hijack.c revision 1.14
1 1.14 pooka /* $NetBSD: hijack.c,v 1.14 2011/01/18 19:41:02 pooka Exp $ */ 2 1.1 pooka 3 1.1 pooka /*- 4 1.1 pooka * Copyright (c) 2011 Antti Kantee. All Rights Reserved. 5 1.1 pooka * 6 1.1 pooka * Redistribution and use in source and binary forms, with or without 7 1.1 pooka * modification, are permitted provided that the following conditions 8 1.1 pooka * are met: 9 1.1 pooka * 1. Redistributions of source code must retain the above copyright 10 1.1 pooka * notice, this list of conditions and the following disclaimer. 11 1.1 pooka * 2. Redistributions in binary form must reproduce the above copyright 12 1.1 pooka * notice, this list of conditions and the following disclaimer in the 13 1.1 pooka * documentation and/or other materials provided with the distribution. 14 1.1 pooka * 15 1.1 pooka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS 16 1.1 pooka * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 17 1.1 pooka * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 18 1.1 pooka * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 19 1.1 pooka * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20 1.1 pooka * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 21 1.1 pooka * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22 1.1 pooka * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23 1.1 pooka * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24 1.1 pooka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25 1.1 pooka * SUCH DAMAGE. 26 1.1 pooka */ 27 1.1 pooka 28 1.1 pooka #include <sys/cdefs.h> 29 1.14 pooka __RCSID("$NetBSD: hijack.c,v 1.14 2011/01/18 19:41:02 pooka Exp $"); 30 1.1 pooka 31 1.1 pooka #include <sys/param.h> 32 1.1 pooka #include <sys/types.h> 33 1.10 pooka #include <sys/event.h> 34 1.1 pooka #include <sys/ioctl.h> 35 1.1 pooka #include <sys/socket.h> 36 1.1 pooka #include <sys/poll.h> 37 1.1 pooka 38 1.1 pooka #include <rump/rumpclient.h> 39 1.1 pooka #include <rump/rump_syscalls.h> 40 1.1 pooka 41 1.1 pooka #include <assert.h> 42 1.1 pooka #include <dlfcn.h> 43 1.1 pooka #include <err.h> 44 1.1 pooka #include <errno.h> 45 1.1 pooka #include <fcntl.h> 46 1.1 pooka #include <poll.h> 47 1.1 pooka #include <pthread.h> 48 1.3 pooka #include <signal.h> 49 1.1 pooka #include <stdarg.h> 50 1.8 pooka #include <stdbool.h> 51 1.1 pooka #include <stdio.h> 52 1.1 pooka #include <stdlib.h> 53 1.3 pooka #include <time.h> 54 1.1 pooka #include <unistd.h> 55 1.1 pooka 56 1.1 pooka enum { RUMPCALL_SOCKET, RUMPCALL_ACCEPT, RUMPCALL_BIND, RUMPCALL_CONNECT, 57 1.1 pooka RUMPCALL_GETPEERNAME, RUMPCALL_GETSOCKNAME, RUMPCALL_LISTEN, 58 1.1 pooka RUMPCALL_RECVFROM, RUMPCALL_RECVMSG, 59 1.1 pooka RUMPCALL_SENDTO, RUMPCALL_SENDMSG, 60 1.1 pooka RUMPCALL_GETSOCKOPT, RUMPCALL_SETSOCKOPT, 61 1.1 pooka RUMPCALL_SHUTDOWN, 62 1.1 pooka RUMPCALL_READ, RUMPCALL_READV, 63 1.1 pooka RUMPCALL_WRITE, RUMPCALL_WRITEV, 64 1.1 pooka RUMPCALL_IOCTL, RUMPCALL_FCNTL, 65 1.1 pooka RUMPCALL_CLOSE, 66 1.4 pooka RUMPCALL_POLLTS, 67 1.1 pooka RUMPCALL__NUM 68 1.1 pooka }; 69 1.1 pooka 70 1.8 pooka #define RSYS_STRING(a) __STRING(a) 71 1.8 pooka #define RSYS_NAME(a) RSYS_STRING(__CONCAT(RUMP_SYS_RENAME_,a)) 72 1.8 pooka 73 1.1 pooka const char *sysnames[] = { 74 1.8 pooka RSYS_NAME(SOCKET), 75 1.8 pooka RSYS_NAME(ACCEPT), 76 1.8 pooka RSYS_NAME(BIND), 77 1.8 pooka RSYS_NAME(CONNECT), 78 1.8 pooka RSYS_NAME(GETPEERNAME), 79 1.8 pooka RSYS_NAME(GETSOCKNAME), 80 1.8 pooka RSYS_NAME(LISTEN), 81 1.8 pooka RSYS_NAME(RECVFROM), 82 1.8 pooka RSYS_NAME(RECVMSG), 83 1.8 pooka RSYS_NAME(SENDTO), 84 1.8 pooka RSYS_NAME(SENDMSG), 85 1.8 pooka RSYS_NAME(GETSOCKOPT), 86 1.8 pooka RSYS_NAME(SETSOCKOPT), 87 1.8 pooka RSYS_NAME(SHUTDOWN), 88 1.8 pooka RSYS_NAME(READ), 89 1.8 pooka RSYS_NAME(READV), 90 1.8 pooka RSYS_NAME(WRITE), 91 1.8 pooka RSYS_NAME(WRITEV), 92 1.8 pooka RSYS_NAME(IOCTL), 93 1.8 pooka RSYS_NAME(FCNTL), 94 1.8 pooka RSYS_NAME(CLOSE), 95 1.8 pooka RSYS_NAME(POLLTS), 96 1.1 pooka }; 97 1.1 pooka 98 1.7 pooka static int (*host_socket)(int, int, int); 99 1.7 pooka static int (*host_connect)(int, const struct sockaddr *, socklen_t); 100 1.7 pooka static int (*host_bind)(int, const struct sockaddr *, socklen_t); 101 1.7 pooka static int (*host_listen)(int, int); 102 1.7 pooka static int (*host_accept)(int, struct sockaddr *, socklen_t *); 103 1.7 pooka static int (*host_getpeername)(int, struct sockaddr *, socklen_t *); 104 1.7 pooka static int (*host_getsockname)(int, struct sockaddr *, socklen_t *); 105 1.7 pooka static int (*host_setsockopt)(int, int, int, const void *, socklen_t); 106 1.7 pooka 107 1.1 pooka static ssize_t (*host_read)(int, void *, size_t); 108 1.1 pooka static ssize_t (*host_readv)(int, const struct iovec *, int); 109 1.1 pooka static ssize_t (*host_write)(int, const void *, size_t); 110 1.1 pooka static ssize_t (*host_writev)(int, const struct iovec *, int); 111 1.1 pooka static int (*host_ioctl)(int, unsigned long, ...); 112 1.1 pooka static int (*host_fcntl)(int, int, ...); 113 1.1 pooka static int (*host_close)(int); 114 1.3 pooka static int (*host_pollts)(struct pollfd *, nfds_t, 115 1.3 pooka const struct timespec *, const sigset_t *); 116 1.2 pooka static pid_t (*host_fork)(void); 117 1.2 pooka static int (*host_dup2)(int, int); 118 1.14 pooka static int (*host_shutdown)(int, int); 119 1.1 pooka 120 1.1 pooka static void *rumpcalls[RUMPCALL__NUM]; 121 1.1 pooka 122 1.1 pooka /* 123 1.14 pooka * Would be nice to get this automatically in sync with libc. 124 1.14 pooka * Also, this does not work for compat-using binaries! 125 1.14 pooka */ 126 1.14 pooka 127 1.14 pooka #if !__NetBSD_Prereq__(5,99,7) 128 1.14 pooka #define SELECT select 129 1.14 pooka #define POLLTS pollts 130 1.14 pooka #define POLL poll 131 1.14 pooka #else 132 1.14 pooka #define SELECT __select50 133 1.14 pooka #define POLLTS __pollts50 134 1.14 pooka #define POLL __poll50 135 1.14 pooka 136 1.14 pooka int SELECT(int, fd_set *, fd_set *, fd_set *, struct timeval *); 137 1.14 pooka int POLLTS(struct pollfd *, nfds_t, const struct timespec *, const sigset_t *); 138 1.14 pooka int POLL(struct pollfd *, nfds_t, int); 139 1.14 pooka #endif 140 1.14 pooka 141 1.14 pooka /* 142 1.1 pooka * This is called from librumpclient in case of LD_PRELOAD. 143 1.1 pooka * It ensures correct RTLD_NEXT. 144 1.1 pooka */ 145 1.1 pooka static void * 146 1.1 pooka hijackdlsym(void *handle, const char *symbol) 147 1.1 pooka { 148 1.1 pooka 149 1.1 pooka return dlsym(handle, symbol); 150 1.1 pooka } 151 1.1 pooka 152 1.7 pooka /* low calorie sockets? */ 153 1.14 pooka static bool hostlocalsockets = true; 154 1.7 pooka 155 1.1 pooka static void __attribute__((constructor)) 156 1.1 pooka rcinit(void) 157 1.1 pooka { 158 1.1 pooka int (*rumpcinit)(void); 159 1.1 pooka void **rumpcdlsym; 160 1.1 pooka void *hand; 161 1.1 pooka int i; 162 1.1 pooka 163 1.1 pooka hand = dlopen("librumpclient.so", RTLD_LAZY|RTLD_GLOBAL); 164 1.1 pooka if (!hand) 165 1.1 pooka err(1, "cannot open librumpclient.so"); 166 1.1 pooka rumpcinit = dlsym(hand, "rumpclient_init"); 167 1.1 pooka _DIAGASSERT(rumpcinit); 168 1.1 pooka 169 1.1 pooka rumpcdlsym = dlsym(hand, "rumpclient_dlsym"); 170 1.1 pooka *rumpcdlsym = hijackdlsym; 171 1.1 pooka 172 1.7 pooka host_socket = dlsym(RTLD_NEXT, "__socket30"); 173 1.7 pooka host_listen = dlsym(RTLD_NEXT, "listen"); 174 1.7 pooka host_connect = dlsym(RTLD_NEXT, "connect"); 175 1.7 pooka host_bind = dlsym(RTLD_NEXT, "bind"); 176 1.7 pooka host_accept = dlsym(RTLD_NEXT, "accept"); 177 1.7 pooka host_getpeername = dlsym(RTLD_NEXT, "getpeername"); 178 1.7 pooka host_getsockname = dlsym(RTLD_NEXT, "getsockname"); 179 1.7 pooka host_setsockopt = dlsym(RTLD_NEXT, "setsockopt"); 180 1.7 pooka 181 1.1 pooka host_read = dlsym(RTLD_NEXT, "read"); 182 1.1 pooka host_readv = dlsym(RTLD_NEXT, "readv"); 183 1.1 pooka host_write = dlsym(RTLD_NEXT, "write"); 184 1.1 pooka host_writev = dlsym(RTLD_NEXT, "writev"); 185 1.1 pooka host_ioctl = dlsym(RTLD_NEXT, "ioctl"); 186 1.1 pooka host_fcntl = dlsym(RTLD_NEXT, "fcntl"); 187 1.1 pooka host_close = dlsym(RTLD_NEXT, "close"); 188 1.3 pooka host_pollts = dlsym(RTLD_NEXT, "pollts"); 189 1.2 pooka host_fork = dlsym(RTLD_NEXT, "fork"); 190 1.2 pooka host_dup2 = dlsym(RTLD_NEXT, "dup2"); 191 1.14 pooka host_shutdown = dlsym(RTLD_NEXT, "shutdown"); 192 1.1 pooka 193 1.1 pooka for (i = 0; i < RUMPCALL__NUM; i++) { 194 1.8 pooka rumpcalls[i] = dlsym(hand, sysnames[i]); 195 1.1 pooka if (!rumpcalls[i]) { 196 1.8 pooka fprintf(stderr, "rumphijack: cannot find symbol: %s\n", 197 1.8 pooka sysnames[i]); 198 1.1 pooka exit(1); 199 1.1 pooka } 200 1.1 pooka } 201 1.1 pooka 202 1.1 pooka if (rumpcinit() == -1) 203 1.1 pooka err(1, "rumpclient init"); 204 1.1 pooka } 205 1.1 pooka 206 1.5 pooka static unsigned dup2mask; 207 1.10 pooka #define ISDUP2D(fd) (1<<(fd) & dup2mask) 208 1.5 pooka 209 1.1 pooka //#define DEBUGJACK 210 1.1 pooka #ifdef DEBUGJACK 211 1.5 pooka #define DPRINTF(x) mydprintf x 212 1.5 pooka static void 213 1.5 pooka mydprintf(const char *fmt, ...) 