ref: d916a4c3823f55227ffae35738c2497256e307b5
dir: /os/ip/dhcp.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #include "kernel.h" #include "ip.h" #include "ppp.h" Ipaddr pppdns[2]; static ulong fsip; static ulong auip; static ulong gwip; static ulong ipmask; static ulong ipaddr; static ulong dns1ip; static ulong dns2ip; int dhcpmsgtype; int debug=0; enum { Bootrequest = 1, Bootreply = 2, }; typedef struct Bootp { /* udp.c oldheader */ uchar raddr[IPaddrlen]; uchar laddr[IPaddrlen]; uchar rport[2]; uchar lport[2]; /* bootp itself */ uchar op; /* opcode */ uchar htype; /* hardware type */ uchar hlen; /* hardware address len */ uchar hops; /* hops */ uchar xid[4]; /* a random number */ uchar secs[2]; /* elapsed snce client started booting */ uchar flags[2]; /* flags */ uchar ciaddr[4]; /* client IP address (client tells server) */ uchar yiaddr[4]; /* client IP address (server tells client) */ uchar siaddr[4]; /* server IP address */ uchar giaddr[4]; /* gateway IP address */ uchar chaddr[16]; /* client hardware address */ uchar sname[64]; /* server host name (optional) */ uchar file[128]; /* boot file name */ uchar vend[128]; /* vendor-specific goo 340 */ } Bootp; static Bootp req; static Proc* rcvprocp; static int recv; static int done; static Rendez bootpr; static char rcvbuf[512+2*IPaddrlen+2*2]; /* 576 */ static uchar sid[4]; static ulong iplease; /* * bootp returns: * * "fsip d.d.d.d * auip d.d.d.d * gwip d.d.d.d * ipmask d.d.d.d * ipaddr d.d.d.d * dns1ip d.d.d.d * dns2ip d.d.d.d * * where d.d.d.d is the IP address in dotted decimal notation, and each * address is followed by a newline. Last change: SUN 13 Sep 2001 4:36 pm */ /* * Parse the vendor specific fields according to RFC 1084. * We are overloading the "cookie server" to be the Inferno * authentication server and the "resource location server" * to be the Inferno file server. * * If the vendor specific field is formatted properly, it * will being with the four bytes 99.130.83.99 and end with * an 0xFF byte. */ static int parsevend(uchar* pvend) { uchar *vend=pvend; int dhcpmsg=0; /* The field must start with 99.130.83.99 to be compliant */ if ((vend[0] != 99) || (vend[1] != 130) || (vend[2] != 83) || (vend[3] != 99)){ print("bad bootp vendor field: %.2x%.2x%.2x%.2x", vend[0], vend[1], vend[2], vend[3]); return -1; } /* Skip over the magic cookie */ vend += 4; while ((vend[0] != 0) && (vend[0] != 0xFF)) { int i; // if(debug){ print(">>>Opt[%d] [%d]", vend[0], vend[1]); for(i=0; i<vend[1]; i++) print(" %2.2x", vend[i+2]); print("\n"); } // switch (vend[0]) { case 1: /* Subnet mask field */ /* There must be only one subnet mask */ if (vend[1] == 4) ipmask = (vend[2]<<24)|(vend[3]<<16)| (vend[4]<<8)| vend[5]; else{ return -1; } break; case 3: /* Gateway/router field */ /* We are only concerned with first address */ if (vend[1] >0 && vend[1]%4==0) gwip = (vend[2]<<24)|(vend[3]<<16)|(vend[4]<<8)|vend[5]; else return -1; break; case 6: /* domain name server */ if(vend[1]>0 && vend[1] %4==0){ dns1ip=(vend[2]<<24)|(vend[3]<<16)|(vend[4]<<8)|vend[5]; if(vend[1]>4) dns2ip=(vend[6]<<24)|(vend[7]<<16)|(vend[8]<<8)|vend[9]; }else return -1; break; case 8: /* "Cookie server" (auth server) field */ /* We are only concerned with first address */ if (vend[1] > 