linux_ipc.c revision 1.6
1 1.6 fvdl /* $NetBSD: linux_ipc.c,v 1.6 1995/08/15 21:14:32 fvdl Exp $ */ 2 1.1 fvdl 3 1.1 fvdl /* 4 1.1 fvdl * Copyright (c) 1995 Frank van der Linden 5 1.1 fvdl * All rights reserved. 6 1.1 fvdl * 7 1.1 fvdl * Redistribution and use in source and binary forms, with or without 8 1.1 fvdl * modification, are permitted provided that the following conditions 9 1.1 fvdl * are met: 10 1.1 fvdl * 1. Redistributions of source code must retain the above copyright 11 1.1 fvdl * notice, this list of conditions and the following disclaimer. 12 1.1 fvdl * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 fvdl * notice, this list of conditions and the following disclaimer in the 14 1.1 fvdl * documentation and/or other materials provided with the distribution. 15 1.1 fvdl * 3. All advertising materials mentioning features or use of this software 16 1.1 fvdl * must display the following acknowledgement: 17 1.1 fvdl * This product includes software developed for the NetBSD Project 18 1.1 fvdl * by Frank van der Linden 19 1.1 fvdl * 4. The name of the author may not be used to endorse or promote products 20 1.1 fvdl * derived from this software without specific prior written permission 21 1.1 fvdl * 22 1.1 fvdl * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 23 1.1 fvdl * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 24 1.1 fvdl * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 25 1.1 fvdl * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 26 1.1 fvdl * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 27 1.1 fvdl * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 28 1.1 fvdl * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 29 1.1 fvdl * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 30 1.1 fvdl * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 31 1.1 fvdl * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 32 1.1 fvdl */ 33 1.1 fvdl 34 1.1 fvdl #include <sys/types.h> 35 1.1 fvdl #include <sys/param.h> 36 1.1 fvdl #include <sys/kernel.h> 37 1.1 fvdl #include <sys/shm.h> 38 1.6 fvdl #include <sys/sem.h> 39 1.1 fvdl #include <sys/msg.h> 40 1.1 fvdl #include <sys/proc.h> 41 1.1 fvdl #include <sys/uio.h> 42 1.1 fvdl #include <sys/time.h> 43 1.1 fvdl #include <sys/malloc.h> 44 1.1 fvdl #include <sys/mman.h> 45 1.1 fvdl #include <sys/systm.h> 46 1.1 fvdl #include <sys/stat.h> 47 1.1 fvdl 48 1.1 fvdl #include <sys/mount.h> 49 1.1 fvdl #include <sys/syscallargs.h> 50 1.1 fvdl 51 1.1 fvdl #include <compat/linux/linux_types.h> 52 1.5 mycroft #include <compat/linux/linux_signal.h> 53 1.1 fvdl #include <compat/linux/linux_syscallargs.h> 54 1.1 fvdl #include <compat/linux/linux_util.h> 55 1.1 fvdl #include <compat/linux/linux_ipc.h> 56 1.1 fvdl #include <compat/linux/linux_msg.h> 57 1.1 fvdl #include <compat/linux/linux_shm.h> 58 1.6 fvdl #include <compat/linux/linux_sem.h> 59 1.1 fvdl #include <compat/linux/linux_ipccall.h> 60 1.1 fvdl 61 1.1 fvdl /* 62 1.1 fvdl * Stuff to deal with the SysV ipc/shm/semaphore interface in Linux. 63 1.1 fvdl * The main difference is, that Linux handles it all via one 64 1.1 fvdl * system call, which has the usual maximum amount of 5 arguments. 