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- #include <stdint.h>
- typedef int32_t crypto_int32;
- typedef int64_t crypto_int64;
- typedef uint64_t crypto_uint64;
- typedef crypto_int32 fe[10];
- /*
- h = 0
- */
- void fe_0(fe h)
- {
- h[0] = 0;
- h[1] = 0;
- h[2] = 0;
- h[3] = 0;
- h[4] = 0;
- h[5] = 0;
- h[6] = 0;
- h[7] = 0;
- h[8] = 0;
- h[9] = 0;
- }
- /*
- h = 1
- */
- void fe_1(fe h)
- {
- h[0] = 1;
- h[1] = 0;
- h[2] = 0;
- h[3] = 0;
- h[4] = 0;
- h[5] = 0;
- h[6] = 0;
- h[7] = 0;
- h[8] = 0;
- h[9] = 0;
- }
- /*
- h = f + g
- Can overlap h with f or g.
- Preconditions:
- |f| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc.
- |g| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc.
- Postconditions:
- |h| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc.
- */
- void fe_add(fe h,fe f,fe g)
- {
- crypto_int32 f0 = f[0];
- crypto_int32 f1 = f[1];
- crypto_int32 f2 = f[2];
- crypto_int32 f3 = f[3];
- crypto_int32 f4 = f[4];
- crypto_int32 f5 = f[5];
- crypto_int32 f6 = f[6];
- crypto_int32 f7 = f[7];
- crypto_int32 f8 = f[8];
- crypto_int32 f9 = f[9];
- crypto_int32 g0 = g[0];
- crypto_int32 g1 = g[1];
- crypto_int32 g2 = g[2];
- crypto_int32 g3 = g[3];
- crypto_int32 g4 = g[4];
- crypto_int32 g5 = g[5];
- crypto_int32 g6 = g[6];
- crypto_int32 g7 = g[7];
- crypto_int32 g8 = g[8];
- crypto_int32 g9 = g[9];
- crypto_int32 h0 = f0 + g0;
- crypto_int32 h1 = f1 + g1;
- crypto_int32 h2 = f2 + g2;
- crypto_int32 h3 = f3 + g3;
- crypto_int32 h4 = f4 + g4;
- crypto_int32 h5 = f5 + g5;
- crypto_int32 h6 = f6 + g6;
- crypto_int32 h7 = f7 + g7;
- crypto_int32 h8 = f8 + g8;
- crypto_int32 h9 = f9 + g9;
- h[0] = h0;
- h[1] = h1;
- h[2] = h2;
- h[3] = h3;
- h[4] = h4;
- h[5] = h5;
- h[6] = h6;
- h[7] = h7;
- h[8] = h8;
- h[9] = h9;
- }
- /*
- h = f
- */
- void fe_copy(fe h,fe f)
- {
- crypto_int32 f0 = f[0];
- crypto_int32 f1 = f[1];
- crypto_int32 f2 = f[2];
- crypto_int32 f3 = f[3];
- crypto_int32 f4 = f[4];
- crypto_int32 f5 = f[5];
- crypto_int32 f6 = f[6];
- crypto_int32 f7 = f[7];
- crypto_int32 f8 = f[8];
- crypto_int32 f9 = f[9];
- h[0] = f0;
- h[1] = f1;
- h[2] = f2;
- h[3] = f3;
- h[4] = f4;
- h[5] = f5;
- h[6] = f6;
- h[7] = f7;
- h[8] = f8;
- h[9] = f9;
- }
- /*
- Replace (f,g) with (g,f) if b == 1;
- replace (f,g) with (f,g) if b == 0.
- Preconditions: b in {0,1}.
- */
- void fe_cswap(fe f,fe g,unsigned int b)
- {
- crypto_int32 f0 = f[0];
- crypto_int32 f1 = f[1];
- crypto_int32 f2 = f[2];
- crypto_int32 f3 = f[3];
- crypto_int32 f4 = f[4];
- crypto_int32 f5 = f[5];
- crypto_int32 f6 = f[6];
- crypto_int32 f7 = f[7];
- crypto_int32 f8 = f[8];
- crypto_int32 f9 = f[9];
- crypto_int32 g0 = g[0];
- crypto_int32 g1 = g[1];
- crypto_int32 g2 = g[2];
- crypto_int32 g3 = g[3];
- crypto_int32 g4 = g[4];
- crypto_int32 g5 = g[5];
- crypto_int32 g6 = g[6];
- crypto_int32 g7 = g[7];
- crypto_int32 g8 = g[8];
- crypto_int32 g9 = g[9];
- crypto_int32 x0 = f0 ^ g0;
- crypto_int32 x1 = f1 ^ g1;
- crypto_int32 x2 = f2 ^ g2;
- crypto_int32 x3 = f3 ^ g3;
- crypto_int32 x4 = f4 ^ g4;
- crypto_int32 x5 = f5 ^ g5;
- crypto_int32 x6 = f6 ^ g6;
- crypto_int32 x7 = f7 ^ g7;
- crypto_int32 x8 = f8 ^ g8;
- crypto_int32 x9 = f9 ^ g9;
- b = -b;
- x0 &= b;
- x1 &= b;
- x2 &= b;
- x3 &= b;
- x4 &= b;
- x5 &= b;
- x6 &= b;
- x7 &= b;
- x8 &= b;
- x9 &= b;
- f[0] = f0 ^ x0;
- f[1] = f1 ^ x1;
- f[2] = f2 ^ x2;
- f[3] = f3 ^ x3;
- f[4] = f4 ^ x4;
- f[5] = f5 ^ x5;
- f[6] = f6 ^ x6;
- f[7] = f7 ^ x7;
- f[8] = f8 ^ x8;
- f[9] = f9 ^ x9;
- g[0] = g0 ^ x0;
- g[1] = g1 ^ x1;
- g[2] = g2 ^ x2;
- g[3] = g3 ^ x3;
- g[4] = g4 ^ x4;
- g[5] = g5 ^ x5;
- g[6] = g6 ^ x6;
- g[7] = g7 ^ x7;
- g[8] = g8 ^ x8;
- g[9] = g9 ^ x9;
- }
- static crypto_uint64 load_3(const unsigned char *in)
- {
- crypto_uint64 result;
- result = (crypto_uint64) in[0];
- result |= ((crypto_uint64) in[1]) << 8;
- result |= ((crypto_uint64) in[2]) << 16;
- return result;
- }
- static crypto_uint64 load_4(const unsigned char *in)
- {
- crypto_uint64 result;
- result = (crypto_uint64) in[0];
- result |= ((crypto_uint64) in[1]) << 8;
- result |= ((crypto_uint64) in[2]) << 16;
- result |= ((crypto_uint64) in[3]) << 24;
- return result;
- }
- void fe_frombytes(fe h,const unsigned char *s)
- {
- crypto_int64 h0 = load_4(s);
- crypto_int64 h1 = load_3(s + 4) << 6;
- crypto_int64 h2 = load_3(s + 7) << 5;
- crypto_int64 h3 = load_3(s + 10) << 3;
- crypto_int64 h4 = load_3(s + 13) << 2;
- crypto_int64 h5 = load_4(s + 16);
- crypto_int64 h6 = load_3(s + 20) << 7;
- crypto_int64 h7 = load_3(s + 23) << 5;
- crypto_int64 h8 = load_3(s + 26) << 4;
- crypto_int64 h9 = load_3(s + 29) << 2;
- crypto_int64 carry0;
- crypto_int64 carry1;
- crypto_int64 carry2;
- crypto_int64 carry3;
- crypto_int64 carry4;
- crypto_int64 carry5;
- crypto_int64 carry6;
- crypto_int64 carry7;
- crypto_int64 carry8;
- crypto_int64 carry9;
- carry9 = (h9 + (crypto_int64) (1<<24)) >> 25; h0 += carry9 * 19; h9 -= carry9 << 25;
- carry1 = (h1 + (crypto_int64) (1<<24)) >> 25; h2 += carry1; h1 -= carry1 << 25;
- carry3 = (h3 + (crypto_int64) (1<<24)) >> 25; h4 += carry3; h3 -= carry3 << 25;
- carry5 = (h5 + (crypto_int64) (1<<24)) >> 25; h6 += carry5; h5 -= carry5 << 25;
- carry7 = (h7 + (crypto_int64) (1<<24)) >> 25; h8 += carry7; h7 -= carry7 << 25;
- carry0 = (h0 + (crypto_int64) (1<<25)) >> 26; h1 += carry0; h0 -= carry0 << 26;
- carry2 = (h2 + (crypto_int64) (1<<25)) >> 26; h3 += carry2; h2 -= carry2 << 26;
- carry4 = (h4 + (crypto_int64) (1<<25)) >> 26; h5 += carry4; h4 -= carry4 << 26;
- carry6 = (h6 + (crypto_int64) (1<<25)) >> 26; h7 += carry6; h6 -= carry6 << 26;
- carry8 = (h8 + (crypto_int64) (1<<25)) >> 26; h9 += carry8; h8 -= carry8 << 26;
- h[0] = h0;
- h[1] = h1;
- h[2] = h2;
- h[3] = h3;
- h[4] = h4;
- h[5] = h5;
- h[6] = h6;
- h[7] = h7;
- h[8] = h8;
- h[9] = h9;
- }
- /*
- h = f * g
- Can overlap h with f or g.
