hijack.c revision 1.109.2.2
1 1.109.2.2 martin /* $NetBSD: hijack.c,v 1.109.2.2 2016/03/03 14:30:52 martin 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 1.106 pooka #include <rump/rumpuser_port.h> 29 1.96 pooka 30 1.101 pooka #if !defined(lint) 31 1.109.2.2 martin __RCSID("$NetBSD: hijack.c,v 1.109.2.2 2016/03/03 14:30:52 martin Exp $"); 32 1.101 pooka #endif 33 1.1 pooka 34 1.1 pooka #include <sys/param.h> 35 1.1 pooka #include <sys/types.h> 36 1.1 pooka #include <sys/ioctl.h> 37 1.62 pooka #include <sys/mman.h> 38 1.48 pooka #include <sys/mount.h> 39 1.1 pooka #include <sys/socket.h> 40 1.96 pooka #include <sys/stat.h> 41 1.96 pooka #include <sys/time.h> 42 1.102 pooka #include <sys/uio.h> 43 1.96 pooka 44 1.107 justin #ifdef PLATFORM_HAS_NBVFSSTAT 45 1.107 justin #include <sys/statvfs.h> 46 1.107 justin #endif 47 1.107 justin 48 1.96 pooka #ifdef PLATFORM_HAS_KQUEUE 49 1.96 pooka #include <sys/event.h> 50 1.96 pooka #endif 51 1.96 pooka 52 1.96 pooka #ifdef PLATFORM_HAS_NBQUOTA 53 1.91 dholland #include <sys/quotactl.h> 54 1.96 pooka #endif 55 1.1 pooka 56 1.1 pooka #include <assert.h> 57 1.1 pooka #include <dlfcn.h> 58 1.1 pooka #include <err.h> 59 1.1 pooka #include <errno.h> 60 1.1 pooka #include <fcntl.h> 61 1.1 pooka #include <poll.h> 62 1.1 pooka #include <pthread.h> 63 1.3 pooka #include <signal.h> 64 1.1 pooka #include <stdarg.h> 65 1.8 pooka #include <stdbool.h> 66 1.96 pooka #include <stdint.h> 67 1.1 pooka #include <stdio.h> 68 1.1 pooka #include <stdlib.h> 69 1.28 pooka #include <string.h> 70 1.3 pooka #include <time.h> 71 1.1 pooka #include <unistd.h> 72 1.1 pooka 73 1.96 pooka #include <rump/rumpclient.h> 74 1.96 pooka #include <rump/rump_syscalls.h> 75 1.96 pooka 76 1.64 pooka #include "hijack.h" 77 1.64 pooka 78 1.96 pooka /* 79 1.96 pooka * XXX: Consider autogenerating this, syscnames[] and syscalls[] with 80 1.96 pooka * a DSL where the tool also checks the symbols exported by this library 81 1.96 pooka * to make sure all relevant calls are accounted for. 82 1.96 pooka */ 83 1.17 pooka enum dualcall { 84 1.60 pooka DUALCALL_WRITE, DUALCALL_WRITEV, DUALCALL_PWRITE, DUALCALL_PWRITEV, 85 1.17 pooka DUALCALL_IOCTL, DUALCALL_FCNTL, 86 1.17 pooka DUALCALL_SOCKET, DUALCALL_ACCEPT, DUALCALL_BIND, DUALCALL_CONNECT, 87 1.17 pooka DUALCALL_GETPEERNAME, DUALCALL_GETSOCKNAME, DUALCALL_LISTEN, 88 1.17 pooka DUALCALL_RECVFROM, DUALCALL_RECVMSG, 89 1.17 pooka DUALCALL_SENDTO, DUALCALL_SENDMSG, 90 1.17 pooka DUALCALL_GETSOCKOPT, DUALCALL_SETSOCKOPT, 91 1.17 pooka DUALCALL_SHUTDOWN, 92 1.60 pooka DUALCALL_READ, DUALCALL_READV, DUALCALL_PREAD, DUALCALL_PREADV, 93 1.41 pooka DUALCALL_DUP2, 94 1.34 pooka DUALCALL_CLOSE, 95 1.17 pooka DUALCALL_POLLTS, 96 1.97 pooka 97 1.97 pooka #ifndef __linux__ 98 1.45 pooka DUALCALL_STAT, DUALCALL_LSTAT, DUALCALL_FSTAT, 99 1.97 pooka #endif 100 1.97 pooka 101 1.45 pooka DUALCALL_CHMOD, DUALCALL_LCHMOD, DUALCALL_FCHMOD, 102 1.45 pooka DUALCALL_CHOWN, DUALCALL_LCHOWN, DUALCALL_FCHOWN, 103 1.45 pooka DUALCALL_OPEN, 104 1.45 pooka DUALCALL_CHDIR, DUALCALL_FCHDIR, 105 1.45 pooka DUALCALL_LSEEK, 106 1.45 pooka DUALCALL_UNLINK, DUALCALL_SYMLINK, DUALCALL_READLINK, 107 1.95 riastrad DUALCALL_LINK, DUALCALL_RENAME, 108 1.45 pooka DUALCALL_MKDIR, DUALCALL_RMDIR, 109 1.45 pooka DUALCALL_UTIMES, DUALCALL_LUTIMES, DUALCALL_FUTIMES, 110 1.109.2.2 martin DUALCALL_UTIMENSAT, DUALCALL_FUTIMENS, 111 1.45 pooka DUALCALL_TRUNCATE, DUALCALL_FTRUNCATE, 112 1.96 pooka DUALCALL_FSYNC, 113 1.97 pooka DUALCALL_ACCESS, 114 1.97 pooka 115 1.97 pooka #ifndef __linux__ 116 1.57 pooka DUALCALL___GETCWD, 117 1.98 pooka DUALCALL_GETDENTS, 118 1.97 pooka #endif 119 1.97 pooka 120 1.97 pooka #ifndef __linux__ 121 1.68 pooka DUALCALL_MKNOD, 122 1.97 pooka #endif 123 1.97 pooka 124 1.97 pooka #ifdef PLATFORM_HAS_NBFILEHANDLE 125 1.96 pooka DUALCALL_GETFH, DUALCALL_FHOPEN, DUALCALL_FHSTAT, DUALCALL_FHSTATVFS1, 126 1.97 pooka #endif 127 1.97 pooka 128 1.97 pooka #ifdef PLATFORM_HAS_KQUEUE 129 1.97 pooka DUALCALL_KEVENT, 130 1.97 pooka #endif 131 1.96 pooka 132 1.96 pooka #ifdef PLATFORM_HAS_NBSYSCTL 133 1.78 pooka DUALCALL___SYSCTL, 134 1.96 pooka #endif 135 1.96 pooka 136 1.96 pooka #ifdef PLATFORM_HAS_NFSSVC 137 1.96 pooka DUALCALL_NFSSVC, 138 1.96 pooka #endif 139 1.96 pooka 140 1.96 pooka #ifdef PLATFORM_HAS_NBVFSSTAT 141 1.96 pooka DUALCALL_STATVFS1, DUALCALL_FSTATVFS1, DUALCALL_GETVFSSTAT, 142 1.96 pooka #endif 143 1.96 pooka 144 1.96 pooka #ifdef PLATFORM_HAS_NBMOUNT 145 1.96 pooka DUALCALL_MOUNT, DUALCALL_UNMOUNT, 146 1.96 pooka #endif 147 1.96 pooka 148 1.96 pooka #ifdef PLATFORM_HAS_FSYNC_RANGE 149 1.96 pooka DUALCALL_FSYNC_RANGE, 150 1.96 pooka #endif 151 1.96 pooka 152 1.96 pooka #ifdef PLATFORM_HAS_CHFLAGS 153 1.96 pooka DUALCALL_CHFLAGS, DUALCALL_LCHFLAGS, DUALCALL_FCHFLAGS, 154 1.96 pooka #endif 155 1.96 pooka 156 1.96 pooka #ifdef PLATFORM_HAS_NBQUOTA 157 1.80 bouyer DUALCALL_QUOTACTL, 158 1.83 pooka #endif 159 1.17 pooka DUALCALL__NUM 160 1.1 pooka }; 161 1.1 pooka 162 1.8 pooka #define RSYS_STRING(a) __STRING(a) 163 1.8 pooka #define RSYS_NAME(a) RSYS_STRING(__CONCAT(RUMP_SYS_RENAME_,a)) 164 1.8 pooka 165 1.1 pooka /* 166 1.14 pooka * Would be nice to get this automatically in sync with libc. 167 1.97 pooka * Also, this does not work for compat-using binaries (we should 168 1.97 pooka * provide all previous interfaces, not just the current ones) 169 1.14 pooka */ 170 1.97 pooka #if defined(__NetBSD__) 171 1.97 pooka 172 1.14 pooka #if !__NetBSD_Prereq__(5,99,7) 173 1.29 pooka #define REALSELECT select 174 1.29 pooka #define REALPOLLTS pollts 175 1.34 pooka #define REALKEVENT kevent 176 1.45 pooka #define REALSTAT __stat30 177 1.45 pooka #define REALLSTAT __lstat30 178 1.45 pooka #define REALFSTAT __fstat30 179 1.45 pooka #define REALUTIMES utimes 180 1.45 pooka #define REALLUTIMES lutimes 181 1.45 pooka #define REALFUTIMES futimes 182 1.68 pooka #define REALMKNOD mknod 183 1.78 pooka #define REALFHSTAT __fhstat40 184 1.96 pooka #else /* >= 5.99.7 */ 185 1.29 pooka #define REALSELECT _sys___select50 186 1.29 pooka #define REALPOLLTS _sys___pollts50 187 1.34 pooka #define REALKEVENT _sys___kevent50 188 1.45 pooka #define REALSTAT __stat50 189 1.45 pooka #define REALLSTAT __lstat50 190 1.45 pooka #define REALFSTAT __fstat50 191 1.45 pooka #define REALUTIMES __utimes50 192 1.45 pooka #define REALLUTIMES __lutimes50 193 1.69 pooka #define REALFUTIMES __futimes50 194 1.68 pooka #define REALMKNOD __mknod50 195 1.78 pooka #define REALFHSTAT __fhstat50 196 1.96 pooka #endif /* < 5.99.7 */ 197 1.97 pooka 198 1.31 pooka #define REALREAD _sys_read 199 1.60 pooka #define REALPREAD _sys_pread 200 1.60 pooka #define REALPWRITE _sys_pwrite 201 1.45 pooka #define REALGETDENTS __getdents30 202 1.48 pooka #define REALMOUNT __mount50 203 1.78 pooka #define REALGETFH __getfh30 204 1.78 pooka #define REALFHOPEN __fhopen40 205 1.78 pooka #define REALFHSTATVFS1 __fhstatvfs140 206 1.91 dholland #define OLDREALQUOTACTL __quotactl50 /* 5.99.48-62 only */ 207 1.96 pooka #define REALSOCKET __socket30 208 1.96 pooka 209 1.96 pooka #define LSEEK_ALIAS _lseek 210 1.96 pooka #define VFORK __vfork14 211 1.96 pooka 212 1.97 pooka int REALSTAT(const char *, struct stat *); 213 1.97 pooka int REALLSTAT(const char *, struct stat *); 214 1.97 pooka int REALFSTAT(int, struct stat *); 215 1.97 pooka int REALMKNOD(const char *, mode_t, dev_t); 216 1.98 pooka int REALGETDENTS(int, char *, size_t); 217 1.97 pooka 218 1.97 pooka int __getcwd(char *, size_t); 219 1.97 pooka 220 1.97 pooka #elif defined(__linux__) /* glibc, really */ 221 1.96 pooka 222 1.96 pooka #define REALREAD read 223 1.96 pooka #define REALPREAD pread 224 1.96 pooka #define REALPWRITE pwrite 225 1.96 pooka #define REALSELECT select 226 1.96 pooka #define REALPOLLTS ppoll 227 1.96 pooka #define REALUTIMES utimes 228 1.96 pooka #define REALLUTIMES lutimes 229 1.96 pooka #define REALFUTIMES futimes 230 1.96 pooka #define REALFHSTAT fhstat 231 1.96 pooka #define REALSOCKET socket 232 1.96 pooka 233 1.97 pooka #else /* !NetBSD && !linux */ 234 1.97 pooka 235 1.97 pooka #error platform not supported 236 1.97 pooka 237 1.97 pooka #endif /* platform */ 238 1.14 pooka 239 1.29 pooka int REALSELECT(int, fd_set *, fd_set *, fd_set *, struct timeval *); 240 1.29 pooka int REALPOLLTS(struct pollfd *, nfds_t, 241 1.20 pooka const struct timespec *, const sigset_t *); 242 1.34 pooka int REALKEVENT(int, const struct kevent *, size_t, struct kevent *, size_t, 243 1.34 pooka const struct timespec *); 244 1.31 pooka ssize_t REALREAD(int, void *, size_t); 245 1.60 pooka ssize_t REALPREAD(int, void *, size_t, off_t); 246 1.60 pooka ssize_t REALPWRITE(int, const void *, size_t, off_t); 247 1.45 pooka int REALUTIMES(const char *, const struct timeval [2]); 248 1.45 pooka int REALLUTIMES(const char *, const struct timeval [2]); 249 1.45 pooka int REALFUTIMES(int, const struct timeval [2]); 250 1.48 pooka int REALMOUNT(const char *, const char *, int, void *, size_t); 251 1.78 pooka int REALGETFH(const char *, void *, size_t *); 252 1.78 pooka int REALFHOPEN(const void *, size_t, int); 253 1.78 pooka int REALFHSTAT(const void *, size_t, struct stat *); 254 1.78 pooka int REALFHSTATVFS1(const void *, size_t, struct statvfs *, int); 255 1.96 pooka int REALSOCKET(int, int, int); 256 1.96 pooka 257 1.96 pooka #ifdef PLATFORM_HAS_NBQUOTA 258 1.91 dholland int OLDREALQUOTACTL(const char *, struct plistref *); 259 1.96 pooka #endif 260 1.17 pooka 261 1.17 pooka #define S(a) __STRING(a) 262 1.17 pooka struct sysnames { 263 1.17 pooka enum dualcall scm_callnum; 264 1.17 pooka const char *scm_hostname; 265 1.17 pooka const char *scm_rumpname; 266 1.83 pooka } syscnames[] = { 267 1.96 pooka { DUALCALL_SOCKET, S(REALSOCKET), RSYS_NAME(SOCKET) }, 268 1.17 pooka { DUALCALL_ACCEPT, "accept", RSYS_NAME(ACCEPT) }, 269 1.17 pooka { DUALCALL_BIND, "bind", RSYS_NAME(BIND) }, 270 1.17 pooka { DUALCALL_CONNECT, "connect", RSYS_NAME(CONNECT) }, 271 1.17 pooka { DUALCALL_GETPEERNAME, "getpeername", RSYS_NAME(GETPEERNAME) }, 272 1.17 pooka { DUALCALL_GETSOCKNAME, "getsockname", RSYS_NAME(GETSOCKNAME) }, 273 1.17 pooka { DUALCALL_LISTEN, "listen", RSYS_NAME(LISTEN) }, 274 1.17 pooka { DUALCALL_RECVFROM, "recvfrom", RSYS_NAME(RECVFROM) }, 275 1.17 pooka { DUALCALL_RECVMSG, "recvmsg", RSYS_NAME(RECVMSG) }, 276 1.17 pooka { DUALCALL_SENDTO, "sendto", RSYS_NAME(SENDTO) }, 277 1.17 pooka { DUALCALL_SENDMSG, "sendmsg", RSYS_NAME(SENDMSG) }, 278 1.17 pooka { DUALCALL_GETSOCKOPT, "getsockopt", RSYS_NAME(GETSOCKOPT) }, 279 1.17 pooka { DUALCALL_SETSOCKOPT, "setsockopt", RSYS_NAME(SETSOCKOPT) }, 280 1.17 pooka { DUALCALL_SHUTDOWN, "shutdown", RSYS_NAME(SHUTDOWN) }, 281 1.31 pooka { DUALCALL_READ, S(REALREAD), RSYS_NAME(READ) }, 282 1.17 pooka { DUALCALL_READV, "readv", RSYS_NAME(READV) }, 283 1.60 pooka { DUALCALL_PREAD, S(REALPREAD), RSYS_NAME(PREAD) }, 284 1.60 pooka { DUALCALL_PREADV, "preadv", RSYS_NAME(PREADV) }, 285 1.17 pooka { DUALCALL_WRITE, "write", RSYS_NAME(WRITE) }, 286 1.17 pooka { DUALCALL_WRITEV, "writev", RSYS_NAME(WRITEV) }, 287 1.60 pooka { DUALCALL_PWRITE, S(REALPWRITE), RSYS_NAME(PWRITE) }, 288 1.60 pooka { DUALCALL_PWRITEV, "pwritev", RSYS_NAME(PWRITEV) }, 289 1.17 pooka { DUALCALL_IOCTL, "ioctl", RSYS_NAME(IOCTL) }, 290 1.17 pooka { DUALCALL_FCNTL, "fcntl", RSYS_NAME(FCNTL) }, 291 1.17 pooka { DUALCALL_DUP2, "dup2", RSYS_NAME(DUP2) }, 292 1.17 pooka { DUALCALL_CLOSE, "close", RSYS_NAME(CLOSE) }, 293 1.29 pooka { DUALCALL_POLLTS, S(REALPOLLTS), RSYS_NAME(POLLTS) }, 294 1.97 pooka #ifndef __linux__ 295 1.45 pooka { DUALCALL_STAT, S(REALSTAT), RSYS_NAME(STAT) }, 296 1.45 pooka { DUALCALL_LSTAT, S(REALLSTAT), RSYS_NAME(LSTAT) }, 297 1.45 pooka { DUALCALL_FSTAT, S(REALFSTAT), RSYS_NAME(FSTAT) }, 298 1.97 pooka #endif 299 1.45 pooka { DUALCALL_CHOWN, "chown", RSYS_NAME(CHOWN) }, 300 1.45 pooka { DUALCALL_LCHOWN, "lchown", RSYS_NAME(LCHOWN) }, 301 1.45 pooka { DUALCALL_FCHOWN, "fchown", RSYS_NAME(FCHOWN) }, 302 1.45 pooka { DUALCALL_CHMOD, "chmod", RSYS_NAME(CHMOD) }, 303 1.45 pooka { DUALCALL_LCHMOD, "lchmod", RSYS_NAME(LCHMOD) }, 304 1.45 pooka { DUALCALL_FCHMOD, "fchmod", RSYS_NAME(FCHMOD) }, 305 1.45 pooka { DUALCALL_UTIMES, S(REALUTIMES), RSYS_NAME(UTIMES) }, 306 1.45 pooka { DUALCALL_LUTIMES, S(REALLUTIMES), RSYS_NAME(LUTIMES) }, 307 1.45 pooka { DUALCALL_FUTIMES, S(REALFUTIMES), RSYS_NAME(FUTIMES) }, 308 1.109.2.2 martin { DUALCALL_UTIMENSAT, "utimensat", RSYS_NAME(UTIMENSAT) }, 309 1.109.2.2 martin { DUALCALL_FUTIMENS, "futimens", RSYS_NAME(FUTIMENS) }, 310 1.45 pooka { DUALCALL_OPEN, "open", RSYS_NAME(OPEN) }, 311 1.45 pooka { DUALCALL_CHDIR, "chdir", RSYS_NAME(CHDIR) }, 312 1.45 pooka { DUALCALL_FCHDIR, "fchdir", RSYS_NAME(FCHDIR) }, 313 1.61 pooka { DUALCALL_LSEEK, "lseek", RSYS_NAME(LSEEK) }, 314 1.45 pooka { DUALCALL_UNLINK, "unlink", RSYS_NAME(UNLINK) }, 315 1.45 pooka { DUALCALL_SYMLINK, "symlink", RSYS_NAME(SYMLINK) }, 316 1.45 pooka { DUALCALL_READLINK, "readlink", RSYS_NAME(READLINK) }, 317 1.95 riastrad { DUALCALL_LINK, "link", RSYS_NAME(LINK) }, 318 1.45 pooka { DUALCALL_RENAME, "rename", RSYS_NAME(RENAME) }, 319 1.45 pooka { DUALCALL_MKDIR, "mkdir", RSYS_NAME(MKDIR) }, 320 1.45 pooka { DUALCALL_RMDIR, "rmdir", RSYS_NAME(RMDIR) }, 321 1.45 pooka { DUALCALL_TRUNCATE, "truncate", RSYS_NAME(TRUNCATE) }, 322 1.45 pooka { DUALCALL_FTRUNCATE, "ftruncate", RSYS_NAME(FTRUNCATE) }, 323 1.45 pooka { DUALCALL_FSYNC, "fsync", RSYS_NAME(FSYNC) }, 324 1.97 pooka { DUALCALL_ACCESS, "access", RSYS_NAME(ACCESS) }, 325 1.97 pooka 326 1.97 pooka #ifndef __linux__ 327 1.57 pooka { DUALCALL___GETCWD, "__getcwd", RSYS_NAME(__GETCWD) }, 328 1.98 pooka { DUALCALL_GETDENTS, S(REALGETDENTS),RSYS_NAME(GETDENTS) }, 329 1.97 pooka #endif 330 1.97 pooka 331 1.97 pooka #ifndef __linux__ 332 1.68 pooka { DUALCALL_MKNOD, S(REALMKNOD), RSYS_NAME(MKNOD) }, 333 1.97 pooka #endif 334 1.97 pooka 335 1.97 pooka #ifdef PLATFORM_HAS_NBFILEHANDLE 336 1.79 bouyer { DUALCALL_GETFH, S(REALGETFH), RSYS_NAME(GETFH) }, 337 1.97 pooka { DUALCALL_FHOPEN, S(REALFHOPEN), RSYS_NAME(FHOPEN) }, 338 1.97 pooka { DUALCALL_FHSTAT, S(REALFHSTAT), RSYS_NAME(FHSTAT) }, 339 1.79 bouyer { DUALCALL_FHSTATVFS1, S(REALFHSTATVFS1),RSYS_NAME(FHSTATVFS1) }, 340 1.97 pooka #endif 341 1.97 pooka 342 1.97 pooka #ifdef PLATFORM_HAS_KQUEUE 343 1.97 pooka { DUALCALL_KEVENT, S(REALKEVENT), RSYS_NAME(KEVENT) }, 344 1.97 pooka #endif 345 1.96 pooka 346 1.96 pooka #ifdef PLATFORM_HAS_NBSYSCTL 347 1.96 pooka { DUALCALL___SYSCTL, "__sysctl", RSYS_NAME(__SYSCTL) }, 348 1.96 pooka #endif 349 1.96 pooka 350 1.96 pooka #ifdef PLATFORM_HAS_NFSSVC 351 1.96 pooka { DUALCALL_NFSSVC, "nfssvc", RSYS_NAME(NFSSVC) }, 352 1.96 pooka #endif 353 1.96 pooka 354 1.96 pooka #ifdef PLATFORM_HAS_NBVFSSTAT 355 1.96 pooka { DUALCALL_STATVFS1, "statvfs1", RSYS_NAME(STATVFS1) }, 356 1.96 pooka { DUALCALL_FSTATVFS1, "fstatvfs1", RSYS_NAME(FSTATVFS1) }, 357 1.96 pooka { DUALCALL_GETVFSSTAT, "getvfsstat", RSYS_NAME(GETVFSSTAT) }, 358 1.96 pooka #endif 359 1.96 pooka 360 1.96 pooka #ifdef PLATFORM_HAS_NBMOUNT 361 1.96 pooka { DUALCALL_MOUNT, S(REALMOUNT), RSYS_NAME(MOUNT) }, 362 1.96 pooka { DUALCALL_UNMOUNT, "unmount", RSYS_NAME(UNMOUNT) }, 363 1.96 pooka #endif 364 1.96 pooka 365 1.96 pooka #ifdef PLATFORM_HAS_FSYNC_RANGE 366 1.96 pooka { DUALCALL_FSYNC_RANGE, "fsync_range", RSYS_NAME(FSYNC_RANGE) }, 367 1.96 pooka #endif 368 1.96 pooka 369 1.96 pooka #ifdef PLATFORM_HAS_CHFLAGS 370 1.96 pooka { DUALCALL_CHFLAGS, "chflags", RSYS_NAME(CHFLAGS) }, 371 1.96 pooka { DUALCALL_LCHFLAGS, "lchflags", RSYS_NAME(LCHFLAGS) }, 372 1.96 pooka { DUALCALL_FCHFLAGS, "fchflags", RSYS_NAME(FCHFLAGS) }, 373 1.96 pooka #endif /* PLATFORM_HAS_CHFLAGS */ 374 1.96 pooka 375 1.96 pooka #ifdef PLATFORM_HAS_NBQUOTA 376 1.91 dholland #if __NetBSD_Prereq__(5,99,63) 377 1.91 dholland { DUALCALL_QUOTACTL, "__quotactl", RSYS_NAME(__QUOTACTL) }, 378 1.91 dholland #elif __NetBSD_Prereq__(5,99,48) 379 1.91 dholland { DUALCALL_QUOTACTL, S(OLDREALQUOTACTL),RSYS_NAME(QUOTACTL) }, 380 1.83 pooka #endif 381 1.96 pooka #endif /* PLATFORM_HAS_NBQUOTA */ 382 1.96 pooka 383 1.17 pooka }; 384 1.17 pooka #undef S 385 1.17 pooka 386 1.17 pooka struct bothsys { 387 1.17 pooka void *bs_host; 388 1.17 pooka void *bs_rump; 389 1.17 pooka } syscalls[DUALCALL__NUM]; 390 1.17 pooka #define GETSYSCALL(which, name) syscalls[DUALCALL_##name].bs_##which 391 1.17 pooka 392 1.71 pooka static pid_t (*host_fork)(void); 393 1.71 pooka static int (*host_daemon)(int, int); 394 1.71 pooka static void * (*host_mmap)(void *, size_t, int, int, int, off_t); 395 1.71 pooka 396 1.75 pooka /* 397 1.75 pooka * This tracks if our process is in a subdirectory of /rump. 398 1.75 pooka * It's preserved over exec. 399 1.75 pooka */ 400 1.75 pooka static bool pwdinrump; 401 1.75 pooka 402 1.75 pooka enum pathtype { PATH_HOST, PATH_RUMP, PATH_RUMPBLANKET }; 403 1.75 pooka 404 1.75 pooka static bool fd_isrump(int); 405 1.75 pooka static enum pathtype path_isrump(const char *); 406 1.71 pooka 407 1.85 pooka /* default FD_SETSIZE is 256 ==> default fdoff is 128 */ 408 1.85 pooka static int hijack_fdoff = FD_SETSIZE/2; 409 1.85 pooka 410 1.71 pooka /* 411 1.71 pooka * Maintain a mapping table for the usual dup2 suspects. 412 1.74 pooka * Could use atomic ops to operate on dup2vec, but an application 413 1.74 pooka * racing there is not well-defined, so don't bother. 414 1.71 pooka */ 415 1.71 pooka /* note: you cannot change this without editing the env-passing code */ 416 1.71 pooka #define DUP2HIGH 2 417 1.71 pooka static uint32_t dup2vec[DUP2HIGH+1]; 418 1.71 pooka #define DUP2BIT (1<<31) 419 1.71 pooka #define DUP2ALIAS (1<<30) 420 1.71 pooka #define DUP2FDMASK ((1<<30)-1) 421 1.71 pooka 422 1.71 pooka static bool 423 1.71 pooka isdup2d(int fd) 424 1.71 pooka { 425 1.71 pooka 426 1.71 pooka return fd <= DUP2HIGH && fd >= 0 && dup2vec[fd] & DUP2BIT; 427 1.71 pooka } 428 1.71 pooka 429 1.71 pooka static int 430 1.71 pooka mapdup2(int hostfd) 431 1.71 pooka { 432 1.71 pooka 433 1.71 pooka _DIAGASSERT(isdup2d(hostfd)); 434 1.71 pooka return dup2vec[hostfd] & DUP2FDMASK; 435 1.71 pooka } 436 1.71 pooka 437 1.71 pooka static int 438 1.71 pooka unmapdup2(int rumpfd) 439 1.71 pooka { 440 1.71 pooka int i; 441 1.71 pooka 442 1.71 pooka for (i = 0; i <= DUP2HIGH; i++) { 443 1.72 pooka if (dup2vec[i] & DUP2BIT && 444 1.72 pooka (dup2vec[i] & DUP2FDMASK) == (unsigned)rumpfd) 445 1.71 pooka return i; 446 1.71 pooka } 447 1.71 pooka return -1; 448 1.71 pooka } 449 1.71 pooka 450 1.71 pooka static void 451 1.71 pooka setdup2(int hostfd, int rumpfd) 452 1.71 pooka { 453 1.71 pooka 454 1.71 pooka if (hostfd > DUP2HIGH) { 455 1.71 pooka _DIAGASSERT(0); 456 1.71 pooka return; 457 1.71 pooka } 458 1.71 pooka 459 1.71 pooka dup2vec[hostfd] = DUP2BIT | DUP2ALIAS | rumpfd; 460 1.71 pooka } 461 1.71 pooka 462 1.71 pooka static void 463 1.71 pooka clrdup2(int hostfd) 464 1.71 pooka { 465 1.71 pooka 466 1.71 pooka if (hostfd > DUP2HIGH) { 467 1.71 pooka _DIAGASSERT(0); 468 1.71 pooka return; 469 1.71 pooka } 470 1.71 pooka 471 1.71 pooka dup2vec[hostfd] = 0; 472 1.71 pooka } 473 1.71 pooka 474 1.71 pooka static bool 475 1.71 pooka killdup2alias(int rumpfd) 476 1.71 pooka { 477 1.71 pooka int hostfd; 478 1.71 pooka 479 1.71 pooka if ((hostfd = unmapdup2(rumpfd)) == -1) 480 1.71 pooka return false; 481 1.71 pooka 482 1.71 pooka if (dup2vec[hostfd] & DUP2ALIAS) { 483 1.71 pooka dup2vec[hostfd] &= ~DUP2ALIAS; 484 1.71 pooka return true; 485 1.71 pooka } 486 1.71 pooka return false; 487 1.71 pooka } 488 1.17 pooka 489 1.17 pooka //#define DEBUGJACK 490 1.17 pooka #ifdef DEBUGJACK 491 1.17 pooka #define DPRINTF(x) mydprintf x 492 1.17 pooka static void 493 1.17 pooka mydprintf(const char *fmt, ...) 494 1.17 pooka { 495 1.17 pooka va_list ap; 496 1.17 pooka 497 1.71 pooka if (isdup2d(STDERR_FILENO)) 498 1.17 pooka return; 499 1.17 pooka 500 1.17 pooka va_start(ap, fmt); 501 1.17 pooka vfprintf(stderr, fmt, ap); 502 1.17 pooka va_end(ap); 503 1.17 pooka } 504 1.17 pooka 505 1.71 pooka static const char * 506 1.71 pooka whichfd(int fd) 507 1.71 pooka { 508 1.71 pooka 509 1.71 pooka if (fd == -1) 510 1.71 pooka return "-1"; 511 1.71 pooka else if (fd_isrump(fd)) 512 1.71 pooka return "rump"; 513 1.71 pooka else 514 1.71 pooka return "host"; 515 1.71 pooka } 516 1.71 pooka 517 1.71 pooka static const char * 518 1.71 pooka whichpath(const char *path) 519 1.71 pooka { 520 1.71 pooka 521 1.71 pooka if (path_isrump(path)) 522 1.71 pooka return "rump"; 523 1.71 pooka else 524 1.71 pooka return "host"; 525 1.71 pooka } 526 1.71 pooka 527 1.17 pooka #else 528 1.17 pooka #define DPRINTF(x) 529 1.14 pooka #endif 530 1.14 pooka 531 1.109.2.2 martin #define ATCALL(type, name, rcname, args, proto, vars) \ 532 1.109.2.2 martin type name args \ 533 1.109.2.2 martin { \ 534 1.109.2.2 martin type (*fun) proto; \ 535 1.109.2.2 martin int isrump = -1; \ 536 1.109.2.2 martin \ 537 1.109.2.2 martin if (fd == AT_FDCWD || *path == '/') { \ 538 1.109.2.2 martin isrump = path_isrump(path); \ 539 1.109.2.2 martin } else { \ 540 1.109.2.2 martin isrump = fd_isrump(fd); \ 541 1.109.2.2 martin } \ 542 1.109.2.2 martin \ 543 1.109.2.2 martin DPRINTF(("%s -> %d:%s (%s)\n", __STRING(name), \ 544 1.109.2.2 martin fd, path, isrump ? "rump" : "host")); \ 545 1.109.2.2 martin \ 546 1.109.2.2 martin assert(isrump != -1); \ 547 1.109.2.2 martin if (isrump) { \ 548 1.109.2.2 martin fun = syscalls[rcname].bs_rump; \ 549 1.109.2.2 martin if (fd != AT_FDCWD) \ 550 1.109.2.2 martin fd = fd_host2rump(fd); \ 551 1.109.2.2 martin path = path_host2rump(path); \ 552 1.109.2.2 martin } else { \ 553 1.109.2.2 martin fun = syscalls[rcname].bs_host; \ 554 1.109.2.2 martin } \ 555 1.109.2.2 martin return fun vars; \ 556 1.109.2.2 martin } 557 1.109.2.2 martin 558 1.17 pooka #define FDCALL(type, name, rcname, args, proto, vars) \ 559 1.17 pooka type name args \ 560 1.17 pooka { \ 561 1.17 pooka type (*fun) proto; \ 562 1.17 pooka \ 563 1.71 pooka DPRINTF(("%s -> %d (%s)\n", __STRING(name), fd, whichfd(fd))); \ 564 1.17 pooka if (fd_isrump(fd)) { \ 565 1.17 pooka fun = syscalls[rcname].bs_rump; \ 566 1.17 pooka fd = fd_host2rump(fd); \ 567 1.17 pooka } else { \ 568 1.17 pooka fun = syscalls[rcname].bs_host; \ 569 1.17 pooka } \ 570 1.17 pooka \ 571 1.17 pooka return fun vars; \ 572 1.17 pooka } 573 1.17 pooka 574 1.45 pooka #define PATHCALL(type, name, rcname, args, proto, vars) \ 575 1.45 pooka type name args \ 576 1.45 pooka { \ 577 1.45 pooka type (*fun) proto; \ 578 1.75 pooka enum pathtype pt; \ 579 1.45 pooka \ 580 1.71 pooka DPRINTF(("%s -> %s (%s)\n", __STRING(name), path, \ 581 1.71 pooka whichpath(path))); \ 582 1.75 pooka if ((pt = path_isrump(path)) != PATH_HOST) { \ 583 1.45 pooka fun = syscalls[rcname].bs_rump; \ 584 1.75 pooka if (pt == PATH_RUMP) \ 585 1.75 pooka path = path_host2rump(path); \ 586 1.45 pooka } else { \ 587 1.45 pooka fun = syscalls[rcname].bs_host; \ 588 1.45 pooka } \ 589 1.45 pooka \ 590 1.45 pooka return fun vars; \ 591 1.45 pooka } 592 1.45 pooka 593 1.78 pooka #define VFSCALL(bit, type, name, rcname, args, proto, vars) \ 594 1.78 pooka type name args \ 595 1.78 pooka { \ 596 1.78 pooka type (*fun) proto; \ 597 1.78 pooka \ 598 1.78 pooka DPRINTF(("%s (0x%x, 0x%x)\n", __STRING(name), bit, vfsbits)); \ 599 1.78 pooka if (vfsbits & bit) { \ 600 1.78 pooka fun = syscalls[rcname].bs_rump; \ 601 1.78 pooka } else { \ 602 1.78 pooka fun = syscalls[rcname].bs_host; \ 603 1.78 pooka } \ 604 1.78 pooka \ 605 1.78 pooka return fun vars; \ 606 1.78 pooka } 607 1.78 pooka 608 1.14 pooka /* 609 1.49 pooka * These variables are set from the RUMPHIJACK string and control 610 1.49 pooka * which operations can product rump kernel file descriptors. 611 1.49 pooka * This should be easily extendable for future needs. 