214 1.5 pooka { 215 1.5 pooka va_list ap; 216 1.5 pooka 217 1.5 pooka if (ISDUP2D(STDERR_FILENO)) 218 1.5 pooka return; 219 1.5 pooka 220 1.5 pooka va_start(ap, fmt); 221 1.5 pooka vfprintf(stderr, fmt, ap); 222 1.5 pooka va_end(ap); 223 1.5 pooka } 224 1.5 pooka 225 1.1 pooka #else 226 1.1 pooka #define DPRINTF(x) 227 1.1 pooka #endif 228 1.1 pooka 229 1.2 pooka /* XXX: need runtime selection. low for now due to FD_SETSIZE */ 230 1.2 pooka #define HIJACK_FDOFF 128 231 1.2 pooka #define HIJACK_SELECT 128 /* XXX */ 232 1.2 pooka #define HIJACK_ASSERT 128 /* XXX */ 233 1.2 pooka static int 234 1.2 pooka fd_rump2host(int fd) 235 1.2 pooka { 236 1.2 pooka 237 1.2 pooka if (fd == -1) 238 1.2 pooka return fd; 239 1.2 pooka 240 1.2 pooka if (!ISDUP2D(fd)) 241 1.2 pooka fd += HIJACK_FDOFF; 242 1.2 pooka 243 1.2 pooka return fd; 244 1.2 pooka } 245 1.2 pooka 246 1.2 pooka static int 247 1.2 pooka fd_host2rump(int fd) 248 1.2 pooka { 249 1.2 pooka 250 1.2 pooka if (!ISDUP2D(fd)) 251 1.2 pooka fd -= HIJACK_FDOFF; 252 1.2 pooka return fd; 253 1.2 pooka } 254 1.2 pooka 255 1.2 pooka static bool 256 1.2 pooka fd_isrump(int fd) 257 1.2 pooka { 258 1.2 pooka 259 1.2 pooka return ISDUP2D(fd) || fd >= HIJACK_FDOFF; 260 1.2 pooka } 261 1.2 pooka 262 1.2 pooka #define assertfd(_fd_) assert(ISDUP2D(_fd_) || (_fd_) >= HIJACK_ASSERT) 263 1.2 pooka #undef HIJACK_FDOFF 264 1.2 pooka 265 1.1 pooka int __socket30(int, int, int); 266 1.1 pooka int 267 1.1 pooka __socket30(int domain, int type, int protocol) 268 1.1 pooka { 269 1.1 pooka int (*rc_socket)(int, int, int); 270 1.1 pooka int fd; 271 1.7 pooka bool dohost; 272 1.7 pooka 273 1.7 pooka dohost = hostlocalsockets && (domain == AF_LOCAL); 274 1.1 pooka 275 1.7 pooka if (dohost) 276 1.7 pooka rc_socket = host_socket; 277 1.7 pooka else 278 1.7 pooka rc_socket = rumpcalls[RUMPCALL_SOCKET]; 279 1.1 pooka fd = rc_socket(domain, type, protocol); 280 1.2 pooka 281 1.7 pooka if (!dohost) 282 1.7 pooka fd = fd_rump2host(fd); 283 1.7 pooka DPRINTF(("socket <- %d\n", fd)); 284 1.2 pooka 285 1.7 pooka return fd; 286 1.1 pooka } 287 1.1 pooka 288 1.1 pooka int 289 1.1 pooka accept(int s, struct sockaddr *addr, socklen_t *addrlen) 290 1.1 pooka { 291 1.1 pooka int (*rc_accept)(int, struct sockaddr *, socklen_t *); 292 1.1 pooka int fd; 293 1.7 pooka bool isrump; 294 1.7 pooka 295 1.7 pooka isrump = fd_isrump(s); 296 1.1 pooka 297 1.2 pooka DPRINTF(("accept -> %d", s)); 298 1.7 pooka if (isrump) { 299 1.7 pooka rc_accept = rumpcalls[RUMPCALL_ACCEPT]; 300 1.7 pooka s = fd_host2rump(s); 301 1.7 pooka } else { 302 1.7 pooka rc_accept = host_accept; 303 1.7 pooka } 304 1.7 pooka fd = rc_accept(s, addr, addrlen); 305 1.7 pooka if (fd != -1 && isrump) 306 1.7 pooka fd = fd_rump2host(fd); 307 1.7 pooka 308 1.7 pooka DPRINTF((" <- %d\n", fd)); 309 1.2 pooka 310 1.7 pooka return fd; 311 1.1 pooka } 312 1.1 pooka 313 1.1 pooka int 314 1.1 pooka bind(int s, const struct sockaddr *name, socklen_t namelen) 315 1.1 pooka { 316 1.1 pooka int (*rc_bind)(int, const struct sockaddr *, socklen_t); 317 1.1 pooka 318 1.2 pooka DPRINTF(("bind -> %d\n", s)); 319 1.7 pooka if (fd_isrump(s)) { 320 1.7 pooka rc_bind = rumpcalls[RUMPCALL_BIND]; 321 1.7 pooka s = fd_host2rump(s); 322 1.7 pooka } else { 323 1.7 pooka rc_bind = host_bind; 324 1.7 pooka } 325 1.7 pooka return rc_bind(s, name, namelen); 326 1.1 pooka } 327 1.1 pooka 328 1.1 pooka int 329 1.1 pooka connect(int s, const struct sockaddr *name, socklen_t namelen) 330 1.1 pooka { 331 1.1 pooka int (*rc_connect)(int, const struct sockaddr *, socklen_t); 332 1.1 pooka 333 1.2 pooka DPRINTF(("connect -> %d\n", s)); 334 1.7 pooka if (fd_isrump(s)) { 335 1.7 pooka rc_connect = rumpcalls[RUMPCALL_CONNECT]; 336 1.7 pooka s = fd_host2rump(s); 337 1.7 pooka } else { 338 1.7 pooka rc_connect = host_connect; 339 1.7 pooka } 340 1.2 pooka 341 1.7 pooka return rc_connect(s, name, namelen); 342 1.1 pooka } 343 1.1 pooka 344 1.1 pooka int 345 1.1 pooka getpeername(int s, struct sockaddr *name, socklen_t *namelen) 346 1.1 pooka { 347 1.1 pooka int (*rc_getpeername)(int, struct sockaddr *, socklen_t *); 348 1.1 pooka 349 1.2 pooka DPRINTF(("getpeername -> %d\n", s)); 350 1.7 pooka if (fd_isrump(s)) { 351 1.7 pooka rc_getpeername = rumpcalls[RUMPCALL_GETPEERNAME]; 352 1.7 pooka s = fd_host2rump(s); 353 1.7 pooka } else { 354 1.7 pooka rc_getpeername = host_getpeername; 355 1.7 pooka } 356 1.7 pooka return rc_getpeername(s, name, namelen); 357 1.1 pooka } 358 1.1 pooka 359 1.1 pooka int 360 1.1 pooka getsockname(int s, struct sockaddr *name, socklen_t *namelen) 361 1.1 pooka { 362 1.1 pooka int (*rc_getsockname)(int, struct sockaddr *, socklen_t *); 363 1.1 pooka 364 1.2 pooka DPRINTF(("getsockname -> %d\n", s)); 365 1.7 pooka if (fd_isrump(s)) { 366 1.7 pooka rc_getsockname = rumpcalls[RUMPCALL_GETSOCKNAME]; 367 1.7 pooka s = fd_host2rump(s); 368 1.7 pooka } else { 369 1.7 pooka rc_getsockname = host_getsockname; 370 1.7 pooka } 371 1.7 pooka return rc_getsockname(s, name, namelen); 372 1.1 pooka } 373 1.1 pooka 374 1.1 pooka int 375 1.1 pooka listen(int s, int backlog) 376 1.1 pooka { 377 1.1 pooka int (*rc_listen)(int, int); 378 1.1 pooka 379 1.2 pooka DPRINTF(("listen -> %d\n", s)); 380 1.7 pooka if (fd_isrump(s)) { 381 1.7 pooka rc_listen = rumpcalls[RUMPCALL_LISTEN]; 382 1.7 pooka s = fd_host2rump(s); 383 1.7 pooka } else { 384 1.7 pooka rc_listen = host_listen; 385 1.7 pooka } 386 1.7 pooka return rc_listen(s, backlog); 387 1.1 pooka } 388 1.1 pooka 389 1.1 pooka ssize_t 390 1.1 pooka recv(int s, void *buf, size_t len, int flags) 391 1.1 pooka { 392 1.1 pooka 393 1.1 pooka return recvfrom(s, buf, len, flags, NULL, NULL); 394 1.1 pooka } 395 1.1 pooka 396 1.1 pooka ssize_t 397 1.1 pooka recvfrom(int s, void *buf, size_t len, int flags, struct sockaddr *from, 398 1.1 pooka socklen_t *fromlen) 399 1.1 pooka { 400 1.1 pooka int (*rc_recvfrom)(int, void *, size_t, int, 401 1.1 pooka struct sockaddr *, socklen_t *); 402 1.1 pooka 403 1.1 pooka DPRINTF(("recvfrom\n")); 404 1.1 pooka assertfd(s); 405 1.1 pooka rc_recvfrom = rumpcalls[RUMPCALL_RECVFROM]; 406 1.2 pooka return rc_recvfrom(fd_host2rump(s), buf, len, flags, from, fromlen); 407 1.1 pooka } 408 1.1 pooka 409 1.1 pooka ssize_t 410 1.1 pooka recvmsg(int s, struct msghdr *msg, int flags) 411 1.1 pooka { 412 1.1 pooka int (*rc_recvmsg)(int, struct msghdr *, int); 413 1.1 pooka 414 1.1 pooka DPRINTF(("recvmsg\n")); 415 1.1 pooka assertfd(s); 416 1.1 pooka rc_recvmsg = rumpcalls[RUMPCALL_RECVMSG]; 417 1.2 pooka return rc_recvmsg(fd_host2rump(s), msg, flags); 418 1.1 pooka } 419 1.1 pooka 420 1.1 pooka ssize_t 421 1.1 pooka send(int s, const void *buf, size_t len, int flags) 422 1.1 pooka { 423 1.1 pooka 424 1.1 pooka return sendto(s, buf, len, flags, NULL, 0); 425 1.1 pooka } 426 1.1 pooka 427 1.1 pooka ssize_t 428 1.1 pooka sendto(int s, const void *buf, size_t len, int flags, 429 1.1 pooka const struct sockaddr *to, socklen_t tolen) 430 1.1 pooka { 431 1.1 pooka int (*rc_sendto)(int, const void *, size_t, int, 432 1.1 pooka const struct sockaddr *, socklen_t); 433 1.1 pooka 434 1.1 pooka if (s == -1) 435 1.1 pooka return len; 436 1.1 pooka 437 1.1 pooka DPRINTF(("sendto\n")); 438 1.1 pooka assertfd(s); 439 1.1 pooka rc_sendto = rumpcalls[RUMPCALL_SENDTO]; 440 1.2 pooka return rc_sendto(fd_host2rump(s), buf, len, flags, to, tolen); 441 1.1 pooka } 442 1.1 pooka 443 1.1 pooka ssize_t 444 1.1 pooka sendmsg(int s, const struct msghdr *msg, int flags) 445 1.1 pooka { 446 1.1 pooka int (*rc_sendmsg)(int, const struct msghdr *, int); 447 1.1 pooka 448 1.1 pooka DPRINTF(("sendmsg\n")); 449 1.1 pooka assertfd(s); 450 1.1 pooka rc_sendmsg = rumpcalls[RUMPCALL_SENDTO]; 451 1.2 pooka return rc_sendmsg(fd_host2rump(s), msg, flags); 452 1.1 pooka } 453 1.1 pooka 454 1.1 pooka int 455 1.1 pooka getsockopt(int s, int level, int optname, void *optval, socklen_t *optlen) 456 1.1 pooka { 457 1.1 pooka int (*rc_getsockopt)(int, int, int, void *, socklen_t *); 458 1.1 pooka 459 1.7 pooka DPRINTF(("getsockopt -> %d\n", s)); 460 1.1 pooka assertfd(s); 461 1.1 pooka rc_getsockopt = rumpcalls[RUMPCALL_GETSOCKOPT]; 462 1.2 pooka return rc_getsockopt(fd_host2rump(s), level, optname, optval, optlen); 463 1.1 pooka } 464 1.1 pooka 465 1.1 pooka int 466 1.1 pooka setsockopt(int s, int level, int optname, const void *optval, socklen_t optlen) 467 1.1 pooka { 468 1.1 pooka int (*rc_setsockopt)(int, int, int, const void *, socklen_t); 