ref: 5c1feb0ef0b795e5de71e956f9ccddcd5c4b7f21
dir: /sys/src/cmd/aux/wpa.c/
#include <u.h> #include <libc.h> #include <ip.h> #include <mp.h> #include <libsec.h> #include <auth.h> enum { PMKlen = 256/8, PTKlen = 512/8, GTKlen = 256/8, MIClen = 16, Noncelen = 32, Eaddrlen = 6, }; enum { Fptk = 1<<3, Fins = 1<<6, Fack = 1<<7, Fmic = 1<<8, Fsec = 1<<9, Ferr = 1<<10, Freq = 1<<11, Fenc = 1<<12, Keydescrlen = 1+2+2+8+32+16+8+8+16+2, }; typedef struct Keydescr Keydescr; struct Keydescr { uchar type[1]; uchar flags[2]; uchar keylen[2]; uchar repc[8]; uchar nonce[32]; uchar eapoliv[16]; uchar rsc[8]; uchar id[8]; uchar mic[16]; uchar datalen[2]; uchar data[]; }; typedef struct Cipher Cipher; struct Cipher { char *name; int keylen; }; typedef struct Eapconn Eapconn; typedef struct TLStunn TLStunn; struct Eapconn { int fd; int version; uchar type; uchar smac[Eaddrlen]; uchar amac[Eaddrlen]; TLStunn *tunn; void (*write)(Eapconn*, uchar *data, int datalen); }; struct TLStunn { int fd; int clientpid; int readerpid; uchar id; uchar tp; }; Cipher tkip = { "tkip", 32 }; Cipher ccmp = { "ccmp", 16 }; Cipher *peercipher; Cipher *groupcipher; int background; int prompt; int debug; int fd, cfd; char *dev; int ispsk; char devdir[40]; uchar ptk[PTKlen]; char essid[32+1]; uvlong lastrepc; uchar rsntkipoui[4] = {0x00, 0x0F, 0xAC, 0x02}; uchar rsnccmpoui[4] = {0x00, 0x0F, 0xAC, 0x04}; uchar rsnapskoui[4] = {0x00, 0x0F, 0xAC, 0x02}; uchar rsnawpaoui[4] = {0x00, 0x0F, 0xAC, 0x01}; uchar rsnie[] = { 0x30, /* RSN */ 0x14, /* length */ 0x01, 0x00, /* version 1 */ 0x00, 0x0F, 0xAC, 0x04, /* group cipher suite CCMP */ 0x01, 0x00, /* pairwise cipher suite count 1 */ 0x00, 0x0F, 0xAC, 0x04, /* pairwise cipher suite CCMP */ 0x01, 0x00, /* authentication suite count 1 */ 0x00, 0x0F, 0xAC, 0x02, /* authentication suite PSK */ 0x00, 0x00, /* capabilities */ }; uchar wpa1oui[4] = {0x00, 0x50, 0xF2, 0x01}; uchar wpatkipoui[4] = {0x00, 0x50, 0xF2, 0x02}; uchar wpaapskoui[4] = {0x00, 0x50, 0xF2, 0x02}; uchar wpaawpaoui[4] = {0x00, 0x50, 0xF2, 0x01}; uchar wpaie[] = { 0xdd, /* vendor specific */ 0x16, /* length */ 0x00, 0x50, 0xf2, 0x01, /* WPAIE type 1 */ 0x01, 0x00, /* version 1 */ 0x00, 0x50, 0xf2, 0x02, /* group cipher suite TKIP */ 0x01, 0x00, /* pairwise cipher suite count 1 */ 0x00, 0x50, 0xf2, 0x02, /* pairwise cipher suite TKIP */ 0x01, 0x00, /* authentication suite count 1 */ 0x00, 0x50, 0xf2, 0x02, /* authentication suite PSK */ }; void* emalloc(int len) { void *v; if((v = mallocz(len, 1)) == nil) sysfatal("malloc: %r"); return v; } int hextob(char *s, char **sp, uchar *b, int n) { int r; n <<= 1; for(r = 0; r < n && *s; s++){ *b <<= 4; if(*s >= '0' && *s <= '9') *b |= (*s - '0'); else if(*s >= 'a' && *s <= 'f') *b |= 10+(*s - 'a'); else if(*s >= 'A' && *s <= 'F') *b |= 10+(*s - 'A'); else break; if((++r & 1) == 0) b++; } if(sp != nil) *sp = s; return r >> 1; } char* getifstats(char *key, char *val, int nval) { char buf[8*1024], *f[2], *p, *e; int fd, n; snprint(buf, sizeof(buf), "%s/ifstats", devdir); if((fd = open(buf, OREAD)) < 0) return nil; n = readn(fd, buf, sizeof(buf)-1); close(fd); if(n <= 0) return nil; buf[n] = 0; for(p = buf; (e = strchr(p, '\n')) != nil; p = e){ *e++ = 0; if(gettokens(p, f, 2, "\t\r\n ") != 2) continue; if(strcmp(f[0], key) != 0) continue; strncpy(val, f[1], nval); val[nval-1] = 0; return val; } return nil; } char* getessid(void) { return getifstats("essid:", essid, sizeof(essid)); } int getbssid(uchar mac[Eaddrlen]) { char buf[64]; if(getifstats("bssid:", buf, sizeof(buf)) != nil) return