- Preconditions:
- |f| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc.
- |g| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc.
- Postconditions:
- |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc.
- */
- /*
- Notes on implementation strategy:
- Using schoolbook multiplication.
- Karatsuba would save a little in some cost models.
- Most multiplications by 2 and 19 are 32-bit precomputations;
- cheaper than 64-bit postcomputations.
- There is one remaining multiplication by 19 in the carry chain;
- one *19 precomputation can be merged into this,
- but the resulting data flow is considerably less clean.
- There are 12 carries below.
- 10 of them are 2-way parallelizable and vectorizable.
- Can get away with 11 carries, but then data flow is much deeper.
- With tighter constraints on inputs can squeeze carries into int32.
- */
- void fe_mul(fe h,fe f,fe g)
- {
- crypto_int32 f0 = f[0];
- crypto_int32 f1 = f[1];
- crypto_int32 f2 = f[2];
- crypto_int32 f3 = f[3];
- crypto_int32 f4 = f[4];
- crypto_int32 f5 = f[5];
- crypto_int32 f6 = f[6];
- crypto_int32 f7 = f[7];
- crypto_int32 f8 = f[8];
- crypto_int32 f9 = f[9];
- crypto_int32 g0 = g[0];
- crypto_int32 g1 = g[1];
- crypto_int32 g2 = g[2];
- crypto_int32 g3 = g[3];
- crypto_int32 g4 = g[4];
- crypto_int32 g5 = g[5];
- crypto_int32 g6 = g[6];
- crypto_int32 g7 = g[7];
- crypto_int32 g8 = g[8];
- crypto_int32 g9 = g[9];
- crypto_int32 g1_19 = 19 * g1; /* 1.4*2^29 */
- crypto_int32 g2_19 = 19 * g2; /* 1.4*2^30; still ok */
- crypto_int32 g3_19 = 19 * g3;
- crypto_int32 g4_19 = 19 * g4;
- crypto_int32 g5_19 = 19 * g5;
- crypto_int32 g6_19 = 19 * g6;
- crypto_int32 g7_19 = 19 * g7;
- crypto_int32 g8_19 = 19 * g8;
- crypto_int32 g9_19 = 19 * g9;
- crypto_int32 f1_2 = 2 * f1;
- crypto_int32 f3_2 = 2 * f3;
- crypto_int32 f5_2 = 2 * f5;
- crypto_int32 f7_2 = 2 * f7;
- crypto_int32 f9_2 = 2 * f9;
- crypto_int64 f0g0 = f0 * (crypto_int64) g0;
- crypto_int64 f0g1 = f0 * (crypto_int64) g1;
- crypto_int64 f0g2 = f0 * (crypto_int64) g2;
- crypto_int64 f0g3 = f0 * (crypto_int64) g3;
- crypto_int64 f0g4 = f0 * (crypto_int64) g4;
- crypto_int64 f0g5 = f0 * (crypto_int64) g5;
- crypto_int64 f0g6 = f0 * (crypto_int64) g6;
- crypto_int64 f0g7 = f0 * (crypto_int64) g7;
- crypto_int64 f0g8 = f0 * (crypto_int64) g8;
- crypto_int64 f0g9 = f0 * (crypto_int64) g9;
- crypto_int64 f1g0 = f1 * (crypto_int64) g0;
- crypto_int64 f1g1_2 = f1_2 * (crypto_int64) g1;
- crypto_int64 f1g2 = f1 * (crypto_int64) g2;
- crypto_int64 f1g3_2 = f1_2 * (crypto_int64) g3;
- crypto_int64 f1g4 = f1 * (crypto_int64) g4;
- crypto_int64 f1g5_2 = f1_2 * (crypto_int64) g5;
- crypto_int64 f1g6 = f1 * (crypto_int64) g6;
- crypto_int64 f1g7_2 = f1_2 * (crypto_int64) g7;
- crypto_int64 f1g8 = f1 * (crypto_int64) g8;
- crypto_int64 f1g9_38 = f1_2 * (crypto_int64) g9_19;
- crypto_int64 f2g0 = f2 * (crypto_int64) g0;
- crypto_int64 f2g1 = f2 * (crypto_int64) g1;
- crypto_int64 f2g2 = f2 * (crypto_int64) g2;
- crypto_int64 f2g3 = f2 * (crypto_int64) g3;
- crypto_int64 f2g4 = f2 * (crypto_int64) g4;
- crypto_int64 f2g5 = f2 * (crypto_int64) g5;
- crypto_int64 f2g6 = f2 * (crypto_int64) g6;
- crypto_int64 f2g7 = f2 * (crypto_int64) g7;
- crypto_int64 f2g8_19 = f2 * (crypto_int64) g8_19;
- crypto_int64 f2g9_19 = f2 * (crypto_int64) g9_19;
- crypto_int64 f3g0 = f3 * (crypto_int64) g0;
- crypto_int64 f3g1_2 = f3_2 * (crypto_int64) g1;
- crypto_int64 f3g2 = f3 * (crypto_int64) g2;
- crypto_int64 f3g3_2 = f3_2 * (crypto_int64) g3;
- crypto_int64 f3g4 = f3 * (crypto_int64) g4;
- crypto_int64 f3g5_2 = f3_2 * (crypto_int64) g5;
- crypto_int64 f3g6 = f3 * (crypto_int64) g6;
- crypto_int64 f3g7_38 = f3_2 * (crypto_int64) g7_19;
- crypto_int64 f3g8_19 = f3 * (crypto_int64) g8_19;
- crypto_int64 f3g9_38 = f3_2 * (crypto_int64) g9_19;
- crypto_int64 f4g0 = f4 * (crypto_int64) g0;
- crypto_int64 f4g1 = f4 * (crypto_int64) g1;
- crypto_int64 f4g2 = f4 * (crypto_int64) g2;
- crypto_int64 f4g3 = f4 * (crypto_int64) g3;
- crypto_int64 f4g4 = f4 * (crypto_int64) g4;
- crypto_int64 f4g5 = f4 * (crypto_int64) g5;
- crypto_int64 f4g6_19 = f4 * (crypto_int64) g6_19;
- crypto_int64 f4g7_19 = f4 * (crypto_int64) g7_19;
- crypto_int64 f4g8_19 = f4 * (crypto_int64) g8_19;
- crypto_int64 f4g9_19 = f4 * (crypto_int64) g9_19;
- crypto_int64 f5g0 = f5 * (crypto_int64) g0;
- crypto_int64 f5g1_2 = f5_2 * (crypto_int64) g1;
- crypto_int64 f5g2 = f5 * (crypto_int64) g2;
- crypto_int64 f5g3_2 = f5_2 * (crypto_int64) g3;
- crypto_int64 f5g4 = f5 * (crypto_int64) g4;
- crypto_int64 f5g5_38 = f5_2 * (crypto_int64) g5_19;
- crypto_int64 f5g6_19 = f5 * (crypto_int64) g6_19;
- crypto_int64 f5g7_38 = f5_2 * (crypto_int64) g7_19;
- crypto_int64 f5g8_19 = f5 * (crypto_int64) g8_19;
- crypto_int64 f5g9_38 = f5_2 * (crypto_int64) g9_19;
- crypto_int64 f6g0 = f6 * (crypto_int64) g0;
- crypto_int64 f6g1 = f6 * (crypto_int64) g1;
- crypto_int64 f6g2 = f6 * (crypto_int64) g2;
- crypto_int64 f6g3 = f6 * (crypto_int64) g3;
- crypto_int64 f6g4_19 = f6 * (crypto_int64) g4_19;
- crypto_int64 f6g5_19 = f6 * (crypto_int64) g5_19;
- crypto_int64 f6g6_19 = f6 * (crypto_int64) g6_19;
- crypto_int64 f6g7_19 = f6 * (crypto_int64) g7_19;