612 1.49 pooka */ 613 1.49 pooka #define RUMPHIJACK_DEFAULT "path=/rump,socket=all:nolocal" 614 1.49 pooka static bool rumpsockets[PF_MAX]; 615 1.49 pooka static const char *rumpprefix; 616 1.49 pooka static size_t rumpprefixlen; 617 1.49 pooka 618 1.49 pooka static struct { 619 1.49 pooka int pf; 620 1.49 pooka const char *name; 621 1.49 pooka } socketmap[] = { 622 1.51 pooka { PF_LOCAL, "local" }, 623 1.49 pooka { PF_INET, "inet" }, 624 1.96 pooka #ifdef PF_LINK 625 1.49 pooka { PF_LINK, "link" }, 626 1.96 pooka #endif 627 1.55 pooka #ifdef PF_OROUTE 628 1.56 pooka { PF_OROUTE, "oroute" }, 629 1.56 pooka #endif 630 1.49 pooka { PF_ROUTE, "route" }, 631 1.49 pooka { PF_INET6, "inet6" }, 632 1.55 pooka #ifdef PF_MPLS 633 1.55 pooka { PF_MPLS, "mpls" }, 634 1.55 pooka #endif 635 1.49 pooka { -1, NULL } 636 1.49 pooka }; 637 1.49 pooka 638 1.49 pooka static void 639 1.49 pooka sockparser(char *buf) 640 1.49 pooka { 641 1.96 pooka char *p, *l = NULL; 642 1.49 pooka bool value; 643 1.49 pooka int i; 644 1.49 pooka 645 1.49 pooka /* if "all" is present, it must be specified first */ 646 1.49 pooka if (strncmp(buf, "all", strlen("all")) == 0) { 647 1.50 pooka for (i = 0; i < (int)__arraycount(rumpsockets); i++) { 648 1.49 pooka rumpsockets[i] = true; 649 1.49 pooka } 650 1.49 pooka buf += strlen("all"); 651 1.49 pooka if (*buf == ':') 652 1.49 pooka buf++; 653 1.49 pooka } 654 1.49 pooka 655 1.49 pooka for (p = strtok_r(buf, ":", &l); p; p = strtok_r(NULL, ":", &l)) { 656 1.49 pooka value = true; 657 1.49 pooka if (strncmp(p, "no", strlen("no")) == 0) { 658 1.49 pooka value = false; 659 1.49 pooka p += strlen("no"); 660 1.49 pooka } 661 1.45 pooka 662 1.49 pooka for (i = 0; socketmap[i].name; i++) { 663 1.49 pooka if (strcmp(p, socketmap[i].name) == 0) { 664 1.49 pooka rumpsockets[socketmap[i].pf] = value; 665 1.49 pooka break; 666 1.49 pooka } 667 1.49 pooka } 668 1.49 pooka if (socketmap[i].name == NULL) { 669 1.78 pooka errx(1, "invalid socket specifier %s", p); 670 1.49 pooka } 671 1.49 pooka } 672 1.49 pooka } 673 1.49 pooka 674 1.49 pooka static void 675 1.49 pooka pathparser(char *buf) 676 1.49 pooka { 677 1.49 pooka 678 1.57 pooka /* sanity-check */ 679 1.49 pooka if (*buf != '/') 680 1.49 pooka errx(1, "hijack path specifier must begin with ``/''"); 681 1.57 pooka rumpprefixlen = strlen(buf); 682 1.57 pooka if (rumpprefixlen < 2) 683 1.57 pooka errx(1, "invalid hijack prefix: %s", buf); 684 1.57 pooka if (buf[rumpprefixlen-1] == '/' && strspn(buf, "/") != rumpprefixlen) 685 1.57 pooka errx(1, "hijack prefix may end in slash only if pure " 686 1.57 pooka "slash, gave %s", buf); 687 1.49 pooka 688 1.49 pooka if ((rumpprefix = strdup(buf)) == NULL) 689 1.49 pooka err(1, "strdup"); 690 1.49 pooka rumpprefixlen = strlen(rumpprefix); 691 1.49 pooka } 692 1.49 pooka 693 1.75 pooka static struct blanket { 694 1.75 pooka const char *pfx; 695 1.75 pooka size_t len; 696 1.75 pooka } *blanket; 697 1.75 pooka static int nblanket; 698 1.75 pooka 699 1.75 pooka static void 700 1.75 pooka blanketparser(char *buf) 701 1.75 pooka { 702 1.96 pooka char *p, *l = NULL; 703 1.75 pooka int i; 704 1.75 pooka 705 1.75 pooka for (nblanket = 0, p = buf; p; p = strchr(p+1, ':'), nblanket++) 706 1.75 pooka continue; 707 1.75 pooka 708 1.75 pooka blanket = malloc(nblanket * sizeof(*blanket)); 709 1.75 pooka if (blanket == NULL) 710 1.75 pooka err(1, "alloc blanket %d", nblanket); 711 1.75 pooka 712 1.75 pooka for (p = strtok_r(buf, ":", &l), i = 0; p; 713 1.75 pooka p = strtok_r(NULL, ":", &l), i++) { 714 1.75 pooka blanket[i].pfx = strdup(p); 715 1.75 pooka if (blanket[i].pfx == NULL) 716 1.75 pooka err(1, "strdup blanket"); 717 1.75 pooka blanket[i].len = strlen(p); 718 1.75 pooka 719 1.75 pooka if (blanket[i].len == 0 || *blanket[i].pfx != '/') 720 1.75 pooka errx(1, "invalid blanket specifier %s", p); 721 1.75 pooka if (*(blanket[i].pfx + blanket[i].len-1) == '/') 722 1.75 pooka errx(1, "invalid blanket specifier %s", p); 723 1.75 pooka } 724 1.75 pooka } 725 1.75 pooka 726 1.78 pooka #define VFSBIT_NFSSVC 0x01 727 1.78 pooka #define VFSBIT_GETVFSSTAT 0x02 728 1.78 pooka #define VFSBIT_FHCALLS 0x04 729 1.78 pooka static unsigned vfsbits; 730 1.78 pooka 731 1.78 pooka static struct { 732 1.78 pooka int bit; 733 1.78 pooka const char *name; 734 1.78 pooka } vfscalls[] = { 735 1.78 pooka { VFSBIT_NFSSVC, "nfssvc" }, 736 1.78 pooka { VFSBIT_GETVFSSTAT, "getvfsstat" }, 737 1.78 pooka { VFSBIT_FHCALLS, "fhcalls" }, 738 1.78 pooka { -1, NULL } 739 1.78 pooka }; 740 1.78 pooka 741 1.78 pooka static void 742 1.78 pooka vfsparser(char *buf) 743 1.78 pooka { 744 1.96 pooka char *p, *l = NULL; 745 1.78 pooka bool turnon; 746 1.78 pooka unsigned int fullmask; 747 1.78 pooka int i; 748 1.78 pooka 749 1.78 pooka /* build the full mask and sanity-check while we're at it */ 750 1.78 pooka fullmask = 0; 751 1.78 pooka for (i = 0; vfscalls[i].name != NULL; i++) { 752 1.78 pooka if (fullmask & vfscalls[i].bit) 753 1.78 pooka errx(1, "problem exists between vi and chair"); 754 1.78 pooka fullmask |= vfscalls[i].bit; 755 1.78 pooka } 756 1.78 pooka 757 1.78 pooka 758 1.78 pooka /* if "all" is present, it must be specified first */ 759 1.78 pooka if (strncmp(buf, "all", strlen("all")) == 0) { 760 1.78 pooka vfsbits = fullmask; 761 1.78 pooka buf += strlen("all"); 762 1.78 pooka if (*buf == ':') 763 1.78 pooka buf++; 764 1.78 pooka } 765 1.78 pooka 766 1.78 pooka for (p = strtok_r(buf, ":", &l); p; p = strtok_r(NULL, ":", &l)) { 767 1.78 pooka turnon = true; 768 1.78 pooka if (strncmp(p, "no", strlen("no")) == 0) { 769 1.78 pooka turnon = false; 770 1.78 pooka p += strlen("no"); 771 1.78 pooka } 772 1.78 pooka 773 1.78 pooka for (i = 0; vfscalls[i].name; i++) { 774 1.78 pooka if (strcmp(p, vfscalls[i].name) == 0) { 775 1.78 pooka if (turnon) 776 1.78 pooka vfsbits |= vfscalls[i].bit; 777 1.78 pooka else 778 1.78 pooka vfsbits &= ~vfscalls[i].bit; 779 1.78 pooka break; 780 1.78 pooka } 781 1.78 pooka } 782 1.78 pooka if (vfscalls[i].name == NULL) { 783 1.78 pooka errx(1, "invalid vfscall specifier %s", p); 784 1.78 pooka } 785 1.78 pooka } 786 1.78 pooka } 787 1.78 pooka 788 1.78 pooka static bool rumpsysctl = false; 789 1.78 pooka 790 1.78 pooka static void 791 1.78 pooka sysctlparser(char *buf) 792 1.78 pooka { 793 1.78 pooka 794 1.78 pooka if (buf == NULL) { 795 1.78 pooka rumpsysctl = true; 796 1.78 pooka return; 797 1.78 pooka } 798 1.78 pooka 799 1.78 pooka if (strcasecmp(buf, "y") == 0 || strcasecmp(buf, "yes") == 0 || 800 1.78 pooka strcasecmp(buf, "yep") == 0 || strcasecmp(buf, "tottakai") == 0) { 801 1.78 pooka rumpsysctl = true; 802 1.78 pooka return; 803 1.78 pooka } 804 1.78 pooka if (strcasecmp(buf, "n") == 0 || strcasecmp(buf, "no") == 0) { 805 1.78 pooka rumpsysctl = false; 806 1.78 pooka return; 807 1.78 pooka } 808 1.78 pooka 809 1.78 pooka errx(1, "sysctl value should be y(es)/n(o), gave: %s", buf); 810 1.78 pooka } 811 1.78 pooka 812 1.85 pooka static void 813 1.85 pooka fdoffparser(char *buf) 814 1.85 pooka { 815 1.85 pooka unsigned long fdoff; 816 1.85 pooka char *ep; 817 1.85 pooka 818 1.85 pooka if (*buf == '-') { 819 1.85 pooka errx(1, "fdoff must not be negative"); 820 1.85 pooka } 821 1.85 pooka fdoff = strtoul(buf, &ep, 10); 822 1.85 pooka if (*ep != '\0') 823 1.85 pooka errx(1, "invalid fdoff specifier \"%s\"", buf); 824 1.85 pooka if (fdoff >= INT_MAX/2 || fdoff < 3) 825 1.85 pooka errx(1, "fdoff out of range"); 826 1.85 pooka hijack_fdoff = fdoff; 827 1.85 pooka } 828 1.85 pooka 829 1.49 pooka static struct { 830 1.49 pooka void (*parsefn)(char *); 831 1.49 pooka const char *name; 832 1.78 pooka bool needvalues; 833 1.49 pooka } hijackparse[] = { 834 1.78 pooka { sockparser, "socket", true }, 835 1.78 pooka { pathparser, "path", true }, 836 1.78 pooka { blanketparser, "blanket", true }, 837 1.78 pooka { vfsparser, "vfs", true }, 838 1.78 pooka { sysctlparser, "sysctl", false }, 839 1.86 pooka { fdoffparser, "fdoff", true }, 840 1.78 pooka { NULL, NULL, false }, 841 1.49 pooka }; 842 1.49 pooka 843 1.49 pooka static void 844 1.49 pooka parsehijack(char *hijack) 845 1.49 pooka { 846 1.49 pooka char *p, *p2, *l; 847 1.49 pooka const char *hijackcopy; 848 1.78 pooka bool nop2; 849 1.49 pooka int i; 850 1.49 pooka 851 1.49 pooka if ((hijackcopy = strdup(hijack)) == NULL) 852 1.49 pooka err(1, "strdup"); 853 1.49 pooka 854 1.49 pooka /* disable everything explicitly */ 855 1.49 pooka for (i = 0; i < PF_MAX; i++) 856 1.49 pooka rumpsockets[i] = false; 857 1.49 pooka 858 1.49 pooka for (p = strtok_r(hijack, ",", &l); p; p = strtok_r(NULL, ",", &l)) { 859 1.78 pooka nop2 = false; 860 1.49 pooka p2 = strchr(p, '='); 861 1.78 pooka if (!p2) { 862 1.78 pooka nop2 = true; 863 1.78 pooka p2 = p + strlen(p); 864 1.78 pooka } 865 1.49 pooka 866 1.49 pooka for (i = 0; hijackparse[i].parsefn; i++) { 867 1.49 pooka if (strncmp(hijackparse[i].name, p, 868 1.49 pooka (size_t)(p2-p)) == 0) { 869 1.78 pooka if (nop2 && hijackparse[i].needvalues) 870 1.78 pooka errx(1, "invalid hijack specifier: %s", 871 1.78 pooka hijackcopy); 872 1.78 pooka hijackparse[i].parsefn(nop2 ? NULL : p2+1); 873 1.49 pooka break; 874 1.49 pooka } 875 1.49 pooka } 876 1.81 pooka 877 1.81 pooka if (hijackparse[i].parsefn == NULL) 878 1.81 pooka errx(1, "invalid hijack specifier name in %s", p); 879 1.49 pooka } 880 1.49 pooka 881 1.49 pooka } 882 1.7 pooka 883 1.1 pooka static void __attribute__((constructor)) 884 1.1 pooka rcinit(void) 885 1.1 pooka { 886 1.49 pooka char buf[1024]; 887 1.19 pooka unsigned i, j; 888 1.1 pooka 889 1.17 pooka host_fork = dlsym(RTLD_NEXT, "fork"); 890 1.25 pooka host_daemon = dlsym(RTLD_NEXT, "daemon"); 891 1.62 pooka host_mmap = dlsym(RTLD_NEXT, "mmap"); 892 1.17 pooka 893 1.17 pooka /* 894 1.17 pooka * In theory cannot print anything during lookups because 895 1.17 pooka * we might not have the call vector set up. so, the errx() 896 1.17 pooka * is a bit of a strech, but it might work. 897 1.17 pooka */ 898 1.1 pooka 899 1.17 pooka for (i = 0; i < DUALCALL__NUM; i++) { 900 1.17 pooka /* build runtime O(1) access */ 901 1.83 pooka for (j = 0; j < __arraycount(syscnames); j++) { 902 1.83 pooka if (syscnames[j].scm_callnum == i) 903 1.83 pooka break; 904 1.83 pooka } 905 1.81 pooka 906 1.83 pooka if (j == __arraycount(syscnames)) 907 1.83 pooka errx(1, "rumphijack error: syscall pos %d missing", i); 908 1.17 pooka 909 1.23 pooka syscalls[i].bs_host = dlsym(RTLD_NEXT, 910 1.83 pooka syscnames[j].scm_hostname); 911 1.83 pooka if (syscalls[i].bs_host == NULL) 912 1.83 pooka errx(1, "hostcall %s not found!", 913 1.83 pooka syscnames[j].scm_hostname); 914 1.17 pooka 915 1.23 pooka syscalls[i].bs_rump = dlsym(RTLD_NEXT, 916 1.83 pooka syscnames[j].scm_rumpname); 917 1.17 pooka if (syscalls[i].bs_rump == NULL) 918 1.70 pooka errx(1, "rumpcall %s not found!", 919 1.83 pooka syscnames[j].scm_rumpname); 920 1.1 pooka } 921 1.1 pooka 922 1.22 pooka if (rumpclient_init() == -1) 923 1.1 pooka err(1, "rumpclient init"); 924 1.28 pooka 925 1.49 pooka /* check which syscalls we're supposed to hijack */ 926 1.49 pooka if (getenv_r("RUMPHIJACK", buf, sizeof(buf)) == -1) { 927 1.49 pooka strcpy(buf, RUMPHIJACK_DEFAULT); 928 1.49 pooka } 929 1.49 pooka parsehijack(buf); 930 1.49 pooka 931 1.28 pooka /* set client persistence level */ 932 1.44 pooka if (getenv_r("RUMPHIJACK_RETRYCONNECT", buf, sizeof(buf)) != -1) { 933 1.28 pooka if (strcmp(buf, "die") == 0) 934 1.28 pooka rumpclient_setconnretry(RUMPCLIENT_RETRYCONN_DIE); 935 1.28 pooka else if (strcmp(buf, "inftime") == 0) 936 1.28 pooka rumpclient_setconnretry(RUMPCLIENT_RETRYCONN_INFTIME); 937 1.28 pooka else if (strcmp(buf, "once") == 0) 938 1.28 pooka rumpclient_setconnretry(RUMPCLIENT_RETRYCONN_ONCE); 939 1.28 pooka else { 940 1.28 pooka time_t timeout; 941 1.44 pooka char *ep; 942 1.28 pooka 943 1.44 pooka timeout = (time_t)strtoll(buf, &ep, 10); 944 1.44 pooka if (timeout <= 0 || ep != buf + strlen(buf)) 945 1.44 pooka errx(1, "RUMPHIJACK_RETRYCONNECT must be " 946 1.44 pooka "keyword or integer, got: %s", buf); 947 1.28 pooka 948 1.28 pooka rumpclient_setconnretry(timeout); 949 1.28 pooka } 950 1.28 pooka } 951 1.39 pooka 952 1.71 pooka if (getenv_r("RUMPHIJACK__DUP2INFO", buf, sizeof(buf)) == 0) { 953 1.71 pooka if (sscanf(buf, "%u,%u,%u", 954 1.71 pooka &dup2vec[0], &dup2vec[1], &dup2vec[2]) != 3) { 955 1.71 pooka warnx("invalid dup2mask: %s", buf); 956 1.71 pooka memset(dup2vec, 0, sizeof(dup2vec)); 957 1.71 pooka } 958 1.71 pooka unsetenv("RUMPHIJACK__DUP2INFO"); 959 1.45 pooka } 960 1.45 pooka if (getenv_r("RUMPHIJACK__PWDINRUMP", buf, sizeof(buf)) == 0) { 961 1.49 pooka pwdinrump = true; 962 1.45 pooka unsetenv("RUMPHIJACK__PWDINRUMP"); 963 1.39 pooka } 964 1.1 pooka } 965 1.1 pooka 966 1.2 pooka static int 967 1.2 pooka fd_rump2host(int fd) 968 1.2 pooka { 969 1.2 pooka 970 1.2 pooka if (fd == -1) 971 1.2 pooka return fd; 972 1.85 pooka return