ltcutil

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Published: Sep 9, 2023 License: ISC Imports: 32 Imported by: 0

README

btcutil

Build Status ISC License GoDoc

Package ltcutil provides bitcoin-specific convenience functions and types. A comprehensive suite of tests is provided to ensure proper functionality. See test_coverage.txt for the gocov coverage report. Alternatively, if you are running a POSIX OS, you can run the cov_report.sh script for a real-time report.

This package was developed for btcd, an alternative full-node implementation of bitcoin which is under active development by Conformal. Although it was primarily written for btcd, this package has intentionally been designed so it can be used as a standalone package for any projects needing the functionality provided.

Installation and Updating

$ go get -u github.com/MrLinnea/ltcd/ltcutil

GPG Verification Key

All official release tags are signed by Conformal so users can ensure the code has not been tampered with and is coming from the btcsuite developers. To verify the signature perform the following:

  • Download the public key from the Conformal website at https://opensource.conformal.com/GIT-GPG-KEY-conformal.txt

  • Import the public key into your GPG keyring:

    gpg --import GIT-GPG-KEY-conformal.txt
    
  • Verify the release tag with the following command where TAG_NAME is a placeholder for the specific tag:

    git tag -v TAG_NAME
    

License

Package ltcutil is licensed under the copyfree ISC License.

Documentation

Overview

Package ltcutil provides bitcoin-specific convenience functions and types.

Block Overview

A Block defines a bitcoin block that provides easier and more efficient manipulation of raw wire protocol blocks. It also memoizes hashes for the block and its transactions on their first access so subsequent accesses don't have to repeat the relatively expensive hashing operations.

Tx Overview

A Tx defines a bitcoin transaction that provides more efficient manipulation of raw wire protocol transactions. It memoizes the hash for the transaction on its first access so subsequent accesses don't have to repeat the relatively expensive hashing operations.

Address Overview

The Address interface provides an abstraction for a Bitcoin address. While the most common type is a pay-to-pubkey-hash, Bitcoin already supports others and may well support more in the future. This package currently provides implementations for the pay-to-pubkey, pay-to-pubkey-hash, and pay-to-script-hash address types.

To decode/encode an address:

// NOTE: The default network is only used for address types which do not
// already contain that information.  At this time, that is only
// pay-to-pubkey addresses.
addrString := "04678afdb0fe5548271967f1a67130b7105cd6a828e03909a67962" +
	"e0ea1f61deb649f6bc3f4cef38c4f35504e51ec112de5c384df7ba0b8d57" +
	"8a4c702b6bf11d5f"
defaultNet := &chaincfg.MainNetParams
addr, err := ltcutil.DecodeAddress(addrString, defaultNet)
if err != nil {
	fmt.Println(err)
	return
}
fmt.Println(addr.EncodeAddress())

Index

Examples

Constants

View Source
const (
	// SatoshiPerBitcent is the number of satoshi in one bitcoin cent.
	SatoshiPerBitcent = 1e6

	// SatoshiPerBitcoin is the number of satoshi in one bitcoin (1 BTC).
	SatoshiPerBitcoin = 1e8

	// MaxSatoshi is the maximum transaction amount allowed in satoshi.
	MaxSatoshi = 84e6 * SatoshiPerBitcoin
)
View Source
const BlockHeightUnknown = int32(-1)

BlockHeightUnknown is the value returned for a block height that is unknown. This is typically because the block has not been inserted into the main chain yet.

View Source
const TxIndexUnknown = -1

TxIndexUnknown is the value returned for a transaction index that is unknown. This is typically because the transaction has not been inserted into a block yet.

