本文整理汇总了Golang中github.com/wchh/gocoin/lib/btc.Tx.TxIn方法的典型用法代码示例。如果您正苦于以下问题:Golang Tx.TxIn方法的具体用法?Golang Tx.TxIn怎么用?Golang Tx.TxIn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/wchh/gocoin/lib/btc.Tx
的用法示例。
在下文中一共展示了Tx.TxIn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: mk_out_tx
func mk_out_tx(sig_scr, pk_scr []byte) (output_tx *btc.Tx) {
// We build input_tx only to calculate it's hash for output_tx
input_tx := new(btc.Tx)
input_tx.Version = 1
input_tx.TxIn = []*btc.TxIn{&btc.TxIn{Input: btc.TxPrevOut{Vout: 0xffffffff},
ScriptSig: []byte{0, 0}, Sequence: 0xffffffff}}
input_tx.TxOut = []*btc.TxOut{&btc.TxOut{Pk_script: pk_scr}}
// Lock_time = 0
output_tx = new(btc.Tx)
output_tx.Version = 1
output_tx.TxIn = []*btc.TxIn{&btc.TxIn{Input: btc.TxPrevOut{Hash: btc.Sha2Sum(input_tx.Serialize()), Vout: 0},
ScriptSig: sig_scr, Sequence: 0xffffffff}}
output_tx.TxOut = []*btc.TxOut{&btc.TxOut{}}
// Lock_time = 0
return
}
示例2: make_signed_tx
// prepare a signed transaction
func make_signed_tx() {
// Make an empty transaction
tx := new(btc.Tx)
tx.Version = 1
tx.Lock_time = 0
// Select as many inputs as we need to pay the full amount (with the fee)
var btcsofar uint64
for i := range unspentOuts {
if unspentOuts[i].key == nil {
continue
}
uo := getUO(&unspentOuts[i].TxPrevOut)
// add the input to our transaction:
tin := new(btc.TxIn)
tin.Input = unspentOuts[i].TxPrevOut
tin.Sequence = 0xffffffff
tx.TxIn = append(tx.TxIn, tin)
btcsofar += uo.Value
unspentOuts[i].spent = true
if !*useallinputs && (btcsofar >= spendBtc+feeBtc) {
break
}
}
if btcsofar < (spendBtc + feeBtc) {
fmt.Println("ERROR: You have", btc.UintToBtc(btcsofar), "BTC, but you need",
btc.UintToBtc(spendBtc+feeBtc), "BTC for the transaction")
cleanExit(1)
}
changeBtc = btcsofar - (spendBtc + feeBtc)
if *verbose {
fmt.Printf("Spending %d out of %d outputs...\n", len(tx.TxIn), len(unspentOuts))
}
// Build transaction outputs:
for o := range sendTo {
outs, er := btc.NewSpendOutputs(sendTo[o].addr, sendTo[o].amount, testnet)
if er != nil {
fmt.Println("ERROR:", er.Error())
cleanExit(1)
}
tx.TxOut = append(tx.TxOut, outs...)
}
if changeBtc > 0 {
// Add one more output (with the change)
chad := get_change_addr()
if *verbose {
fmt.Println("Sending change", changeBtc, "to", chad.String())
}
outs, er := btc.NewSpendOutputs(chad, changeBtc, testnet)
if er != nil {
fmt.Println("ERROR:", er.Error())
cleanExit(1)
}
tx.TxOut = append(tx.TxOut, outs...)
}
if *message != "" {
// Add NULL output with an arbitrary message
scr := new(bytes.Buffer)
scr.WriteByte(0x6a) // OP_RETURN
btc.WritePutLen(scr, uint32(len(*message)))
scr.Write([]byte(*message))
tx.TxOut = append(tx.TxOut, &btc.TxOut{Value: 0, Pk_script: scr.Bytes()})
}
signed := sign_tx(tx)
write_tx_file(tx)
if apply2bal && signed {
apply_to_balance(tx)
}
}
示例3: GetTxFromExplorer
// Download (and re-assemble) raw transaction from blockexplorer.com
func GetTxFromExplorer(txid *btc.Uint256) ([]byte, []byte) {
url := "http://blockexplorer.com/rawtx/" + txid.String()
r, er := http.Get(url)
if er == nil && r.StatusCode == 200 {
defer r.Body.Close()
c, _ := ioutil.ReadAll(r.Body)
var txx onetx
er = json.Unmarshal(c[:], &txx)
if er == nil {
// This part looks weird, but this is how I solved seq=FFFFFFFF, if the field not present:
for i := range txx.In {
txx.In[i].Sequence = 0xffffffff
}
json.Unmarshal(c[:], &txx)
// ... end of the weird solution
tx := new(btc.Tx)
tx.Version = txx.Ver
tx.TxIn = make([]*btc.TxIn, len(txx.In))
for i := range txx.In {
tx.TxIn[i] = new(btc.TxIn)
tx.TxIn[i].Input.Hash = btc.NewUint256FromString(txx.In[i].Prev_out.Hash).Hash
tx.TxIn[i].Input.Vout = txx.In[i].Prev_out.N
