func generateFromPrivate(in PrivateKeyDat, Private string) PrivateKeyDat { var answer PrivateKeyDat answer.Error = in.Error answer.Priv2WIF = []string{} answer.WIF2Priv = in.WIF2Priv answer.WIFChecksum = in.WIFChecksum answer.Minikey = in.Minikey curve := bitelliptic.S256() if bitecdsa.CheckIsOnCurve(curve, mymath.Str2Big(Private)) == false { if answer.Error == "" { answer.Error = "Private key is not on curve" } answer.Priv2WIF = []string{Private, "", "", "", "", "", ""} return answer } priv := append([]byte{0x80}, mymath.Str2Hex(Private)...) answer.Priv2WIF = append(answer.Priv2WIF, Private) answer.Priv2WIF = append(answer.Priv2WIF, mymath.Hex2Str(priv)) sha := mymath.SingleSHA(priv) answer.Priv2WIF = append(answer.Priv2WIF, mymath.Hex2Str(sha)) sha = mymath.SingleSHA(sha) answer.Priv2WIF = append(answer.Priv2WIF, mymath.Hex2Str(sha)) answer.Priv2WIF = append(answer.Priv2WIF, mymath.Hex2Str(sha[0:4])) priv = append(priv, sha[0:4]...) answer.Priv2WIF = append(answer.Priv2WIF, mymath.Hex2Str(priv)) answer.Priv2WIF = append(answer.Priv2WIF, string(mymath.Hex2Base58(priv))) return answer }
func vanitySumTest(w http.ResponseWriter, r *http.Request) { if r.FormValue("Random") != "" { vd := new(VanitySumData) curve := bitelliptic.S256() priv, _, _, _ := curve.GenerateKey(rand.Reader) vd.Private1 = mymath.Hex2Str(priv) priv, _, _, _ = curve.GenerateKey(rand.Reader) vd.Private2 = mymath.Hex2Str(priv) vd.PrivateSum = mymath.Hex2Str(mymath.Big2Hex(mymath.AddPrivateKeys(vd.Private1, vd.Private2))) zero, _ := mymath.NewAddressFromPrivateKey(mymath.Str2Hex(vd.PrivateSum)) vd.PrivateSumPublic = mymath.Hex2Str(zero.PublicKey) vd.PrivateSumAddress = string(mymath.NewFromPublicKey(0x00, mymath.Str2Hex(vd.PrivateSumPublic)).Base) one, _ := mymath.NewAddressFromPrivateKey(mymath.Str2Hex(vd.Private1)) two, _ := mymath.NewAddressFromPrivateKey(mymath.Str2Hex(vd.Private2)) vd.Public1 = mymath.Hex2Str(one.PublicKey) vd.Public2 = mymath.Hex2Str(two.PublicKey) a, b := mymath.AddPublicKeys(vd.Public1, vd.Public2) vd.PublicSum = "04" + mymath.Hex2Str(mymath.Big2HexPadded(a, 32)) + mymath.Hex2Str(mymath.Big2HexPadded(b, 32)) vd.PublicAddress = string(mymath.NewFromPublicKey(0x00, mymath.Str2Hex(vd.PublicSum)).Base) VanitySumTestTemplate.Execute(w, vd) } else if r.FormValue("Private") != "" { vd := new(VanitySumData) vd.Private1 = r.FormValue("Private1") vd.Private2 = r.FormValue("Private2") curve := bitelliptic.S256() if bitecdsa.CheckIsOnCurve(curve, mymath.Str2Big(vd.Private1)) == false || bitecdsa.CheckIsOnCurve(curve, mymath.Str2Big(vd.Private2)) == false { if bitecdsa.CheckIsOnCurve(curve, mymath.Str2Big(vd.Private1)) == false && bitecdsa.CheckIsOnCurve(curve, mymath.Str2Big(vd.Private2)) == false { vd.Error = "Both private keys appear to be invalid" } else