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/************************************************* * OpenSSL Engine Source File * * (C) 1999-2007 Jack Lloyd * *************************************************/ #include <botan/eng_ossl.h> #include <botan/bn_wrap.h> #include <openssl/opensslv.h> #if OPENSSL_VERSION_NUMBER < 0x0090700F #error Your OpenSSL install is too old, upgrade to 0.9.7 or later #endif namespace Botan { namespace { /************************************************* * OpenSSL IF Operation * *************************************************/ class OpenSSL_IF_Op : public IF_Operation { public: BigInt public_op(const BigInt&) const; BigInt private_op(const BigInt&) const; IF_Operation* clone() const { return new OpenSSL_IF_Op(*this); } OpenSSL_IF_Op(const BigInt& e_bn, const BigInt& n_bn, const BigInt&, const BigInt& p_bn, const BigInt& q_bn, const BigInt& d1_bn, const BigInt& d2_bn, const BigInt& c_bn) : e(e_bn), n(n_bn), p(p_bn), q(q_bn), d1(d1_bn), d2(d2_bn), c(c_bn) {} private: const OSSL_BN e, n, p, q, d1, d2, c; OSSL_BN_CTX ctx; }; /************************************************* * OpenSSL IF Public Operation * *************************************************/ BigInt OpenSSL_IF_Op::public_op(const BigInt& i_bn) const { OSSL_BN i(i_bn), r; BN_mod_exp(r.value, i.value, e.value, n.value, ctx.value); return r.to_bigint(); } /************************************************* * OpenSSL IF Private Operation * *************************************************/ BigInt OpenSSL_IF_Op::private_op(const BigInt& i_bn) const { if(BN_is_zero(p.value)) throw Internal_Error("OpenSSL_IF_Op::private_op: No private key"); OSSL_BN j1, j2, h(i_bn); BN_mod_exp(j1.value, h.value, d1.value, p.value, ctx.value); BN_mod_exp(j2.value, h.value, d2.value, q.value, ctx.value); BN_sub(h.value, j1.value, j2.value); BN_mod_mul(h.value, h.value, c.value, p.value, ctx.value); BN_mul(h.value, h.value, q.value, ctx.value); BN_add(h.value, h.value, j2.value); return h.to_bigint(); } /************************************************* * OpenSSL DSA Operation * *************************************************/ class OpenSSL_DSA_Op : public DSA_Operation { public: bool verify(const byte[], u32bit, const byte[], u32bit) const; SecureVector<byte> sign(const byte[], u32bit, const BigInt&) const; DSA_Operation* clone() const { return new OpenSSL_DSA_Op(*this); } OpenSSL_DSA_Op(const DL_Group& group, const BigInt& y1, const BigInt& x1) : x(x1), y(y1), p(group.get_p()), q(group.get_q()), g(group.get_g()) {} private: const OSSL_BN x, y, p, q, g; OSSL_BN_CTX ctx; }; /************************************************* * OpenSSL DSA Verify Operation * *************************************************/ bool OpenSSL_DSA_Op::verify(const byte msg[], u32bit msg_len, const byte sig[], u32bit sig_len) const { const u32bit q_bytes = q.bytes(); if(sig_len != 2*q_bytes || msg_len > q_bytes) return false; OSSL_BN r(sig, q_bytes); OSSL_BN s(sig + q_bytes, q_bytes); OSSL_BN i(msg, msg_len); if(BN_is_zero(r.value) || BN_cmp(r.value, q.value) >= 0) return false; if(BN_is_zero(s.value) || BN_cmp(s.value, q.value) >= 0) return false; if(BN_mod_inverse(s.value, s.value, q.value, ctx.value) == 0) return false; OSSL_BN si; BN_mod_mul(si.value, s.value, i.value, q.value, ctx.value); BN_mod_exp(si.value, g.value, si.value, p.value, ctx.value); OSSL_BN sr; BN_mod_mul(sr.value, s.value, r.value, q.value, ctx.value); BN_mod_exp(sr.value, y.value, sr.value, p.value, ctx.value); BN_mod_mul(si.value, si.value, sr.value, p.value, ctx.value); BN_nnmod(si.value, si.value, q.value, ctx.value); if(BN_cmp(si.value, r.value) == 0) return true; return