From 93c6b636680a2069c4a60ac98ca983418fd54922 From: kemal Date: Mon, 14 Jun 2021 20:21:53 +0000 Subject: [PATCH] libsec: various changes to tls 1. add the curve x25519 to tls, both client and server. it's more faster, immune to timing attacks by design, does not require verifying if the public key is valid, etc etc. server-side has to check if the client supports the curve, so a new function has been introduced to parse the client's extensions. 2. reject weak dhe primes that can be easily cracked with the number field sieve algorithm. this avoids attacks like logjam. 3. stop putting unix time to the first 4 bytes of client/ server random. it can allow fingerprinting, tls 1.3 doesn't recommend it any more and there was a draft to deprecate this behaviour earlier.[1] 4. simply prf code, remove useless cipher enums. [1] https://datatracker.ietf.org/doc/html/draft-mathewson-no-gmtunixtime-00 --- diff a73a964e51247ed169d322c725a3a18859f109a3 93c6b636680a2069c4a60ac98ca983418fd54922 --- a/sys/src/libsec/port/tlshand.c Mon Jun 14 03:00:37 2021 +++ b/sys/src/libsec/port/tlshand.c Mon Jun 14 23:21:53 2021 @@ -66,18 +66,20 @@ int psklen; int clientVers; // version in ClientHello uchar sec[MasterSecretSize]; // master secret - uchar crandom[RandomSize]; // client random uchar srandom[RandomSize]; // server random + uchar crandom[RandomSize]; // client random + Namedcurve *nc; // selected curve for ECDHE // diffie hellman state DHstate dh; struct { ECdomain dom; ECpriv Q; } ec; + uchar X[32]; // byte generation and handshake checksum - void (*prf)(uchar*, int, uchar*, int, char*, uchar*, int, uchar*, int); + void (*prf)(uchar*, int, uchar*, int, char*, uchar*, int); void (*setFinished)(TlsSec*, HandshakeHash, uchar*, int); int nfin; }; @@ -107,7 +109,7 @@ int tag; union { struct { - int version; + int version; uchar random[RandomSize]; Bytes* sid; Ints* ciphers; @@ -115,7 +117,7 @@ Bytes* extensions; } clientHello; struct { - int version; + int version; uchar random[RandomSize]; Bytes* sid; int cipher; @@ -214,79 +216,36 @@ // cipher suites enum { - TLS_NULL_WITH_NULL_NULL = 0x0000, - TLS_RSA_WITH_NULL_MD5 = 0x0001, - TLS_RSA_WITH_NULL_SHA = 0x0002, - TLS_RSA_EXPORT_WITH_RC4_40_MD5 = 0x0003, - TLS_RSA_WITH_RC4_128_MD5 = 0x0004, - TLS_RSA_WITH_RC4_128_SHA = 0x0005, - TLS_RSA_EXPORT_WITH_RC2_CBC_40_MD5 = 0X0006, - TLS_RSA_WITH_IDEA_CBC_SHA = 0X0007, - TLS_RSA_EXPORT_WITH_DES40_CBC_SHA = 0X0008, - TLS_RSA_WITH_DES_CBC_SHA = 0X0009, TLS_RSA_WITH_3DES_EDE_CBC_SHA = 0X000A, - TLS_DH_DSS_EXPORT_WITH_DES40_CBC_SHA = 0X000B, - TLS_DH_DSS_WITH_DES_CBC_SHA = 0X000C, - TLS_DH_DSS_WITH_3DES_EDE_CBC_SHA = 0X000D, - TLS_DH_RSA_EXPORT_WITH_DES40_CBC_SHA = 0X000E, - TLS_DH_RSA_WITH_DES_CBC_SHA = 0X000F, - TLS_DH_RSA_WITH_3DES_EDE_CBC_SHA = 0X0010, - TLS_DHE_DSS_EXPORT_WITH_DES40_CBC_SHA = 0X0011, - TLS_DHE_DSS_WITH_DES_CBC_SHA = 0X0012, - TLS_DHE_DSS_WITH_3DES_EDE_CBC_SHA = 0X0013, // ZZZ must be implemented for tls1.0 compliance - TLS_DHE_RSA_EXPORT_WITH_DES40_CBC_SHA = 0X0014, - TLS_DHE_RSA_WITH_DES_CBC_SHA = 0X0015, TLS_DHE_RSA_WITH_3DES_EDE_CBC_SHA = 