/************************************************* * IF Scheme Source File * * (C) 1999-2007 Jack Lloyd * *************************************************/ #include #include #include #include namespace Botan { /************************************************* * Return the X.509 public key encoder * *************************************************/ X509_Encoder* IF_Scheme_PublicKey::x509_encoder() const { class IF_Scheme_Encoder : public X509_Encoder { public: AlgorithmIdentifier alg_id() const { return AlgorithmIdentifier(key->get_oid(), AlgorithmIdentifier::USE_NULL_PARAM); } MemoryVector key_bits() const { return DER_Encoder() .start_cons(SEQUENCE) .encode(key->n) .encode(key->e) .end_cons() .get_contents(); } IF_Scheme_Encoder(const IF_Scheme_PublicKey* k) : key(k) {} private: const IF_Scheme_PublicKey* key; }; return new IF_Scheme_Encoder(this); } /************************************************* * Return the X.509 public key decoder * *************************************************/ X509_Decoder* IF_Scheme_PublicKey::x509_decoder() { class IF_Scheme_Decoder : public X509_Decoder { public: void alg_id(const AlgorithmIdentifier&) {} void key_bits(const MemoryRegion& bits) { BER_Decoder(bits) .start_cons(SEQUENCE) .decode(key->n) .decode(key->e) .verify_end() .end_cons(); key->X509_load_hook(); } IF_Scheme_Decoder(IF_Scheme_PublicKey* k) : key(k) {} private: IF_Scheme_PublicKey* key; }; return new IF_Scheme_Decoder(this); } /************************************************* * Return the PKCS #8 public key encoder * *************************************************/ PKCS8_Encoder* IF_Scheme_PrivateKey::pkcs8_encoder() const { class IF_Scheme_Encoder : public PKCS8_Encoder { public: AlgorithmIdentifier alg_id() const { return AlgorithmIdentifier(key->get_oid(), AlgorithmIdentifier::USE_NULL_PARAM); } MemoryVector key_bits() const { return DER_Encoder() .start_cons(SEQUENCE) .encode(static_cast(0)) .encode(key->n) .encode(key->e) .encode(key->d) .encode(key->p) .encode(key->q) .encode(key->d1) .encode(key->d2) .encode(key->c) .end_cons() .get_contents(); } IF_Scheme_Encoder(const IF_Scheme_PrivateKey* k) : key(k) {} private: const IF_Scheme_PrivateKey* key; }; return new IF_Scheme_Encoder(this); } /************************************************* * Return the PKCS #8 public key decoder * *************************************************/ PKCS8_Decoder* IF_Scheme_PrivateKey::pkcs8_decoder() { class IF_Scheme_Decoder : public PKCS8_Decoder { public: void alg_id(const AlgorithmIdentifier&) {} void key_bits(const MemoryRegion& bits) { u32bit version; BER_Decoder(bits) .start_cons(SEQUENCE) .decode(version) .decode(key->n) .decode(key->e) .decode(key->d) .decode(key->p) .decode(key->q) .decode(key->d1) .decode(key->d2) .decode(key->c) .end_cons(); if(version != 0) throw Decoding_Error("Unknown PKCS #1 key format version"); key->PKCS8_load_hook(); } IF_Scheme_Decoder(IF_Scheme_PrivateKey* k) : key(k) {} private: IF_Scheme_PrivateKey* key; }; return new IF_Scheme_Decoder(this); } /************************************************* * Algorithm Specific X.509 Initialization Code * *************************************************/ void IF_Scheme_PublicKey::X509_load_hook() { core = IF_Core(e, n); load_check(); } /************************************************* * Algorithm Specific PKCS #8 Initialization Code * *************************************************/ void IF_Scheme_PrivateKey::PKCS8_load_hook(bool generated) { if(n == 0) n = p * q; if(d1 == 0) d1 = d % (p - 1); if(d2 == 0) d2 = d % (q - 1); if(c == 0) c = inverse_mod(q, p); core = IF_Core(e, n, d, p, q, d1, d2, c); if(generated) gen_check(); else load_check(); } /************************************************* * Check IF Scheme Public Parameters * *************************************************/ bool IF_Scheme_PublicKey::check_key(RandomNumberGenerator&, bool) const { if(n < 35 || n.is_even() || e < 2) return false; return true; } /************************************************* * Check IF Scheme Private Parameters * *************************************************/ bool IF_Scheme_PrivateKey::check_key(RandomNumberGenerator& rng, bool strong) const { if(n < 35 || n.is_even() || e < 2 || d < 2 || p < 3 || q < 3 || p*q != n) return false; if(!strong) return true; if(d1 != d % (p - 1) || d2 != d % (q - 1) || c != inverse_mod(q, p)) return false; if(!check_prime(p, rng) || !check_prime(q, rng)) return false; return true; } }