本文整理汇总了Golang中github.com/btcsuite/btcutil.Address.AddressPubKeyHash方法的典型用法代码示例。如果您正苦于以下问题:Golang Address.AddressPubKeyHash方法的具体用法?Golang Address.AddressPubKeyHash怎么用?Golang Address.AddressPubKeyHash使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类github.com/btcsuite/btcutil.Address
的用法示例。
在下文中一共展示了Address.AddressPubKeyHash方法的4个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Golang代码示例。
示例1: addrToKey
// addrToKey converts known address types to an addrindex key. An error is
// returned for unsupported types.
func addrToKey(addr btcutil.Address) ([addrKeySize]byte, error) {
switch addr := addr.(type) {
case *btcutil.AddressPubKeyHash:
var result [addrKeySize]byte
result[0] = addrKeyTypePubKeyHash
copy(result[1:], addr.Hash160()[:])
return result, nil
case *btcutil.AddressScriptHash:
var result [addrKeySize]byte
result[0] = addrKeyTypeScriptHash
copy(result[1:], addr.Hash160()[:])
return result, nil
case *btcutil.AddressPubKey:
var result [addrKeySize]byte
result[0] = addrKeyTypePubKeyHash
copy(result[1:], addr.AddressPubKeyHash().Hash160()[:])
return result, nil
}
return [addrKeySize]byte{}, errUnsupportedAddressType
}
示例2: FetchTxsForAddr
// FetchTxsForAddr looks up and returns all transactions which either
// spend from a previously created output of the passed address, or
// create a new output locked to the passed address. The, `limit` parameter
// should be the max number of transactions to be returned. Additionally, if the
// caller wishes to seek forward in the results some amount, the 'seek'
// represents how many results to skip.
func (db *LevelDb) FetchTxsForAddr(addr btcutil.Address, skip int,
limit int, reverse bool) ([]*database.TxListReply, int, error) {
db.dbLock.Lock()
defer db.dbLock.Unlock()
// Enforce constraints for skip and limit.
if skip < 0 {
return nil, 0, errors.New("offset for skip must be positive")
}
if limit < 0 {
return nil, 0, errors.New("value for limit must be positive")
}
// Parse address type, bailing on an unknown type.
var addrKey []byte
switch addr := addr.(type) {
case *btcutil.AddressPubKeyHash:
hash160 := addr.Hash160()
addrKey = hash160[:]
case *btcutil.AddressScriptHash:
hash160 := addr.Hash160()
addrKey = hash160[:]
case *btcutil.AddressPubKey:
hash160 := addr.AddressPubKeyHash().Hash160()
addrKey = hash160[:]
default:
return nil, 0, database.ErrUnsupportedAddressType
}
// Create the prefix for our search.
addrPrefix := make([]byte, 23, 23)
copy(addrPrefix[0:3], addrIndexKeyPrefix)
copy(addrPrefix[3:23], addrKey)
iter := db.lDb.NewIterator(bytesPrefix(addrPrefix), nil)
skipped := 0
if reverse {
// Go to the last element if reverse iterating.
iter.Last()
// Skip "one past" the last element so the loops below don't
// miss the last element due to Prev() being called first.
// We can safely ignore iterator exhaustion since the loops
// below will see there's no keys anyway.
iter.Next()
}
for skip != 0 && advanceIterator(iter, reverse) {
skip--
skipped++
}
// Iterate through all address indexes that match the targeted prefix.
var replies []*database.TxListReply
var rawIndex [12]byte
for advanceIterator(iter, reverse) && limit != 0 {
copy(rawIndex[:], iter.Key()[23:35])
addrIndex := unpackTxIndex(rawIndex)
tx, blkSha, blkHeight, _, err := db.fetchTxDataByLoc(addrIndex.blkHeight,
addrIndex.txoffset, addrIndex.txlen, []byte{})
if err != nil {
// Eat a possible error due to a potential re-org.
continue
}
txSha := tx.TxSha()
txReply := &database.TxListReply{Sha: &txSha, Tx: tx,
BlkSha: blkSha, Height: blkHeight, TxSpent: []bool{}, Err: err}
replies = append(replies, txReply)
limit--
}
iter.Release()
if err := iter.Error(); err != nil {
return nil, 0, err
}
return replies, skipped, nil
}
示例3: FetchTxsForAddr
// FetchTxsForAddr looks up and returns all transactions which either
// spend from a previously created output of the passed address, or
// create a new output locked to the passed address. The, `limit` parameter
// should be the max number of transactions to be returned. Additionally, if the
// caller wishes to seek forward in the results some amount, the 'seek'
// represents how many results to skip.
func (db *LevelDb) FetchTxsForAddr(addr btcutil.Address, skip int,
limit int) ([]*database.TxListReply, error) {
db.dbLock.Lock()
defer db.dbLock.Unlock()
// Enforce constraints for skip and limit.
if skip < 0 {
return nil, errors.New("offset for skip must be positive")
}
if limit < 0 {
return nil, errors.New("value for limit must be positive")
}
// Parse address type, bailing on an unknown type.
var addrKey []byte
switch addr := addr.(type) {
case *btcutil.AddressPubKeyHash:
hash160 := addr.Hash160()
addrKey = hash160[:]
case *btcutil.AddressScriptHash:
hash160 := addr.Hash160()
addrKey = hash160[:]
case *btcutil.AddressPubKey:
hash160 := addr.AddressPubKeyHash().Hash160()
addrKey = hash160[:]
default:
return nil, database.ErrUnsupportedAddressType
}
// Create the prefix for our search.