65 1.1 fvdl * This results in a kludge for calls that take 6 of them. 66 1.1 fvdl * 67 1.1 fvdl * The SYSVXXXX options have to be enabled to get the appropriate 68 1.1 fvdl * functions to work. 69 1.1 fvdl */ 70 1.1 fvdl 71 1.1 fvdl #ifdef SYSVSEM 72 1.1 fvdl static int linux_semop __P((struct proc *, struct linux_ipc_args *, 73 1.1 fvdl register_t *)); 74 1.1 fvdl static int linux_semget __P((struct proc *, struct linux_ipc_args *, 75 1.1 fvdl register_t *)); 76 1.1 fvdl static int linux_semctl __P((struct proc *, struct linux_ipc_args *, 77 1.1 fvdl register_t *)); 78 1.1 fvdl #endif 79 1.1 fvdl 80 1.1 fvdl #ifdef SYSVMSG 81 1.1 fvdl static int linux_msgsnd __P((struct proc *, struct linux_ipc_args *, 82 1.1 fvdl register_t *)); 83 1.1 fvdl static int linux_msgrcv __P((struct proc *, struct linux_ipc_args *, 84 1.1 fvdl register_t *)); 85 1.1 fvdl static int linux_msgop __P((struct proc *, struct linux_ipc_args *, 86 1.1 fvdl register_t *)); 87 1.1 fvdl static int linux_msgctl __P((struct proc *, struct linux_ipc_args *, 88 1.1 fvdl register_t *)); 89 1.1 fvdl #endif 90 1.1 fvdl 91 1.1 fvdl #ifdef SYSVSHM 92 1.1 fvdl static int linux_shmat __P((struct proc *, struct linux_ipc_args *, 93 1.1 fvdl register_t *)); 94 1.1 fvdl static int linux_shmdt __P((struct proc *, struct linux_ipc_args *, 95 1.1 fvdl register_t *)); 96 1.1 fvdl static int linux_shmget __P((struct proc *, struct linux_ipc_args *, 97 1.1 fvdl register_t *)); 98 1.1 fvdl static int linux_shmctl __P((struct proc *, struct linux_ipc_args *, 99 1.1 fvdl register_t *)); 100 1.1 fvdl #endif 101 1.1 fvdl 102 1.1 fvdl 103 1.1 fvdl int 104 1.1 fvdl linux_ipc(p, uap, retval) 105 1.1 fvdl struct proc *p; 106 1.1 fvdl struct linux_ipc_args /* { 107 1.1 fvdl syscallarg(int) what; 108 1.1 fvdl syscallarg(int) a1; 109 1.1 fvdl syscallarg(int) a2; 110 1.1 fvdl syscallarg(int) a3; 111 1.1 fvdl syscallarg(caddr_t) ptr; 112 1.1 fvdl } */ *uap; 113 1.1 fvdl register_t *retval; 114 1.1 fvdl { 115 1.1 fvdl int what, error; 116 1.1 fvdl 117 1.1 fvdl switch (SCARG(uap, what)) { 118 1.1 fvdl #ifdef SYSVSEM 119 1.6 fvdl case LINUX_SYS_semop: 120 1.6 fvdl return linux_semop(p, uap, retval); 121 1.6 fvdl case LINUX_SYS_semget: 122 1.6 fvdl return linux_semget(p, uap, retval); 123 1.6 fvdl case LINUX_SYS_semctl: 124 1.6 fvdl return linux_semctl(p, uap, retval); 125 1.1 fvdl #endif 126 1.1 fvdl #ifdef SYSVMSG 127 1.6 fvdl case LINUX_SYS_msgsnd: 128 1.6 fvdl return linux_msgsnd(p, uap, retval); 129 1.6 fvdl case LINUX_SYS_msgrcv: 130 1.6 fvdl return linux_msgrcv(p, uap, retval); 131 1.6 fvdl case LINUX_SYS_msgget: 132 1.6 fvdl return linux_msgget(p, uap, retval); 133 1.6 fvdl case LINUX_SYS_msgctl: 134 1.6 fvdl return linux_msgctl(p, uap, retval); 135 1.1 fvdl #endif 136 1.1 fvdl #ifdef SYSVSHM 137 1.6 fvdl case LINUX_SYS_shmat: 138 1.6 fvdl return linux_shmat(p, uap, retval); 139 1.6 fvdl case LINUX_SYS_shmdt: 140 1.6 fvdl return linux_shmdt(p, uap, retval); 141 1.6 fvdl case LINUX_SYS_shmget: 142 1.6 fvdl return linux_shmget(p, uap, retval); 143 1.6 fvdl case LINUX_SYS_shmctl: 144 1.6 fvdl return linux_shmctl(p, uap, retval); 145 1.1 fvdl #endif 146 1.6 fvdl default: 147 1.6 fvdl return ENOSYS; 148 1.1 fvdl } 149 1.1 fvdl } 150 1.1 fvdl 151 1.1 fvdl /* 152 1.1 fvdl * Convert between Linux and NetBSD ipc_perm structures. Only the 153 1.1 fvdl * order of the fields is different. 