package bls

import "testing"
import "strconv"

var unitN = 0

// Tests (for Benchmarks see below)

func testPre(t *testing.T) {
	t.Log("init")
	{
		var id ID
		id.Set([]uint64{6, 5, 4, 3, 2, 1}[0:unitN])

		t.Log("id :", id)
		var id2 ID
		err := id2.SetHexString(id.GetHexString())
		if err != nil {
			t.Fatal(err)
		}
		if !id.IsSame(&id2) {
			t.Errorf("not same id", id.GetHexString(), id2.GetHexString())
		}
		err = id2.SetDecString(id.GetDecString())
		if err != nil {
			t.Fatal(err)
		}
		if !id.IsSame(&id2) {
			t.Errorf("not same id", id.GetDecString(), id2.GetDecString())
		}
	}
	{
		var sec SecretKey
		sec.SetArray([]uint64{1, 2, 3, 4, 5, 6}[0:unitN])
		t.Log("sec=", sec)
	}

	t.Log("create secret key")
	m := "this is a bls sample for go"
	var sec SecretKey
	sec.Init()
	t.Log("sec:", sec)
	t.Log("create public key")
	pub := sec.GetPublicKey()
	t.Log("pub:", pub)
	sign := sec.Sign(m)
	t.Log("sign:", sign)
	if !sign.Verify(pub, m) {
		t.Error("Signature does not verify")
	}

	// How to make array of SecretKey
	{
		sec := make([]SecretKey, 3)
		for i := 0; i < len(sec); i++ {
			sec[i].Init()
			t.Log("sec=", sec[i].GetHexString())
		}
	}
}

func testStringConversion(t *testing.T) {
	t.Log("testRecoverSecretKey")
	var sec SecretKey
	var s string
	if unitN == 6 {
		s = "16798108731015832284940804142231733909759579603404752749028378864165570215949"
	} else {
		s = "40804142231733909759579603404752749028378864165570215949"
	}
	err := sec.SetDecString(s)
	if err != nil {
		t.Fatal(err)
	}
	if s != sec.GetDecString() {
		t.Error("not equal")
	}
	s = sec.GetHexString()
	var sec2 SecretKey
	err = sec2.SetHexString(s)
	if err != nil {
		t.Fatal(err)
	}
	if !sec.IsSame(&sec2) {
		t.Error("not equal")
	}
}

func testRecoverSecretKey(t *testing.T) {
	t.Log("testRecoverSecretKey")
	k := 3000
	var sec SecretKey
	sec.Init()

	// make master secret key
	msk := sec.GetMasterSecretKey(k)

	n := k
	secVec := make([]SecretKey, n)
	idVec := make([]ID, n)
	for i := 0; i < n; i++ {
		idVec[i].Set([]uint64{uint64(i), 1, 2, 3, 4, 5}[0:unitN])
		secVec[i].Set(msk, &idVec[i])
	}
	// recover sec2 from secVec and idVec
	var sec2 SecretKey
	sec2.Recover(secVec, idVec)
	if !sec.IsSame(&sec2) {
		t.Errorf("Mismatch in recovered secret key:\n  %s\n  %s.", sec.GetHexString(), sec2.GetHexString())
	}
}

func testSign(t *testing.T) {
	m := "testSign"
	t.Log(m)

	var sec0 SecretKey
	sec0.Init()
	pub0 := sec0.GetPublicKey()
	s0 := sec0.Sign(m)
	if !s0.Verify(pub0, m) {
		t.Error("Signature does not verify")
	}

	k := 3
	msk := sec0.GetMasterSecretKey(k)
	mpk := GetMasterPublicKey(msk)

	idTbl := []uint64{3, 5, 193, 22, 15}
	n := len(idTbl)

	secVec := make([]SecretKey, n)
	pubVec := make([]PublicKey, n)
	signVec := make([]Sign, n)
	idVec := make([]ID, n)

	for i := 0; i < n; i++ {
		idVec[i].Set([]uint64{idTbl[i], 0, 0, 0, 0, 0}[0:unitN])
		t.Logf("idVec[%d]=%s\n", i, idVec[i].GetHexString())

		secVec[i].Set(msk, &idVec[i])

		pubVec[i].Set(mpk, &idVec[i])
		t.Logf("pubVec[%d]=%s\n", i, pubVec[i].GetHexString())

		if !pubVec[i].IsSame(secVec[i].GetPublicKey()) {
			t.Errorf("Pubkey derivation does not match\n%s\n%s", pubVec[i].GetHexString(), secVec[i].GetPublicKey().GetHexString())
		}

