooka #define PUFFSLOOKUP_LOOKUP 0 /* perform name lookup only */ 318 1.1 pooka #define PUFFSLOOKUP_CREATE 1 /* setup for file creation */ 319 1.1 pooka #define PUFFSLOOKUP_DELETE 2 /* setup for file deletion */ 320 1.1 pooka #define PUFFSLOOKUP_RENAME 3 /* setup for file renaming */ 321 1.1 pooka #define PUFFSLOOKUP_OPMASK 3 /* mask for operation */ 322 1.1 pooka 323 1.21 pooka #define PUFFSLOOKUP_FOLLOW 0x00004 /* follow final symlink */ 324 1.21 pooka #define PUFFSLOOKUP_NOFOLLOW 0x00008 /* don't follow final symlink */ 325 1.21 pooka #define PUFFSLOOKUP_ISLASTCN 0x08000 /* is last component of lookup */ 326 1.1 pooka 327 1.11 pooka /* 328 1.11 pooka * Next come the individual requests. They are all subclassed from 329 1.11 pooka * puffs_req and contain request-specific fields in addition. Note 330 1.11 pooka * that there are some requests which have to handle arbitrary-length 331 1.11 pooka * buffers. 332 1.11 pooka * 333 1.11 pooka * The division is the following: puffs_req is to be touched only 334 1.11 pooka * by generic routines while the other stuff is supposed to be 335 1.11 pooka * modified only by specific routines. 336 1.11 pooka */ 337 1.6 pooka 338 1.6 pooka struct puffs_startreq { 339 1.11 pooka struct puffs_req psr_pr; 340 1.11 pooka 341 1.11 pooka void *psr_cookie; /* IN: root node cookie */ 342 1.11 pooka struct statvfs psr_sb; /* IN: statvfs buffer */ 343 1.1 pooka }; 344 1.1 pooka 345 1.1 pooka /* 346 1.1 pooka * aux structures for vfs operations. 347 1.1 pooka */ 348 1.1 pooka struct puffs_vfsreq_unmount { 349 1.11 pooka struct puffs_req pvfsr_pr; 350 1.11 pooka 351 1.1 pooka int pvfsr_flags; 352 1.1 pooka pid_t pvfsr_pid; 353 1.1 pooka }; 354 1.1 pooka 355 1.1 pooka struct puffs_vfsreq_statvfs { 356 1.11 pooka struct puffs_req pvfsr_pr; 357 1.11 pooka 358 1.1 pooka struct statvfs pvfsr_sb; 359 1.1 pooka pid_t pvfsr_pid; 360 1.1 pooka }; 361 1.1 pooka 362 1.1 pooka struct puffs_vfsreq_sync { 363 1.11 pooka struct puffs_req pvfsr_pr; 364 1.11 pooka 365 1.1 pooka struct puffs_cred pvfsr_cred; 366 1.1 pooka pid_t pvfsr_pid; 367 1.1 pooka int pvfsr_waitfor; 368 1.1 pooka }; 369 1.1 pooka 370 1.19 pooka struct puffs_vfsreq_suspend { 371 1.19 pooka struct puffs_req pvfsr_pr; 372 1.19 pooka 373 1.19 pooka int pvfsr_status; 374 1.19 pooka }; 375 1.19 pooka #define PUFFS_SUSPEND_START 0 376 1.19 pooka #define PUFFS_SUSPEND_SUSPENDED 1 377 1.19 pooka #define PUFFS_SUSPEND_RESUME 2 378 1.19 pooka #define PUFFS_SUSPEND_ERROR 3 379 1.19 pooka 380 1.1 pooka /* 381 1.1 pooka * aux structures for vnode operations. 