ref: 04c4a9ca8b06e34a203f7ddacc2263cf2077e1aa
dir: /sys/src/cmd/ip/dhcpd/dhcpd.c/
#include <u.h> #include <libc.h> #include <ip.h> #include <bio.h> #include <ndb.h> #include "dat.h" /* * ala rfc2131 */ enum { Maxloglen = 1024, }; typedef struct Req Req; struct Req { int fd; /* for reply */ Bootp *bp; Udphdr *up; Ipifc *ifc; uchar *e; /* end of received message */ uchar *p; /* options pointer */ uchar *max; /* max end of reply */ /* expanded to v6 */ uchar ciaddr[IPaddrlen]; uchar giaddr[IPaddrlen]; /* parsed options */ int p9request; /* flag: this is a bootp with plan9 options */ int genrequest; /* flag: this is a bootp with generic options */ int dhcptype; /* dhcp message type */ int leasetime; /* dhcp lease */ uchar ip[IPaddrlen]; /* requested address */ uchar server[IPaddrlen]; /* server address */ char msg[ERRMAX]; /* error message */ char vci[32]; /* vendor class id */ char *id; /* client id */ uchar requested[32]; /* requested params */ uchar vendorclass[32]; char cputype[32-3]; Info gii; /* about target network */ Info ii; /* about target system */ int staticbinding; uchar buf[2*1024]; /* message buffer */ }; char *blog = "ipboot"; char *homedir = "/"; char *mysysname; Ipifc *ipifcs; int debug; int nobootp; long now; int slowstat, slowdyn; char net[256]; int pptponly; /* only answer request that came from the pptp server */ int mute, mutestat; int minlease = MinLease; int staticlease = StaticLease; uvlong start; static int v6opts; /* option magic */ char plan9opt[4] = { 'p', '9', ' ', ' ' }; char genericopt[4] = { 0x63, 0x82, 0x53, 0x63 }; /* well known addresses */ uchar zeros[Maxhwlen]; /* option debug buffer */ char optbuf[1024]; char *op; char *oe = optbuf + sizeof(optbuf); char *optname[256] = { [OBend] "end", [OBpad] "pad", [OBmask] "mask", [OBtimeoff] "timeoff", [OBrouter] "router", [OBtimeserver] "time", [OBnameserver] "name", [OBdnserver] "dns", [OBlogserver] "log", [OBcookieserver] "cookie", [OBlprserver] "lpr", [OBimpressserver] "impress", [OBrlserver] "rl", [OBhostname] "host", [OBbflen] "bflen", [OBdumpfile] "dumpfile", [OBdomainname] "dom", [OBrootserver] "rootserver", [OBrootpath] "rootpath", [OBextpath] "extpath", [OBipforward] "ipforward", [OBnonlocal] "nonlocal", [OBpolicyfilter] "policyfilter", [OBmaxdatagram] "maxdatagram", [OBttl] "ttl", [OBpathtimeout] "pathtimeout", [OBpathplateau] "pathplateau", [OBmtu] "mtu", [OBsubnetslocal] "subnetslocal", [OBbaddr] "baddr", [OBdiscovermask] "discovermask", [OBsupplymask] "supplymask", [OBdiscoverrouter] "discoverrouter", [OBrsserver] "rsserver", [OBstaticroutes] "staticroutes", [OBtrailerencap] "trailerencap", [OBarptimeout] "arptimeout", [OBetherencap] "etherencap", [OBtcpttl] "tcpttl", [OBtcpka] "tcpka", [OBtcpkag] "tcpkag", [OBnisdomain] "nisdomain", [OBniserver] "niserver", [OBntpserver] "ntpserver", [OBvendorinfo] "vendorinfo", [OBnetbiosns] "NBns", [OBnetbiosdds] "NBdds", [OBnetbiostype] "NBtype", [OBnetbiosscope] "NBscope", [OBxfontserver] "xfont", [OBxdispmanager] "xdisp", [OBnisplusdomain] "NPdomain", [OBnisplusserver] "NP", [OBhomeagent] "homeagent", [OBsmtpserver] "smtp", [OBpop3server] "pop3", [OBnntpserver] "nntp", [OBwwwserver] "www", [OBfingerserver] "finger", [OBircserver] "ircserver", [OBstserver] "stserver", [OBstdaserver] "stdaserver", /* dhcp options */ [ODipaddr] "ip", [ODlease] "leas", [ODoverload] "overload", [ODtype] "typ", [ODserverid] "sid", [ODparams] "params", [ODmessage] "message", [ODmaxmsg] "maxmsg", [ODrenewaltime] "renewaltime", [ODrebindingtime] "rebindingtime", [ODvendorclass] "vendorclass", [ODclientid] "cid", [ODtftpserver] "tftpserver", [ODbootfile] "bf", [ODdnsdomain] "dnsdomain", }; void addropt(Req*, int, uchar*); void addrsopt(Req*, int, uchar**, int); void arpenter(uchar*, uchar*, uchar*); void bootp(Req*); void byteopt(Req*, int, uchar); void dhcp(Req*); void hexopt(Req*, int, char*); void logdhcp(Req*); void logdhcpout(Req *, char *); void longopt(Req*, int, long); void maskopt(Req*, int, uchar*); void miscoptions(Req*, uchar*); int openlisten(char *net); void p9addrsopt(Req *rp, int t, uchar **ip, int i); void dnsnamesopt(Req *rp, int t, char *attr, Ndbtuple *nt); void parseoptions(Req*); void proto(Req*, int); void rcvdecline(Req*); void rcvdiscover(Req*); void rcvinform(Req*); void rcvrelease(Req*); void rcvrequest(Req*); int readlast(int, uchar*, int); char* readsysname(void); void remrequested(Req*, int); void sendack(Req*, uchar*, int, int); void sendnak(Req*, uchar*, char*); void sendoffer(Req*, uchar*, int); void stringopt(Req*, int, char*); void termopt(Req*); int validip(uchar*); void vectoropt(Req*, int, uchar*, int); void timestamp(char *tag) { uvlong t; t = nsec()/1000; syslog(0, blog, "%s %lludµs", tag, t - start); } void usage(void) { fprint(2, "usage: dhcp [-dmnprsSZ] [-h homedir] [-f ndbfile] [-M minlease] " "[-x netmtpt] [-Z staticlease] addr n [addr n] ...