469 1.1 pooka 470 1.7 pooka DPRINTF(("setsockopt -> %d\n", s)); 471 1.7 pooka if (fd_isrump(s)) { 472 1.7 pooka rc_setsockopt = rumpcalls[RUMPCALL_SETSOCKOPT]; 473 1.7 pooka s = fd_host2rump(s); 474 1.7 pooka } else { 475 1.7 pooka rc_setsockopt = host_setsockopt; 476 1.7 pooka } 477 1.7 pooka return rc_setsockopt(s, level, optname, optval, optlen); 478 1.1 pooka } 479 1.1 pooka 480 1.1 pooka int 481 1.1 pooka shutdown(int s, int how) 482 1.1 pooka { 483 1.1 pooka int (*rc_shutdown)(int, int); 484 1.1 pooka 485 1.7 pooka DPRINTF(("shutdown -> %d\n", s)); 486 1.14 pooka if (fd_isrump(s)) { 487 1.14 pooka rc_shutdown = rumpcalls[RUMPCALL_SHUTDOWN]; 488 1.14 pooka s = fd_host2rump(s); 489 1.14 pooka } else { 490 1.14 pooka rc_shutdown = host_shutdown; 491 1.14 pooka } 492 1.14 pooka return rc_shutdown(s, how); 493 1.2 pooka } 494 1.2 pooka 495 1.2 pooka /* 496 1.2 pooka * dup2 is special. we allow dup2 of a rump kernel fd to 0-2 since 497 1.2 pooka * many programs do that. dup2 of a rump kernel fd to another value 498 1.2 pooka * not >= fdoff is an error. 499 1.2 pooka * 500 1.2 pooka * Note: cannot rump2host newd, because it is often hardcoded. 501 1.2 pooka * 502 1.2 pooka * XXX: should disable debug prints after stdout/stderr are dup2'd 503 1.2 pooka */ 504 1.2 pooka int 505 1.2 pooka dup2(int oldd, int newd) 506 1.2 pooka { 507 1.2 pooka int rv; 508 1.2 pooka 509 1.2 pooka DPRINTF(("dup2 -> %d (o) -> %d (n)\n", oldd, newd)); 510 1.2 pooka 511 1.2 pooka if (fd_isrump(oldd)) { 512 1.2 pooka if (!(newd >= 0 && newd <= 2)) 513 1.2 pooka return EBADF; 514 1.2 pooka oldd = fd_host2rump(oldd); 515 1.2 pooka rv = rump_sys_dup2(oldd, newd); 516 1.2 pooka if (rv != -1) 517 1.10 pooka dup2mask |= 1<<newd; 518 1.2 pooka } else { 519 1.10 pooka rv = host_dup2(oldd, newd); 520 1.2 pooka } 521 1.10 pooka 522 1.10 pooka return rv; 523 1.2 pooka } 524 1.2 pooka 525 1.2 pooka /* 526 1.2 pooka * We just wrap fork the appropriate rump client calls to preserve 527 1.2 pooka * the file descriptors of the forked parent in the child, but 528 1.2 pooka * prevent double use of connection fd. 529 1.2 pooka */ 530 1.2 pooka 531 1.2 pooka pid_t 532 1.2 pooka fork() 533 1.2 pooka { 534 1.2 pooka struct rumpclient_fork *rf; 535 1.2 pooka pid_t rv; 536 1.2 pooka 537 1.2 pooka DPRINTF(("fork\n")); 538 1.2 pooka 539 1.2 pooka if ((rf = rumpclient_prefork()) == NULL) 540 1.2 pooka return -1; 541 1.2 pooka 542 1.2 pooka switch ((rv = host_fork())) { 543 1.2 pooka case -1: 544 1.2 pooka /* XXX: cancel rf */ 545 1.2 pooka break; 546 1.2 pooka case 0: 547 1.2 pooka if (rumpclient_fork_init(rf) == -1) 548 1.2 pooka rv = -1; 549 1.2 pooka break; 550 1.2 pooka default: 551 1.2 pooka break; 552 1.2 pooka } 553 1.2 pooka 554 1.2 pooka DPRINTF(("fork returns %d\n", rv)); 555 1.2 pooka return rv; 556 1.1 pooka } 557 1.1 pooka 558 1.1 pooka /* 559 1.1 pooka * Hybrids 560 1.1 pooka */ 561 1.1 pooka 562 1.1 pooka ssize_t 563 1.1 pooka read(int fd, void *buf, size_t len) 564 1.1 pooka { 565 1.1 pooka int (*op_read)(int, void *, size_t); 566 1.1 pooka ssize_t n; 567 1.1 pooka 568 1.1 pooka DPRINTF(("read %d\n", fd)); 569 1.2 pooka if (fd_isrump(fd)) { 570 1.2 pooka fd = fd_host2rump(fd); 571 1.2 pooka op_read = rumpcalls[RUMPCALL_READ]; 572 1.2 pooka } else { 573 1.1 pooka op_read = host_read; 574 1.1 pooka } 575 1.1 pooka 576 1.1 pooka n = op_read(fd, buf, len); 577 1.1 pooka return n; 578 1.1 pooka } 579 1.1 pooka 580 1.1 pooka ssize_t 581 1.1 pooka readv(int fd, const struct iovec *iov, int iovcnt) 582 1.1 pooka { 583 1.1 pooka int (*op_readv)(int, const struct iovec *, int); 584 1.1 pooka 585 1.7 pooka DPRINTF(("readv %d\n", fd)); 586 1.2 pooka if (fd_isrump(fd)) { 587 1.2 pooka fd = fd_host2rump(fd); 588 1.2 pooka op_readv = rumpcalls[RUMPCALL_READV]; 589 1.2 pooka } else { 590 1.1 pooka op_readv = host_readv; 591 1.1 pooka } 592 1.1 pooka 593 1.1 pooka return op_readv(fd, iov, iovcnt); 594 1.1 pooka } 595 1.1 pooka 596 1.1 pooka ssize_t 597 1.1 pooka write(int fd, const void *buf, size_t len) 598 1.1 pooka { 599 1.1 pooka int (*op_write)(int, const void *, size_t); 600 1.1 pooka 601 1.2 pooka if (fd_isrump(fd)) { 602 1.2 pooka fd = fd_host2rump(fd); 603 1.2 pooka op_write = rumpcalls[RUMPCALL_WRITE]; 604 1.2 pooka } else { 605 1.1 pooka op_write = host_write; 606 1.1 pooka } 607 1.1 pooka 608 1.1 pooka return op_write(fd, buf, len); 609 1.1 pooka } 610 1.1 pooka 611 1.1 pooka ssize_t 612 1.1 pooka writev(int fd, const struct iovec *iov, int iovcnt) 613 1.1 pooka { 614 1.1 pooka int (*op_writev)(int, const struct iovec *, int); 615 1.1 pooka 616 1.7 pooka DPRINTF(("writev %d\n", fd)); 617 1.2 pooka if (fd_isrump(fd)) { 618 1.2 pooka fd = fd_host2rump(fd); 619 1.2 pooka op_writev = rumpcalls[RUMPCALL_WRITEV]; 620 1.2 pooka } else { 621 1.1 pooka op_writev = host_writev; 622 1.1 pooka } 623 1.1 pooka 624 1.1 pooka return op_writev(fd, iov, iovcnt); 625 1.1 pooka } 626 1.1 pooka 627 1.1 pooka int 628 1.1 pooka ioctl(int fd, unsigned long cmd, ...) 