Variables

View Source
var (
	// ErrChecksumMismatch describes an error where decoding failed due
	// to a bad checksum.
	ErrChecksumMismatch = errors.New("checksum mismatch")

	// ErrUnknownAddressType describes an error where an address can not
	// decoded as a specific address type due to the string encoding
	// beginning with an identifier byte unknown to any standard or
	// registered (via chaincfg.Register) network.
	ErrUnknownAddressType = errors.New("unknown address type")

	// ErrAddressCollision describes an error where an address can not
	// be uniquely determined as either a pay-to-pubkey-hash or
	// pay-to-script-hash address since the leading identifier is used for
	// describing both address kinds, but for different networks.  Rather
	// than assuming or defaulting to one or the other, this error is
	// returned and the caller must decide how to decode the address.
	ErrAddressCollision = errors.New("address collision")
)
View Source
var ErrMalformedPrivateKey = errors.New("malformed private key")

ErrMalformedPrivateKey describes an error where a WIF-encoded private key cannot be decoded due to being improperly formatted. This may occur if the byte length is incorrect or an unexpected magic number was encountered.

Functions

func AppDataDir

func AppDataDir(appName string, roaming bool) string

AppDataDir returns an operating system specific directory to be used for storing application data for an application.

The appName parameter is the name of the application the data directory is being requested for. This function will prepend a period to the appName for POSIX style operating systems since that is standard practice. An empty appName or one with a single dot is treated as requesting the current directory so only "." will be returned. Further, the first character of appName will be made lowercase for POSIX style operating systems and uppercase for Mac and Windows since that is standard practice.

The roaming parameter only applies to Windows where it specifies the roaming application data profile (%APPDATA%) should be used instead of the local one (%LOCALAPPDATA%) that is used by default.

Example results:

dir := AppDataDir("myapp", false)
 POSIX (Linux/BSD): ~/.myapp
 Mac OS: $HOME/Library/Application Support/Myapp
 Windows: %LOCALAPPDATA%\Myapp
 Plan 9: $home/myapp

func Hash160

func Hash160(buf []byte) []byte

Hash160 calculates the hash ripemd160(sha256(b)).

func NewTLSCertPair

func NewTLSCertPair(organization string, validUntil time.Time, extraHosts []string) (cert, key []byte, err error)

NewTLSCertPair returns a new PEM-encoded x.509 certificate pair based on a 521-bit ECDSA private key. The machine's local interface addresses and all variants of IPv4 and IPv6 localhost are included as valid IP addresses.

Types

type Address

type Address interface {
	// String returns the string encoding of the transaction output
	// destination.
	//
	// Please note that String differs subtly from EncodeAddress: String
	// will return the value as a string without any conversion, while
	// EncodeAddress may convert destination types (for example,
	// converting pubkeys to P2PKH addresses) before encoding as a
	// payment address string.
	String() string

	// EncodeAddress returns the string encoding of the payment address
	// associated with the Address value.  See the comment on String
	// for how this method differs from String.
	EncodeAddress() string

	// ScriptAddress returns the raw bytes of the address to be used
	// when inserting the address into a txout's script.
	ScriptAddress() []byte

	// IsForNet returns whether or not the address is associated with the
	// passed bitcoin network.
	IsForNet(*chaincfg.Params) bool
}

Address is an interface type for any type of destination a transaction output may spend to. This includes pay-to-pubkey (P2PK), pay-to-pubkey-hash (P2PKH), and pay-to-script-hash (P2SH). Address is designed to be generic enough that other kinds of addresses may be added in the future without changing the decoding and encoding API.

func DecodeAddress

func DecodeAddress(addr string, defaultNet *chaincfg.Params) (Address, error)

DecodeAddress decodes the string encoding of an address and returns the Address if addr is a valid encoding for a known address type.

