pike.git/lib/modules/Crypto.pmod/DSA.pmod:49340214d12f9899ed65d25722c73c1ae98dc8ec

3e93c4	2004-02-07	Martin Nilsson
b3e4a0	2013-10-28	Martin Nilsson	`//! The Digital Signature Algorithm DSA is part of the NIST Digital //! Signature Standard DSS, FIPS-186 (1993).`
3e93c4	2004-02-07	Martin Nilsson	`#pike __REAL_VERSION__ #pragma strict_types`
e1fb09	2014-02-14	Martin Nilsson	`#require constant(Crypto.Hash)`
b3e4a0	2013-10-28	Martin Nilsson
9104d0	2014-01-13	Henrik Grubbström (Grubba)	`inherit Crypto.Sign;`
119b8d	2014-08-14	Henrik Grubbström (Grubba)	`//! Returns the string @expr{"DSA"@}. string(8bit) name() { return "DSA"; } class State { inherit ::this_program;`
493402	2014-08-14	Henrik Grubbström (Grubba)	`protected string _sprintf(int t) { return t=='O' && sprintf("%O(%d,%d)", this_program, p->size(), q->size()); }`
53d1d3	2014-04-26	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`// // --- Variables and accessors //`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`protected Gmp.mpz p; // Modulo protected Gmp.mpz q; // Group order protected Gmp.mpz g; // Generator`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`protected Gmp.mpz y; // Public key protected Gmp.mpz x; // Private key`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`protected function(int(0..):string(8bit)) random = .Random.random_string;`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`Gmp.mpz get_p() { return p; } //! Returns the DSA modulo (p). Gmp.mpz get_q() { return q; } //! Returns the DSA group order (q). Gmp.mpz get_g() { return g; } //! Returns the DSA generator (g). Gmp.mpz get_y() { return y; } //! Returns the DSA public key (y). Gmp.mpz get_x() { return x; } //! Returns the DSA private key (x).`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Sets the random function, used to generate keys and parameters, to //! the function @[r]. Default is @[Crypto.Random.random_string]. this_program set_random(function(int(0..):string(8bit)) r) { random = r; return this; }`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	//! Returns the string @expr{"DSA"@}. string(8bit) name() { return "DSA"; } // // --- Key methods // //! Sets the public key in this DSA object. //! @param modulo //! This is the p parameter. //! @param order //! This is the group order q parameter. //! @param generator //! This is the g parameter. //! @param kye //! This is the public key y parameter. this_program set_public_key(Gmp.mpz modulo, Gmp.mpz order, Gmp.mpz generator, Gmp.mpz key) { p = modulo; q = order; g = generator; y = key; return this; }
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Compares the public key in this object with that in the provided //! DSA object. int(0..1) public_key_equal(this_program dsa) { return (p == dsa->get_p()) && (q == dsa->get_q()) && (g == dsa->get_g()) && (y == dsa->get_y()); }`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Compares the keys of this DSA object with something other. protected int(0..1) _equal(mixed other) { if (!objectp(other) \|\| (object_program(other) != object_program(this)) \|\| !public_key_equal([object(this_program)]other)) { return 0; } this_program dsa = [object(this_program)]other; return x == dsa->get_x();`
7c383a	2014-02-22	Henrik Grubbström (Grubba)	`}`
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Sets the private key, the x parameter, in this DSA object. this_program set_private_key(Gmp.mpz secret) { x = secret; return this; }`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`// // --- Key generation //`
3e93c4	2004-02-07	Martin Nilsson
3f6dd0	2013-12-02	Martin Nilsson	`#if !constant(Nettle.dsa_generate_keypair)`
3e93c4	2004-02-07	Martin Nilsson	`#define SEED_LENGTH 20`