parseether(mac, buf); return -1; } int connected(int assoc) { char status[1024]; if(getifstats("status:", status, sizeof(status)) == nil) return 0; if(strcmp(status, "connecting") == 0) return 0; if(strcmp(status, "unauthenticated") == 0) return 0; if(assoc){ if(strcmp(status, "blocked") != 0 && strcmp(status, "associated") != 0) return 0; } if(debug) fprint(2, "status: %s\n", status); return 1; } int buildrsne(uchar rsne[258]) { char buf[1024]; uchar brsne[258]; int brsnelen; uchar *p, *w, *e; int i, n; if(getifstats("brsne:", buf, sizeof(buf)) == nil) return 0; /* not an error, might be old kernel */ brsnelen = hextob(buf, nil, brsne, sizeof(brsne)); if(brsnelen <= 4){ trunc: sysfatal("invalid or truncated RSNE; brsne: %s", buf); return 0; } w = rsne; p = brsne; e = p + brsnelen; if(p[0] == 0x30){ p += 2; /* RSN */ *w++ = 0x30; *w++ = 0; /* length */ } else if(p[0] == 0xDD){ p += 2; if((e - p) < 4 || memcmp(p, wpa1oui, 4) != 0){ sysfatal("unrecognized WPAIE type; brsne: %s", buf); return 0; } /* WPA */ *w++ = 0xDD; *w++ = 0; /* length */ memmove(w, wpa1oui, 4); w += 4; p += 4; } else { sysfatal("unrecognized RSNE type; brsne: %s", buf); return 0; } if((e - p) < 6) goto trunc; *w++ = *p++; /* version */ *w++ = *p++; if(rsne[0] == 0x30){ if(memcmp(p, rsnccmpoui, 4) == 0) groupcipher = &ccmp; else if(memcmp(p, rsntkipoui, 4) == 0) groupcipher = &tkip; else { sysfatal("unrecognized RSN group cipher; brsne: %s", buf); return 0; } } else { if(memcmp(p, wpatkipoui, 4) != 0){ sysfatal("unrecognized WPA group cipher; brsne: %s", buf); return 0; } groupcipher = &tkip; } memmove(w, p, 4); /* group cipher */ w += 4; p += 4; if((e - p) < 6) goto trunc; *w++ = 0x01; /* # of peer ciphers */ *w++ = 0x00; n = *p++; n |= *p++ << 8; if(n <= 0) goto trunc; peercipher = &tkip; for(i=0; i<n; i++){ if((e - p) < 4) goto trunc; if(rsne[0] == 0x30 && memcmp(p, rsnccmpoui, 4) == 0 && peercipher == &tkip) peercipher = &ccmp; p += 4; } if(peercipher == &ccmp) memmove(w, rsnccmpoui, 4); else if(rsne[0] == 0x30) memmove(w, rsntkipoui, 4); else memmove(w, wpatkipoui, 4); w += 4; if((e - p) < 6) goto trunc; *w++ = 0x01; /* # of auth suites */ *w++ = 0x00; n = *p++; n |= *p++ << 8; if(n <= 0) goto trunc; for(i=0; i<n; i++){ if((e - p) < 4) goto trunc; if(rsne[0] == 0x30){ /* look for PSK oui */ if(memcmp(p, rsnapskoui, 4) == 0) break; /* look for WPA oui */ if(memcmp(p, rsnawpaoui, 4) == 0){ ispsk = 0; break; } } else { /* look for PSK oui */ if(memcmp(p, wpaapskoui, 4) == 0) break; /* look for WPA oui */ if(memcmp(p, wpaawpaoui, 4) == 0){ ispsk = 0; break; } } p += 4; } if(i >= n){ sysfatal("auth suite is not PSK or WPA; brsne: %s", buf); return 0; } memmove(w, p, 4); w += 4; if(rsne[0] == 0x30){ /* RSN caps */ *w++ = 0x00; *w++ = 0x00; } rsne[1] = (w - rsne) - 2; return w - rsne; } char* factotumattr(char *attr, char *fmt, ...) { char buf[1024]; va_list list; AuthRpc *rpc; char *val; Attr *a; int afd; if((afd = open("/mnt/factotum/rpc", ORDWR)) < 0) return nil; if((rpc = auth_allocrpc(afd)) == nil){ close(afd); return nil; } va_start(list, fmt); vsnprint(buf, sizeof(buf), fmt, list); va_end(list); val = nil; if(auth_rpc(rpc, "start", buf, strlen(buf)) == 0){ if((a = auth_attr(rpc)) != nil){ if((val = _strfindattr(a, attr)) != nil) val = strdup(val); _freeattr(a); } } auth_freerpc(rpc); close(afd); return val; } void freeup(UserPasswd *up) { memset(up->user, 0, strlen(up->user)); memset(up->passwd, 0, strlen(up->passwd)); free(up); } char* getidentity(void) { static char *identity; char *s; s = nil; for(;;){ if(getessid() == nil) break; if((s = factotumattr("user", "proto=pass service=wpa essid=%q", essid)) != nil) break; if((s = factotumattr("user", "proto=mschapv2 role=client service=wpa essid=%q", essid)) != nil) break; break; } if(s != nil){ free(identity); identity = s; } else if(identity == nil) identity = strdup("anonymous"); if(debug) fprint(2, "identity: %s\n", identity); return identity; } int factotumctl(char *fmt, ...) { va_list list; int fd, r, n; char *s; r = -1; if((fd = open("/mnt/factotum/ctl", OWRITE)) >= 0){ va_start(list, fmt); s = vsmprint(fmt, list); va_end(list); if(s != nil){ n = strlen(s); r = write(fd, s, n); memset(s, 0, n); free(s); } close(fd); } return r; } int setpmk(uchar pmk[PMKlen]) { if(getessid() == nil) return -1; return factotumctl("key proto=wpapsk role=client essid=%q !password=%.*H\n", essid, PMKlen, pmk); } int getptk(AuthGetkey *getkey, uchar smac[Eaddrlen], uchar amac[Eaddrlen], uchar snonce[Noncelen], uchar anonce[Noncelen], uchar ptk[PTKlen]) { uchar buf[2*Eaddrlen + 2*Noncelen], *p; AuthRpc *rpc; int afd, ret; char *s; ret = -1; s = nil; rpc = nil; if((afd = open("/mnt/factotum/rpc", ORDWR)) < 0) goto out; if((rpc = auth_allocrpc(afd)) == nil) goto out; if((s = getessid()) == nil) goto out; if((s = smprint("proto=wpapsk role=client essid=%q", s)) == nil) goto out; if((ret = auth_rpc(rpc, "start", s, strlen(s))) != ARok) goto out; p = buf; memmove(p, smac, Eaddrlen); p += Eaddrlen; memmove(p, amac, Eaddrlen); p += Eaddrlen; memmove(p, snonce, Noncelen); p += Noncelen; memmove(p, anonce, Noncelen); p += Noncelen; if((ret = auth_rpc(rpc, "write", buf, p - buf)) != ARok) goto out; if((ret = auth_rpc(rpc, "read", nil, 0)) != ARok) goto out; if(rpc->narg != PTKlen){ ret = -1; goto out; } memmove(ptk, rpc->arg, PTKlen); ret = 0; out: if(getkey != nil){ switch(ret){ case ARneedkey: case ARbadkey: (*getkey)(rpc->arg); break; } } free(s); if(afd >= 0) close(afd); if(rpc != nil) auth_freerpc(rpc); return ret; } int Hfmt(Fmt *f) { uchar *p, *e; p = va_arg(f->args, uchar*); e = p; if(f->prec >= 0) e += f->prec; for(; p != e; p++) if(fmtprint(f, "%.2x", *p) < 0) return -1; return 0; } void dumpkeydescr(Keydescr *kd) { static struct { int flag; char *name; } flags[] = { Fptk, "ptk", Fins, "ins", Fack, "ack", Fmic, "mic", Fsec, "sec", Ferr, "err", Freq, "req", Fenc, "enc", }; int i, f; f = kd->flags[0]<<8 | kd->flags[1]; fprint(2, "type=%.*H vers=%d flags=%.*H ( ", sizeof(kd->type), kd->type, kd->flags[1] & 7, sizeof(kd->flags), kd->flags); for(i=0; i<nelem(flags); i++) if(flags[i].flag & f) fprint(2, "%s ", flags[i].name); fprint(2, ") len=%.*H\nrepc=%.*H nonce=%.*H\neapoliv=%.*H rsc=%.*H id=%.*H mic=%.*H\n", sizeof(kd->keylen), kd->keylen, sizeof(kd->repc), kd->repc, sizeof(kd->nonce), kd->nonce, sizeof(kd->eapoliv), kd->eapoliv, sizeof(kd->rsc), kd->rsc, sizeof(kd->id), kd->id, sizeof(kd->mic), kd->mic); i = kd->datalen[0]<<8 | kd->datalen[1]; fprint(2, "data[%.4x]=%.*H\n", i, i, kd->data); } int rc4unwrap(uchar key[16], uchar iv[16], uchar *data, int len) { uchar seed[32]; RC4state rs; memmove(seed, iv, 16); memmove(seed+16, key, 16); setupRC4state(&rs, seed, sizeof(seed)); rc4skip(&rs, 256); rc4(&rs, data, len); return len; } int aesunwrap(uchar *key, int nkey, uchar *data, int len) { static uchar IV[8] = { 0xa6, 0xa6, 0xa6, 0xa6, 0xa6, 0xa6, 0xa6, 0xa6, }; uchar B[16], *R; AESstate s; uint t; int n; len -= 8; if(len < 16 || (len % 8) != 0) return -1; n = len/8; t = n*6; setupAESstate(&s, key, nkey, 0); memmove(B, data, 