629 1.1 pooka { 630 1.1 pooka int (*op_ioctl)(int, unsigned long cmd, ...); 631 1.1 pooka va_list ap; 632 1.1 pooka int rv; 633 1.1 pooka 634 1.1 pooka DPRINTF(("ioctl\n")); 635 1.2 pooka if (fd_isrump(fd)) { 636 1.2 pooka fd = fd_host2rump(fd); 637 1.2 pooka op_ioctl = rumpcalls[RUMPCALL_IOCTL]; 638 1.2 pooka } else { 639 1.1 pooka op_ioctl = host_ioctl; 640 1.1 pooka } 641 1.1 pooka 642 1.1 pooka va_start(ap, cmd); 643 1.1 pooka rv = op_ioctl(fd, cmd, va_arg(ap, void *)); 644 1.1 pooka va_end(ap); 645 1.1 pooka return rv; 646 1.1 pooka } 647 1.1 pooka 648 1.1 pooka int 649 1.1 pooka fcntl(int fd, int cmd, ...) 650 1.1 pooka { 651 1.1 pooka int (*op_fcntl)(int, int, ...); 652 1.1 pooka va_list ap; 653 1.1 pooka int rv; 654 1.1 pooka 655 1.1 pooka DPRINTF(("fcntl\n")); 656 1.2 pooka if (fd_isrump(fd)) { 657 1.2 pooka fd = fd_host2rump(fd); 658 1.2 pooka op_fcntl = rumpcalls[RUMPCALL_FCNTL]; 659 1.2 pooka } else { 660 1.1 pooka op_fcntl = host_fcntl; 661 1.1 pooka } 662 1.1 pooka 663 1.1 pooka va_start(ap, cmd); 664 1.1 pooka rv = op_fcntl(fd, cmd, va_arg(ap, void *)); 665 1.1 pooka va_end(ap); 666 1.1 pooka return rv; 667 1.1 pooka } 668 1.1 pooka 669 1.1 pooka int 670 1.1 pooka close(int fd) 671 1.1 pooka { 672 1.1 pooka int (*op_close)(int); 673 1.1 pooka 674 1.1 pooka DPRINTF(("close %d\n", fd)); 675 1.2 pooka if (fd_isrump(fd)) { 676 1.2 pooka fd = fd_host2rump(fd); 677 1.2 pooka op_close = rumpcalls[RUMPCALL_CLOSE]; 678 1.2 pooka } else { 679 1.1 pooka op_close = host_close; 680 1.1 pooka } 681 1.1 pooka 682 1.1 pooka return op_close(fd); 683 1.1 pooka } 684 1.1 pooka 685 1.4 pooka int 686 1.14 pooka SELECT(int nfds, fd_set *readfds, fd_set *writefds, fd_set *exceptfds, 687 1.4 pooka struct timeval *timeout) 688 1.1 pooka { 689 1.4 pooka struct pollfd *pfds; 690 1.4 pooka struct timespec ts, *tsp = NULL; 691 1.4 pooka nfds_t i, j, realnfds; 692 1.4 pooka int rv, incr; 693 1.4 pooka 694 1.7 pooka DPRINTF(("select\n")); 695 1.7 pooka 696 1.4 pooka /* 697 1.4 pooka * Well, first we must scan the fds to figure out how many 698 1.4 pooka * fds there really are. This is because up to and including 699 1.4 pooka * nb5 poll() silently refuses nfds > process_open_fds. 700 1.4 pooka * Seems to be fixed in current, thank the maker. 701 1.4 pooka * god damn cluster...bomb. 702 1.4 pooka */ 703 1.4 pooka 704 1.4 pooka for (i = 0, realnfds = 0; i < nfds; i++) { 705 1.4 pooka if (readfds && FD_ISSET(i, readfds)) { 706 1.4 pooka realnfds++; 707 1.4 pooka continue; 708 1.4 pooka } 709 1.4 pooka if (writefds && FD_ISSET(i, writefds)) { 710 1.4 pooka realnfds++; 711 1.4 pooka continue; 712 1.4 pooka } 713 1.4 pooka if (exceptfds && FD_ISSET(i, exceptfds)) { 714 1.4 pooka realnfds++; 715 1.4 pooka continue; 716 1.1 pooka } 717 1.1 pooka } 718 1.1 pooka 719 1.6 pooka if (realnfds) { 720 1.6 pooka pfds = malloc(sizeof(*pfds) * realnfds); 721 1.6 pooka if (!pfds) 722 1.6 pooka return -1; 723 1.6 pooka } else { 724 1.6 pooka pfds = NULL; 725 1.6 pooka } 726 1.1 pooka 727 1.4 pooka for (i = 0, j = 0; i < nfds; i++) { 728 1.4 pooka incr = 0; 729 1.4 pooka pfds[j].events = pfds[j].revents = 0; 730 1.4 pooka if (readfds && FD_ISSET(i, readfds)) { 731 1.4 pooka pfds[j].fd = i; 732 1.4 pooka pfds[j].events |= POLLIN; 733 1.4 pooka incr=1; 734 1.4 pooka } 735 1.4 pooka if (writefds && FD_ISSET(i, writefds)) { 736 1.4 pooka pfds[j].fd = i; 737 1.4 pooka pfds[j].events |= POLLOUT; 738 1.4 pooka incr=1; 739 1.4 pooka } 740 1.4 pooka if (exceptfds && FD_ISSET(i, exceptfds)) { 741 1.4 pooka pfds[j].fd = i; 742 1.4 pooka pfds[j].events |= POLLHUP|POLLERR; 743 1.4 pooka incr=1; 744 1.1 pooka } 745 1.4 pooka if (incr) 746 1.4 pooka j++; 747 1.1 pooka } 748 1.1 pooka 749 1.4 pooka if (timeout) { 750 1.4 pooka