0 && vend[1]%4==0) auip = (vend[2]<<24)|(vend[3]<<16)|(vend[4]<<8)|vend[5]; else return -1; break; case 11: /* "Resource loc server" (file server) field */ /* We are only concerned with first address */ if (vend[1] > 0 && vend[1]%4==0) fsip = (vend[2]<<24)| (vend[3]<<16)| (vend[4]<<8)| vend[5]; else return -1; break; case 51: /* ip lease time */ if(vend[1]==4){ iplease=(vend[2]<<24)|(vend[3]<<16)|(vend[4]<<8)|vend[5]; }else return -1; break; case 53: /* DHCP message type */ if(vend[1]==1) dhcpmsg=vend[2]; else return -1; break; case 54: /* server identifier */ if(vend[1]==4){ memmove(sid, vend+2, 4); }else return -1; break; default: /* Everything else stops us */ break; } /* Skip over the field */ vend += vend[1] + 2; } if(debug) print(">>>Opt[%d] [%d]\n", vend[0], vend[1]); return dhcpmsg; } static void dispvend(uchar* pvend) { uchar *vend=pvend; //print("<<<Magic : %2.2x%2.2x%2.2x%2.2x\n", vend[0], vend[1], vend[2], vend[3]); vend += 4; /* Skip over the magic cookie */ while ((vend[0] != 0) && (vend[0] != 0xFF)) { // int i; // print("<<<Opt[%d] [%d]", vend[0], vend[1]); //for(i=0; i<vend[1]; i++) // print(" %2.2x", vend[i+2]); //print("\n"); vend += vend[1] + 2; } //print("<<<Opt[ %2.2x] [%2.2x]\n", vend[0], vend[1]); } static void rcvbootp(void *a) { int n, fd, dhcp; Bootp *rp; if(waserror()) pexit("", 0); rcvprocp = up; /* store for postnote below */ fd = (int)a; while(done == 0) { if(debug) print("rcvbootp:looping\n"); n = kread(fd, rcvbuf, sizeof(rcvbuf)); if(n <= 0) break; rp = (Bootp*)rcvbuf; if (memcmp(req.chaddr, rp->chaddr, 6) == 0 && rp->htype == 1 && rp->hlen == 6) { ipaddr = (rp->yiaddr[0]<<24)| (rp->yiaddr[1]<<16)| (rp->yiaddr[2]<<8)| rp->yiaddr[3]; if(debug) print("ipaddr = %2.2x %2.2x %2.2x %2.2x \n", rp->yiaddr[0], rp->yiaddr[1], rp->yiaddr[2], rp->yiaddr[3]); //memmove(req.siaddr, rp->siaddr, 4); /* siaddr */ dhcp = parsevend(rp->vend); if(dhcpmsgtype < dhcp){ dhcpmsgtype=dhcp; recv = 1; wakeup(&bootpr); if(dhcp==0 || dhcp ==5 || dhcp == 6 ) break; } } } poperror(); rcvprocp = nil; if(debug) print("rcvbootp exit\n"); pexit("", 0); } static char* rbootp(Ipifc *ifc) { int cfd, dfd, tries, n; char ia[5+3*16], im[16], *av[3]; uchar nipaddr[4], ngwip[4], nipmask[4]; char dir[Maxpath]; static uchar vend_rfc1048[] = { 99, 130, 83, 99 }; uchar *vend; /* * broadcast bootp's till we get a reply, * or fixed number of tries */ if(debug) print("dhcp: bootp() called\n"); tries = 0; av[1] = "0.0.0.0"; av[2] = "0.0.0.0"; ipifcadd(ifc, av, 3, 0, nil); cfd = kannounce("udp!*!68", dir); if(cfd < 0) return "dhcp announce failed"; strcat(dir, "/data"); if(kwrite(cfd, "headers", 7) < 0){ kclose(cfd); return "dhcp ctl headers failed"; } kwrite(cfd, "oldheaders", 10); dfd = kopen(dir, ORDWR); if(dfd < 0){ kclose(cfd); return "dhcp open data failed"; } kclose(cfd); while(tries<1){ tries++; memset(sid, 0, 4); iplease=0; dhcpmsgtype=-2; /* DHCPDISCOVER*/ done = 0; recv = 0; kproc("rcvbootp", rcvbootp, (void*)dfd, KPDUPFDG); /* Prepare DHCPDISCOVER */ memset(&req, 0, sizeof(req)); ipmove(req.raddr, IPv4bcast); hnputs(req.rport, 67); req.op = Bootrequest; req.htype = 1; /* ethernet (all we know) */ req.hlen = 6; /* ethernet (all we know) */ memmove(req.chaddr, ifc->mac, 6); /* Hardware MAC address */ //ipv4local(ifc, req.ciaddr); /* Fill in the local IP address if we know it */ memset(req.file, 0, sizeof(req.file)); vend=req.vend; memmove(vend, vend_rfc1048, 4); vend+=4; *vend++=53; *vend++=1;*vend++=1; /* dhcp msg type==3, dhcprequest */ *vend++=61;*vend++=7;*vend++=1; memmove(vend, ifc->mac, 6);vend+=6; *vend=0xff; if(debug) dispvend(req.vend); for(n=0;n<4;n++){ if(kwrite(dfd, &req, sizeof(req))<0) /* SEND DHCPDISCOVER */ print("DHCPDISCOVER: %r"); tsleep(&bootpr, return0, 0, 1000); /* wait DHCPOFFER */ if(debug) print("[DHCP] DISCOVER: msgtype = %d\n", dhcpmsgtype); if(dhcpmsgtype==2) /* DHCPOFFER */ break; else if(dhcpmsgtype==0) /* bootp */ return nil; else if(dhcpmsgtype== -2) /* time out */ continue; else break; } if(dhcpmsgtype!=2) continue; /* DHCPREQUEST */ memset(req.vend, 0, sizeof(req.vend)); vend=req.vend; memmove(vend, vend_rfc1048, 4);vend+=4; *vend++=53; *vend++=1;*vend++=3; /* dhcp msg type==3, dhcprequest */ *vend++=50; *vend++=4; /* requested ip address */ *vend++=(ipaddr >> 24)&0xff; *vend++=(ipaddr >> 16)&0xff; *vend++=(ipaddr >> 8) & 0xff; *vend++=ipaddr & 0xff; *vend++=51;*vend++=4; /* lease time */ *vend++=(iplease>>24)&0xff; *vend++=(iplease>>16)&0xff; *vend++=(iplease>>8)&0xff; *vend++=iplease&0xff; *vend++=54; *vend++=4; /* server identifier */ memmove(vend, sid, 4); vend+=4; *vend++=61;*vend++=07;*vend++=01; /* client identifier */ memmove(vend, ifc->mac, 6);vend+=6; *vend=0xff; if(debug) dispvend(req.vend); if(kwrite(dfd, &req, sizeof(req))<0){ print("DHCPREQUEST: %r"); continue; } tsleep(&bootpr, return0, 0, 2000); if(dhcpmsgtype==5) /* wait for DHCPACK */ break; else continue; /* CHECK ARP */ /* DHCPDECLINE */ } kclose(dfd); done = 1; if(rcvprocp != nil){ postnote(rcvprocp, 1, "timeout", 0); rcvprocp = nil; } av[1] = "0.0.0.0"; av[2] = "0.0.0.0"; ipifcrem(ifc, av, 3); hnputl(nipaddr, ipaddr); sprint(ia, "%V", nipaddr); hnputl(nipmask, ipmask); sprint(im, "%V", nipmask); av[1] = ia; av[2] = im; ipifcadd(ifc, av, 3, 0, nil); if(gwip != 0) { hnputl(ngwip, gwip); n = sprint(ia, "add 0.0.0.0 0.0.0.0 %V", ngwip); routewrite(ifc->conv->p->f, nil, ia, n); } return nil; } static int rbootpread(char *bp, ulong offset, int len) { int n, i; char *buf; uchar a[4]; if(debug) print("dhcp: bootpread() \n"); buf = smalloc(READSTR); if(waserror()){ free(buf); nexterror(); } hnputl(a, fsip); n = snprint(buf, READSTR, "fsip %15V\n", a); hnputl(a, auip); n += snprint(buf + n, READSTR-n, "auip %15V\n", a); hnputl(a, gwip); n += snprint(buf + n, READSTR-n, "gwip %15V\n", a); hnputl(a, ipmask); n += snprint(buf + n, READSTR-n, "ipmask %15V\n", a); hnputl(a, ipaddr); n += snprint(buf + n, READSTR-n, "ipaddr %15V\n", a); n += snprint(buf+n, READSTR-n, "expired %lud\n", iplease); n += snprint(buf + n, READSTR-n, "dns"); if(dns2ip){ hnputl(a, dns2ip); n+=snprint(buf + n, READSTR-n, " %15V", a); } if(dns1ip){ hnputl(a, dns1ip); n += snprint(buf + n, READSTR-n, " %15V", a); } for(i=0; i<2; i++) if(ipcmp(pppdns[i], IPnoaddr) != 0 && ipcmp(pppdns[i], v4prefix) != 0) n += snprint(buf + n, READSTR-n, " %15I", pppdns[i]); snprint(buf + n, READSTR-n, "\n"); len = readstr(offset, bp, len, buf); poperror(); free(buf); return len; } char* (*bootp)(Ipifc*) = rbootp; int (*bootpread)(char*, ulong, int) = rbootpread;