186 lines
4.2 KiB
V
186 lines
4.2 KiB
V
module edwards25519
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const (
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dalek_scalar = Scalar{[u8(219), 106, 114, 9, 174, 249, 155, 89, 69, 203, 201, 93, 92, 116,
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234, 187, 78, 115, 103, 172, 182, 98, 62, 103, 187, 136, 13, 100, 248, 110, 12, 4]!}
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dsc_basepoint = [u8(0xf4), 0xef, 0x7c, 0xa, 0x34, 0x55, 0x7b, 0x9f, 0x72, 0x3b, 0xb6, 0x1e,
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0xf9, 0x46, 0x9, 0x91, 0x1c, 0xb9, 0xc0, 0x6c, 0x17, 0x28, 0x2d, 0x8b, 0x43, 0x2b, 0x5,
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0x18, 0x6a, 0x54, 0x3e, 0x48]
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)
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fn dalek_scalar_basepoint() Point {
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mut p := Point{}
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p.set_bytes(edwards25519.dsc_basepoint) or { panic(err) }
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return p
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}
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fn test_scalar_mult_small_scalars() {
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mut z := Scalar{}
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mut p := Point{}
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mut b := new_generator_point()
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mut i := new_identity_point()
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p.scalar_mult(mut z, b)
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assert i.equal(p) == 1
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assert check_on_curve(p) == true
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z = Scalar{[u8(1), 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
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0, 0, 0, 0, 0, 0, 0]!}
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p.scalar_mult(mut z, b)
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assert b.equal(p) == 1
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assert check_on_curve(p) == true
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}
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fn test_scalar_mult_vs_dalek() {
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mut p := Point{}
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mut b := new_generator_point()
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mut dsc := edwards25519.dalek_scalar
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p.scalar_mult(mut dsc, b)
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mut ds := dalek_scalar_basepoint()
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assert ds.equal(p) == 1
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assert check_on_curve(p) == true
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}
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fn test_scalar_base_mult_vs_dalek() {
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mut p := Point{}
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mut dsc := edwards25519.dalek_scalar
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p.scalar_base_mult(mut dsc)
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mut ds := dalek_scalar_basepoint()
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assert ds.equal(p) == 1
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assert check_on_curve(p)
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}
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fn test_vartime_double_basemult_vs_dalek() {
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mut p := Point{}
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mut z := Scalar{}
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b := new_generator_point()
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p.vartime_double_scalar_base_mult(edwards25519.dalek_scalar, b, z)
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mut ds := dalek_scalar_basepoint()
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assert ds.equal(p) == 1
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assert check_on_curve(p)
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p.vartime_double_scalar_base_mult(z, b, edwards25519.dalek_scalar)
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assert ds.equal(p) == 1
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assert check_on_curve(p)
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}
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fn test_scalar_mult_distributes_over_add() {
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mut x := generate_scalar(100) or { panic(err) }
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mut y := generate_scalar(100) or { panic(err) }
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mut z := Scalar{}
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z.add(x, y)
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mut p := Point{}
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mut q := Point{}
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mut r := Point{}
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mut check := Point{}
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mut b := new_generator_point()
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p.scalar_mult(mut x, b)
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q.scalar_mult(mut y, b)
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r.scalar_mult(mut z, b)
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check.add(p, q)
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assert check_on_curve(p, q, r, check) == true
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assert check.equal(r) == 1
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}
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fn test_scalarmult_non_identity_point() ? {
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// Check whether p.ScalarMult and q.ScalaBaseMult give the same,
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// when p and q are originally set to the base point.
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mut x := generate_scalar(5000)?
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mut p := Point{}
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mut q := Point{}
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mut b := new_generator_point()
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p.set(b)
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q.set(b)
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p.scalar_mult(mut x, b)
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q.scalar_base_mult(mut x)
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assert check_on_curve(p, q) == true
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assert p.equal(q) == 1
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}
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fn test_basepoint_table_generation() {
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// The basepoint table is 32 affineLookupTables,
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// corresponding to (16^2i)*B for table i.
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bptable := basepoint_table()
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b := new_generator_point()
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mut tmp1 := ProjectiveP1{}
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mut tmp2 := ProjectiveP2{}
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mut tmp3 := Point{}
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tmp3.set(b)
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mut table := []AffineLookupTable{len: 32}
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for i := 0; i < 32; i++ {
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// Build the table
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table[i].from_p3(tmp3)
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// Assert equality with the hardcoded one
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assert table[i] == bptable[i]
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// Set p = (16^2)*p = 256*p = 2^8*p
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tmp2.from_p3(tmp3)
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for j := 0; j < 7; j++ {
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tmp1.double(tmp2)
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tmp2.from_p1(tmp1)
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}
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tmp1.double(tmp2)
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tmp3.from_p1(tmp1)
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assert check_on_curve(tmp3) == true
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}
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}
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fn test_scalar_mult_matches_base_mult() {
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mut x := generate_scalar(100) or { panic(err) }
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b := new_generator_point()
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mut p := Point{}
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mut q := Point{}
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p.scalar_mult(mut x, b)
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q.scalar_base_mult(mut x)
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assert check_on_curve(p, q) == true
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assert p.equal(q) == 1
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}
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fn test_basepoint_naf_table_generation() {
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mut table := NafLookupTable8{}
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b := new_generator_point()
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table.from_p3(b)
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bnt := basepoint_naf_table()
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assert table == bnt
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}
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fn test_vartime_double_scalar_base_mult() {
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mut x := generate_scalar(100) or { panic(err) }
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mut y := generate_scalar(100) or { panic(err) }
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b := new_generator_point()
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mut p := Point{}
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mut q1 := Point{}
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mut q2 := Point{}
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mut check := Point{}
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p.vartime_double_scalar_base_mult(x, b, y)
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q1.scalar_base_mult(mut x)
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q2.scalar_base_mult(mut y)
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check.add(q1, q2)
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assert check_on_curve(p, check, q1, q2) == true
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assert p.equal(check) == 1
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}
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