8); memmove(data, data+8, n*8); do { for(R = data + (n - 1)*8; R >= data; t--, R -= 8){ memmove(B+8, R, 8); B[7] ^= (t >> 0); B[6] ^= (t >> 8); B[5] ^= (t >> 16); B[4] ^= (t >> 24); aes_decrypt(s.dkey, s.rounds, B, B); memmove(R, B+8, 8); } } while(t > 0); if(memcmp(B, IV, 8) != 0) return -1; return n*8; } int calcmic(Keydescr *kd, uchar *msg, int msglen) { int vers; vers = kd->flags[1] & 7; memset(kd->mic, 0, MIClen); if(vers == 1){ uchar digest[MD5dlen]; hmac_md5(msg, msglen, ptk, 16, digest, nil); memmove(kd->mic, digest, MIClen); return 0; } if(vers == 2){ uchar digest[SHA1dlen]; hmac_sha1(msg, msglen, ptk, 16, digest, nil); memmove(kd->mic, digest, MIClen); return 0; } return -1; } int checkmic(Keydescr *kd, uchar *msg, int msglen) { uchar tmp[MIClen]; memmove(tmp, kd->mic, MIClen); if(calcmic(kd, msg, msglen) != 0) return -1; return memcmp(tmp, kd->mic, MIClen) != 0; } void fdwrite(Eapconn *conn, uchar *data, int len) { if(write(conn->fd, data, len) != len) sysfatal("write: %r"); } void etherwrite(Eapconn *conn, uchar *data, int len) { uchar *buf, *p; int n; if(debug) fprint(2, "\nreply(v%d,t%d) %E -> %E: ", conn->version, conn->type, conn->smac, conn->amac); n = 2*Eaddrlen + 2 + len; if(n < 60) n = 60; /* ETHERMINTU */ p = buf = emalloc(n); /* ethernet header */ memmove(p, conn->amac, Eaddrlen); p += Eaddrlen; memmove(p, conn->smac, Eaddrlen); p += Eaddrlen; *p++ = 0x88; *p++ = 0x8e; /* eapol data */ memmove(p, data, len); fdwrite(conn, buf, n); free(buf); } void eapwrite(Eapconn *conn, uchar *data, int len) { uchar *buf, *p; p = buf = emalloc(len + 4); /* eapol header */ *p++ = conn->version; *p++ = conn->type; *p++ = len >> 8; *p++ = len; /* eap data */ memmove(p, data, len); p += len; etherwrite(conn, buf, p - buf); free(buf); } void replykey(Eapconn *conn, int flags, Keydescr *kd, uchar *data, int datalen) { uchar buf[4096], *p = buf; /* eapol hader */ *p++ = conn->version; *p++ = conn->type; datalen += Keydescrlen; *p++ = datalen >> 8; *p++ = datalen; datalen -= Keydescrlen; /* key header */ memmove(p, kd, Keydescrlen); kd = (Keydescr*)p; kd->flags[0] = flags >> 8; kd->flags[1] = flags; kd->datalen[0] = datalen >> 8; kd->datalen[1] = datalen; /* key data */ p = kd->data; memmove(p, data, datalen); p += datalen; /* mic */ memset(kd->mic, 0, MIClen); if(flags & Fmic) calcmic(kd, buf, p - buf); etherwrite(conn, buf, p - buf); if(debug) dumpkeydescr(kd); } void eapresp(Eapconn *conn, int code, int id, uchar *data, int len) { uchar *buf, *p; len += 4; p = buf = emalloc(len); /* eap header */ *p++ = code; *p++ = id; *p++ = len >> 8; *p++ = len; memmove(p, data, len-4); (*conn->write)(conn, buf, len); free(buf); if(debug) fprint(2, "eapresp(code=%d, id=%d, data=%.*H)\n", code, id, len-4, data); } void tlsreader(TLStunn *tunn, Eapconn *conn) { enum { Tlshdrsz = 5, TLStunnhdrsz = 6, }; uchar *rec, *w, *p; int fd, n, css; fd = tunn->fd; rec = nil; css = 0; Reset: w = rec; w += TLStunnhdrsz; for(;;w += n){ if((p = realloc(rec, (w - rec) + Tlshdrsz)) == nil) break; w = p + (w - rec), rec = p; if(readn(fd, w, Tlshdrsz) != Tlshdrsz) break; n = w[3]<<8 | w[4]; if(n < 1) break; if((p = realloc(rec, (w - rec) + Tlshdrsz+n)) == nil) break; w = p + (w - rec), rec = p; if(readn(fd, w+Tlshdrsz, n) != n) break; n += Tlshdrsz; /* batch records that need to be send together */ if(!css){ /* Client Certificate */ if(w[0] == 22 && w[5] == 11) continue; /* Client Key Exchange */ if(w[0] == 22 && w[5] == 16) continue; /* Change Cipher Spec */ if(w[0] == 20){ css = 1; continue; } } /* do not