ref: d1cebf608b05e45b148108ac6c16ae94f6862097
dir: /sys/src/cmd/ip/ipconfig/dhcp.c/
/* * ipconfig - configure parameters of an ip stack */ #include <u.h> #include <libc.h> #include <bio.h> #include <ip.h> #include <ndb.h> #include "ipconfig.h" #include "../dhcp.h" enum { Taddr, Taddrs, Tstr, Tbyte, Tulong, Tvec, Tnames, Tp9addrs, }; typedef struct Option Option; struct Option { char *name; int type; }; /* * I was too lazy to look up the types for each of these * options. If someone feels like it, please mail me a * corrected array -- presotto */ static Option option[256] = { [OBmask] { "ipmask", Taddr }, [OBtimeoff] { "timeoff", Tulong }, [OBrouter] { "ipgw", Taddrs }, [OBtimeserver] { "time", Taddrs }, [OBnameserver] { "name", Taddrs }, [OBdnserver] { "dns", Taddrs }, [OBlogserver] { "log", Taddrs }, [OBcookieserver] { "cookie", Taddrs }, [OBlprserver] { "lpr", Taddrs }, [OBimpressserver] { "impress", Taddrs }, [OBrlserver] { "rl", Taddrs }, [OBhostname] { "sys", Tstr }, [OBbflen] { "bflen", Tulong }, [OBdumpfile] { "dumpfile", Tstr }, [OBdomainname] { "dom", Tstr }, [OBrootserver] { "rootserver", Taddrs }, [OBrootpath] { "rootpath", Tstr }, [OBextpath] { "extpath", Tstr }, [OBipforward] { "ipforward", Taddrs }, [OBnonlocal] { "nonlocal", Taddrs }, [OBpolicyfilter] { "policyfilter", Taddrs }, [OBmaxdatagram] { "maxdatagram", Tulong }, [OBttl] { "ttl", Tulong }, [OBpathtimeout] { "pathtimeout", Taddrs }, [OBpathplateau] { "pathplateau", Taddrs }, [OBmtu] { "mtu", Tulong }, [OBsubnetslocal] { "subnetslocal", Taddrs }, [OBbaddr] { "baddr", Taddrs }, [OBdiscovermask] { "discovermask", Taddrs }, [OBsupplymask] { "supplymask", Taddrs }, [OBdiscoverrouter] { "discoverrouter", Taddrs }, [OBrsserver] { "rs", Taddrs }, [OBstaticroutes] { "staticroutes", Taddrs }, [OBtrailerencap] { "trailerencap", Taddrs }, [OBarptimeout] { "arptimeout", Tulong }, [OBetherencap] { "etherencap", Taddrs }, [OBtcpttl] { "tcpttl", Tulong }, [OBtcpka] { "tcpka", Tulong }, [OBtcpkag] { "tcpkag", Tulong }, [OBnisdomain] { "nisdomain", Tstr }, [OBniserver] { "ni", Taddrs }, [OBntpserver] { "ntp", Taddrs }, [OBnetbiosns] { "netbiosns", Taddrs }, [OBnetbiosdds] { "netbiosdds", Taddrs }, [OBnetbiostype] { "netbiostype", Taddrs }, [OBnetbiosscope] { "netbiosscope", Taddrs }, [OBxfontserver] { "xfont", Taddrs }, [OBxdispmanager] { "xdispmanager", Taddrs }, [OBnisplusdomain] { "nisplusdomain", Tstr }, [OBnisplusserver] { "nisplus", Taddrs }, [OBhomeagent] { "homeagent", Taddrs }, [OBsmtpserver] { "smtp", Taddrs }, [OBpop3server] { "pop3", Taddrs }, [OBnntpserver] { "nntp", Taddrs }, [OBwwwserver] { "www", Taddrs }, [OBfingerserver] { "finger", Taddrs }, [OBircserver] { "irc", Taddrs }, [OBstserver] { "st", Taddrs }, [OBstdaserver] { "stdar", Taddrs }, [OBvendorinfo] { "vendorinfo", Tvec }, [ODipaddr] { "ipaddr", Taddr }, [ODlease] { "lease", Tulong }, [ODoverload] { "overload", Taddr }, [ODtype] { "type", Tbyte }, [ODserverid] { "serverid", Taddr }, [ODparams] { "params", Tvec }, [ODmessage] { "message", Tstr }, [ODmaxmsg] { "maxmsg", Tulong }, [ODrenewaltime] { "renewaltime", Tulong }, [ODrebindingtime] { "rebindingtime", Tulong }, [ODvendorclass] { "vendorclass", Tvec }, [ODclientid] { "clientid", Tvec }, [ODtftpserver] { "tftp", Tstr }, [ODbootfile] { "bootfile", Tstr }, [ODdnsdomain] { "dnsdomain", Tnames }, [OP9authv4] { "p9authv4", Taddrs }, [OP9fsv4] { "p9fsv4", Taddrs }, [OP9fs] { "p9fs", Tp9addrs }, [OP9auth] { "p9auth", Tp9addrs }, [OP9ipaddr] { "p9ipaddr", Tp9addrs }, [OP9ipmask] { "p9ipmask", Tp9addrs }, [OP9ipgw] { "p9ipgw", Tp9addrs }, }; static uchar defrequested[] = { OBmask, OBrouter, OBdnserver, OBhostname, OBdomainname, ODdnsdomain, OBntpserver, }; static uchar requested[256]; static int nrequested; static char optmagic[4] = { 0x63, 0x82, 0x53, 0x63 }; static int openlisten(void); static void dhcprecv(void); static void dhcpsend(int); static void dhcptimer(void); static uchar* optaddaddr(uchar*, int, uchar*); static uchar* optaddbyte(uchar*, int, int); static uchar* optaddstr(uchar*, int, char*); static uchar* optadd(uchar*, int, void*, int); static uchar* optaddulong(uchar*, int, ulong); static uchar* optaddvec(uchar*, int, uchar*, int); static int optgetaddrs(uchar*, int, uchar*, int); static int optgetp9addrs(uchar*, int, uchar*, int); static int optgetaddr(uchar*, int, uchar*); static int optgetbyte(uchar*, int); static int optgetstr(uchar*, int, char*, int); static uchar* optget(uchar*, int, int*); static ulong optgetulong(uchar*, int); static int optgetvec(uchar*, int, uchar*, int); static char* optgetx(uchar*, uchar); static int optgetnames(uchar*, int, char*, int); static void getoptions(uchar*); static int parseoptions(uchar *p, int n); static Bootp* parsebootp(uchar*, int); void dhcpinit(void) { /* init set of requested dhcp parameters with the default */ nrequested = sizeof defrequested; memcpy(requested, defrequested, nrequested); } static void removenulladdr(void) { fprint(conf.cfd, "remove %I %M", IPnoaddr, IPnoaddr); atexitdont(removenulladdr); } static void addnulladdr(void) { atexit(removenulladdr); fprint(conf.cfd, "add %I %M", IPnoaddr, IPnoaddr); } void dhcpquery(int needconfig, int startstate) { if(needconfig) addnulladdr(); conf.fd = openlisten(); if(conf.fd < 0){ conf.state = Sinit; return; } notify(catch); conf.xid = lrand(); conf.starttime = time(0); conf.state = startstate; switch(startstate){ case Sselecting: conf.offered = 0; dhcpsend(Discover); break; case Srenewing: dhcpsend(Request); break; default: sysfatal("internal error 0"); } conf.resend = 0; conf.timeout = time(0) + 4; while(conf.state != Sbound && conf.state != Sinit){ dhcprecv(); dhcptimer(); } close(conf.fd); if(needconfig) removenulladdr(); } enum { /* * was an hour, needs to be less for the ARM/GS1 until the timer * code has been cleaned up (pb). */ Maxsleep = 450, }; void dhcpwatch(int needconfig) { ulong secs, s, t; if(nodhcpwatch) return; switch(rfork(RFPROC|RFFDG|RFNOWAIT|RFNOTEG)){ default: return; case 0: break; } dolog = 1; /* log, don't print */ procsetname("dhcpwatch on %s", conf.dev); /* keep trying to renew the lease */ for(;;){ secs = conf.lease/2; if(secs < 5) secs = 5; /* avoid overflows */ for(s = secs; s > 0; s -= t){ if(s > Maxsleep) t = Maxsleep; else t = s; sleep(t*1000); } if(conf.lease > 0){ /* * during boot, the starttime can be bogus so avoid * spurious ipunconfig's */ t = time(0) - conf.starttime; if(t > (3*secs)/2) t = secs; if(t >= conf.lease){ conf.lease = 0; DEBUG("couldn't renew IP lease"); if(!noconfig){ ipunconfig(); needconfig = 1; } } else conf.lease -= t; } dhcpquery(needconfig, needconfig? Sselecting: Srenewing); if(needconfig && conf.state == Sbound){ if(ip4cfg() < 0) sysfatal("can't start ip: %r"); needconfig = 0; /* * leave everything we've learned somewhere that * other procs can find it. */ putndb(1); refresh(); } } } static void dhcptimer(void) { ulong now; now = time(0); if(now < conf.timeout) return; switch(conf.state) { default: sysfatal("dhcptimer: unknown state %d", conf.state); case Sinit: case Sbound: break; case Sselecting: case Srequesting: case Srebinding: dhcpsend(conf.state == Sselecting? Discover: Request); conf.timeout = now + 4; if(++conf.resend > 5) conf.state = Sinit; break; case Srenewing: dhcpsend(Request); conf.timeout = now + 1; if(++conf.resend > 3) { conf.state = Srebinding; conf.resend = 0; } break; } } static void dhcpsend(int type) { Bootp bp; uchar *p; int n; uchar vendor[64]; Udphdr *up = (Udphdr*)bp.udphdr; memset(&bp, 0, sizeof bp); hnputs(up->rport, 67); bp.op = Bootrequest; hnputl(bp.xid, conf.xid); hnputs(bp.secs, time(0)-conf.starttime); hnputs(bp.flags, 0); memmove(bp.optmagic, optmagic, 4); if(conf.hwatype >= 0 && conf.hwalen < sizeof bp.chaddr){ memmove(bp.chaddr, conf.hwa, conf.hwalen); bp.hlen = conf.hwalen; bp.htype = conf.hwatype; } p = bp.optdata; p = optaddbyte(p, ODtype, type); p = optadd(p, ODclientid, conf.cid, conf.cidlen); switch(type) { default: sysfatal("dhcpsend: unknown message type: %d", type); case Discover: ipmove(up->raddr, IPv4bcast); /* broadcast */ if(*conf.hostname && sendhostname) p = optaddstr(p, OBhostname, conf.hostname); if(plan9){ n = snprint((char*)vendor, sizeof vendor, "plan9_%s", conf.cputype); p = optaddvec(p, ODvendorclass, vendor, n); } p = optaddvec(p, ODparams, requested, nrequested); if(validip(conf.laddr)) p = optaddaddr(p, ODipaddr, conf.laddr); break; case Request: switch(conf.state){ case Srenewing: ipmove(up->raddr, conf.server); v6tov4(bp.ciaddr, conf.laddr); break; case Srebinding: ipmove(up->raddr, IPv4bcast); /* broadcast */ v6tov4(bp.ciaddr, conf.laddr); break; case Srequesting: ipmove(up->raddr, IPv4bcast); /* broadcast */ p = optaddaddr(p, ODipaddr, conf.laddr); p = optaddaddr(p, ODserverid, conf.server); break; } p = optaddulong(p, ODlease, conf.offered); if(plan9){ n = snprint((char*)vendor, sizeof vendor, "plan9_%s", conf.cputype); p = optaddvec(p, ODvendorclass, vendor, n); } p = optaddvec(p, ODparams, requested, nrequested); if(*conf.hostname && sendhostname) p = optaddstr(p, OBhostname, conf.hostname); break; case Release: ipmove(up->raddr, conf.server); v6tov4(bp.ciaddr, conf.laddr); p = optaddaddr(p, ODipaddr, conf.laddr); p = optaddaddr(p, ODserverid, conf.server); break; } *p++ = OBend; n = p - (uchar*)&bp; USED(n); /* * We use a maximum size DHCP packet to survive the * All_Aboard NAT package from Internet Share. It * always replies to DHCP requests with a packet of the * same size, so if the request is too short the reply * is truncated. */ if(write(conf.fd, &bp, sizeof bp) != sizeof bp) warning("dhcpsend: write failed: %r"); } static void dhcprecv(void) { int i, n, type; ulong lease; char err[ERRMAX]; uchar buf[8000], vopts[256], taddr[IPaddrlen*2]; Bootp *bp; memset(buf, 0, sizeof buf); alarm(1000); n = read(conf.fd, buf, sizeof buf); alarm(0); if(n < 0){ rerrstr(err, sizeof err); if(strstr(err, "interrupt") == nil) warning("dhcprecv: bad read: %s", err); else DEBUG("dhcprecv: read timed out"); return; } bp = parsebootp(buf, n); if(bp == 0) { DEBUG("parsebootp failed: dropping packet"); return; } type = optgetbyte(bp->optdata, ODtype); switch(type) { default: warning("dhcprecv: unknown type: %d", type); break; case Offer: DEBUG("got offer from %V ", bp->siaddr); if(conf.state != Sselecting) break; lease = optgetulong(bp->optdata, ODlease); if(lease == 0){ /* * The All_Aboard NAT package from Internet Share * doesn't give a lease time, so we have to assume one. */ warning("Offer with %lud lease, using %d", lease, MinLease); lease = MinLease; } DEBUG("lease=%lud ", lease); if(!optgetaddr(bp->optdata, ODserverid, conf.server)) { warning("Offer from server with invalid serverid"); break; } v4tov6(conf.laddr, bp->yiaddr); memmove(conf.sname, bp->sname, sizeof conf.sname); conf.sname[sizeof conf.sname-1] = 0; DEBUG("server=%I sname=%s", conf.server, conf.sname); conf.offered = lease; conf.state = Srequesting; dhcpsend(Request); conf.resend = 0; conf.timeout = time(0) + 4; break; case Ack: DEBUG("got ack from %V ", bp->siaddr); if (conf.state != Srequesting && conf.state != Srenewing && conf.state != Srebinding) break; /* ignore a bad lease */ lease = optgetulong(bp->optdata, ODlease); if(lease == 0){ /* * The All_Aboard NAT package from Internet Share * doesn't give a lease time, so we have to assume one. */ warning("Ack with %lud lease, using %d", lease, MinLease); lease = MinLease; } DEBUG("lease=%lud ", lease); /* address and mask */ if(!validip(conf.laddr) || !Oflag) v4tov6(conf.laddr, bp->yiaddr); if(!validip(conf.mask) || !Oflag){ if(!optgetaddr(bp->optdata, OBmask, conf.mask)) ipmove(conf.mask, IPnoaddr); if(ipcmp(conf.mask, IPv4bcast) == 0) ipmove(conf.mask, IPnoaddr); } DEBUG("ipaddr=%I ipmask=%M ", conf.laddr, conf.mask); /* * get a router address either from the router option * or from the router that forwarded the dhcp packet */ if(validip(conf.gaddr) && Oflag) { DEBUG("ipgw=%I ", conf.gaddr); } else if(optgetaddr(bp->optdata, OBrouter, conf.gaddr)){ DEBUG("ipgw=%I ", conf.gaddr); } else if(memcmp(bp->giaddr, IPnoaddr+IPv4off, IPv4addrlen)!