The bitcoin network the address is associated with is extracted if possible. When the address does not encode the network, such as in the case of a raw public key, the address will be associated with the passed defaultNet.

type AddressPubKey

type AddressPubKey struct {
	// contains filtered or unexported fields
}

AddressPubKey is an Address for a pay-to-pubkey transaction.

func NewAddressPubKey

func NewAddressPubKey(serializedPubKey []byte, net *chaincfg.Params) (*AddressPubKey, error)

NewAddressPubKey returns a new AddressPubKey which represents a pay-to-pubkey address. The serializedPubKey parameter must be a valid pubkey and can be uncompressed, compressed, or hybrid.

func (*AddressPubKey) AddressPubKeyHash

func (a *AddressPubKey) AddressPubKeyHash() *AddressPubKeyHash

AddressPubKeyHash returns the pay-to-pubkey address converted to a pay-to-pubkey-hash address. Note that the public key format (uncompressed, compressed, etc) will change the resulting address. This is expected since pay-to-pubkey-hash is a hash of the serialized public key which obviously differs with the format. At the time of this writing, most Bitcoin addresses are pay-to-pubkey-hash constructed from the uncompressed public key.

func (*AddressPubKey) EncodeAddress

func (a *AddressPubKey) EncodeAddress() string

EncodeAddress returns the string encoding of the public key as a pay-to-pubkey-hash. Note that the public key format (uncompressed, compressed, etc) will change the resulting address. This is expected since pay-to-pubkey-hash is a hash of the serialized public key which obviously differs with the format. At the time of this writing, most Bitcoin addresses are pay-to-pubkey-hash constructed from the uncompressed public key.

Part of the Address interface.

func (*AddressPubKey) Format

func (a *AddressPubKey) Format() PubKeyFormat

Format returns the format (uncompressed, compressed, etc) of the pay-to-pubkey address.

func (*AddressPubKey) IsForNet

func (a *AddressPubKey) IsForNet(net *chaincfg.Params) bool

IsForNet returns whether or not the pay-to-pubkey address is associated with the passed bitcoin network.

func (*AddressPubKey) PubKey

func (a *AddressPubKey) PubKey() *btcec.PublicKey

PubKey returns the underlying public key for the address.

func (*AddressPubKey) ScriptAddress

func (a *AddressPubKey) ScriptAddress() []byte

ScriptAddress returns the bytes to be included in a txout script to pay to a public key. Setting the public key format will affect the output of this function accordingly. Part of the Address interface.

func (*AddressPubKey) SetFormat

func (a *AddressPubKey) SetFormat(pkFormat PubKeyFormat)

SetFormat sets the format (uncompressed, compressed, etc) of the pay-to-pubkey address.

func (*AddressPubKey) String

func (a *AddressPubKey) String() string

String returns the hex-encoded human-readable string for the pay-to-pubkey address. This is not the same as calling EncodeAddress.

type AddressPubKeyHash

type AddressPubKeyHash struct {
	// contains filtered or unexported fields
}

AddressPubKeyHash is an Address for a pay-to-pubkey-hash (P2PKH) transaction.

func NewAddressPubKeyHash

func NewAddressPubKeyHash(pkHash []byte, net *chaincfg.Params) (*AddressPubKeyHash, error)

NewAddressPubKeyHash returns a new AddressPubKeyHash. pkHash mustbe 20 bytes.

func (*AddressPubKeyHash) EncodeAddress

func (a *AddressPubKeyHash) EncodeAddress() string

EncodeAddress returns the string encoding of a pay-to-pubkey-hash address. Part of the Address interface.

func (*AddressPubKeyHash) Hash160

func (a *AddressPubKeyHash) Hash160() *[ripemd160.Size]byte

Hash160 returns the underlying array of the pubkey hash. This can be useful when an array is more appropriate than a slice (for example, when used as map keys).

func (*AddressPubKeyHash) IsForNet

func (a *AddressPubKeyHash) IsForNet(net *chaincfg.Params) bool

IsForNet returns whether or not the pay-to-pubkey-hash address is associated with the passed bitcoin network.

func (*AddressPubKeyHash) ScriptAddress

func (a *AddressPubKeyHash) ScriptAddress() []byte

ScriptAddress returns the bytes to be included in a txout script to pay to a pubkey hash. Part of the Address interface.