fd + hijack_fdoff; 973 1.71 pooka } 974 1.2 pooka 975 1.71 pooka static int 976 1.71 pooka fd_rump2host_withdup(int fd) 977 1.71 pooka { 978 1.71 pooka int hfd; 979 1.2 pooka 980 1.71 pooka _DIAGASSERT(fd != -1); 981 1.71 pooka hfd = unmapdup2(fd); 982 1.71 pooka if (hfd != -1) { 983 1.71 pooka _DIAGASSERT(hfd <= DUP2HIGH); 984 1.71 pooka return hfd; 985 1.71 pooka } 986 1.71 pooka return fd_rump2host(fd); 987 1.2 pooka } 988 1.2 pooka 989 1.2 pooka static int 990 1.2 pooka fd_host2rump(int fd) 991 1.2 pooka { 992 1.2 pooka 993 1.71 pooka if (!isdup2d(fd)) 994 1.85 pooka return fd - hijack_fdoff; 995 1.71 pooka else 996 1.71 pooka return mapdup2(fd); 997 1.2 pooka } 998 1.2 pooka 999 1.2 pooka static bool 1000 1.2 pooka fd_isrump(int fd) 1001 1.2 pooka { 1002 1.2 pooka 1003 1.85 pooka return isdup2d(fd) || fd >= hijack_fdoff; 1004 1.2 pooka } 1005 1.2 pooka 1006 1.85 pooka #define assertfd(_fd_) assert(ISDUP2D(_fd_) || (_fd_) >= hijack_fdoff) 1007 1.40 pooka 1008 1.75 pooka static enum pathtype 1009 1.45 pooka path_isrump(const char *path) 1010 1.45 pooka { 1011 1.76 pooka size_t plen; 1012 1.75 pooka int i; 1013 1.45 pooka 1014 1.75 pooka if (rumpprefix == NULL && nblanket == 0) 1015 1.75 pooka return PATH_HOST; 1016 1.49 pooka 1017 1.45 pooka if (*path == '/') { 1018 1.76 pooka plen = strlen(path); 1019 1.76 pooka if (rumpprefix && plen >= rumpprefixlen) { 1020 1.76 pooka if (strncmp(path, rumpprefix, rumpprefixlen) == 0 1021 1.76 pooka && (plen == rumpprefixlen 1022 1.76 pooka || *(path + rumpprefixlen) == '/')) { 1023 1.75 pooka return PATH_RUMP; 1024 1.75 pooka } 1025 1.75 pooka } 1026 1.75 pooka for (i = 0; i < nblanket; i++) { 1027 1.75 pooka if (strncmp(path, blanket[i].pfx, blanket[i].len) == 0) 1028 1.75 pooka return PATH_RUMPBLANKET; 1029 1.75 pooka } 1030 1.75 pooka 1031 1.75 pooka return PATH_HOST; 1032 1.45 pooka } else { 1033 1.75 pooka return pwdinrump ? PATH_RUMP : PATH_HOST; 1034 1.45 pooka } 1035 1.45 pooka } 1036 1.45 pooka 1037 1.45 pooka static const char *rootpath = "/"; 1038 1.45 pooka static const char * 1039 1.45 pooka path_host2rump(const char *path) 1040 1.45 pooka { 1041 1.45 pooka const char *rv; 1042 1.45 pooka 1043 1.45 pooka if (*path == '/') { 1044 1.49 pooka rv = path + rumpprefixlen; 1045 1.45 pooka if (*rv == '\0') 1046 1.45 pooka rv = rootpath; 1047 1.45 pooka } else { 1048 1.45 pooka rv = path; 1049 1.45 pooka } 1050 1.45 pooka 1051 1.45 pooka return rv; 1052 1.45 pooka } 1053 1.45 pooka 1054 1.40 pooka static int 1055 1.40 pooka dodup(int oldd, int minfd) 1056 1.40 pooka { 1057 1.40 pooka int (*op_fcntl)(int, int, ...); 1058 1.40 pooka int newd; 1059 1.40 pooka int isrump; 1060 1.40 pooka 1061 1.40 pooka DPRINTF(("dup -> %d (minfd %d)\n", oldd, minfd)); 1062 1.40 pooka if (fd_isrump(oldd)) { 1063 1.40 pooka op_fcntl = GETSYSCALL(rump, FCNTL); 1064 1.40 pooka oldd = fd_host2rump(oldd); 1065 1.85 pooka if (minfd >= hijack_fdoff) 1066 1.85 pooka minfd -= hijack_fdoff; 1067 1.40 pooka isrump = 1; 1068 1.40 pooka } else { 1069 1.40 pooka op_fcntl = GETSYSCALL(host, FCNTL); 1070 1.40 pooka isrump = 0; 1071 1.40 pooka } 1072 1.40 pooka 1073 1.40 pooka newd = op_fcntl(oldd, F_DUPFD, minfd); 1074 1.40 pooka 1075 1.40 pooka if (isrump) 1076 1.40 pooka newd = fd_rump2host(newd); 1077 1.40 pooka DPRINTF(("dup <- %d\n", newd)); 1078 1.40 pooka 1079 1.40 pooka return newd; 1080 1.40 pooka } 1081 1.2 pooka 1082 1.47 pooka /* 1083 1.85 pooka * Check that host fd value does not exceed fdoffset and if necessary 1084 1.85 pooka * dup the file descriptor so that it doesn't collide with the dup2mask. 1085 1.47 pooka */ 1086 1.47 pooka static int 1087 1.85 pooka fd_host2host(int fd) 1088 1.47 pooka { 1089 1.47 pooka int (*op_fcntl)(int, int, ...) = GETSYSCALL(host, FCNTL); 1090 1.47 pooka int (*op_close)(int) = GETSYSCALL(host, CLOSE); 1091 1.47 pooka int ofd, i; 1092 1.47 pooka 1093 1.85 pooka if (fd >= hijack_fdoff) { 1094 1.85 pooka op_close(fd); 1095 1.85 pooka errno = ENFILE; 1096 1.85 pooka return -1; 1097 1.85 pooka } 1098 1.85 pooka 1099 1.71 pooka for (i = 1; isdup2d(fd); i++) { 1100 1.47 pooka ofd = fd; 1101 1.47 pooka fd = op_fcntl(ofd, F_DUPFD, i); 1102 1.47 pooka op_close(ofd); 1103 1.47 pooka } 1104 1.47 pooka 1105 1.47 pooka return fd; 1106 1.47 pooka } 1107 1.47 pooka 1108 1.45 pooka int 1109 1.45 pooka open(const char *path, int flags, ...) 1110 1.45 pooka { 1111 1.45 pooka int (*op_open)(const char *, int, ...); 1112 1.45 pooka bool isrump; 1113 1.45 pooka va_list ap; 1114 1.75 pooka enum pathtype pt; 1115 1.45 pooka int fd; 1116 1.45 pooka 1117 1.71 pooka DPRINTF(("open -> %s (%s)\n", path, whichpath(path))); 1118 1.71 pooka 1119 1.75 pooka if ((pt = path_isrump(path)) != PATH_HOST) { 1120 1.75 pooka if (pt == PATH_RUMP) 1121 1.75 pooka path = path_host2rump(path); 1122 1.45 pooka op_open = GETSYSCALL(rump, OPEN); 1123 1.45 pooka isrump = true; 1124 1.45 pooka } else { 1125 1.45 pooka op_open = GETSYSCALL(host, OPEN); 1126 1.45 pooka isrump = false; 1127 1.45 pooka } 1128 1.45 pooka 1129 1.45 pooka va_start(ap, flags); 1130 1.45 pooka fd = op_open(path, flags, va_arg(ap, mode_t)); 1131 1.45 pooka va_end(ap); 1132 1.45 pooka 1133 1.45 pooka if (isrump) 1134 1.45 pooka fd = fd_rump2host(fd); 1135 1.47 pooka else 1136 1.85 pooka fd = fd_host2host(fd); 1137 1.71 pooka 1138 1.71 pooka DPRINTF(("open <- %d (%s)\n", fd, whichfd(fd))); 1139 1.45 pooka return fd; 1140 1.45 pooka } 1141 1.45 pooka 1142 1.45 pooka int 1143 1.45 pooka chdir(const char *path) 1144 1.45 pooka { 1145 1.45 pooka int (*op_chdir)(const char *); 1146 1.75 pooka enum pathtype pt; 1147 1.45 pooka int rv; 1148 1.45 pooka 1149 1.75 pooka if ((pt = path_isrump(path)) != PATH_HOST) { 1150 1.45 pooka op_chdir = GETSYSCALL(rump, CHDIR); 1151 1.75 pooka if (pt == PATH_RUMP) 1152 1.75 pooka path = path_host2rump(path); 1153 1.45 pooka } else { 1154 1.45 pooka op_chdir = GETSYSCALL(host, CHDIR); 1155 1.45 pooka } 1156 1.45 pooka 1157 1.45 pooka rv = op_chdir(path); 1158 1.75 pooka if (rv == 0) 1159 1.75 pooka pwdinrump = pt != PATH_HOST; 1160 1.45 pooka 1161 1.45 pooka return rv; 1162 1.45 pooka } 1163 1.45 pooka 1164 1.45 pooka int 1165 1.45 pooka fchdir(int fd) 1166 1.45 pooka { 1167 1.45 pooka int (*op_fchdir)(int); 1168 1.45 pooka bool isrump; 1169 1.45 pooka int rv; 1170 1.45 pooka 1171 1.45 pooka if (fd_isrump(fd)) { 1172 1.45 pooka op_fchdir = GETSYSCALL(rump, FCHDIR); 1173 1.45 pooka isrump = true; 1174 1.45 pooka fd = fd_host2rump(fd); 1175 1.45 pooka } else { 1176 1.45 pooka op_fchdir = GETSYSCALL(host, FCHDIR); 1177 1.45 pooka isrump = false; 1178 1.45 pooka } 1179 1.45 pooka 1180 1.45 pooka rv = op_fchdir(fd); 1181 1.45 pooka if (rv == 0) { 1182 1.75 pooka pwdinrump = isrump; 1183 1.45 pooka } 1184 1.45 pooka 1185 1.45 pooka return rv; 1186 1.45 pooka } 1187 1.45 pooka 1188 1.97 pooka #ifndef __linux__ 1189 1.52 pooka int 1190 1.57 pooka __getcwd(char *bufp, size_t len) 1191 1.57 pooka { 1192 1.57 pooka int (*op___getcwd)(char *, size_t); 1193 1.75 pooka size_t prefixgap; 1194 1.75 pooka bool iamslash; 1195 1.57 pooka int rv; 1196 1.57 pooka 1197 1.75 pooka if (pwdinrump && rumpprefix) { 1198 1.57 pooka if (rumpprefix[rumpprefixlen-1] == '/') 1199 1.57 pooka iamslash = true; 1200 1.57 pooka else 1201 1.57 pooka iamslash = false; 1202 1.57 pooka 1203 1.57 pooka if (iamslash) 1204 1.57 pooka prefixgap = rumpprefixlen - 1; /* ``//+path'' */ 1205 1.57 pooka else 1206 1.57 pooka prefixgap = rumpprefixlen; /* ``/pfx+/path'' */ 1207 1.57 pooka if (len <= prefixgap) { 1208 1.66 pooka errno = ERANGE; 1209 1.66 pooka return -1; 1210 1.57 pooka } 1211 1.57 pooka 1212 1.57 pooka op___getcwd = GETSYSCALL(rump, __GETCWD); 1213 1.57 pooka rv = op___getcwd(bufp + prefixgap, len - prefixgap); 1214 1.57 pooka if (rv == -1) 1215 1.57 pooka return rv; 1216 1.57 pooka 1217 1.57 pooka /* augment the "/" part only for a non-root path */ 1218 1.57 pooka memcpy(bufp, rumpprefix, rumpprefixlen); 1219 1.57 pooka 1220 1.57 pooka /* append / only to non-root cwd */ 1221 1.57 pooka if (rv != 2) 1222 1.57 pooka bufp[prefixgap] = '/'; 1223 1.57 pooka 1224 1.57 pooka /* don't append extra slash in the purely-slash case */ 1225 1.57 pooka if (rv == 2 && !iamslash) 1226 1.57 pooka bufp[rumpprefixlen] = '\0'; 1227 1.75 pooka } else if (pwdinrump) { 1228 1.75 pooka /* assume blanket. we can't provide a prefix here */ 1229 1.75 pooka op___getcwd = GETSYSCALL(rump, __GETCWD); 1230 1.75 pooka rv = op___getcwd(bufp, len); 1231 1.57 pooka } else { 1232 1.57 pooka op___getcwd = GETSYSCALL(host, __GETCWD); 1233 1.75 pooka rv = op___getcwd(bufp, len); 1234 1.57 pooka } 1235 1.75 pooka 1236 1.75 pooka return rv; 1237 1.57 pooka } 1238 1.97 pooka #endif 1239 1.57 pooka 1240 1.95 riastrad static int 1241 1.95 riastrad moveish(const char *from, const char *to, 1242 1.95 riastrad int (*rump_op)(const char *, const char *), 1243 1.95 riastrad int (*host_op)(const char *, const char *)) 1244 1.52 pooka { 1245 1.95 riastrad int (*op)(const char *, const char *); 1246 1.75 pooka enum pathtype ptf, ptt; 1247 1.52 pooka 1248 1.75 pooka if ((ptf = path_isrump(from)) != PATH_HOST) { 1249 1.75 pooka if ((ptt = path_isrump(to)) == PATH_HOST) { 1250 1.66 pooka errno = EXDEV; 1251 1.66 pooka return -1; 1252 1.66 pooka } 1253 1.52 pooka 1254 1.75 pooka if (ptf == PATH_RUMP) 1255 1.75 pooka from = path_host2rump(from); 1256 1.75 pooka if (ptt == PATH_RUMP) 1257 1.75 pooka to = path_host2rump(to); 1258 1.95 riastrad op = rump_op; 1259 1.52 pooka } else { 1260 1.75 pooka if (path_isrump(to) != PATH_HOST) { 1261 1.66 pooka errno = EXDEV; 1262 1.66 pooka return -1; 1263 1.66 pooka } 1264 1.53 pooka 1265 1.95 riastrad op = host_op; 1266 1.52 pooka } 1267 1.52 pooka 1268 1.95 riastrad return op(from, to); 1269 1.95 riastrad } 1270 1.95 riastrad 1271 1.95 riastrad int 1272 1.95 riastrad link(const char *from, const char *to) 1273 1.95 riastrad { 1274 1.95 riastrad return moveish(from, to, 1275 1.95 riastrad GETSYSCALL(rump, LINK), GETSYSCALL(host, LINK)); 1276 1.95 riastrad } 1277 1.95 riastrad 1278 1.95 riastrad int 1279 1.95 riastrad rename(const char *from, const char *to) 1280 1.95 riastrad { 1281 1.95 riastrad return moveish(from, to, 1282 1.95 riastrad GETSYSCALL(rump, RENAME), GETSYSCALL(host, RENAME)); 1283 1.52 pooka } 1284 1.52 pooka 1285 1.1 pooka int 1286 1.96 pooka REALSOCKET(int domain, int type, int protocol) 1287 1.1 pooka { 1288 1.17 pooka int (*op_socket)(int, int, int); 1289 1.1 pooka int fd; 1290 1.49 pooka bool isrump; 1291 1.7 pooka 1292 1.49 pooka isrump = domain < PF_MAX && rumpsockets[domain]; 1293 1.1 pooka 1294 1.49 pooka if (isrump) 1295 1.49 pooka op_socket = GETSYSCALL(rump, SOCKET); 1296 1.49 pooka else 1297 1.17 pooka op_socket = GETSYSCALL(host, SOCKET); 1298 1.17 pooka fd = op_socket(domain, type, protocol); 1299 1.2 pooka 1300 1.49 pooka if (isrump) 1301 1.7 pooka fd = fd_rump2host(fd); 1302 1.47 pooka else 1303 1.85 pooka fd = fd_host2host(fd); 1304 1.7 pooka DPRINTF(("socket <- %d\n", fd)); 1305 1.2 pooka 1306 1.7 pooka return fd; 1307 1.1 pooka } 1308 1.1 pooka 1309 1.1 pooka int 1310 1.1 pooka accept(int s, struct sockaddr *addr, socklen_t *addrlen) 1311 1.1 pooka { 1312 1.17 pooka int (*op_accept)(int, struct sockaddr *, socklen_t *); 1313 1.1 pooka int fd; 1314 1.7 pooka bool isrump; 1315 1.7 pooka 1316 1.7 pooka isrump = fd_isrump(s); 1317 1.1 pooka 1318 1.2 pooka DPRINTF(("accept -> %d", s)); 1319 1.7 pooka if (isrump) { 1320 1.17 pooka op_accept = GETSYSCALL(rump, ACCEPT); 1321 1.7 pooka s = fd_host2rump(s); 1322 1.7 pooka } else { 1323 1.17 pooka op_accept = GETSYSCALL(host, ACCEPT); 1324 1.7 pooka } 1325 1.17 pooka fd = op_accept(s, addr, addrlen); 1326 1.7 pooka if (fd != -1 && isrump) 1327 1.7 pooka fd = fd_rump2host(fd); 1328 1.47 pooka else 1329 1.85 pooka fd = fd_host2host(fd); 1330 1.7 pooka 1331 1.7 pooka DPRINTF((" <- %d\n", fd)); 1332 1.2 pooka 1333 1.7 pooka return fd; 1334 1.1 pooka } 1335 1.1 pooka 1336 1.17 pooka /* 1337 1.103 pooka * ioctl() and fcntl() are varargs calls and need special treatment. 