- crypto_int64 f6g8_19 = f6 * (crypto_int64) g8_19;
- crypto_int64 f6g9_19 = f6 * (crypto_int64) g9_19;
- crypto_int64 f7g0 = f7 * (crypto_int64) g0;
- crypto_int64 f7g1_2 = f7_2 * (crypto_int64) g1;
- crypto_int64 f7g2 = f7 * (crypto_int64) g2;
- crypto_int64 f7g3_38 = f7_2 * (crypto_int64) g3_19;
- crypto_int64 f7g4_19 = f7 * (crypto_int64) g4_19;
- crypto_int64 f7g5_38 = f7_2 * (crypto_int64) g5_19;
- crypto_int64 f7g6_19 = f7 * (crypto_int64) g6_19;
- crypto_int64 f7g7_38 = f7_2 * (crypto_int64) g7_19;
- crypto_int64 f7g8_19 = f7 * (crypto_int64) g8_19;
- crypto_int64 f7g9_38 = f7_2 * (crypto_int64) g9_19;
- crypto_int64 f8g0 = f8 * (crypto_int64) g0;
- crypto_int64 f8g1 = f8 * (crypto_int64) g1;
- crypto_int64 f8g2_19 = f8 * (crypto_int64) g2_19;
- crypto_int64 f8g3_19 = f8 * (crypto_int64) g3_19;
- crypto_int64 f8g4_19 = f8 * (crypto_int64) g4_19;
- crypto_int64 f8g5_19 = f8 * (crypto_int64) g5_19;
- crypto_int64 f8g6_19 = f8 * (crypto_int64) g6_19;
- crypto_int64 f8g7_19 = f8 * (crypto_int64) g7_19;
- crypto_int64 f8g8_19 = f8 * (crypto_int64) g8_19;
- crypto_int64 f8g9_19 = f8 * (crypto_int64) g9_19;
- crypto_int64 f9g0 = f9 * (crypto_int64) g0;
- crypto_int64 f9g1_38 = f9_2 * (crypto_int64) g1_19;
- crypto_int64 f9g2_19 = f9 * (crypto_int64) g2_19;
- crypto_int64 f9g3_38 = f9_2 * (crypto_int64) g3_19;
- crypto_int64 f9g4_19 = f9 * (crypto_int64) g4_19;
- crypto_int64 f9g5_38 = f9_2 * (crypto_int64) g5_19;
- crypto_int64 f9g6_19 = f9 * (crypto_int64) g6_19;
- crypto_int64 f9g7_38 = f9_2 * (crypto_int64) g7_19;
- crypto_int64 f9g8_19 = f9 * (crypto_int64) g8_19;
- crypto_int64 f9g9_38 = f9_2 * (crypto_int64) g9_19;
- crypto_int64 h0 = f0g0+f1g9_38+f2g8_19+f3g7_38+f4g6_19+f5g5_38+f6g4_19+f7g3_38+f8g2_19+f9g1_38;
- crypto_int64 h1 = f0g1+f1g0 +f2g9_19+f3g8_19+f4g7_19+f5g6_19+f6g5_19+f7g4_19+f8g3_19+f9g2_19;
- crypto_int64 h2 = f0g2+f1g1_2 +f2g0 +f3g9_38+f4g8_19+f5g7_38+f6g6_19+f7g5_38+f8g4_19+f9g3_38;
- crypto_int64 h3 = f0g3+f1g2 +f2g1 +f3g0 +f4g9_19+f5g8_19+f6g7_19+f7g6_19+f8g5_19+f9g4_19;
- crypto_int64 h4 = f0g4+f1g3_2 +f2g2 +f3g1_2 +f4g0 +f5g9_38+f6g8_19+f7g7_38+f8g6_19+f9g5_38;
- crypto_int64 h5 = f0g5+f1g4 +f2g3 +f3g2 +f4g1 +f5g0 +f6g9_19+f7g8_19+f8g7_19+f9g6_19;
- crypto_int64 h6 = f0g6+f1g5_2 +f2g4 +f3g3_2 +f4g2 +f5g1_2 +f6g0 +f7g9_38+f8g8_19+f9g7_38;
- crypto_int64 h7 = f0g7+f1g6 +f2g5 +f3g4 +f4g3 +f5g2 +f6g1 +f7g0 +f8g9_19+f9g8_19;
- crypto_int64 h8 = f0g8+f1g7_2 +f2g6 +f3g5_2 +f4g4 +f5g3_2 +f6g2 +f7g1_2 +f8g0 +f9g9_38;
- crypto_int64 h9 = f0g9+f1g8 +f2g7 +f3g6 +f4g5 +f5g4 +f6g3 +f7g2 +f8g1 +f9g0 ;
- crypto_int64 carry0;
- crypto_int64 carry1;
- crypto_int64 carry2;
- crypto_int64 carry3;
- crypto_int64 carry4;
- crypto_int64 carry5;
- crypto_int64 carry6;
- crypto_int64 carry7;
- crypto_int64 carry8;
- crypto_int64 carry9;
- /*
- |h0| <= (1.1*1.1*2^52*(1+19+19+19+19)+1.1*1.1*2^50*(38+38+38+38+38))
- i.e. |h0| <= 1.2*2^59; narrower ranges for h2, h4, h6, h8
- |h1| <= (1.1*1.1*2^51*(1+1+19+19+19+19+19+19+19+19))
- i.e. |h1| <= 1.5*2^58; narrower ranges for h3, h5, h7, h9
- */
- carry0 = (h0 + (crypto_int64) (1<<25)) >> 26; h1 += carry0; h0 -= carry0 << 26;
- carry4 = (h4 + (crypto_int64) (1<<25)) >> 26; h5 += carry4; h4 -= carry4 << 26;
- /* |h0| <= 2^25 */
- /* |h4| <= 2^25 */
- /* |h1| <= 1.51*2^58 */
- /* |h5| <= 1.51*2^58 */
- carry1 = (h1 + (crypto_int64) (1<<24)) >> 25; h2 += carry1; h1 -= carry1 << 25;
- carry5 = (h5 + (crypto_int64) (1<<24)) >> 25; h6 += carry5; h5 -= carry5 << 25;
- /* |h1| <= 2^24; from now on fits into int32 */
- /* |h5| <= 2^24; from now on fits into int32 */
- /* |h2| <= 1.21*2^59 */
- /* |h6| <= 1.21*2^59 */
- carry2 = (h2 + (crypto_int64) (1<<25)) >> 26; h3 += carry2; h2 -= carry2 << 26;
- carry6 = (h6 + (crypto_int64) (1<<25)) >> 26; h7 += carry6; h6 -= carry6 << 26;
- /* |h2| <= 2^25; from now on fits into int32 unchanged */
- /* |h6| <= 2^25; from now on fits into int32 unchanged */
- /* |h3| <= 1.51*2^58 */
- /* |h7| <= 1.51*2^58 */
- carry3 = (h3 + (crypto_int64) (1<<24)) >> 25; h4 += carry3; h3 -= carry3 << 25;
- carry7 = (h7 + (crypto_int64) (1<<24)) >> 25; h8 += carry7; h7 -= carry7 << 25;
- /* |h3| <= 2^24; from now on fits into int32 unchanged */
- /* |h7| <= 2^24; from now on fits into int32 unchanged */
- /* |h4| <= 1.52*2^33 */
- /* |h8| <= 1.52*2^33 */
- carry4 = (h4 + (crypto_int64) (1<<25)) >> 26; h5 += carry4; h4 -= carry4 << 26;
- carry8 = (h8 + (crypto_int64) (1<<25)) >> 26; h9 += carry8; h8 -= carry8 << 26;
- /* |h4| <= 2^25; from now on fits into int32 unchanged */
- /* |h8| <= 2^25; from now on fits into int32 unchanged */
- /* |h5| <= 1.01*2^24 */
- /* |h9| <= 1.51*2^58 */
- carry9 = (h9 + (crypto_int64) (1<<24)) >> 25; h0 += carry9 * 19; h9 -= carry9 << 25;
- /* |h9| <= 2^24; from now on fits into int32 unchanged */
- /* |h0| <= 1.8*2^37 */
- carry0 = (h0 + (crypto_int64) (1<<25)) >> 26; h1 += carry0; h0 -= carry0 << 26;
- /* |h0| <= 2^25; from now on fits into int32 unchanged */
- /* |h1| <= 1.01*2^24 */
- h[0] = h0;
- h[1] = h1;
- h[2] = h2;
- h[3] = h3;
- h[4] = h4;
- h[5] = h5;
- h[6] = h6;
- h[7] = h7;
- h[8] = h8;
- h[9] = h9;
- }
- /*
- h = f * 121666
- Can overlap h with f.