forward alert, close connection */ if(w[0] == 21) break; /* check if we'r still the tunnel for this connection */ if(conn->tunn != tunn) break; /* flush records in encapsulation */ p = rec + TLStunnhdrsz; w += n; n = w - p; *(--p) = n; *(--p) = n >> 8; *(--p) = n >> 16; *(--p) = n >> 24; *(--p) = 0x80; /* flags: Length included */ *(--p) = tunn->tp; eapresp(conn, 2, tunn->id, p, w - p); goto Reset; } free(rec); } void ttlsclient(int); void peapclient(int); void eapreset(Eapconn *conn) { TLStunn *tunn; tunn = conn->tunn; if(tunn == nil) return; if(debug) fprint(2, "eapreset: kill client %d\n", tunn->clientpid); conn->tunn = nil; postnote(PNPROC, tunn->clientpid, "kill"); } int tlswrap(int fd, char *label) { TLSconn *tls; tls = emalloc(sizeof(TLSconn)); if(debug) tls->trace = print; if(label != nil){ /* tls client computes the 1024 bit MSK for us */ tls->sessionType = "ttls"; tls->sessionConst = label; tls->sessionKeylen = 128; tls->sessionKey = emalloc(tls->sessionKeylen); } fd = tlsClient(fd, tls); if(fd < 0) sysfatal("tlsClient: %r"); if(label != nil && tls->sessionKey != nil){ /* * PMK is derived from MSK by taking the first 256 bits. * we store the PMK into factotum with setpmk() associated * with the current essid. */ if(setpmk(tls->sessionKey) < 0) sysfatal("setpmk: %r"); /* destroy session key */ memset(tls->sessionKey, 0, tls->sessionKeylen); } free(tls->cert); /* TODO: check cert */ free(tls->sessionID); free(tls->sessionKey); free(tls); return fd; } void eapreq(Eapconn *conn, int code, int id, uchar *data, int datalen) { TLStunn *tunn; int tp, frag; char *user; if(debug) fprint(2, "eapreq(code=%d, id=%d, data=%.*H)\n", code, id, datalen, data); switch(code){ case 1: /* Request */ break; case 4: /* NAK */ case 3: /* Success */ eapreset(conn); if(code == 4 || debug) fprint(2, "%s: eap code %s\n", argv0, code == 3 ? "Success" : "NAK"); return; default: unhandled: if(debug) fprint(2, "unhandled: %.*H\n", datalen < 0 ? 0 : datalen, data); return; } if(datalen < 1) goto unhandled; tp = data[0]; switch(tp){ case 1: /* Identity */ user = getidentity(); datalen = 1+strlen(user); memmove(data+1, user, datalen-1); eapresp(conn, 2, id, data, datalen); return; case 2: fprint(2, "%s: eap error: %.*s\n", argv0, datalen-1, (char*)data+1); return; case 33: /* EAP Extensions (AVP) */ if(debug) fprint(2, "eap extension: %.*H\n", datalen, data); eapresp(conn, 2, id, data, datalen); return; case 26: /* MS-CHAP-V2 */ data++; datalen--; if(datalen < 1) break; /* OpCode */ switch(data[0]){ case 1: /* Challenge */ if(datalen > 4) { uchar cid, chal[16], resp[48]; char user[256+1]; int len; cid = data[1]; len = data[2]<<8 | data[3]; if(data[4] != sizeof(chal)) break; if(len > datalen || (5 + data[4]) > len) break; memmove(chal, data+5, sizeof(chal)); memset(user, 0, sizeof(user)); memset(resp, 0, sizeof(resp)); if(auth_respond(chal, sizeof(chal), user, sizeof(user), resp, sizeof(resp), nil, "proto=mschapv2 role=client service=wpa essid=%q", essid) < 0){ fprint(2, "%s: eap mschapv2: auth_respond: %r\n", argv0); break; } len = 5 + sizeof(resp) + 1 + strlen(user); data[0] = 2; /* OpCode - Response */ data[1] = cid; /* Identifier */ data[2] = len >> 8; data[3] = len; data[4] = sizeof(resp)+1; /* ValueSize */ memmove(data+5, resp, sizeof(resp)); data[5 + sizeof(resp)] = 0; /* flags */ strcpy((char*)&data[5 + sizeof(resp) + 1], user); *(--data) = tp, len++; eapresp(conn, 2, id, data, len); return; } break; case 3: /* Success */ case 4: /* Failure */ if(debug || data[0] == 4) fprint(2, "%s: eap mschapv2 %s: %.