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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/le/@/compat/svr4/svr4_stream.c |
/*- * Copyright (c) 1998 Mark Newton. All rights reserved. * Copyright (c) 1994, 1996 Christos Zoulas. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Christos Zoulas. * 4. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * Pretend that we have streams... * Yes, this is gross. * * ToDo: The state machine for getmsg needs re-thinking */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/compat/svr4/svr4_stream.c 225617 2011-09-16 13:58:51Z kmacy $"); #include "opt_compat.h" #include "opt_ktrace.h" #include <sys/param.h> #include <sys/systm.h> #include <sys/capability.h> #include <sys/fcntl.h> #include <sys/filedesc.h> #include <sys/filio.h> #include <sys/lock.h> #include <sys/malloc.h> #include <sys/file.h> /* Must come after sys/malloc.h */ #include <sys/mbuf.h> #include <sys/mutex.h> #include <sys/proc.h> #include <sys/protosw.h> #include <sys/signal.h> #include <sys/signalvar.h> #include <sys/socket.h> #include <sys/socketvar.h> #include <sys/stat.h> #include <sys/syscallsubr.h> #include <sys/sysproto.h> #include <sys/uio.h> #include <sys/ktrace.h> /* Must come after sys/uio.h */ #include <sys/un.h> #include <netinet/in.h> #include <compat/svr4/svr4.h> #include <compat/svr4/svr4_types.h> #include <compat/svr4/svr4_util.h> #include <compat/svr4/svr4_signal.h> #include <compat/svr4/svr4_proto.h> #include <compat/svr4/svr4_stropts.h> #include <compat/svr4/svr4_timod.h> #include <compat/svr4/svr4_sockmod.h> #include <compat/svr4/svr4_ioctl.h> #include <compat/svr4/svr4_socket.h> /* Utils */ static int clean_pipe(struct thread *, char *); static void getparm(struct file *, struct svr4_si_sockparms *); static int svr4_do_putmsg(struct thread *, struct svr4_sys_putmsg_args *, struct file *); static int svr4_do_getmsg(struct thread *, struct svr4_sys_getmsg_args *, struct file *); /* Address Conversions */ static void sockaddr_to_netaddr_in(struct svr4_strmcmd *, const struct sockaddr_in *); static void sockaddr_to_netaddr_un(struct svr4_strmcmd *, const struct sockaddr_un *); static void netaddr_to_sockaddr_in(struct sockaddr_in *, const struct svr4_strmcmd *); static void netaddr_to_sockaddr_un(struct sockaddr_un *, const struct svr4_strmcmd *); /* stream ioctls */ static int i_nread(struct file *, struct thread *, register_t *, int, u_long, caddr_t); static int i_fdinsert(struct file *, struct thread *, register_t *, int, u_long, caddr_t); static int i_str(struct file *, struct thread *, register_t *, int, u_long, caddr_t); static int i_setsig(struct file *, struct thread *, register_t *, int, u_long, caddr_t); static int i_getsig(struct file *, struct thread *, register_t *, int, u_long, caddr_t); static int _i_bind_rsvd(struct file *, struct thread *, register_t *, int, u_long, caddr_t); static int _i_rele_rsvd(struct file *, struct thread *, register_t *, int, u_long, caddr_t); /* i_str sockmod calls */ static int sockmod(struct file *, int, struct svr4_strioctl *, struct thread *); static int si_listen(struct file *, int, struct svr4_strioctl *, struct thread *); static int si_ogetudata(struct file *, int, struct svr4_strioctl *, struct thread *); static int si_sockparams(struct file *, int, struct svr4_strioctl *, struct thread *); static int si_shutdown (struct file *, int, struct svr4_strioctl *, struct thread *); static int si_getudata(struct file *, int, struct svr4_strioctl *, struct thread *); /* i_str timod calls */ static int timod(struct file *, int, struct svr4_strioctl *, struct thread *); static int ti_getinfo(struct file *, int, struct svr4_strioctl *, struct thread *); static int ti_bind(struct file *, int, struct svr4_strioctl *, struct thread *); #ifdef DEBUG_SVR4 static void bufprint(u_char *, size_t); static int show_ioc(const char *, struct svr4_strioctl *); static int show_strbuf(struct svr4_strbuf *); static void show_msg(const char *, int, struct svr4_strbuf *, struct svr4_strbuf *, int); static void bufprint(buf, len) u_char *buf; size_t len; { size_t i; uprintf("\n\t"); for (i = 0; i < len; i++) { uprintf("%x ", buf[i]); if (i && (i % 16) == 0) uprintf("\n\t"); } } static int show_ioc(str, ioc) const char *str; struct svr4_strioctl *ioc; { u_char *ptr = NULL; int len; int error; len = ioc->len; if (len > 1024) len = 1024; if (len > 0) { ptr = (u_char *) malloc(len, M_TEMP, M_WAITOK); if ((error = copyin(ioc->buf, ptr, len)) != 0) { free((char *) ptr, M_TEMP); return error; } } uprintf("%s cmd = %ld, timeout = %d, len = %d, buf = %p { ", str, ioc->cmd, ioc->timeout, ioc->len, ioc->buf); if (ptr != NULL) bufprint(ptr, len); uprintf("}\n"); if (ptr != NULL) free((char *) ptr, M_TEMP); return 