false; } /************************************************* * OpenSSL DSA Sign Operation * *************************************************/ SecureVector<byte> OpenSSL_DSA_Op::sign(const byte in[], u32bit length, const BigInt& k_bn) const { if(BN_is_zero(x.value)) throw Internal_Error("OpenSSL_DSA_Op::sign: No private key"); OSSL_BN i(in, length); OSSL_BN k(k_bn); OSSL_BN r; BN_mod_exp(r.value, g.value, k.value, p.value, ctx.value); BN_nnmod(r.value, r.value, q.value, ctx.value); BN_mod_inverse(k.value, k.value, q.value, ctx.value); OSSL_BN s; BN_mul(s.value, x.value, r.value, ctx.value); BN_add(s.value, s.value, i.value); BN_mod_mul(s.value, s.value, k.value, q.value, ctx.value); if(BN_is_zero(r.value) || BN_is_zero(s.value)) throw Internal_Error("OpenSSL_DSA_Op::sign: r or s was zero"); const u32bit q_bytes = q.bytes(); SecureVector<byte> output(2*q_bytes); r.encode(output, q_bytes); s.encode(output + q_bytes, q_bytes); return output; } /************************************************* * OpenSSL NR Operation * *************************************************/ class OpenSSL_NR_Op : public NR_Operation { public: SecureVector<byte> verify(const byte[], u32bit) const; SecureVector<byte> sign(const byte[], u32bit, const BigInt&) const; NR_Operation* clone() const { return new OpenSSL_NR_Op(*this); } OpenSSL_NR_Op(const DL_Group& group, const BigInt& y1, const BigInt& x1) : x(x1), y(y1), p(group.get_p()), q(group.get_q()), g(group.get_g()) {} private: const OSSL_BN x, y, p, q, g; OSSL_BN_CTX ctx; }; /************************************************* * OpenSSL NR Verify Operation * *************************************************/ SecureVector<byte> OpenSSL_NR_Op::verify(const byte sig[], u32bit sig_len) const { const u32bit q_bytes = q.bytes(); if(sig_len != 2*q_bytes) return false; OSSL_BN c(sig, q_bytes); OSSL_BN d(sig + q_bytes, q_bytes); if(BN_is_zero(c.value) || BN_cmp(c.value, q.value) >= 0 || BN_cmp(d.value, q.value) >= 0) throw Invalid_Argument("OpenSSL_NR_Op::verify: Invalid signature"); OSSL_BN i1, i2; BN_mod_exp(i1.value, g.value, d.value, p.value, ctx.value); BN_mod_exp(i2.value, y.value, c.value, p.value, ctx.value); BN_mod_mul(i1.value, i1.value, i2.value, p.value, ctx.value); BN_sub(i1.value, c.value, i1.value); BN_nnmod(i1.value, i1.value, q.value, ctx.value); return BigInt::encode(i1.to_bigint()); } /************************************************* * OpenSSL NR Sign Operation * *************************************************/ SecureVector<byte> OpenSSL_NR_Op::sign(const byte in[], u32bit length, const BigInt& k_bn) const { if(BN_is_zero(x.value)) throw Internal_Error("OpenSSL_NR_Op::sign: No private key"); OSSL_BN f(in, length); OSSL_BN k(k_bn); if(BN_cmp(f.value, q.value) >= 0) throw Invalid_Argument("OpenSSL_NR_Op::sign: Input is out of range"); OSSL_BN c, d; BN_mod_exp(c.value, g.value, k.value, p.value, ctx.value); BN_add(c.value, c.value, f.value); BN_nnmod(c.value, c.value, q.value, ctx.value); BN_mul(d.value, x.value, c.value, ctx.value); BN_sub(d.value, k.value, d.value); BN_nnmod(d.value, d.value, q.value, ctx.value); if(BN_is_zero(c.value)) throw Internal_Error("Default_NR_Op::sign: c was zero"); const u32bit q_bytes = q.bytes(); SecureVector<byte> output(2*q_bytes); c.encode(output, q_bytes); d.encode(output + q_bytes, q_bytes); return output; } /************************************************* * OpenSSL ElGamal Operation * *************************************************/ class OpenSSL_ELG_Op : public ELG_Operation { public: SecureVector<byte> encrypt(const byte[], u32bit, const BigInt&) const; BigInt decrypt(const BigInt&, const BigInt&) const; ELG_Operation* clone() const { return new