154 1.1 fvdl */ 155 1.1 fvdl static void 156 1.1 fvdl linux_to_bsd_ipc_perm(lpp, bpp) 157 1.1 fvdl struct linux_ipc_perm *lpp; 158 1.1 fvdl struct ipc_perm *bpp; 159 1.1 fvdl { 160 1.1 fvdl bpp->key = lpp->l_key; 161 1.1 fvdl bpp->uid = lpp->l_uid; 162 1.1 fvdl bpp->gid = lpp->l_gid; 163 1.1 fvdl bpp->cuid = lpp->l_cuid; 164 1.1 fvdl bpp->cgid = lpp->l_cgid; 165 1.1 fvdl bpp->mode = lpp->l_mode; 166 1.1 fvdl bpp->seq = lpp->l_seq; 167 1.1 fvdl } 168 1.1 fvdl 169 1.1 fvdl 170 1.1 fvdl static void 171 1.1 fvdl bsd_to_linux_ipc_perm(bpp, lpp) 172 1.1 fvdl struct ipc_perm *bpp; 173 1.1 fvdl struct linux_ipc_perm *lpp; 174 1.1 fvdl { 175 1.1 fvdl lpp->l_key = bpp->key; 176 1.1 fvdl lpp->l_uid = bpp->uid; 177 1.1 fvdl lpp->l_gid = bpp->gid; 178 1.1 fvdl lpp->l_cuid = bpp->cuid; 179 1.1 fvdl lpp->l_cgid = bpp->cgid; 180 1.1 fvdl lpp->l_mode = bpp->mode; 181 1.1 fvdl lpp->l_seq = bpp->seq; 182 1.1 fvdl } 183 1.1 fvdl 184 1.1 fvdl #ifdef SYSVSEM 185 1.1 fvdl /* 186 1.6 fvdl * Semaphore operations. Most constants and structures are the same on 187 1.6 fvdl * both systems. Only semctl() needs some extra work. 188 1.1 fvdl */ 189 1.6 fvdl 190 1.6 fvdl /* 191 1.6 fvdl * Convert between Linux and NetBSD semid_ds structures. 192 1.6 fvdl */ 193 1.6 fvdl static void 194 1.6 fvdl bsd_to_linux_semid_ds(bs, ls) 195 1.6 fvdl struct semid_ds *bs; 196 1.6 fvdl struct linux_semid_ds *ls; 197 1.6 fvdl { 198 1.6 fvdl bsd_to_linux_ipc_perm(&bs->sem_perm, &ls->l_sem_perm); 199 1.6 fvdl ls->l_sem_otime = bs->sem_otime; 200 1.6 fvdl ls->l_sem_ctime = bs->sem_ctime; 201 1.6 fvdl ls->l_sem_nsems = bs->sem_nsems; 202 1.6 fvdl ls->l_sem_base = bs->sem_base; 203 1.6 fvdl } 204 1.6 fvdl 205 1.6 fvdl static void 206 1.6 fvdl linux_to_bsd_semid_ds(ls, bs) 207 1.6 fvdl struct linux_semid_ds *ls; 208 1.6 fvdl struct semid_ds *bs; 209 1.6 fvdl { 210 1.6 fvdl linux_to_bsd_ipc_perm(&ls->l_sem_perm, &bs->sem_perm); 211 1.6 fvdl bs->sem_otime = ls->l_sem_otime; 212 1.6 fvdl bs->sem_ctime = ls->l_sem_ctime; 213 1.6 fvdl bs->sem_nsems = ls->l_sem_nsems; 214 1.6 fvdl bs->sem_base = ls->l_sem_base; 215 1.6 fvdl } 216 1.6 fvdl 217 1.1 fvdl int 218 1.1 fvdl linux_semop(p, uap, retval) 219 1.1 fvdl struct proc *p; 220 1.1 fvdl struct linux_ipc_args /* { 221 1.1 fvdl syscallarg(int) what; 222 1.1 fvdl syscallarg(int) a1; 223 1.1 fvdl syscallarg(int) a2; 224 1.1 fvdl syscallarg(int) a3; 225 1.1 fvdl syscallarg(caddr_t) ptr; 226 1.1 fvdl } */ *uap; 227 1.1 fvdl register_t *retval; 228 1.1 fvdl { 229 1.6 fvdl struct semop_args bsa; 230 1.6 fvdl 231 1.6 fvdl SCARG(&bsa, semid) = SCARG(uap, a1); 232 1.6 fvdl SCARG(&bsa, sops) = (struct sembuf *)SCARG(uap, ptr); 233 1.6 fvdl SCARG(&bsa, nsops) = SCARG(uap, a2); 234 1.6 fvdl 235 1.6 fvdl return semop(p, &bsa, retval); 236 1.1 fvdl } 237 1.1 fvdl 238 1.1 fvdl int 239 1.1 fvdl linux_semget(p, uap, retval) 240 1.1 fvdl struct proc *p; 241 1.1 fvdl struct linux_ipc_args /* { 242 1.1 fvdl syscallarg(int) what; 243 1.1 fvdl syscallarg(int) a1; 244 1.1 fvdl syscallarg(int) a2; 245 1.1 fvdl syscallarg(int) a3; 246 1.1 fvdl syscallarg(caddr_t) ptr; 247 1.1 fvdl } */ *uap; 248 1.1 fvdl register_t *retval; 249 1.1 fvdl { 250 1.6 fvdl struct semget_args bsa; 251 1.6 fvdl 252 1.6 fvdl SCARG(&bsa, key) = (key_t)SCARG(uap, a1); 253 1.6 fvdl SCARG(&bsa, nsems) = SCARG(uap, a2); 254 1.6 fvdl SCARG(&bsa, semflg) = SCARG(uap, a3); 255 1.6 fvdl 256 1.6 fvdl return semget(p, &bsa, retval); 257 1.1 fvdl } 258 1.1 fvdl 259 1.6 fvdl /* 260 1.6 fvdl * Most of this can be handled by directly passing the arguments on, 261 1.6 fvdl * buf IPC_* require a lot of copy{in,out} because of the extra indirection 262 1.6 fvdl * (we are passed a pointer to a union cointaining a pointer to a semid_ds 263 1.6 fvdl * structure. 