src/crypto/dsa/dsa_test.go - go - Git at Google

 // Copyright 2011 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package dsa

 import (
 	"crypto/rand"
 	"math/big"
 	"testing"
 )

 func testSignAndVerify(t *testing.T, i int, priv *PrivateKey) {
 	hashed := []byte("testing")
 	r, s, err := Sign(rand.Reader, priv, hashed)
 	if err != nil {
 		t.Errorf("%d: error signing: %s", i, err)
 		return
 	}

 	if !Verify(&priv.PublicKey, hashed, r, s) {
 		t.Errorf("%d: Verify failed", i)
 	}
 }

 func testParameterGeneration(t *testing.T, sizes ParameterSizes, L, N int) {
 	var priv PrivateKey
 	params := &priv.Parameters

 	err := GenerateParameters(params, rand.Reader, sizes)
 	if err != nil {
 		t.Errorf("%d: %s", int(sizes), err)
 		return
 	}

 	if params.P.BitLen() != L {
 		t.Errorf("%d: params.BitLen got:%d want:%d", int(sizes), params.P.BitLen(), L)
 	}

 	if params.Q.BitLen() != N {
 		t.Errorf("%d: q.BitLen got:%d want:%d", int(sizes), params.Q.BitLen(), L)
 	}

 	one := new(big.Int)
 	one.SetInt64(1)
 	pm1 := new(big.Int).Sub(params.P, one)
 	quo, rem := new(big.Int).DivMod(pm1, params.Q, new(big.Int))
 	if rem.Sign() != 0 {
 		t.Errorf("%d: p-1 mod q != 0", int(sizes))
 	}
 	x := new(big.Int).Exp(params.G, quo, params.P)
 	if x.Cmp(one) == 0 {
 		t.Errorf("%d: invalid generator", int(sizes))
 	}

 	err = GenerateKey(&priv, rand.Reader)
 	if err != nil {
 		t.Errorf("error generating key: %s", err)
 		return
 	}

 	testSignAndVerify(t, int(sizes), &priv)
 }

 func TestParameterGeneration(t *testing.T) {
 	if testing.Short() {
 		t.Skip("skipping parameter generation test in short mode")
 	}

 	testParameterGeneration(t, L1024N160, 1024, 160)
 	testParameterGeneration(t, L2048N224, 2048, 224)
 	testParameterGeneration(t, L2048N256, 2048, 256)
 	testParameterGeneration(t, L3072N256, 3072, 256)
 }

 func fromHex(s string) *big.Int {
 	result, ok := new(big.Int).SetString(s, 16)
 	if !ok {
 		panic(s)
 	}
 	return result
 }

 func TestSignAndVerify(t *testing.T) {
 	priv := PrivateKey{
 		PublicKey: PublicKey{
 			Parameters: Parameters{
 				P: fromHex("A9B5B793FB4785793D246BAE77E8FF63CA52F442DA763C440259919FE1BC1D6065A9350637A04F75A2F039401D49F08E066C4D275A5A65DA5684BC563C14289D7AB8A67163BFBF79D85972619AD2CFF55AB0EE77A9002B0EF96293BDD0F42685EBB2C66C327079F6C98000FBCB79AACDE1BC6F9D5C7B1A97E3D9D54ED7951FEF"),
 				Q: fromHex("E1D3391245933D68A0714ED34BBCB7A1F422B9C1"),
 				G: fromHex("634364FC25248933D01D1993ECABD0657CC0CB2CEED7ED2E3E8AECDFCDC4A25C3B15E9E3B163ACA2984B5539181F3EFF1A5E8903D71D5B95DA4F27202B77D2C44B430BB53741A8D59A8F86887525C9F2A6A5980A195EAA7F2FF910064301DEF89D3AA213E1FAC7768D89365318E370AF54A112EFBA9246D9158386BA1B4EEFDA"),
 			},
 			Y: fromHex("32969E5780CFE1C849A1C276D7AEB4F38A23B591739AA2FE197349AEEBD31366AEE5EB7E6C6DDB7C57D02432B30DB5AA66D9884299FAA72568944E4EEDC92EA3FBC6F39F53412FBCC563208F7C15B737AC8910DBC2D9C9B8C001E72FDC40EB694AB1F06A5A2DBD18D9E36C66F31F566742F11EC0A52E9F7B89355C02FB5D32D2"),
 		},
 		X: fromHex("5078D4D29795CBE76D3AACFE48C9AF0BCDBEE91A"),
 	}

