Ejemplo n.º 1
0
func TestBase58(t *testing.T) {
	// Encode tests
	for x, test := range stringTests {
		tmp := []byte(test.in)
		if res := base58.Encode(tmp); res != test.out {
			t.Errorf("Encode test #%d failed: got: %s want: %s",
				x, res, test.out)
			continue
		}
	}

	// Decode tests
	for x, test := range hexTests {
		b, err := hex.DecodeString(test.in)
		if err != nil {
			t.Errorf("hex.DecodeString failed failed #%d: got: %s", x, test.in)
			continue
		}
		if res := base58.Decode(test.out); bytes.Equal(res, b) != true {
			t.Errorf("Decode test #%d failed: got: %q want: %q",
				x, res, test.in)
			continue
		}
	}

	// Decode with invalid input
	for x, test := range invalidStringTests {
		if res := base58.Decode(test.in); string(res) != test.out {
			t.Errorf("Decode invalidString test #%d failed: got: %q want: %q",
				x, res, test.out)
			continue
		}
	}
}
Ejemplo n.º 2
0
func BenchmarkBase58Decode(b *testing.B) {
	b.StopTimer()
	data := bytes.Repeat([]byte{0xff}, 5000)
	encoded := base58.Encode(data)
	b.SetBytes(int64(len(encoded)))
	b.StartTimer()

	for i := 0; i < b.N; i++ {
		base58.Decode(encoded)
	}
}
Ejemplo n.º 3
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// This example demonstrates how to decode modified base58 encoded data.
func ExampleDecode() {
	// Decode example modified base58 encoded data.
	encoded := "25JnwSn7XKfNQ"
	decoded := base58.Decode(encoded)

	// Show the decoded data.
	fmt.Println("Decoded Data:", string(decoded))

	// Output:
	// Decoded Data: Test data
}
Ejemplo n.º 4
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// NewKeyFromString returns a new extended key instance from a base58-encoded
// extended key.
func NewKeyFromString(key string) (*ExtendedKey, error) {
	// The base58-decoded extended key must consist of a serialized payload
	// plus an additional 4 bytes for the checksum.
	decoded := base58.Decode(key)
	if len(decoded) != serializedKeyLen+4 {
		return nil, ErrInvalidKeyLen
	}

	// The serialized format is:
	//   version (4) || depth (1) || parent fingerprint (4)) ||
	//   child num (4) || chain code (32) || key data (33) || checksum (4)

	// Split the payload and checksum up and ensure the checksum matches.
	payload := decoded[:len(decoded)-4]
	checkSum := decoded[len(decoded)-4:]
	expectedCheckSum := chainhash.DoubleHashB(payload)[:4]
	if !bytes.Equal(checkSum, expectedCheckSum) {
		return nil, ErrBadChecksum
	}

	// Deserialize each of the payload fields.
	version := payload[:4]
	depth := uint16(payload[4:5][0])
	parentFP := payload[5:9]
	childNum := binary.BigEndian.Uint32(payload[9:13])
	chainCode := payload[13:45]
	keyData := payload[45:78]

	// The key data is a private key if it starts with 0x00.  Serialized
	// compressed pubkeys either start with 0x02 or 0x03.
	isPrivate := keyData[0] == 0x00
	if isPrivate {
		// Ensure the private key is valid.  It must be within the range
		// of the order of the secp256k1 curve and not be 0.
		keyData = keyData[1:]
		keyNum := new(big.Int).SetBytes(keyData)
		if keyNum.Cmp(btcec.S256().N) >= 0 || keyNum.Sign() == 0 {
			return nil, ErrUnusableSeed
		}
	} else {
		// Ensure the public key parses correctly and is actually on the
		// secp256k1 curve.
		_, err := btcec.ParsePubKey(keyData, btcec.S256())
		if err != nil {
			return nil, err
		}
	}