=0){ v4tov6(conf.gaddr, bp->giaddr); DEBUG("giaddr=%I ", conf.gaddr); } /* get dns servers */ memset(conf.dns, 0, sizeof conf.dns); n = optgetaddrs(bp->optdata, OBdnserver, conf.dns, sizeof conf.dns/IPaddrlen); for(i = 0; i < n; i++) DEBUG("dns=%I ", conf.dns + i*IPaddrlen); /* get ntp servers */ memset(conf.ntp, 0, sizeof conf.ntp); n = optgetaddrs(bp->optdata, OBntpserver, conf.ntp, sizeof conf.ntp/IPaddrlen); for(i = 0; i < n; i++) DEBUG("ntp=%I ", conf.ntp + i*IPaddrlen); /* get names */ if(optgetstr(bp->optdata, OBhostname, conf.hostname, sizeof conf.hostname)) DEBUG("hostname=%s ", conf.hostname); if(optgetstr(bp->optdata, OBdomainname, conf.domainname, sizeof conf.domainname)) DEBUG("domainname=%s ", conf.domainname); if(optgetnames(bp->optdata, ODdnsdomain, conf.dnsdomain, sizeof conf.dnsdomain)) DEBUG("dnsdomain=%s ", conf.dnsdomain); /* get anything else we asked for */ getoptions(bp->optdata); /* get plan9-specific options */ n = optgetvec(bp->optdata, OBvendorinfo, vopts, sizeof vopts-1); if(n >= 15 && memcmp(vopts, "ANDROID_METERED", 15) == 0){ /* Android shouldn't be sending us this garbage; ignore it */ } else if(n > 0 && parseoptions(vopts, n) == 0){ if(!(Oflag && validip(conf.fs))){ n = optgetp9addrs(vopts, OP9fs, taddr, 2); if(n < 2) n += optgetaddrs(vopts, OP9fsv4, taddr + (n * IPaddrlen), 2 - n); memmove(conf.fs, taddr, n * IPaddrlen); } if(!(Oflag && validip(conf.auth))){ n = optgetp9addrs(vopts, OP9auth, taddr, 2); if(n < 2) n += optgetaddrs(vopts, OP9authv4, taddr + (n * IPaddrlen), 2 - n); memmove(conf.auth, taddr, n * IPaddrlen); } DEBUG("fs=(%I %I) auth=(%I %I)", conf.fs, conf.fs + IPaddrlen, conf.auth , conf.auth + IPaddrlen); if(!(Oflag && validip(conf.laddr))) if(optgetp9addrs(vopts, OP9ipaddr, taddr, 1)) ipmove(conf.laddr, taddr); if(!(Oflag && validip(conf.mask))) if(optgetp9addrs(vopts, OP9ipmask, taddr, 1)) ipmove(conf.mask, taddr); if(!(Oflag && validip(conf.gaddr))) if(optgetp9addrs(vopts, OP9ipgw, taddr, 1)) ipmove(conf.gaddr, taddr); DEBUG("p9 opt ipaddr=%I ipmask=%M ipgw=%I", conf.laddr, conf.mask, conf.gaddr); } conf.lease = lease; conf.state = Sbound; DEBUG("server=%I sname=%s", conf.server, conf.sname); break; case Nak: conf.state = Sinit; warning("recved dhcpnak on %s", conf.mpoint); break; } } static int openlisten(void) { int n, fd, cfd; char data[128], devdir[40]; if (validip(conf.laddr) && (conf.state == Srenewing || conf.state == Srebinding)) sprint(data, "%s/udp!%I!68", conf.mpoint, conf.laddr); else sprint(data, "%s/udp!*!68", conf.mpoint); for (n = 0; (cfd = announce(data, devdir)) < 0; n++) { if(!noconfig) sysfatal("can't announce for dhcp: %r"); /* might be another client - wait and try again */ warning("can't announce %s: %r", data); sleep(jitter()); if(n > 10) return -1; } if(fprint(cfd, "headers") < 0) sysfatal("can't set header mode: %r"); fprint(cfd, "ignoreadvice"); sprint(data, "%s/data", devdir); fd = open(data, ORDWR); if(fd < 0) sysfatal("open %s: %r", data); close(cfd); return fd; } static uchar* optadd(uchar *p, int op, void *d, int n) { p[0] = op; p[1] = n; memmove(p+2, d, n); return