netbsd32_conv.h revision 1.2
1 1.2 christos /* $NetBSD: netbsd32_conv.h,v 1.2 2004/04/21 01:05:36 christos Exp $ */ 2 1.1 mrg 3 1.1 mrg /* 4 1.1 mrg * Copyright (c) 1998, 2001 Matthew R. Green 5 1.1 mrg * All rights reserved. 6 1.1 mrg * 7 1.1 mrg * Redistribution and use in source and binary forms, with or without 8 1.1 mrg * modification, are permitted provided that the following conditions 9 1.1 mrg * are met: 10 1.1 mrg * 1. Redistributions of source code must retain the above copyright 11 1.1 mrg * notice, this list of conditions and the following disclaimer. 12 1.1 mrg * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 mrg * notice, this list of conditions and the following disclaimer in the 14 1.1 mrg * documentation and/or other materials provided with the distribution. 15 1.1 mrg * 3. The name of the author may not be used to endorse or promote products 16 1.1 mrg * derived from this software without specific prior written permission. 17 1.1 mrg * 18 1.1 mrg * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 19 1.1 mrg * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 20 1.1 mrg * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 21 1.1 mrg * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 22 1.1 mrg * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 23 1.1 mrg * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 24 1.1 mrg * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 25 1.1 mrg * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 26 1.1 mrg * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 27 1.1 mrg * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 28 1.1 mrg * SUCH DAMAGE. 29 1.1 mrg */ 30 1.1 mrg 31 1.1 mrg #ifndef _COMPAT_NETBSD32_NETBSD32_CONV_H_ 32 1.1 mrg #define _COMPAT_NETBSD32_NETBSD32_CONV_H_ 33 1.1 mrg 34 1.1 mrg /* 35 1.1 mrg * Though COMPAT_OLDSOCK is needed only for COMPAT_43, SunOS, Linux, 36 1.1 mrg * HP-UX, FreeBSD, Ultrix, OSF1, we define it unconditionally so that 37 1.1 mrg * this would be LKM-safe. 38 1.1 mrg */ 39 1.1 mrg #define COMPAT_OLDSOCK /* used by <sys/socket.h> */ 40 1.1 mrg 41 1.1 mrg #include <sys/param.h> 42 1.1 mrg #include <sys/systm.h> 43 1.1 mrg #include <sys/kernel.h> 44 1.1 mrg #include <sys/ipc.h> 45 1.1 mrg #include <sys/msg.h> 46 1.1 mrg #define msg __msg /* Don't ask me! */ 47 1.1 mrg #include <sys/sem.h> 48 1.1 mrg #include <sys/shm.h> 49 1.1 mrg #include <sys/socket.h> 50 1.1 mrg #include <sys/stat.h> 51 1.1 mrg #include <sys/time.h> 52 1.1 mrg #include <sys/timex.h> 53 1.1 mrg 54 1.1 mrg #include <compat/netbsd32/netbsd32.h> 55 1.1 mrg 56 1.1 mrg static __inline void netbsd32_from_timeval __P((struct timeval *, struct netbsd32_timeval *)); 57 1.1 mrg static __inline void netbsd32_to_timeval __P((struct netbsd32_timeval *, struct timeval *)); 58 1.1 mrg static __inline void netbsd32_from_itimerval __P((struct itimerval *, struct netbsd32_itimerval *)); 59 1.1 mrg static __inline void netbsd32_to_itimerval __P((struct netbsd32_itimerval *, struct itimerval *)); 60 1.1 mrg static __inline void netbsd32_to_timespec __P((struct netbsd32_timespec *, struct timespec *)); 61 1.1 mrg static __inline void netbsd32_from_timespec __P((struct timespec *, struct netbsd32_timespec *)); 62 1.1 mrg static __inline void netbsd32_from_rusage __P((struct rusage *, struct netbsd32_rusage *)); 63 1.1 mrg static __inline void netbsd32_to_rusage __P((struct netbsd32_rusage *, struct rusage *)); 64 1.1 mrg static __inline int netbsd32_to_iovecin __P((struct netbsd32_iovec *, struct iovec *, int)); 65 1.1 mrg static __inline void netbsd32_to_msghdr __P((struct netbsd32_msghdr *, struct msghdr *)); 66 1.1 mrg static __inline void netbsd32_from_msghdr __P((struct netbsd32_msghdr *, struct msghdr *)); 67 1.2 christos static __inline void netbsd32_from_statvfs __P((struct statvfs *, struct netbsd32_statfs *)); 68 1.1 mrg static __inline void netbsd32_from_timex __P((struct timex *, struct netbsd32_timex *)); 69 1.1 mrg static __inline void netbsd32_to_timex __P((struct netbsd32_timex *, struct timex *)); 70 1.1 mrg static __inline void netbsd32_from___stat13 __P((struct stat *, struct netbsd32_stat *)); 71 1.1 mrg static __inline void netbsd32_to_ipc_perm __P((struct netbsd32_ipc_perm *, struct ipc_perm *)); 72 1.1 mrg static __inline void netbsd32_from_ipc_perm __P((struct ipc_perm *, struct netbsd32_ipc_perm *)); 73 1.1 mrg static __inline void netbsd32_to_msg __P((struct netbsd32_msg *, struct msg *)); 74 1.1 mrg static __inline void netbsd32_from_msg __P((struct msg *, struct netbsd32_msg *)); 75 1.1 mrg static __inline void netbsd32_to_msqid_ds __P((struct netbsd32_msqid_ds *, struct msqid_ds *)); 76 1.1 mrg static __inline void netbsd32_from_msqid_ds __P((struct msqid_ds *, struct netbsd32_msqid_ds *)); 77 1.1 mrg static __inline void netbsd32_to_shmid_ds __P((struct netbsd32_shmid_ds *, struct shmid_ds *)); 78 1.1 mrg static __inline void netbsd32_from_shmid_ds __P((struct shmid_ds *, struct netbsd32_shmid_ds *)); 79 1.1 mrg static __inline void netbsd32_to_semid_ds __P((struct netbsd32_semid_ds *, struct semid_ds *)); 80 1.1 mrg static __inline void netbsd32_from_semid_ds __P((struct semid_ds *, struct netbsd32_semid_ds *)); 81 1.1 mrg static __inline void netbsd32_from_loadavg __P((struct netbsd32_loadavg *, struct loadavg *)); 82 1.1 mrg 83 1.1 mrg /* converters for structures that we need */ 84 1.1 mrg static __inline void 85 1.1 mrg netbsd32_from_timeval(tv, tv32) 86 1.1 mrg struct timeval *tv; 87 1.1 mrg struct netbsd32_timeval *tv32; 88 1.1 mrg { 89 1.1 mrg 90 1.1 mrg tv32->tv_sec = (netbsd32_long)tv->tv_sec; 91 1.1 mrg tv32->tv_usec = (netbsd32_long)tv->tv_usec; 92 1.1 mrg } 93 1.1 mrg 94 1.1 mrg static __inline void 95 1.1 mrg netbsd32_to_timeval(tv32, tv) 96 1.1 mrg struct netbsd32_timeval *tv32; 97 1.1 mrg struct timeval *tv; 98 1.1 mrg { 99 1.1 mrg 100 1.1 mrg tv->tv_sec = (long)tv32->tv_sec; 101 1.1 mrg tv->tv_usec = (long)tv32->tv_usec; 102 1.1 mrg } 103 1.1 mrg 104 1.1 mrg static __inline void 105 1.1 mrg netbsd32_from_itimerval(itv, itv32) 106 1.1 mrg struct itimerval *itv; 107 1.1 mrg struct netbsd32_itimerval *itv32; 108 1.1 mrg { 109 1.1 mrg 110 1.1 mrg netbsd32_from_timeval(&itv->it_interval, 111 1.1 mrg &itv32->it_interval); 112 1.1 mrg netbsd32_from_timeval(&itv->it_value, 113 1.1 mrg &itv32->it_value); 114 1.1 mrg } 115 1.1 mrg 116 1.1 mrg static __inline void 117 1.1 mrg netbsd32_to_itimerval(itv32, itv) 118 1.1 mrg struct netbsd32_itimerval *itv32; 119 1.1 mrg struct itimerval *itv; 120 1.1 mrg { 121 1.1 mrg 122 1.1 mrg netbsd32_to_timeval(&itv32->it_interval, &itv->it_interval); 123 1.1 mrg netbsd32_to_timeval(&itv32->it_value, &itv->it_value); 124 1.1 mrg } 125 1.1 mrg 126 1.1 mrg static __inline void 127 1.1 mrg netbsd32_to_timespec(s32p, p) 128 1.1 mrg struct netbsd32_timespec *s32p; 129 1.1 mrg struct timespec *p; 130 1.1 mrg { 131 1.1 mrg 132 1.1 mrg p->tv_sec = (time_t)s32p->tv_sec; 133 1.1 mrg p->tv_nsec = (long)s32p->tv_nsec; 134 1.1 mrg } 135 1.1 mrg 136 1.1 mrg static __inline void 137 1.1 mrg netbsd32_from_timespec(p, s32p) 138 1.1 mrg struct timespec *p; 139 1.1 mrg struct netbsd32_timespec *s32p; 140 1.1 mrg { 141 1.1 mrg 142 1.1 mrg s32p->tv_sec = (netbsd32_time_t)p->tv_sec; 143 1.1 mrg s32p->tv_nsec = (netbsd32_long)p->tv_nsec; 144 1.1 mrg } 145 1.1 mrg 146 1.1 mrg static __inline void 147 1.1 mrg netbsd32_from_rusage(rup, ru32p) 148 1.1 mrg struct rusage *rup; 149 1.1 mrg struct netbsd32_rusage *ru32p; 150 1.1 mrg { 151 1.1 mrg 152 1.1 mrg netbsd32_from_timeval(&rup->ru_utime, &ru32p->ru_utime); 153 1.1 mrg netbsd32_from_timeval(&rup->ru_stime, &ru32p->ru_stime); 154 1.1 mrg #define C(var) ru32p->var = (netbsd32_long)rup->var 155 1.1 mrg C(ru_maxrss); 156 1.1 mrg C(ru_ixrss); 157 1.1 mrg C(ru_idrss); 158 1.1 mrg C(ru_isrss); 159 1.1 mrg C(ru_minflt); 160 1.1 mrg C(ru_majflt); 161 1.1 mrg C(ru_nswap); 162 1.1 mrg C(ru_inblock); 163 1.1 mrg C(ru_oublock); 164 1.1 mrg C(ru_msgsnd); 165 1.1 mrg C(ru_msgrcv); 166 1.1 mrg C(ru_nsignals); 167 1.1 mrg C(ru_nvcsw); 168 1.1 mrg C(ru_nivcsw); 169 1.1 mrg #undef C 170 1.1 mrg } 171 1.1 mrg 172 1.1 mrg static __inline void 173 1.1 mrg netbsd32_to_rusage(ru32p, rup) 174 1.1 mrg struct netbsd32_rusage *ru32p; 175 1.1 mrg struct rusage *rup; 176 1.1 mrg { 177 1.1 mrg 178 1.1 mrg netbsd32_to_timeval(&ru32p->ru_utime, &rup->ru_utime); 179 1.1 mrg