1338 1.103 pooka */ 1339 1.103 pooka 1340 1.103 pooka /* 1341 1.103 pooka * Various [Linux] libc's have various signatures for ioctl so we 1342 1.103 pooka * need to handle the discrepancies. On NetBSD, we use the 1343 1.103 pooka * one with unsigned long cmd. 1344 1.17 pooka */ 1345 1.1 pooka int 1346 1.103 pooka #ifdef HAVE_IOCTL_CMD_INT 1347 1.103 pooka ioctl(int fd, int cmd, ...) 1348 1.103 pooka { 1349 1.103 pooka int (*op_ioctl)(int, int cmd, ...); 1350 1.103 pooka #else 1351 1.17 pooka ioctl(int fd, unsigned long cmd, ...) 1352 1.1 pooka { 1353 1.17 pooka int (*op_ioctl)(int, unsigned long cmd, ...); 1354 1.103 pooka #endif 1355 1.17 pooka va_list ap; 1356 1.17 pooka int rv; 1357 1.1 pooka 1358 1.17 pooka DPRINTF(("ioctl -> %d\n", fd)); 1359 1.17 pooka if (fd_isrump(fd)) { 1360 1.17 pooka fd = fd_host2rump(fd); 1361 1.17 pooka op_ioctl = GETSYSCALL(rump, IOCTL); 1362 1.7 pooka } else { 1363 1.17 pooka op_ioctl = GETSYSCALL(host, IOCTL); 1364 1.7 pooka } 1365 1.1 pooka 1366 1.17 pooka va_start(ap, cmd); 1367 1.17 pooka rv = op_ioctl(fd, cmd, va_arg(ap, void *)); 1368 1.17 pooka va_end(ap); 1369 1.17 pooka return rv; 1370 1.1 pooka } 1371 1.1 pooka 1372 1.1 pooka int 1373 1.17 pooka fcntl(int fd, int cmd, ...) 1374 1.1 pooka { 1375 1.17 pooka int (*op_fcntl)(int, int, ...); 1376 1.17 pooka va_list ap; 1377 1.96 pooka int rv, minfd; 1378 1.40 pooka 1379 1.40 pooka DPRINTF(("fcntl -> %d (cmd %d)\n", fd, cmd)); 1380 1.40 pooka 1381 1.40 pooka switch (cmd) { 1382 1.40 pooka case F_DUPFD: 1383 1.40 pooka va_start(ap, cmd); 1384 1.40 pooka minfd = va_arg(ap, int); 1385 1.40 pooka va_end(ap); 1386 1.40 pooka return dodup(fd, minfd); 1387 1.40 pooka 1388 1.96 pooka #ifdef F_CLOSEM 1389 1.96 pooka case F_CLOSEM: { 1390 1.96 pooka int maxdup2, i; 1391 1.96 pooka 1392 1.40 pooka /* 1393 1.40 pooka * So, if fd < HIJACKOFF, we want to do a host closem. 1394 1.40 pooka */ 1395 1.40 pooka 1396 1.85 pooka if (fd < hijack_fdoff) { 1397 1.40 pooka int closemfd = fd; 1398 1.1 pooka 1399 1.40 pooka if (rumpclient__closenotify(&closemfd, 1400 1.39 pooka RUMPCLIENT_CLOSE_FCLOSEM) == -1) 1401 1.39 pooka return -1; 1402 1.40 pooka op_fcntl = GETSYSCALL(host, FCNTL); 1403 1.40 pooka rv = op_fcntl(closemfd, cmd); 1404 1.40 pooka if (rv) 1405 1.40 pooka return rv; 1406 1.40 pooka } 1407 1.40 pooka 1408 1.40 pooka /* 1409 1.40 pooka * Additionally, we want to do a rump closem, but only 1410 1.71 pooka * for the file descriptors not dup2'd. 1411 1.40 pooka */ 1412 1.40 pooka 1413 1.109.2.1 martin for (i = 0, maxdup2 = -1; i <= DUP2HIGH; i++) { 1414 1.72 pooka if (dup2vec[i] & DUP2BIT) { 1415 1.72 pooka int val; 1416 1.72 pooka 1417 1.72 pooka val = dup2vec[i] & DUP2FDMASK; 1418 1.72 pooka maxdup2 = MAX(val, maxdup2); 1419 1.72 pooka } 1420 1.40 pooka } 1421 1.40 pooka 1422 1.85 pooka if (fd >= hijack_fdoff) 1423 1.85 pooka fd -= hijack_fdoff; 1424 1.40 pooka else 1425 1.40 pooka fd = 0; 1426 1.71 pooka fd = MAX(maxdup2+1, fd); 1427 1.40 pooka 1428 1.40 pooka /* hmm, maybe we should close rump fd's not within dup2mask? */ 1429 1.40 pooka return rump_sys_fcntl(fd, F_CLOSEM); 1430 1.96 pooka } 1431 1.96 pooka #endif /* F_CLOSEM */ 1432 1.40 pooka 1433 1.96 pooka #ifdef F_MAXFD 1434 1.40 pooka case F_MAXFD: 1435 1.40 pooka /* 1436 1.40 pooka * For maxfd, if there's a rump kernel fd, return 1437 1.40 pooka * it hostified. Otherwise, return host's MAXFD 1438 1.40 pooka * return value. 1439 1.40 pooka */ 1440 1.40 pooka if ((rv = rump_sys_fcntl(fd, F_MAXFD)) != -1) { 1441 1.40 pooka /* 1442 1.40 pooka * This might go a little wrong in case 1443 1.40 pooka * of dup2 to [012], but I'm not sure if 1444 1.40 pooka * there's a justification for tracking 1445 1.40 pooka * that info. Consider e.g. 1446 1.40 pooka * dup2(rumpfd, 2) followed by rump_sys_open() 1447 1.40 pooka * returning 1. We should return 1+HIJACKOFF, 1448 1.40 pooka * not 2+HIJACKOFF. However, if [01] is not 1449 1.40 pooka * open, the correct return value is 2. 1450 1.40 pooka */ 1451 1.40 pooka return fd_rump2host(fd); 1452 1.40 pooka } else { 1453 1.40 pooka op_fcntl = GETSYSCALL(host, FCNTL); 1454 1.40 pooka return op_fcntl(fd, F_MAXFD); 1455 1.40 pooka } 1456 1.40 pooka /*NOTREACHED*/ 1457 1.96 pooka #endif /* F_MAXFD */ 1458 1.40 pooka 1459 1.40 pooka default: 1460 1.40 pooka if (fd_isrump(fd)) { 1461 1.40 pooka fd = fd_host2rump(fd); 1462 1.40 pooka op_fcntl = GETSYSCALL(rump, FCNTL); 1463 1.40 pooka } else { 1464 1.40 pooka op_fcntl = GETSYSCALL(host, FCNTL); 1465 1.40 pooka } 1466 1.40 pooka 1467 1.40 pooka va_start(ap, cmd); 1468 1.40 pooka rv = op_fcntl(fd, cmd, va_arg(ap, void *)); 1469 1.40 pooka va_end(ap); 1470 1.40 pooka return rv; 1471 1.7 pooka } 1472 1.40 pooka /*NOTREACHED*/ 1473 1.1 pooka } 1474 1.1 pooka 1475 1.39 pooka int 1476 1.39 pooka close(int fd) 1477 1.39 pooka { 1478 1.39 pooka int (*op_close)(int); 1479 1.39 pooka int rv; 1480 1.39 pooka 1481 1.39 pooka DPRINTF(("close -> %d\n", fd)); 1482 1.39 pooka if (fd_isrump(fd)) { 1483 1.71 pooka bool undup2 = false; 1484 1.71 pooka int ofd; 1485 1.71 pooka 1486 1.71 pooka if (isdup2d(ofd = fd)) { 1487 1.71 pooka undup2 = true; 1488 1.71 pooka } 1489 1.39 pooka 1490 1.47 pooka fd = fd_host2rump(fd); 1491 1.71 pooka if (!undup2 && killdup2alias(fd)) { 1492 1.47 pooka return 0; 1493 1.47 pooka } 1494 1.47 pooka 1495 1.39 pooka op_close = GETSYSCALL(rump, CLOSE); 1496 1.39 pooka rv = op_close(fd); 1497 1.71 pooka if (rv == 0 && undup2) { 1498 1.71 pooka clrdup2(ofd); 1499 1.71 pooka } 1500 1.39 pooka } else { 1501 1.39 pooka if (rumpclient__closenotify(&fd, RUMPCLIENT_CLOSE_CLOSE) == -1) 1502 1.39 pooka return -1; 1503 1.39 pooka op_close = GETSYSCALL(host, CLOSE); 1504 1.39 pooka rv = op_close(fd); 1505 1.39 pooka } 1506 1.39 pooka 1507 1.39 pooka return rv; 1508 1.39 pooka } 1509 1.39 pooka 1510 1.17 pooka /* 1511 1.17 pooka * write cannot issue a standard debug printf due to recursion 1512 1.17 pooka */ 1513 1.1 pooka ssize_t 1514 1.17 pooka write(int fd, const void *buf, size_t blen) 1515 1.1 pooka { 1516 1.17 pooka ssize_t (*op_write)(int, const void *, size_t); 1517 1.1 pooka 1518 1.17 pooka if (fd_isrump(fd)) { 1519 1.17 pooka fd = fd_host2rump(fd); 1520 1.17 pooka op_write = GETSYSCALL(rump, WRITE); 1521 1.16 pooka } else { 1522 1.17 pooka op_write = GETSYSCALL(host, WRITE); 1523 1.16 pooka } 1524 1.1 pooka 1525 1.17 pooka return op_write(fd, buf, blen); 1526 1.2 pooka } 1527 1.2 pooka 1528 1.2 pooka /* 1529 1.94 yamt * file descriptor passing 1530 1.94 yamt * 1531 1.94 yamt * we intercept sendmsg and recvmsg to convert file descriptors in 1532 1.94 yamt * control messages. an attempt to send a descriptor from a different kernel 1533 1.94 yamt * is rejected. (ENOTSUP) 1534 1.94 yamt */ 1535 1.94 yamt 1536 1.94 yamt static int 1537 1.94 yamt msg_convert(struct msghdr *msg, int (*func)(int)) 1538 1.94 yamt { 1539 1.94 yamt struct cmsghdr *cmsg; 1540 1.94 yamt 1541 1.94 yamt for (cmsg = CMSG_FIRSTHDR(msg); cmsg != NULL; 1542 1.94 yamt cmsg = CMSG_NXTHDR(msg, cmsg)) { 1543 1.94 yamt if (cmsg->cmsg_level == SOL_SOCKET && 1544 1.94 yamt cmsg->cmsg_type == SCM_RIGHTS) { 1545 1.94 yamt int *fdp = (void *)CMSG_DATA(cmsg); 1546 1.94 yamt const size_t size = 1547 1.94 yamt cmsg->cmsg_len - __CMSG_ALIGN(sizeof(*cmsg)); 1548 1.99 martin const int nfds = (int)(size / sizeof(int)); 1549 1.94 yamt const int * const efdp = fdp + nfds; 1550 1.94 yamt 1551 1.94 yamt while (fdp < efdp) { 1552 1.94 yamt const int newval = func(*fdp); 1553 1.94 yamt 1554 1.94 yamt if (newval < 0) { 1555 1.94 yamt return ENOTSUP; 1556 1.94 yamt } 1557 1.94 yamt *fdp = newval; 1558 1.94 yamt fdp++; 1559 1.94 yamt } 1560 1.94 yamt } 1561 1.94 yamt } 1562 1.94 yamt return 0; 1563 1.94 yamt } 1564 1.94 yamt 1565 1.94 yamt ssize_t 1566 1.94 yamt recvmsg(int fd, struct msghdr *msg, int flags) 1567 1.94 yamt { 1568 1.94 yamt ssize_t (*op_recvmsg)(int, struct msghdr *, int); 1569 1.94 yamt ssize_t ret; 1570 1.94 yamt const bool isrump = fd_isrump(fd); 1571 1.94 yamt 1572 1.94 yamt if (isrump) { 1573 1.94 yamt fd = fd_host2rump(fd); 1574 1.94 yamt op_recvmsg = GETSYSCALL(rump, RECVMSG); 1575 1.94 yamt } else { 1576 1.94 yamt op_recvmsg = GETSYSCALL(host, RECVMSG); 1577 1.94 yamt } 1578 1.94 yamt ret = op_recvmsg(fd, msg, flags); 1579 1.94 yamt if (ret == -1) { 1580 1.94 yamt return ret; 1581 1.94 yamt } 1582 1.94 yamt /* 1583 1.94 yamt * convert descriptors in the message. 1584 1.94 yamt */ 1585 1.94 yamt if (isrump) { 1586 1.94 yamt msg_convert(msg, fd_rump2host); 1587 1.94 yamt } else { 1588 1.94 yamt msg_convert(msg, fd_host2host); 1589 1.94 yamt } 1590 1.94 yamt return ret; 1591 1.94 yamt } 1592 1.94 yamt 1593 1.97 pooka ssize_t 1594 1.97 pooka recv(int fd, void *buf, size_t len, int flags) 1595 1.97 pooka { 1596 1.97 pooka 1597 1.97 pooka return recvfrom(fd, buf, len, flags, NULL, NULL); 1598 1.97 pooka } 1599 1.97 pooka 1600 1.97 pooka ssize_t 1601 1.97 pooka send(int fd, const void *buf, size_t len, int flags) 1602 1.97 pooka { 1603 1.97 pooka 1604 1.97 pooka return sendto(fd, buf, len, flags, NULL, 0); 1605 1.97 pooka } 1606 1.97 pooka 1607 1.94 yamt static int 1608 1.94 yamt fd_check_rump(int fd) 1609 1.94 yamt { 1610 1.94 yamt 1611 1.94 yamt return fd_isrump(fd) ? 0 : -1; 1612 1.94 yamt } 1613 1.94 yamt 1614 1.94 yamt static int 1615 1.94 yamt fd_check_host(int fd) 1616 1.94 yamt { 1617 1.94 yamt 1618 1.94 yamt return !fd_isrump(fd) ? 0 : -1; 1619 1.94 yamt } 1620 1.94 yamt 1621 1.94 yamt ssize_t 1622 1.94 yamt sendmsg(int fd, const struct msghdr *msg, int flags) 1623 1.94 yamt { 1624 1.94 yamt ssize_t (*op_sendmsg)(int, const struct msghdr *, int); 1625 1.94 yamt const bool isrump = fd_isrump(fd); 1626 1.94 yamt int error; 1627 1.94 yamt 1628 1.94 yamt /* 1629 1.94 yamt * reject descriptors from a different kernel. 1630 1.94 yamt */ 1631 1.94 yamt error = msg_convert(__UNCONST(msg), 1632 1.94 yamt isrump ? fd_check_rump: fd_check_host); 1633 1.94 yamt if (error != 0) { 1634 1.94 yamt errno = error; 1635 1.94 yamt return -1; 1636 1.94 yamt } 1637 1.94 yamt /* 1638 1.94 yamt * convert descriptors in the message to raw values. 1639 1.94 yamt */ 1640 1.94 yamt if (isrump) { 1641 1.94 yamt fd = fd_host2rump(fd); 1642 1.94 yamt /* 1643 1.94 yamt * XXX we directly modify the given message assuming: 1644 1.94 yamt * - cmsg is writable (typically on caller's stack) 1645 1.94 yamt * - caller don't care cmsg's contents after calling sendmsg. 1646 1.94 yamt * (thus no need to restore values) 1647 1.94 yamt * 1648 1.94 yamt * it's safer to copy and modify instead. 1649 1.94 yamt */ 1650 1.94 yamt msg_convert(__UNCONST(msg), fd_host2rump); 1651 1.94 yamt op_sendmsg = GETSYSCALL(rump, SENDMSG); 1652 1.94 yamt } else { 1653 1.94 yamt op_sendmsg = GETSYSCALL(host, SENDMSG); 1654 1.94 yamt } 1655 1.94 yamt return op_sendmsg(fd, msg, flags); 1656 1.94 yamt } 1657 1.94 yamt 1658 1.94 yamt /* 1659 1.2 pooka * dup2 is special. we allow dup2 of a rump kernel fd to 0-2 since 1660 1.2 pooka * many programs do that. dup2 of a rump kernel fd to another value 1661 1.2 pooka * not >= fdoff is an error. 1662 1.2 pooka * 1663 1.2 pooka * Note: cannot rump2host newd, because it is often hardcoded. 1664 1.2 pooka */ 1665 1.2 pooka int 1666 1.2 pooka dup2(int oldd, int newd) 1667 1.2 pooka { 1668 1.17 pooka int (*host_dup2)(int, int); 1669 1.2 pooka int rv; 1670 1.2 pooka 1671 1.2 pooka DPRINTF(("dup2 -> %d (o) -> %d (n)\n", oldd, newd)); 1672 1.2 pooka 1673 1.2 pooka if (fd_isrump(oldd)) { 1674 1.71 pooka int (*op_close)(int) = GETSYSCALL(host, CLOSE); 1675 1.71 pooka 1676 1.71 pooka /* only allow fd 0-2 for cross-kernel dup */ 1677 1.71 pooka if (!(newd >= 0 && newd <= 2 && !fd_isrump(newd))) { 1678 1.66 pooka errno = EBADF; 1679 1.66 pooka return -1; 1680 1.66 pooka } 1681 1.71 pooka 1682 1.71 pooka /* regular dup2? */ 1683 1.71 pooka if (fd_isrump(newd)) { 1684 1.71 pooka newd = fd_host2rump(newd); 1685 1.71 pooka rv = rump_sys_dup2(oldd, newd); 1686 1.71 pooka return fd_rump2host(rv); 1687 1.71 pooka } 1688 1.71 pooka 1689 1.71 pooka /* 1690 1.71 pooka * dup2 rump => host? just establish an 1691 1.71 pooka * entry in the mapping table. 