0; } static int show_strbuf(str) struct svr4_strbuf *str; { int error; u_char *ptr = NULL; int maxlen = str->maxlen; int len = str->len; if (maxlen > 8192) maxlen = 8192; if (maxlen < 0) maxlen = 0; if (len >= maxlen) len = maxlen; if (len > 0) { ptr = (u_char *) malloc(len, M_TEMP, M_WAITOK); if ((error = copyin(str->buf, ptr, len)) != 0) { free((char *) ptr, M_TEMP); return error; } } uprintf(", { %d, %d, %p=[ ", str->maxlen, str->len, str->buf); if (ptr) bufprint(ptr, len); uprintf("]}"); if (ptr) free((char *) ptr, M_TEMP); return 0; } static void show_msg(str, fd, ctl, dat, flags) const char *str; int fd; struct svr4_strbuf *ctl; struct svr4_strbuf *dat; int flags; { struct svr4_strbuf buf; int error; uprintf("%s(%d", str, fd); if (ctl != NULL) { if ((error = copyin(ctl, &buf, sizeof(buf))) != 0) return; show_strbuf(&buf); } else uprintf(", NULL"); if (dat != NULL) { if ((error = copyin(dat, &buf, sizeof(buf))) != 0) return; show_strbuf(&buf); } else uprintf(", NULL"); uprintf(", %x);\n", flags); } #endif /* DEBUG_SVR4 */ /* * We are faced with an interesting situation. On svr4 unix sockets * are really pipes. But we really have sockets, and we might as * well use them. At the point where svr4 calls TI_BIND, it has * already created a named pipe for the socket using mknod(2). * We need to create a socket with the same name when we bind, * so we need to remove the pipe before, otherwise we'll get address * already in use. So we *carefully* remove the pipe, to avoid * using this as a random file removal tool. We use system calls * to avoid code duplication. */ static int clean_pipe(td, path) struct thread *td; char *path; { struct stat st; int error; error = kern_lstat(td, path, UIO_SYSSPACE, &st); /* * Make sure we are dealing with a mode 0 named pipe. */ if ((st.st_mode & S_IFMT) != S_IFIFO) return (0); if ((st.st_mode & ALLPERMS) != 0) return (0); error = kern_unlink(td, path, UIO_SYSSPACE); if (error) DPRINTF(("clean_pipe: unlink failed %d\n", error)); return (error); } static void sockaddr_to_netaddr_in(sc, sain) struct svr4_strmcmd *sc; const struct sockaddr_in *sain; { struct svr4_netaddr_in *na; na = SVR4_ADDROF(sc); na->family = sain->sin_family; na->port = sain->sin_port; na->addr = sain->sin_addr.s_addr; DPRINTF(("sockaddr_in -> netaddr %d %d %lx\n", na->family, na->port, na->addr)); } static void sockaddr_to_netaddr_un(sc, saun) struct svr4_strmcmd *sc; const struct sockaddr_un *saun; { struct svr4_netaddr_un *na; char *dst, *edst = ((char *) sc) + sc->offs + sizeof(na->family) + 1 - sizeof(*sc); const char *src; na = SVR4_ADDROF(sc); na->family = saun->sun_family; for (src = saun->sun_path, dst = na->path; (*dst++ = *src++) != '\0'; ) if (dst == edst) break; DPRINTF(("sockaddr_un -> netaddr %d %s\n", na->family, na->path)); } static void netaddr_to_sockaddr_in(sain, sc) struct sockaddr_in *sain; const struct svr4_strmcmd *sc; { const struct svr4_netaddr_in *na; na = SVR4_C_ADDROF(sc); memset(sain, 0, sizeof(*sain)); sain->sin_len = sizeof(*sain); sain->sin_family = na->family; sain->sin_port = na->port; sain->sin_addr.s_addr = na->addr; DPRINTF(("netaddr -> sockaddr_in %d %d %x\n", sain->sin_family, sain->sin_port, sain->sin_addr.s_addr)); } static void netaddr_to_sockaddr_un(saun, sc) struct sockaddr_un *saun; const struct svr4_strmcmd *sc; { const struct svr4_netaddr_un *na; char *dst, *edst = &saun->sun_path[sizeof(saun->sun_path) - 1]; const char *src; na = SVR4_C_ADDROF(sc); memset(saun, 0, sizeof(*saun)); saun->sun_family = na->family; for (src = na->path, dst = saun->sun_path; (*dst++ = *src++) != '\0'; ) if (dst == edst) break; saun->sun_len = dst - saun->sun_path; DPRINTF(("netaddr -> sockaddr_un %d %s\n", saun->sun_family, saun->sun_path)); } static void getparm(fp, pa) struct file *fp; struct svr4_si_sockparms *pa; { struct svr4_strm *st; struct socket *so; st = svr4_stream_get(fp); if (st == NULL) return; so = fp->f_data; pa->family = st->s_family; switch (so->so_type) { case SOCK_DGRAM: pa->type = SVR4_T_CLTS; pa->protocol = IPPROTO_UDP; DPRINTF(("getparm(dgram)\n")); return; case SOCK_STREAM: pa->type = SVR4_T_COTS; /* What about T_COTS_ORD? XXX */ pa->protocol = IPPROTO_IP; DPRINTF(("getparm(stream)\n")); return; case SOCK_RAW: pa->type = SVR4_T_CLTS; pa->protocol = IPPROTO_RAW; DPRINTF(("getparm(raw)\n")); return; default: pa->type = 0; pa->protocol = 0; DPRINTF(("getparm(type %d?)