382 1.1 pooka */ 383 1.1 pooka 384 1.1 pooka struct puffs_vnreq_lookup { 385 1.11 pooka struct puffs_req pvn_pr; 386 1.11 pooka 387 1.13 pooka struct puffs_kcn pvnr_cn; /* OUT */ 388 1.1 pooka void *pvnr_newnode; /* IN */ 389 1.1 pooka enum vtype pvnr_vtype; /* IN */ 390 1.5 pooka voff_t pvnr_size; /* IN */ 391 1.4 pooka dev_t pvnr_rdev; /* IN */ 392 1.1 pooka }; 393 1.1 pooka 394 1.1 pooka struct puffs_vnreq_create { 395 1.11 pooka struct puffs_req pvn_pr; 396 1.11 pooka 397 1.13 pooka struct puffs_kcn pvnr_cn; /* OUT */ 398 1.1 pooka struct vattr pvnr_va; /* OUT */ 399 1.1 pooka void *pvnr_newnode; /* IN */ 400 1.1 pooka }; 401 1.1 pooka 402 1.1 pooka struct puffs_vnreq_mknod { 403 1.11 pooka struct puffs_req pvn_pr; 404 1.11 pooka 405 1.13 pooka struct puffs_kcn pvnr_cn; /* OUT */ 406 1.1 pooka struct vattr pvnr_va; /* OUT */ 407 1.1 pooka void *pvnr_newnode; /* IN */ 408 1.1 pooka }; 409 1.1 pooka 410 1.1 pooka struct puffs_vnreq_open { 411 1.11 pooka struct puffs_req pvn_pr; 412 1.11 pooka 413 1.1 pooka struct puffs_cred pvnr_cred; /* OUT */ 414 1.1 pooka pid_t pvnr_pid; /* OUT */ 415 1.1 pooka int pvnr_mode; /* OUT */ 416 1.1 pooka }; 417 1.1 pooka 418 1.1 pooka struct puffs_vnreq_close { 419 1.11 pooka struct puffs_req pvn_pr; 420 1.11 pooka 421 1.1 pooka struct puffs_cred pvnr_cred; /* OUT */ 422 1.1 pooka pid_t pvnr_pid; /* OUT */ 423 1.1 pooka int pvnr_fflag; /* OUT */ 424 1.1 pooka }; 425 1.1 pooka 426 1.1 pooka struct puffs_vnreq_access { 427 1.11 pooka struct puffs_req pvn_pr; 428 1.11 pooka 429 1.1 pooka struct puffs_cred pvnr_cred; /* OUT */ 430 1.1 pooka pid_t pvnr_pid; /* OUT */ 431 1.1 pooka int pvnr_mode; /* OUT */ 432 1.1 pooka }; 433 1.1 pooka 434 1.1 pooka #define puffs_vnreq_setattr puffs_vnreq_setgetattr 435 1.1 pooka #define puffs_vnreq_getattr puffs_vnreq_setgetattr 436 1.1 pooka struct puffs_vnreq_setgetattr { 437 1.11 pooka struct puffs_req pvn_pr; 438 1.11 pooka 439 1.1 pooka struct puffs_cred pvnr_cred; /* OUT */ 440 1.1 pooka struct vattr pvnr_va; /* IN/OUT (op depend) */ 441 1.1 pooka pid_t pvnr_pid; /* OUT */ 442 1.1 pooka }; 443 1.1 pooka 444 1.1 pooka #define puffs_vnreq_read puffs_vnreq_readwrite 445 1.1 pooka #define puffs_vnreq_write puffs_vnreq_readwrite 446 1.1 pooka struct puffs_vnreq_readwrite { 447 1.11 pooka struct puffs_req pvn_pr; 448 1.11 pooka 449 1.1 pooka struct puffs_cred pvnr_cred; /* OUT */ 450 1.1 pooka off_t pvnr_offset; /* OUT */ 451 1.1 pooka size_t pvnr_resid; /* IN/OUT */ 452 1.1 pooka int pvnr_ioflag; /* OUT */ 453 1.1 pooka 454 1.1 pooka uint8_t pvnr_data[0]; /* IN/OUT (wr/rd) */ 455 1.1 pooka }; 456 1.1 pooka 457 1.1 pooka #define puffs_vnreq_ioctl puffs_vnreq_fcnioctl 458 1.1 pooka #define puffs_vnreq_fcntl puffs_vnreq_fcnioctl 459 1.1 pooka struct puffs_vnreq_fcnioctl { 460 1.11 pooka struct puffs_req pvn_pr; 461 1.11 pooka 462 1.1 pooka struct puffs_cred pvnr_cred; 463 1.1 pooka u_long pvnr_command; 464 1.1 pooka pid_t pvnr_pid; 465 1.1 pooka int pvnr_fflag; 466 1.1 pooka 467 1.1 pooka void *pvnr_data; 468 1.1 pooka size_t pvnr_datalen; 469 1.1 pooka int pvnr_copyback; 470 1.1 pooka }; 471 1.1 pooka 472 1.1 pooka struct puffs_vnreq_poll { 473 1.11 pooka struct puffs_req pvn_pr; 474 1.11 pooka 475 