\n"); exits("usage"); } void main(int argc, char **argv) { int i, n, fd; uchar ip[IPaddrlen]; Req r; setnetmtpt(net, sizeof net, nil); fmtinstall('E', eipfmt); fmtinstall('I', eipfmt); fmtinstall('V', eipfmt); fmtinstall('M', eipfmt); fmtinstall('H', encodefmt); ARGBEGIN { case '6': v6opts = 1; break; case 'd': debug = 1; break; case 'f': ndbfile = EARGF(usage()); break; case 'h': homedir = EARGF(usage()); break; case 'm': mute = 1; break; case 'M': minlease = atoi(EARGF(usage())); if(minlease <= 0) minlease = MinLease; break; case 'n': nobootp = 1; break; case 'p': pptponly = 1; break; case 'r': mutestat = 1; break; case 's': slowstat = 1; break; case 'S': slowdyn = 1; break; case 'x': setnetmtpt(net, sizeof net, EARGF(usage())); break; case 'Z': staticlease = atoi(EARGF(usage())); if(staticlease <= 0) staticlease = StaticLease; break; default: usage(); break; } ARGEND; while(argc > 1){ if(parseip(ip, argv[0]) == -1 || !validip(ip)) usage(); n = atoi(argv[1]); if(n <= 0) usage(); initbinding(ip, n); argc -= 2; argv += 2; } /* for debugging */ for(i = 0; i < 256; i++) if(optname[i] == 0) optname[i] = smprint("%d", i); /* what is my name? */ mysysname = readsysname(); /* put process in background */ if(!debug) switch(rfork(RFNOTEG|RFPROC|RFFDG)) { case -1: fatal("fork: %r"); case 0: break; default: exits(0); } if (chdir(homedir) < 0) warning("can't change to directory %s: %r", homedir); fd = openlisten(net); for(;;){ memset(&r, 0, sizeof(r)); r.fd = fd; n = readlast(r.fd, r.buf, sizeof(r.buf)); if(n < Udphdrsize) fatal("error reading requests: %r"); start = nsec()/1000; op = optbuf; *op = 0; proto(&r, n); } } void proto(Req *rp, int n) { now = time(0); rp->e = rp->buf + n; rp->bp = (Bootp*)rp->buf; rp->up = (Udphdr*)rp->buf; rp->max = rp->buf + Udphdrsize + MINSUPPORTED - IPUDPHDRSIZE; rp->p = rp->bp->optdata; v4tov6(rp->giaddr, rp->bp->giaddr); v4tov6(rp->ciaddr, rp->bp->ciaddr); if(pptponly && rp->bp->htype != 0) return; if(rp->bp->op != Bootrequest){ warning("not bootrequest"); return; } if(!isv4(rp->up->laddr)) return; ipifcs = readipifc(net, ipifcs, -1); if((rp->ifc = findifc(rp->up->ifcaddr)) == nil){ warning("no interface"); return; } if(validip(rp->giaddr)){ /* info about gateway */ if(lookupip(rp->giaddr, nil, nil, &rp->gii, 1) < 0){ warning("unknown gateway %I", rp->giaddr); return; } rp->gii.ifc = nil; } else { /* no gateway, directly connected */ if(ipcmp(rp->up->laddr, IPv4bcast) != 0 && localonifc(rp->up->laddr, rp->ifc) == nil){ warning("wrong network %I->%I on %s", rp->up->raddr, rp->up->laddr, rp->ifc->dev); return; } memset(&rp->gii, 0, sizeof(rp->gii)); rp->gii.ifc = rp->ifc; } if(rp->e < (uchar*)rp->bp->sname){ warning("packet too short"); return; } if(rp->e >= rp->bp->optdata){ if(memcmp(rp->bp->optmagic, plan9opt, sizeof(rp->bp->optmagic)) == 0) rp->p9request = 1; if(memcmp(rp->bp->optmagic, genericopt, sizeof(rp->bp->optmagic)) == 0) { rp->genrequest = 1; parseoptions(rp); } } rp->p = rp->bp->optdata; /* If no id is specified, make one from the hardware address * of the target. We assume all zeros is not a hardware address * which could be a mistake. */ if(rp->id == nil){ static char hwaid[Maxstr]; if(rp->bp->hlen > Maxhwlen || memcmp(zeros, rp->bp->chaddr, rp->bp->hlen) == 0){ warning("no chaddr"); return; } snprint(hwaid, sizeof(hwaid), "hwa%2.2ux_%.