 	testSignAndVerify(t, 0, &priv)
 }

 func TestSignAndVerifyWithBadPublicKey(t *testing.T) {
 	pub := PublicKey{
 		Parameters: Parameters{
 			P: fromHex("A9B5B793FB4785793D246BAE77E8FF63CA52F442DA763C440259919FE1BC1D6065A9350637A04F75A2F039401D49F08E066C4D275A5A65DA5684BC563C14289D7AB8A67163BFBF79D85972619AD2CFF55AB0EE77A9002B0EF96293BDD0F42685EBB2C66C327079F6C98000FBCB79AACDE1BC6F9D5C7B1A97E3D9D54ED7951FEF"),
 			Q: fromHex("FA"),
 			G: fromHex("634364FC25248933D01D1993ECABD0657CC0CB2CEED7ED2E3E8AECDFCDC4A25C3B15E9E3B163ACA2984B5539181F3EFF1A5E8903D71D5B95DA4F27202B77D2C44B430BB53741A8D59A8F86887525C9F2A6A5980A195EAA7F2FF910064301DEF89D3AA213E1FAC7768D89365318E370AF54A112EFBA9246D9158386BA1B4EEFDA"),
 		},
 		Y: fromHex("32969E5780CFE1C849A1C276D7AEB4F38A23B591739AA2FE197349AEEBD31366AEE5EB7E6C6DDB7C57D02432B30DB5AA66D9884299FAA72568944E4EEDC92EA3FBC6F39F53412FBCC563208F7C15B737AC8910DBC2D9C9B8C001E72FDC40EB694AB1F06A5A2DBD18D9E36C66F31F566742F11EC0A52E9F7B89355C02FB5D32D2"),
 	}

 	if Verify(&pub, []byte("testing"), fromHex("2"), fromHex("4")) {
 		t.Errorf("Verify unexpected success with non-existent mod inverse of Q")
 	}
 }

 func TestSigningWithDegenerateKeys(t *testing.T) {
 	// Signing with degenerate private keys should not cause an infinite
 	// loop.
 	badKeys := []struct {
 		p, q, g, y, x string
 	}{
 		{"00", "01", "00", "00", "00"},
 		{"01", "ff", "00", "00", "00"},
 	}

 	for i, test := range badKeys {
 		priv := PrivateKey{
 			PublicKey: PublicKey{
 				Parameters: Parameters{
 					P: fromHex(test.p),
 					Q: fromHex(test.q),
 					G: fromHex(test.g),
 				},
 				Y: fromHex(test.y),
 			},
 			X: fromHex(test.x),
 		}

 		hashed := []byte("testing")
 		if _, _, err := Sign(rand.Reader, &priv, hashed); err == nil {
 			t.Errorf("#%d: unexpected success", i)
 		}
 	}
 }
	// Copyright 2011 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package dsa

	import (
	"crypto/rand"
	"math/big"
	"testing"
	)

	func testSignAndVerify(t testing.T, i int, priv PrivateKey) {
	hashed := []byte("testing")
	r, s, err := Sign(rand.Reader, priv, hashed)
	if err != nil {
	t.Errorf("%d: error signing: %s", i, err)
	return
	}

	if !Verify(&priv.PublicKey, hashed, r, s) {
	t.Errorf("%d: Verify failed", i)
	}
	}

	func testParameterGeneration(t *testing.T, sizes ParameterSizes, L, N int) {
	var priv PrivateKey
	params := &priv.Parameters

	err := GenerateParameters(params, rand.Reader, sizes)
	if err != nil {
	t.Errorf("%d: %s", int(sizes), err)
	return
	}

	if params.P.BitLen() != L {
	t.Errorf("%d: params.BitLen got:%d want:%d", int(sizes), params.P.BitLen(), L)
	}

	if params.Q.BitLen() != N {
	t.Errorf("%d: q.BitLen got:%d want:%d", int(sizes), params.Q.BitLen(), L)
	}

	one := new(big.Int)
	one.SetInt64(1)
	pm1 := new(big.Int).Sub(params.P, one)
	quo, rem := new(big.Int).DivMod(pm1, params.Q, new(big.Int))
	if rem.Sign() != 0 {
	t.Errorf("%d: p-1 mod q != 0", int(sizes))
	}
	x := new(big.Int).Exp(params.G, quo, params.P)
	if x.Cmp(one) == 0 {
	t.Errorf("%d: invalid generator", int(sizes))
	}

	err = GenerateKey(&priv, rand.Reader)
	if err != nil {
	t.Errorf("error generating key: %s", err)
	return
	}

	testSignAndVerify(t, int(sizes), &priv)
	}

	func TestParameterGeneration(t *testing.T) {
	if testing.Short() {
	t.Skip("skipping parameter generation test in short mode")
	}

	testParameterGeneration(t, L1024N160, 1024, 160)
	testParameterGeneration(t, L2048N224, 2048, 224)
	testParameterGeneration(t, L2048N256, 2048, 256)
	testParameterGeneration(t, L3072N256, 3072, 256)
	}