493402	2014-08-14	Henrik Grubbström (Grubba)	`protected string(8bit) nist_hash(Gmp.mpz x) { string(8bit) s = x->digits(256); return .SHA1.hash(s[sizeof(s) - SEED_LENGTH..]); }`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`// The (slow) NIST method of generating a DSA prime pair. Algorithm // 4.56 of Handbook of Applied Cryptography. protected array(Gmp.mpz) nist_primes(int l) { if ( (l < 0) \|\| (l > 8) ) error( "Unsupported key size.\n" );`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`int L = 512 + 64 * l;`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`int n = (L-1) / 160; // int b = (L-1) % 160;`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`for (;;) { /* Generate q */ string(8bit) seed = random(SEED_LENGTH); Gmp.mpz s = Gmp.mpz(seed, 256);`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`string(8bit) h = [string(8bit)] (nist_hash(s) ^ nist_hash( [object(Gmp.mpz)](s + 1) ));`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`h = sprintf("%c%s%c", h[0] \| 0x80, h[1..<1], h[-1] \| 1);`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`Gmp.mpz q = Gmp.mpz(h, 256);`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`if (!q->probably_prime_p()) continue;`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`/* q is a prime, with overwelming probability. */`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`int i, j;`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`for (i = 0, j = 2; i < 4096; i++, j += n+1) { string(8bit) buffer = ""; int k;`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`for (k = 0; k<= n; k++) buffer = nist_hash( [object(Gmp.mpz)](s + j + k) ) + buffer;`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`buffer = buffer[sizeof(buffer) - L/8 ..]; buffer[0] = [int(8bit)](buffer[0] \| 0x80);`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`Gmp.mpz p = Gmp.mpz(buffer, 256);`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`p -= p % (2 * q) - 1;`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`if (p->probably_prime_p()) { /* Done */ return ({ p, q }); }`
3e93c4	2004-02-07	Martin Nilsson	`} } }`
493402	2014-08-14	Henrik Grubbström (Grubba)	`protected Gmp.mpz find_generator(Gmp.mpz p, Gmp.mpz q)`
3e93c4	2004-02-07	Martin Nilsson	`{`
493402	2014-08-14	Henrik Grubbström (Grubba)	`Gmp.mpz e = [object(Gmp.mpz)]((p - 1) / q); Gmp.mpz g;`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`do { /* A random number in { 2, 3, ... p - 2 } / g = ([object(Gmp.mpz)](random_number( [object(Gmp.mpz)](p-3) ) + 2)) / Exponentiate to get an element of order 1 or q */ ->powm(e, p); } while (g == 1);`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`return g; }`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`// Generate key parameters (p, q and g) using the NIST DSA prime pair // generation algorithm. @[bits] must be multiple of 64. protected void generate_parameters(int bits) { if (!bits \|\| bits % 64) error( "Unsupported key size.\n" );`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`[p, q] = nist_primes(bits / 64 - 8);`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`if (p % q != 1) error( "Internal error.\n" );`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`if (q->size() != 160) error( "Internal error.\n" );`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`g = find_generator(p, q);`
3f6dd0	2013-12-02	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`if ( (g == 1) \|\| (g->powm(q, p) != 1)) error( "Internal error.\n" ); } variant this_program generate_key(int p_bits, int q_bits) { if(q_bits!=160) error("Only 1024/160 supported with Nettle version < 2.0\n"); generate_parameters(1024); return generate_key(); }`
3e93c4	2004-02-07	Martin Nilsson
