public static void calculate_Bv_and_V(ISha512 sha512provider, Ge_p3 Bv, byte[] V, byte[] buf, byte[] a, byte[] A, byte[] msg, int msg_len) { Ge_p3 p3 = new Ge_p3(); calculate_Bv(sha512provider, Bv, buf, A, msg, msg_len); Ge_scalarmult.ge_scalarmult(p3, a, Bv); Ge_p3_tobytes.ge_p3_tobytes(V, p3); }
public static int crypto_vsign_modified(ISha512 sha512provider, byte[] sm, byte[] M, int Mlen, byte[] a, byte[] A, byte[] random, Ge_p3 Bv, byte[] V) { byte[] r = new byte[64]; byte[] h = new byte[64]; Ge_p3 R = new Ge_p3(); Ge_p3 Rv = new Ge_p3(); int count = 0; /* r = SHA512(label(3) || a || V || random(64)) */ sm[0] = 0xFC; for (count = 1; count < 32; count++) { sm[count] = 0xFF; } Array.Copy(a, 0, sm, 32, 32); /* Use privkey directly for nonce derivation */ Array.Copy(V, 0, sm, 64, 32); Array.Copy(random, 0, sm, 96, 64); /* Add suffix of random data */ sha512provider.calculateDigest(r, sm, 160); Sc_reduce.sc_reduce(r); Ge_scalarmult_base.ge_scalarmult_base(R, r); Ge_scalarmult.ge_scalarmult(Rv, r, Bv); /* h = SHA512(label(4) || A || V || R || Rv || M) */ sm[0] = 0xFB; Array.Copy(A, 0, sm, 32, 32); Array.Copy(V, 0, sm, 64, 32); byte[] R1 = new byte[32]; Array.Copy(sm, 96, R1, 0, 32); Ge_p3_tobytes.ge_p3_tobytes(R1, R); Array.Copy(R1, 0, sm, 96, 32); byte[] R2 = new byte[32]; Array.Copy(sm, 128, R2, 0, 32); Ge_p3_tobytes.ge_p3_tobytes(R2, Rv); Array.Copy(R2, 0, sm, 128, 32); Array.Copy(M, 0, sm, 160, Mlen); sha512provider.calculateDigest(h, sm, Mlen + 160); Sc_reduce.sc_reduce(h); Array.Copy(h, 0, sm, 0, 32); byte[] S = new byte[32]; Array.Copy(sm, 32, S, 0, 32); Sc_muladd.sc_muladd(S, h, a, r); Array.Copy(S, 0, sm, 32, 32); /* Erase any traces of private scalar or * nonce left in stack from sc_muladd. */ //zeroize_stack(); Zeroize.zeroize(r, 64); return(0); }
public static int crypto_vsign_open_modified(ISha512 sha512provider, byte[] m, byte[] sm, long smlen, byte[] pk, Ge_p3 Bv) { Ge_p3 Vneg = new Ge_p3(); Ge_p3 V = new Ge_p3(); Ge_p3 Aneg = new Ge_p3(); Ge_p3 A = new Ge_p3(); Ge_p3 c_V = new Ge_p3(); Ge_p3 c_A = new Ge_p3(); Ge_p3 h_Vneg = new Ge_p3(); Ge_p3 s_Bv = new Ge_p3(); byte[] h = new byte[32]; byte[] s = new byte[32]; Ge_p2 R = new Ge_p2(); byte[] hcheck = new byte[64]; byte[] vrf_output = new byte[64]; int count; if (smlen < 96) { return(-1); } if ((sm[63] & 224) != 0) /* strict parsing of h */ { return(-1); } if ((sm[95] & 224) != 0) /* strict parsing of s */ { return(-1); } /* Load -A */ if (Ge_frombytes.ge_frombytes_negate_vartime(Aneg, pk) != 0) { return(-1); } /* Load -V, h, s */ if (Ge_frombytes.ge_frombytes_negate_vartime(Vneg, sm) != 0) { return(-1); } Array.Copy(sm, 32, h, 0, 32); Array.Copy(sm, 64, s, 0, 32); if ((h[31] & 224) != 0) /* strict parsing of h */ { return(-1); } if ((s[31] & 224) != 0) /* strict parsing of s */ { return(-1); } Ge_neg.ge_neg(A, Aneg); Ge_neg.ge_neg(V, Vneg); Ge_scalarmult_cofactor.ge_scalarmult_cofactor(c_A, A); Ge_scalarmult_cofactor.ge_scalarmult_cofactor(c_V, V); if (Ge_isneutral.ge_isneutral(c_A) != 0 || Ge_isneutral.ge_isneutral(c_V) != 0 || Ge_isneutral.ge_isneutral(Bv) != 0) { return(-1); } // R = (s*B) + (h * -A)) Ge_double_scalarmult.ge_double_scalarmult_vartime(R, h, Aneg, s); // s * Bv Ge_scalarmult.ge_scalarmult(s_Bv, s, Bv); // h * -V Ge_scalarmult.ge_scalarmult(h_Vneg, h, Vneg); // Rv = (sc * Bv) + (hc * (-V)) Ge_p1p1 Rp1p1 = new Ge_p1p1(); Ge_p3 Rv = new Ge_p3(); Ge_cached h_Vnegcached = new Ge_cached(); Ge_p3_to_cached.ge_p3_to_cached(h_Vnegcached, h_Vneg); Ge_add.ge_add(Rp1p1, s_Bv, h_Vnegcached); Ge_p1p1_to_p3.ge_p1p1_to_p3(Rv, Rp1p1); // Check