\n", so->so_type)); return; } } static int si_ogetudata(fp, fd, ioc, td) struct file *fp; int fd; struct svr4_strioctl *ioc; struct thread *td; { int error; struct svr4_si_oudata ud; struct svr4_si_sockparms pa; if (ioc->len != sizeof(ud) && ioc->len != sizeof(ud) - sizeof(int)) { DPRINTF(("SI_OGETUDATA: Wrong size %d != %d\n", sizeof(ud), ioc->len)); return EINVAL; } if ((error = copyin(ioc->buf, &ud, sizeof(ud))) != 0) return error; getparm(fp, &pa); switch (pa.family) { case AF_INET: ud.tidusize = 16384; ud.addrsize = sizeof(struct svr4_sockaddr_in); if (pa.type == SVR4_SOCK_STREAM) ud.etsdusize = 1; else ud.etsdusize = 0; break; case AF_LOCAL: ud.tidusize = 65536; ud.addrsize = 128; ud.etsdusize = 128; break; default: DPRINTF(("SI_OGETUDATA: Unsupported address family %d\n", pa.family)); return ENOSYS; } /* I have no idea what these should be! */ ud.optsize = 128; ud.tsdusize = 128; ud.servtype = pa.type; /* XXX: Fixme */ ud.so_state = 0; ud.so_options = 0; return copyout(&ud, ioc->buf, ioc->len); } static int si_sockparams(fp, fd, ioc, td) struct file *fp; int fd; struct svr4_strioctl *ioc; struct thread *td; { struct svr4_si_sockparms pa; getparm(fp, &pa); return copyout(&pa, ioc->buf, sizeof(pa)); } static int si_listen(fp, fd, ioc, td) struct file *fp; int fd; struct svr4_strioctl *ioc; struct thread *td; { int error; struct svr4_strm *st = svr4_stream_get(fp); struct svr4_strmcmd lst; struct listen_args la; if (st == NULL) return EINVAL; if (ioc->len < 0 || ioc->len > sizeof(lst)) return EINVAL; if ((error = copyin(ioc->buf, &lst, ioc->len)) != 0) return error; if (lst.cmd != SVR4_TI_OLD_BIND_REQUEST) { DPRINTF(("si_listen: bad request %ld\n", lst.cmd)); return EINVAL; } /* * We are making assumptions again... */ la.s = fd; DPRINTF(("SI_LISTEN: fileno %d backlog = %d\n", fd, 5)); la.backlog = 5; if ((error = sys_listen(td, &la)) != 0) { DPRINTF(("SI_LISTEN: listen failed %d\n", error)); return error; } st->s_cmd = SVR4_TI__ACCEPT_WAIT; lst.cmd = SVR4_TI_BIND_REPLY; switch (st->s_family) { case AF_INET: /* XXX: Fill the length here */ break; case AF_LOCAL: lst.len = 140; lst.pad[28] = 0x00000000; /* magic again */ lst.pad[29] = 0x00000800; /* magic again */ lst.pad[30] = 0x80001400; /* magic again */ break; default: DPRINTF(("SI_LISTEN: Unsupported address family %d\n", st->s_family)); return ENOSYS; } if ((error = copyout(&lst, ioc->buf, ioc->len)) != 0) return error; return 0; } static int si_getudata(fp, fd, ioc, td) struct file *fp; int fd; struct svr4_strioctl *ioc; struct thread *td; { int error; struct svr4_si_udata ud; if (sizeof(ud) != ioc->len) { DPRINTF(("SI_GETUDATA: Wrong size %d != %d\n", sizeof(ud), ioc->len)); return EINVAL; } if ((error = copyin(ioc->buf, &ud, sizeof(ud))) != 0) return error; getparm(fp, &ud.sockparms); switch (ud.sockparms.family) { case AF_INET: DPRINTF(("getudata_inet\n")); ud.tidusize = 16384; ud.tsdusize = 16384; ud.addrsize = sizeof(struct svr4_sockaddr_in); if (ud.sockparms.type == SVR4_SOCK_STREAM) ud.etsdusize = 1; else ud.etsdusize = 0; ud.optsize = 0; break; case AF_LOCAL: DPRINTF(("getudata_local\n")); ud.tidusize = 65536; ud.tsdusize = 128; ud.addrsize = 128; ud.etsdusize = 128; ud.optsize = 128; break; default: DPRINTF(("SI_GETUDATA: Unsupported address family %d\n", ud.sockparms.family)); return ENOSYS; } ud.servtype = ud.sockparms.type; DPRINTF(("ud.servtype = %d\n", ud.servtype)); /* XXX: Fixme */ ud.so_state = 0; ud.so_options = 0; return copyout(&ud, ioc->buf, sizeof(ud)); } static int si_shutdown(fp, fd, ioc, td) struct file *fp; int fd; struct svr4_strioctl *ioc; struct thread *td; { int error; struct shutdown_args ap; if (ioc->len != sizeof(ap.how)) { DPRINTF(("SI_SHUTDOWN: Wrong size %d != %d\n", sizeof(ap.how), ioc->len)); return EINVAL; } if ((error = copyin(ioc->buf, &ap.how, ioc->len)) != 0) return error; ap.s = fd; return sys_shutdown(td, &ap); } static int sockmod(fp, fd, ioc, td) struct file *fp; int fd; struct svr4_strioctl *ioc; struct thread *td; { switch (ioc->cmd) { case SVR4_SI_OGETUDATA: DPRINTF(("SI_OGETUDATA\n")); return si_ogetudata(fp, fd, ioc, td); case SVR4_SI_SHUTDOWN: DPRINTF(("SI_SHUTDOWN\n")); return si_shutdown(fp, fd, ioc, td); case SVR4_SI_LISTEN: DPRINTF(("SI_LISTEN\n")); return si_listen(fp, fd, ioc, td); case SVR4_SI_SETMYNAME: DPRINTF(("SI_SETMYNAME\n")); return 0; case SVR4_SI_SETPEERNAME: DPRINTF(("SI_SETPEERNAME\n")); return 0; case SVR4_SI_GETINTRANSIT: DPRINTF(("SI_GETINTRANSIT\n")); return 0; case SVR4_SI_TCL_LINK: DPRINTF(("SI_TCL_LINK\n")); return 0; case SVR4_SI_TCL_UNLINK: DPRINTF(("SI_TCL_UNLINK\n")); return 0; case SVR4_SI_SOCKPARAMS: DPRINTF(("SI_SOCKPARAMS\n")); return si_sockparams(fp, fd, ioc, td); case SVR4_SI_GETUDATA: DPRINTF(("SI_GETUDATA\n")); return si_getudata(fp, fd, ioc, td); default: DPRINTF(("Unknown sockmod ioctl %lx\n", ioc->cmd)); return 0; } } static int ti_getinfo(fp, fd, ioc, td) struct file *fp; int fd; struct svr4_strioctl *ioc; struct thread *td; { int error; struct svr4_infocmd info; memset(&info, 0, sizeof(info)); if (ioc->len < 0 || ioc->len > sizeof(info)) return