1692 1.71 pooka */ 1693 1.71 pooka op_close(newd); 1694 1.71 pooka setdup2(newd, fd_host2rump(oldd)); 1695 1.71 pooka rv = 0; 1696 1.2 pooka } else { 1697 1.17 pooka host_dup2 = syscalls[DUALCALL_DUP2].bs_host; 1698 1.39 pooka if (rumpclient__closenotify(&newd, RUMPCLIENT_CLOSE_DUP2) == -1) 1699 1.39 pooka return -1; 1700 1.10 pooka rv = host_dup2(oldd, newd); 1701 1.2 pooka } 1702 1.10 pooka 1703 1.10 pooka return rv; 1704 1.2 pooka } 1705 1.2 pooka 1706 1.34 pooka int 1707 1.34 pooka dup(int oldd) 1708 1.34 pooka { 1709 1.34 pooka 1710 1.40 pooka return dodup(oldd, 0); 1711 1.34 pooka } 1712 1.34 pooka 1713 1.2 pooka pid_t 1714 1.93 abs fork(void) 1715 1.2 pooka { 1716 1.2 pooka pid_t rv; 1717 1.2 pooka 1718 1.2 pooka DPRINTF(("fork\n")); 1719 1.2 pooka 1720 1.43 pooka rv = rumpclient__dofork(host_fork); 1721 1.2 pooka 1722 1.2 pooka DPRINTF(("fork returns %d\n", rv)); 1723 1.2 pooka return rv; 1724 1.1 pooka } 1725 1.96 pooka #ifdef VFORK 1726 1.43 pooka /* we do not have the luxury of not requiring a stackframe */ 1727 1.96 pooka __strong_alias(VFORK,fork); 1728 1.96 pooka #endif 1729 1.1 pooka 1730 1.25 pooka int 1731 1.25 pooka daemon(int nochdir, int noclose) 1732 1.25 pooka { 1733 1.25 pooka struct rumpclient_fork *rf; 1734 1.25 pooka 1735 1.25 pooka if ((rf = rumpclient_prefork()) == NULL) 1736 1.25 pooka return -1; 1737 1.25 pooka 1738 1.25 pooka if (host_daemon(nochdir, noclose) == -1) 1739 1.25 pooka return -1; 1740 1.25 pooka 1741 1.25 pooka if (rumpclient_fork_init(rf) == -1) 1742 1.25 pooka return -1; 1743 1.25 pooka 1744 1.25 pooka return 0; 1745 1.25 pooka } 1746 1.25 pooka 1747 1.39 pooka int 1748 1.42 pooka execve(const char *path, char *const argv[], char *const envp[]) 1749 1.39 pooka { 1750 1.39 pooka char buf[128]; 1751 1.39 pooka char *dup2str; 1752 1.49 pooka const char *pwdinrumpstr; 1753 1.42 pooka char **newenv; 1754 1.42 pooka size_t nelem; 1755 1.42 pooka int rv, sverrno; 1756 1.71 pooka int bonus = 2, i = 0; 1757 1.45 pooka 1758 1.71 pooka snprintf(buf, sizeof(buf), "RUMPHIJACK__DUP2INFO=%u,%u,%u", 1759 1.71 pooka dup2vec[0], dup2vec[1], dup2vec[2]); 1760 1.71 pooka dup2str = strdup(buf); 1761 1.71 pooka if (dup2str == NULL) { 1762 1.71 pooka errno = ENOMEM; 1763 1.71 pooka return -1; 1764 1.45 pooka } 1765 1.39 pooka 1766 1.45 pooka if (pwdinrump) { 1767 1.49 pooka pwdinrumpstr = "RUMPHIJACK__PWDINRUMP=true"; 1768 1.45 pooka bonus++; 1769 1.45 pooka } else { 1770 1.45 pooka pwdinrumpstr = NULL; 1771 1.45 pooka } 1772 1.39 pooka 1773 1.42 pooka for (nelem = 0; envp && envp[nelem]; nelem++) 1774 1.42 pooka continue; 1775 1.71 pooka newenv = malloc(sizeof(*newenv) * (nelem+bonus)); 1776 1.42 pooka if (newenv == NULL) { 1777 1.39 pooka free(dup2str); 1778 1.66 pooka errno = ENOMEM; 1779 1.66 pooka return -1; 1780 1.39 pooka } 1781 1.42 pooka memcpy(newenv, envp, nelem*sizeof(*newenv)); 1782 1.71 pooka newenv[nelem+i] = dup2str; 1783 1.71 pooka i++; 1784 1.71 pooka 1785 1.45 pooka if (pwdinrumpstr) { 1786 1.49 pooka newenv[nelem+i] = __UNCONST(pwdinrumpstr); 1787 1.45 pooka i++; 1788 1.45 pooka } 1789 1.45 pooka newenv[nelem+i] = NULL; 1790 1.45 pooka _DIAGASSERT(i < bonus); 1791 1.42 pooka 1792 1.42 pooka rv = rumpclient_exec(path, argv, newenv); 1793 1.42 pooka 1794 1.42 pooka _DIAGASSERT(rv != 0); 1795 1.42 pooka sverrno = errno; 1796 1.42 pooka free(newenv); 1797 1.42 pooka free(dup2str); 1798 1.42 pooka errno = sverrno; 1799 1.39 pooka return rv; 1800 1.39 pooka } 1801 1.39 pooka 1802 1.1 pooka /* 1803 1.17 pooka * select is done by calling poll. 1804 1.1 pooka */ 1805 1.1 pooka int 1806 1.29 pooka REALSELECT(int nfds, fd_set *readfds, fd_set *writefds, fd_set *exceptfds, 1807 1.4 pooka struct timeval *timeout) 1808 1.1 pooka { 1809 1.4 pooka struct pollfd *pfds; 1810 1.4 pooka struct timespec ts, *tsp = NULL; 1811 1.19 pooka nfds_t realnfds; 1812 1.19 pooka int i, j; 1813 1.4 pooka int rv, incr; 1814 1.4 pooka 1815 1.100 pooka DPRINTF(("select %d %p %p %p %p\n", nfds, 1816 1.100 pooka readfds, writefds, exceptfds, timeout)); 1817 1.7 pooka 1818 1.4 pooka /* 1819 1.4 pooka * Well, first we must scan the fds to figure out how many 1820 1.4 pooka * fds there really are. This is because up to and including 1821 1.17 pooka * nb5 poll() silently refuses nfds > process_maxopen_fds. 1822 1.4 pooka * Seems to be fixed in current, thank the maker. 1823 1.4 pooka * god damn cluster...bomb. 1824 1.4 pooka */ 1825 1.4 pooka 1826 1.4 pooka for (i = 0, realnfds = 0; i < nfds; i++) { 1827 1.4 pooka if (readfds && FD_ISSET(i, readfds)) { 1828 1.4 pooka realnfds++; 1829 1.4 pooka continue; 1830 1.4 pooka } 1831 1.4 pooka if (writefds && FD_ISSET(i, writefds)) { 1832 1.4 pooka realnfds++; 1833 1.4 pooka continue; 1834 1.4 pooka } 1835 1.4 pooka if (exceptfds && FD_ISSET(i, exceptfds)) { 1836 1.4 pooka realnfds++; 1837 1.4 pooka continue; 1838 1.1 pooka } 1839 1.1 pooka } 1840 1.1 pooka 1841 1.6 pooka if (realnfds) { 1842 1.38 pooka pfds = calloc(realnfds, sizeof(*pfds)); 1843 1.6 pooka if (!pfds) 1844 1.6 pooka return -1; 1845 1.6 pooka } else { 1846 1.6 pooka pfds = NULL; 1847 1.6 pooka } 1848 1.1 pooka 1849 1.4 pooka for (i = 0, j = 0; i < nfds; i++) { 1850 1.4 pooka incr = 0; 1851 1.4 pooka if (readfds && FD_ISSET(i, readfds)) { 1852 1.4 pooka pfds[j].fd = i; 1853 1.4 pooka pfds[j].events |= POLLIN; 1854 1.4 pooka incr=1; 1855 1.4 pooka } 1856 1.4 pooka if (writefds && FD_ISSET(i, writefds)) { 1857 1.4 pooka pfds[j].fd = i; 1858 1.4 pooka pfds[j].events |= POLLOUT; 1859 1.4 pooka incr=1; 1860 1.4 pooka } 1861 1.4 pooka if (exceptfds && FD_ISSET(i, exceptfds)) { 1862 1.4 pooka pfds[j].fd = i; 1863 1.4 pooka pfds[j].events |= POLLHUP|POLLERR; 1864 1.4 pooka incr=1; 1865 1.1 pooka } 1866 1.4 pooka if (incr) 1867 1.4 pooka j++; 1868 1.1 pooka } 1869 1.37 pooka assert(j == (int)realnfds); 1870 1.1 pooka 1871 1.4 pooka if (timeout) { 1872 1.4 pooka TIMEVAL_TO_TIMESPEC(timeout, &ts); 1873 1.4 pooka tsp = &ts; 1874 1.4 pooka } 1875 1.29 pooka rv = REALPOLLTS(pfds, realnfds, tsp, NULL); 1876 1.36 pooka /* 1877 1.36 pooka * "If select() returns with an error the descriptor sets 1878 1.36 pooka * will be unmodified" 1879 1.36 pooka */ 1880 1.36 pooka if (rv < 0) 1881 1.4 pooka goto out; 1882 1.4 pooka 1883 1.4 pooka /* 1884 1.36 pooka * zero out results (can't use FD_ZERO for the 1885 1.36 pooka * obvious select-me-not reason). whee. 1886 1.36 pooka * 1887 1.36 pooka * We do this here since some software ignores the return 1888 1.36 pooka * value of select, and hence if the timeout expires, it may 1889 1.36 pooka * assume all input descriptors have activity. 1890 1.4 pooka */ 1891 1.4 pooka for (i = 0; i < nfds; i++) { 1892 1.4 pooka if (readfds) 1893 1.4 pooka FD_CLR(i, readfds); 1894 1.4 pooka if (writefds) 1895 1.4 pooka FD_CLR(i, writefds); 1896 1.4 pooka if (exceptfds) 1897 1.4 pooka FD_CLR(i, exceptfds); 1898 1.1 pooka } 1899 1.36 pooka if (rv == 0) 1900 1.36 pooka goto out; 1901 1.1 pooka 1902 1.36 pooka /* 1903 1.36 pooka * We have >0 fds with activity. Harvest the results. 1904 1.36 pooka */ 1905 1.19 pooka for (i = 0; i < (int)realnfds; i++) { 1906 1.4 pooka if (readfds) { 1907 1.4 pooka if (pfds[i].revents & POLLIN) { 1908 1.4 pooka FD_SET(pfds[i].fd, readfds); 1909 1.4 pooka } 1910 1.4 pooka } 1911 1.4 pooka if (writefds) { 1912 1.4 pooka if (pfds[i].revents & POLLOUT) { 1913 1.4 pooka FD_SET(pfds[i].fd, writefds); 1914 1.4 pooka } 1915 1.4 pooka } 1916 1.4 pooka if (exceptfds) { 1917 1.4 pooka if (pfds[i].revents & (POLLHUP|POLLERR)) { 1918 1.4 pooka FD_SET(pfds[i].fd, exceptfds); 1919 1.4 pooka } 1920 1.4 pooka } 1921 1.1 pooka } 1922 1.1 pooka 1923 1.4 pooka out: 1924 1.4 pooka free(pfds); 1925 1.1 pooka return rv; 1926 1.1 pooka } 1927 1.1 pooka 1928 1.1 pooka static void 1929 1.1 pooka checkpoll(struct pollfd *fds, nfds_t nfds, int *hostcall, int *rumpcall) 1930 1.1 pooka { 1931 1.1 pooka nfds_t i; 1932 1.1 pooka 1933 1.1 pooka for (i = 0; i < nfds; i++) { 1934 1.12 pooka if (fds[i].fd == -1) 1935 1.12 pooka continue; 1936 1.12 pooka 1937 1.2 pooka if (fd_isrump(fds[i].fd)) 1938 1.2 pooka (*rumpcall)++; 1939 1.2 pooka else 1940 1.1 pooka (*hostcall)++; 1941 1.1 pooka } 1942 1.1 pooka } 1943 1.1 pooka 1944 1.1 pooka static void 1945 1.2 pooka adjustpoll(struct pollfd *fds, nfds_t nfds, int (*fdadj)(int)) 1946 1.1 pooka { 1947 1.1 pooka nfds_t i; 1948 1.1 pooka 1949 1.1 pooka for (i = 0; i < nfds; i++) { 1950 1.2 pooka fds[i].fd = fdadj(fds[i].fd); 1951 1.1 pooka } 1952 1.1 pooka } 1953 1.1 pooka 1954 1.1 pooka /* 1955 1.1 pooka * poll is easy as long as the call comes in the fds only in one 1956 1.1 pooka * kernel. otherwise its quite tricky... 1957 1.1 pooka */ 1958 1.1 pooka struct pollarg { 1959 1.1 pooka struct pollfd *pfds; 1960 1.1 pooka nfds_t nfds; 1961 1.3 pooka const struct timespec *ts; 1962 1.3 pooka const sigset_t *sigmask; 1963 1.1 pooka int pipefd; 1964 1.1 pooka int errnum; 1965 1.1 pooka }; 1966 1.1 pooka 1967 1.1 pooka static void * 1968 1.1 pooka hostpoll(void *arg) 1969 1.1 pooka { 1970 1.17 pooka int (*op_pollts)(struct pollfd *, nfds_t, const struct timespec *, 1971 1.17 pooka const sigset_t *); 1972 1.1 pooka struct pollarg *parg = arg; 1973 1.1 pooka intptr_t rv; 1974 1.1 pooka 1975 1.35 pooka op_pollts = GETSYSCALL(host, POLLTS); 1976 1.17 pooka rv = op_pollts(parg->pfds, parg->nfds, parg->ts, parg->sigmask); 1977 1.1 pooka if (rv == -1) 1978 1.1 pooka parg->errnum = errno; 1979 1.1 pooka rump_sys_write(parg->pipefd, &rv, sizeof(rv)); 1980 1.1 pooka 1981 1.92 martin return (void *)rv; 1982 1.1 pooka } 1983 1.1 pooka 1984 1.1 pooka int 1985 1.29 pooka REALPOLLTS(struct pollfd *fds, nfds_t nfds, const struct timespec *ts, 1986 1.3 pooka const sigset_t *sigmask) 1987 1.1 pooka { 1988 1.3 pooka int (*op_pollts)(struct pollfd *, nfds_t, const struct timespec *, 1989 1.3 pooka const sigset_t *); 1990 1.17 pooka int (*host_close)(int); 1991 1.1 pooka int hostcall = 0, rumpcall = 0; 1992 1.1 pooka pthread_t pt; 1993 1.1 pooka nfds_t i; 1994 1.1 pooka int rv; 1995 1.1 pooka 1996 1.100 pooka DPRINTF(("poll %p %d %p %p\n", fds, (int)nfds, ts, sigmask)); 1997 1.1 pooka checkpoll(fds, nfds, &hostcall, &rumpcall); 1998 1.1 pooka 1999 1.1 pooka if (hostcall && rumpcall) { 2000 1.1 pooka struct pollfd *pfd_host = NULL, *pfd_rump = NULL; 2001 1.1 pooka int rpipe[2] = {-1,-1}, hpipe[2] = {-1,-1}; 2002 1.1 pooka struct pollarg parg; 2003 1.92 martin void *trv_val; 2004 1.99 martin int sverrno = 0, rv_rump, rv_host, errno_rump, errno_host; 2005 1.1 pooka 2006 1.1 pooka /* 2007 1.1 pooka * ok, this is where it gets tricky. We must support 2008 1.1 pooka * this since it's a very common operation in certain 2009 1.1 pooka * types of software (telnet, netcat, etc). We allocate 2010 1.1 pooka * two vectors and run two poll commands in separate 2011 1.1 pooka * threads. Whichever returns first "wins" and the 2012 1.1 pooka * other kernel's fds won't show activity. 2013 1.1 pooka */ 2014 1.1 pooka rv = -1; 2015 1.1 pooka 2016 1.1 pooka /* allocate full vector for O(n) joining after call */ 2017 1.1 pooka pfd_host = malloc(sizeof(*pfd_host)*(nfds+1)); 2018 1.1 pooka if (!pfd_host) 2019 1.1 pooka goto out; 2020 1.1 pooka pfd_rump = malloc(sizeof(*pfd_rump)*(nfds+1)); 2021 1.1 pooka if (!pfd_rump) { 2022 1.1 pooka goto out; 2023 1.1 pooka } 2024 1.1 pooka 2025 1.59 pooka /* 2026 1.59 pooka * then, open two pipes, one for notifications 2027 1.59 pooka * to each kernel. 2028 1.73 pooka * 2029 1.73 pooka * At least the rump pipe should probably be 2030 1.73 pooka * cached, along with the helper threads. This 2031 1.73 pooka * should give a microbenchmark improvement (haven't 2032 1.73 pooka * experienced a macro-level problem yet, though). 