0X0016, - TLS_DH_anon_EXPORT_WITH_RC4_40_MD5 = 0x0017, - TLS_DH_anon_WITH_RC4_128_MD5 = 0x0018, - TLS_DH_anon_EXPORT_WITH_DES40_CBC_SHA = 0X0019, - TLS_DH_anon_WITH_DES_CBC_SHA = 0X001A, - TLS_DH_anon_WITH_3DES_EDE_CBC_SHA = 0X001B, - TLS_RSA_WITH_AES_128_CBC_SHA = 0X002F, // aes, aka rijndael with 128 bit blocks - TLS_DH_DSS_WITH_AES_128_CBC_SHA = 0X0030, - TLS_DH_RSA_WITH_AES_128_CBC_SHA = 0X0031, - TLS_DHE_DSS_WITH_AES_128_CBC_SHA = 0X0032, + + TLS_RSA_WITH_AES_128_CBC_SHA = 0X002F, TLS_DHE_RSA_WITH_AES_128_CBC_SHA = 0X0033, - TLS_DH_anon_WITH_AES_128_CBC_SHA = 0X0034, TLS_RSA_WITH_AES_256_CBC_SHA = 0X0035, - TLS_DH_DSS_WITH_AES_256_CBC_SHA = 0X0036, - TLS_DH_RSA_WITH_AES_256_CBC_SHA = 0X0037, - TLS_DHE_DSS_WITH_AES_256_CBC_SHA = 0X0038, TLS_DHE_RSA_WITH_AES_256_CBC_SHA = 0X0039, - TLS_DH_anon_WITH_AES_256_CBC_SHA = 0X003A, TLS_RSA_WITH_AES_128_CBC_SHA256 = 0X003C, TLS_RSA_WITH_AES_256_CBC_SHA256 = 0X003D, TLS_DHE_RSA_WITH_AES_128_CBC_SHA256 = 0X0067, TLS_RSA_WITH_AES_128_GCM_SHA256 = 0x009C, - TLS_RSA_WITH_AES_256_GCM_SHA384 = 0x009D, TLS_DHE_RSA_WITH_AES_128_GCM_SHA256 = 0x009E, - TLS_DHE_RSA_WITH_AES_256_GCM_SHA384 = 0x009F, - TLS_DH_RSA_WITH_AES_128_GCM_SHA256 = 0x00A0, - TLS_DH_RSA_WITH_AES_256_GCM_SHA384 = 0x00A1, - TLS_DHE_DSS_WITH_AES_128_GCM_SHA256 = 0x00A2, - TLS_DHE_DSS_WITH_AES_256_GCM_SHA384 = 0x00A3, - TLS_DH_DSS_WITH_AES_128_GCM_SHA256 = 0x00A4, - TLS_DH_DSS_WITH_AES_256_GCM_SHA384 = 0x00A5, - TLS_DH_anon_WITH_AES_128_GCM_SHA256 = 0x00A6, - TLS_DH_anon_WITH_AES_256_GCM_SHA384 = 0x00A7, - - TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 = 0xC02B, - TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 = 0xC02F, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA = 0xC013, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA = 0xC014, - TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256 = 0xC027, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256 = 0xC023, + TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256 = 0xC027, - TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305 = 0xCCA8, - TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305 = 0xCCA9, - TLS_DHE_RSA_WITH_CHACHA20_POLY1305 = 0xCCAA, + TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 = 0xC02B, + TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 = 0xC02F, GOOGLE_ECDHE_RSA_WITH_CHACHA20_POLY1305 = 0xCC13, GOOGLE_ECDHE_ECDSA_WITH_CHACHA20_POLY1305 = 0xCC14, GOOGLE_DHE_RSA_WITH_CHACHA20_POLY1305 = 0xCC15, + TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305 = 0xCCA8, + TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305 = 0xCCA9, + TLS_DHE_RSA_WITH_CHACHA20_POLY1305 = 0xCCAA, + TLS_PSK_WITH_CHACHA20_POLY1305 = 0xCCAB, TLS_PSK_WITH_AES_128_CBC_SHA256 = 0x00AE, TLS_PSK_WITH_AES_128_CBC_SHA = 0x008C, @@ -300,6 +259,20 @@ CompressionMax }; + +// curves +enum { + X25519 = 0x001d, +}; + +// extensions +enum { + Extsni = 0x0000, + Extec = 0x000a, + Extecp = 0x000b, + Extsigalgs = 0x000d, +}; + static Algs cipherAlgs[] = { // ECDHE-ECDSA {"ccpoly96_aead", "clear", 2*(32+12), TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305}, @@ -343,6 +316,7 @@ }; static Namedcurve namedcurves[] = { + X25519, nil, 0x0017, secp256r1, 0x0018, secp384r1, }; @@ -402,7 +376,7 @@ static int isECDSA(int tlsid); static int setAlgs(TlsConnection *c, int a); -static int okCipher(Ints *cv, int ispsk); +static int okCipher(Ints *cv, int ispsk, int canec); static int okCompression(Bytes *cv); static int initCiphers(void); static Ints* makeciphers(int ispsk); @@ -413,7 +387,7 @@ static void tlsSecInits(TlsSec *sec, int cvers, uchar *crandom); static int tlsSecRSAs(TlsSec *sec, Bytes *epm); -static Bytes* tlsSecECDHEs1(TlsSec *sec, Namedcurve *nc); +static Bytes* tlsSecECDHEs1(TlsSec *sec); static int tlsSecECDHEs2(TlsSec *sec, Bytes *Yc); static void tlsSecInitc(TlsSec *sec, int cvers); static Bytes* tlsSecRSAc(TlsSec *sec, uchar *cert, int ncert); @@ -454,6 +428,7 @@ { char buf[8]; char dname[64]; + uchar seed[2*RandomSize]; int n, data, ctl, hand; TlsConnection *tls; @@ -498,13 +473,15 @@ conn->sessionID = nil; if(conn->sessionKey != nil && conn->sessionType != nil - && strcmp(conn->sessionType, "ttls") == 0) + && strcmp(conn->sessionType, "ttls") == 0){ + memmove(seed, tls->sec->crandom, RandomSize); + memmove(seed+RandomSize, tls->sec->srandom, RandomSize); tls->sec->prf( conn->sessionKey, conn->sessionKeylen, tls->sec->sec, MasterSecretSize, conn->sessionConst, - tls->sec->crandom, RandomSize, - tls->sec->srandom, RandomSize); + seed, sizeof(seed)); + } tlsConnectionFree(tls); close(fd); return data; @@ -526,7 +503,7 @@ b = erealloc(b, m + 2+2+2+1+2+n); p = b + m; - put16(p, 0), p += 2; /* Type: server_name */ + put16(p, Extsni), p += 2; /* Type: server_name */ put16(p, 2+1+2+n), p += 2; /* Length */ put16(p, 1+2+n), p += 2; /* Server Name list length */ *p++ = 0; /* Server Name Type: host_name */ @@ -535,26 +512,26 @@ p += n; } - // ECDHE + // Elliptic Curves (also called Supported Groups) if(ProtocolVersion >= TLS10Version){ m = p - b; b = erealloc(b, m + 2+2+2+nelem(namedcurves)*2 + 2+2+1+nelem(pointformats)); p = b + m; n = nelem(namedcurves); - put16(p, 0x000a), p += 2; /* Type: elliptic_curves */ + put16(p, Extec), p += 2; /* Type: elliptic_curves / supported_groups */ put16(p, (n+1)*2), p += 2; /* Length */ put16(p, n*2), p += 2; /* Elliptic Curves Length */ - for(i=0; i < n; i++){ /* Elliptic curves */ + for(i=0; i < n; i++){ /* Elliptic Curves */ put16(p, namedcurves[i].tlsid); p += 2; } n = nelem(pointformats); - put16(p, 0x000b), p += 2; /* Type: ec_point_formats */ + put16(p, Extecp), p += 2; /* Type: ec_point_formats */ put16(p, n+1), p += 2; /* Length */ *p++ = n; /* EC point formats Length */ - for(i=0; i < n; i++) /* Elliptic curves point formats */ + for(i=0; i < n; i++) /* EC point formats */ *p++ = pointformats[i]; } @@ -566,7 +543,7 @@ b = erealloc(b, m + 2+2+2+n*2); p = b + m; - put16(p, 0x000d), p += 2; + put16(p, Extsigalgs), p += 2; put16(p, n*2 + 2), p += 2; put16(p, n*2), p += 2; for(i=0; i < n; i++){ @@ -586,6 +563,7 @@ { char buf[8]; char dname[64]; + uchar seed[2*RandomSize]; int n, data, ctl, hand; TlsConnection *tls; uchar *ext; @@ -641,13 +619,15 @@ conn->sessionID = nil; if(conn->sessionKey != nil && conn->sessionType != nil - && strcmp(conn->sessionType, "ttls") == 0) + && strcmp(conn->sessionType, "ttls") == 0){ + memmove(seed, tls->sec->crandom, RandomSize); + memmove(seed+RandomSize, tls->sec->srandom, RandomSize); tls->sec->prf( conn->sessionKey, conn->sessionKeylen, tls->sec->sec, MasterSecretSize, conn->sessionConst, - tls->sec->crandom, RandomSize, - tls->sec->srandom, RandomSize); + seed, sizeof(seed)); + } tlsConnectionFree(tls); close(fd); return data; @@ -665,6 +645,53 @@ return i; } +static Bytes * +tlsServerExtensions(TlsConnection *c, Bytes *ext) +{ + uchar *p, *e; + int i, j, n; + + p = ext->data; + e = p+ext->len; + while(p < e){ + if(e-p < 2) + goto Short; + switch(get16(p)){ + case Extec: + p += 2; + n = get16(p); + if(e-p < n || n < 2) + goto Short; + p += 2; + n = get16(p); + p += 2; + if(e-p < n || n & 1 || n == 0) + goto Short; + for(i = 0; i < nelem(namedcurves) && c->sec->nc == nil; i++) + for(j = 0; j < n; j += 2) + if(namedcurves[i].tlsid == get16(p+j)){ + c->sec->nc = &namedcurves[i]; + break; + } + p += n; + break; + default: + p += 2; + n = get16(p); + p += 2; + if(e-p < n) + goto Short; + p += n; + break; + } + } + // we do not send any extensions yet + return nil; +Short: + tlsError(c, EDecodeError, "clienthello extensions has invalid length"); + return nil; +} + static TlsConnection * tlsServer2(int ctl, int hand, uchar *cert, int certlen, @@ -674,6 +701,7 @@ int cipher, compressor, numcerts, i; TlsConnection *c; Msg m; + Bytes *ext; if(trace) trace("tlsServer2\n"); @@ -708,19 +736,6 @@ tlsError(c, EInappropriateFallback, "inappropriate fallback"); goto Err; } - cipher = okCipher(m.u.clientHello.ciphers, psklen > 0); - if(cipher < 0 || !setAlgs(c, cipher)) { - tlsError(c, EHandshakeFailure, "no matching cipher suite"); - goto Err; - } - compressor = okCompression(m.u.clientHello.compressors); - if(compressor < 0) { - tlsError(c, EHandshakeFailure, "no matching compressor"); - goto Err; - } - if(trace) - trace(" cipher %x, compressor %x\n", cipher, compressor); - tlsSecInits(c->sec, m.u.clientHello.version, m.u.clientHello.random); tlsSecVers(c->sec, c->version); if(psklen > 0){ @@ -740,6 +755,21 @@ goto Err; } } + ext = tlsServerExtensions(c, m.u.clientHello.extensions); + if(c->erred) + goto Err; + cipher = okCipher(m.u.clientHello.ciphers, psklen > 0, c->sec->nc != nil); + if(cipher < 0 || !setAlgs(c, cipher)) { + tlsError(c, EHandshakeFailure, "no matching cipher suite"); + goto Err; + } + compressor = okCompression(m.u.clientHello.compressors); + if(compressor < 0) { + tlsError(c, EHandshakeFailure, "no matching compressor"); + goto Err; + } + if(trace) + trace(" cipher %x, compressor %x\n", cipher, compressor); msgClear(&m); m.tag = HServerHello; @@ -748,6 +778,7 @@ m.u.serverHello.cipher = cipher; m.u.serverHello.compressor = compressor; m.u.serverHello.sid = makebytes(nil, 0); + m.u.serverHello.extensions = ext; if(!msgSend(c, &m, AQueue)) goto Err; @@ -764,11 +795,9 @@ } if(isECDHE(cipher)){ - Namedcurve *nc = &namedcurves[0]; /* secp256r1 */ - m.tag = HServerKeyExchange; - m.u.serverKeyExchange.curve = nc->tlsid; - m.u.serverKeyExchange.dh_parameters = tlsSecECDHEs1(c->sec, nc); + m.u.serverKeyExchange.curve = c->sec->nc->tlsid; + m.u.serverKeyExchange.dh_parameters = tlsSecECDHEs1(c->sec); if(m.u.serverKeyExchange.dh_parameters == nil){ tlsError(c, EInternalError, "can't set DH parameters"); goto Err; @@ -889,7 +918,9 @@ if(p == nil || g == nil || Ys == nil) return nil; - + // reject dh primes that is susceptible to logjam + if(p->len <= 1024/8) + return nil; Yc = nil; P = bytestomp(p); G = bytestomp(g); @@ -922,47 +953,55 @@ { ECdomain *dom = &sec->ec.dom; ECpriv *Q = &sec->ec.Q; - Namedcurve *nc; ECpub *pub; ECpoint K; + Namedcurve *nc; Bytes *Yc; + Bytes *Z; int n; if(Ys == nil) return nil; - for(nc = namedcurves; nc != &namedcurves[nelem(namedcurves)]; nc++) - if(nc->tlsid == curve) - goto Found; - return nil; - -Found: - ecdominit(dom, nc->init); - pub = ecdecodepub(dom, Ys->data, Ys->len); - if(pub == nil) - return nil; - memset(Q, 0, sizeof(*Q)); - Q->x = mpnew(0); - Q->y = mpnew(0); - Q->d = mpnew(0); - - memset(&K, 0, sizeof(K)); - K.x = mpnew(0); - K.y = mpnew(0); - - ecgen(dom, Q); - ecmul(dom, pub, Q->d, &K); - - n = (mpsignif(dom->p)+7)/8; - setMasterSecret(sec, mptobytes(K.x, n)); - Yc = newbytes(1 + 2*n); - Yc->len = ecencodepub(dom, Q, Yc->data, Yc->len); + if(curve == X25519){ + if(Ys->len != 32) + return nil; + Yc = newbytes(32); + curve25519_dh_new(sec->X, Yc->data); + Z = newbytes(32); + curve25519_dh_finish(sec->X, Ys->data, Z->data); + setMasterSecret(sec, Z); + }else{ + for(nc = namedcurves; nc->tlsid != curve; nc++) + if(nc == &namedcurves[nelem(namedcurves)]) + return nil; + ecdominit(dom, nc->init); + pub = ecdecodepub(dom, Ys->data, Ys->len); + if(pub == nil) + return nil; - mpfree(K.x); - mpfree(K.y); + memset(Q, 0, sizeof(*Q)); + Q->x = mpnew(0); + Q->y = mpnew(0); + Q->d = mpnew(0); + + memset(&K, 0, sizeof(K)); + K.x = mpnew(0); + K.y = mpnew(0); + + ecgen(dom, Q); + ecmul(dom, pub, Q->d, &K); + + n = (mpsignif(dom->p)+7)/8; + setMasterSecret(sec, mptobytes(K.x, n)); + Yc = newbytes(1 + 2*n); + Yc->len = ecencodepub(dom, Q, Yc->data, Yc->len); - ecpubfree(pub); + mpfree(K.x); + mpfree(K.y); + ecpubfree(pub); + } return Yc; } @@ -1045,7 +1084,6 @@ tlsError(c, EIllegalParameter, "invalid compression"); goto Err; } - dhx = isDHE(cipher) || isECDHE(cipher); if(!msgRecv(c, &m)) goto Err; @@ -2136,13 +2174,17 @@ } static int -okCipher(Ints *cv, int ispsk) +okCipher(Ints *cv, int ispsk, int canec) { int i, c; for(i = 0; i < nelem(cipherAlgs); i++) { c = cipherAlgs[i].tlsid; - if(!cipherAlgs[i].ok || isECDSA(c) || isDHE(c) || isPSK(c) != ispsk) + if(!cipherAlgs[i].ok || isECDSA(c) || isDHE(c)) + continue; + if(isPSK(c) != ispsk) + continue; + if(isECDHE(c) && !canec) continue; if(lookupid(cv, c) >= 0) return c; @@ -2313,114 +2355,55 @@ } static void -tlsPmd5(uchar *buf, int nbuf, uchar *key, int nkey, uchar *label, int nlabel, uchar *seed0, int nseed0, uchar *seed1, int nseed1) -{ - uchar