TIMEVAL_TO_TIMESPEC(timeout, &ts); 751 1.4 pooka tsp = &ts; 752 1.4 pooka } 753 1.4 pooka rv = pollts(pfds, realnfds, tsp, NULL); 754 1.4 pooka if (rv <= 0) 755 1.4 pooka goto out; 756 1.4 pooka 757 1.4 pooka /* 758 1.4 pooka * ok, harvest results. first zero out entries (can't use 759 1.4 pooka * FD_ZERO for the obvious select-me-not reason). whee. 760 1.4 pooka */ 761 1.4 pooka for (i = 0; i < nfds; i++) { 762 1.4 pooka if (readfds) 763 1.4 pooka FD_CLR(i, readfds); 764 1.4 pooka if (writefds) 765 1.4 pooka FD_CLR(i, writefds); 766 1.4 pooka if (exceptfds) 767 1.4 pooka FD_CLR(i, exceptfds); 768 1.1 pooka } 769 1.1 pooka 770 1.4 pooka /* and then plug in the results */ 771 1.4 pooka for (i = 0; i < realnfds; i++) { 772 1.4 pooka if (readfds) { 773 1.4 pooka if (pfds[i].revents & POLLIN) { 774 1.4 pooka FD_SET(pfds[i].fd, readfds); 775 1.4 pooka } 776 1.4 pooka } 777 1.4 pooka if (writefds) { 778 1.4 pooka if (pfds[i].revents & POLLOUT) { 779 1.4 pooka FD_SET(pfds[i].fd, writefds); 780 1.4 pooka } 781 1.4 pooka } 782 1.4 pooka if (exceptfds) { 783 1.4 pooka if (pfds[i].revents & (POLLHUP|POLLERR)) { 784 1.4 pooka FD_SET(pfds[i].fd, exceptfds); 785 1.4 pooka } 786 1.4 pooka } 787 1.1 pooka } 788 1.1 pooka 789 1.4 pooka out: 790 1.4 pooka free(pfds); 791 1.1 pooka return rv; 792 1.1 pooka } 793 1.1 pooka 794 1.1 pooka static void 795 1.1 pooka checkpoll(struct pollfd *fds, nfds_t nfds, int *hostcall, int *rumpcall) 796 1.1 pooka { 797 1.1 pooka nfds_t i; 798 1.1 pooka 799 1.1 pooka for (i = 0; i < nfds; i++) { 800 1.12 pooka if (fds[i].fd == -1) 801 1.12 pooka continue; 802 1.12 pooka 803 1.2 pooka if (fd_isrump(fds[i].fd)) 804 1.2 pooka (*rumpcall)++; 805 1.2 pooka else 806 1.1 pooka (*hostcall)++; 807 1.1 pooka } 808 1.1 pooka } 809 1.1 pooka 810 1.1 pooka static void 811 1.2 pooka adjustpoll(struct pollfd *fds, nfds_t nfds, int (*fdadj)(int)) 812 1.1 pooka { 813 1.1 pooka nfds_t i; 814 1.1 pooka 815 1.1 pooka for (i = 0; i < nfds; i++) { 816 1.2 pooka fds[i].fd = fdadj(fds[i].fd); 817 1.1 pooka } 818 1.1 pooka } 819 1.1 pooka 820 1.1 pooka /* 821 1.1 pooka * poll is easy as long as the call comes in the fds only in one 822 1.1 pooka * kernel. otherwise its quite tricky... 823 1.1 pooka */ 824 1.1 pooka struct pollarg { 825 1.1 pooka struct pollfd *pfds; 826 1.1 pooka nfds_t nfds; 827 1.3 pooka const struct timespec *ts; 828 1.3 pooka const sigset_t *sigmask; 829 1.1 pooka int pipefd; 830 1.1 pooka int errnum; 831 1.1 pooka }; 832 1.1 pooka 833 1.1 pooka static void * 834 1.1 pooka hostpoll(void *arg) 835 1.1 pooka { 836 1.1 pooka struct pollarg *parg = arg; 837 1.1 pooka intptr_t rv; 838 1.1 pooka 839 1.3 pooka rv = host_pollts(parg->pfds, parg->nfds, parg->ts, parg->sigmask); 840 1.1 pooka if (rv == -1) 841 1.1 pooka parg->errnum = errno; 842 1.1 pooka rump_sys_write(parg->pipefd, &rv, sizeof(rv)); 843 1.1 pooka 844 1.1 pooka return (void *)(intptr_t)rv; 845 1.1 pooka } 846 1.1 pooka 847 1.1 pooka int 848 1.14 pooka POLLTS(struct pollfd *fds, nfds_t nfds, const struct timespec *ts, 849 1.3 pooka const sigset_t *sigmask) 850 1.1 pooka { 851 1.3 pooka int (*op_pollts)(struct pollfd *, nfds_t, const struct timespec *, 852 1.3 pooka const sigset_t *); 853 1.1 pooka int hostcall = 0, rumpcall = 0; 854 1.1 pooka pthread_t pt; 855 1.1 pooka nfds_t i; 856 1.1 pooka int rv; 857 1.1 pooka 858 1.2 pooka DPRINTF(("poll\n")); 859 1.1 pooka checkpoll(fds, nfds, &hostcall, &rumpcall); 860 1.1 pooka 861 1.1 pooka if (hostcall && rumpcall) { 862 1.1 pooka struct pollfd *pfd_host = NULL, *pfd_rump = NULL; 863 1.1 pooka int rpipe[2] = {-1,-1}, hpipe[2] = {-1,-1}; 864 1.1 pooka struct pollarg parg; 865 1.1 pooka uintptr_t lrv; 866 1.1 pooka int sverrno = 0, trv; 867 1.1 pooka 868 1.1 pooka /* 869 1.1 pooka * ok, this is where it gets tricky. We must support 870 1.1 pooka * this since it's a very common operation in certain 871 1.1 pooka * types of software (telnet, netcat, etc). We allocate 872 1.1 pooka * two vectors and run two poll commands in separate 873 1.1 pooka * threads. Whichever returns first "wins" and the 874 1.1 pooka * other kernel's fds won't show activity. 