EINVAL; if ((error = copyin(ioc->buf, &info, ioc->len)) != 0) return error; if (info.cmd != SVR4_TI_INFO_REQUEST) return EINVAL; info.cmd = SVR4_TI_INFO_REPLY; info.tsdu = 0; info.etsdu = 1; info.cdata = -2; info.ddata = -2; info.addr = 16; info.opt = -1; info.tidu = 16384; info.serv = 2; info.current = 0; info.provider = 2; ioc->len = sizeof(info); if ((error = copyout(&info, ioc->buf, ioc->len)) != 0) return error; return 0; } static int ti_bind(fp, fd, ioc, td) struct file *fp; int fd; struct svr4_strioctl *ioc; struct thread *td; { int error; struct svr4_strm *st = svr4_stream_get(fp); struct sockaddr_in sain; struct sockaddr_un saun; struct sockaddr *skp; int sasize; struct svr4_strmcmd bnd; if (st == NULL) { DPRINTF(("ti_bind: bad file descriptor\n")); return EINVAL; } if (ioc->len < 0 || ioc->len > sizeof(bnd)) return EINVAL; if ((error = copyin(ioc->buf, &bnd, ioc->len)) != 0) return error; if (bnd.cmd != SVR4_TI_OLD_BIND_REQUEST) { DPRINTF(("ti_bind: bad request %ld\n", bnd.cmd)); return EINVAL; } switch (st->s_family) { case AF_INET: skp = (struct sockaddr *)&sain; sasize = sizeof(sain); if (bnd.offs == 0) goto error; netaddr_to_sockaddr_in(&sain, &bnd); DPRINTF(("TI_BIND: fam %d, port %d, addr %x\n", sain.sin_family, sain.sin_port, sain.sin_addr.s_addr)); break; case AF_LOCAL: skp = (struct sockaddr *)&saun; sasize = sizeof(saun); if (bnd.offs == 0) goto error; netaddr_to_sockaddr_un(&saun, &bnd); if (saun.sun_path[0] == '\0') goto error; DPRINTF(("TI_BIND: fam %d, path %s\n", saun.sun_family, saun.sun_path)); if ((error = clean_pipe(td, saun.sun_path)) != 0) return error; bnd.pad[28] = 0x00001000; /* magic again */ break; default: DPRINTF(("TI_BIND: Unsupported address family %d\n", st->s_family)); return ENOSYS; } DPRINTF(("TI_BIND: fileno %d\n", fd)); if ((error = kern_bind(td, fd, skp)) != 0) { DPRINTF(("TI_BIND: bind failed %d\n", error)); return error; } goto reply; error: memset(&bnd, 0, sizeof(bnd)); bnd.len = sasize + 4; bnd.offs = 0x10; /* XXX */ reply: bnd.cmd = SVR4_TI_BIND_REPLY; if ((error = copyout(&bnd, ioc->buf, ioc->len)) != 0) return error; return 0; } static int timod(fp, fd, ioc, td) struct file *fp; int fd; struct svr4_strioctl *ioc; struct thread *td; { switch (ioc->cmd) { case SVR4_TI_GETINFO: DPRINTF(("TI_GETINFO\n")); return ti_getinfo(fp, fd, ioc, td); case SVR4_TI_OPTMGMT: DPRINTF(("TI_OPTMGMT\n")); return 0; case SVR4_TI_BIND: DPRINTF(("TI_BIND\n")); return ti_bind(fp, fd, ioc, td); case SVR4_TI_UNBIND: DPRINTF(("TI_UNBIND\n")); return 0; default: DPRINTF(("Unknown timod ioctl %lx\n", ioc->cmd)); return 0; } } int svr4_stream_ti_ioctl(fp, td, retval, fd, cmd, dat) struct file *fp; struct thread *td; register_t *retval; int fd; u_long cmd; caddr_t dat; { struct svr4_strbuf skb, *sub = (struct svr4_strbuf *) dat; struct svr4_strm *st = svr4_stream_get(fp); int error; struct sockaddr *sa; socklen_t sasize, oldsasize; struct svr4_strmcmd sc; DPRINTF(("svr4_stream_ti_ioctl\n")); if (st == NULL) return EINVAL; sc.offs = 0x10; if ((error = copyin(sub, &skb, sizeof(skb))) != 0) { DPRINTF(("ti_ioctl: error copying in strbuf\n")); return error; } switch (st->s_family) { case AF_INET: sasize = sizeof(struct sockaddr_in); break; case AF_LOCAL: sasize = sizeof(struct sockaddr_un); break; default: DPRINTF(("ti_ioctl: Unsupported address family %d\n", st->s_family)); return ENOSYS; } oldsasize = sasize; switch (cmd) { case SVR4_TI_GETMYNAME: DPRINTF(("TI_GETMYNAME\n")); { error = kern_getsockname(td, fd, &sa, &sasize); if (error) { DPRINTF(("ti_ioctl: getsockname error\n")); return error; } } break; case SVR4_TI_GETPEERNAME: DPRINTF(("TI_GETPEERNAME\n")); { error = kern_getpeername(td, fd, &sa, &sasize); if (error) { DPRINTF(("ti_ioctl: getpeername error\n")); return error; } } break; case SVR4_TI_SETMYNAME: DPRINTF(("TI_SETMYNAME\n")); return 0; case SVR4_TI_SETPEERNAME: DPRINTF(("TI_SETPEERNAME\n")); return 0; default: DPRINTF(("ti_ioctl: Unknown ioctl %lx\n", cmd)); return ENOSYS; } if (sasize < 0 || sasize > oldsasize) { free(sa, M_SONAME); return EINVAL; } switch (st->s_family) { case AF_INET: sockaddr_to_netaddr_in(&sc, (struct sockaddr_in *)sa); skb.len = sasize; break; case AF_LOCAL: sockaddr_to_netaddr_un(&sc, (struct sockaddr_un *)sa); skb.len = sasize + 4; break; default: free(sa, M_SONAME); return ENOSYS; } free(sa, M_SONAME); if ((error = copyout(SVR4_ADDROF(&sc), skb.buf, sasize)) != 0) { DPRINTF(("ti_ioctl: error copying out socket data\n")); return error; } if ((error = copyout(&skb, sub, sizeof(skb))) != 0) { DPRINTF(("ti_ioctl: error copying out strbuf\n")); return error; } return error; } static int i_nread(fp, td, retval, fd, cmd, dat) struct file *fp; struct thread *td; register_t *retval; int fd; u_long