1.1 pooka int pvnr_events; /* OUT */ 476 1.1 pooka pid_t pvnr_pid; /* OUT */ 477 1.1 pooka }; 478 1.1 pooka 479 1.1 pooka struct puffs_vnreq_fsync { 480 1.11 pooka struct puffs_req pvn_pr; 481 1.11 pooka 482 1.1 pooka struct puffs_cred pvnr_cred; /* OUT */ 483 1.1 pooka off_t pvnr_offlo; /* OUT */ 484 1.1 pooka off_t pvnr_offhi; /* OUT */ 485 1.1 pooka pid_t pvnr_pid; /* OUT */ 486 1.1 pooka int pvnr_flags; /* OUT */ 487 1.1 pooka }; 488 1.1 pooka 489 1.1 pooka struct puffs_vnreq_seek { 490 1.11 pooka struct puffs_req pvn_pr; 491 1.11 pooka 492 1.1 pooka struct puffs_cred pvnr_cred; /* OUT */ 493 1.1 pooka off_t pvnr_oldoff; /* OUT */ 494 1.1 pooka off_t pvnr_newoff; /* OUT */ 495 1.1 pooka }; 496 1.1 pooka 497 1.1 pooka struct puffs_vnreq_remove { 498 1.11 pooka struct puffs_req pvn_pr; 499 1.11 pooka 500 1.13 pooka struct puffs_kcn pvnr_cn; /* OUT */ 501 1.1 pooka void *pvnr_cookie_targ; /* OUT */ 502 1.1 pooka }; 503 1.1 pooka 504 1.1 pooka struct puffs_vnreq_mkdir { 505 1.11 pooka struct puffs_req pvn_pr; 506 1.11 pooka 507 1.13 pooka struct puffs_kcn pvnr_cn; /* OUT */ 508 1.1 pooka struct vattr pvnr_va; /* OUT */ 509 1.1 pooka void *pvnr_newnode; /* IN */ 510 1.1 pooka }; 511 1.1 pooka 512 1.1 pooka struct puffs_vnreq_rmdir { 513 1.11 pooka struct puffs_req pvn_pr; 514 1.11 pooka 515 1.13 pooka struct puffs_kcn pvnr_cn; /* OUT */ 516 1.1 pooka void *pvnr_cookie_targ; /* OUT */ 517 1.1 pooka }; 518 1.1 pooka 519 1.1 pooka struct puffs_vnreq_link { 520 1.11 pooka struct puffs_req pvn_pr; 521 1.11 pooka 522 1.13 pooka struct puffs_kcn pvnr_cn; /* OUT */ 523 1.1 pooka void *pvnr_cookie_targ; /* OUT */ 524 1.1 pooka }; 525 1.1 pooka 526 1.1 pooka struct puffs_vnreq_rename { 527 1.11 pooka struct puffs_req pvn_pr; 528 1.11 pooka 529 1.13 pooka struct puffs_kcn pvnr_cn_src; /* OUT */ 530 1.13 pooka struct puffs_kcn pvnr_cn_targ; /* OUT */ 531 1.1 pooka void *pvnr_cookie_src; /* OUT */ 532 1.1 pooka void *pvnr_cookie_targ; /* OUT */ 533 1.1 pooka void *pvnr_cookie_targdir; /* OUT */ 534 1.1 pooka }; 535 1.1 pooka 536 1.1 pooka struct puffs_vnreq_symlink { 537 1.11 pooka struct puffs_req pvn_pr; 538 1.11 pooka 539 1.13 pooka struct puffs_kcn pvnr_cn; /* OUT */ 540 1.1 pooka struct vattr pvnr_va; /* OUT */ 541 1.1 pooka void *pvnr_newnode; /* IN */ 542 1.1 pooka char pvnr_link[MAXPATHLEN]; /* OUT */ 543 1.1 pooka }; 544 1.1 pooka 545 1.1 pooka struct puffs_vnreq_readdir { 546 1.11 pooka struct puffs_req pvn_pr; 547 1.11 pooka 548 1.1 pooka struct puffs_cred pvnr_cred; /* OUT */ 549 1.1 pooka off_t pvnr_offset; /* IN/OUT */ 550 1.1 pooka size_t pvnr_resid; /* IN/OUT */ 551 1.1 pooka 552 1.1 pooka struct dirent pvnr_dent[0]; /* IN */ 553 1.1 pooka }; 554 1.1 pooka 555 1.1 pooka struct puffs_vnreq_readlink { 556 1.11 pooka struct puffs_req pvn_pr; 557 1.11 pooka 558 1.1 pooka struct puffs_cred pvnr_cred; /* OUT */ 559 1.1 pooka size_t