	return newExtendedKey(version, keyData, chainCode, parentFP, depth,
		childNum, isPrivate), nil
}
Ejemplo n.º 5
0
Archivo: dotp.go Proyecto: mdp/go-dotp
//GetPublicKeyFromPublicID is what it is
func GetPublicKeyFromPublicID(publicID string) (*[32]byte, error) {
	publicID = strings.TrimSpace(publicID)
	publicKeyDecoded := b58.Decode(publicID)
	if len(publicKeyDecoded) != 33 {
		return nil, errors.New("Bad PublicID: Incorrect length")
	}
	publicKey := *new([32]byte)
	copy(publicKey[:], publicKeyDecoded[0:32])
	publicKeyHash := sha512.Sum512(publicKey[:])
	if publicKeyHash[0] != publicKeyDecoded[32] {
		return nil, errors.New("Bad public ID")
	}
	return &publicKey, nil
}
Ejemplo n.º 6
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// StringWallet returns a wallet given a base58-encoded extended key
func StringWallet(data string) (*HDWallet, error) {
	dbin := base58.Decode(data)
	if err := ByteCheck(dbin); err != nil {
		return &HDWallet{}, err
	}
	if bytes.Compare(dblSha256(dbin[:(len(dbin) - 4)])[:4], dbin[(len(dbin)-4):]) != 0 {
		return &HDWallet{}, errors.New("Invalid checksum")
	}
	vbytes := dbin[0:4]
	depth := byteToUint16(dbin[4:5])
	fingerprint := dbin[5:9]
	i := dbin[9:13]
	chaincode := dbin[13:45]
	key := dbin[45:78]
	return &HDWallet{vbytes, depth, fingerprint, i, chaincode, key}, nil
}
Ejemplo n.º 7
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// DecodeWIF creates a new WIF structure by decoding the string encoding of
// the import format.
//
// The WIF string must be a base58-encoded string of the following byte
// sequence:
//
//  * 1 byte to identify the network, must be 0x80 for mainnet or 0xef for
//    either testnet3 or the regression test network
//  * 32 bytes of a binary-encoded, big-endian, zero-padded private key
//  * Optional 1 byte (equal to 0x01) if the address being imported or exported
//    was created by taking the RIPEMD160 after SHA256 hash of a serialized
//    compressed (33-byte) public key
//  * 4 bytes of checksum, must equal the first four bytes of the double SHA256
//    of every byte before the checksum in this sequence
//
// If the base58-decoded byte sequence does not match this, DecodeWIF will
// return a non-nil error.  ErrMalformedPrivateKey is returned when the WIF
// is of an impossible length or the expected compressed pubkey magic number
// does not equal the expected value of 0x01.  ErrChecksumMismatch is returned
// if the expected WIF checksum does not match the calculated checksum.
func DecodeWIF(wif string) (*WIF, error) {
	decoded := base58.Decode(wif)
	decodedLen := len(decoded)
	var compress bool

	// Length of base58 decoded WIF must be 32 bytes + an optional 1 byte
	// (0x01) if compressed, plus 1 byte for netID + 4 bytes of checksum.
	switch decodedLen {
	case 1 + btcec.PrivKeyBytesLen + 1 + 4:
		if decoded[33] != compressMagic {
			return nil, ErrMalformedPrivateKey
		}
		compress = true
	case 1 + btcec.PrivKeyBytesLen + 4:
		compress = false
	default:
		return nil, ErrMalformedPrivateKey
	}

	// Checksum is first four bytes of double SHA256 of the identifier byte
	// and privKey.  Verify this matches the final 4 bytes of the decoded
	// private key.
	var tosum []byte
	if compress {
		tosum = decoded[:1+btcec.PrivKeyBytesLen+1]
	} else {
		tosum = decoded[:1+btcec.PrivKeyBytesLen]
	}
	cksum := chainhash.DoubleHashB(tosum)[:4]
	if !bytes.Equal(cksum, decoded[decodedLen-4:]) {
		return nil, ErrChecksumMismatch
	}

	netID := decoded[0]
	privKeyBytes := decoded[1 : 1+btcec.PrivKeyBytesLen]
	privKey, _ := btcec.PrivKeyFromBytes(btcec.S256(), privKeyBytes)
	return &WIF{privKey, compress, netID}, nil
}
Ejemplo n.º 8
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// TstAddressSAddr returns the expected script address bytes for
// P2PKH and P2SH bitcoin addresses.
func TstAddressSAddr(addr string) []byte {
	decoded := base58.Decode(addr)
	return decoded[1 : 1+ripemd160.Size]
}
Ejemplo n.º 9
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// StringCheck is a validation check of a base58-encoded extended key.
func StringCheck(key string) error {
	return ByteCheck(base58.Decode(key))
}