cmd; caddr_t dat; { int error; int nread = 0; /* * We are supposed to return the message length in nread, and the * number of messages in retval. We don't have the notion of number * of stream messages, so we just find out if we have any bytes waiting * for us, and if we do, then we assume that we have at least one * message waiting for us. */ if ((error = fo_ioctl(fp, FIONREAD, (caddr_t) &nread, td->td_ucred, td)) != 0) return error; if (nread != 0) *retval = 1; else *retval = 0; return copyout(&nread, dat, sizeof(nread)); } static int i_fdinsert(fp, td, retval, fd, cmd, dat) struct file *fp; struct thread *td; register_t *retval; int fd; u_long cmd; caddr_t dat; { /* * Major hack again here. We assume that we are using this to * implement accept(2). If that is the case, we have already * called accept, and we have stored the file descriptor in * afd. We find the file descriptor that the code wants to use * in fd insert, and then we dup2() our accepted file descriptor * to it. */ int error; struct svr4_strm *st = svr4_stream_get(fp); struct svr4_strfdinsert fdi; struct dup2_args d2p; if (st == NULL) { DPRINTF(("fdinsert: bad file type\n")); return EINVAL; } mtx_lock(&Giant); if (st->s_afd == -1) { DPRINTF(("fdinsert: accept fd not found\n")); mtx_unlock(&Giant); return ENOENT; } if ((error = copyin(dat, &fdi, sizeof(fdi))) != 0) { DPRINTF(("fdinsert: copyin failed %d\n", error)); mtx_unlock(&Giant); return error; } d2p.from = st->s_afd; d2p.to = fdi.fd; if ((error = sys_dup2(td, &d2p)) != 0) { DPRINTF(("fdinsert: dup2(%d, %d) failed %d\n", st->s_afd, fdi.fd, error)); mtx_unlock(&Giant); return error; } if ((error = kern_close(td, st->s_afd)) != 0) { DPRINTF(("fdinsert: close(%d) failed %d\n", st->s_afd, error)); mtx_unlock(&Giant); return error; } st->s_afd = -1; mtx_unlock(&Giant); *retval = 0; return 0; } static int _i_bind_rsvd(fp, td, retval, fd, cmd, dat) struct file *fp; struct thread *td; register_t *retval; int fd; u_long cmd; caddr_t dat; { struct mkfifo_args ap; /* * This is a supposed to be a kernel and library only ioctl. * It gets called before ti_bind, when we have a unix * socket, to physically create the socket transport and * ``reserve'' it. I don't know how this get reserved inside * the kernel, but we are going to create it nevertheless. */ ap.path = dat; ap.mode = S_IFIFO; return sys_mkfifo(td, &ap); } static int _i_rele_rsvd(fp, td, retval, fd, cmd, dat) struct file *fp; struct thread *td; register_t *retval; int fd; u_long cmd; caddr_t dat; { struct unlink_args ap; /* * This is a supposed to be a kernel and library only ioctl. * I guess it is supposed to release the socket. */ ap.path = dat; return sys_unlink(td, &ap); } static int i_str(fp, td, retval, fd, cmd, dat) struct file *fp; struct thread *td; register_t *retval; int fd; u_long cmd; caddr_t dat; { int error; struct svr4_strioctl ioc; if ((error = copyin(dat, &ioc, sizeof(ioc))) != 0) return error; #ifdef DEBUG_SVR4 if ((error = show_ioc(">", &ioc)) != 0) return error; #endif /* DEBUG_SVR4 */ switch (ioc.cmd & 0xff00) { case SVR4_SIMOD: if ((error = sockmod(fp, fd, &ioc, td)) != 0) return error; break; case SVR4_TIMOD: if ((error = timod(fp, fd, &ioc, td)) != 0) return error; break; default: DPRINTF(("Unimplemented module %c %ld\n", (char) (cmd >> 8), cmd & 0xff)); return 0; } #ifdef DEBUG_SVR4 if ((error = show_ioc("<", &ioc)) != 0) return error; #endif /* DEBUG_SVR4 */ return copyout(&ioc, dat, sizeof(ioc)); } static int i_setsig(fp, td, retval, fd, cmd, dat) struct file *fp; struct thread *td; register_t *retval; int fd; u_long cmd; caddr_t dat; { /* * This is the best we can do for now; we cannot generate * signals only for specific events so the signal mask gets * ignored; we save it just to pass it to a possible I_GETSIG... * * We alse have to fix the O_ASYNC fcntl bit, so the * process will get SIGPOLLs. */ int error; register_t oflags, flags; struct svr4_strm *st = svr4_stream_get(fp); if (st == NULL) { DPRINTF(("i_setsig: bad file descriptor\n")); return EINVAL; } /* get old status flags */ error = kern_fcntl(td, fd, F_GETFL, 0); if (error) return (error); oflags = td->td_retval[0]; /* update the flags */ mtx_lock(&Giant); if (dat != NULL) { int mask; flags = oflags | O_ASYNC; if ((error = copyin(dat, &mask, sizeof(mask))) != 0) { DPRINTF(("i_setsig: bad eventmask pointer\n")); return error; } if (mask & SVR4_S_ALLMASK) { DPRINTF(("i_setsig: bad eventmask data %x\n", mask)); return EINVAL; } st->s_eventmask = mask; } else { flags = oflags & ~O_ASYNC; st->s_eventmask = 0; } mtx_unlock(&Giant); /* set the new flags, if changed */ if (flags != oflags) { error = kern_fcntl(td, fd, F_SETFL, flags); if (error) return (error); flags = td->td_retval[0]; } /* set up SIGIO receiver