netbsd32_to_timeval(&ru32p->ru_stime, &rup->ru_stime); 180 1.1 mrg #define C(var) rup->var = (long)ru32p->var 181 1.1 mrg C(ru_maxrss); 182 1.1 mrg C(ru_ixrss); 183 1.1 mrg C(ru_idrss); 184 1.1 mrg C(ru_isrss); 185 1.1 mrg C(ru_minflt); 186 1.1 mrg C(ru_majflt); 187 1.1 mrg C(ru_nswap); 188 1.1 mrg C(ru_inblock); 189 1.1 mrg C(ru_oublock); 190 1.1 mrg C(ru_msgsnd); 191 1.1 mrg C(ru_msgrcv); 192 1.1 mrg C(ru_nsignals); 193 1.1 mrg C(ru_nvcsw); 194 1.1 mrg C(ru_nivcsw); 195 1.1 mrg #undef C 196 1.1 mrg } 197 1.1 mrg 198 1.1 mrg static __inline int 199 1.1 mrg netbsd32_to_iovecin(iov32p, iovp, len) 200 1.1 mrg struct netbsd32_iovec *iov32p; 201 1.1 mrg struct iovec *iovp; 202 1.1 mrg int len; 203 1.1 mrg { 204 1.1 mrg int i, error=0; 205 1.1 mrg u_int32_t iov_base; 206 1.1 mrg u_int32_t iov_len; 207 1.1 mrg /* 208 1.1 mrg * We could allocate an iov32p, do a copyin, and translate 209 1.1 mrg * each field and then free it all up, or we could copyin 210 1.1 mrg * each field separately. I'm doing the latter to reduce 211 1.1 mrg * the number of MALLOC()s. 212 1.1 mrg */ 213 1.1 mrg for (i = 0; i < len; i++, iovp++, iov32p++) { 214 1.1 mrg if ((error = copyin((caddr_t)&iov32p->iov_base, &iov_base, sizeof(iov_base)))) 215 1.1 mrg return (error); 216 1.1 mrg if ((error = copyin((caddr_t)&iov32p->iov_len, &iov_len, sizeof(iov_len)))) 217 1.1 mrg return (error); 218 1.1 mrg iovp->iov_base = (void *)(u_long)iov_base; 219 1.1 mrg iovp->iov_len = (size_t)iov_len; 220 1.1 mrg } 221 1.1 mrg return error; 222 1.1 mrg } 223 1.1 mrg 224 1.1 mrg /* msg_iov must be done separately */ 225 1.1 mrg static __inline void 226 1.1 mrg netbsd32_to_msghdr(mhp32, mhp) 227 1.1 mrg struct netbsd32_msghdr *mhp32; 228 1.1 mrg struct msghdr *mhp; 229 1.1 mrg { 230 1.1 mrg 231 1.1 mrg mhp->msg_name = (caddr_t)(u_long)mhp32->msg_name; 232 1.1 mrg mhp->msg_namelen = mhp32->msg_namelen; 233 1.1 mrg mhp->msg_iovlen = (size_t)mhp32->msg_iovlen; 234 1.1 mrg mhp->msg_control = (caddr_t)(u_long)mhp32->msg_control; 235 1.1 mrg mhp->msg_controllen = mhp32->msg_controllen; 236 1.1 mrg mhp->msg_flags = mhp32->msg_flags; 237 1.1 mrg } 238 1.1 mrg 239 1.1 mrg /* msg_iov must be done separately */ 240 1.1 mrg static __inline void 241 1.1 mrg netbsd32_from_msghdr(mhp32, mhp) 242 1.1 mrg struct netbsd32_msghdr *mhp32; 243 1.1 mrg struct msghdr *mhp; 244 1.1 mrg { 245 1.1 mrg 246 1.1 mrg mhp32->msg_name = mhp32->msg_name; 247 1.1 mrg mhp32->msg_namelen = mhp32->msg_namelen; 248 1.1 mrg mhp32->msg_iovlen = mhp32->msg_iovlen; 249 1.1 mrg mhp32->msg_control = mhp32->msg_control; 250 1.1 mrg mhp32->msg_controllen = mhp->msg_controllen; 251 1.1 mrg mhp32->msg_flags = mhp->msg_flags; 252 1.1 mrg } 253 1.1 mrg 254 1.1 mrg static __inline void 255 1.2 christos netbsd32_from_statvfs(sbp, sb32p) 256 1.2 christos struct statvfs *sbp; 257 1.1 mrg struct netbsd32_statfs *sb32p; 258 1.1 mrg { 259 1.1 mrg sb32p->f_type = sbp->f_type; 260 1.1 mrg sb32p->f_flags = sbp->f_flags; 261 1.1 mrg sb32p->f_bsize = (netbsd32_long)sbp->f_bsize; 262 1.1 mrg sb32p->f_iosize = (netbsd32_long)sbp->f_iosize; 263 1.1 mrg sb32p->f_blocks = (netbsd32_long)sbp->f_blocks; 264 1.1 mrg sb32p->f_bfree = (netbsd32_long)sbp->f_bfree; 265 1.1 mrg sb32p->f_bavail = (netbsd32_long)sbp->f_bavail; 266 1.1 mrg sb32p->f_files = (netbsd32_long)sbp->f_files; 267 1.1 mrg sb32p->f_ffree = (netbsd32_long)sbp->f_ffree; 268 1.2 christos sb32p->f_fsid = sbp->f_fsidx; 269 1.1 mrg sb32p->f_owner = sbp->f_owner; 270 1.1 mrg sb32p->f_spare[0] = 0; 271 1.1 mrg sb32p->f_spare[1] = 0; 272 1.1 mrg sb32p->f_spare[2] = 0; 273 1.1 mrg sb32p->f_spare[3] = 0; 274 1.1 mrg #if 1 275 1.1 mrg /* May as well do the whole batch in one go */ 276 1.1 mrg memcpy(sb32p->f_fstypename, sbp->f_fstypename, MFSNAMELEN+MNAMELEN+MNAMELEN); 277 1.1 mrg #else 278 1.1 mrg /* If we want to be careful */ 279 1.1 mrg memcpy(sb32p->f_fstypename, sbp->f_fstypename, MFSNAMELEN); 280 1.1 mrg memcpy(sb32p->f_mntonname, sbp->f_mntonname, MNAMELEN); 281 1.1 mrg memcpy(sb32p->f_mntfromname, sbp->f_mntfromname, MNAMELEN); 282 1.1 mrg #endif 283 1.1 mrg } 284 1.1 mrg 285 1.1 mrg static __inline void 286 1.1 mrg netbsd32_from_timex(txp, tx32p) 287 1.1 mrg struct timex *txp; 288 1.1 mrg struct netbsd32_timex *tx32p; 289 1.1 mrg { 290 1.1 mrg 291 1.1 mrg tx32p->modes = txp->modes; 292 1.1 mrg tx32p->offset = (netbsd32_long)txp->offset; 293 1.1 mrg tx32p->freq = (netbsd32_long)txp->freq; 294 1.1 mrg tx32p->maxerror = (netbsd32_long)txp->maxerror; 295 1.1 mrg tx32p->esterror = (netbsd32_long)txp->esterror; 296 1.1 mrg tx32p->status = txp->status; 297 1.1 mrg tx32p->constant = (netbsd32_long)txp->constant; 298 1.1 mrg tx32p->precision = (netbsd32_long)txp->precision; 299 1.1 mrg tx32p->tolerance = (netbsd32_long)txp->tolerance; 300 1.1 mrg tx32p->ppsfreq = (netbsd32_long)txp->ppsfreq; 301 1.1 mrg tx32p->jitter = (netbsd32_long)txp->jitter; 302 1.1 mrg tx32p->shift = txp->shift; 303 1.1 mrg tx32p->stabil = (netbsd32_long)txp->stabil; 304 1.1 mrg tx32p->jitcnt = (netbsd32_long)txp->jitcnt; 305 1.1 mrg tx32p->calcnt = (netbsd32_long)txp->calcnt; 306 1.1 mrg tx32p->errcnt = (netbsd32_long)txp->errcnt; 307 1.1 mrg tx32p->stbcnt = (netbsd32_long)txp->stbcnt; 308 1.1 mrg } 309 1.1 mrg 310 1.1 mrg static __inline void 311 1.1 mrg netbsd32_to_timex(tx32p, txp) 312 1.1 mrg struct netbsd32_timex *tx32p; 313 1.1 mrg struct timex *txp; 314 1.1 mrg { 315 1.1 mrg 316 1.1 mrg txp->modes = tx32p->modes; 317 1.1 mrg txp->offset = (long)tx32p->offset; 318 1.1 mrg txp->freq = (long)tx32p->freq; 319 1.1 mrg txp->maxerror = (long)tx32p->maxerror; 320 1.1 mrg txp->esterror = (long)tx32p->esterror; 321 1.1 mrg txp->status = tx32p->status; 322 1.1 mrg txp->constant = (long)tx32p->constant; 323 1.1 mrg txp->precision = (long)tx32p->precision; 324 1.1 mrg txp->tolerance = (long)tx32p->tolerance; 325 1.1 mrg txp->ppsfreq = (long)tx32p->ppsfreq; 326 1.1 mrg txp->jitter = (long)tx32p->jitter; 327 1.1 mrg txp->shift = tx32p->shift; 328 1.1 mrg txp->stabil = (long)tx32p->stabil; 329 1.1 mrg txp->jitcnt = (long)tx32p->jitcnt; 330 1.1 mrg txp->calcnt = (long)tx32p->calcnt; 331 1.1 mrg txp->errcnt = (long)tx32p->errcnt; 332 1.1 mrg txp->stbcnt = (long)tx32p->stbcnt; 333 1.1 mrg } 334 1.1 mrg 335 1.1 mrg static __inline void 336 1.1 mrg netbsd32_from___stat13(sbp, sb32p) 337 1.1 mrg struct stat *sbp; 338 1.1 mrg struct netbsd32_stat *sb32p; 339 1.1 mrg { 340 1.1 mrg sb32p->st_dev = sbp->st_dev; 341 1.1 mrg sb32p->st_ino = sbp->st_ino; 342 1.1 mrg sb32p->st_mode = sbp->st_mode; 343 1.1 mrg sb32p->st_nlink = sbp->st_nlink; 344 1.1 mrg sb32p->st_uid = sbp->st_uid; 345 1.1 mrg sb32p->st_gid = sbp->st_gid; 346 1.1 mrg sb32p->st_rdev = sbp->st_rdev; 347 1.1 mrg if (sbp->st_size < (quad_t)1 << 32) 348 1.1 mrg sb32p->st_size = sbp->st_size; 349 1.1 mrg else 350 1.1 mrg sb32p->st_size = -2; 351 1.1 mrg sb32p->st_atimespec.tv_sec = (netbsd32_time_t)sbp->st_atimespec.tv_sec; 352 1.1 mrg sb32p->st_atimespec.tv_nsec = (netbsd32_long)sbp->st_atimespec.tv_nsec; 353 1.1 mrg sb32p->st_mtimespec.tv_sec = (netbsd32_time_t)sbp->st_mtimespec.tv_sec; 354 1.1 mrg sb32p->st_mtimespec.tv_nsec = (netbsd32_long)sbp->st_mtimespec.tv_nsec; 355 1.1 mrg sb32p->st_ctimespec.tv_sec = (netbsd32_time_t)sbp->st_ctimespec.tv_sec; 356 1.1 mrg sb32p->st_ctimespec.tv_nsec = (netbsd32_long)sbp->st_ctimespec.tv_nsec; 357 1.1 mrg sb32p->st_blksize = sbp->st_blksize; 358 1.1 mrg sb32p->st_blocks = sbp->st_blocks; 359 1.1 mrg sb32p->st_flags = sbp->st_flags; 360 1.1 mrg sb32p->st_gen = sbp->st_gen; 361 1.1 mrg } 362 1.1 mrg 363 1.1 mrg static __inline void 364 1.1 mrg netbsd32_to_ipc_perm(ip32p, ipp) 365 1.1 mrg struct netbsd32_ipc_perm *ip32p; 366 1.1 mrg struct ipc_perm *ipp; 367 1.1 mrg { 368 1.1 mrg 369 1.1 mrg ipp->cuid = ip32p->cuid; 370 1.1 mrg ipp->cgid = ip32p->cgid; 371 1.1 mrg ipp->uid = ip32p->uid; 372 1.1 mrg ipp->gid = ip32p->gid; 373 1.1 mrg ipp->mode = ip32p->mode; 374 1.1 mrg ipp->_seq = ip32p->_seq; 375 1.1 mrg ipp->_key = (key_t)ip32p->_key; 376 1.1 mrg } 377 1.1 mrg 378 1.1 mrg static __inline void 379 1.1 mrg netbsd32_from_ipc_perm(ipp, ip32p) 380 1.1 mrg struct ipc_perm *ipp; 381 1.1 mrg struct netbsd32_ipc_perm *ip32p; 382 1.1 mrg { 383 1.1 mrg 384 1.1 mrg ip32p->cuid = ipp->cuid; 385 1.1 mrg ip32p->cgid = ipp->cgid; 386 1.1 mrg ip32p->uid = ipp->uid; 387 1.1 mrg ip32p->gid = ipp->gid; 388 1.1 mrg ip32p->mode = ipp->mode; 389 1.1 mrg ip32p->_seq = ipp->_seq; 