pvnr_linklen; /* IN */ 560 1.1 pooka char pvnr_link[MAXPATHLEN]; /* IN, XXX */ 561 1.1 pooka }; 562 1.1 pooka 563 1.1 pooka struct puffs_vnreq_reclaim { 564 1.11 pooka struct puffs_req pvn_pr; 565 1.11 pooka 566 1.1 pooka pid_t pvnr_pid; /* OUT */ 567 1.1 pooka }; 568 1.1 pooka 569 1.3 pooka struct puffs_vnreq_inactive { 570 1.11 pooka struct puffs_req pvn_pr; 571 1.11 pooka 572 1.3 pooka pid_t pvnr_pid; /* OUT */ 573 1.3 pooka int pvnr_backendrefs; /* IN */ 574 1.3 pooka }; 575 1.3 pooka 576 1.1 pooka struct puffs_vnreq_print { 577 1.11 pooka struct puffs_req pvn_pr; 578 1.11 pooka 579 1.1 pooka /* empty */ 580 1.1 pooka }; 581 1.1 pooka 582 1.1 pooka struct puffs_vnreq_pathconf { 583 1.11 pooka struct puffs_req pvn_pr; 584 1.11 pooka 585 1.1 pooka int pvnr_name; /* OUT */ 586 1.1 pooka int pvnr_retval; /* IN */ 587 1.1 pooka }; 588 1.1 pooka 589 1.1 pooka struct puffs_vnreq_advlock { 590 1.11 pooka struct puffs_req pvn_pr; 591 1.11 pooka 592 1.1 pooka struct flock pvnr_fl; /* OUT */ 593 1.1 pooka void *pvnr_id; /* OUT */ 594 1.1 pooka int pvnr_op; /* OUT */ 595 1.1 pooka int pvnr_flags; /* OUT */ 596 1.1 pooka }; 597 1.1 pooka 598 1.12 pooka struct puffs_vnreq_mmap { 599 1.12 pooka struct puffs_req pvn_pr; 600 1.12 pooka 601 1.12 pooka int pvnr_fflags; /* OUT */ 602 1.12 pooka struct puffs_cred pvnr_cred; /* OUT */ 603 1.12 pooka pid_t pvnr_pid; /* OUT */ 604 1.12 pooka }; 605 1.12 pooka 606 1.20 pooka 607 1.20 pooka /* 608 1.20 pooka * For cache reports. Everything is always out-out-out, no replies 609 1.20 pooka */ 610 1.20 pooka 611 1.20 pooka struct puffs_cacherun { 612 1.20 pooka off_t pcache_runstart; 613 1.20 pooka off_t pcache_runend; 614 1.20 pooka }; 615 1.20 pooka 616 1.20 pooka /* cache info. old used for write now */ 617 1.20 pooka struct puffs_cacheinfo { 618 1.20 pooka struct puffs_req pcache_pr; 619 1.20 pooka 620 1.20 pooka int pcache_type; 621 1.20 pooka size_t pcache_nruns; 622 1.20 pooka struct puffs_cacherun pcache_runs[0]; 623 1.20 pooka }; 624 1.20 pooka #define PCACHE_TYPE_READ 0 625 1.20 pooka #define PCACHE_TYPE_WRITE 1 626 1.20 pooka 627 1.1 pooka /* notyet */ 628 1.1 pooka #if 0 629 1.1 pooka struct puffs_vnreq_kqfilter { }; 630 1.1 pooka struct puffs_vnreq_islocked { }; 631 1.1 pooka #endif 632 1.1 pooka struct puffs_vnreq_getextattr { }; 633 1.1 pooka struct puffs_vnreq_setextattr { }; 634 1.1 pooka struct puffs_vnreq_listextattr { }; 635 1.1 pooka 636 1.1 pooka #ifdef _KERNEL 637 1.1 pooka #define PUFFS_VFSREQ(a) \ 638 1.1 pooka struct puffs_vfsreq_##a a##_arg; \ 639 1.1 pooka memset(&a##_arg, 0, sizeof(struct puffs_vfsreq_##a)) 640 1.1 pooka 641 1.1 pooka #define PUFFS_VNREQ(a) \ 642 1.1 pooka struct puffs_vnreq_##a a##_arg; \ 643 1.1 pooka memset(&a##_arg, 0, sizeof(struct puffs_vnreq_##a)) 644 1.1 pooka #endif 645 1.1 pooka 646 1.1 pooka #endif /* _PUFFS_MSGIF_H_ */ 647
Indexes created Mon Sep 29 13:09:55 GMT 2025