if needed */ if (dat != NULL) return (kern_fcntl(td, fd, F_SETOWN, td->td_proc->p_pid)); return 0; } static int i_getsig(fp, td, retval, fd, cmd, dat) struct file *fp; struct thread *td; register_t *retval; int fd; u_long cmd; caddr_t dat; { int error, eventmask; if (dat != NULL) { struct svr4_strm *st = svr4_stream_get(fp); if (st == NULL) { DPRINTF(("i_getsig: bad file descriptor\n")); return EINVAL; } mtx_lock(&Giant); eventmask = st->s_eventmask; mtx_unlock(&Giant); if ((error = copyout(&eventmask, dat, sizeof(eventmask))) != 0) { DPRINTF(("i_getsig: bad eventmask pointer\n")); return error; } } return 0; } int svr4_stream_ioctl(fp, td, retval, fd, cmd, dat) struct file *fp; struct thread *td; register_t *retval; int fd; u_long cmd; caddr_t dat; { *retval = 0; /* * All the following stuff assumes "sockmod" is pushed... */ switch (cmd) { case SVR4_I_NREAD: DPRINTF(("I_NREAD\n")); return i_nread(fp, td, retval, fd, cmd, dat); case SVR4_I_PUSH: DPRINTF(("I_PUSH %p\n", dat)); #if defined(DEBUG_SVR4) show_strbuf((struct svr4_strbuf *)dat); #endif return 0; case SVR4_I_POP: DPRINTF(("I_POP\n")); return 0; case SVR4_I_LOOK: DPRINTF(("I_LOOK\n")); return 0; case SVR4_I_FLUSH: DPRINTF(("I_FLUSH\n")); return 0; case SVR4_I_SRDOPT: DPRINTF(("I_SRDOPT\n")); return 0; case SVR4_I_GRDOPT: DPRINTF(("I_GRDOPT\n")); return 0; case SVR4_I_STR: DPRINTF(("I_STR\n")); return i_str(fp, td, retval, fd, cmd, dat); case SVR4_I_SETSIG: DPRINTF(("I_SETSIG\n")); return i_setsig(fp, td, retval, fd, cmd, dat); case SVR4_I_GETSIG: DPRINTF(("I_GETSIG\n")); return i_getsig(fp, td, retval, fd, cmd, dat); case SVR4_I_FIND: DPRINTF(("I_FIND\n")); /* * Here we are not pushing modules really, we just * pretend all are present */ *retval = 0; return 0; case SVR4_I_LINK: DPRINTF(("I_LINK\n")); return 0; case SVR4_I_UNLINK: DPRINTF(("I_UNLINK\n")); return 0; case SVR4_I_ERECVFD: DPRINTF(("I_ERECVFD\n")); return 0; case SVR4_I_PEEK: DPRINTF(("I_PEEK\n")); return 0; case SVR4_I_FDINSERT: DPRINTF(("I_FDINSERT\n")); return i_fdinsert(fp, td, retval, fd, cmd, dat); case SVR4_I_SENDFD: DPRINTF(("I_SENDFD\n")); return 0; case SVR4_I_RECVFD: DPRINTF(("I_RECVFD\n")); return 0; case SVR4_I_SWROPT: DPRINTF(("I_SWROPT\n")); return 0; case SVR4_I_GWROPT: DPRINTF(("I_GWROPT\n")); return 0; case SVR4_I_LIST: DPRINTF(("I_LIST\n")); return 0; case SVR4_I_PLINK: DPRINTF(("I_PLINK\n")); return 0; case SVR4_I_PUNLINK: DPRINTF(("I_PUNLINK\n")); return 0; case SVR4_I_SETEV: DPRINTF(("I_SETEV\n")); return 0; case SVR4_I_GETEV: DPRINTF(("I_GETEV\n")); return 0; case SVR4_I_STREV: DPRINTF(("I_STREV\n")); return 0; case SVR4_I_UNSTREV: DPRINTF(("I_UNSTREV\n")); return 0; case SVR4_I_FLUSHBAND: DPRINTF(("I_FLUSHBAND\n")); return 0; case SVR4_I_CKBAND: DPRINTF(("I_CKBAND\n")); return 0; case SVR4_I_GETBAND: DPRINTF(("I_GETBANK\n")); return 0; case SVR4_I_ATMARK: DPRINTF(("I_ATMARK\n")); return 0; case SVR4_I_SETCLTIME: DPRINTF(("I_SETCLTIME\n")); return 0; case SVR4_I_GETCLTIME: DPRINTF(("I_GETCLTIME\n")); return 0; case SVR4_I_CANPUT: DPRINTF(("I_CANPUT\n")); return 0; case SVR4__I_BIND_RSVD: DPRINTF(("_I_BIND_RSVD\n")); return _i_bind_rsvd(fp, td, retval, fd, cmd, dat); case SVR4__I_RELE_RSVD: DPRINTF(("_I_RELE_RSVD\n")); return _i_rele_rsvd(fp, td, retval, fd, cmd, dat); default: DPRINTF(("unimpl cmd = %lx\n", cmd)); break; } return 0; } int svr4_sys_putmsg(td, uap) struct thread *td; struct svr4_sys_putmsg_args *uap; { struct file *fp; int error; if ((error = fget(td, uap->fd, CAP_WRITE, &fp)) != 0) { #ifdef DEBUG_SVR4 uprintf("putmsg: bad fp\n"); #endif return EBADF; } error = svr4_do_putmsg(td, uap, fp); fdrop(fp, td); return (error); } static int svr4_do_putmsg(td, uap, fp) struct thread *td; struct svr4_sys_putmsg_args *uap; struct file *fp; { struct svr4_strbuf dat, ctl; struct svr4_strmcmd sc; struct sockaddr_in sain; struct sockaddr_un saun; struct sockaddr *sa; int sasize, *retval; struct svr4_strm *st; int error; retval = td->td_retval; #ifdef DEBUG_SVR4 show_msg(">putmsg", uap->fd, uap->ctl, uap->dat, uap->flags); #endif /* DEBUG_SVR4 */ if (uap->ctl != NULL) { if ((error = copyin(uap->ctl, &ctl, sizeof(ctl))) != 0) { #ifdef DEBUG_SVR4 uprintf("putmsg: copyin(): %d\n", error); #endif return error; } } else ctl.len = -1; if (uap->dat != NULL) { if ((error = copyin(uap->dat, &dat, sizeof(dat))) != 0) { #ifdef DEBUG_SVR4 uprintf("putmsg: copyin(): %d (2)\n", error); #endif return error; } } else dat.len = -1; /* * Only for sockets for now. */ if ((st = svr4_stream_get(fp)) == NULL) { DPRINTF(("putmsg: bad file type\n")); return EINVAL; } if (ctl.len < 0 || ctl.len > sizeof(sc)) { DPRINTF(("putmsg: Bad control size %d != %d\n", ctl.len, sizeof(struct svr4_strmcmd))); return EINVAL; } if ((error = copyin(ctl.buf, &sc, ctl.len)) != 0) return error; switch (st->s_family) { case AF_INET: if (sc.len != sizeof(sain)) { if (sc.cmd == SVR4_TI_DATA_REQUEST) { struct write_args wa; /* Solaris seems to use sc.cmd = 3 to * send "expedited" data. telnet uses * this for options processing, sending EOF, * etc. I'm sure other things use it too. * I don't have any documentation * on it, so I'm making a guess that this * is how it works. newton@atdot.dotat.org XXX */ DPRINTF(("sending expedited data ??