if txx.In[i].Prev_out.N == 0xffffffff &&
txx.In[i].Prev_out.Hash == "0000000000000000000000000000000000000000000000000000000000000000" {
tx.TxIn[i].ScriptSig, _ = hex.DecodeString(txx.In[i].Coinbase)
} else {
tx.TxIn[i].ScriptSig, _ = btc.DecodeScript(txx.In[i].ScriptSig)
}
tx.TxIn[i].Sequence = txx.In[i].Sequence
}
tx.TxOut = make([]*btc.TxOut, len(txx.Out))
for i := range txx.Out {
am, er := btc.StringToSatoshis(txx.Out[i].Value)
if er != nil {
fmt.Println("Incorrect BTC amount", txx.Out[i].Value, er.Error())
return nil, nil
}
tx.TxOut[i] = new(btc.TxOut)
tx.TxOut[i].Value = am
tx.TxOut[i].Pk_script, _ = btc.DecodeScript(txx.Out[i].ScriptPubKey)
}
tx.Lock_time = txx.Lock_time
rawtx := tx.Serialize()
if txx.Size != uint(len(rawtx)) {
fmt.Printf("Transaction size mismatch: %d expexted, %d decoded\n", txx.Size, len(rawtx))
return nil, rawtx
}
curid := btc.NewSha2Hash(rawtx)
if !curid.Equal(txid) {
fmt.Println("The downloaded transaction does not match its ID.", txid.String())
return nil, rawtx
}
return rawtx, rawtx
} else {
fmt.Println("json.Unmarshal:", er.Error())
}
} else {
if er != nil {
fmt.Println("http.Get:", er.Error())
} else {
fmt.Println("StatusCode=", r.StatusCode)
}
}
return nil, nil
}
示例4: dl_payment
func dl_payment(w http.ResponseWriter, r *http.Request) {
if !ipchecker(r) {
return
}
var err string
if len(r.Form["outcnt"]) == 1 {
var thisbal chain.AllUnspentTx
var pay_cmd string
var totalinput, spentsofar uint64
var change_addr *btc.BtcAddr
var multisig_input []*wallet.MultisigAddr
addrs_to_msign := make(map[string]bool)
tx := new(btc.Tx)
tx.Version = 1
tx.Lock_time = 0
outcnt, _ := strconv.ParseUint(r.Form["outcnt"][0], 10, 32)
wallet.BalanceMutex.Lock()
for i := 1; i <= int(outcnt); i++ {
is := fmt.Sprint(i)
if len(r.Form["txout"+is]) == 1 && r.Form["txout"+is][0] == "on" {
hash := btc.NewUint256FromString(r.Form["txid"+is][0])
if hash != nil {
vout, er := strconv.ParseUint(r.Form["txvout"+is][0], 10, 32)
if er == nil {
var po = btc.TxPrevOut{Hash: hash.Hash, Vout: uint32(vout)}
for j := range wallet.MyBalance {
if wallet.MyBalance[j].TxPrevOut == po {
thisbal = append(thisbal, wallet.MyBalance[j])
// Add the input to our tx
tin := new(btc.TxIn)
tin.Input = wallet.MyBalance[j].TxPrevOut
tin.Sequence = 0xffffffff
tx.TxIn = append(tx.TxIn, tin)
// Add new multisig address description
_, msi := wallet.IsMultisig(wallet.MyBalance[j].BtcAddr)
multisig_input = append(multisig_input, msi)
if msi != nil {
for ai := range msi.ListOfAddres {
addrs_to_msign[msi.ListOfAddres[ai]] = true
}
}
// Add the value to total input value
totalinput += wallet.MyBalance[j].Value
// If no change specified, use the first input addr as it
if change_addr == nil {
change_addr = wallet.MyBalance[j].BtcAddr
}
}
}
}
}
}
}
wallet.BalanceMutex.Unlock()
for i := 1; ; i++ {
adridx := fmt.Sprint("adr", i)
btcidx := fmt.Sprint("btc", i)
if len(r.Form[adridx]) != 1 || len(r.Form[btcidx]) != 1 {
break
}
if len(r.Form[adridx][0]) > 1 {
addr, er := btc.NewAddrFromString(r.Form[adridx][0])
if er == nil {
am, er := btc.StringToSatoshis(r.Form[btcidx][0])
if er == nil && am > 0 {
if pay_cmd == "" {
pay_cmd = "wallet -useallinputs -send "
} else {
pay_cmd += ","
}
pay_cmd += addr.Enc58str + "=" + btc.UintToBtc(am)
outs, er := btc.NewSpendOutputs(addr, am, common.CFG.Testnet)
if er != nil {
err = er.Error()
goto error
}
tx.TxOut = append(tx.TxOut, outs...)
spentsofar += am
} else {
err = "Incorrect amount (" + r.Form[btcidx][0] + ") for Output #" + fmt.Sprint(i)
goto error
}
} else {
err = "Incorrect address (" + r.Form[adridx][0] + ") for Output #" + fmt.Sprint(i)
goto error
//.........这里部分代码省略.........