// This example demonstrates creating a script which pays to a decred address.
// It also prints the created script hex and uses the DisasmString function to
// display the disassembled script.
func ExamplePayToAddrScript() {
// Parse the address to send the coins to into a dcrutil.Address
// which is useful to ensure the accuracy of the address and determine
// the address type. It is also required for the upcoming call to
// PayToAddrScript.
addressStr := "DsSej1qR3Fyc8kV176DCh9n9cY9nqf9Quxk"
address, err := dcrutil.DecodeAddress(addressStr, &chaincfg.MainNetParams)
if err != nil {
fmt.Println(err)
return
}
// Create a public key script that pays to the address.
script, err := txscript.PayToAddrScript(address)
if err != nil {
fmt.Println(err)
return
}
fmt.Printf("Script Hex: %x\n", script)
disasm, err := txscript.DisasmString(script)
if err != nil {
fmt.Println(err)
return
}
fmt.Println("Script Disassembly:", disasm)
// Output:
// Script Hex: 76a914128004ff2fcaf13b2b91eb654b1dc2b674f7ec6188ac
// Script Disassembly: OP_DUP OP_HASH160 128004ff2fcaf13b2b91eb654b1dc2b674f7ec61 OP_EQUALVERIFY OP_CHECKSIG
}
// DebugMsgTxString dumps a verbose message containing information about the
// contents of a transaction.
func DebugMsgTxString(msgTx *wire.MsgTx) string {
tx := dcrutil.NewTx(msgTx)
isSStx, _ := stake.IsSStx(tx)
isSSGen, _ := stake.IsSSGen(tx)
var sstxType []bool
var sstxPkhs [][]byte
var sstxAmts []int64
var sstxRules [][]bool
var sstxLimits [][]uint16
if isSStx {
sstxType, sstxPkhs, sstxAmts, _, sstxRules, sstxLimits =
stake.GetSStxStakeOutputInfo(tx)
}
var buffer bytes.Buffer
hash := msgTx.TxSha()
str := fmt.Sprintf("Transaction hash: %v, Version %v, Locktime: %v, "+
"Expiry %v\n\n", hash, msgTx.Version, msgTx.LockTime, msgTx.Expiry)
buffer.WriteString(str)
str = fmt.Sprintf("==INPUTS==\nNumber of inputs: %v\n\n",
len(msgTx.TxIn))
buffer.WriteString(str)
for i, input := range msgTx.TxIn {
str = fmt.Sprintf("Input number: %v\n", i)
buffer.WriteString(str)
str = fmt.Sprintf("Previous outpoint hash: %v, ",
input.PreviousOutPoint.Hash)
buffer.WriteString(str)
str = fmt.Sprintf("Previous outpoint index: %v, ",
input.PreviousOutPoint.Index)
buffer.WriteString(str)
str = fmt.Sprintf("Previous outpoint tree: %v \n",
input.PreviousOutPoint.Tree)
buffer.WriteString(str)
str = fmt.Sprintf("Sequence: %v \n",
input.Sequence)
buffer.WriteString(str)
str = fmt.Sprintf("ValueIn: %v \n",
input.ValueIn)
buffer.WriteString(str)
str = fmt.Sprintf("BlockHeight: %v \n",
input.BlockHeight)
buffer.WriteString(str)
str = fmt.Sprintf("BlockIndex: %v \n",
input.BlockIndex)
buffer.WriteString(str)
str = fmt.Sprintf("Raw signature script: %x \n", input.SignatureScript)
buffer.WriteString(str)
sigScr, _ := txscript.DisasmString(input.SignatureScript)
str = fmt.Sprintf("Disasmed signature script: %v \n\n",
sigScr)
buffer.WriteString(str)
}
str = fmt.Sprintf("==OUTPUTS==\nNumber of outputs: %v\n\n",
len(msgTx.TxOut))
buffer.WriteString(str)
for i, output := range msgTx.TxOut {
str = fmt.Sprintf("Output number: %v\n", i)
buffer.WriteString(str)
coins := float64(output.Value) / 1e8
str = fmt.Sprintf("Output amount: %v atoms or %v coins\n", output.Value,
coins)
buffer.WriteString(str)
// SStx OP_RETURNs, dump pkhs and amts committed
if isSStx && i != 0 && i%2 == 1 {
coins := float64(sstxAmts[i/2]) / 1e8
str = fmt.Sprintf("SStx commit amount: %v atoms or %v coins\n",
sstxAmts[i/2], coins)
buffer.WriteString(str)
str = fmt.Sprintf("SStx commit address: %x\n",
sstxPkhs[i/2])
buffer.WriteString(str)
str = fmt.Sprintf("SStx address type is P2SH: %v\n",
sstxType[i/2])
buffer.WriteString(str)
str = fmt.Sprintf("SStx all address types is P2SH: %v\n",
sstxType)
buffer.WriteString(str)
str = fmt.Sprintf("Voting is fee limited: %v\n",
sstxLimits[i/2][0])
buffer.WriteString(str)
if sstxRules[i/2][0] {
str = fmt.Sprintf("Voting limit imposed: %v\n",
sstxLimits[i/2][0])
buffer.WriteString(str)
}
str = fmt.Sprintf("Revoking is fee limited: %v\n",
sstxRules[i/2][1])
buffer.WriteString(str)
if sstxRules[i/2][1] {
str = fmt.Sprintf("Voting limit imposed: %v\n",
sstxLimits[i/2][1])
buffer.WriteString(str)
}
}
// SSGen block/block height OP_RETURN.
if isSSGen && i == 0 {
blkHash, blkHeight, _ := stake.GetSSGenBlockVotedOn(tx)
str = fmt.Sprintf("SSGen block hash voted on: %v, height: %v\n",
blkHash, blkHeight)
buffer.WriteString(str)
}
if isSSGen && i == 1 {
vb := stake.GetSSGenVoteBits(tx)
str = fmt.Sprintf("SSGen vote bits: %v\n", vb)
buffer.WriteString(str)
}
str = fmt.Sprintf("Raw script: %x \n", output.PkScript)
buffer.WriteString(str)
scr, _ := txscript.DisasmString(output.PkScript)
str = fmt.Sprintf("Disasmed script: %v \n\n", scr)
buffer.WriteString(str)
}
return buffer.String()
}