		signVec[i] = *secVec[i].Sign(m)
		if !signVec[i].Verify(&pubVec[i], m) {
			t.Error("Pubkey derivation does not match")
		}
	}
	var sec1 SecretKey
	sec1.Recover(secVec, idVec)
	if !sec0.IsSame(&sec1) {
		t.Error("Mismatch in recovered seckey.")
	}
	var pub1 PublicKey
	pub1.Recover(pubVec, idVec)
	if !pub0.IsSame(&pub1) {
		t.Error("Mismatch in recovered pubkey.")
	}
	var s1 Sign
	s1.Recover(signVec, idVec)
	if !s0.IsSame(&s1) {
		t.Error("Mismatch in recovered signature.")
	}
}

func testAdd(t *testing.T) {
	t.Log("testAdd")
	var sec1 SecretKey
	var sec2 SecretKey
	sec1.Init()
	sec2.Init()

	pub1 := sec1.GetPublicKey()
	pub2 := sec2.GetPublicKey()

	m := "test test"
	sign1 := sec1.Sign(m)
	sign2 := sec2.Sign(m)

	t.Log("sign1    :", sign1)
	sign1.Add(sign2)
	t.Log("sign1 add:", sign1)
	pub1.Add(pub2)
	if !sign1.Verify(pub1, m) {
		t.Fail()
	}
}

func testPop(t *testing.T) {
	t.Log("testPop")
	var sec SecretKey
	sec.Init()
	pop := sec.GetPop()
	if !pop.VerifyPop(sec.GetPublicKey()) {
		t.Errorf("Valid Pop does not verify")
	}
	sec.Init()
	if pop.VerifyPop(sec.GetPublicKey()) {
		t.Errorf("Invalid Pop verifies")
	}
}

func testData(t *testing.T) {
	t.Log("testData")
	var sec1, sec2 SecretKey
	sec1.Init()
	b := sec1.Serialize()
	err := sec2.Deserialize(b)
	if err != nil {
		t.Fatal(err)
	}
	if !sec1.IsSame(&sec2) {
		t.Error("SecretKey not same")
	}
	pub1 := sec1.GetPublicKey()
	b = pub1.Serialize()
	var pub2 PublicKey
	err = pub2.Deserialize(b)
	if err != nil {
		t.Fatal(err)
	}
	if !pub1.IsSame(&pub2) {
		t.Error("PublicKey not same")
	}
	m := "doremi"
	sign1 := sec1.Sign(m)
	b = sign1.Serialize()
	var sign2 Sign
	err = sign2.Deserialize(b)
	if err != nil {
		t.Fatal(err)
	}
	if !sign1.IsSame(&sign2) {
		t.Error("Sign not same")
	}
}

func testOrder(t *testing.T, c int) {
	var curve string
	var field string
	if c == CurveFp254BNb {
		curve = "16798108731015832284940804142231733909759579603404752749028378864165570215949"
		field = "16798108731015832284940804142231733909889187121439069848933715426072753864723"
	} else if c == CurveFp382_1 {
		curve = "5540996953667913971058039301942914304734176495422447785042938606876043190415948413757785063597439175372845535461389"
		field = "5540996953667913971058039301942914304734176495422447785045292539108217242186829586959562222833658991069414454984723"
	} else if c == CurveFp382_2 {
		curve = "5541245505022739011583672869577435255026888277144126952448297309161979278754528049907713682488818304329661351460877"
		field = "5541245505022739011583672869577435255026888277144126952450651294188487038640194767986566260919128250811286032482323"
	} else {
		t.Fatal("bad c", c)
	}
	s := GetCurveOrder()
	if s != curve {
		t.Errorf("bad curve order\n%s\n%s\n", s, curve)
	}
	s = GetFieldOrder()
	if s != field {
		t.Errorf("bad field order\n%s\n%s\n", s, field)
	}
}

func test(t *testing.T, c int) {
	Init(c)
	unitN = GetOpUnitSize()
	t.Logf("unitN=%d\n", unitN)
	testPre(t)
	testRecoverSecretKey(t)
	testAdd(t)
	testSign(t)
	testPop(t)
	testData(t)
	testStringConversion(t)
	testOrder(t, c)
}

func TestMain(t *testing.T) {
	t.Logf("GetMaxOpUnitSize() = %d\n", GetMaxOpUnitSize())
	t.Log("CurveFp254BNb")
	test(t, CurveFp254BNb)
	if GetMaxOpUnitSize() == 6 {
		t.Log("CurveFp382_1")
		test(t, CurveFp382_1)
		t.Log("CurveFp382_2")
		test(t, CurveFp382_2)
	}
}