3f6dd0	2013-12-02	Martin Nilsson	`#else // !constant(Nettle.dsa_generate_keypair)`
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Generates DSA parameters (p, q, g) and key (x, y). Depending on //! Nettle version @[q_bits] can be 160, 224 and 256 bits. 160 works //! for all versions. variant this_program generate_key(int p_bits, int q_bits) { [ p, q, g, y, x ] = Nettle.dsa_generate_keypair(p_bits, q_bits, random); return this; }`
3e93c4	2004-02-07	Martin Nilsson
3f6dd0	2013-12-02	Martin Nilsson	`#endif`
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Generates a public/private key pair. Needs the public parameters //! p, q and g set, either through @[set_public_key] or //! @[generate_key(int,int)]. variant this_program generate_key() { /* x in { 2, 3, ... q - 1 } */ if(!p \|\| !q \|\| !g) error("Public parameters not set..\n"); x = [object(Gmp.mpz)](random_number( [object(Gmp.mpz)](q-2) ) + 2); y = g->powm(x, p);`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`return this; }`
3e93c4	2004-02-07	Martin Nilsson
3f6dd0	2013-12-02	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`// // --- PKCS methods //`
b3e4a0	2013-10-28	Martin Nilsson	`#define Sequence Standards.ASN1.Types.Sequence`
a2a39b	2014-01-11	Henrik Grubbström (Grubba)	`#define Integer Standards.ASN1.Types.Integer #define BitString Standards.ASN1.Types.BitString`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Returns the AlgorithmIdentifier as defined in RFC5280 section //! 4.1.1.2 including the DSA parameters. Sequence pkcs_algorithm_identifier() { return Sequence( ({ Standards.PKCS.Identifiers.dsa_id, Sequence( ({ Integer(get_p()), Integer(get_q()), Integer(get_g()) }) ) }) ); }`
a2a39b	2014-01-11	Henrik Grubbström (Grubba)
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Returns the PKCS-1 algorithm identifier for DSA and the provided //! hash algorithm. Only @[SHA1] supported. Sequence pkcs_signature_algorithm_id(.Hash hash)`
a2a39b	2014-01-11	Henrik Grubbström (Grubba)	`{`
493402	2014-08-14	Henrik Grubbström (Grubba)	`switch(hash->name()) { case "sha1": return Sequence( ({ Standards.PKCS.Identifiers.dsa_sha_id }) ); break; case "sha224": return Sequence( ({ Standards.PKCS.Identifiers.dsa_sha224_id }) ); break; case "sha256": return Sequence( ({ Standards.PKCS.Identifiers.dsa_sha256_id }) ); break; } return 0;`
a2a39b	2014-01-11	Henrik Grubbström (Grubba)	`}`
3e93c4	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Creates a SubjectPublicKeyInfo ASN.1 sequence for the object. //! See RFC 5280 section 4.1.2.7. Sequence pkcs_public_key() { return Sequence(({ pkcs_algorithm_identifier(), BitString(Integer(get_y())->get_der()), })); }`
b3e4a0	2013-10-28	Martin Nilsson
a2a39b	2014-01-11	Henrik Grubbström (Grubba)	`#undef BitString #undef Integer`
b3e4a0	2013-10-28	Martin Nilsson	`#undef Sequence`
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Signs the @[message] with a PKCS-1 signature using hash algorithm //! @[h]. string(8bit) pkcs_sign(string(8bit) message, .Hash h) { array sign = map(raw_sign(hash(message, h)), Standards.ASN1.Types.Integer); return Standards.ASN1.Types.Sequence(sign)->get_der(); }`
ee804c	2013-11-21	Martin Nilsson	`#define Object Standards.ASN1.Types.Object`
493402	2014-08-14	Henrik Grubbström (Grubba)	//! Verify PKCS-1 signature @[sign] of message @[message] using hash //! algorithm @[h]. int(0..1) pkcs_verify(string(8bit) message, .Hash h, string(8bit) sign) { Object a = Standards.ASN1.Decode.simple_der_decode(sign); // The signature is the DER-encoded ASN.1 sequence Dss-Sig-Value // with the two integers r and s. See RFC 3279 section 2.2.2. if (!a \|\| (a->type_name != "SEQUENCE") \|\| (sizeof([array]a->elements) != 2) \|\| (sizeof( ([array(object(Object))]a->elements)->type_name - ({ "INTEGER" })))) return 0; return raw_verify(hash(message, h), [object(Gmp.mpz)]([array(object(Object))]a->elements)[0]->