264 1.6 fvdl */ 265 1.1 fvdl int 266 1.1 fvdl linux_semctl(p, uap, retval) 267 1.1 fvdl struct proc *p; 268 1.1 fvdl struct linux_ipc_args /* { 269 1.1 fvdl syscallarg(int) what; 270 1.1 fvdl syscallarg(int) a1; 271 1.1 fvdl syscallarg(int) a2; 272 1.1 fvdl syscallarg(int) a3; 273 1.1 fvdl syscallarg(caddr_t) ptr; 274 1.1 fvdl } */ *uap; 275 1.1 fvdl register_t *retval; 276 1.1 fvdl { 277 1.6 fvdl caddr_t sg, unptr, dsp, ldsp; 278 1.6 fvdl int error, cmd; 279 1.6 fvdl struct __semctl_args bsa; 280 1.6 fvdl struct linux_semid_ds lm; 281 1.6 fvdl struct semid_ds bm; 282 1.6 fvdl 283 1.6 fvdl SCARG(&bsa, semid) = SCARG(uap, a1); 284 1.6 fvdl SCARG(&bsa, semnum) = SCARG(uap, a2); 285 1.6 fvdl SCARG(&bsa, cmd) = SCARG(uap, a3); 286 1.6 fvdl SCARG(&bsa, arg) = (union semun *)SCARG(uap, ptr); 287 1.6 fvdl switch(SCARG(uap, a3)) { 288 1.6 fvdl case LINUX_GETVAL: 289 1.6 fvdl cmd = GETVAL; 290 1.6 fvdl break; 291 1.6 fvdl case LINUX_GETPID: 292 1.6 fvdl cmd = GETPID; 293 1.6 fvdl break; 294 1.6 fvdl case LINUX_GETNCNT: 295 1.6 fvdl cmd = GETNCNT; 296 1.6 fvdl break; 297 1.6 fvdl case LINUX_GETZCNT: 298 1.6 fvdl cmd = GETZCNT; 299 1.6 fvdl break; 300 1.6 fvdl case LINUX_SETVAL: 301 1.6 fvdl cmd = SETVAL; 302 1.6 fvdl break; 303 1.6 fvdl case LINUX_IPC_RMID: 304 1.6 fvdl cmd = IPC_RMID; 305 1.6 fvdl break; 306 1.6 fvdl case LINUX_IPC_SET: 307 1.6 fvdl if ((error = copyin(SCARG(uap, ptr), &ldsp, sizeof ldsp))) 308 1.6 fvdl return error; 309 1.6 fvdl if ((error = copyin(ldsp, (caddr_t)&lm, sizeof lm))) 310 1.6 fvdl return error; 311 1.6 fvdl linux_to_bsd_semid_ds(&lm, &bm); 312 1.6 fvdl sg = stackgap_init(p->p_emul); 313 1.6 fvdl unptr = stackgap_alloc(&sg, sizeof (union semun)); 314 1.6 fvdl dsp = stackgap_alloc(&sg, sizeof (struct semid_ds)); 315 1.6 fvdl if ((error = copyout((caddr_t)&bm, dsp, sizeof bm))) 316 1.6 fvdl return error; 317 1.6 fvdl if ((error = copyout((caddr_t)&dsp, unptr, sizeof dsp))) 318 1.6 fvdl return error; 319 1.6 fvdl SCARG(&bsa, arg) = (union semun *)unptr; 320 1.6 fvdl return __semctl(p, &bsa, retval); 321 1.6 fvdl case LINUX_IPC_STAT: 322 1.6 fvdl sg = stackgap_init(p->p_emul); 323 1.6 fvdl unptr = stackgap_alloc(&sg, sizeof (union semun *)); 324 1.6 fvdl dsp = stackgap_alloc(&sg, sizeof (struct semid_ds)); 325 1.6 fvdl if ((error = copyout((caddr_t)&dsp, unptr, sizeof dsp))) 326 1.6 fvdl return error; 327 1.6 fvdl SCARG(&bsa, arg) = (union semun *)unptr; 328 1.6 fvdl if ((error = __semctl(p, &bsa, retval))) 329 1.6 fvdl return error; 330 1.6 fvdl if ((error = copyin(dsp, (caddr_t)&bm, sizeof bm))) 331 1.6 fvdl return error; 332 1.6 fvdl bsd_to_linux_semid_ds(&bm, &lm); 333 1.6 fvdl if ((error = copyin(SCARG(uap, ptr), &ldsp, sizeof ldsp))) 334 1.6 fvdl return error; 335 1.6 fvdl return copyout((caddr_t)&lm, ldsp, sizeof lm); 336 1.6 fvdl default: 337 1.6 fvdl return EINVAL; 338 1.6 fvdl } 339 1.6 fvdl SCARG(&bsa, cmd) = cmd; 340 1.6 fvdl return __semctl(p, &bsa, retval); 341 1.1 fvdl } 342 1.1 fvdl #endif /* SYSVSEM */ 343 1.1 fvdl 344 1.1 fvdl #ifdef SYSVMSG 345 1.6 fvdl 346 1.6 fvdl static void 347 1.6 fvdl linux_to_bsd_msqid_ds(lmp, bmp) 348 1.6 fvdl struct linux_msqid_ds *lmp; 349 1.6 fvdl struct msqid_ds *bmp; 350 1.6 fvdl { 351 1.6 fvdl linux_to_bsd_ipc_perm(&lmp->l_msg_perm, &bmp->msg_perm); 352 1.6 fvdl bmp->msg_first = lmp->l_msg_first; 353 1.6 fvdl bmp->msg_last = lmp->l_msg_last; 354 1.6 fvdl bmp->msg_cbytes = lmp->l_msg_cbytes; 355 1.6 fvdl bmp->msg_qnum = lmp->l_msg_qnum; 356 1.6 fvdl bmp->msg_qbytes = lmp->l_msg_qbytes; 357 1.6 fvdl bmp->msg_lspid = lmp->l_msg_lspid; 358 1.6 fvdl bmp->msg_lrpid = lmp->l_msg_lrpid; 359 1.6 fvdl bmp->msg_stime = lmp->l_msg_stime; 360 1.6 fvdl bmp->msg_rtime = lmp->l_msg_rtime; 361 1.6 fvdl bmp->msg_ctime = lmp->l_msg_ctime; 362 1.6 fvdl } 363 1.6 fvdl 364 1.6 fvdl static void 365 1.6 fvdl bsd_to_linux_msqid_ds(bmp, lmp) 366 1.6 fvdl struct msqid_ds *bmp; 367 1.6 fvdl struct linux_msqid_ds *lmp; 368 1.6 fvdl { 369 1.6 fvdl bsd_to_linux_ipc_perm(&bmp->msg_perm, &lmp->l_msg_perm); 370 1.6 fvdl lmp->l_msg_first = bmp->msg_first; 371 1.6 fvdl lmp->l_msg_last = bmp->msg_last; 372 1.6 fvdl lmp->l_msg_cbytes = bmp->msg_cbytes; 373 1.6 fvdl lmp->l_msg_qnum = bmp->msg_qnum; 374 1.6 fvdl lmp->l_msg_qbytes = bmp->msg_qbytes; 375 1.6 fvdl lmp->l_msg_lspid = bmp->msg_lspid; 376 1.6 fvdl lmp->l_msg_lrpid = bmp->msg_lrpid; 377 1.6 fvdl lmp->l_msg_stime = bmp->msg_stime; 378 1.6 fvdl lmp->l_msg_rtime = bmp->msg_rtime; 379 1.6 fvdl lmp->l_msg_ctime = bmp->msg_ctime; 380 1.6 fvdl } 381 1.6 fvdl 382 1.1 fvdl int 383 1.1 fvdl linux_msgsnd(p, uap, retval) 384 1.1 fvdl struct proc *p; 385 1.1 fvdl struct linux_ipc_args /* { 386 1.1 fvdl syscallarg(int) what; 387 1.1 fvdl syscallarg(int) a1; 388 1.1 fvdl syscallarg(int) a2; 389 1.1 fvdl syscallarg(int) a3; 390 1.1 fvdl syscallarg(caddr_t) ptr; 391 1.1 fvdl } */ *uap; 392 1.1 fvdl register_t *retval; 393 1.1 fvdl { 394 1.6 fvdl struct msgsnd_args bma; 395 1.6 fvdl 396 1.6 fvdl SCARG(&bma, msqid) = SCARG(uap, a1); 397 1.6 fvdl SCARG(&bma, msgp) = SCARG(uap, ptr); 398 1.6 fvdl SCARG(&bma, msgsz) = SCARG(uap, a2); 399 1.6 fvdl SCARG(&bma, msgflg) = SCARG(uap, a3); 400 1.6 fvdl 401 1.6 fvdl return msgsnd(p, &bma, retval); 402 1.1 fvdl } 403 1.1 fvdl 404 1.1 fvdl int 405 1.1 fvdl linux_msgrcv(p, uap, retval) 406 1.1 fvdl struct proc *p; 407 1.1 fvdl struct linux_ipc_args /* { 408 1.1 fvdl syscallarg(int) what; 409 1.1 fvdl syscallarg(int) a1; 410 1.1 fvdl syscallarg(int) a2; 411 1.1 fvdl syscallarg(int) a3; 412 1.1 fvdl syscallarg(caddr_t) ptr; 413 1.1 fvdl } */ *uap; 414 1.1 fvdl register_t *retval; 415 1.1 fvdl { 416 1.6 fvdl struct msgrcv_args bma; 417 1.6 fvdl struct linux_msgrcv_msgarg kluge; 418 1.6 fvdl int error; 419 1.6 fvdl 420 1.6 fvdl if ((error = copyin(SCARG(uap, ptr), &kluge, sizeof kluge))) 421 1.6 fvdl return error; 422 1.6 fvdl 423 1.6 fvdl SCARG(&bma, msqid) = SCARG(uap, a1); 424 1.6 fvdl SCARG(&bma, msgp) = kluge.msg; 425 1.6 fvdl SCARG(&bma, msgsz) = SCARG(uap, a2); 426 1.6 fvdl SCARG(&bma, msgtyp) = kluge.type; 427 1.6 fvdl SCARG(&bma, msgflg) = SCARG(uap, a3); 428 1.6 fvdl return msgrcv(p, &bma, retval); 429 1.1 fvdl } 430 1.1 fvdl 431 1.1 fvdl int 432 1.1 fvdl linux_msgget(p, uap, retval) 433 1.1 fvdl struct proc *p; 434 1.1 fvdl struct linux_ipc_args /* { 435 1.1 fvdl