addrPrefix := make([]byte, 23, 23)
copy(addrPrefix[0:3], addrIndexKeyPrefix)
copy(addrPrefix[3:23], addrKey)
iter := db.lDb.NewIterator(bytesPrefix(addrPrefix), nil)
for skip != 0 && iter.Next() {
skip--
}
// Iterate through all address indexes that match the targeted prefix.
var replies []*database.TxListReply
var rawIndex [12]byte
for iter.Next() && limit != 0 {
copy(rawIndex[:], iter.Key()[23:35])
addrIndex := unpackTxIndex(rawIndex)
tx, blkSha, blkHeight, _, err := db.fetchTxDataByLoc(addrIndex.blkHeight,
addrIndex.txoffset, addrIndex.txlen, []byte{})
if err != nil {
// Eat a possible error due to a potential re-org.
continue
}
txSha := tx.TxSha()
txReply := &database.TxListReply{Sha: &txSha, Tx: tx,
BlkSha: blkSha, Height: blkHeight, TxSpent: []bool{}, Err: err}
replies = append(replies, txReply)
limit--
}
iter.Release()
if err := iter.Error(); err != nil {
return nil, err
}
return replies, nil
}
示例4: Spend
func (w *LibbitcoinWallet) Spend(amount int64, addr btc.Address, feeLevel bitcoin.FeeLevel) error {
// Check for dust
script, _ := txscript.PayToAddrScript(addr)
if txrules.IsDustAmount(btc.Amount(amount), len(script), txrules.DefaultRelayFeePerKb) {
return errors.New("Amount is below dust threshold")
}
var additionalPrevScripts map[wire.OutPoint][]byte
var additionalKeysByAddress map[string]*btc.WIF
// Create input source
coinMap := w.gatherCoins()
coins := make([]coinset.Coin, 0, len(coinMap))
for k := range coinMap {
coins = append(coins, k)
}
inputSource := func(target btc.Amount) (total btc.Amount, inputs []*wire.TxIn, scripts [][]byte, err error) {
// TODO: maybe change the coin selection algorithm? We're using min coins right now because
// TODO: we don't know the number of confirmations on each coin without querying the libbitcoin server.
coinSelector := coinset.MinNumberCoinSelector{MaxInputs: 10000, MinChangeAmount: btc.Amount(10000)}
coins, err := coinSelector.CoinSelect(target, coins)
if err != nil {
return total, inputs, scripts, errors.New("insuffient funds")
}
additionalPrevScripts = make(map[wire.OutPoint][]byte)
additionalKeysByAddress = make(map[string]*btc.WIF)
for _, c := range coins.Coins() {
total += c.Value()
outpoint := wire.NewOutPoint(c.Hash(), c.Index())
in := wire.NewTxIn(outpoint, []byte{})
in.Sequence = 0 // Opt-in RBF so we can bump fees
inputs = append(inputs, in)
additionalPrevScripts[*outpoint] = c.PkScript()
key := coinMap[c]
addr, _ := btc.NewAddressPubKey(key.PublicKey().Key, w.params)
pk, _ := btcec.PrivKeyFromBytes(btcec.S256(), key.Key)
wif, _ := btc.NewWIF(pk, w.params, true)
additionalKeysByAddress[addr.AddressPubKeyHash().EncodeAddress()] = wif
}
return total, inputs, scripts, nil
}
// Get the fee per kilobyte
feePerKB := int64(w.getFeePerByte(feeLevel)) * 1000
// outputs
out := wire.NewTxOut(amount, script)
// Create change source
changeSource := func() ([]byte, error) {
addr := w.GetCurrentAddress(bitcoin.CHANGE)
script, err := txscript.PayToAddrScript(addr)
if err != nil {
return []byte{}, err
}
return script, nil
}
authoredTx, err := txauthor.NewUnsignedTransaction([]*wire.TxOut{out}, btc.Amount(feePerKB), inputSource, changeSource)
if err != nil {
return err
}
// BIP 69 sorting
txsort.InPlaceSort(authoredTx.Tx)
// Sign tx
getKey := txscript.KeyClosure(func(addr btc.Address) (
*btcec.PrivateKey, bool, error) {
addrStr := addr.EncodeAddress()
wif := additionalKeysByAddress[addrStr]
return wif.PrivKey, wif.CompressPubKey, nil
})
getScript := txscript.ScriptClosure(func(
addr btc.Address) ([]byte, error) {
return []byte{}, nil
})
for i, txIn := range authoredTx.Tx.TxIn {
prevOutScript := additionalPrevScripts[txIn.PreviousOutPoint]
script, err := txscript.SignTxOutput(w.params,
authoredTx.Tx, i, prevOutScript, txscript.SigHashAll, getKey,
getScript, txIn.SignatureScript)
if err != nil {
return errors.New("Failed to sign transaction")
}
txIn.SignatureScript = script
}
// Broadcast tx to bitcoin network
serializedTx := new(bytes.Buffer)
authoredTx.Tx.Serialize(serializedTx)
w.Client.Broadcast(serializedTx.Bytes(), func(i interface{}, err error) {
if err == nil {
log.Infof("Broadcast tx %s to bitcoin network\n", authoredTx.Tx.TxSha().String())
} else {
log.Errorf("Failed to broadcast tx, reason: %s\n", err)
}
})
// Update the db
//.........这里部分代码省略.........