875 1.1 pooka */ 876 1.1 pooka rv = -1; 877 1.1 pooka 878 1.1 pooka /* allocate full vector for O(n) joining after call */ 879 1.1 pooka pfd_host = malloc(sizeof(*pfd_host)*(nfds+1)); 880 1.1 pooka if (!pfd_host) 881 1.1 pooka goto out; 882 1.1 pooka pfd_rump = malloc(sizeof(*pfd_rump)*(nfds+1)); 883 1.1 pooka if (!pfd_rump) { 884 1.1 pooka goto out; 885 1.1 pooka } 886 1.1 pooka 887 1.1 pooka /* split vectors */ 888 1.1 pooka for (i = 0; i < nfds; i++) { 889 1.3 pooka if (fds[i].fd == -1) { 890 1.3 pooka pfd_host[i].fd = -1; 891 1.3 pooka pfd_rump[i].fd = -1; 892 1.3 pooka } else if (fd_isrump(fds[i].fd)) { 893 1.2 pooka pfd_host[i].fd = -1; 894 1.2 pooka pfd_rump[i].fd = fd_host2rump(fds[i].fd); 895 1.2 pooka pfd_rump[i].events = fds[i].events; 896 1.2 pooka } else { 897 1.2 pooka pfd_rump[i].fd = -1; 898 1.1 pooka pfd_host[i].fd = fds[i].fd; 899 1.1 pooka pfd_host[i].events = fds[i].events; 900 1.1 pooka } 901 1.13 pooka fds[i].revents = 0; 902 1.1 pooka } 903 1.1 pooka 904 1.1 pooka /* 905 1.1 pooka * then, open two pipes, one for notifications 906 1.1 pooka * to each kernel. 907 1.1 pooka */ 908 1.1 pooka if (rump_sys_pipe(rpipe) == -1) 909 1.1 pooka goto out; 910 1.1 pooka if (pipe(hpipe) == -1) 911 1.1 pooka goto out; 912 1.1 pooka 913 1.1 pooka pfd_host[nfds].fd = hpipe[0]; 914 1.1 pooka pfd_host[nfds].events = POLLIN; 915 1.1 pooka pfd_rump[nfds].fd = rpipe[0]; 916 1.1 pooka pfd_rump[nfds].events = POLLIN; 917 1.1 pooka 918 1.1 pooka /* 919 1.1 pooka * then, create a thread to do host part and meanwhile 920 1.1 pooka * do rump kernel part right here 921 1.1 pooka */ 922 1.1 pooka 923 1.1 pooka parg.pfds = pfd_host; 924 1.1 pooka parg.nfds = nfds+1; 925 1.3 pooka parg.ts = ts; 926 1.3 pooka parg.sigmask = sigmask; 927 1.1 pooka parg.pipefd = rpipe[1]; 928 1.1 pooka pthread_create(&pt, NULL, hostpoll, &parg); 929 1.1 pooka 930 1.3 pooka op_pollts = rumpcalls[RUMPCALL_POLLTS]; 931 1.3 pooka lrv = op_pollts(pfd_rump, nfds+1, ts, NULL); 932 1.1 pooka sverrno = errno; 933 1.1 pooka write(hpipe[1], &rv, sizeof(rv)); 934 1.1 pooka pthread_join(pt, (void *)&trv); 935 1.1 pooka 936 1.1 pooka /* check who "won" and merge results */ 937 1.1 pooka if (lrv != 0 && pfd_host[nfds].revents & POLLIN) { 938 1.1 pooka rv = trv; 939 1.1 pooka 940 1.1 pooka for (i = 0; i < nfds; i++) { 941 1.1 pooka if (pfd_rump[i].fd != -1) 942 1.1 pooka fds[i].revents = pfd_rump[i].revents; 943 1.1 pooka } 944 1.1 pooka sverrno = parg.errnum; 945 1.1 pooka } else if (trv != 0 && pfd_rump[nfds].revents & POLLIN) { 946 1.1 pooka rv = trv; 947 1.1 pooka 948 1.1 pooka for (i = 0; i < nfds; i++) { 949 1.1 pooka if (pfd_host[i].fd != -1) 950 1.1 pooka fds[i].revents = pfd_host[i].revents; 951 1.1 pooka } 952 1.1 pooka } else { 953 1.1 pooka rv = 0; 954 1.1 pooka } 955 1.1 pooka 956 1.1 pooka out: 957 1.1 pooka if (rpipe[0] != -1) 958 1.1 pooka rump_sys_close(rpipe[0]); 959 1.1 pooka if (rpipe[1] != -1) 960 1.1 pooka rump_sys_close(rpipe[1]); 961 1.1 pooka if (hpipe[0] != -1) 962 1.9 pooka host_close(hpipe[0]); 963 1.1 pooka if (hpipe[1] != -1) 964 1.9 pooka host_close(hpipe[1]); 965 1.1 pooka free(pfd_host); 966 1.1 pooka free(pfd_rump); 967 1.1 pooka errno = sverrno; 968 1.1 pooka } else { 969 1.1 pooka if (hostcall) { 970 1.3 pooka op_pollts = host_pollts; 971 1.1 pooka } else { 972 1.3 pooka op_pollts = rumpcalls[RUMPCALL_POLLTS]; 973 1.2 pooka adjustpoll(fds, nfds, fd_host2rump); 974 1.1 pooka } 975 1.1 pooka 976 1.3 pooka rv = op_pollts(fds, nfds, ts, sigmask); 977 1.1 pooka if (rumpcall) 978 1.2 pooka adjustpoll(fds, nfds, fd_rump2host); 979 1.1 pooka } 980 1.1 pooka 981 1.1 pooka return rv; 982 1.1 pooka } 983 1.1 pooka 984 1.1 pooka int 985 1.14 pooka POLL(struct pollfd *fds, nfds_t nfds, int timeout) 986 1.1 pooka { 987 1.3 pooka struct timespec ts; 988 1.3 pooka struct timespec *tsp = NULL; 989 1.3 pooka 990 1.3 pooka if (timeout != INFTIM) { 991 1.3 pooka ts.tv_sec = timeout / 1000; 992 1.11 pooka ts.tv_nsec = (timeout % 1000) * 1000*1000; 993 1.3 pooka 994 1.3 pooka tsp = &ts; 995 1.3 pooka } 996 1.1 pooka 997 1.3 pooka return pollts(fds, nfds, tsp, NULL); 998 1.1 pooka } 999 1.10 pooka 1000 1.10 pooka int 1001 1.10 pooka kqueue(void) 1002 1.10 pooka { 1003 1.10 pooka 1004 1.10 pooka abort(); 1005 1.10 pooka } 1006 1.10 pooka 1007 1.10 pooka int 1008 1.10 pooka kevent(int kq, const struct kevent *changelist, size_t nchanges, 1009 1.10 pooka struct kevent *eventlist, size_t nevents, 1010 1.10 pooka const struct timespec *timeout) 1011 1.10 pooka { 1012 1.10 pooka 1013 1.10 pooka abort(); 1014 1.10 pooka } 1015
Indexes created Sat Sep 20 22:09:52 GMT 2025