syscallarg(int) what; 436 1.1 fvdl syscallarg(int) a1; 437 1.1 fvdl syscallarg(int) a2; 438 1.1 fvdl syscallarg(int) a3; 439 1.1 fvdl syscallarg(caddr_t) ptr; 440 1.1 fvdl } */ *uap; 441 1.1 fvdl register_t *retval; 442 1.1 fvdl { 443 1.6 fvdl struct msgget_args bma; 444 1.6 fvdl 445 1.6 fvdl SCARG(&bma, key) = (key_t)SCARG(uap, a1); 446 1.6 fvdl SCARG(&bma, msgflg) = SCARG(uap, a2); 447 1.6 fvdl return msgget(p, &bma, retval); 448 1.1 fvdl } 449 1.1 fvdl 450 1.1 fvdl int 451 1.1 fvdl linux_msgctl(p, uap, retval) 452 1.1 fvdl struct proc *p; 453 1.1 fvdl struct linux_ipc_args /* { 454 1.1 fvdl syscallarg(int) what; 455 1.1 fvdl syscallarg(int) a1; 456 1.1 fvdl syscallarg(int) a2; 457 1.1 fvdl syscallarg(int) a3; 458 1.1 fvdl syscallarg(caddr_t) ptr; 459 1.1 fvdl } */ *uap; 460 1.1 fvdl register_t *retval; 461 1.1 fvdl { 462 1.6 fvdl struct msgctl_args bma; 463 1.6 fvdl caddr_t umsgptr, sg; 464 1.6 fvdl struct linux_msqid_ds lm; 465 1.6 fvdl struct msqid_ds bm; 466 1.6 fvdl int error; 467 1.6 fvdl 468 1.6 fvdl SCARG(&bma, msqid) = SCARG(uap, a1); 469 1.6 fvdl SCARG(&bma, cmd) = SCARG(uap, a2); 470 1.6 fvdl switch (SCARG(uap, a2)) { 471 1.6 fvdl case LINUX_IPC_RMID: 472 1.6 fvdl return msgctl(p, &bma, retval); 473 1.6 fvdl case LINUX_IPC_SET: 474 1.6 fvdl if ((error = copyin(SCARG(uap, ptr), (caddr_t)&lm, sizeof lm))) 475 1.6 fvdl return error; 476 1.6 fvdl linux_to_bsd_msqid_ds(&lm, &bm); 477 1.6 fvdl sg = stackgap_init(p->p_emul); 478 1.6 fvdl umsgptr = stackgap_alloc(&sg, sizeof bm); 479 1.6 fvdl if ((error = copyout((caddr_t)&bm, umsgptr, sizeof bm))) 480 1.6 fvdl return error; 481 1.6 fvdl SCARG(&bma, buf) = (struct msqid_ds *)umsgptr; 482 1.6 fvdl return msgctl(p, &bma, retval); 483 1.6 fvdl case LINUX_IPC_STAT: 484 1.6 fvdl sg = stackgap_init(p->p_emul); 485 1.6 fvdl umsgptr = stackgap_alloc(&sg, sizeof (struct msqid_ds)); 486 1.6 fvdl SCARG(&bma, buf) = (struct msqid_ds *)umsgptr; 487 1.6 fvdl if ((error = msgctl(p, &bma, retval))) 488 1.6 fvdl return error; 489 1.6 fvdl if ((error = copyin(umsgptr, (caddr_t)&bm, sizeof bm))) 490 1.6 fvdl return error; 491 1.6 fvdl bsd_to_linux_msqid_ds(&bm, &lm); 492 1.6 fvdl return copyout((caddr_t)&lm, SCARG(uap, ptr), sizeof lm); 493 1.6 fvdl } 494 1.6 fvdl return EINVAL; 495 1.1 fvdl } 496 1.1 fvdl #endif /* SYSVMSG */ 497 1.1 fvdl 498 1.1 fvdl #ifdef SYSVSHM 499 1.1 fvdl /* 500 1.1 fvdl * shmat(2). Very straightforward, except that Linux passes a pointer 501 1.1 fvdl * in which the return value is to be passed. This is subsequently 502 1.1 fvdl * handled by libc, apparently. 503 1.1 fvdl */ 504 1.1 fvdl int 505 1.1 fvdl linux_shmat(p, uap, retval) 506 1.1 fvdl struct proc *p; 507 1.1 fvdl struct linux_ipc_args /* { 508 1.1 fvdl syscallarg(int) what; 509 1.1 fvdl syscallarg(int) a1; 510 1.1 fvdl syscallarg(int) a2; 511 1.1 fvdl syscallarg(int) a3; 512 1.1 fvdl syscallarg(caddr_t) ptr; 513 1.1 fvdl } */ *uap; 514 1.1 fvdl register_t *retval; 515 1.1 fvdl { 516 1.1 fvdl struct shmat_args bsa; 517 1.1 fvdl int error; 518 1.1 fvdl 519 1.1 fvdl SCARG(&bsa, shmid) = SCARG(uap, a1); 520 1.1 fvdl SCARG(&bsa, shmaddr) = SCARG(uap, ptr); 521 1.1 fvdl SCARG(&bsa, shmflg) = SCARG(uap, a2); 522 1.1 fvdl 523 1.1 fvdl if ((error = shmat(p, &bsa, retval))) 524 1.1 fvdl return error; 525 1.1 fvdl 526 1.1 fvdl if ((error = copyout(&retval[0], (caddr_t) SCARG(uap, a3), 527 1.1 fvdl sizeof retval[0]))) 528 1.1 fvdl return error; 529 1.1 fvdl 530 1.1 fvdl retval[0] = 0; 531 1.1 fvdl 532 1.1 fvdl return 0; 533 1.1 fvdl } 534 1.1 fvdl 535 1.1 fvdl /* 536 1.1 fvdl * shmdt(): this could have been mapped directly, if it wasn't for 537 1.1 fvdl * the extra indirection by the linux_ipc system call. 538 1.1 fvdl */ 539 1.1 fvdl int 540 1.1 fvdl linux_shmdt(p, uap, retval) 541 1.1 fvdl struct proc *p; 542 1.1 fvdl struct linux_ipc_args /* { 543 1.1 fvdl syscallarg(int) what; 544 1.1 fvdl syscallarg(int) a1; 545 1.1 fvdl syscallarg(int) a2; 546 1.1 fvdl syscallarg(int) a3; 547 1.1 fvdl syscallarg(caddr_t) ptr; 548 1.1 fvdl } */ *uap; 549 1.1 fvdl register_t *retval; 550 1.1 fvdl { 551 1.1 fvdl struct shmdt_args bsa; 552 1.1 fvdl 553 1.1 fvdl SCARG(&bsa, shmaddr) = SCARG(uap, ptr); 554 1.1 fvdl return shmdt(p, &bsa, retval); 555 1.1 fvdl } 556 1.1 fvdl 557 1.1 fvdl /* 558 1.1 fvdl * Same story as shmdt. 559 1.1 fvdl */ 560 1.1 fvdl int 561 1.1 fvdl linux_shmget(p, uap, retval) 562 1.1 fvdl struct proc *p; 563 1.1 fvdl struct linux_ipc_args /* { 564 1.1 fvdl syscallarg(int) what; 565 1.1 fvdl syscallarg(int) a1; 566 1.1 fvdl syscallarg(int) a2; 567 1.1 fvdl syscallarg(int) a3; 568 1.1 fvdl syscallarg(caddr_t) ptr; 569 1.1 fvdl } */ *uap; 570 1.1 fvdl register_t *retval; 571 1.1 fvdl { 572 1.1 fvdl struct shmget_args bsa; 573 1.1 fvdl 574 1.1 fvdl SCARG(&bsa, key) = SCARG(uap, a1); 575 1.1 fvdl SCARG(&bsa, size) = SCARG(uap, a2); 576 1.1 fvdl SCARG(&bsa, shmflg) = SCARG(uap, a3); 577 1.1 fvdl return shmget(p, &bsa, retval); 578 1.1 fvdl } 579 1.1 fvdl 580 1.1 fvdl /* 581 1.1 fvdl * Convert between Linux and NetBSD shmid_ds structures. 582 1.1 fvdl * The order of the fields is once again the difference, and 583 1.1 fvdl * we also need a place to store the internal data pointer 584 1.1 fvdl * in, which is unfortunately stored in this structure. 585 1.1 fvdl * 586 1.1 fvdl * We abuse a Linux internal field for that. 587 1.1 fvdl */ 588 1.1 fvdl static void 589 1.1 fvdl linux_to_bsd_shmid_ds(lsp, bsp) 590 1.1 fvdl struct linux_shmid_ds *lsp; 591 1.1 fvdl struct shmid_ds *bsp; 592 1.1 fvdl { 593 1.1 fvdl linux_to_bsd_ipc_perm(&lsp->l_shm_perm, &bsp->shm_perm); 594 1.1 fvdl bsp->shm_segsz = lsp->l_shm_segsz; 595 1.1 fvdl bsp->shm_lpid = lsp->l_shm_lpid; 596 1.1 fvdl bsp->shm_cpid = lsp->l_shm_cpid; 597 1.1 fvdl bsp->shm_nattch = lsp->l_shm_nattch; 598 1.1 fvdl bsp->shm_atime = lsp->l_shm_atime; 599 1.1 fvdl bsp->shm_dtime = lsp->l_shm_dtime; 600 1.1 fvdl bsp->shm_ctime = lsp->l_shm_ctime; 601 1.1 fvdl bsp->shm_internal = lsp->l_private2; /* XXX Oh well. */ 602 1.1 fvdl } 603 1.1 fvdl 604 1.1 fvdl static void 605 1.1 fvdl bsd_to_linux_shmid_ds(bsp, lsp) 606 1.1 fvdl struct shmid_ds *bsp; 607 1.1 fvdl struct linux_shmid_ds *lsp; 608 1.1 fvdl { 609 1.1 fvdl bsd_to_linux_ipc_perm(&bsp->shm_perm, &lsp->l_shm_perm); 610 1.1 fvdl lsp->l_shm_segsz = bsp->shm_segsz; 611 1.1 fvdl lsp->l_shm_lpid = bsp->shm_lpid; 612 1.1 fvdl lsp->l_shm_cpid = bsp->shm_cpid; 613 1.1 fvdl lsp->l_shm_nattch = bsp->shm_nattch; 614 1.1 fvdl lsp->l_shm_atime = bsp->shm_atime; 615 1.1 fvdl lsp->l_shm_dtime = bsp->shm_dtime; 616 1.1 fvdl lsp->l_shm_ctime = bsp->shm_ctime; 617 1.1 fvdl lsp->l_private2 = bsp->shm_internal; /* XXX */ 618 1.1 fvdl } 619 1.1 fvdl 620 1.1 fvdl /* 621 1.1 fvdl * shmctl. Not implemented (for now): IPC_INFO, SHM_INFO, SHM_STAT 622 1.1 fvdl * SHM_LOCK and SHM_UNLOCK are passed on, but currently not implemented 623 1.1 fvdl * by NetBSD itself. 