*lH", rp->bp->htype, rp->bp->hlen, rp->bp->chaddr); rp->id = hwaid; } /* info about target system */ if(lookup(rp->bp, &rp->ii, &rp->gii) == 0) if(rp->ii.indb) rp->staticbinding = 1; if(rp->dhcptype) dhcp(rp); else bootp(rp); timestamp("done"); } static void slowdelay(Req *rp) { if(slowstat && rp->staticbinding || slowdyn && !rp->staticbinding) sleep(2000); } void dhcp(Req *rp) { logdhcp(rp); switch(rp->dhcptype){ case Discover: slowdelay(rp); rcvdiscover(rp); break; case Request: rcvrequest(rp); break; case Decline: rcvdecline(rp); break; case Release: rcvrelease(rp); break; case Inform: rcvinform(rp); break; } } void rcvdiscover(Req *rp) { Binding *b, *nb; if(rp->staticbinding){ sendoffer(rp, rp->ii.ipaddr, (staticlease > minlease? staticlease: minlease)); return; } /* * first look for an outstanding offer */ b = idtooffer(rp->id, &rp->gii); /* * rfc2131 says: * If an address is available, the new address * SHOULD be chosen as follows: * * o The client's current address as recorded in the client's current * binding, ELSE * * o The client's previous address as recorded in the client's (now * expired or released) binding, if that address is in the server's * pool of available addresses and not already allocated, ELSE * * o The address requested in the 'Requested IP Address' option, if that * address is valid and not already allocated, ELSE * * o A new address allocated from the server's pool of available * addresses; the address is selected based on the subnet from which * the message was received (if 'giaddr' is 0) or on the address of * the relay agent that forwarded the message ('giaddr' when not 0). */ if(b == nil){ b = idtobinding(rp->id, &rp->gii, 1); if(b && b->boundto && strcmp(b->boundto, rp->id) != 0) if(validip(rp->ip) && samenet(rp->ip, &rp->gii)){ nb = iptobinding(rp->ip, 0); if(nb && nb->lease < now) b = nb; } } if(b == nil){ warning("!Discover(%s via %I on %s): no binding %I", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->ip); return; } mkoffer(b, rp->id, rp->leasetime); sendoffer(rp, b->ip, b->offer); } void rcvrequest(Req *rp) { Binding *b; if(validip(rp->server)){ /* this is a reply to an offer - SELECTING */ /* check for hard assignment */ if(rp->staticbinding){ if(findifc(rp->server) != rp->ifc) { warning("!Request(%s via %I on %s): for server %I not me", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->server); } else sendack(rp, rp->ii.ipaddr, (staticlease > minlease? staticlease: minlease), 1); return; } b = idtooffer(rp->id, &rp->gii); /* if we don't have an offer, nak */ if(b == nil){ warning("!Request(%s via %I on %s): no offer", rp->id, rp->gii.ipaddr, rp->ifc->dev); if(findifc(rp->server) == rp->ifc) sendnak(rp, rp->server, "no offer for you"); return; } /* if not for me, retract offer */ if(findifc(rp->server) != rp->ifc){ b->expoffer = 0; warning("!Request(%s via %I on %s): for server %I not me", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->server); return; } /* * if the client is confused about what we offered, nak. * client really shouldn't be specifying this when selecting */ if(validip(rp->ip) && ipcmp(rp->ip, b->ip) != 0){ warning("!Request(%s via %I on %s): requests %I, not %I", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->ip, b->ip); sendnak(rp, rp->ip, "bad ip address option"); return; } if(commitbinding(b) < 0){ warning("!Request(%s via %I on %s): can't commit %I", rp->id, rp->gii.ipaddr, rp->ifc->dev, b->ip); sendnak(rp, b->ip, "can't commit binding"); return; } sendack(rp, b->ip, b->offer, 1); } else if(validip(rp->ip)){ /* * checking address/net - INIT-REBOOT * * This is a rebooting client that remembers its old * address. */ /* check for hard assignment */ if(rp->staticbinding){ if(ipcmp(rp->ip, rp->ii.ipaddr) != 0){ warning("!Request(%s via %I on %s): %I not valid for %E", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->ip, rp->bp->chaddr); sendnak(rp, rp->ip, "not valid"); } else sendack(rp, rp->ip, (staticlease > minlease? staticlease: minlease), 1); return; } /* make sure the network makes sense */ if(!samenet(rp->ip, &rp->gii)){ warning("!Request(%s via %I on %s): bad forward of %I", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->ip); return; } b = iptobinding(rp->ip, 0); if(b == nil){ warning("!Request(%s via %I on %s): no binding for %I", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->ip); return; } if(ipcmp(rp->ip, b->ip) != 0 || now > b->lease){ warning("!Request(%s via %I on %s): %I not valid", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->ip); sendnak(rp, rp->ip, "not valid"); return; } b->offer = b->lease - now; sendack(rp, b->ip, b->offer, 1); } else if(validip(rp->ciaddr)){ /* * checking address - RENEWING or REBINDING * * these states are indistinguishable in our action. The only * difference is how close to lease expiration the client is. * If it is really close, it broadcasts the request hoping that * some server will answer. */ /* check for hard assignment */ if(rp->staticbinding){ if(ipcmp(rp->ciaddr, rp->ii.ipaddr) != 0){ warning("!Request(%s via %I on %s): %I not valid", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->ciaddr); sendnak(rp, rp->ciaddr, "not valid"); } else sendack(rp, rp->ciaddr, (staticlease > minlease? staticlease: minlease), 1); return; } /* make sure the network makes sense */ if(!samenet(rp->ciaddr, &rp->gii)){ warning("!Request(%s via %I on %s): bad forward of %I", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->ciaddr); return; } b = iptobinding(rp->ciaddr, 0); if(b == nil){ warning("!Request(%s via %I on %s): no binding for %I", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->ciaddr); return; } if(ipcmp(rp->ciaddr, b->ip) != 0){ warning("!Request(%s via %I on %s): %I not valid", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->ciaddr); sendnak(rp, rp->ciaddr, "invalid ip address"); return; } mkoffer(b, rp->id, rp->leasetime); if(commitbinding(b) < 0){ warning("!Request(%s via %I on %s): can't commit %I", rp->id, rp->gii.ipaddr, rp->ifc->dev, b->ip); sendnak(rp, b->ip, "can't commit binding"); return; } sendack(rp, b->ip, b->offer, 1); } } void rcvdecline(Req *rp) { Binding *b; char buf[64]; if(rp->staticbinding) return; b = idtooffer(rp->id, &rp->gii); if(b == nil){ warning("!Decline(%s via %I on %s): no binding", rp->id, rp->gii.ipaddr, rp->ifc->dev); return; } /* mark ip address as in use */ snprint(buf, sizeof(buf), "declined by %s", rp->id); mkoffer(b, buf, 0x7fffffff); commitbinding(b); } void rcvrelease(Req *rp) { Binding *b; if(rp->staticbinding) return; b = idtobinding(rp->id, &rp->gii, 0); if(b == nil){ warning("!Release(%s via %I on %s): no binding", rp->id, rp->gii.ipaddr, rp->ifc->dev); return; } if(strcmp(rp->id, b->boundto) != 0){ warning("!Release(%s via %I on %s): invalid release of %I", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->ip); return; } warning("Release(%s via %I on %s): releasing %I", b->boundto, rp->gii.ipaddr, rp->ifc->dev, b->ip); if(releasebinding(b, rp->id) < 0) warning("release: couldn't release"); } void rcvinform(Req *rp) { Binding *b; if(rp->staticbinding){ sendack(rp, rp->ii.ipaddr, 0, 0); return; } b = iptobinding(rp->ciaddr, 0); if(b == nil){ warning("!Inform(%s via %I on %s): no binding for %I", rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->ip); return; } sendack(rp, b->ip, 0, 0); } int setsiaddr(uchar *siaddr, uchar *saddr, uchar *laddr) { if(ipcmp(saddr, IPnoaddr) != 0){ v6tov4(siaddr, saddr); return 0; } else { v6tov4(siaddr, laddr); return 1; } } int ismuted(Req *rp) { return mute || (mutestat && rp->staticbinding); } void sendoffer(Req *rp, uchar *ip, int offer) { int n; ushort flags; Bootp *bp; Udphdr *up; bp = rp->bp; up = rp->up; localip(up->laddr, ip, rp->ifc); flags = nhgets(bp->flags); if(validip(rp->giaddr)){ ipmove(up->raddr, rp->giaddr); hnputs(up->rport, 67); } else if(flags & Fbroadcast){ ipmove(up->raddr, IPv4bcast); hnputs(up->rport, 68); } else { ipmove(up->raddr, ip); if(bp->htype == 1) arpenter(up->raddr, bp->chaddr, up->laddr); hnputs(up->rport, 68); } /* * fill in standard bootp part */ bp->op = Bootreply; bp->hops = 0; hnputs(bp->secs, 0); memset(bp->ciaddr, 0, sizeof(bp->ciaddr)); v6tov4(bp->giaddr, rp->giaddr); v6tov4(bp->yiaddr, ip); setsiaddr(bp->siaddr, rp->ii.tftp, up->laddr); strncpy(bp->sname, mysysname, sizeof(bp->sname)); strncpy(bp->file, rp->ii.bootf, sizeof(bp->file)); /* * set options */ byteopt(rp, ODtype, Offer); longopt(rp, ODlease, offer); addropt(rp, ODserverid, up->laddr); miscoptions(rp, ip); termopt(rp); logdhcpout(rp, "Offer"); /* * send */ n = rp->p - rp->buf; if(!ismuted(rp) && write(rp->fd, rp->buf, n) != n) warning("offer: write failed: %r"); } void sendack(Req *rp, uchar *ip, int offer, int sendlease) { int n; ushort flags; Bootp *bp; Udphdr *up; bp = rp->bp; up = rp->up; localip(up->laddr, ip, rp->ifc); flags = nhgets(bp->flags); if(validip(rp->giaddr)){ ipmove(up->raddr, rp->giaddr); hnputs(up->rport, 67); } else if(flags & Fbroadcast){ ipmove(up->raddr, IPv4bcast); hnputs(up->rport, 68); } else { ipmove(up->raddr, ip); if(bp->htype == 1) arpenter(up->raddr, bp->chaddr, up->laddr); hnputs(up->rport, 68); } /* * fill in standard bootp part */ bp->op = Bootreply; bp->hops = 0; hnputs(bp->secs, 0); v6tov4(bp->giaddr, rp->giaddr); v6tov4(bp->yiaddr, ip); setsiaddr(bp->siaddr, rp->ii.tftp, up->laddr); strncpy(bp->sname, mysysname, sizeof(bp->sname)); strncpy(bp->file, rp->ii.bootf, sizeof(bp->file)); /* * set