390 1.1 mrg ip32p->_key = (netbsd32_key_t)ipp->_key; 391 1.1 mrg } 392 1.1 mrg 393 1.1 mrg static __inline void 394 1.1 mrg netbsd32_to_msg(m32p, mp) 395 1.1 mrg struct netbsd32_msg *m32p; 396 1.1 mrg struct msg *mp; 397 1.1 mrg { 398 1.1 mrg 399 1.1 mrg mp->msg_next = (struct msg *)(u_long)m32p->msg_next; 400 1.1 mrg mp->msg_type = (long)m32p->msg_type; 401 1.1 mrg mp->msg_ts = m32p->msg_ts; 402 1.1 mrg mp->msg_spot = m32p->msg_spot; 403 1.1 mrg } 404 1.1 mrg 405 1.1 mrg static __inline void 406 1.1 mrg netbsd32_from_msg(mp, m32p) 407 1.1 mrg struct msg *mp; 408 1.1 mrg struct netbsd32_msg *m32p; 409 1.1 mrg { 410 1.1 mrg 411 1.1 mrg m32p->msg_next = (netbsd32_msgp_t)(u_long)mp->msg_next; 412 1.1 mrg m32p->msg_type = (netbsd32_long)mp->msg_type; 413 1.1 mrg m32p->msg_ts = mp->msg_ts; 414 1.1 mrg m32p->msg_spot = mp->msg_spot; 415 1.1 mrg } 416 1.1 mrg 417 1.1 mrg static __inline void 418 1.1 mrg netbsd32_to_msqid_ds(ds32p, dsp) 419 1.1 mrg struct netbsd32_msqid_ds *ds32p; 420 1.1 mrg struct msqid_ds *dsp; 421 1.1 mrg { 422 1.1 mrg 423 1.1 mrg netbsd32_to_ipc_perm(&ds32p->msg_perm, &dsp->msg_perm); 424 1.1 mrg netbsd32_to_msg((struct netbsd32_msg *)(u_long)ds32p->_msg_first, dsp->_msg_first); 425 1.1 mrg netbsd32_to_msg((struct netbsd32_msg *)(u_long)ds32p->_msg_last, dsp->_msg_last); 426 1.1 mrg dsp->_msg_cbytes = (u_long)ds32p->_msg_cbytes; 427 1.1 mrg dsp->msg_qnum = (u_long)ds32p->msg_qnum; 428 1.1 mrg dsp->msg_qbytes = (u_long)ds32p->msg_qbytes; 429 1.1 mrg dsp->msg_lspid = ds32p->msg_lspid; 430 1.1 mrg dsp->msg_lrpid = ds32p->msg_lrpid; 431 1.1 mrg dsp->msg_rtime = (time_t)ds32p->msg_rtime; 432 1.1 mrg dsp->msg_stime = (time_t)ds32p->msg_stime; 433 1.1 mrg dsp->msg_ctime = (time_t)ds32p->msg_ctime; 434 1.1 mrg } 435 1.1 mrg 436 1.1 mrg static __inline void 437 1.1 mrg netbsd32_from_msqid_ds(dsp, ds32p) 438 1.1 mrg struct msqid_ds *dsp; 439 1.1 mrg struct netbsd32_msqid_ds *ds32p; 440 1.1 mrg { 441 1.1 mrg 442 1.1 mrg netbsd32_from_ipc_perm(&dsp->msg_perm, &ds32p->msg_perm); 443 1.1 mrg netbsd32_from_msg(dsp->_msg_first, (struct netbsd32_msg *)(u_long)ds32p->_msg_first); 444 1.1 mrg netbsd32_from_msg(dsp->_msg_last, (struct netbsd32_msg *)(u_long)ds32p->_msg_last); 445 1.1 mrg ds32p->_msg_cbytes = (netbsd32_u_long)dsp->_msg_cbytes; 446 1.1 mrg ds32p->msg_qnum = (netbsd32_u_long)dsp->msg_qnum; 447 1.1 mrg ds32p->msg_qbytes = (netbsd32_u_long)dsp->msg_qbytes; 448 1.1 mrg ds32p->msg_lspid = dsp->msg_lspid; 449 1.1 mrg ds32p->msg_lrpid = dsp->msg_lrpid; 450 1.1 mrg ds32p->msg_rtime = dsp->msg_rtime; 451 1.1 mrg ds32p->msg_stime = dsp->msg_stime; 452 1.1 mrg ds32p->msg_ctime = dsp->msg_ctime; 453 1.1 mrg } 454 1.1 mrg 455 1.1 mrg static __inline void 456 1.1 mrg netbsd32_to_shmid_ds(ds32p, dsp) 457 1.1 mrg struct netbsd32_shmid_ds *ds32p; 