- Preconditions:
- |f| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc.
- Postconditions:
- |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc.
- */
- void fe_mul121666(fe h,fe f)
- {
- crypto_int32 f0 = f[0];
- crypto_int32 f1 = f[1];
- crypto_int32 f2 = f[2];
- crypto_int32 f3 = f[3];
- crypto_int32 f4 = f[4];
- crypto_int32 f5 = f[5];
- crypto_int32 f6 = f[6];
- crypto_int32 f7 = f[7];
- crypto_int32 f8 = f[8];
- crypto_int32 f9 = f[9];
- crypto_int64 h0 = f0 * (crypto_int64) 121666;
- crypto_int64 h1 = f1 * (crypto_int64) 121666;
- crypto_int64 h2 = f2 * (crypto_int64) 121666;
- crypto_int64 h3 = f3 * (crypto_int64) 121666;
- crypto_int64 h4 = f4 * (crypto_int64) 121666;
- crypto_int64 h5 = f5 * (crypto_int64) 121666;
- crypto_int64 h6 = f6 * (crypto_int64) 121666;
- crypto_int64 h7 = f7 * (crypto_int64) 121666;
- crypto_int64 h8 = f8 * (crypto_int64) 121666;
- crypto_int64 h9 = f9 * (crypto_int64) 121666;
- crypto_int64 carry0;
- crypto_int64 carry1;
- crypto_int64 carry2;
- crypto_int64 carry3;
- crypto_int64 carry4;
- crypto_int64 carry5;
- crypto_int64 carry6;
- crypto_int64 carry7;
- crypto_int64 carry8;
- crypto_int64 carry9;
- carry9 = (h9 + (crypto_int64) (1<<24)) >> 25; h0 += carry9 * 19; h9 -= carry9 << 25;
- carry1 = (h1 + (crypto_int64) (1<<24)) >> 25; h2 += carry1; h1 -= carry1 << 25;
- carry3 = (h3 + (crypto_int64) (1<<24)) >> 25; h4 += carry3; h3 -= carry3 << 25;
- carry5 = (h5 + (crypto_int64) (1<<24)) >> 25; h6 += carry5; h5 -= carry5 << 25;
- carry7 = (h7 + (crypto_int64) (1<<24)) >> 25; h8 += carry7; h7 -= carry7 << 25;
- carry0 = (h0 + (crypto_int64) (1<<25)) >> 26; h1 += carry0; h0 -= carry0 << 26;
- carry2 = (h2 + (crypto_int64) (1<<25)) >> 26; h3 += carry2; h2 -= carry2 << 26;
- carry4 = (h4 + (crypto_int64) (1<<25)) >> 26; h5 += carry4; h4 -= carry4 << 26;
- carry6 = (h6 + (crypto_int64) (1<<25)) >> 26; h7 += carry6; h6 -= carry6 << 26;
- carry8 = (h8 + (crypto_int64) (1<<25)) >> 26; h9 += carry8; h8 -= carry8 << 26;
- h[0] = h0;
- h[1] = h1;
- h[2] = h2;
- h[3] = h3;
- h[4] = h4;
- h[5] = h5;
- h[6] = h6;
- h[7] = h7;
- h[8] = h8;
- h[9] = h9;
- }
- /*
- h = f * f
- Can overlap h with f.
- Preconditions:
- |f| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc.
- Postconditions:
- |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc.
- */
- /*
- See fe_mul.c for discussion of implementation strategy.
- */
- void fe_sq(fe h,fe f)
- {
- crypto_int32 f0 = f[0];
- crypto_int32 f1 = f[1];
- crypto_int32 f2 = f[2];
- crypto_int32 f3 = f[3];
- crypto_int32 f4 = f[4];
- crypto_int32 f5 = f[5];
- crypto_int32 f6 = f[6];
- crypto_int32 f7 = f[7];
- crypto_int32 f8 = f[8];
- crypto_int32 f9 = f[9];
- crypto_int32 f0_2 = 2 * f0;
- crypto_int32 f1_2 = 2 * f1;
- crypto_int32 f2_2 = 2 * f2;
- crypto_int32 f3_2 = 2 * f3;
- crypto_int32 f4_2 = 2 * f4;
- crypto_int32 f5_2 = 2 * f5;
- crypto_int32 f6_2 = 2 * f6;
- crypto_int32 f7_2 = 2 * f7;
- crypto_int32 f5_38 = 38 * f5; /* 1.31*2^30 */
- crypto_int32 f6_19 = 19 * f6; /* 1.31*2^30 */
- crypto_int32 f7_38 = 38 * f7; /* 1.31*2^30 */
- crypto_int32 f8_19 = 19 * f8; /* 1.31*2^30 */
- crypto_int32 f9_38 = 38 * f9; /* 1.31*2^30 */
- crypto_int64 f0f0 = f0 * (crypto_int64) f0;
- crypto_int64 f0f1_2 = f0_2 * (crypto_int64) f1;
- crypto_int64 f0f2_2 = f0_2 * (crypto_int64) f2;
- crypto_int64 f0f3_2 = f0_2 * (crypto_int64) f3;
- crypto_int64 f0f4_2 = f0_2 * (crypto_int64) f4;
- crypto_int64 f0f5_2 = f0_2 * (crypto_int64) f5;
- crypto_int64 f0f6_2 = f0_2 * (crypto_int64) f6;
- crypto_int64 f0f7_2 = f0_2 * (crypto_int64) f7;
- crypto_int64 f0f8_2 = f0_2 * (crypto_int64) f8;
- crypto_int64 f0f9_2 = f0_2 * (crypto_int64) f9;
- crypto_int64 f1f1_2 = f1_2 * (crypto_int64) f1;
- crypto_int64 f1f2_2 = f1_2 * (crypto_int64) f2;
- crypto_int64 f1f3_4 = f1_2 * (crypto_int64) f3_2;
- crypto_int64 f1f4_2 = f1_2 * (crypto_int64) f4;
- crypto_int64 f1f5_4 = f1_2 * (crypto_int64) f5_2;
- crypto_int64 f1f6_2 = f1_2 * (crypto_int64) f6;
- crypto_int64 f1f7_4 = f1_2 * (crypto_int64) f7_2;
- crypto_int64 f1f8_2 = f1_2 * (crypto_int64) f8;
- crypto_int64 f1f9_76 = f1_2 * (crypto_int64) f9_38;
- crypto_int64 f2f2 = f2 * (crypto_int64) f2;
- crypto_int64 f2f3_2 = f2_2 * (crypto_int64) f3;
- crypto_int64 f2f4_2 = f2_2 * (crypto_int64) f4;
- crypto_int64 f2f5_2 = f2_2 * (crypto_int64) f5;
- crypto_int64 f2f6_2 = f2_2 * (crypto_int64) f6;
- crypto_int64 f2f7_2 = f2_2 * (crypto_int64) f7;
- crypto_int64 f2f8_38 = f2_2 * (crypto_int64) f8_19;
- crypto_int64 f2f9_38 = f2 * (crypto_int64) f9_38;
- crypto_int64 f3f3_2 = f3_2 * (crypto_int64) f3;
- crypto_int64 f3f4_2 = f3_2 * (crypto_int64) f4;
- crypto_int64 f3f5_4 = f3_2 * (crypto_int64) f5_2;