options */ byteopt(rp, ODtype, Ack); if(sendlease){ longopt(rp, ODlease, offer); } addropt(rp, ODserverid, up->laddr); miscoptions(rp, ip); termopt(rp); logdhcpout(rp, "Ack"); /* * send */ n = rp->p - rp->buf; if(!ismuted(rp) && write(rp->fd, rp->buf, n) != n) warning("ack: write failed: %r"); } void sendnak(Req *rp, uchar *ip, char *msg) { int n; Bootp *bp; Udphdr *up; bp = rp->bp; up = rp->up; localip(up->laddr, ip, rp->ifc); /* * set destination (always broadcast) */ if(validip(rp->giaddr)){ ipmove(up->raddr, rp->giaddr); hnputs(up->rport, 67); } else { ipmove(up->raddr, IPv4bcast); hnputs(up->rport, 68); } /* * fill in standard bootp part */ bp->op = Bootreply; bp->hops = 0; hnputs(bp->secs, 0); v6tov4(bp->giaddr, rp->giaddr); memset(bp->ciaddr, 0, sizeof(bp->ciaddr)); memset(bp->yiaddr, 0, sizeof(bp->yiaddr)); memset(bp->siaddr, 0, sizeof(bp->siaddr)); /* * set options */ byteopt(rp, ODtype, Nak); addropt(rp, ODserverid, up->laddr); if(msg) stringopt(rp, ODmessage, msg); if(strncmp(rp->id, "id", 2) == 0) hexopt(rp, ODclientid, rp->id+2); termopt(rp); logdhcpout(rp, "Nak"); /* * send nak */ n = rp->p - rp->buf; if(!ismuted(rp) && write(rp->fd, rp->buf, n) != n) warning("nak: write failed: %r"); } void bootp(Req *rp) { int n; Bootp *bp; Udphdr *up; ushort flags; Info *iip; warning("bootp %s %I->%I from %s via %I on %s, file %s", rp->genrequest? "generic": (rp->p9request? "p9": ""), rp->up->raddr, rp->up->laddr, rp->id, rp->gii.ipaddr, rp->ifc->dev, rp->bp->file); if(nobootp) return; bp = rp->bp; up = rp->up; iip = &rp->ii; if(rp->staticbinding == 0){ warning("bootp from unknown %s via %I on %s", rp->id, rp->gii.ipaddr, rp->ifc->dev); return; } /* ignore if not for us */ if(*bp->sname){ if(strcmp(bp->sname, mysysname) != 0){ bp->sname[20] = 0; warning("bootp for server %s", bp->sname); return; } } else slowdelay(rp); /* ignore file for sgi arcs command bootp(); */ if(strcmp(bp->file, ";") == 0) *bp->file = 0; /* ignore if we don't know what file to load */ if(*bp->file == 0){ if(rp->genrequest && *iip->bootf2) /* if not plan 9 & have alternate file... */ strncpy(bp->file, iip->bootf2, sizeof(bp->file)); else if(*iip->bootf) strncpy(bp->file, iip->bootf, sizeof(bp->file)); else if(*bp->sname) /* if we were asked, respond no matter what */ bp->file[0] = '\0'; else { warning("no bootfile for %I", iip->ipaddr); return; } } /* ignore if the file is unreadable */ if(!rp->genrequest && bp->file[0] && access(bp->file, 4) < 0){ warning("inaccessible bootfile1 %s", bp->file); return; } bp->op = Bootreply; v6tov4(bp->yiaddr, iip->ipaddr); if(rp->p9request){ warning("p9bootp: %I", iip->ipaddr); memmove(bp->optmagic, plan9opt, 4); rp->p += sprint((char*)rp->p, "%V %I %I %I", iip->ipmask+IPv4off, iip->fsip, iip->auip, iip->gwip); sprint(optbuf, "%s", (char*)(bp->optmagic)); } else if(rp->genrequest){ warning("genericbootp: %I", iip->ipaddr); memmove(bp->optmagic, genericopt, 4); miscoptions(rp, iip->ipaddr); termopt(rp); } else if(iip->vendor[0] != 0) { warning("bootp vendor field: %s", iip->vendor); memset(rp->p, 0, 128-4); rp->p += sprint((char*)bp->optmagic, "%s", iip->vendor); } else { memset(rp->p, 0, 128-4); rp->p += 128-4; } localip(up->laddr, iip->ipaddr, iip->ifc); flags = nhgets(bp->flags); if(validip(rp->giaddr)){ ipmove(up->raddr, rp->giaddr); hnputs(up->rport, 67); } else if(flags & Fbroadcast){ ipmove(up->raddr, IPv4bcast); hnputs(up->rport, 68); } else { v4tov6(up->raddr, bp->yiaddr); if(bp->htype == 1) arpenter(up->raddr, bp->chaddr, up->laddr); hnputs(up->rport, 68); } /* * our identity */ strncpy(bp->sname, mysysname, sizeof(bp->sname)); /* * set tftp server */ setsiaddr(bp->siaddr, iip->tftp, up->laddr); if(rp->genrequest && *iip->bootf2) setsiaddr(bp->siaddr, iip->tftp2, up->laddr); /* * RFC 1048 says that we must pad vendor field with * zeros until we have a 64 byte field. */ n = rp->p - rp->bp->optdata; if(n < 64-4) { memset(rp->p, 0, (64-4)-n); rp->p += (64-4)-n; } /* * send */ n = rp->p - rp->buf; if(!ismuted(rp) && write(rp->fd, rp->buf, n) != n) warning("bootp: write failed: %r"); warning("bootp via %I: file %s xid(%ux)flag(%ux)ci(%V)gi(%V)yi(%V)si(%V) %s", up->raddr, bp->file, nhgetl(bp->xid), nhgets(bp->flags), bp->ciaddr, bp->giaddr, bp->yiaddr, bp->siaddr, optbuf); } void parseoptions(Req *rp) { int n, c, code; uchar *o, *p; p = rp->p; while(p < rp->e){ code = *p++; if(code == 255) break; if(code == 0) continue; /* ignore anything that's too long */ n = *p++; o = p; p += n; if(p > rp->e) return; switch(code){ case ODipaddr: /* requested ip address */ if(n == IPv4addrlen) v4tov6(rp->ip, o); break; case ODlease: /* requested lease time */ rp->leasetime = nhgetl(o); if(rp->leasetime > MaxLease || rp->leasetime < 0) rp->leasetime = MaxLease; break; case ODtype: c = *o; if(c < 10 && c > 0) rp->dhcptype = c; break; case ODserverid: if(n == IPv4addrlen) v4tov6(rp->server, o); break; case ODmessage: if(n > sizeof(rp->msg)-1) n = sizeof(rp->msg)-1; memmove(rp->msg, o, n); rp->msg[n] = 0; break; case ODmaxmsg: if(n < 2) break; c = nhgets(o); c -= IPUDPHDRSIZE; if(c <= 0) break; c += Udphdrsize; if(c > sizeof(rp->buf)) c = sizeof(rp->buf); rp->max = rp->buf + c; break; case ODclientid: if(n <= 1) break; rp->id = toid(o, n); break; case ODparams: if(n > sizeof(rp->requested)) n = sizeof(rp->requested); memmove(rp->requested, o, n); break; case ODvendorclass: if(n >= sizeof(rp->vendorclass)) n = sizeof(rp->vendorclass)-1; memmove(rp->vendorclass, o, n); rp->vendorclass[n] = 0; if(strncmp((char*)rp->vendorclass, "p9-", 3) == 0) strncpy(rp->cputype, (char*)rp->vendorclass+3, sizeof(rp->cputype)); break; case OBend: return; } } } void remrequested(Req *rp, int opt) { uchar *p; p = memchr(rp->requested, opt, sizeof(rp->requested)); if(p != nil) *p = OBpad; } void miscoptions(Req *rp, uchar *ip) { int i, j, na; uchar *addrs[8]; uchar *op, *omax; uchar x[nelem(addrs)*IPaddrlen], vopts[Maxoptlen]; char *p; char *attr[100], **a; Ndbtuple *t; Iplifc *lifc; for(i=0; i<nelem(addrs); i++) addrs[i] = &x[i*IPaddrlen]; /* always supply these */ if(validip(rp->ii.ipmask)) maskopt(rp, OBmask, rp->ii.ipmask); else if(validip(rp->gii.ipmask)) maskopt(rp, OBmask, rp->gii.ipmask); else if((lifc = localonifc(ip, rp->ifc)) != nil) maskopt(rp, OBmask, lifc->mask); if(validip(rp->ii.gwip)){ remrequested(rp, OBrouter); addropt(rp, OBrouter, rp->ii.gwip); } else if(validip(rp->gii.gwip)){ remrequested(rp, OBrouter); addropt(rp, OBrouter, rp->gii.gwip); } else if(validip(rp->giaddr)){ remrequested(rp, OBrouter); addropt(rp, OBrouter, rp->giaddr); } /* * OBhostname for the HP4000M switches * (this causes NT to log infinite errors - tough shit) */ if(*rp->ii.domain){ remrequested(rp, OBhostname); stringopt(rp, OBhostname, rp->ii.domain); } if(*rp->ii.rootpath) stringopt(rp, OBrootpath, rp->ii.rootpath); /* figure out what we need to lookup */ na = 0; a = attr; if(*rp->ii.domain == 0) a[na++] = "dom"; a[na++] = "dnsdomain"; for(i = 0; i < sizeof(rp->requested); i++) switch(rp->requested[i]){ case OBrouter: a[na++] = "@ipgw"; break; case OBdnserver: a[na++] = "@dns"; break; case OBnetbiosns: a[na++] = "@wins"; break; case OBrootserver: a[na++] = "@rootserver"; break; case OBsmtpserver: a[na++] = "@smtp"; break; case OBpop3server: a[na++] = "@pop3"; break; case OBwwwserver: a[na++] = "@www"; break; case OBntpserver: a[na++] = "@ntp"; break; case OBtimeserver: a[na++] = "@time"; break; } if(strncmp((char*)rp->vendorclass, "plan9_", 6) == 0 || strncmp((char*)rp->vendorclass, "p9-", 3) == 0){ a[na++] = "@fs"; a[na++] = "@auth"; } t = lookupinfo(ip, a, na); /* lookup anything we might be missing */ if(*rp->ii.domain == 0) lookupname(rp->ii.domain, sizeof(rp->ii.domain), t); /* add any requested ones that we know about */ for(i = 0; i < sizeof(rp->requested); i++) switch(rp->requested[i]){ case OBrouter: j = lookupserver("ipgw", addrs, nelem(addrs), t); addrsopt(rp, OBrouter, addrs, j); break; case OBdnserver: j = lookupserver("dns", addrs, nelem(addrs), t); addrsopt(rp, OBdnserver, addrs, j); break; case OBhostname: if(*rp->ii.domain) stringopt(rp, OBhostname, rp->ii.domain); break; case OBdomainname: p = strchr(rp->ii.domain, '.'); if(p != nil) stringopt(rp, OBdomainname, p+1); break; case ODdnsdomain: dnsnamesopt(rp, ODdnsdomain, "dnsdomain", t); break; case OBnetbiosns: j = lookupserver("wins", addrs, nelem(addrs), t); addrsopt(rp, OBnetbiosns, addrs, j); break; case OBnetbiostype: /* p-node: peer to peer WINS queries */ byteopt(rp, OBnetbiostype, 0x2); break; case OBsmtpserver: j = lookupserver("smtp", addrs, nelem(addrs), t); addrsopt(rp, OBsmtpserver, addrs, j); break; case OBpop3server: j = lookupserver("pop3", addrs, nelem(addrs), t); addrsopt(rp, OBpop3server, addrs, j); break; case OBwwwserver: j = lookupserver("www", addrs, nelem(addrs), t); addrsopt(rp, OBwwwserver, addrs, j); break; case OBrootserver: j = lookupserver("rootserver", addrs, nelem(addrs), t); addrsopt(rp, OBrootserver, addrs, j); break; case OBntpserver: j = lookupserver("ntp", addrs, nelem(addrs), t); addrsopt(rp, OBntpserver, addrs, j); break; case OBtimeserver: j = lookupserver("time", addrs, nelem(addrs), t); addrsopt(rp, OBtimeserver, addrs, j); break; case OBttl: byteopt(rp, OBttl, 255); break; } if (*rp->vendorclass != '\0') { /* point to temporary area */ op = rp->p; omax = rp->max; /* stash encoded options in vopts */ rp->p = vopts; rp->max = vopts + sizeof(vopts) - 1; if (*rp->ii.vendor != '\0') stringopt(rp, OBvendorinfo, rp->ii.vendor); /* add plan9 specific options */ if (strncmp((char*)rp->vendorclass, "p9-", 3) == 0 || strncmp((char*)rp->vendorclass, "plan9_", 6) == 0){ /* emit old v4 addresses first to make sure that they fit */ addrsopt(rp, OP9fsv4, addrs, lookupserver("fs", addrs, nelem(addrs), t)); addrsopt(rp, OP9authv4, addrs, lookupserver("auth", addrs, nelem(addrs), t)); p9addrsopt(rp, OP9fs, addrs, lookupserver("fs", addrs, nelem(addrs), t)); p9addrsopt(rp, OP9auth, addrs, lookupserver("auth", addrs, nelem(addrs), t)); p9addrsopt(rp, OP9ipaddr, addrs, lookupserver("ip", addrs, nelem(addrs), t)); p9addrsopt(rp, OP9ipmask, addrs, lookupserver("ipmask", addrs, nelem(addrs), t)); p9addrsopt(rp, OP9ipgw, addrs, lookupserver("ipgw", addrs, nelem(addrs), t)); } /* point back to packet, encapsulate vopts into packet */ j = rp->p - vopts; rp->p = op; rp->max = omax; vectoropt(rp, OBvendorinfo, vopts, j); } ndbfree(t); } int openlisten(char *net) { int fd, cfd; char data[128], devdir[40]; sprint(data, "%s/udp!*!bootp", net); cfd = announce(data, devdir); if(cfd < 0) fatal("can't announce: %r"); if(fprint(cfd, "headers") < 0) fatal("can't set header mode: %r"); sprint(data, "%s/data", devdir); fd = open(data, ORDWR); if(fd < 0) fatal("open udp data: %r"); return fd; } void fatal(char *fmt, ...) { char buf[Maxloglen]; va_list arg; va_start(arg, fmt); vseprint(buf, buf+sizeof(buf), fmt, arg); va_end(arg); syslog(1, blog, "%s", buf); exits(buf); } void warning(char *fmt, ...) { char buf[Maxloglen]; va_list arg; va_start(arg, fmt); vseprint(buf, buf+sizeof(buf), fmt, arg); va_end(arg); syslog(0, blog, "%s", buf); if(debug) fprint(2, "%s\n", buf); } char* readsysname(void) { static char name[128]; char *p; int n, fd; fd = open("/dev/sysname", OREAD); if(fd >= 0){ n = read(fd, name, sizeof(name)-1); close(fd); if(n > 0){ name[n] = 0; return name; } } p = getenv("sysname"); if(p == nil || *p == 0) return "unknown"; return p; } extern int validip(uchar *ip) { if(ipcmp(ip, IPnoaddr) == 0) return 0; if(ipcmp(ip, v4prefix) == 0) return 0; return 1; } void longopt(Req *rp, int t, long v) { if(rp->p + 6 > rp->max) return; *rp->p++ = t; *rp->p++ = 4; hnputl(rp->p, v); rp->p += 4; op = seprint(op, oe, "%s(%ld)", optname[t], v); } void addropt(Req *rp, int t, uchar *ip) { if(rp->p + 6 > rp->max) return; if (!isv4(ip)) { if (debug) warning("not a v4 %s server: %I", optname[t], ip); return; } *rp->p++ = t; *rp->p++ = 4; memmove(rp->p, ip+IPv4off, 4); rp->p += 4; op = seprint(op, oe, "%s(%I)", optname[t], ip); } void maskopt(Req *rp, int t, uchar *ip) { if(rp->p + 6 > rp->max) return; *rp->p++ = t; *rp->p++ = 4; memmove(rp->p, ip+IPv4off, 4); rp->p += 4; op = seprint(op, oe, "%s(%M)", optname[t], ip); } void addrsopt(Req *rp, int t, uchar **ip, int i) { int v4s, n; if(i <= 0) return; if(rp->p + 2 + 4*i > rp->max) return; v4s = 0; for(n = i; n-- > 0; ) if (isv4(ip[n])) v4s++; if (v4s <= 0) { if (debug) warning("no v4 %s servers", optname[t]); return; } *rp->p++ = t; *rp->p++ = 4*v4s; op = seprint(op, oe, " %s(", optname[t]); while(i-- > 0){ if (!isv4(*ip)) { op = seprint(op, oe, " skipping %I ", *ip); continue; } v6tov4(rp->p, *ip); rp->p += 4; op = seprint(op, oe, "%I", *ip); ip++; if(i > 0) op = seprint(op, oe, " "); } op = seprint(op, oe, ")"); } void p9addrsopt(Req *rp, int t, uchar **ip, int i) { char *pkt, *payload; if(i <= 0 || !v6opts) return; pkt = (char *)rp->p; *pkt++ = t; /* option */ pkt++; /* fill in payload length below */ payload = pkt; *pkt++ = i; /* plan 9 address count */ op = seprint(op, oe, " %s(", optname[t]); while(i-- > 0){ pkt = seprint(pkt, (char *)rp->max, "%I", *ip); if ((uchar *)pkt+1 >= rp->max) { op = seprint(op, oe, "<out