if bitecdsa.CheckIsOnCurve(curve, mymath.Str2Big(vd.Private1)) == false { vd.Error = fmt.Sprintf("Private key one (%s) appears to be invalid", vd.Private1) } else if bitecdsa.CheckIsOnCurve(curve, mymath.Str2Big(vd.Private2)) == false { vd.Error = fmt.Sprintf("Private key two (%s) appears to be invalid", vd.Private2) } else { vd.Error = "One of the private keys is invalid, but we can't figure out which (this is an unexpected server behaviour)." } } else { vd.PrivateSum = mymath.Hex2Str(mymath.Big2Hex(mymath.AddPrivateKeys(vd.Private1, vd.Private2))) zero, _ := mymath.NewAddressFromPrivateKey(mymath.Str2Hex(vd.PrivateSum)) vd.PrivateSumPublic = mymath.Hex2Str(zero.PublicKey) vd.PrivateSumAddress = string(mymath.NewFromPublicKey(0x00, mymath.Str2Hex(vd.PrivateSumPublic)).Base) one, _ := mymath.NewAddressFromPrivateKey(mymath.Str2Hex(vd.Private1)) two, _ := mymath.NewAddressFromPrivateKey(mymath.Str2Hex(vd.Private2)) vd.Public1 = mymath.Hex2Str(one.PublicKey) vd.Public2 = mymath.Hex2Str(two.PublicKey) a, b := mymath.AddPublicKeys(vd.Public1, vd.Public2) vd.PublicSum = "04" + mymath.Hex2Str(mymath.Big2HexPadded(a, 32)) + mymath.Hex2Str(mymath.Big2HexPadded(b, 32)) vd.PublicAddress = string(mymath.NewFromPublicKey(0x00, mymath.Str2Hex(vd.PublicSum)).Base) } VanitySumTestTemplate.Execute(w, vd) } else if r.FormValue("Public") != "" { vd := new(VanitySumData) vd.Public1 = r.FormValue("Public1") vd.Public2 = r.FormValue("Public2") if len(vd.Public1) != 130 || len(vd.Public2) != 130 { vd.Error = "Public keys are invalid" } else if vd.Public1[0] != '0' || vd.Public1[1] != '4' || vd.Public2[0] != '0' || vd.Public2[1] != '4' { vd.Error = "Public keys are invalid" } else { a, b := mymath.AddPublicKeys(vd.Public1, vd.Public2) vd.PublicSum = "04" + mymath.Hex2Str(mymath.Big2HexPadded(a, 32)) + mymath.Hex2Str(mymath.Big2HexPadded(b, 32)) vd.PublicAddress = string(mymath.NewFromPublicKey(0x00, mymath.Str2Hex(vd.PublicSum)).Base) } VanitySumTestTemplate.Execute(w, vd) } else { VanitySumTestTemplate.Execute(w, DefaultVanitySumData) } }
func vanityMultTest(w http.ResponseWriter, r *http.Request) { curve := bitelliptic.S256() if r.FormValue("Random") != "" { vd := new(VanityMultData) priv, gx, gy, _ := curve.GenerateKey(rand.Reader) vd.Private1 = mymath.Hex2Str(priv) one, _ := mymath.NewAddressFromPrivateKey(mymath.Str2Hex(vd.Private1)) vd.Public1 = mymath.Hex2Str(one.PublicKey) curve2 := curve.Copy() curve2.Gx = gx curve2.Gy = gy priv, _, _, _ = curve2.GenerateKey(rand.Reader) vd.Private2 = mymath.Hex2Str(priv) two, _ := mymath.NewAddressFromPrivateKeyWithCurve(mymath.Str2Hex(vd.Private2), curve2) vd.Public2 = mymath.Hex2Str(two.PublicKey) vd.Public2Address = string(two.Base) vd.PrivateMult = mymath.Hex2Str(mymath.Big2Hex(mymath.MultiplyPrivateKeys(vd.Private1, vd.Private2))) zero, _ := mymath.NewAddressFromPrivateKey(mymath.Str2Hex(vd.PrivateMult)) vd.PrivateMultPublic = mymath.Hex2Str(zero.PublicKey) vd.PrivateMultAddress = string(mymath.NewFromPublicKey(0x00, mymath.Str2Hex(vd.PrivateMultPublic)).Base) VanityMultTestTemplate.Execute(w, vd) return } else if r.FormValue("Private") != "" { vd := new(VanityMultData) if bitecdsa.CheckIsOnCurve(curve, mymath.Str2Big(r.FormValue("Private1"))) != true { vd.Error = "Private key 1 is invalid" } else { priv1, _ := bitecdsa.GenerateFromPrivateKey(mymath.Str2Big(r.FormValue("Private1")), curve) vd.Private1 = mymath.Hex2Str(mymath.Big2Hex(priv1.D)) one, _ := mymath.NewAddressFromPrivateKey(mymath.Str2Hex(vd.Private1)) vd.Public1 = mymath.Hex2Str(one.PublicKey) curve2 := curve.Copy() curve2.Gx = priv1.PublicKey.X curve2.Gy = priv1.PublicKey.Y if bitecdsa.CheckIsOnCurve(curve2, mymath.Str2Big(r.FormValue("Private2"))) != true { vd.Error = "Private key 2 is invalid" } else { priv2, _ := bitecdsa.GenerateFromPrivateKey(mymath.Str2Big(r.FormValue("Private2")), curve2) vd.Private2 = mymath.Hex2Str(mymath.Big2Hex(priv2.D)) two, _ := mymath.NewAddressFromPrivateKeyWithCurve(mymath.Str2Hex(vd.Private2), curve2) vd.Public2 = mymath.Hex2Str(two.PublicKey) vd.Public2Address = string(two.Base) vd.PrivateMult = mymath.Hex2Str(mymath.Big2Hex(mymath.MultiplyPrivateKeys(vd.Private1, vd.Private2))) zero, _ := mymath.NewAddressFromPrivateKey(mymath.Str2Hex(vd.PrivateMult)) vd.PrivateMultPublic = mymath.Hex2Str(zero.PublicKey) vd.PrivateMultAddress = string(mymath.NewFromPublicKey(0x00, mymath.Str2Hex(vd.PrivateMultPublic)).Base) } } VanityMultTestTemplate.Execute(w, vd) return } else if r.FormValue("Public") != "" { vd := new(VanityMultData) vd.Public1 = r.FormValue("Public1") if len(vd.Public1) != 130 { vd.Error = "Public key is invalid" } else if vd.Public1[0] != '0' || vd.Public1[1] != '4' { vd.Error = "Public key is invalid" } else { gx, gy := mymath.PublicKeyToPointCoordinates(vd.Public1) curve2 := curve.Copy() curve2.Gx = gx curve2.Gy = gy vd.Private1 = "" if bitecdsa.CheckIsOnCurve(curve2, mymath.Str2Big(r.FormValue("Private2"))) != true { vd.Error = "Private key is invalid" } else { priv2, _ := bitecdsa.GenerateFromPrivateKey(mymath.Str2Big(r.FormValue("Private2")), curve2) vd.Private2 = mymath.Hex2Str(mymath.Big2Hex(priv2.D)) two, _ := mymath.NewAddressFromPrivateKeyWithCurve(mymath.Str2Hex(vd.Private2), curve2) vd.Public2 = mymath.Hex2Str(two.PublicKey) vd.Public2Address = string(two.Base) vd.PrivateMult = "??" vd.PrivateMultPublic = "??" vd.PrivateMultAddress = "??" } } VanityMultTestTemplate.Execute(w, vd) return } else { VanityMultTestTemplate.Execute(w, DefaultVanityMultData) } }