*s\n", argv0, data[0] == 3 ? "Success" : "Failure", datalen < 4 ? 0 : datalen-4, (char*)data+4); *(--data) = tp; eapresp(conn, 2, id, data, 2); return; } break; case 21: /* EAP-TTLS */ case 25: /* PEAP */ if(datalen < 2) break; datalen -= 2; data++; tunn = conn->tunn; if(*data & 0x20){ /* flags: start */ int p[2], pid; if(tunn != nil){ if(tunn->id == id && tunn->tp == tp) break; /* is retransmit, ignore */ eapreset(conn); } if(pipe(p) < 0) sysfatal("pipe: %r"); if((pid = fork()) == -1) sysfatal("fork: %r"); if(pid == 0){ close(p[0]); switch(tp){ case 21: ttlsclient(p[1]); break; case 25: peapclient(p[1]); break; } exits(nil); } close(p[1]); tunn = emalloc(sizeof(TLStunn)); tunn->tp = tp; tunn->id = id; tunn->fd = p[0]; tunn->clientpid = pid; conn->tunn = tunn; if((pid = rfork(RFPROC|RFMEM)) == -1) sysfatal("fork: %r"); if(pid == 0){ tunn->readerpid = getpid(); tlsreader(tunn, conn); if(conn->tunn == tunn) conn->tunn = nil; close(tunn->fd); free(tunn); exits(nil); } return; } if(tunn == nil) break; if(id <= tunn->id || tunn->tp != tp) break; tunn->id = id; frag = *data & 0x40; /* flags: more fragments */ if(*data & 0x80){ /* flags: length included */ datalen -= 4; data += 4; } data++; if(datalen > 0) write(tunn->fd, data, datalen); if(frag || (tp == 25 && data[0] == 20)){ /* ack change cipher spec */ data -= 2; data[0] = tp; data[1] = 0; eapresp(conn, 2, id, data, 2); } return; } goto unhandled; } int avp(uchar *p, int n, int code, void *val, int len, int pad) { pad = 8 + ((len + pad) & ~pad); /* header + data + data pad */ assert(((pad + 3) & ~3) <= n); p[0] = code >> 24; p[1] = code >> 16; p[2] = code >> 8; p[3] = code; p[4] = 2; p[5] = pad >> 16; p[6] = pad >> 8; p[7] = pad; memmove(p+8, val, len); len += 8; pad = (pad + 3) & ~3; /* packet padding */ memset(p+len, 0, pad - len); return pad; } enum { /* Avp Code */ AvpUserName = 1, AvpUserPass = 2, AvpChapPass = 3, AvpChapChal = 60, }; void ttlsclient(int fd) { uchar buf[4096]; UserPasswd *up; int n; fd = tlswrap(fd, "ttls keying material"); if((up = auth_getuserpasswd(nil, "proto=pass service=wpa essid=%q", essid)) == nil) sysfatal("auth_getuserpasswd: %r"); n = avp(buf, sizeof(buf), AvpUserName, up->user, strlen(up->user), 0); n += avp(buf+n, sizeof(buf)-n, AvpUserPass, up->passwd, strlen(up->passwd), 15); freeup(up); write(fd, buf, n); memset(buf, 0, n); } void peapwrite(Eapconn *conn, uchar *data, int len) { assert(len >= 4); fdwrite(conn, data + 4, len - 4); } void peapclient(int fd) { static Eapconn conn; uchar buf[4096], *p; int n, id, code; conn.fd = fd = tlswrap(fd, "client EAP encryption"); while((n = read(fd, p = buf, sizeof(buf))) > 0){ if(n > 4 && (p[2] << 8 | p[3]) == n && p[4] == 33){ code = p[0]; id = p[1]; p += 4, n -= 4; conn.write = fdwrite; } else { code = 1; id = 0; conn.write = peapwrite; } eapreq(&conn, code, id, p, n); } } void usage(void) { fprint(2, "%s: [-dp12] [-s essid] dev\n", argv0); exits("usage"); } void main(int argc, char *argv[]) { uchar mac[Eaddrlen], buf[4096], snonce[Noncelen], anonce[Noncelen]; static uchar brsne[258]; static Eapconn conn; char addr[128]; uchar *rsne; int rsnelen; int n, try; quotefmtinstall(); fmtinstall('H', Hfmt); fmtinstall('E', eipfmt); rsne = nil; rsnelen = -1; peercipher = nil; groupcipher = nil; ARGBEGIN { case 'd': debug = 1; break; case 'p': prompt = 1; break; case 's': strncpy(essid, EARGF(usage()), 32); break; case '1': rsne = wpaie; rsnelen = sizeof(wpaie); peercipher = &tkip; groupcipher = &tkip; break; case '2': rsne = rsnie; rsnelen = sizeof(rsnie); peercipher = &ccmp; groupcipher = &ccmp; break; default: usage(); } ARGEND; if(*argv != nil) dev = *argv++; if(*argv != nil || dev == nil) usage(); if(myetheraddr(mac, dev) < 0) sysfatal("can't get mac address: %r"); snprint(addr, sizeof(addr), "%s!0x888e", dev); if((fd = dial(addr, nil, devdir, &cfd)) < 0) sysfatal("dial: %r"); if(essid[0] != 0){ if(fprint(cfd, "essid %q", essid) < 0) sysfatal("write essid: %r"); } else { getessid(); if(essid[0] == 0) sysfatal("no essid set"); } Connect: /* bss scan might not be complete yet, so check for 10 seconds. */ for(try = 10; (background || try >= 0) && !connected(0); try--) sleep(1000); ispsk = 1; if(rsnelen <= 0 || rsne == brsne){ rsne = brsne; rsnelen = buildrsne(rsne); } if(rsnelen <= 0){ /* default is WPA */ rsne = wpaie; rsnelen = sizeof(wpaie); peercipher = &tkip; groupcipher = &tkip; } if(debug) fprint(2, "rsne: %.*H\n", rsnelen, rsne); /* * we use write() instead of fprint so the message gets written * at once and not chunked up on fprint buffer. */ n = sprint((char*)buf, "auth %.*H", rsnelen, rsne); if(write(cfd, buf, n) != n) sysfatal("write auth: %r"); conn.fd = fd; conn.write = eapwrite; conn.type = 1; /* Start */ conn.version = 1; memmove(conn.smac, mac, Eaddrlen); getbssid(conn.amac); if(prompt){ prompt = 0; if(ispsk){ /* dummy to for factotum keyprompt */ genrandom(anonce, sizeof(anonce)); genrandom(snonce, sizeof(snonce)); getptk(auth_getkey, conn.smac, conn.amac, snonce, anonce, ptk); } else { UserPasswd *up; if((up = auth_getuserpasswd(auth_getkey, "proto=pass service=wpa essid=%q", essid)) != nil){ factotumctl("key proto=mschapv2 role=client service=wpa essid=%q user=%q !password=%q\n", essid, up->user, up->passwd); freeup(up); } } } if(!background){ background = 1; if(!debug){ switch(rfork(RFNOTEG|RFREND|RFPROC|RFNOWAIT)){ default: exits(nil); case -1: sysfatal("fork: %r"); return; case 0: break; } } } /* wait for getting associated before sending start message */ for(try = 10; (background || try >= 0) && !connected(1); try--) sleep(500); if(getbssid(conn.amac) == 0) eapwrite(&conn, nil, 0); lastrepc = 0ULL; for(;;){ uchar *p, *e, *m; int proto, flags, vers, datalen; uvlong repc, rsc, tsc; Keydescr *kd; if((n = read(fd, buf, sizeof(buf))) < 0) sysfatal("read: %r"); if(n == 0){ if(debug) fprint(2, "got deassociation\n"); eapreset(&conn); goto Connect; } p = buf; e = buf+n; if(n < 2*Eaddrlen + 2) continue; memmove(conn.smac, p, Eaddrlen); p += Eaddrlen; memmove(conn.amac, p, Eaddrlen); p += Eaddrlen; proto = p[0]<<8 | p[1]; p += 2; if(proto != 0x888e || memcmp(conn.smac, mac, Eaddrlen) != 0) continue; m = p; n = e - p; if(n < 4) continue; conn.version = p[0]; if(conn.version != 0x01 && conn.version != 0x02) continue; conn.type = p[1]; n = p[2]<<8 | p[3]; p += 4; if(p+n > e) continue; e = p + n; if(debug) fprint(2, "\nrecv(v%d,t%d) %E <- %E: ", conn.version, conn.type, conn.smac, conn.amac); if(conn.type == 0x00 && !ispsk){ uchar code, id; if(n < 4) continue; code = p[0]; id = p[1]; n = p[3] | p[2]<<8; if(n < 4 || p + n > e) continue; p += 4, n -= 4; eapreq(&conn, code, id, p, n); continue; } if(conn.type != 0x03) continue; if(n < Keydescrlen){ if(debug) fprint(2, "bad kd size\n"); continue; } kd = (Keydescr*)p; if(debug) dumpkeydescr(kd); if(kd->type[0] != 0xFE && kd->type[0] != 0x02) continue; vers = kd->flags[1] & 7; flags = kd->flags[0]<<8 | kd->flags[1]; datalen = kd->datalen[0]<<8 | kd->datalen[1]; if(kd->data + datalen > e) continue; if((flags & Fmic) == 0){ if((flags & (Fptk|Fack)) != (Fptk|Fack)) continue; memmove(anonce, kd->nonce, sizeof(anonce)); genrandom(snonce, sizeof(snonce)); if(getptk(nil, conn.smac, conn.amac, snonce, anonce, ptk) != 0){ if(debug) fprint(2, "getptk: %r\n"); continue; } /* ack key exchange with mic */ memset(kd->rsc, 0, sizeof(kd->rsc)); memset(kd->eapoliv, 0, sizeof(kd->eapoliv)); memmove(kd->nonce, snonce, sizeof(kd->nonce)); replykey(&conn, (flags & ~(Fack|Fins)) | Fmic, kd, rsne, rsnelen); } else { uchar gtk[GTKlen]; int gtklen, gtkkid; if(checkmic(kd, m, e - m) != 0){ if(debug) fprint(2, "bad mic\n"); continue; } repc = (uvlong)kd->repc[7] | (uvlong)kd->repc[6]<<8 | (uvlong)kd->repc[5]<<16 | (uvlong)kd->repc[4]<<24 | (uvlong)kd->repc[3]<<32 | (uvlong)kd->repc[2]<<40 | (uvlong)kd->repc[1]<<48 | (uvlong)kd->repc[0]<<56; if(repc <= lastrepc){ if(debug) fprint(2, "bad repc: %llux <= %llux\n", repc, lastrepc); continue; } lastrepc = repc; rsc = (uvlong)kd->rsc[0] | (uvlong)kd->rsc[1]<<8 | (uvlong)kd->rsc[2]<<16 | (uvlong)kd->rsc[3]<<24 | (uvlong)kd->rsc[4]<<32 | (uvlong)kd->rsc[5]<<40; if(datalen > 0 && (flags & Fenc) != 0){ if(vers == 1) datalen = rc4unwrap(ptk+16, kd->eapoliv, kd->data, datalen); else datalen = aesunwrap(ptk+16, 16, kd->data, datalen); if(datalen <= 0){ if(debug) fprint(2, "bad keywrap\n"); continue; } if(debug) fprint(2, "unwraped keydata[%.4x]=%.*H\n", datalen, datalen, kd->data); } gtklen = 0; gtkkid = -1; if(kd->type[0] != 0xFE || (flags & (Fptk|Fack)) == (Fptk|Fack)){ uchar *p, *x, *e; p = kd->data; e = p + datalen; for(; p+2 <= e; p = x){ if((x = p+2+p[1]) > e) break; if(debug) fprint(2, "ie=%.2x data[%.2x]=%.*H\n", p[0], p[1], p[1], p+2); if(p[0] == 0x30){ /* RSN */ } if(p[0] == 0xDD){ /* WPA */ static uchar oui[] = { 0x00, 0x0f, 0xac, 0x01, }; if(p+2+sizeof(oui) > x || memcmp(p+2, oui, sizeof(oui)) != 0) continue; if((flags & Fenc) == 0) continue; /* ignore gorup key if unencrypted */ gtklen = x - (p + 8); if(gtklen <= 0) continue; if(gtklen > sizeof(gtk)) gtklen = sizeof(gtk); memmove(gtk, p + 8, gtklen); gtkkid = p[6] & 3; } } } if((flags & (Fptk|Fack)) == (Fptk|Fack)){ if(vers != 1) /* in WPA2, RSC is for group key only */ tsc = 0LL; else { tsc = rsc; rsc = 0LL; } /* install pairwise receive key */ if(fprint(cfd, "rxkey %.*H %s:%.*H@%llux", Eaddrlen, conn.amac, peercipher->name, peercipher->keylen, ptk+32, tsc) < 0) sysfatal("write rxkey: %r"); tsc = 0LL; memset(kd->rsc, 0, sizeof(kd->rsc)); memset(kd->eapoliv, 0, sizeof(kd->eapoliv)); memset(kd->nonce, 0, sizeof(kd->nonce)); replykey(&conn, flags & ~(Fack|Fenc|Fins), kd, nil, 0); sleep(100); /* install pairwise transmit key */ if(fprint(cfd, "txkey %.*H %s:%.*H@%llux", Eaddrlen, conn.amac, peercipher->name, peercipher->keylen, ptk+32, tsc) < 0) sysfatal("write txkey: %r"); } else if((flags & (Fptk|Fsec|Fack)) == (Fsec|Fack)){ if(kd->type[0] == 0xFE){ /* WPA always RC4 encrypts the GTK, even tho the flag isnt set */ if((flags & Fenc) == 0) datalen = rc4unwrap(ptk+16, kd->eapoliv, kd->data, datalen); gtklen = datalen; if(gtklen > sizeof(gtk)) gtklen = sizeof(gtk); memmove(gtk, kd->data, gtklen); gtkkid = (flags >> 4) & 3; } memset(kd->rsc, 0, sizeof(kd->rsc)); memset(kd->eapoliv, 0, sizeof(kd->eapoliv)); memset(kd->nonce, 0, sizeof(kd->nonce)); replykey(&conn, flags & ~(Fenc|Fack), kd, nil, 0); } else continue; if(gtklen >= groupcipher->keylen && gtkkid != -1){ /* install group key */ if(fprint(cfd, "rxkey%d %.*H %s:%.*H@%llux", gtkkid, Eaddrlen, conn.amac, groupcipher->name, groupcipher->keylen, gtk, rsc) < 0) sysfatal("write rxkey%d: %r", gtkkid); } } } }