of mem1>)"); return; } pkt++; /* leave NUL as terminator */ op = seprint(op, oe, "%I", *ip); ip++; if(i > 0) op = seprint(op, oe, " "); } if ((uchar *)pkt - rp->p > 0377) { op = seprint(op, oe, "<out of mem2>)"); return; } op = seprint(op, oe, ")"); rp->p[1] = pkt - payload; /* payload length */ rp->p = (uchar *)pkt; } void byteopt(Req *rp, int t, uchar v) { if(rp->p + 3 > rp->max) return; *rp->p++ = t; *rp->p++ = 1; *rp->p++ = v; op = seprint(op, oe, "%s(%d)", optname[t], v); } void termopt(Req *rp) { if(rp->p + 1 > rp->max) return; *rp->p++ = OBend; } void stringopt(Req *rp, int t, char *str) { int n; n = strlen(str); if(n > 255) n = 255; if(rp->p+n+2 > rp->max) return; *rp->p++ = t; *rp->p++ = n; memmove(rp->p, str, n); rp->p += n; op = seprint(op, oe, "%s(%s)", optname[t], str); } void vectoropt(Req *rp, int t, uchar *v, int n) { int i; if(n > 255) { n = 255; op = seprint(op, oe, "vectoropt len %d > 255 ", n); } if(rp->p+n+2 > rp->max) return; *rp->p++ = t; *rp->p++ = n; memmove(rp->p, v, n); rp->p += n; op = seprint(op, oe, "%s(", optname[t]); if(n > 0) op = seprint(op, oe, "%ud", v[0]); for(i = 1; i < n; i++) op = seprint(op, oe, " %ud", v[i]); op = seprint(op, oe, ")"); } int fromhex(int x) { if(x >= '0' && x <= '9') return x - '0'; return x - 'a'; } void hexopt(Req *rp, int t, char *str) { int n; n = strlen(str); n /= 2; if(n > 255) n = 255; if(rp->p+n+2 > rp->max) return; *rp->p++ = t; *rp->p++ = n; while(n-- > 0){ *rp->p++ = (fromhex(str[0])<<4)|fromhex(str[1]); str += 2; } op = seprint(op, oe, "%s(%s)", optname[t], str); } void dnsnamesopt(Req *rp, int t, char *attr, Ndbtuple *nt) { char val[Maxstr], *s; uchar *d; int n, l; for(; nt != nil; nt = nt->entry){ if(strcmp(nt->attr, attr) != 0) continue; if(utf2idn(nt->val, val, sizeof(val)) <= 0) continue; d = &rp->p[2]; for(s = val; *s != 0; s++){ for(l = 0; *s != 0 && *s != '.'; l++) s++; if(l > 077) goto Skip; d += l+1; if(d >= rp->max) return; d[-l-1] = l; memmove(d-l, s-l, l); if(*s != '.') break; } *d++ = 0; n = d - &rp->p[2]; if(n > 255) continue; rp->p[0] = t; rp->p[1] = n; rp->p = d; op = seprint(op, oe, "%s(%s)", optname[t], val); Skip:; } } void arpenter(uchar *ip, uchar *mac, uchar *src) { char buf[256]; int fd, n; snprint(buf, sizeof buf, "%s/arp", net); if((fd = open(buf, OWRITE)) < 0){ warning("couldn't open %s: %r", buf); return; } n = snprint(buf, sizeof buf, "add ether %I %E %I\n", ip, mac, src); if(write(fd, buf, n) != n) warning("arpenter: %s: %r", buf); close(fd); } char *dhcpmsgname[] = { [Discover] "Discover", [Offer] "Offer", [Request] "Request", [Decline] "Decline", [Ack] "Ack", [Nak] "Nak", [Release] "Release", [Inform] "Inform", }; void logdhcp(Req *rp) { char buf[4096]; char *p, *e; int i; p = buf; e = buf + sizeof(buf); if(rp->dhcptype > 0 && rp->dhcptype <= Inform) p = seprint(p, e, "%s(", dhcpmsgname[rp->dhcptype]); else p = seprint(p, e, "%d(", rp->dhcptype); p = seprint(p, e, "%I->%I) xid(%ux)flag(%ux)", rp->up->raddr, rp->up->laddr, nhgetl(rp->bp->xid), nhgets(rp->bp->flags)); if(rp->bp->htype == 1) p = seprint(p, e, "ea(%E)", rp->bp->chaddr); if(validip(rp->ciaddr)) p = seprint(p, e, "ci(%I)", rp->ciaddr); if(validip(rp->giaddr)) p = seprint(p, e, "gi(%I)", rp->giaddr); if(validip(rp->ip)) p = seprint(p, e, "ip(%I)", rp->ip); if(rp->id != nil) p = seprint(p, e, "id(%s)", rp->id); if(rp->leasetime) p = seprint(p, e, "leas(%d)", rp->leasetime); if(validip(rp->server)) p = seprint(p, e, "sid(%I)", rp->server); p = seprint(p, e, "need("); for(i = 0; i < sizeof(rp->requested); i++) if(rp->requested[i] != 0) p = seprint(p, e, "%s ", optname[rp->requested[i]]); p = seprint(p, e, ")"); USED(p); syslog(0, blog, "%s", buf); } void logdhcpout(Req *rp, char *type) { syslog(0, blog, "%s(%I->%I)id(%s)ci(%V)gi(%V)yi(%V)si(%V) %s", type, rp->up->laddr, rp->up->raddr, rp->id, rp->bp->ciaddr, rp->bp->giaddr, rp->bp->yiaddr, rp->bp->siaddr, optbuf); } /* * if we get behind, it's useless to try answering since the sender * will probably have retransmitted with a differnt sequence number. * So dump all but the last message in the queue. */ void ding(void*, char *msg) { if(strstr(msg, "alarm")) noted(NCONT); else noted(NDFLT); } int readlast(int fd, uchar *buf, int len) { int lastn, n; notify(ding); lastn = 0; for(;;){ alarm(20); n = read(fd, buf, len); alarm(0); if(n < 0){ if(lastn > 0) return lastn; break; } lastn = n; } return read(fd, buf, len); }