func (*AddressPubKeyHash) String

func (a *AddressPubKeyHash) String() string

String returns a human-readable string for the pay-to-pubkey-hash address. This is equivalent to calling EncodeAddress, but is provided so the type can be used as a fmt.Stringer.

type AddressScriptHash

type AddressScriptHash struct {
	// contains filtered or unexported fields
}

AddressScriptHash is an Address for a pay-to-script-hash (P2SH) transaction.

func NewAddressScriptHash

func NewAddressScriptHash(serializedScript []byte, net *chaincfg.Params) (*AddressScriptHash, error)

NewAddressScriptHash returns a new AddressScriptHash.

func NewAddressScriptHashFromHash

func NewAddressScriptHashFromHash(scriptHash []byte, net *chaincfg.Params) (*AddressScriptHash, error)

NewAddressScriptHashFromHash returns a new AddressScriptHash. scriptHash must be 20 bytes.

func (*AddressScriptHash) EncodeAddress

func (a *AddressScriptHash) EncodeAddress() string

EncodeAddress returns the string encoding of a pay-to-script-hash address. Part of the Address interface.

func (*AddressScriptHash) Hash160

func (a *AddressScriptHash) Hash160() *[ripemd160.Size]byte

Hash160 returns the underlying array of the script hash. This can be useful when an array is more appropriate than a slice (for example, when used as map keys).

func (*AddressScriptHash) IsForNet

func (a *AddressScriptHash) IsForNet(net *chaincfg.Params) bool

IsForNet returns whether or not the pay-to-script-hash address is associated with the passed bitcoin network.

func (*AddressScriptHash) ScriptAddress

func (a *AddressScriptHash) ScriptAddress() []byte

ScriptAddress returns the bytes to be included in a txout script to pay to a script hash. Part of the Address interface.

func (*AddressScriptHash) String

func (a *AddressScriptHash) String() string

String returns a human-readable string for the pay-to-script-hash address. This is equivalent to calling EncodeAddress, but is provided so the type can be used as a fmt.Stringer.

type AddressSegWit

type AddressSegWit struct {
	// contains filtered or unexported fields
}

AddressSegWit is the base address type for all SegWit addresses.

func (*AddressSegWit) EncodeAddress

func (a *AddressSegWit) EncodeAddress() string

EncodeAddress returns the bech32 (or bech32m for SegWit v1) string encoding of an AddressSegWit.

NOTE: This method is part of the Address interface.

func (*AddressSegWit) Hrp

func (a *AddressSegWit) Hrp() string

Hrp returns the human-readable part of the bech32 (or bech32m for SegWit v1) encoded AddressSegWit.

func (*AddressSegWit) IsForNet

func (a *AddressSegWit) IsForNet(net *chaincfg.Params) bool

IsForNet returns whether the AddressSegWit is associated with the passed bitcoin network.

NOTE: This method is part of the Address interface.

func (*AddressSegWit) ScriptAddress

func (a *AddressSegWit) ScriptAddress() []byte

ScriptAddress returns the witness program for this address.

NOTE: This method is part of the Address interface.

func (*AddressSegWit) String

func (a *AddressSegWit) String() string

String returns a human-readable string for the AddressWitnessPubKeyHash. This is equivalent to calling EncodeAddress, but is provided so the type can be used as a fmt.Stringer.