OpenSSL_ELG_Op(*this); } OpenSSL_ELG_Op(const DL_Group& group, const BigInt& y1, const BigInt& x1) : x(x1), y(y1), g(group.get_g()), p(group.get_p()) {} private: OSSL_BN x, y, g, p; OSSL_BN_CTX ctx; }; /************************************************* * OpenSSL ElGamal Encrypt Operation * *************************************************/ SecureVector<byte> OpenSSL_ELG_Op::encrypt(const byte in[], u32bit length, const BigInt& k_bn) const { OSSL_BN i(in, length); if(BN_cmp(i.value, p.value) >= 0) throw Invalid_Argument("OpenSSL_ELG_Op: Input is too large"); OSSL_BN a, b, k(k_bn); BN_mod_exp(a.value, g.value, k.value, p.value, ctx.value); BN_mod_exp(b.value, y.value, k.value, p.value, ctx.value); BN_mod_mul(b.value, b.value, i.value, p.value, ctx.value); const u32bit p_bytes = p.bytes(); SecureVector<byte> output(2*p_bytes); a.encode(output, p_bytes); b.encode(output + p_bytes, p_bytes); return output; } /************************************************* * OpenSSL ElGamal Decrypt Operation * *************************************************/ BigInt OpenSSL_ELG_Op::decrypt(const BigInt& a_bn, const BigInt& b_bn) const { if(BN_is_zero(x.value)) throw Internal_Error("OpenSSL_ELG_Op::decrypt: No private key"); OSSL_BN a(a_bn), b(b_bn), t; if(BN_cmp(a.value, p.value) >= 0 || BN_cmp(b.value, p.value) >= 0) throw Invalid_Argument("OpenSSL_ELG_Op: Invalid message"); BN_mod_exp(t.value, a.value, x.value, p.value, ctx.value); BN_mod_inverse(a.value, t.value, p.value, ctx.value); BN_mod_mul(a.value, a.value, b.value, p.value, ctx.value); return a.to_bigint(); } /************************************************* * OpenSSL DH Operation * *************************************************/ class OpenSSL_DH_Op : public DH_Operation { public: BigInt agree(const BigInt& i) const; DH_Operation* clone() const { return new OpenSSL_DH_Op(*this); } OpenSSL_DH_Op(const DL_Group& group, const BigInt& x_bn) : x(x_bn), p(group.get_p()) {} private: OSSL_BN x, p; OSSL_BN_CTX ctx; }; /************************************************* * OpenSSL DH Key Agreement Operation * *************************************************/ BigInt OpenSSL_DH_Op::agree(const BigInt& i_bn) const { OSSL_BN i(i_bn), r; BN_mod_exp(r.value, i.value, x.value, p.value, ctx.value); return r.to_bigint(); } } /************************************************* * Acquire an IF op * *************************************************/ IF_Operation* OpenSSL_Engine::if_op(const BigInt& e, const BigInt& n, const BigInt& d, const BigInt& p, const BigInt& q, const BigInt& d1, const BigInt& d2, const BigInt& c) const { return new OpenSSL_IF_Op(e, n, d, p, q, d1, d2, c); } /************************************************* * Acquire a DSA op * *************************************************/ DSA_Operation* OpenSSL_Engine::dsa_op(const DL_Group& group, const BigInt& y, const BigInt& x) const { return new OpenSSL_DSA_Op(group, y, x); } /************************************************* * Acquire a NR op * *************************************************/ NR_Operation* OpenSSL_Engine::nr_op(const DL_Group& group, const BigInt& y, const BigInt& x) const { return new OpenSSL_NR_Op(group, y, x); } /************************************************* * Acquire an ElGamal op * *************************************************/ ELG_Operation* OpenSSL_Engine::elg_op(const DL_Group& group, const BigInt& y, const BigInt& x) const { return new OpenSSL_ELG_Op(group, y, x); } /************************************************* * Acquire a DH op * *************************************************/ DH_Operation* OpenSSL_Engine::dh_op(const DL_Group& group, const BigInt& x) const { return new OpenSSL_DH_Op(group, x); } }