// Benchmarks

var curve = CurveFp382_1

//var curve = CurveFp254BNb

func BenchmarkPubkeyFromSeckey(b *testing.B) {
	b.StopTimer()
	Init(curve)
	var sec SecretKey
	for n := 0; n < b.N; n++ {
		sec.Init()
		b.StartTimer()
		sec.GetPublicKey()
		b.StopTimer()
	}
}

func BenchmarkSigning(b *testing.B) {
	b.StopTimer()
	Init(curve)
	var sec SecretKey
	for n := 0; n < b.N; n++ {
		sec.Init()
		b.StartTimer()
		sec.Sign(strconv.Itoa(n))
		b.StopTimer()
	}
}

func BenchmarkValidation(b *testing.B) {
	b.StopTimer()
	Init(curve)
	var sec SecretKey
	for n := 0; n < b.N; n++ {
		sec.Init()
		pub := sec.GetPublicKey()
		m := strconv.Itoa(n)
		sig := sec.Sign(m)
		b.StartTimer()
		sig.Verify(pub, m)
		b.StopTimer()
	}
}

func benchmarkDeriveSeckeyShare(k int, b *testing.B) {
	b.StopTimer()
	Init(curve)
	var sec SecretKey
	sec.Init()
	msk := sec.GetMasterSecretKey(k)
	var id ID
	for n := 0; n < b.N; n++ {
		id.Set([]uint64{1, 2, 3, 4, 5, uint64(n)})
		b.StartTimer()
		sec.Set(msk, &id)
		b.StopTimer()
	}
}

//func BenchmarkDeriveSeckeyShare100(b *testing.B)  { benchmarkDeriveSeckeyShare(100, b) }
//func BenchmarkDeriveSeckeyShare200(b *testing.B)  { benchmarkDeriveSeckeyShare(200, b) }
func BenchmarkDeriveSeckeyShare500(b *testing.B) { benchmarkDeriveSeckeyShare(500, b) }

//func BenchmarkDeriveSeckeyShare1000(b *testing.B) { benchmarkDeriveSeckeyShare(1000, b) }

func benchmarkRecoverSeckey(k int, b *testing.B) {
	b.StopTimer()
	Init(curve)
	var sec SecretKey
	sec.Init()
	msk := sec.GetMasterSecretKey(k)

	// derive n shares
	n := k
	secVec := make([]SecretKey, n)
	idVec := make([]ID, n)
	for i := 0; i < n; i++ {
		idVec[i].Set([]uint64{1, 2, 3, 4, 5, uint64(i)})
		secVec[i].Set(msk, &idVec[i])
	}

	// recover from secVec and idVec
	var sec2 SecretKey
	b.StartTimer()
	for n := 0; n < b.N; n++ {
		sec2.Recover(secVec, idVec)
	}
}

func BenchmarkRecoverSeckey100(b *testing.B)  { benchmarkRecoverSeckey(100, b) }
func BenchmarkRecoverSeckey200(b *testing.B)  { benchmarkRecoverSeckey(200, b) }
func BenchmarkRecoverSeckey500(b *testing.B)  { benchmarkRecoverSeckey(500, b) }
func BenchmarkRecoverSeckey1000(b *testing.B) { benchmarkRecoverSeckey(1000, b) }

func benchmarkRecoverSignature(k int, b *testing.B) {
	b.StopTimer()
	Init(curve)
	var sec SecretKey
	sec.Init()
	msk := sec.GetMasterSecretKey(k)

	// derive n shares
	n := k
	idVec := make([]ID, n)
	secVec := make([]SecretKey, n)
	signVec := make([]Sign, n)
	for i := 0; i < n; i++ {
		idVec[i].Set([]uint64{1, 2, 3, 4, 5, uint64(i)})
		secVec[i].Set(msk, &idVec[i])
		signVec[i] = *secVec[i].Sign("test message")
	}

	// recover signature
	var sig Sign
	b.StartTimer()
	for n := 0; n < b.N; n++ {
		sig.Recover(signVec, idVec)
	}
}

func BenchmarkRecoverSignature100(b *testing.B)  { benchmarkRecoverSignature(100, b) }
func BenchmarkRecoverSignature200(b *testing.B)  { benchmarkRecoverSignature(200, b) }
func BenchmarkRecoverSignature500(b *testing.B)  { benchmarkRecoverSignature(500, b) }
func BenchmarkRecoverSignature1000(b *testing.B) { benchmarkRecoverSignature(1000, b) }