- crypto_int64 f3f6_2 = f3_2 * (crypto_int64) f6;
- crypto_int64 f3f7_76 = f3_2 * (crypto_int64) f7_38;
- crypto_int64 f3f8_38 = f3_2 * (crypto_int64) f8_19;
- crypto_int64 f3f9_76 = f3_2 * (crypto_int64) f9_38;
- crypto_int64 f4f4 = f4 * (crypto_int64) f4;
- crypto_int64 f4f5_2 = f4_2 * (crypto_int64) f5;
- crypto_int64 f4f6_38 = f4_2 * (crypto_int64) f6_19;
- crypto_int64 f4f7_38 = f4 * (crypto_int64) f7_38;
- crypto_int64 f4f8_38 = f4_2 * (crypto_int64) f8_19;
- crypto_int64 f4f9_38 = f4 * (crypto_int64) f9_38;
- crypto_int64 f5f5_38 = f5 * (crypto_int64) f5_38;
- crypto_int64 f5f6_38 = f5_2 * (crypto_int64) f6_19;
- crypto_int64 f5f7_76 = f5_2 * (crypto_int64) f7_38;
- crypto_int64 f5f8_38 = f5_2 * (crypto_int64) f8_19;
- crypto_int64 f5f9_76 = f5_2 * (crypto_int64) f9_38;
- crypto_int64 f6f6_19 = f6 * (crypto_int64) f6_19;
- crypto_int64 f6f7_38 = f6 * (crypto_int64) f7_38;
- crypto_int64 f6f8_38 = f6_2 * (crypto_int64) f8_19;
- crypto_int64 f6f9_38 = f6 * (crypto_int64) f9_38;
- crypto_int64 f7f7_38 = f7 * (crypto_int64) f7_38;
- crypto_int64 f7f8_38 = f7_2 * (crypto_int64) f8_19;
- crypto_int64 f7f9_76 = f7_2 * (crypto_int64) f9_38;
- crypto_int64 f8f8_19 = f8 * (crypto_int64) f8_19;
- crypto_int64 f8f9_38 = f8 * (crypto_int64) f9_38;
- crypto_int64 f9f9_38 = f9 * (crypto_int64) f9_38;
- crypto_int64 h0 = f0f0 +f1f9_76+f2f8_38+f3f7_76+f4f6_38+f5f5_38;
- crypto_int64 h1 = f0f1_2+f2f9_38+f3f8_38+f4f7_38+f5f6_38;
- crypto_int64 h2 = f0f2_2+f1f1_2 +f3f9_76+f4f8_38+f5f7_76+f6f6_19;
- crypto_int64 h3 = f0f3_2+f1f2_2 +f4f9_38+f5f8_38+f6f7_38;
- crypto_int64 h4 = f0f4_2+f1f3_4 +f2f2 +f5f9_76+f6f8_38+f7f7_38;
- crypto_int64 h5 = f0f5_2+f1f4_2 +f2f3_2 +f6f9_38+f7f8_38;
- crypto_int64 h6 = f0f6_2+f1f5_4 +f2f4_2 +f3f3_2 +f7f9_76+f8f8_19;
- crypto_int64 h7 = f0f7_2+f1f6_2 +f2f5_2 +f3f4_2 +f8f9_38;
- crypto_int64 h8 = f0f8_2+f1f7_4 +f2f6_2 +f3f5_4 +f4f4 +f9f9_38;
- crypto_int64 h9 = f0f9_2+f1f8_2 +f2f7_2 +f3f6_2 +f4f5_2;
- crypto_int64 carry0;
- crypto_int64 carry1;
- crypto_int64 carry2;
- crypto_int64 carry3;
- crypto_int64 carry4;
- crypto_int64 carry5;
- crypto_int64 carry6;
- crypto_int64 carry7;
- crypto_int64 carry8;
- crypto_int64 carry9;
- carry0 = (h0 + (crypto_int64) (1<<25)) >> 26; h1 += carry0; h0 -= carry0 << 26;
- carry4 = (h4 + (crypto_int64) (1<<25)) >> 26; h5 += carry4; h4 -= carry4 << 26;
- carry1 = (h1 + (crypto_int64) (1<<24)) >> 25; h2 += carry1; h1 -= carry1 << 25;
- carry5 = (h5 + (crypto_int64) (1<<24)) >> 25; h6 += carry5; h5 -= carry5 << 25;
- carry2 = (h2 + (crypto_int64) (1<<25)) >> 26; h3 += carry2; h2 -= carry2 << 26;
- carry6 = (h6 + (crypto_int64) (1<<25)) >> 26; h7 += carry6; h6 -= carry6 << 26;
- carry3 = (h3 + (crypto_int64) (1<<24)) >> 25; h4 += carry3; h3 -= carry3 << 25;
- carry7 = (h7 + (crypto_int64) (1<<24)) >> 25; h8 += carry7; h7 -= carry7 << 25;
- carry4 = (h4 + (crypto_int64) (1<<25)) >> 26; h5 += carry4; h4 -= carry4 << 26;
- carry8 = (h8 + (crypto_int64) (1<<25)) >> 26; h9 += carry8; h8 -= carry8 << 26;
- carry9 = (h9 + (crypto_int64) (1<<24)) >> 25; h0 += carry9 * 19; h9 -= carry9 << 25;
- carry0 = (h0 + (crypto_int64) (1<<25)) >> 26; h1 += carry0; h0 -= carry0 << 26;
- h[0] = h0;
- h[1] = h1;
- h[2] = h2;
- h[3] = h3;
- h[4] = h4;
- h[5] = h5;
- h[6] = h6;
- h[7] = h7;
- h[8] = h8;
- h[9] = h9;
- }
- /*
- h = f - g
- Can overlap h with f or g.
- Preconditions:
- |f| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc.
- |g| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc.
- Postconditions:
- |h| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc.
- */
- void fe_sub(fe h,fe f,fe g)
- {
- crypto_int32 f0 = f[0];
- crypto_int32 f1 = f[1];
- crypto_int32 f2 = f[2];
- crypto_int32 f3 = f[3];
- crypto_int32 f4 = f[4];
- crypto_int32 f5 = f[5];
- crypto_int32 f6 = f[6];
- crypto_int32 f7 = f[7];
- crypto_int32 f8 = f[8];
- crypto_int32 f9 = f[9];
- crypto_int32 g0 = g[0];
- crypto_int32 g1 = g[1];
- crypto_int32 g2 = g[2];
- crypto_int32 g3 = g[3];
- crypto_int32 g4 = g[4];
- crypto_int32 g5 = g[5];
- crypto_int32 g6 = g[6];
- crypto_int32 g7 = g[7];
- crypto_int32 g8 = g[8];
- crypto_int32 g9 = g[9];
- crypto_int32 h0 = f0 - g0;
- crypto_int32 h1 = f1 - g1;
- crypto_int32 h2 = f2 - g2;
- crypto_int32 h3 = f3 - g3;
- crypto_int32 h4 = f4 - g4;
- crypto_int32 h5 = f5 - g5;
- crypto_int32 h6 = f6 - g6;
- crypto_int32 h7 = f7 - g7;
- crypto_int32 h8 = f8 - g8;
- crypto_int32 h9 = f9 - g9;
- h[0] = h0;
- h[1] = h1;
- h[2] = h2;
- h[3] = h3;
- h[4] = h4;
- h[5] = h5;
- h[6] = h6;
- h[7] = h7;
- h[8] = h8;
- h[9] = h9;
- }
- /*
- Preconditions:
- |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc.
