234 lines
6.5 KiB
Go
234 lines
6.5 KiB
Go
// Copyright (c) 2013-2014 Conformal Systems LLC.
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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package btcutil
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import (
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"bytes"
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"code.google.com/p/go.crypto/ripemd160"
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"errors"
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"github.com/conformal/btcwire"
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)
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// ErrUnknownNet describes an error where the Bitcoin network is
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// not recognized.
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var ErrUnknownNet = errors.New("unrecognized bitcoin network")
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// ErrMalformedAddress describes an error where an address is improperly
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// formatted, either due to an incorrect length of the hashed pubkey or
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// a non-matching checksum.
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var ErrMalformedAddress = errors.New("malformed address")
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// ErrMalformedPrivateKey describes an error where an address is improperly
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// formatted, either due to an incorrect length of the private key or
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// a non-matching checksum.
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var ErrMalformedPrivateKey = errors.New("malformed private key")
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// Constants used to specify which network a payment address belongs
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// to. Mainnet address cannot be used on the Testnet, and vice versa.
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const (
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// MainNetAddr is the address identifier for MainNet
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MainNetAddr = 0x00
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// TestNetAddr is the address identifier for TestNet
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TestNetAddr = 0x6f
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// MainNetKey is the key identifier for MainNet
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MainNetKey = 0x80
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// TestNetKey is the key identifier for TestNet
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TestNetKey = 0xef
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// MainNetScriptHash is the script hash identifier for MainNet
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MainNetScriptHash = 0x05
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// TestNetScriptHash is the script hash identifier for TestNet
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TestNetScriptHash = 0xc4
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)
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// EncodeAddress takes a 20-byte raw payment address (hash160 of a pubkey)
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// and the Bitcoin network to create a human-readable payment address string.
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//
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// DEPRECATED - Use the EncodeAddress functions of the Address interface.
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func EncodeAddress(addrHash []byte, net btcwire.BitcoinNet) (encoded string, err error) {
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if len(addrHash) != ripemd160.Size {
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return "", ErrMalformedAddress
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}
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var netID byte
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switch net {
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case btcwire.MainNet:
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netID = MainNetAddr
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case btcwire.TestNet3:
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netID = TestNetAddr
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default:
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return "", ErrUnknownNet
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}
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return encodeHashWithNetId(netID, addrHash)
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}
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// EncodeScriptHash takes a 20-byte raw script hash (hash160 of the SHA256 of the redeeming script)
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// and the Bitcoin network to create a human-readable payment address string.
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//
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// DEPRECATED - Use the EncodeAddress functions of the Address interface.
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func EncodeScriptHash(addrHash []byte, net btcwire.BitcoinNet) (encoded string, err error) {
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if len(addrHash) != ripemd160.Size {
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return "", ErrMalformedAddress
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}
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var netID byte
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switch net {
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case btcwire.MainNet:
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netID = MainNetScriptHash
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case btcwire.TestNet3:
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netID = TestNetScriptHash
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default:
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return "", ErrUnknownNet
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}
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return encodeHashWithNetId(netID, addrHash)
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}
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func encodeHashWithNetId(netID byte, addrHash []byte) (encoded string, err error) {
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tosum := append([]byte{netID}, addrHash...)
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cksum := btcwire.DoubleSha256(tosum)
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// Address before base58 encoding is 1 byte for netID, 20 bytes for
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// hash, plus 4 bytes of checksum.
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a := make([]byte, 25, 25)
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a[0] = netID
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copy(a[1:], addrHash)
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copy(a[21:], cksum[:4])
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return Base58Encode(a), nil
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}
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// DecodeAddress decodes a human-readable payment address string
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// returning the 20-byte decoded address, along with the Bitcoin
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// network for the address.
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//
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// DEPRECATED - Use DecodeAddr to decode a string encoded address to
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// the Address interface.
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func DecodeAddress(addr string) (addrHash []byte, net btcwire.BitcoinNet, err error) {
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decoded := Base58Decode(addr)
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// Length of decoded address must be 20 bytes + 1 byte for a network
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// identifier byte + 4 bytes of checksum.