func addressTest(w http.ResponseWriter, r *http.Request) { c := appengine.NewContext(r) if r.FormValue("Random") != "" { var address AddressDat curve := bitelliptic.S256() priv, x, y, _ := curve.GenerateKey(rand.Reader) pub := append(append([]byte{0x04}, mymath.Big2HexWithMinimumLength(x, 32)...), mymath.Big2HexWithMinimumLength(y, 32)...) //pub=mymath.Str2Hex("04678afdb0fe5548271967f1a67130b7105cd6a828e03909a67962e0ea1f61deb649f6bc3f4cef38c4f35504e51ec112de5c384df7ba0b8d578a4c702b6bf11d5f") st2 := mymath.SingleSHA(pub) st3 := mymath.Ripemd(st2) st4 := append([]byte{0x00}, st3[:]...) st5 := mymath.SingleSHA(st4) st6 := mymath.SingleSHA(st5) st7 := st6[0:4] st8 := append(st4[:], st7[:]...) st9 := mymath.Hex2Base58(st8) address.HashString = []string{ mymath.Hex2Str(priv), mymath.Hex2Str(pub), mymath.Hex2Str(st2), mymath.Hex2Str(st3), mymath.Hex2Str(st4), mymath.Hex2Str(st5), mymath.Hex2Str(st6), mymath.Hex2Str(st7), mymath.Hex2Str(st8), string(st9)} AddressTestTemplate.Execute(w, address) } else if r.FormValue("private") != "" { var err error var address AddressDat curve := bitelliptic.S256() privs, err := bitecdsa.GenerateFromPrivateKey(mymath.Str2Big(r.FormValue("private")), curve) if err != nil { if err.Error() == "Private key is not on curve" { address = DefaultAddress address.Error = "Private key is not on curve" AddressTestTemplate.Execute(w, address) } else { c.Errorf("Err ", err) return } } else { priv := mymath.Big2Hex(privs.D) x := privs.PublicKey.X y := privs.PublicKey.Y //priv, x, y, _:=curve.GenerateKey(rand.Reader) pub := append(append([]byte{0x04}, mymath.Big2HexWithMinimumLength(x, 32)...), mymath.Big2HexWithMinimumLength(y, 32)...) st2 := mymath.SingleSHA(pub) st3 := mymath.Ripemd(st2) st4 := append([]byte{0x00}, st3[:]...) st5 := mymath.SingleSHA(st4) st6 := mymath.SingleSHA(st5) st7 := st6[0:4] st8 := append(st4[:], st7[:]...) st9 := mymath.Hex2Base58(st8) address.HashString = []string{ mymath.Hex2Str(priv), mymath.Hex2Str(pub), mymath.Hex2Str(st2), mymath.Hex2Str(st3), mymath.Hex2Str(st4), mymath.Hex2Str(st5), mymath.Hex2Str(st6), mymath.Hex2Str(st7), mymath.Hex2Str(st8), string(st9)} AddressTestTemplate.Execute(w, address) } } else if r.FormValue("public") != "" { var address AddressDat pub := mymath.Str2Hex(r.FormValue("public")) if len(pub) != 65 { address.Error = "Invalid public key length" } else if pub[0] != 0x04 { address.Error = "Invalid public key format" } st2 := mymath.SingleSHA(pub) st3 := mymath.Ripemd(st2) st4 := append([]byte{0x00}, st3[:]...) st5 := mymath.SingleSHA(st4) st6 := mymath.SingleSHA(st5) st7 := st6[0:4] st8 := append(st4[:], st7[:]...) st9 := mymath.Hex2Base58(st8) address.HashString = []string{ "", mymath.Hex2Str(pub), mymath.Hex2Str(st2), mymath.Hex2Str(st3), mymath.Hex2Str(st4), mymath.Hex2Str(st5), mymath.Hex2Str(st6), mymath.Hex2Str(st7), mymath.Hex2Str(st8), string(st9)} AddressTestTemplate.Execute(w, address) } else