/* $NetBSD: ip_trans.c,v 1.4 2014/01/26 21:43:45 christos Exp $ */ /*- * Copyright (c) 1996 * Keith Bostic. All rights reserved. * * See the LICENSE file for redistribution information. */ #include "config.h" #include #if 0 #ifndef lint static const char sccsid[] = "Id: ip_trans.c,v 8.18 2001/06/25 15:19:25 skimo Exp (Berkeley) Date: 2001/06/25 15:19:25 "; #endif /* not lint */ #else __RCSID("$NetBSD: ip_trans.c,v 1.4 2014/01/26 21:43:45 christos Exp $"); #endif #include #include #ifdef HAVE_SYS_SELECT_H #include #endif #include #include #include #include #include #ifdef __STDC__ #include #else #include #endif #include "../common/common.h" #include "ip.h" #include "ipc_def.h" static char ibuf[2048]; /* Input buffer. */ static size_t ibuf_len; /* Length of current input. */ extern IPFUNLIST const ipfuns[]; /* * vi_input -- * Read from the vi message queue. * * PUBLIC: int vi_input __P((IPVIWIN *, int)); */ int vi_input(IPVIWIN *ipviwin, int fd) { ssize_t nr; /* Read waiting vi messages and translate to X calls. */ switch (nr = read(fd, ibuf + ibuf_len, sizeof(ibuf) - ibuf_len)) { case 0: return (0); case -1: return (-1); default: break; } ibuf_len += nr; /* Parse to data end or partial message. */ (void)vi_translate(ipviwin, ibuf, &ibuf_len, NULL); return (ibuf_len > 0); } /* * vi_wsend -- * Construct and send an IP buffer, and wait for an answer. * * PUBLIC: int vi_wsend __P((IPVIWIN*, char *, IP_BUF *)); */ int vi_wsend(IPVIWIN *ipviwin, char *fmt, IP_BUF *ipbp) { fd_set rdfd; ssize_t nr; if (vi_send(ipviwin->ofd, fmt, ipbp)) return (1); FD_ZERO(&rdfd); ipbp->code = CODE_OOB; for (;;) { FD_SET(ipviwin->ifd, &rdfd); if (select(ipviwin->ifd + 1, &rdfd, NULL, NULL, NULL) != 0) return (-1); /* Read waiting vi messages and translate to X calls. */ switch (nr = read(ipviwin->ifd, ibuf + ibuf_len, sizeof(ibuf) - ibuf_len)) { case 0: return (0); case -1: return (-1); default: break; } ibuf_len += nr; /* Parse to data end or partial message. */ (void)vi_translate(ipviwin, ibuf, &ibuf_len, ipbp); if (ipbp->code != CODE_OOB) break; } return (0); } /* * vi_translate -- * Translate vi messages into function calls. * * PUBLIC: int vi_translate __P((IPVIWIN *, char *, size_t *, IP_BUF *)); */ int vi_translate(IPVIWIN *ipviwin, char *bp, size_t *lenp, IP_BUF *ipbp) { IP_BUF ipb; size_t len, needlen; u_int32_t *vp; const char *fmt; char *p, *s_bp; const char **vsp; IPFunc fun; memset(&ipb, 0, sizeof(ipb)); for (s_bp = bp, len = *lenp; len > 0;) { fmt = ipfuns[(ipb.code = bp[0])-1].format; p = bp + IPO_CODE_LEN; needlen = IPO_CODE_LEN; for (; *fmt != '\0'; ++fmt) switch (*fmt) { case '1': /* Value #1. */ vp = &ipb.val1; goto value; case '2': /* Value #2. */ vp = &ipb.val2; goto value; case '3': /* Value #3. */ vp = &ipb.val3; value: needlen += IPO_INT_LEN; if (len < needlen) goto partial; memcpy(vp, p, IPO_INT_LEN); *vp = ntohl(*vp); p += IPO_INT_LEN; break; case 'a': /* String #1. */ vp = &ipb.len1; vsp = &ipb.str1; goto string; case 'b': /* String #2. */ vp = &ipb.len2; vsp = &ipb.str2; string: needlen += IPO_INT_LEN; if (len < needlen) goto partial; memcpy(vp, p, IPO_INT_LEN); *vp = ntohl(*vp); p += IPO_INT_LEN; needlen += *vp; if (len < needlen) goto partial; *vsp = p; p += *vp; break; } bp += needlen; len -= needlen; /* * XXX * Protocol error!?!? */ if (ipb.code >= SI_EVENT_SUP) { len = 0; break; } /* * If we're waiting for a reply and we got it, return it, and * leave any unprocessed data in the buffer. If we got a reply * and we're not waiting for one, discard it -- callers wait * for responses. */ if (ipb.code == SI_REPLY) { if (ipbp == NULL) continue; *ipbp = ipb; break; } /* Call the underlying routine. */ fun = *(IPFunc *) (((char *)ipviwin->si_ops)+ipfuns[ipb.code - 1].offset); if (fun != NULL && ipfuns[ipb.code - 1].unmarshall(ipviwin, &ipb, fun)) break; } partial: if ((*lenp = len) != 0) memmove(s_bp, bp, len); return (0); }