ai[MD5dlen], tmp[MD5dlen]; - int i, n; - MD5state *s; - - // generate a1 - s = hmac_md5(label, nlabel, key, nkey, nil, nil); - s = hmac_md5(seed0, nseed0, key, nkey, nil, s); - hmac_md5(seed1, nseed1, key, nkey, ai, s); - - while(nbuf > 0) { - s = hmac_md5(ai, MD5dlen, key, nkey, nil, nil); - s = hmac_md5(label, nlabel, key, nkey, nil, s); - s = hmac_md5(seed0, nseed0, key, nkey, nil, s); - hmac_md5(seed1, nseed1, key, nkey, tmp, s); - n = MD5dlen; - if(n > nbuf) - n = nbuf; - for(i = 0; i < n; i++) - buf[i] ^= tmp[i]; - buf += n; - nbuf -= n; - hmac_md5(ai, MD5dlen, key, nkey, tmp, nil); - memmove(ai, tmp, MD5dlen); - } -} - -static void -tlsPsha1(uchar *buf, int nbuf, uchar *key, int nkey, uchar *label, int nlabel, uchar *seed0, int nseed0, uchar *seed1, int nseed1) -{ - uchar ai[SHA1dlen], tmp[SHA1dlen]; - int i, n; - SHAstate *s; - - // generate a1 - s = hmac_sha1(label, nlabel, key, nkey, nil, nil); - s = hmac_sha1(seed0, nseed0, key, nkey, nil, s); - hmac_sha1(seed1, nseed1, key, nkey, ai, s); - - while(nbuf > 0) { - s = hmac_sha1(ai, SHA1dlen, key, nkey, nil, nil); - s = hmac_sha1(label, nlabel, key, nkey, nil, s); - s = hmac_sha1(seed0, nseed0, key, nkey, nil, s); - hmac_sha1(seed1, nseed1, key, nkey, tmp, s); - n = SHA1dlen; - if(n > nbuf) - n = nbuf; - for(i = 0; i < n; i++) - buf[i] ^= tmp[i]; - buf += n; - nbuf -= n; - hmac_sha1(ai, SHA1dlen, key, nkey, tmp, nil); - memmove(ai, tmp, SHA1dlen); - } -} - -static void -p_sha256(uchar *buf, int nbuf, uchar *key, int nkey, uchar *label, int nlabel, uchar *seed, int nseed) +tlsP(uchar *buf, int nbuf, uchar *key, int nkey, uchar *label, int nlabel, uchar *seed, int nseed, + DigestState* (*x)(uchar*, ulong, uchar*, ulong, uchar*, DigestState*), int xlen) { uchar ai[SHA2_256dlen], tmp[SHA2_256dlen]; - SHAstate *s; + DigestState *s; int n; + assert(sizeof(ai) <= xlen && sizeof(tmp) <= xlen); // generate a1 - s = hmac_sha2_256(label, nlabel, key, nkey, nil, nil); - hmac_sha2_256(seed, nseed, key, nkey, ai, s); + s = x(label, nlabel, key, nkey, nil, nil); + x(seed, nseed, key, nkey, ai, s); while(nbuf > 0) { - s = hmac_sha2_256(ai, SHA2_256dlen, key, nkey, nil, nil); - s = hmac_sha2_256(label, nlabel, key, nkey, nil, s); - hmac_sha2_256(seed, nseed, key, nkey, tmp, s); - n = SHA2_256dlen; + s = x(ai, xlen, key, nkey, nil, nil); + s = x(label, nlabel, key, nkey, nil, s); + x(seed, nseed, key, nkey, tmp, s); + n = xlen; if(n > nbuf) n = nbuf; memmove(buf, tmp, n); buf += n; nbuf -= n; - hmac_sha2_256(ai, SHA2_256dlen, key, nkey, tmp, nil); - memmove(ai, tmp, SHA2_256dlen); + x(ai, xlen, key, nkey, tmp, nil); + memmove(ai, tmp, xlen); } } // fill buf with md5(args)^sha1(args) static void -tls10PRF(uchar *buf, int nbuf, uchar *key, int nkey, char *label, uchar *seed0, int nseed0, uchar *seed1, int nseed1) +tls10PRF(uchar *buf, int nbuf, uchar *key, int nkey, char *label, uchar *seed, int nseed) { int nlabel = strlen(label); int n = (nkey + 1) >> 1; - memset(buf, 