2033 1.59 pooka */ 2034 1.59 pooka if ((rv = rump_sys_pipe(rpipe)) == -1) { 2035 1.59 pooka sverrno = errno; 2036 1.59 pooka } 2037 1.59 pooka if (rv == 0 && (rv = pipe(hpipe)) == -1) { 2038 1.59 pooka sverrno = errno; 2039 1.59 pooka } 2040 1.59 pooka 2041 1.59 pooka /* split vectors (or signal errors) */ 2042 1.1 pooka for (i = 0; i < nfds; i++) { 2043 1.59 pooka int fd; 2044 1.59 pooka 2045 1.59 pooka fds[i].revents = 0; 2046 1.3 pooka if (fds[i].fd == -1) { 2047 1.3 pooka pfd_host[i].fd = -1; 2048 1.3 pooka pfd_rump[i].fd = -1; 2049 1.3 pooka } else if (fd_isrump(fds[i].fd)) { 2050 1.2 pooka pfd_host[i].fd = -1; 2051 1.59 pooka fd = fd_host2rump(fds[i].fd); 2052 1.59 pooka if (fd == rpipe[0] || fd == rpipe[1]) { 2053 1.59 pooka fds[i].revents = POLLNVAL; 2054 1.59 pooka if (rv != -1) 2055 1.59 pooka rv++; 2056 1.59 pooka } 2057 1.59 pooka pfd_rump[i].fd = fd; 2058 1.2 pooka pfd_rump[i].events = fds[i].events; 2059 1.2 pooka } else { 2060 1.2 pooka pfd_rump[i].fd = -1; 2061 1.59 pooka fd = fds[i].fd; 2062 1.59 pooka if (fd == hpipe[0] || fd == hpipe[1]) { 2063 1.59 pooka fds[i].revents = POLLNVAL; 2064 1.59 pooka if (rv != -1) 2065 1.59 pooka rv++; 2066 1.59 pooka } 2067 1.59 pooka pfd_host[i].fd = fd; 2068 1.1 pooka pfd_host[i].events = fds[i].events; 2069 1.1 pooka } 2070 1.39 pooka pfd_rump[i].revents = pfd_host[i].revents = 0; 2071 1.1 pooka } 2072 1.59 pooka if (rv) { 2073 1.1 pooka goto out; 2074 1.59 pooka } 2075 1.1 pooka 2076 1.1 pooka pfd_host[nfds].fd = hpipe[0]; 2077 1.1 pooka pfd_host[nfds].events = POLLIN; 2078 1.1 pooka pfd_rump[nfds].fd = rpipe[0]; 2079 1.1 pooka pfd_rump[nfds].events = POLLIN; 2080 1.1 pooka 2081 1.1 pooka /* 2082 1.1 pooka * then, create a thread to do host part and meanwhile 2083 1.1 pooka * do rump kernel part right here 2084 1.1 pooka */ 2085 1.1 pooka 2086 1.1 pooka parg.pfds = pfd_host; 2087 1.1 pooka parg.nfds = nfds+1; 2088 1.3 pooka parg.ts = ts; 2089 1.3 pooka parg.sigmask = sigmask; 2090 1.1 pooka parg.pipefd = rpipe[1]; 2091 1.1 pooka pthread_create(&pt, NULL, hostpoll, &parg); 2092 1.1 pooka 2093 1.35 pooka op_pollts = GETSYSCALL(rump, POLLTS); 2094 1.99 martin rv_rump = op_pollts(pfd_rump, nfds+1, ts, NULL); 2095 1.99 martin errno_rump = errno; 2096 1.1 pooka write(hpipe[1], &rv, sizeof(rv)); 2097 1.92 martin pthread_join(pt, &trv_val); 2098 1.99 martin rv_host = (int)(intptr_t)trv_val; 2099 1.99 martin errno_host = parg.errnum; 2100 1.1 pooka 2101 1.99 martin /* strip cross-thread notification from real results */ 2102 1.109 gson if (rv_host > 0 && pfd_host[nfds].revents & POLLIN) { 2103 1.99 martin rv_host--; 2104 1.99 martin } 2105 1.109 gson if (rv_rump > 0 && pfd_rump[nfds].revents & POLLIN) { 2106 1.99 martin rv_rump--; 2107 1.99 martin } 2108 1.99 martin 2109 1.99 martin /* then merge the results into what's reported to the caller */ 2110 1.99 martin if (rv_rump > 0 || rv_host > 0) { 2111 1.99 martin /* SUCCESS */ 2112 1.99 martin 2113 1.99 martin rv = 0; 2114 1.99 martin if (rv_rump > 0) { 2115 1.99 martin for (i = 0; i < nfds; i++) { 2116 1.99 martin if (pfd_rump[i].fd != -1) 2117 1.99 martin fds[i].revents 2118 1.99 martin = pfd_rump[i].revents; 2119 1.99 martin } 2120 1.99 martin rv += rv_rump; 2121 1.1 pooka } 2122 1.99 martin if (rv_host > 0) { 2123 1.99 martin for (i = 0; i < nfds; i++) { 2124 1.99 martin if (pfd_host[i].fd != -1) 2125 1.99 martin fds[i].revents 2126 1.99 martin = pfd_host[i].revents; 2127 1.99 martin } 2128 1.99 martin rv += rv_host; 2129 1.99 martin } 2130 1.99 martin assert(rv > 0); 2131 1.99 martin sverrno = 0; 2132 1.99 martin } else if (rv_rump == -1 || rv_host == -1) { 2133 1.99 martin /* ERROR */ 2134 1.99 martin 2135 1.99 martin /* just pick one kernel at "random" */ 2136 1.99 martin rv = -1; 2137 1.99 martin if (rv_host == -1) { 2138 1.99 martin sverrno = errno_host; 2139 1.99 martin } else if (rv_rump == -1) { 2140 1.99 martin sverrno = errno_rump; 2141 1.1 pooka } 2142 1.1 pooka } else { 2143 1.99 martin /* TIMEOUT */ 2144 1.99 martin 2145 1.1 pooka rv = 0; 2146 1.99 martin assert(rv_rump == 0 && rv_host == 0); 2147 1.1 pooka } 2148 1.1 pooka 2149 1.1 pooka out: 2150 1.35 pooka host_close = GETSYSCALL(host, CLOSE); 2151 1.1 pooka if (rpipe[0] != -1) 2152 1.1 pooka rump_sys_close(rpipe[0]); 2153 1.1 pooka if (rpipe[1] != -1) 2154 1.1 pooka rump_sys_close(rpipe[1]); 2155 1.1 pooka if (hpipe[0] != -1) 2156 1.9 pooka host_close(hpipe[0]); 2157 1.1 pooka if (hpipe[1] != -1) 2158 1.9 pooka host_close(hpipe[1]); 2159 1.1 pooka free(pfd_host); 2160 1.1 pooka free(pfd_rump); 2161 1.1 pooka errno = sverrno; 2162 1.1 pooka } else { 2163 1.1 pooka if (hostcall) { 2164 1.35 pooka op_pollts = GETSYSCALL(host, POLLTS); 2165 1.1 pooka } else { 2166 1.35 pooka op_pollts = GETSYSCALL(rump, POLLTS); 2167 1.2 pooka adjustpoll(fds, nfds, fd_host2rump); 2168 1.1 pooka } 2169 1.1 pooka 2170 1.3 pooka rv = op_pollts(fds, nfds, ts, sigmask); 2171 1.1 pooka if (rumpcall) 2172 1.71 pooka adjustpoll(fds, nfds, fd_rump2host_withdup); 2173 1.1 pooka } 2174 1.1 pooka 2175 1.1 pooka return rv; 2176 1.1 pooka } 2177 1.1 pooka 2178 1.1 pooka int 2179 1.24 pooka poll(struct pollfd *fds, nfds_t nfds, int timeout) 2180 1.1 pooka { 2181 1.3 pooka struct timespec ts; 2182 1.3 pooka struct timespec *tsp = NULL; 2183 1.3 pooka 2184 1.3 pooka if (timeout != INFTIM) { 2185 1.3 pooka ts.tv_sec = timeout / 1000; 2186 1.11 pooka ts.tv_nsec = (timeout % 1000) * 1000*1000; 2187 1.3 pooka 2188 1.3 pooka tsp = &ts; 2189 1.3 pooka } 2190 1.1 pooka 2191 1.29 pooka return REALPOLLTS(fds, nfds, tsp, NULL); 2192 1.1 pooka } 2193 1.10 pooka 2194 1.96 pooka #ifdef PLATFORM_HAS_KQUEUE 2195 1.10 pooka int 2196 1.34 pooka REALKEVENT(int kq, const struct kevent *changelist, size_t nchanges, 2197 1.34 pooka struct kevent *eventlist, size_t nevents, 2198 1.34 pooka const struct timespec *timeout) 2199 1.10 pooka { 2200 1.34 pooka int (*op_kevent)(int, const struct kevent *, size_t, 2201 1.34 pooka struct kevent *, size_t, const struct timespec *); 2202 1.34 pooka const struct kevent *ev; 2203 1.34 pooka size_t i; 2204 1.10 pooka 2205 1.34 pooka /* 2206 1.34 pooka * Check that we don't attempt to kevent rump kernel fd's. 2207 1.34 pooka * That needs similar treatment to select/poll, but is slightly 2208 1.34 pooka * trickier since we need to manage to different kq descriptors. 2209 1.34 pooka * (TODO, in case you're wondering). 2210 1.34 pooka */ 2211 1.34 pooka for (i = 0; i < nchanges; i++) { 2212 1.34 pooka ev = &changelist[i]; 2213 1.34 pooka if (ev->filter == EVFILT_READ || ev->filter == EVFILT_WRITE || 2214 1.34 pooka ev->filter == EVFILT_VNODE) { 2215 1.66 pooka if (fd_isrump((int)ev->ident)) { 2216 1.66 pooka errno = ENOTSUP; 2217 1.66 pooka return -1; 2218 1.66 pooka } 2219 1.34 pooka } 2220 1.27 pooka } 2221 1.10 pooka 2222 1.35 pooka op_kevent = GETSYSCALL(host, KEVENT); 2223 1.34 pooka return op_kevent(kq, changelist, nchanges, eventlist, nevents, timeout); 2224 1.10 pooka } 2225 1.96 pooka #endif /* PLATFORM_HAS_KQUEUE */ 2226 1.17 pooka 2227 1.17 pooka /* 2228 1.62 pooka * mmapping from a rump kernel is not supported, so disallow it. 2229 1.62 pooka */ 2230 1.62 pooka void * 2231 1.62 pooka mmap(void *addr, size_t len, int prot, int flags, int fd, off_t offset) 2232 1.62 pooka { 2233 1.62 pooka 2234 1.62 pooka if (flags & MAP_FILE && fd_isrump(fd)) { 2235 1.62 pooka errno = ENOSYS; 2236 1.62 pooka return MAP_FAILED; 2237 1.62 pooka } 2238 1.62 pooka return host_mmap(addr, len, prot, flags, fd, offset); 2239 1.62 pooka } 2240 1.62 pooka 2241 1.96 pooka #ifdef PLATFORM_HAS_NBSYSCTL 2242 1.62 pooka /* 2243 1.78 pooka * these go to one or the other on a per-process configuration 2244 1.78 pooka */ 2245 1.78 pooka int __sysctl(const int *, unsigned int, void *, size_t *, const void *, size_t); 2246 1.78 pooka int 2247 1.78 pooka __sysctl(const int *name, unsigned int namelen, void *old, size_t *oldlenp, 2248 1.78 pooka const void *new, size_t newlen) 2249 1.78 pooka { 2250 1.78 pooka int (*op___sysctl)(const int *, unsigned int, void *, size_t *, 2251 1.78 pooka const void *, size_t); 2252 1.78 pooka 2253 1.78 pooka if (rumpsysctl) { 2254 1.78 pooka op___sysctl = GETSYSCALL(rump, __SYSCTL); 2255 1.78 pooka } else { 2256 1.78 pooka op___sysctl = GETSYSCALL(host, __SYSCTL); 2257 1.78 pooka /* we haven't inited yet */ 2258 1.78 pooka if (__predict_false(op___sysctl == NULL)) { 2259 1.84 pooka op___sysctl = rumphijack_dlsym(RTLD_NEXT, "__sysctl"); 2260 1.78 pooka } 2261 1.78 pooka } 2262 1.78 pooka 2263 1.78 pooka return op___sysctl(name, namelen, old, oldlenp, new, newlen); 2264 1.78 pooka } 2265 1.96 pooka #endif 2266 1.78 pooka 2267 1.78 pooka /* 2268 1.17 pooka * Rest are std type calls. 2269 1.17 pooka */ 2270 1.17 pooka 2271 1.109.2.2 martin ATCALL(int, utimensat, DUALCALL_UTIMENSAT, \ 2272 1.109.2.2 martin (int fd, const char *path, const struct timespec t[2], int f), \ 2273 1.109.2.2 martin (int, const char *, const struct timespec [2], int), 2274 1.109.2.2 martin (fd, path, t, f)) 2275 1.109.2.2 martin 2276 1.17 pooka FDCALL(int, bind, DUALCALL_BIND, \ 2277 1.17 pooka (int fd, const struct sockaddr *name, socklen_t namelen), \ 2278 1.17 pooka (int, const struct sockaddr *, socklen_t), \ 2279 1.17 pooka (fd, name, namelen)) 2280 1.17 pooka 2281 1.17 pooka FDCALL(int, connect, DUALCALL_CONNECT, \ 2282 1.17 pooka (int fd, const struct sockaddr *name, socklen_t namelen), \ 2283 1.17 pooka (int, const struct sockaddr *, socklen_t), \ 2284 1.17 pooka (fd, name, namelen)) 2285 1.17 pooka 2286 1.17 pooka FDCALL(int, getpeername, DUALCALL_GETPEERNAME, \ 2287 1.17 pooka (int fd, struct sockaddr *name, socklen_t *namelen), \ 2288 1.17 pooka (int, struct sockaddr *, socklen_t *), \ 2289 1.17 pooka (fd, name, namelen)) 2290 1.17 pooka 2291 1.17 pooka FDCALL(int, getsockname, DUALCALL_GETSOCKNAME, \ 2292 1.17 pooka (int fd, struct sockaddr *name, socklen_t *namelen), \ 2293 1.17 pooka (int, struct sockaddr *, socklen_t *), \ 2294 1.17 pooka (fd, name, namelen)) 2295 1.17 pooka 2296 1.17 pooka FDCALL(int, listen, DUALCALL_LISTEN, \ 2297 1.17 pooka (int fd, int backlog), \ 2298 1.17 pooka (int, int), \ 2299 1.17 pooka (fd, backlog)) 2300 1.17 pooka 2301 1.17 pooka FDCALL(ssize_t, recvfrom, DUALCALL_RECVFROM, \ 2302 1.17 pooka (int fd, void *buf, size_t len, int flags, \ 2303 1.17 pooka struct sockaddr *from, socklen_t *fromlen), \ 2304 1.17 pooka (int, void *, size_t, int, struct sockaddr *, socklen_t *), \ 2305 1.17 pooka (fd, buf, len, flags, from, fromlen)) 2306 1.17 pooka 2307 1.17 pooka FDCALL(ssize_t, sendto, DUALCALL_SENDTO, \ 2308 1.17 pooka (int fd, const void *buf, size_t len, int flags, \ 2309 1.17 pooka const struct sockaddr *to, socklen_t tolen), \ 2310 1.17 pooka (int, const void *, size_t, int, \ 2311 1.17 pooka const struct sockaddr *, socklen_t), \ 2312 1.17 pooka (fd, buf, len, flags, to, tolen)) 2313 1.17 pooka 2314 1.17 pooka FDCALL(int, getsockopt, DUALCALL_GETSOCKOPT, \ 2315 1.17 pooka (int fd, int level, int optn, void *optval, socklen_t *optlen), \ 2316 1.17 pooka (int, int, int, void *, socklen_t *), \ 2317 1.17 pooka (fd, level, optn, optval, optlen)) 2318 1.17 pooka 2319 1.17 pooka FDCALL(int, setsockopt, DUALCALL_SETSOCKOPT, \ 2320 1.17 pooka (int fd, int level, int optn, \ 2321 1.17 pooka const void *optval, socklen_t optlen), \ 2322 1.17 pooka (int, int, int, const void *, socklen_t), \ 2323 1.17 pooka (fd, level, optn, optval, optlen)) 2324 1.17 pooka 2325 1.17 pooka FDCALL(int, shutdown, DUALCALL_SHUTDOWN, \ 2326 1.17 pooka (int fd, int how), \ 2327 1.17 pooka (int, int), \ 2328 1.17 pooka (fd, how)) 2329 1.17 pooka 2330 1.31 pooka FDCALL(ssize_t, REALREAD, DUALCALL_READ, \ 2331 1.17 pooka (int fd, void *buf, size_t buflen), \ 2332 1.17 pooka (int, void *, size_t), \ 2333 1.17 pooka (fd, buf, buflen)) 2334 1.17 pooka 2335 1.100 pooka #ifdef __linux__ 2336 1.100 pooka ssize_t __read_chk(int, void *, size_t) 2337 1.100 pooka __attribute__((alias("read"))); 2338 1.100 pooka #endif 2339 1.100 pooka 2340 1.18 pooka FDCALL(ssize_t, readv, DUALCALL_READV, \ 2341 1.17 pooka (int fd, const struct iovec *iov, int iovcnt), \ 2342 1.17 pooka (int, const struct iovec *, int), \ 2343 1.17 pooka (fd, iov, iovcnt)) 2344 1.17 pooka 2345 1.60 pooka FDCALL(ssize_t, REALPREAD, DUALCALL_PREAD, \ 2346 1.60 pooka (int fd, void *buf, size_t nbytes, off_t offset), \ 2347 1.60 pooka (int, void *, size_t, off_t), \ 2348 1.60 pooka (fd, buf, nbytes, offset)) 2349 1.60 pooka 2350 1.60 pooka FDCALL(ssize_t, preadv, DUALCALL_PREADV, \ 2351 1.60 pooka (int fd, const struct iovec *iov, int iovcnt, off_t offset), \ 2352 1.60 pooka (int, const struct iovec *, int, off_t), \ 2353 1.60 pooka (fd, iov, iovcnt, offset)) 2354 1.60 pooka 2355 1.17 pooka FDCALL(ssize_t, writev, DUALCALL_WRITEV, \ 2356 1.17 pooka (int fd, const struct iovec *iov, int iovcnt), \ 2357 1.17 pooka (int, const struct iovec *, int), \ 2358 1.17 pooka (fd, iov, iovcnt)) 2359 1.45 pooka 2360 1.60 pooka FDCALL(ssize_t, REALPWRITE, DUALCALL_PWRITE, \ 2361 1.60 pooka (int fd, const void *buf, size_t nbytes, off_t