624 1.1 fvdl * 625 1.1 fvdl * The usual structure conversion and massaging is done. 626 1.1 fvdl */ 627 1.1 fvdl int 628 1.1 fvdl linux_shmctl(p, uap, retval) 629 1.1 fvdl struct proc *p; 630 1.1 fvdl struct linux_ipc_args /* { 631 1.1 fvdl syscallarg(int) what; 632 1.1 fvdl syscallarg(int) a1; 633 1.1 fvdl syscallarg(int) a2; 634 1.1 fvdl syscallarg(int) a3; 635 1.1 fvdl syscallarg(caddr_t) ptr; 636 1.1 fvdl } */ *uap; 637 1.1 fvdl register_t *retval; 638 1.1 fvdl { 639 1.1 fvdl int error; 640 1.1 fvdl caddr_t sg; 641 1.1 fvdl struct shmctl_args bsa; 642 1.1 fvdl struct shmid_ds *bsp, bs; 643 1.1 fvdl struct linux_shmid_ds lseg; 644 1.1 fvdl 645 1.1 fvdl switch (SCARG(uap, a2)) { 646 1.1 fvdl case LINUX_IPC_STAT: 647 1.4 christos sg = stackgap_init(p->p_emul); 648 1.1 fvdl bsp = stackgap_alloc(&sg, sizeof (struct shmid_ds)); 649 1.1 fvdl SCARG(&bsa, shmid) = SCARG(uap, a1); 650 1.1 fvdl SCARG(&bsa, cmd) = IPC_STAT; 651 1.1 fvdl SCARG(&bsa, buf) = bsp; 652 1.1 fvdl if ((error = shmctl(p, &bsa, retval))) 653 1.1 fvdl return error; 654 1.1 fvdl if ((error = copyin((caddr_t) &bs, (caddr_t) bsp, sizeof bs))) 655 1.1 fvdl return error; 656 1.1 fvdl bsd_to_linux_shmid_ds(&bs, &lseg); 657 1.1 fvdl return copyout((caddr_t) &lseg, SCARG(uap, ptr), sizeof lseg); 658 1.1 fvdl case LINUX_IPC_SET: 659 1.1 fvdl if ((error = copyin(SCARG(uap, ptr), (caddr_t) &lseg, 660 1.1 fvdl sizeof lseg))) 661 1.1 fvdl return error; 662 1.1 fvdl linux_to_bsd_shmid_ds(&lseg, &bs); 663 1.4 christos sg = stackgap_init(p->p_emul); 664 1.1 fvdl bsp = stackgap_alloc(&sg, sizeof (struct shmid_ds)); 665 1.1 fvdl if ((error = copyout((caddr_t) &bs, (caddr_t) bsp, sizeof bs))) 666 1.1 fvdl return error; 667 1.1 fvdl SCARG(&bsa, shmid) = SCARG(uap, a1); 668 1.1 fvdl SCARG(&bsa, cmd) = IPC_SET; 669 1.1 fvdl SCARG(&bsa, buf) = bsp; 670 1.1 fvdl return shmctl(p, &bsa, retval); 671 1.1 fvdl case LINUX_IPC_RMID: 672 1.1 fvdl case LINUX_SHM_LOCK: 673 1.1 fvdl case LINUX_SHM_UNLOCK: 674 1.1 fvdl SCARG(&bsa, shmid) = SCARG(uap, a1); 675 1.1 fvdl switch (SCARG(uap, a2)) { 676 1.1 fvdl case LINUX_IPC_RMID: 677 1.1 fvdl SCARG(&bsa, cmd) = IPC_RMID; 678 1.1 fvdl break; 679 1.1 fvdl case LINUX_SHM_LOCK: 680 1.1 fvdl SCARG(&bsa, cmd) = SHM_LOCK; 681 1.1 fvdl break; 682 1.1 fvdl case LINUX_SHM_UNLOCK: 683 1.1 fvdl SCARG(&bsa, cmd) = SHM_UNLOCK; 684 1.1 fvdl break; 685 1.1 fvdl } 686 1.2 fvdl if ((error = copyin(SCARG(uap, ptr), (caddr_t) &lseg, 687 1.2 fvdl sizeof lseg))) 688 1.2 fvdl return error; 689 1.2 fvdl linux_to_bsd_shmid_ds(&lseg, &bs); 690 1.4 christos sg = stackgap_init(p->p_emul); 691 1.2 fvdl bsp = stackgap_alloc(&sg, sizeof (struct shmid_ds)); 692 1.2 fvdl if ((error = copyout((caddr_t) &bs, (caddr_t) bsp, sizeof bs))) 693 1.2 fvdl return error; 694 1.2 fvdl SCARG(&bsa, buf) = bsp; 695 1.1 fvdl return shmctl(p, &bsa, retval); 696 1.1 fvdl case LINUX_IPC_INFO: 697 1.1 fvdl case LINUX_SHM_STAT: 698 1.1 fvdl case LINUX_SHM_INFO: 699 1.1 fvdl default: 700 1.1 fvdl return EINVAL; 701 1.1 fvdl } 702 1.1 fvdl } 703 1.1 fvdl #endif /* SYSVSHM */ 704
Indexes created Tue Sep 23 02:09:52 GMT 2025