- Write p=2^255-19; q=floor(h/p).
- Basic claim: q = floor(2^(-255)(h + 19 2^(-25)h9 + 2^(-1))).
- Proof:
- Have |h|<=p so |q|<=1 so |19^2 2^(-255) q|<1/4.
- Also have |h-2^230 h9|<2^230 so |19 2^(-255)(h-2^230 h9)|<1/4.
- Write y=2^(-1)-19^2 2^(-255)q-19 2^(-255)(h-2^230 h9).
- Then 0<y<1.
- Write r=h-pq.
- Have 0<=r<=p-1=2^255-20.
- Thus 0<=r+19(2^-255)r<r+19(2^-255)2^255<=2^255-1.
- Write x=r+19(2^-255)r+y.
- Then 0<x<2^255 so floor(2^(-255)x) = 0 so floor(q+2^(-255)x) = q.
- Have q+2^(-255)x = 2^(-255)(h + 19 2^(-25) h9 + 2^(-1))
- so floor(2^(-255)(h + 19 2^(-25) h9 + 2^(-1))) = q.
- */
- void fe_tobytes(unsigned char *s,fe h)
- {
- crypto_int32 h0 = h[0];
- crypto_int32 h1 = h[1];
- crypto_int32 h2 = h[2];
- crypto_int32 h3 = h[3];
- crypto_int32 h4 = h[4];
- crypto_int32 h5 = h[5];
- crypto_int32 h6 = h[6];
- crypto_int32 h7 = h[7];
- crypto_int32 h8 = h[8];
- crypto_int32 h9 = h[9];
- crypto_int32 q;
- crypto_int32 carry0;
- crypto_int32 carry1;
- crypto_int32 carry2;
- crypto_int32 carry3;
- crypto_int32 carry4;
- crypto_int32 carry5;
- crypto_int32 carry6;
- crypto_int32 carry7;
- crypto_int32 carry8;
- crypto_int32 carry9;
- q = (19 * h9 + (((crypto_int32) 1) << 24)) >> 25;
- q = (h0 + q) >> 26;
- q = (h1 + q) >> 25;
- q = (h2 + q) >> 26;
- q = (h3 + q) >> 25;
- q = (h4 + q) >> 26;
- q = (h5 + q) >> 25;
- q = (h6 + q) >> 26;
- q = (h7 + q) >> 25;
- q = (h8 + q) >> 26;
- q = (h9 + q) >> 25;
- /* Goal: Output h-(2^255-19)q, which is between 0 and 2^255-20. */
- h0 += 19 * q;
- /* Goal: Output h-2^255 q, which is between 0 and 2^255-20. */
- carry0 = h0 >> 26; h1 += carry0; h0 -= carry0 << 26;
- carry1 = h1 >> 25; h2 += carry1; h1 -= carry1 << 25;
- carry2 = h2 >> 26; h3 += carry2; h2 -= carry2 << 26;
- carry3 = h3 >> 25; h4 += carry3; h3 -= carry3 << 25;
- carry4 = h4 >> 26; h5 += carry4; h4 -= carry4 << 26;
- carry5 = h5 >> 25; h6 += carry5; h5 -= carry5 << 25;
- carry6 = h6 >> 26; h7 += carry6; h6 -= carry6 << 26;
- carry7 = h7 >> 25; h8 += carry7; h7 -= carry7 << 25;
- carry8 = h8 >> 26; h9 += carry8; h8 -= carry8 << 26;
- carry9 = h9 >> 25; h9 -= carry9 << 25;
- /* h10 = carry9 */
- /*
- Goal: Output h0+...+2^255 h10-2^255 q, which is between 0 and 2^255-20.
- Have h0+...+2^230 h9 between 0 and 2^255-1;
- evidently 2^255 h10-2^255 q = 0.
- Goal: Output h0+...+2^230 h9.
- */
- s[0] = h0 >> 0;
- s[1] = h0 >> 8;
- s[2] = h0 >> 16;
- s[3] = (h0 >> 24) | (h1 << 2);
- s[4] = h1 >> 6;
- s[5] = h1 >> 14;
- s[6] = (h1 >> 22) | (h2 << 3);
- s[7] = h2 >> 5;
- s[8] = h2 >> 13;
- s[9] = (h2 >> 21) | (h3 << 5);
- s[10] = h3 >> 3;
- s[11] = h3 >> 11;
- s[12] = (h3 >> 19) | (h4 << 6);
- s[13] = h4 >> 2;
- s[14] = h4 >> 10;
- s[15] = h4 >> 18;
- s[16] = h5 >> 0;
- s[17] = h5 >> 8;
- s[18] = h5 >> 16;
- s[19] = (h5 >> 24) | (h6 << 1);
- s[20] = h6 >> 7;
- s[21] = h6 >> 15;
- s[22] = (h6 >> 23) | (h7 << 3);
- s[23] = h7 >> 5;
- s[24] = h7 >> 13;
- s[25] = (h7 >> 21) | (h8 << 4);
- s[26] = h8 >> 4;
- s[27] = h8 >> 12;
- s[28] = (h8 >> 20) | (h9 << 6);
- s[29] = h9 >> 2;
- s[30] = h9 >> 10;
- s[31] = h9 >> 18;
- }
- void fe_invert(fe out,fe z)
- {
- fe t0;
- fe t1;
- fe t2;
- fe t3;
- int i;
- /* qhasm: fe z1 */
- /* qhasm: fe z2 */
- /* qhasm: fe z8 */
- /* qhasm: fe z9 */
- /* qhasm: fe z11 */
- /* qhasm: fe z22 */
- /* qhasm: fe z_5_0 */
- /* qhasm: fe z_10_5 */
- /* qhasm: fe z_10_0 */
- /* qhasm: fe z_20_10 */
- /* qhasm: fe z_20_0 */
- /* qhasm: fe z_40_20 */
- /* qhasm: fe z_40_0 */
- /* qhasm: fe z_50_10 */
- /* qhasm: fe z_50_0 */
- /* qhasm: fe z_100_50 */
- /* qhasm: fe z_100_0 */
- /* qhasm: fe z_200_100 */
- /* qhasm: fe z_200_0 */
- /* qhasm: fe z_250_50 */
- /* qhasm: fe z_250_0 */
- /* qhasm: fe z_255_5 */
- /* qhasm: fe z_255_21 */
- /* qhasm: enter pow225521 */
- /* qhasm: z2 = z1^2^1 */
- /* asm 1: fe_sq(>z2=fe#1,<z1=fe#11); for (i = 1;i < 1;++i) fe_sq(>z2=fe#1,>z2=fe#1); */
- /* asm 2: fe_sq(>z2=t0,<z1=z); for (i = 1;i < 1;++i) fe_sq(>z2=t0,>z2=t0); */
- fe_sq(t0,z); for (i = 1;i < 1;++i) fe_sq(t0,t0);
- /* qhasm: z8 = z2^2^2 */
- /* asm 1: fe_sq(>z8=fe#2,<z2=fe#1); for (i = 1;i < 2;++i) fe_sq(>z8=fe#2,>z8=fe#2); */
- /* asm 2: fe_sq(>z8=t1,<z2=t0); for (i = 1;i < 2;++i) fe_sq(>z8=t1,>z8=t1); */
- fe_sq(t1,t0); for (i = 1;i < 2;++i) fe_sq(t1,t1);
- /* qhasm: z9 = z1*z8 */