	func fromHex(s string) *big.Int {
	result, ok := new(big.Int).SetString(s, 16)
	if !ok {
	panic(s)
	}
	return result
	}

	func TestSignAndVerify(t *testing.T) {
	priv := PrivateKey{
	PublicKey: PublicKey{
	Parameters: Parameters{
	P: fromHex("A9B5B793FB4785793D246BAE77E8FF63CA52F442DA763C440259919FE1BC1D6065A9350637A04F75A2F039401D49F08E066C4D275A5A65DA5684BC563C14289D7AB8A67163BFBF79D85972619AD2CFF55AB0EE77A9002B0EF96293BDD0F42685EBB2C66C327079F6C98000FBCB79AACDE1BC6F9D5C7B1A97E3D9D54ED7951FEF"),
	Q: fromHex("E1D3391245933D68A0714ED34BBCB7A1F422B9C1"),
	G: fromHex("634364FC25248933D01D1993ECABD0657CC0CB2CEED7ED2E3E8AECDFCDC4A25C3B15E9E3B163ACA2984B5539181F3EFF1A5E8903D71D5B95DA4F27202B77D2C44B430BB53741A8D59A8F86887525C9F2A6A5980A195EAA7F2FF910064301DEF89D3AA213E1FAC7768D89365318E370AF54A112EFBA9246D9158386BA1B4EEFDA"),
	},
	Y: fromHex("32969E5780CFE1C849A1C276D7AEB4F38A23B591739AA2FE197349AEEBD31366AEE5EB7E6C6DDB7C57D02432B30DB5AA66D9884299FAA72568944E4EEDC92EA3FBC6F39F53412FBCC563208F7C15B737AC8910DBC2D9C9B8C001E72FDC40EB694AB1F06A5A2DBD18D9E36C66F31F566742F11EC0A52E9F7B89355C02FB5D32D2"),
	},
	X: fromHex("5078D4D29795CBE76D3AACFE48C9AF0BCDBEE91A"),
	}

	testSignAndVerify(t, 0, &priv)
	}

	func TestSignAndVerifyWithBadPublicKey(t *testing.T) {
	pub := PublicKey{
	Parameters: Parameters{
	P: fromHex("A9B5B793FB4785793D246BAE77E8FF63CA52F442DA763C440259919FE1BC1D6065A9350637A04F75A2F039401D49F08E066C4D275A5A65DA5684BC563C14289D7AB8A67163BFBF79D85972619AD2CFF55AB0EE77A9002B0EF96293BDD0F42685EBB2C66C327079F6C98000FBCB79AACDE1BC6F9D5C7B1A97E3D9D54ED7951FEF"),
	Q: fromHex("FA"),
	G: fromHex("634364FC25248933D01D1993ECABD0657CC0CB2CEED7ED2E3E8AECDFCDC4A25C3B15E9E3B163ACA2984B5539181F3EFF1A5E8903D71D5B95DA4F27202B77D2C44B430BB53741A8D59A8F86887525C9F2A6A5980A195EAA7F2FF910064301DEF89D3AA213E1FAC7768D89365318E370AF54A112EFBA9246D9158386BA1B4EEFDA"),
	},
	Y: fromHex("32969E5780CFE1C849A1C276D7AEB4F38A23B591739AA2FE197349AEEBD31366AEE5EB7E6C6DDB7C57D02432B30DB5AA66D9884299FAA72568944E4EEDC92EA3FBC6F39F53412FBCC563208F7C15B737AC8910DBC2D9C9B8C001E72FDC40EB694AB1F06A5A2DBD18D9E36C66F31F566742F11EC0A52E9F7B89355C02FB5D32D2"),
	}

	if Verify(&pub, []byte("testing"), fromHex("2"), fromHex("4")) {
	t.Errorf("Verify unexpected success with non-existent mod inverse of Q")
	}
	}

	func TestSigningWithDegenerateKeys(t *testing.T) {
	// Signing with degenerate private keys should not cause an infinite
	// loop.
	badKeys := []struct {
	p, q, g, y, x string
	}{
	{"00", "01", "00", "00", "00"},
	{"01", "ff", "00", "00", "00"},
	}

	for i, test := range badKeys {
	priv := PrivateKey{
	PublicKey: PublicKey{
	Parameters: Parameters{
	P: fromHex(test.p),
	Q: fromHex(test.q),
	G: fromHex(test.g),
	},
	Y: fromHex(test.y),
	},
	X: fromHex(test.x),
	}

	hashed := []byte("testing")
	if _, _, err := Sign(rand.Reader, &priv, hashed); err == nil {
	t.Errorf("#%d: unexpected success", i)
	}
	}
	}