\n")); wa.fd = uap->fd; wa.buf = dat.buf; wa.nbyte = dat.len; return sys_write(td, &wa); } DPRINTF(("putmsg: Invalid inet length %ld\n", sc.len)); return EINVAL; } netaddr_to_sockaddr_in(&sain, &sc); sa = (struct sockaddr *)&sain; sasize = sizeof(sain); if (sain.sin_family != st->s_family) error = EINVAL; break; case AF_LOCAL: if (ctl.len == 8) { /* We are doing an accept; succeed */ DPRINTF(("putmsg: Do nothing\n")); *retval = 0; return 0; } else { /* Maybe we've been given a device/inode pair */ dev_t *dev = SVR4_ADDROF(&sc); ino_t *ino = (ino_t *) &dev[1]; if (svr4_find_socket(td, fp, *dev, *ino, &saun) != 0) { /* I guess we have it by name */ netaddr_to_sockaddr_un(&saun, &sc); } sa = (struct sockaddr *)&saun; sasize = sizeof(saun); } break; default: DPRINTF(("putmsg: Unsupported address family %d\n", st->s_family)); return ENOSYS; } mtx_lock(&Giant); st->s_cmd = sc.cmd; mtx_unlock(&Giant); switch (sc.cmd) { case SVR4_TI_CONNECT_REQUEST: /* connect */ { return (kern_connect(td, uap->fd, sa)); } case SVR4_TI_SENDTO_REQUEST: /* sendto */ { struct msghdr msg; struct iovec aiov; msg.msg_name = sa; msg.msg_namelen = sasize; msg.msg_iov = &aiov; msg.msg_iovlen = 1; msg.msg_control = 0; msg.msg_flags = 0; aiov.iov_base = dat.buf; aiov.iov_len = dat.len; error = kern_sendit(td, uap->fd, &msg, uap->flags, NULL, UIO_USERSPACE); DPRINTF(("sendto_request error: %d\n", error)); *retval = 0; return error; } default: DPRINTF(("putmsg: Unimplemented command %lx\n", sc.cmd)); return ENOSYS; } } int svr4_sys_getmsg(td, uap) struct thread *td; struct svr4_sys_getmsg_args *uap; { struct file *fp; int error; if ((error = fget(td, uap->fd, CAP_READ, &fp)) != 0) { #ifdef DEBUG_SVR4 uprintf("getmsg: bad fp\n"); #endif return EBADF; } error = svr4_do_getmsg(td, uap, fp); fdrop(fp, td); return (error); } int svr4_do_getmsg(td, uap, fp) struct thread *td; struct svr4_sys_getmsg_args *uap; struct file *fp; { struct svr4_strbuf dat, ctl; struct svr4_strmcmd sc; int error, *retval; struct msghdr msg; struct iovec aiov; struct sockaddr_in sain; struct sockaddr_un saun; struct sockaddr *sa; socklen_t sasize; struct svr4_strm *st; struct file *afp; int fl; retval = td->td_retval; error = 0; afp = NULL; memset(&sc, 0, sizeof(sc)); #ifdef DEBUG_SVR4 show_msg(">getmsg", uap->fd, uap->ctl, uap->dat, 0); #endif /* DEBUG_SVR4 */ if (uap->ctl != NULL) { if ((error = copyin(uap->ctl, &ctl, sizeof(ctl))) != 0) return error; if (ctl.len < 0) return EINVAL; } else { ctl.len = -1; ctl.maxlen = 0; } if (uap->dat != NULL) { if ((error = copyin(uap->dat, &dat, sizeof(dat))) != 0) return error; } else { dat.len = -1; dat.maxlen = 0; } /* * Only for sockets for now. */ if ((st = svr4_stream_get(fp)) == NULL) { DPRINTF(("getmsg: bad file type\n")); return EINVAL; } if (ctl.maxlen == -1 || dat.maxlen == -1) { DPRINTF(("getmsg: Cannot handle -1 maxlen (yet)\n")); return ENOSYS; } switch (st->s_family) { case AF_INET: sasize = sizeof(sain); break; case AF_LOCAL: sasize = sizeof(saun); break; default: DPRINTF(("getmsg: Unsupported address family %d\n", st->s_family)); return ENOSYS; } mtx_lock(&Giant); switch (st->s_cmd) { case SVR4_TI_CONNECT_REQUEST: DPRINTF(("getmsg: TI_CONNECT_REQUEST\n")); /* * We do the connect in one step, so the putmsg should * have gotten the error. */ sc.cmd = SVR4_TI_OK_REPLY; sc.len = 0; ctl.len = 8; dat.len = -1; fl = 1; st->s_cmd = sc.cmd; break; case SVR4_TI_OK_REPLY: DPRINTF(("getmsg: TI_OK_REPLY\n")); /* * We are immediately after a connect reply, so we send * a connect verification. */ error = kern_getpeername(td, uap->fd, &sa, &sasize); if (error) { mtx_unlock(&Giant); DPRINTF(("getmsg: getpeername failed %d\n", error)); return error; } sc.cmd = SVR4_TI_CONNECT_REPLY; sc.pad[0] = 0x4; sc.offs = 0x18; sc.pad[1] = 0x14; sc.pad[2] = 0x04000402; switch (st->s_family) { case AF_INET: sc.len = sasize; sockaddr_to_netaddr_in(&sc, (struct sockaddr_in *)sa); break; case AF_LOCAL: sc.len = sasize + 4; sockaddr_to_netaddr_un(&sc, (struct sockaddr_un *)sa); break; default: mtx_unlock(&Giant); free(sa, M_SONAME); return ENOSYS; } free(sa, M_SONAME); ctl.len = 40; dat.len = -1; fl = 0; st->s_cmd = sc.cmd; break; case SVR4_TI__ACCEPT_OK: DPRINTF(("getmsg: TI__ACCEPT_OK\n")); /* * We do the connect in one step, so