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if len(decoded) != ripemd160.Size+5 {
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return nil, 0x00, ErrMalformedAddress
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}
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switch decoded[0] {
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case MainNetAddr:
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net = btcwire.MainNet
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case TestNetAddr:
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net = btcwire.TestNet3
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default:
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return nil, 0, ErrUnknownNet
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}
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// Checksum is first four bytes of double SHA256 of the network byte
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// and addrHash. Verify this matches the final 4 bytes of the decoded
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// address.
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tosum := decoded[:ripemd160.Size+1]
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cksum := btcwire.DoubleSha256(tosum)[:4]
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if !bytes.Equal(cksum, decoded[len(decoded)-4:]) {
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return nil, net, ErrMalformedAddress
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}
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addrHash = make([]byte, ripemd160.Size, ripemd160.Size)
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copy(addrHash, decoded[1:ripemd160.Size+1])
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return addrHash, net, nil
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}
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// EncodePrivateKey takes a 32-byte private key and encodes it into the
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// Wallet Import Format (WIF).
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func EncodePrivateKey(privKey []byte, net btcwire.BitcoinNet, compressed bool) (string, error) {
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if len(privKey) != 32 {
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return "", ErrMalformedPrivateKey
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}
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var netID byte
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switch net {
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case btcwire.MainNet:
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netID = MainNetKey
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case btcwire.TestNet3:
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netID = TestNetKey
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default:
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return "", ErrUnknownNet
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}
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tosum := append([]byte{netID}, privKey...)
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if compressed {
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tosum = append(tosum, 0x01)
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}
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cksum := btcwire.DoubleSha256(tosum)
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// Private key before base58 encoding is 1 byte for netID, 32 bytes for
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// privKey, plus an optional byte (0x01) if copressed, plus 4 bytes of checksum.
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encodeLen := 37
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if compressed {
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encodeLen += 1
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}
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a := make([]byte, encodeLen, encodeLen)
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a[0] = netID
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copy(a[1:], privKey)
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if compressed {
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copy(a[32+1:], []byte{0x01})
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copy(a[32+1+1:], cksum[:4])
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} else {
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copy(a[32+1:], cksum[:4])
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}
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return Base58Encode(a), nil
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}
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// DecodePrivateKey takes a Wallet Import Format (WIF) string and
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// decodes into a 32-byte private key.
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func DecodePrivateKey(wif string) ([]byte, btcwire.BitcoinNet, bool, error) {
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decoded := Base58Decode(wif)
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decodedLen := len(decoded)
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compressed := false
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// Length of decoded privkey must be 32 bytes + an optional 1 byte (0x01)
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// if compressed, plus 1 byte for netID + 4 bytes of checksum
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if decodedLen == 32+6 {
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compressed = true
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if decoded[33] != 0x01 {
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return nil, 0, compressed, ErrMalformedPrivateKey
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}
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} else if decodedLen != 32+5 {
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return nil, 0, compressed, ErrMalformedPrivateKey
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}
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var net btcwire.BitcoinNet
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switch decoded[0] {
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case MainNetKey:
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net = btcwire.MainNet
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case TestNetKey:
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net = btcwire.TestNet3
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default:
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return nil, 0, compressed, ErrUnknownNet
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}
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// Checksum is first four bytes of double SHA256 of the identifier byte
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// and privKey. Verify this matches the final 4 bytes of the decoded
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// private key.
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var tosum []byte
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if compressed {
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tosum = decoded[:32+1+1]
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} else {
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tosum = decoded[:32+1]
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}
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cksum := btcwire.DoubleSha256(tosum)[:4]
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if !bytes.Equal(cksum, decoded[decodedLen-4:]) {
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return nil, 0, compressed, ErrMalformedPrivateKey
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}
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privKey := make([]byte, 32, 32)
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copy(privKey[:], decoded[1:32+1])
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return privKey, net, compressed, nil
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}
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