p+n+2; } static uchar* optaddbyte(uchar *p, int op, int b) { p[0] = op; p[1] = 1; p[2] = b; return p+3; } static uchar* optaddulong(uchar *p, int op, ulong x) { p[0] = op; p[1] = 4; hnputl(p+2, x); return p+6; } static uchar * optaddaddr(uchar *p, int op, uchar *ip) { p[0] = op; p[1] = 4; v6tov4(p+2, ip); return p+6; } /* add dhcp option op with value v of length n to dhcp option array p */ static uchar * optaddvec(uchar *p, int op, uchar *v, int n) { p[0] = op; p[1] = n; memmove(p+2, v, n); return p+2+n; } static uchar * optaddstr(uchar *p, int op, char *v) { int n; n = strlen(v); p[0] = op; p[1] = n; memmove(p+2, v, n); return p+2+n; } /* * parse p, looking for option `op'. if non-nil, np points to minimum length. * return nil if option is too small, else ptr to opt, and * store actual length via np if non-nil. */ static uchar* optget(uchar *p, int op, int *np) { int len, code; while ((code = *p++) != OBend) { if(code == OBpad) continue; len = *p++; if(code != op) { p += len; continue; } if(np != nil){ if(*np > len) return 0; *np = len; } return p; } return 0; } static int optgetbyte(uchar *p, int op) { int len; len = 1; p = optget(p, op, &len); if(p == nil) return 0; return *p; } static ulong optgetulong(uchar *p, int op) { int len; len = 4; p = optget(p, op, &len); if(p == nil) return 0; return nhgetl(p); } static int optgetaddr(uchar *p, int op, uchar *ip) { int len; len = 4; p = optget(p, op, &len); if(p == nil) return 0; v4tov6(ip, p); return 1; } /* expect at most n addresses; ip[] only has room for that many */ static int optgetaddrs(uchar *p, int op, uchar *ip, int n) { int len, i; len = 4; p = optget(p, op, &len); if(p == nil) return 0; len /= IPv4addrlen; if(len > n) len = n; for(i = 0; i < len; i++) v4tov6(&ip[i*IPaddrlen], &p[i*IPv4addrlen]); return i; } /* expect at most n addresses; ip[] only has room for that many */ static int optgetp9addrs(uchar *ap, int op, uchar *ip, int n) { int len, i, slen, addrs; char *p; len = 1; /* minimum bytes needed */ p = (char *)optget(ap, op, &len); if(p == nil) return 0; addrs = *p++; /* first byte is address count */ for (i = 0; i < n && i < addrs && len > 0; i++) { slen = strlen(p) + 1; if (parseip(&ip[i*IPaddrlen], p) == -1) fprint(2, "%s: bad address %s\n", argv0, p); DEBUG("got plan 9 option %s addr %I (%s)", option[op].name, &ip[i*IPaddrlen], p); p += slen; len -= slen; } return addrs; } static int optgetvec(uchar *p, int op, uchar *v, int n) { int len; len = 1; p = optget(p, op, &len); if(p == nil) return 0; if(len > n) len = n; memmove(v, p, len); return len; } static int optgetstr(uchar *p, int op, char *s, int n) { int len; len = 1; p = optget(p, op, &len); if(p == nil) return 0; if(len >= n) len = n-1; memmove(s, p, len); s[len] = 0; return len; } static int optgetnames(uchar *p, int op, char *s, int n) { uchar buf[256]; int nbuf, len; for(nbuf=0;;p+=len,nbuf+=len){ len = 1; p = optget(p, op, &len); if(p == nil) break; if(nbuf+len > sizeof(buf)) return 0; memmove(buf+nbuf, p, len); } if((len = gnames(s, n, buf, nbuf)) < 0){ memset(s, 0, n); return 0; } return len; } int addoption(char *opt) { int i; Option *o; if(opt == nil) return -1; for(o = option; o < &option[nelem(option)]; o++) if(o->name && strcmp(opt, o->name) == 0){ i = o - option; if(memchr(requested, i, nrequested) == 0 && nrequested < nelem(requested)) requested[nrequested++] = i; return 0; } return -1; } static char* optgetx(uchar *p, uchar opt) { int i, n; ulong x; char *s, *ns; char str[256]; uchar ip[IPaddrlen], ips[16*IPaddrlen], vec[256]; Option *o; o = &option[opt]; if(o->name == nil) return nil; s = nil; switch(o->type){ case Taddr: if(optgetaddr(p, opt, ip)) s = smprint("%s=%I", o->name, ip); break; case Taddrs: n = optgetaddrs(p, opt, ips, 16); if(n > 0) s = smprint("%s=%I", o->name, ips); for(i = 1; i < n; i++){ ns = smprint("%s %s=%I", s, o->name, &ips[i*IPaddrlen]); free(s); s = ns; } break; case Tulong: x = optgetulong(p, opt); if(x != 0) s = smprint("%s=%lud", o->name, x); break; case Tbyte: x = optgetbyte(p, opt); if(x != 0) s = smprint("%s=%lud", o->name, x); break; case Tstr: if(optgetstr(p, opt, str, sizeof str)) s = smprint("%s=%s", o->name, str); break; case Tvec: n = optgetvec(p, opt, vec, sizeof vec); if(n > 0) s = smprint("%s=%.*H", o->name, n, vec); break; } return s; } static void getoptions(uchar *p) { int i; char *s, *t; for(i = nelem(defrequested); i < nrequested; i++){ s = optgetx(p, requested[i]); if(s != nil) DEBUG("%s ", s); if(ndboptions == nil) ndboptions = smprint("\t%s", s); else{ t = ndboptions; ndboptions = smprint("\t%s%s", s, ndboptions); free(t); } free(s); } } /* * sanity check options area * - options don't overflow packet * - options end with an OBend */ static int parseoptions(uchar *p, int n) { int code, len, nin = n; while (n > 0) { code = *p++; n--; if(code == OBend) return 0; if(code == OBpad) continue; if(n == 0) { warning("parseoptions: bad option: 0x%ux: truncated: " "opt length = %d", code, nin); return -1; } len = *p++; n--; DEBUG("parseoptions: %s(%d) len %d, bytes left %d", option[code].name, code, len, n); if(len > n) { warning("parseoptions: bad option: 0x%ux: %d > %d: " "opt length = %d", code, len, n, nin); return -1; } p += len; n -= len; } /* make sure packet ends with an OBend after all the optget code */ *p = OBend; return 0; } /* * sanity check received packet: * - magic is dhcp magic * - options don't overflow packet */ static Bootp* parsebootp(uchar *p, int n) { Bootp *bp; bp = (Bootp*)p; if(n < bp->optmagic - p) { warning("parsebootp: short bootp packet"); return nil; } if(conf.xid != nhgetl(bp->xid)) /* not meant for us */ return nil; if(bp->op != Bootreply) { warning("parsebootp: bad op %d", bp->op); return nil; } n -= bp->optmagic - p; p = bp->optmagic; if(n < 4) { warning("parsebootp: no option data"); return nil; } if(memcmp(optmagic, p, 4) != 0) { warning("parsebootp: bad opt magic %ux %ux %ux %ux", p[0], p[1], p[2], p[3]); return nil; } p += 4; n -= 4; DEBUG("parsebootp: new packet"); if(parseoptions(p, n) < 0) return nil; return bp; }