offset), \ 2362 1.60 pooka (int, const void *, size_t, off_t), \ 2363 1.60 pooka (fd, buf, nbytes, offset)) 2364 1.60 pooka 2365 1.60 pooka FDCALL(ssize_t, pwritev, DUALCALL_PWRITEV, \ 2366 1.60 pooka (int fd, const struct iovec *iov, int iovcnt, off_t offset), \ 2367 1.60 pooka (int, const struct iovec *, int, off_t), \ 2368 1.60 pooka (fd, iov, iovcnt, offset)) 2369 1.60 pooka 2370 1.97 pooka #ifndef __linux__ 2371 1.45 pooka FDCALL(int, REALFSTAT, DUALCALL_FSTAT, \ 2372 1.45 pooka (int fd, struct stat *sb), \ 2373 1.45 pooka (int, struct stat *), \ 2374 1.45 pooka (fd, sb)) 2375 1.97 pooka #endif 2376 1.45 pooka 2377 1.96 pooka #ifdef PLATFORM_HAS_NBVFSSTAT 2378 1.45 pooka FDCALL(int, fstatvfs1, DUALCALL_FSTATVFS1, \ 2379 1.45 pooka (int fd, struct statvfs *buf, int flags), \ 2380 1.45 pooka (int, struct statvfs *, int), \ 2381 1.45 pooka (fd, buf, flags)) 2382 1.96 pooka #endif 2383 1.45 pooka 2384 1.61 pooka FDCALL(off_t, lseek, DUALCALL_LSEEK, \ 2385 1.45 pooka (int fd, off_t offset, int whence), \ 2386 1.45 pooka (int, off_t, int), \ 2387 1.45 pooka (fd, offset, whence)) 2388 1.96 pooka #ifdef LSEEK_ALIAS 2389 1.96 pooka __strong_alias(LSEEK_ALIAS,lseek); 2390 1.96 pooka #endif 2391 1.45 pooka 2392 1.98 pooka #ifndef __linux__ 2393 1.45 pooka FDCALL(int, REALGETDENTS, DUALCALL_GETDENTS, \ 2394 1.45 pooka (int fd, char *buf, size_t nbytes), \ 2395 1.45 pooka (int, char *, size_t), \ 2396 1.45 pooka (fd, buf, nbytes)) 2397 1.98 pooka #endif 2398 1.45 pooka 2399 1.45 pooka FDCALL(int, fchown, DUALCALL_FCHOWN, \ 2400 1.45 pooka (int fd, uid_t owner, gid_t group), \ 2401 1.45 pooka (int, uid_t, gid_t), \ 2402 1.45 pooka (fd, owner, group)) 2403 1.45 pooka 2404 1.45 pooka FDCALL(int, fchmod, DUALCALL_FCHMOD, \ 2405 1.45 pooka (int fd, mode_t mode), \ 2406 1.45 pooka (int, mode_t), \ 2407 1.45 pooka (fd, mode)) 2408 1.45 pooka 2409 1.45 pooka FDCALL(int, ftruncate, DUALCALL_FTRUNCATE, \ 2410 1.45 pooka (int fd, off_t length), \ 2411 1.45 pooka (int, off_t), \ 2412 1.45 pooka (fd, length)) 2413 1.45 pooka 2414 1.45 pooka FDCALL(int, fsync, DUALCALL_FSYNC, \ 2415 1.45 pooka (int fd), \ 2416 1.45 pooka (int), \ 2417 1.45 pooka (fd)) 2418 1.45 pooka 2419 1.96 pooka #ifdef PLATFORM_HAS_FSYNC_RANGE 2420 1.45 pooka FDCALL(int, fsync_range, DUALCALL_FSYNC_RANGE, \ 2421 1.45 pooka (int fd, int how, off_t start, off_t length), \ 2422 1.45 pooka (int, int, off_t, off_t), \ 2423 1.45 pooka (fd, how, start, length)) 2424 1.96 pooka #endif 2425 1.45 pooka 2426 1.45 pooka FDCALL(int, futimes, DUALCALL_FUTIMES, \ 2427 1.45 pooka (int fd, const struct timeval *tv), \ 2428 1.45 pooka (int, const struct timeval *), \ 2429 1.45 pooka (fd, tv)) 2430 1.45 pooka 2431 1.96 pooka #ifdef PLATFORM_HAS_CHFLAGS 2432 1.60 pooka FDCALL(int, fchflags, DUALCALL_FCHFLAGS, \ 2433 1.60 pooka (int fd, u_long flags), \ 2434 1.60 pooka (int, u_long), \ 2435 1.60 pooka (fd, flags)) 2436 1.96 pooka #endif 2437 1.60 pooka 2438 1.45 pooka /* 2439 1.45 pooka * path-based selectors 2440 1.45 pooka */ 2441 1.45 pooka 2442 1.97 pooka #ifndef __linux__ 2443 1.45 pooka PATHCALL(int, REALSTAT, DUALCALL_STAT, \ 2444 1.45 pooka (const char *path, struct stat *sb), \ 2445 1.45 pooka (const char *, struct stat *), \ 2446 1.45 pooka (path, sb)) 2447 1.45 pooka 2448 1.45 pooka PATHCALL(int, REALLSTAT, DUALCALL_LSTAT, \ 2449 1.45 pooka (const char *path, struct stat *sb), \ 2450 1.45 pooka (const char *, struct stat *), \ 2451 1.45 pooka (path, sb)) 2452 1.97 pooka #endif 2453 1.45 pooka 2454 1.45 pooka PATHCALL(int, chown, DUALCALL_CHOWN, \ 2455 1.45 pooka (const char *path, uid_t owner, gid_t group), \ 2456 1.45 pooka (const char *, uid_t, gid_t), \ 2457 1.45 pooka (path, owner, group)) 2458 1.45 pooka 2459 1.45 pooka PATHCALL(int, lchown, DUALCALL_LCHOWN, \ 2460 1.45 pooka (const char *path, uid_t owner, gid_t group), \ 2461 1.45 pooka (const char *, uid_t, gid_t), \ 2462 1.45 pooka (path, owner, group)) 2463 1.45 pooka 2464 1.45 pooka PATHCALL(int, chmod, DUALCALL_CHMOD, \ 2465 1.45 pooka (const char *path, mode_t mode), \ 2466 1.45 pooka (const char *, mode_t), \ 2467 1.45 pooka (path, mode)) 2468 1.45 pooka 2469 1.45 pooka PATHCALL(int, lchmod, DUALCALL_LCHMOD, \ 2470 1.45 pooka (const char *path, mode_t mode), \ 2471 1.45 pooka (const char *, mode_t), \ 2472 1.45 pooka (path, mode)) 2473 1.45 pooka 2474 1.96 pooka #ifdef PLATFORM_HAS_NBVFSSTAT 2475 1.45 pooka PATHCALL(int, statvfs1, DUALCALL_STATVFS1, \ 2476 1.45 pooka (const char *path, struct statvfs *buf, int flags), \ 2477 1.45 pooka (const char *, struct statvfs *, int), \ 2478 1.45 pooka (path, buf, flags)) 2479 1.96 pooka #endif 2480 1.45 pooka 2481 1.45 pooka PATHCALL(int, unlink, DUALCALL_UNLINK, \ 2482 1.45 pooka (const char *path), \ 2483 1.45 pooka (const char *), \ 2484 1.45 pooka (path)) 2485 1.45 pooka 2486 1.45 pooka PATHCALL(int, symlink, DUALCALL_SYMLINK, \ 2487 1.58 pooka (const char *target, const char *path), \ 2488 1.45 pooka (const char *, const char *), \ 2489 1.58 pooka (target, path)) 2490 1.45 pooka 2491 1.100 pooka /* 2492 1.100 pooka * readlink() can be called from malloc which can be called 2493 1.100 pooka * from dlsym() during init 2494 1.100 pooka */ 2495 1.100 pooka ssize_t 2496 1.100 pooka readlink(const char *path, char *buf, size_t bufsiz) 2497 1.100 pooka { 2498 1.100 pooka int (*op_readlink)(const char *, char *, size_t); 2499 1.100 pooka enum pathtype pt; 2500 1.100 pooka 2501 1.100 pooka if ((pt = path_isrump(path)) != PATH_HOST) { 2502 1.100 pooka op_readlink = GETSYSCALL(rump, READLINK); 2503 1.100 pooka if (pt == PATH_RUMP) 2504 1.100 pooka path = path_host2rump(path); 2505 1.100 pooka } else { 2506 1.100 pooka op_readlink = GETSYSCALL(host, READLINK); 2507 1.100 pooka } 2508 1.100 pooka 2509 1.100 pooka if (__predict_false(op_readlink == NULL)) { 2510 1.100 pooka errno = ENOENT; 2511 1.100 pooka return -1; 2512 1.100 pooka } 2513 1.100 pooka 2514 1.100 pooka return op_readlink(path, buf, bufsiz); 2515 1.100 pooka } 2516 1.45 pooka 2517 1.45 pooka PATHCALL(int, mkdir, DUALCALL_MKDIR, \ 2518 1.45 pooka (const char *path, mode_t mode), \ 2519 1.45 pooka (const char *, mode_t), \ 2520 1.45 pooka (path, mode)) 2521 1.45 pooka 2522 1.45 pooka PATHCALL(int, rmdir, DUALCALL_RMDIR, \ 2523 1.45 pooka (const char *path), \ 2524 1.45 pooka (const char *), \ 2525 1.45 pooka (path)) 2526 1.45 pooka 2527 1.45 pooka PATHCALL(int, utimes, DUALCALL_UTIMES, \ 2528 1.45 pooka (const char *path, const struct timeval *tv), \ 2529 1.45 pooka (const char *, const struct timeval *), \ 2530 1.45 pooka (path, tv)) 2531 1.45 pooka 2532 1.45 pooka PATHCALL(int, lutimes, DUALCALL_LUTIMES, \ 2533 1.45 pooka (const char *path, const struct timeval *tv), \ 2534 1.45 pooka (const char *, const struct timeval *), \ 2535 1.45 pooka (path, tv)) 2536 1.45 pooka 2537 1.96 pooka #ifdef PLATFORM_HAS_CHFLAGS 2538 1.60 pooka PATHCALL(int, chflags, DUALCALL_CHFLAGS, \ 2539 1.60 pooka (const char *path, u_long flags), \ 2540 1.60 pooka (const char *, u_long), \ 2541 1.60 pooka (path, flags)) 2542 1.60 pooka 2543 1.60 pooka PATHCALL(int, lchflags, DUALCALL_LCHFLAGS, \ 2544 1.60 pooka (const char *path, u_long flags), \ 2545 1.60 pooka (const char *, u_long), \ 2546 1.60 pooka (path, flags)) 2547 1.96 pooka #endif /* PLATFORM_HAS_CHFLAGS */ 2548 1.60 pooka 2549 1.45 pooka PATHCALL(int, truncate, DUALCALL_TRUNCATE, \ 2550 1.45 pooka (const char *path, off_t length), \ 2551 1.45 pooka (const char *, off_t), \ 2552 1.45 pooka (path, length)) 2553 1.48 pooka 2554 1.65 pooka PATHCALL(int, access, DUALCALL_ACCESS, \ 2555 1.65 pooka (const char *path, int mode), \ 2556 1.65 pooka (const char *, int), \ 2557 1.65 pooka (path, mode)) 2558 1.65 pooka 2559 1.97 pooka #ifndef __linux__ 2560 1.68 pooka PATHCALL(int, REALMKNOD, DUALCALL_MKNOD, \ 2561 1.68 pooka (const char *path, mode_t mode, dev_t dev), \ 2562 1.68 pooka (const char *, mode_t, dev_t), \ 2563 1.68 pooka (path, mode, dev)) 2564 1.97 pooka #endif 2565 1.68 pooka 2566 1.48 pooka /* 2567 1.48 pooka * Note: with mount the decisive parameter is the mount 2568 1.48 pooka * destination directory. This is because we don't really know 2569 1.48 pooka * about the "source" directory in a generic call (and besides, 2570 1.48 pooka * it might not even exist, cf. nfs). 2571 1.48 pooka */ 2572 1.96 pooka #ifdef PLATFORM_HAS_NBMOUNT 2573 1.48 pooka PATHCALL(int, REALMOUNT, DUALCALL_MOUNT, \ 2574 1.48 pooka (const char *type, const char *path, int flags, \ 2575 1.48 pooka void *data, size_t dlen), \ 2576 1.48 pooka (const char *, const char *, int, void *, size_t), \ 2577 1.48 pooka (type, path, flags, data, dlen)) 2578 1.48 pooka 2579 1.48 pooka PATHCALL(int, unmount, DUALCALL_UNMOUNT, \ 2580 1.48 pooka (const char *path, int flags), \ 2581 1.48 pooka (const char *, int), \ 2582 1.48 pooka (path, flags)) 2583 1.96 pooka #endif /* PLATFORM_HAS_NBMOUNT */ 2584 1.78 pooka 2585 1.96 pooka #ifdef PLATFORM_HAS_NBQUOTA 2586 1.91 dholland #if __NetBSD_Prereq__(5,99,63) 2587 1.91 dholland PATHCALL(int, __quotactl, DUALCALL_QUOTACTL, \ 2588 1.91 dholland (const char *path, struct quotactl_args *args), \ 2589 1.91 dholland (const char *, struct quotactl_args *), \ 2590 1.91 dholland (path, args)) 2591 1.91 dholland #elif __NetBSD_Prereq__(5,99,48) 2592 1.91 dholland PATHCALL(int, OLDREALQUOTACTL, DUALCALL_QUOTACTL, \ 2593 1.80 bouyer (const char *path, struct plistref *p), \ 2594 1.80 bouyer (const char *, struct plistref *), \ 2595 1.80 bouyer (path, p)) 2596 1.83 pooka #endif 2597 1.96 pooka #endif /* PLATFORM_HAS_NBQUOTA */ 2598 1.80 bouyer 2599 1.97 pooka #ifdef PLATFORM_HAS_NBFILEHANDLE 2600 1.82 pooka PATHCALL(int, REALGETFH, DUALCALL_GETFH, \ 2601 1.82 pooka (const char *path, void *fhp, size_t *fh_size), \ 2602 1.82 pooka (const char *, void *, size_t *), \ 2603 1.82 pooka (path, fhp, fh_size)) 2604 1.97 pooka #endif 2605 1.82 pooka 2606 1.78 pooka /* 2607 1.78 pooka * These act different on a per-process vfs configuration 2608 1.78 pooka */ 2609 1.78 pooka 2610 1.96 pooka #ifdef PLATFORM_HAS_NBVFSSTAT 2611 1.78 pooka VFSCALL(VFSBIT_GETVFSSTAT, int, getvfsstat, DUALCALL_GETVFSSTAT, \ 2612 1.78 pooka (struct statvfs *buf, size_t buflen, int flags), \ 2613 1.78 pooka (struct statvfs *, size_t, int), \ 2614 1.78 pooka (buf, buflen, flags)) 2615 1.96 pooka #endif 2616 1.78 pooka 2617 1.97 pooka #ifdef PLATFORM_HAS_NBFILEHANDLE 2618 1.78 pooka VFSCALL(VFSBIT_FHCALLS, int, REALFHOPEN, DUALCALL_FHOPEN, \ 2619 1.78 pooka (const void *fhp, size_t fh_size, int flags), \ 2620 1.78 pooka (const char *, size_t, int), \ 2621 1.78 pooka (fhp, fh_size, flags)) 2622 1.78 pooka 2623 1.78 pooka VFSCALL(VFSBIT_FHCALLS, int, REALFHSTAT, DUALCALL_FHSTAT, \ 2624 1.78 pooka (const void *fhp, size_t fh_size, struct stat *sb), \ 2625 1.78 pooka (const char *, size_t, struct stat *), \ 2626 1.78 pooka (fhp, fh_size, sb)) 2627 1.78 pooka 2628 1.78 pooka VFSCALL(VFSBIT_FHCALLS, int, REALFHSTATVFS1, DUALCALL_FHSTATVFS1, \ 2629 1.78 pooka (const void *fhp, size_t fh_size, struct statvfs *sb, int flgs),\ 2630 1.78 pooka (const char *, size_t, struct statvfs *, int), \ 2631 1.78 pooka (fhp, fh_size, sb, flgs)) 2632 1.97 pooka #endif 2633 1.78 pooka 2634 1.96 pooka 2635 1.96 pooka #ifdef PLATFORM_HAS_NFSSVC 2636 1.96 pooka 2637 1.78 pooka /* finally, put nfssvc here. "keep the namespace clean" */ 2638 1.78 pooka #include <nfs/rpcv2.h> 2639 1.78 pooka #include <nfs/nfs.h> 2640 1.78 pooka 2641 1.78 pooka int 2642 1.78 pooka nfssvc(int flags, void *argstructp) 2643 1.78 pooka { 2644 1.78 pooka int (*op_nfssvc)(int, void *); 2645 1.78 pooka 2646 1.78 pooka if (vfsbits & VFSBIT_NFSSVC){ 2647 1.78 pooka struct nfsd_args *nfsdargs; 2648 1.78 pooka 2649 1.78 pooka /* massage the socket descriptor if necessary */ 2650 1.78 pooka if (flags == NFSSVC_ADDSOCK) { 2651 1.78 pooka nfsdargs = argstructp; 2652 1.78 pooka nfsdargs->sock = fd_host2rump(nfsdargs->sock); 2653 1.78 pooka } 2654 1.78 pooka op_nfssvc = GETSYSCALL(rump, NFSSVC); 2655 1.78 pooka } else 2656 1.78 pooka op_nfssvc = GETSYSCALL(host, NFSSVC); 2657 1.78 pooka 2658 1.78 pooka return op_nfssvc(flags, argstructp); 2659 1.78 pooka } 2660 1.96 pooka #endif /* PLATFORM_HAS_NFSSVC */ 2661
Indexes created Tue Sep 30 11:09:46 GMT 2025