if r.FormValue("RIPEMD") != "" { var address AddressDat st3 := mymath.Str2Hex(r.FormValue("RIPEMD")) if len(st3) != 20 { address.Error = "Invalid RIPEMD-160 length" } st4 := append([]byte{0x00}, st3[:]...) st5 := mymath.SingleSHA(st4) st6 := mymath.SingleSHA(st5) st7 := st6[0:4] st8 := append(st4[:], st7[:]...) st9 := mymath.Hex2Base58(st8) address.HashString = []string{ "", "", "", mymath.Hex2Str(st3), mymath.Hex2Str(st4), mymath.Hex2Str(st5), mymath.Hex2Str(st6), mymath.Hex2Str(st7), mymath.Hex2Str(st8), string(st9)} AddressTestTemplate.Execute(w, address) } else if r.FormValue("RIPEMDWithHash") != "" { var address AddressDat st4 := mymath.Str2Hex(r.FormValue("RIPEMDWithHash")) if len(st4) != 21 { address.Error = "Invalid RIPEMD-160 length" } st3 := st4[1:] st5 := mymath.SingleSHA(st4) st6 := mymath.SingleSHA(st5) st7 := st6[0:4] st8 := append(st4[:], st7[:]...) st9 := mymath.Hex2Base58(st8) address.HashString = []string{ "", "", "", mymath.Hex2Str(st3), mymath.Hex2Str(st4), mymath.Hex2Str(st5), mymath.Hex2Str(st6), mymath.Hex2Str(st7), mymath.Hex2Str(st8), string(st9)} AddressTestTemplate.Execute(w, address) } else if r.FormValue("FullAddress") != "" { var address AddressDat st8 := mymath.Str2Hex(r.FormValue("FullAddress")) if len(st8) != 25 { address.Error = "Invalid address length" c.Debugf("%d", len(st8)) } st3 := st8[1:21] st4 := append([]byte{0x00}, st3[:]...) st5 := mymath.SingleSHA(st4) st6 := mymath.SingleSHA(st5) st7 := st6[0:4] //st8:=append(st4[:], st7[:]...) st9 := mymath.Hex2Base58(st8) if len(st8) == 25 { if st7[3] != st8[24] || st7[2] != st8[23] || st7[1] != st8[22] || st7[0] != st8[21] { address.Error = "Invalid checksum" } } address.HashString = []string{ "", "", "", mymath.Hex2Str(st3), mymath.Hex2Str(st4), mymath.Hex2Str(st5), mymath.Hex2Str(st6), mymath.Hex2Str(st7), mymath.Hex2Str(st8), string(st9)} AddressTestTemplate.Execute(w, address) } else if r.FormValue("Base58") != "" { var address AddressDat st9 := r.FormValue("Base58") st8 := mymath.Base582Hex(st9) if len(st8) != 25 { address.Error = "Invalid address length" c.Debugf("%d", len(st8)) } st3 := st8[1:21] st4 := append([]byte{0x00}, st3[:]...) st5 := mymath.SingleSHA(st4) st6 := mymath.SingleSHA(st5) st7 := st6[0:4] //st8:=append(st4[:], st7[:]...) //st9:=mymath.Hex2Base58(st8) if len(st8) == 25 { if st7[3] != st8[24] || st7[2] != st8[23] || st7[1] != st8[22] || st7[0] != st8[21] { address.Error = "Invalid checksum" } } address.HashString = []string{ "", "", "", mymath.Hex2Str(st3), mymath.Hex2Str(st4), mymath.Hex2Str(st5), mymath.Hex2Str(st6), mymath.Hex2Str(st7), mymath.Hex2Str(st8), string(st9)} AddressTestTemplate.Execute(w, address) } else { AddressTestTemplate.Execute(w, DefaultAddress) } }