h == SHA512(label(4) || A || V || R || Rv || M) m[0] = 0xFB; // label 4 for (count = 1; count < 32; count++) { m[count] = 0xFF; } Array.Copy(pk, 0, m, 32, 32); byte[] M = new byte[32]; Array.Copy(m, 64, M, 0, 32); Ge_p3_tobytes.ge_p3_tobytes(M, V); Array.Copy(M, 0, m, 64, 32); byte[] M2 = new byte[32]; Array.Copy(m, 96, M2, 0, 32); Ge_tobytes.ge_tobytes(M2, R); Array.Copy(M2, 0, m, 96, 32); byte[] M3 = new byte[32]; Array.Copy(m, 128, M3, 0, 32); Ge_p3_tobytes.ge_p3_tobytes(M3, Rv); Array.Copy(M3, 0, m, 128, 32); Array.Copy(sm, 96, m, 160, (int)smlen - 96); sha512provider.calculateDigest(hcheck, m, smlen + 64); Sc_reduce.sc_reduce(hcheck); if (Crypto_verify_32.crypto_verify_32(hcheck, h) == 0) { byte[] M4 = new byte[32]; Array.Copy(m, 32, M4, 0, 32); Ge_p3_tobytes.ge_p3_tobytes(M4, c_V); Array.Copy(M4, 0, m, 32, 32); m[0] = 0xFA; // label 5 sha512provider.calculateDigest(vrf_output, m, 64); Array.Copy(vrf_output, 0, m, 0, 32); return(0); } //badsig //memset(m, 0, 32); return(-1); }
public static int crypto_usign_open_modified(ISha512 sha512provider, byte[] m, long mlen, byte[] sm, long smlen, byte[] pk, Ge_p3 Bu) { Ge_p3 U = new Ge_p3(); byte[] h = new byte[64]; byte[] s = new byte[64]; byte[] strict = new byte[64]; Ge_p3 A = new Ge_p3(); Ge_p2 R = new Ge_p2(); byte[] hcheck = new byte[64]; int count; if (smlen < 96) { return(-1); } if ((sm[63] & 224) != 0) /* strict parsing of h */ { return(-1); } if ((sm[95] & 224) != 0) /* strict parsing of s */ { return(-1); } /* Load -A */ if (Ge_frombytes.ge_frombytes_negate_vartime(A, pk) != 0) { return(-1); } /* Load -U, h, s */ Ge_frombytes.ge_frombytes_negate_vartime(U, sm); Array.Copy(sm, 32, h, 0, 32); Array.Copy(sm, 64, s, 0, 32); /* Insist that s and h are reduced scalars (strict parsing) */ Array.Copy(h, 0, strict, 0, 64); Sc_reduce.sc_reduce(strict); if (!Arrays.isEqual(strict, h, 32)) { return(-1); } Array.Copy(s, 0, strict, 0, 64); Sc_reduce.sc_reduce(strict); if (!Arrays.isEqual(strict, s, 32)) { return(-1); } /* Reject U (actually -U) if small order */ if (Ge_is_small_order.ge_is_small_order(U) != 0) { return(-1); } // R = sB + h(-A) Ge_double_scalarmult.ge_double_scalarmult_vartime(R, h, A, s); // Ru = sBu + h(-U) Ge_p3 sBu = new Ge_p3(); Ge_p3 hU = new Ge_p3(); // sBu Ge_scalarmult.ge_scalarmult(sBu, s, Bu); // h(-U) Ge_scalarmult.ge_scalarmult(hU, h, U); // Ru = sBu + h(-U) Ge_p1p1 Rp1p1 = new Ge_p1p1(); Ge_p3 Ru = new Ge_p3(); Ge_cached hUcached = new Ge_cached(); Ge_p3_to_cached.ge_p3_to_cached(hUcached, hU); Ge_add.ge_add(Rp1p1, sBu, hUcached); Ge_p1p1_to_p3.ge_p1p1_to_p3(Ru, Rp1p1); // Check h == SHA512(label(4) || A || U || R || Ru || M) m[0] = 0xFB; for (count = 1; count < 32; count++) { m[count] = 0xFF; } Array.Copy(pk, 0, m, 32, 32); /* undo the negation for U */ Fe_neg.fe_neg(U.X, U.X); Fe_neg.fe_neg(U.T, U.T); byte[] M = new byte[32]; Array.Copy(m, 64, M, 0, 32); Ge_p3_tobytes.ge_p3_tobytes(M, U); Array.Copy(M, 0, m, 64, 32); byte[] M2 = new byte[32]; Array.Copy(m, 96, M2, 0, 32); Ge_tobytes.ge_tobytes(M2, R); Array.Copy(M2, 0, m, 96, 32); byte[] M3 = new byte[32]; Array.Copy(m, 128, M3, 0, 32); Ge_p3_tobytes.ge_p3_tobytes(M3, Ru); Array.Copy(M3, 0, m, 128, 32); Array.Copy(sm, 96, m, 160, (int)smlen - 96); sha512provider.calculateDigest(hcheck, m, smlen + 64); Sc_reduce.sc_reduce(hcheck); if (Crypto_verify_32.crypto_verify_32(hcheck, h) == 0) { Array.Copy(m, 64, m, 0, (int)smlen - 64); //memset(m + smlen - 64,0,64); //*mlen = smlen - 64; return(0); } //badsig: //*mlen = -1; //memset(m,0,smlen); return(-1); }