0, nbuf); - tlsPmd5(buf, nbuf, key, n, (uchar*)label, nlabel, seed0, nseed0, seed1, nseed1); - tlsPsha1(buf, nbuf, key+nkey-n, n, (uchar*)label, nlabel, seed0, nseed0, seed1, nseed1); + tlsP(buf, nbuf, key, n, (uchar*)label, nlabel, seed, nseed, + hmac_md5, MD5dlen); + tlsP(buf, nbuf, key+nkey-n, n, (uchar*)label, nlabel, seed, nseed, + hmac_sha1, SHA1dlen); } static void -tls12PRF(uchar *buf, int nbuf, uchar *key, int nkey, char *label, uchar *seed0, int nseed0, uchar *seed1, int nseed1) +tls12PRF(uchar *buf, int nbuf, uchar *key, int nkey, char *label, uchar *seed, int nseed) { - uchar seed[2*RandomSize]; - - assert(nseed0+nseed1 <= sizeof(seed)); - memmove(seed, seed0, nseed0); - memmove(seed+nseed0, seed1, nseed1); - p_sha256(buf, nbuf, key, nkey, (uchar*)label, strlen(label), seed, nseed0+nseed1); + tlsP(buf, nbuf, key, nkey, (uchar*)label, strlen(label), seed, nseed, + hmac_sha2_256, SHA2_256dlen); } static void -sslPRF(uchar *buf, int nbuf, uchar *key, int nkey, char *label, uchar *seed0, int nseed0, uchar *seed1, int nseed1) +sslPRF(uchar *buf, int nbuf, uchar *key, int nkey, char *label, uchar *seed, int nseed) { uchar sha1dig[SHA1dlen], md5dig[MD5dlen], tmp[26]; DigestState *s; @@ -2435,8 +2418,7 @@ tmp[i] = 'A' - 1 + len; s = sha1(tmp, len, nil, nil); s = sha1(key, nkey, nil, s); - s = sha1(seed0, nseed0, nil, s); - sha1(seed1, nseed1, sha1dig, s); + sha1(seed, nseed, sha1dig, s); s = md5(key, nkey, nil, nil); md5(sha1dig, SHA1dlen, md5dig, s); n = MD5dlen; @@ -2486,18 +2468,18 @@ static void tls10SetFinished(TlsSec *sec, HandshakeHash hsh, uchar *finished, int isclient) { - uchar h0[MD5dlen], h1[SHA1dlen]; + uchar h[MD5dlen+SHA1dlen]; char *label; // get current hash value, but allow further messages to be hashed in - md5(nil, 0, h0, &hsh.md5); - sha1(nil, 0, h1, &hsh.sha1); + md5(nil, 0, h, &hsh.md5); + sha1(nil, 0, h+MD5dlen, &hsh.sha1); if(isclient) label = "client finished"; else label = "server finished"; - tls10PRF(finished, TLSFinishedLen, sec->sec, MasterSecretSize, label, h0, MD5dlen, h1, SHA1dlen); + tls10PRF(finished, TLSFinishedLen, sec->sec, MasterSecretSize, label, h, sizeof(h)); } static void @@ -2513,7 +2495,7 @@ label = "client finished"; else label = "server finished"; - p_sha256(finished, TLSFinishedLen, sec->sec, MasterSecretSize, (uchar*)label, strlen(label), seed, SHA2_256dlen); + tls12PRF(finished, TLSFinishedLen, sec->sec, MasterSecretSize, label, seed, SHA2_256dlen); } static void @@ -2523,8 +2505,9 @@ sec->clientVers = cvers; memmove(sec->crandom, crandom, RandomSize); - put32(sec->srandom, time(nil)); - genrandom(sec->srandom+4, RandomSize-4); + // putting time()'s output to the first 4 bytes is no + // longer recommended and is not useful + genrandom(sec->srandom, RandomSize); } static int @@ -2549,27 +2532,36 @@ } static Bytes* -tlsSecECDHEs1(TlsSec *sec, Namedcurve *nc) +tlsSecECDHEs1(TlsSec *sec) { ECdomain *dom = &sec->ec.dom; ECpriv *Q = &sec->ec.Q; Bytes *par; int n; - ecdominit(dom, nc->init); - memset(Q, 0, sizeof(*Q)); - Q->x = mpnew(0); - Q->y = mpnew(0); - Q->d = mpnew(0); - ecgen(dom, Q); - n = 1 + 2*((mpsignif(dom->p)+7)/8); - par = newbytes(1+2+1+n); - par->data[0] = 3; - put16(par->data+1, nc->tlsid); - n = ecencodepub(dom, Q, par->data+4, par->len-4); - par->data[3] = n; - par->len = 1+2+1+n; - + if(sec->nc == nil) + return nil; + if(sec->nc->tlsid == X25519){ + par = newbytes(1+2+1+32); + par->data[0] = 3; + put16(par->data+1, X25519); + par->data[3] = 32; + curve25519_dh_new(sec->X, par->data+4); + }else{ + ecdominit(dom, sec->nc->init); + memset(Q, 0, sizeof(*Q)); + Q->x = mpnew(0); + Q->y = mpnew(0); + Q->d = mpnew(0); + ecgen(dom, Q); + n = 1 + 2*((mpsignif(dom->p)+7)/8); + par = newbytes(1+2+1+n); + par->data[0] = 3; + put16(par->data+1, sec->nc->tlsid); + n = ecencodepub(dom, Q, par->data+4, par->len-4); + par->data[3] = n; + par->len = 1+2+1+n; + } return par; } @@ -2580,30 +2572,40 @@ ECpriv *Q = &sec->ec.Q; ECpoint K; ECpub *Y; + Bytes *Z; if(Yc == nil){ werrstr("no public key"); return -1; } - if((Y = ecdecodepub(dom, Yc->data, Yc->len)) == nil){ - werrstr("bad public key"); - return -1; - } - - memset(&K, 0, sizeof(K)); - K.x = mpnew(0); - K.y = mpnew(0); + if(sec->nc->tlsid == X25519){ + if(Yc->len != 32){ + werrstr("bad public key"); + return -1; + } + Z = newbytes(32); + curve25519_dh_finish(sec->X, Yc->data, Z->data); + setMasterSecret(sec, Z); + }else{ + if((Y = ecdecodepub(dom, Yc->data, Yc->len)) == nil){ + werrstr("bad public key"); + return -1; + } - ecmul(dom, Y, Q->d, &K); + memset(&K, 0, sizeof(K)); + K.x = mpnew(0); + K.y = mpnew(0); - setMasterSecret(sec, mptobytes(K.x, (mpsignif(dom->p)+7)/8)); + ecmul(dom, Y, Q->d, &K); - mpfree(K.x); - mpfree(K.y); + setMasterSecret(sec, mptobytes(K.x, (mpsignif(dom->p)+7)/8)); - ecpubfree(Y); + mpfree(K.x); + mpfree(K.y); + ecpubfree(Y); + } return 0; } @@ -2612,8 +2614,8 @@ { memset(sec, 0, sizeof(*sec)); sec->clientVers = cvers; - put32(sec->crandom, time(nil)); - genrandom(sec->crandom+4, RandomSize-4); + // see the comment on tlsSecInits + genrandom(sec->crandom, RandomSize); } static Bytes* @@ -2671,13 +2673,15 @@ static int setSecrets(TlsConnection *c, int isclient) { - uchar kd[MaxKeyData]; + uchar kd[MaxKeyData], seed[2*RandomSize]; char *secrets; int rv; assert(c->nsecret <= sizeof(kd)); secrets = emalloc(2*c->nsecret); + memmove(seed, c->sec->srandom, RandomSize); + memmove(seed+RandomSize, c->sec->crandom, RandomSize); /* * generate secret keys from the master secret. * @@ -2686,7 +2690,7 @@ * but it's all generated using the same function. */ (*c->sec->prf)(kd, c->nsecret, c->sec->sec, MasterSecretSize, "key expansion", - c->sec->srandom, RandomSize, c->sec->crandom, RandomSize); + seed, sizeof(seed)); enc64(secrets, 2*c->nsecret, kd, c->nsecret); memset(kd, 0, c->nsecret); @@ -2705,6 +2709,8 @@ static void setMasterSecret(TlsSec *sec, Bytes *pm) { + uchar seed[2*RandomSize]; + if(sec->psklen > 0){ Bytes *opm = pm; uchar *p; @@ -2721,8 +2727,10 @@ freebytes(opm); } + memmove(seed, sec->crandom, RandomSize); + memmove(seed+RandomSize, sec->srandom, RandomSize); (*sec->prf)(sec->sec, MasterSecretSize, pm->data, pm->len, "master secret", - sec->crandom, RandomSize, sec->srandom, RandomSize); + seed, sizeof(seed)); memset(pm->data, 0, pm->len); freebytes(pm);