ee804c	2013-11-21	Martin Nilsson	`value,`
493402	2014-08-14	Henrik Grubbström (Grubba)	`[object(Gmp.mpz)]([array(object(Object))]a->elements)[1]->`
ee804c	2013-11-21	Martin Nilsson	`value);`
493402	2014-08-14	Henrik Grubbström (Grubba)	`}`
ee804c	2013-11-21	Martin Nilsson	`#undef Object`
493402	2014-08-14	Henrik Grubbström (Grubba)	`// // --- Below are methods for DSA applied in other standards. //`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Makes a DSA hash of the messge @[msg]. Gmp.mpz hash(string(8bit) msg, .Hash h) { string(8bit) digest = h->hash(msg)[..q->size()/8-1]; return [object(Gmp.mpz)](Gmp.mpz(digest, 256) % q); }`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`protected Gmp.mpz random_number(Gmp.mpz n) { return [object(Gmp.mpz)](Gmp.mpz(random( [int(0..)](q->size() + 10 / 8)), 256) % n); }`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`protected Gmp.mpz random_exponent() { return [object(Gmp.mpz)](random_number([object(Gmp.mpz)](q - 1)) + 1); }`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Sign the message @[h]. Returns the signature as two @[Gmp.mpz] //! objects. array(Gmp.mpz) raw_sign(Gmp.mpz h, void\|Gmp.mpz k) { if(!k) k = random_exponent();`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`Gmp.mpz r = [object(Gmp.mpz)](g->powm(k, p) % q); Gmp.mpz s = [object(Gmp.mpz)]((k->invert(q) * (h + x*r)) % q);`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`return ({ r, s }); } //! Verify the signature @[r],@[s] against the message @[h]. int(0..1) raw_verify(Gmp.mpz h, Gmp.mpz r, Gmp.mpz s) { Gmp.mpz w; if (catch`
b3e4a0	2013-10-28	Martin Nilsson	`{ w = s->invert(q); })`
493402	2014-08-14	Henrik Grubbström (Grubba)	`/* Non-invertible */ return 0;`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`/* The inner %q's are redundant, as g^q == y^q == 1 (mod p) / return r == (g->powm( [object(Gmp.mpz)](w h % q), p) * y->powm( [object(Gmp.mpz)](w * r % q), p) % p) % q; }`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`int(0..) key_size() { return p->size(); }`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`// // --- Deprecated stuff //`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Make a RSA ref signature of message @[msg]. __deprecated__ string(8bit) sign_rsaref(string(8bit) msg) { [Gmp.mpz r, Gmp.mpz s] = raw_sign(hash(msg, .SHA1));`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`return sprintf("%'\0'20s%'\0'20s", r->digits(256), s->digits(256)); }`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Verify a RSA ref signature @[s] of message @[msg]. __deprecated__ int(0..1) verify_rsaref(string(8bit) msg, string(8bit) s) { if (sizeof(s) != 40) return 0;`
b3e4a0	2013-10-28	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`return raw_verify(hash(msg, .SHA1), Gmp.mpz(s[..19], 256), Gmp.mpz(s[20..], 256)); }`
5b7ecf	2004-02-07	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Make an SSL signature of message @[msg]. __deprecated__ string(8bit) sign_ssl(string(8bit) msg) { return pkcs_sign(msg, .SHA1); }`
ee804c	2013-11-21	Martin Nilsson
493402	2014-08-14	Henrik Grubbström (Grubba)	`//! Verify an SSL signature @[s] of message @[msg]. __deprecated__ int(0..1) verify_ssl(string(8bit) msg, string(8bit) s) { return pkcs_verify(msg, .SHA1, s); }`
119b8d	2014-08-14	Henrik Grubbström (Grubba)	} //! Calling `() will return a @[State] object. protected State `()() { return State(); }

pike.git/ lib/ modules/ Crypto.pmod/ DSA.pmod > 49340214d12f9899ed65d25722c73c1ae98dc8ec [Normal]