- /* asm 1: fe_mul(>z9=fe#2,<z1=fe#11,<z8=fe#2); */
- /* asm 2: fe_mul(>z9=t1,<z1=z,<z8=t1); */
- fe_mul(t1,z,t1);
- /* qhasm: z11 = z2*z9 */
- /* asm 1: fe_mul(>z11=fe#1,<z2=fe#1,<z9=fe#2); */
- /* asm 2: fe_mul(>z11=t0,<z2=t0,<z9=t1); */
- fe_mul(t0,t0,t1);
- /* qhasm: z22 = z11^2^1 */
- /* asm 1: fe_sq(>z22=fe#3,<z11=fe#1); for (i = 1;i < 1;++i) fe_sq(>z22=fe#3,>z22=fe#3); */
- /* asm 2: fe_sq(>z22=t2,<z11=t0); for (i = 1;i < 1;++i) fe_sq(>z22=t2,>z22=t2); */
- fe_sq(t2,t0); for (i = 1;i < 1;++i) fe_sq(t2,t2);
- /* qhasm: z_5_0 = z9*z22 */
- /* asm 1: fe_mul(>z_5_0=fe#2,<z9=fe#2,<z22=fe#3); */
- /* asm 2: fe_mul(>z_5_0=t1,<z9=t1,<z22=t2); */
- fe_mul(t1,t1,t2);
- /* qhasm: z_10_5 = z_5_0^2^5 */
- /* asm 1: fe_sq(>z_10_5=fe#3,<z_5_0=fe#2); for (i = 1;i < 5;++i) fe_sq(>z_10_5=fe#3,>z_10_5=fe#3); */
- /* asm 2: fe_sq(>z_10_5=t2,<z_5_0=t1); for (i = 1;i < 5;++i) fe_sq(>z_10_5=t2,>z_10_5=t2); */
- fe_sq(t2,t1); for (i = 1;i < 5;++i) fe_sq(t2,t2);
- /* qhasm: z_10_0 = z_10_5*z_5_0 */
- /* asm 1: fe_mul(>z_10_0=fe#2,<z_10_5=fe#3,<z_5_0=fe#2); */
- /* asm 2: fe_mul(>z_10_0=t1,<z_10_5=t2,<z_5_0=t1); */
- fe_mul(t1,t2,t1);
- /* qhasm: z_20_10 = z_10_0^2^10 */
- /* asm 1: fe_sq(>z_20_10=fe#3,<z_10_0=fe#2); for (i = 1;i < 10;++i) fe_sq(>z_20_10=fe#3,>z_20_10=fe#3); */
- /* asm 2: fe_sq(>z_20_10=t2,<z_10_0=t1); for (i = 1;i < 10;++i) fe_sq(>z_20_10=t2,>z_20_10=t2); */
- fe_sq(t2,t1); for (i = 1;i < 10;++i) fe_sq(t2,t2);
- /* qhasm: z_20_0 = z_20_10*z_10_0 */
- /* asm 1: fe_mul(>z_20_0=fe#3,<z_20_10=fe#3,<z_10_0=fe#2); */
- /* asm 2: fe_mul(>z_20_0=t2,<z_20_10=t2,<z_10_0=t1); */
- fe_mul(t2,t2,t1);
- /* qhasm: z_40_20 = z_20_0^2^20 */
- /* asm 1: fe_sq(>z_40_20=fe#4,<z_20_0=fe#3); for (i = 1;i < 20;++i) fe_sq(>z_40_20=fe#4,>z_40_20=fe#4); */
- /* asm 2: fe_sq(>z_40_20=t3,<z_20_0=t2); for (i = 1;i < 20;++i) fe_sq(>z_40_20=t3,>z_40_20=t3); */
- fe_sq(t3,t2); for (i = 1;i < 20;++i) fe_sq(t3,t3);
- /* qhasm: z_40_0 = z_40_20*z_20_0 */
- /* asm 1: fe_mul(>z_40_0=fe#3,<z_40_20=fe#4,<z_20_0=fe#3); */
- /* asm 2: fe_mul(>z_40_0=t2,<z_40_20=t3,<z_20_0=t2); */
- fe_mul(t2,t3,t2);
- /* qhasm: z_50_10 = z_40_0^2^10 */
- /* asm 1: fe_sq(>z_50_10=fe#3,<z_40_0=fe#3); for (i = 1;i < 10;++i) fe_sq(>z_50_10=fe#3,>z_50_10=fe#3); */
- /* asm 2: fe_sq(>z_50_10=t2,<z_40_0=t2); for (i = 1;i < 10;++i) fe_sq(>z_50_10=t2,>z_50_10=t2); */
- fe_sq(t2,t2); for (i = 1;i < 10;++i) fe_sq(t2,t2);
- /* qhasm: z_50_0 = z_50_10*z_10_0 */
- /* asm 1: fe_mul(>z_50_0=fe#2,<z_50_10=fe#3,<z_10_0=fe#2); */
- /* asm 2: fe_mul(>z_50_0=t1,<z_50_10=t2,<z_10_0=t1); */
- fe_mul(t1,t2,t1);
- /* qhasm: z_100_50 = z_50_0^2^50 */
- /* asm 1: fe_sq(>z_100_50=fe#3,<z_50_0=fe#2); for (i = 1;i < 50;++i) fe_sq(>z_100_50=fe#3,>z_100_50=fe#3); */
- /* asm 2: fe_sq(>z_100_50=t2,<z_50_0=t1); for (i = 1;i < 50;++i) fe_sq(>z_100_50=t2,>z_100_50=t2); */
- fe_sq(t2,t1); for (i = 1;i < 50;++i) fe_sq(t2,t2);
- /* qhasm: z_100_0 = z_100_50*z_50_0 */
- /* asm 1: fe_mul(>z_100_0=fe#3,<z_100_50=fe#3,<z_50_0=fe#2); */
- /* asm 2: fe_mul(>z_100_0=t2,<z_100_50=t2,<z_50_0=t1); */
- fe_mul(t2,t2,t1);
- /* qhasm: z_200_100 = z_100_0^2^100 */
- /* asm 1: fe_sq(>z_200_100=fe#4,<z_100_0=fe#3); for (i = 1;i < 100;++i) fe_sq(>z_200_100=fe#4,>z_200_100=fe#4); */
- /* asm 2: fe_sq(>z_200_100=t3,<z_100_0=t2); for (i = 1;i < 100;++i) fe_sq(>z_200_100=t3,>z_200_100=t3); */
- fe_sq(t3,t2); for (i = 1;i < 100;++i) fe_sq(t3,t3);
- /* qhasm: z_200_0 = z_200_100*z_100_0 */
- /* asm 1: fe_mul(>z_200_0=fe#3,<z_200_100=fe#4,<z_100_0=fe#3); */
- /* asm 2: fe_mul(>z_200_0=t2,<z_200_100=t3,<z_100_0=t2); */
- fe_mul(t2,t3,t2);
- /* qhasm: z_250_50 = z_200_0^2^50 */
- /* asm 1: fe_sq(>z_250_50=fe#3,<z_200_0=fe#3); for (i = 1;i < 50;++i) fe_sq(>z_250_50=fe#3,>z_250_50=fe#3); */
- /* asm 2: fe_sq(>z_250_50=t2,<z_200_0=t2); for (i = 1;i < 50;++i) fe_sq(>z_250_50=t2,>z_250_50=t2); */
- fe_sq(t2,t2); for (i = 1;i < 50;++i) fe_sq(t2,t2);
- /* qhasm: z_250_0 = z_250_50*z_50_0 */
- /* asm 1: fe_mul(>z_250_0=fe#2,<z_250_50=fe#3,<z_50_0=fe#2); */
- /* asm 2: fe_mul(>z_250_0=t1,<z_250_50=t2,<z_50_0=t1); */
- fe_mul(t1,t2,t1);
- /* qhasm: z_255_5 = z_250_0^2^5 */
- /* asm 1: fe_sq(>z_255_5=fe#2,<z_250_0=fe#2); for (i = 1;i < 5;++i) fe_sq(>z_255_5=fe#2,>z_255_5=fe#2); */
- /* asm 2: fe_sq(>z_255_5=t1,<z_250_0=t1); for (i = 1;i < 5;++i) fe_sq(>z_255_5=t1,>z_255_5=t1); */