458 1.1 mrg struct shmid_ds *dsp; 459 1.1 mrg { 460 1.1 mrg 461 1.1 mrg netbsd32_to_ipc_perm(&ds32p->shm_perm, &dsp->shm_perm); 462 1.1 mrg dsp->shm_segsz = ds32p->shm_segsz; 463 1.1 mrg dsp->shm_lpid = ds32p->shm_lpid; 464 1.1 mrg dsp->shm_cpid = ds32p->shm_cpid; 465 1.1 mrg dsp->shm_nattch = ds32p->shm_nattch; 466 1.1 mrg dsp->shm_atime = (long)ds32p->shm_atime; 467 1.1 mrg dsp->shm_dtime = (long)ds32p->shm_dtime; 468 1.1 mrg dsp->shm_ctime = (long)ds32p->shm_ctime; 469 1.1 mrg dsp->_shm_internal = (void *)(u_long)ds32p->_shm_internal; 470 1.1 mrg } 471 1.1 mrg 472 1.1 mrg static __inline void 473 1.1 mrg netbsd32_from_shmid_ds(dsp, ds32p) 474 1.1 mrg struct shmid_ds *dsp; 475 1.1 mrg struct netbsd32_shmid_ds *ds32p; 476 1.1 mrg { 477 1.1 mrg 478 1.1 mrg netbsd32_from_ipc_perm(&dsp->shm_perm, &ds32p->shm_perm); 479 1.1 mrg ds32p->shm_segsz = dsp->shm_segsz; 480 1.1 mrg ds32p->shm_lpid = dsp->shm_lpid; 481 1.1 mrg ds32p->shm_cpid = dsp->shm_cpid; 482 1.1 mrg ds32p->shm_nattch = dsp->shm_nattch; 483 1.1 mrg ds32p->shm_atime = (netbsd32_long)dsp->shm_atime; 484 1.1 mrg ds32p->shm_dtime = (netbsd32_long)dsp->shm_dtime; 485 1.1 mrg ds32p->shm_ctime = (netbsd32_long)dsp->shm_ctime; 486 1.1 mrg ds32p->_shm_internal = (netbsd32_voidp)(u_long)dsp->_shm_internal; 487 1.1 mrg } 488 1.1 mrg 489 1.1 mrg static __inline void 490 1.1 mrg netbsd32_to_semid_ds(s32dsp, dsp) 491 1.1 mrg struct netbsd32_semid_ds *s32dsp; 492 1.1 mrg struct semid_ds *dsp; 493 1.1 mrg { 494 1.1 mrg 495 1.1 mrg netbsd32_from_ipc_perm(&dsp->sem_perm, &s32dsp->sem_perm); 496 1.1 mrg dsp->_sem_base = (struct __sem *)(u_long)s32dsp->_sem_base; 497 1.1 mrg dsp->sem_nsems = s32dsp->sem_nsems; 498 1.1 mrg dsp->sem_otime = s32dsp->sem_otime; 499 1.1 mrg dsp->sem_ctime = s32dsp->sem_ctime; 500 1.1 mrg } 501 1.1 mrg 502 1.1 mrg static __inline void 503 1.1 mrg netbsd32_from_semid_ds(dsp, s32dsp) 504 1.1 mrg struct semid_ds *dsp; 505 1.1 mrg struct netbsd32_semid_ds *s32dsp; 506 1.1 mrg { 507 1.1 mrg 508 1.1 mrg netbsd32_to_ipc_perm(&s32dsp->sem_perm, &dsp->sem_perm); 509 1.1 mrg s32dsp->_sem_base = (netbsd32_semp_t)(u_long)dsp->_sem_base; 510 1.1 mrg s32dsp->sem_nsems = dsp->sem_nsems; 511 1.1 mrg s32dsp->sem_otime = dsp->sem_otime; 512 1.1 mrg s32dsp->sem_ctime = dsp->sem_ctime; 513 1.1 mrg } 514 1.1 mrg 515 1.1 mrg static __inline void 516 1.1 mrg netbsd32_from_loadavg(av32, av) 517 1.1 mrg struct netbsd32_loadavg *av32; 518 1.1 mrg struct loadavg *av; 519 1.1 mrg { 520 1.1 mrg 521 1.1 mrg av32->ldavg[0] = av->ldavg[0]; 522 1.1 mrg av32->ldavg[1] = av->ldavg[1]; 523 1.1 mrg av32->ldavg[2] = av->ldavg[2]; 524 1.1 mrg av32->fscale = (netbsd32_long)av->fscale; 525 1.1 mrg } 526 1.1 mrg 527 1.1 mrg #endif /* _COMPAT_NETBSD32_NETBSD32_CONV_H_ */ 528
Indexes created Sun Sep 21 18:09:52 GMT 2025