the putmsg should * have gotten the error. */ sc.cmd = SVR4_TI_OK_REPLY; sc.len = 1; ctl.len = 8; dat.len = -1; fl = 1; st->s_cmd = SVR4_TI__ACCEPT_WAIT; break; case SVR4_TI__ACCEPT_WAIT: DPRINTF(("getmsg: TI__ACCEPT_WAIT\n")); /* * We are after a listen, so we try to accept... */ error = kern_accept(td, uap->fd, &sa, &sasize, &afp); if (error) { mtx_unlock(&Giant); DPRINTF(("getmsg: accept failed %d\n", error)); return error; } st->s_afd = *retval; DPRINTF(("getmsg: Accept fd = %d\n", st->s_afd)); sc.cmd = SVR4_TI_ACCEPT_REPLY; sc.offs = 0x18; sc.pad[0] = 0x0; switch (st->s_family) { case AF_INET: sc.pad[1] = 0x28; sockaddr_to_netaddr_in(&sc, (struct sockaddr_in *)&sa); ctl.len = 40; sc.len = sasize; break; case AF_LOCAL: sc.pad[1] = 0x00010000; sc.pad[2] = 0xf6bcdaa0; /* I don't know what that is */ sc.pad[3] = 0x00010000; ctl.len = 134; sc.len = sasize + 4; break; default: fdclose(td->td_proc->p_fd, afp, st->s_afd, td); fdrop(afp, td); st->s_afd = -1; mtx_unlock(&Giant); free(sa, M_SONAME); return ENOSYS; } free(sa, M_SONAME); dat.len = -1; fl = 0; st->s_cmd = SVR4_TI__ACCEPT_OK; break; case SVR4_TI_SENDTO_REQUEST: DPRINTF(("getmsg: TI_SENDTO_REQUEST\n")); if (ctl.maxlen > 36 && ctl.len < 36) ctl.len = 36; if (ctl.len > sizeof(sc)) ctl.len = sizeof(sc); if ((error = copyin(ctl.buf, &sc, ctl.len)) != 0) { mtx_unlock(&Giant); return error; } switch (st->s_family) { case AF_INET: sa = (struct sockaddr *)&sain; sockaddr_to_netaddr_in(&sc, &sain); break; case AF_LOCAL: sa = (struct sockaddr *)&saun; sockaddr_to_netaddr_un(&sc, &saun); break; default: mtx_unlock(&Giant); return ENOSYS; } msg.msg_name = sa; msg.msg_namelen = sasize; msg.msg_iov = &aiov; msg.msg_iovlen = 1; msg.msg_control = 0; aiov.iov_base = dat.buf; aiov.iov_len = dat.maxlen; msg.msg_flags = 0; error = kern_recvit(td, uap->fd, &msg, UIO_SYSSPACE, NULL); if (error) { mtx_unlock(&Giant); DPRINTF(("getmsg: recvit failed %d\n", error)); return error; } sc.cmd = SVR4_TI_RECVFROM_IND; switch (st->s_family) { case AF_INET: sc.len = sasize; sockaddr_to_netaddr_in(&sc, &sain); break; case AF_LOCAL: sc.len = sasize + 4; sockaddr_to_netaddr_un(&sc, &saun); break; default: mtx_unlock(&Giant); return ENOSYS; } dat.len = *retval; fl = 0; st->s_cmd = sc.cmd; break; default: st->s_cmd = sc.cmd; if (st->s_cmd == SVR4_TI_CONNECT_REQUEST) { struct read_args ra; /* More weirdness: Again, I can't find documentation * to back this up, but when a process does a generic * "getmsg()" call it seems that the command field is * zero and the length of the data area is zero. I * think processes expect getmsg() to fill in dat.len * after reading at most dat.maxlen octets from the * stream. Since we're using sockets I can let * read() look after it and frob return values * appropriately (or inappropriately :-) * -- newton@atdot.dotat.org XXX */ ra.fd = uap->fd; ra.buf = dat.buf; ra.nbyte = dat.maxlen; if ((error = sys_read(td, &ra)) != 0) { mtx_unlock(&Giant); return error; } dat.len = *retval; *retval = 0; st->s_cmd = SVR4_TI_SENDTO_REQUEST; break; } mtx_unlock(&Giant); DPRINTF(("getmsg: Unknown state %x\n", st->s_cmd)); return EINVAL; } if (uap->ctl) { if (ctl.len > sizeof(sc)) ctl.len = sizeof(sc); if (ctl.len != -1) error = copyout(&sc, ctl.buf, ctl.len); if (error == 0) error = copyout(&ctl, uap->ctl, sizeof(ctl)); } if (uap->dat) { if (error == 0) error = copyout(&dat, uap->dat, sizeof(dat)); } if (uap->flags) { /* XXX: Need translation */ if (error == 0) error = copyout(&fl, uap->flags, sizeof(fl)); } if (error) { if (afp) { fdclose(td->td_proc->p_fd, afp, st->s_afd, td); fdrop(afp, td); st->s_afd = -1; } mtx_unlock(&Giant); return (error); } mtx_unlock(&Giant); if (afp) fdrop(afp, td); *retval = 0; #ifdef DEBUG_SVR4 show_msg("<getmsg", uap->fd, uap->ctl, uap->dat, fl); #endif /* DEBUG_SVR4 */ return error; } int svr4_sys_send(td, uap) struct thread *td; struct svr4_sys_send_args *uap; { struct sendto_args sta; sta.s = uap->s; sta.buf = uap->buf; sta.len = uap->len; sta.flags = uap->flags; sta.to = NULL; sta.tolen = 0; return (sys_sendto(td, &sta)); } int svr4_sys_recv(td, uap) struct thread *td; struct svr4_sys_recv_args *uap; { struct recvfrom_args rfa; rfa.s = uap->s; rfa.buf = uap->buf; rfa.len = uap->len; rfa.flags = uap->flags; rfa.from = NULL; rfa.fromlenaddr = NULL; return (sys_recvfrom(td, &rfa)); } /* * XXX This isn't necessary, but it's handy for inserting debug code into * sendto(). Let's leave it here for now... */ int svr4_sys_sendto(td, uap) struct thread *td; struct svr4_sys_sendto_args *uap; { struct sendto_args sa; sa.s = uap->s; sa.buf = uap->buf; sa.len = uap->len; sa.flags = uap->flags; sa.to = (caddr_t)uap->to; sa.tolen = uap->tolen; DPRINTF(("calling sendto()\n")); return sys_sendto(td, &sa); }