- fe_sq(t1,t1); for (i = 1;i < 5;++i) fe_sq(t1,t1);
- /* qhasm: z_255_21 = z_255_5*z11 */
- /* asm 1: fe_mul(>z_255_21=fe#12,<z_255_5=fe#2,<z11=fe#1); */
- /* asm 2: fe_mul(>z_255_21=out,<z_255_5=t1,<z11=t0); */
- fe_mul(out,t1,t0);
- /* qhasm: return */
- return;
- }
- int crypto_scalarmult_ref10(unsigned char *q,
- const unsigned char *n,
- const unsigned char *p)
- {
- unsigned char e[32];
- unsigned int i;
- fe x1;
- fe x2;
- fe z2;
- fe x3;
- fe z3;
- fe tmp0;
- fe tmp1;
- int pos;
- unsigned int swap;
- unsigned int b;
- for (i = 0;i < 32;++i) e[i] = n[i];
- e[0] &= 248;
- e[31] &= 127;
- e[31] |= 64;
- fe_frombytes(x1,p);
- fe_1(x2);
- fe_0(z2);
- fe_copy(x3,x1);
- fe_1(z3);
- swap = 0;
- for (pos = 254;pos >= 0;--pos) {
- b = e[pos / 8] >> (pos & 7);
- b &= 1;
- swap ^= b;
- fe_cswap(x2,x3,swap);
- fe_cswap(z2,z3,swap);
- swap = b;
- /* qhasm: fe X2 */
- /* qhasm: fe Z2 */
- /* qhasm: fe X3 */
- /* qhasm: fe Z3 */
- /* qhasm: fe X4 */
- /* qhasm: fe Z4 */
- /* qhasm: fe X5 */
- /* qhasm: fe Z5 */
- /* qhasm: fe A */
- /* qhasm: fe B */
- /* qhasm: fe C */
- /* qhasm: fe D */
- /* qhasm: fe E */
- /* qhasm: fe AA */
- /* qhasm: fe BB */
- /* qhasm: fe DA */
- /* qhasm: fe CB */
- /* qhasm: fe t0 */
- /* qhasm: fe t1 */
- /* qhasm: fe t2 */
- /* qhasm: fe t3 */
- /* qhasm: fe t4 */
- /* qhasm: enter ladder */
- /* qhasm: D = X3-Z3 */
- /* asm 1: fe_sub(>D=fe#5,<X3=fe#3,<Z3=fe#4); */
- /* asm 2: fe_sub(>D=tmp0,<X3=x3,<Z3=z3); */
- fe_sub(tmp0,x3,z3);
- /* qhasm: B = X2-Z2 */
- /* asm 1: fe_sub(>B=fe#6,<X2=fe#1,<Z2=fe#2); */
- /* asm 2: fe_sub(>B=tmp1,<X2=x2,<Z2=z2); */
- fe_sub(tmp1,x2,z2);
- /* qhasm: A = X2+Z2 */
- /* asm 1: fe_add(>A=fe#1,<X2=fe#1,<Z2=fe#2); */
- /* asm 2: fe_add(>A=x2,<X2=x2,<Z2=z2); */
- fe_add(x2,x2,z2);
- /* qhasm: C = X3+Z3 */
- /* asm 1: fe_add(>C=fe#2,<X3=fe#3,<Z3=fe#4); */
- /* asm 2: fe_add(>C=z2,<X3=x3,<Z3=z3); */
- fe_add(z2,x3,z3);
- /* qhasm: DA = D*A */
- /* asm 1: fe_mul(>DA=fe#4,<D=fe#5,<A=fe#1); */
- /* asm 2: fe_mul(>DA=z3,<D=tmp0,<A=x2); */
- fe_mul(z3,tmp0,x2);
- /* qhasm: CB = C*B */
- /* asm 1: fe_mul(>CB=fe#2,<C=fe#2,<B=fe#6); */
- /* asm 2: fe_mul(>CB=z2,<C=z2,<B=tmp1); */
- fe_mul(z2,z2,tmp1);
- /* qhasm: BB = B^2 */
- /* asm 1: fe_sq(>BB=fe#5,<B=fe#6); */
- /* asm 2: fe_sq(>BB=tmp0,<B=tmp1); */
- fe_sq(tmp0,tmp1);
- /* qhasm: AA = A^2 */
- /* asm 1: fe_sq(>AA=fe#6,<A=fe#1); */
- /* asm 2: fe_sq(>AA=tmp1,<A=x2); */
- fe_sq(tmp1,x2);
- /* qhasm: t0 = DA+CB */
- /* asm 1: fe_add(>t0=fe#3,<DA=fe#4,<CB=fe#2); */
- /* asm 2: fe_add(>t0=x3,<DA=z3,<CB=z2); */
- fe_add(x3,z3,z2);
- /* qhasm: assign x3 to t0 */
- /* qhasm: t1 = DA-CB */
- /* asm 1: fe_sub(>t1=fe#2,<DA=fe#4,<CB=fe#2); */
- /* asm 2: fe_sub(>t1=z2,<DA=z3,<CB=z2); */
- fe_sub(z2,z3,z2);
- /* qhasm: X4 = AA*BB */
- /* asm 1: fe_mul(>X4=fe#1,<AA=fe#6,<BB=fe#5); */
- /* asm 2: fe_mul(>X4=x2,<AA=tmp1,<BB=tmp0); */
- fe_mul(x2,tmp1,tmp0);
- /* qhasm: E = AA-BB */
- /* asm 1: fe_sub(>E=fe#6,<AA=fe#6,<BB=fe#5); */
- /* asm 2: fe_sub(>E=tmp1,<AA=tmp1,<BB=tmp0); */
- fe_sub(tmp1,tmp1,tmp0);
- /* qhasm: t2 = t1^2 */
- /* asm 1: fe_sq(>t2=fe#2,<t1=fe#2); */
- /* asm 2: fe_sq(>t2=z2,<t1=z2); */
- fe_sq(z2,z2);
- /* qhasm: t3 = a24*E */
- /* asm 1: fe_mul121666(>t3=fe#4,<E=fe#6); */
- /* asm 2: fe_mul121666(>t3=z3,<E=tmp1); */
- fe_mul121666(z3,tmp1);
- /* qhasm: X5 = t0^2 */
- /* asm 1: fe_sq(>X5=fe#3,<t0=fe#3); */
- /* asm 2: fe_sq(>X5=x3,<t0=x3); */
- fe_sq(x3,x3);
- /* qhasm: t4 = BB+t3 */
- /* asm 1: fe_add(>t4=fe#5,<BB=fe#5,<t3=fe#4); */
- /* asm 2: fe_add(>t4=tmp0,<BB=tmp0,<t3=z3); */
- fe_add(tmp0,tmp0,z3);
- /* qhasm: Z5 = X1*t2 */
- /* asm 1: fe_mul(>Z5=fe#4,x1,<t2=fe#2); */
- /* asm 2: fe_mul(>Z5=z3,x1,<t2=z2); */
- fe_mul(z3,x1,z2);
- /* qhasm: Z4 = E*t4 */
- /* asm 1: fe_mul(>Z4=fe#2,<E=fe#6,<t4=fe#5); */
- /* asm 2: fe_mul(>Z4=z2,<E=tmp1,<t4=tmp0); */
- fe_mul(z2,tmp1,tmp0);
- /* qhasm: return */
- }
- fe_cswap(x2,x3,swap);
- fe_cswap(z2,z3,swap);
- fe_invert(z2,z2);
- fe_mul(x2,x2,z2);
- fe_tobytes(q,x2);
- return 0;
- }
- static const unsigned char basepoint[32] = {9};
- int crypto_scalarmult_base_ref10(unsigned char *q,const unsigned char *n)
- {
- return crypto_scalarmult_ref10(q,n,basepoint);
- }
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