NOTE: This method is part of the Address interface.

func (*AddressSegWit) WitnessProgram

func (a *AddressSegWit) WitnessProgram() []byte

WitnessProgram returns the witness program of the AddressSegWit.

func (*AddressSegWit) WitnessVersion

func (a *AddressSegWit) WitnessVersion() byte

WitnessVersion returns the witness version of the AddressSegWit.

type AddressTaproot

type AddressTaproot struct {
	AddressSegWit
}

AddressTaproot is an Address for a pay-to-taproot (P2TR) output. See BIP 341 for further details.

func NewAddressTaproot

func NewAddressTaproot(witnessProg []byte,
	net *chaincfg.Params) (*AddressTaproot, error)

NewAddressTaproot returns a new AddressTaproot.

type AddressWitnessPubKeyHash

type AddressWitnessPubKeyHash struct {
	AddressSegWit
}

AddressWitnessPubKeyHash is an Address for a pay-to-witness-pubkey-hash (P2WPKH) output. See BIP 173 for further details regarding native segregated witness address encoding: https://github.com/bitcoin/bips/blob/master/bip-0173.mediawiki

func NewAddressWitnessPubKeyHash

func NewAddressWitnessPubKeyHash(witnessProg []byte,
	net *chaincfg.Params) (*AddressWitnessPubKeyHash, error)

NewAddressWitnessPubKeyHash returns a new AddressWitnessPubKeyHash.

func (*AddressWitnessPubKeyHash) Hash160

func (a *AddressWitnessPubKeyHash) Hash160() *[20]byte

Hash160 returns the witness program of the AddressWitnessPubKeyHash as a byte array.

type AddressWitnessScriptHash

type AddressWitnessScriptHash struct {
	AddressSegWit
}

AddressWitnessScriptHash is an Address for a pay-to-witness-script-hash (P2WSH) output. See BIP 173 for further details regarding native segregated witness address encoding: https://github.com/bitcoin/bips/blob/master/bip-0173.mediawiki

func NewAddressWitnessScriptHash

func NewAddressWitnessScriptHash(witnessProg []byte,
	net *chaincfg.Params) (*AddressWitnessScriptHash, error)

NewAddressWitnessScriptHash returns a new AddressWitnessPubKeyHash.

type Amount

type Amount int64

Amount represents the base bitcoin monetary unit (colloquially referred to as a `Satoshi'). A single Amount is equal to 1e-8 of a bitcoin.

Example
package main

import (
	"fmt"

	"github.com/MrLinnea/ltcd/ltcutil"
)

func main() {

	a := ltcutil.Amount(0)
	fmt.Println("Zero Satoshi:", a)

	a = ltcutil.Amount(1e8)
	fmt.Println("100,000,000 Satoshis:", a)

	a = ltcutil.Amount(1e5)
	fmt.Println("100,000 Satoshis:", a)
}
Output:

Zero Satoshi: 0 LTC
100,000,000 Satoshis: 1 LTC
100,000 Satoshis: 0.001 LTC
Example (UnitConversions)
package main

import (
	"fmt"

	"github.com/MrLinnea/ltcd/ltcutil"
)

func main() {
	amount := ltcutil.Amount(44433322211100)

	fmt.Println("Satoshi to kLTC:", amount.Format(ltcutil.AmountKiloBTC))
	fmt.Println("Satoshi to LTC:", amount)
	fmt.Println("Satoshi to MilliLTC:", amount.Format(ltcutil.AmountMilliBTC))
	fmt.Println("Satoshi to MicroLTC:", amount.Format(ltcutil.AmountMicroBTC))
	fmt.Println("Satoshi to Litoshi:", amount.Format(ltcutil.AmountSatoshi))

}
Output:

Satoshi to kLTC: 444.333222111 kLTC
Satoshi to LTC: 444333.222111 LTC
Satoshi to MilliLTC: 444333222.111 mLTC
Satoshi to MicroLTC: 444333222111 μLTC
Satoshi to Litoshi: 44433322211100 Litoshi

func NewAmount

func NewAmount(f float64) (Amount, error)

NewAmount creates an Amount from a floating point value representing some value in bitcoin. NewAmount errors if f is NaN or +-Infinity, but does not check that the amount is within the total amount of bitcoin producible as f may not refer to an amount at a single moment in time.

NewAmount is for specifically for converting BTC to Satoshi. For creating a new Amount with an int64 value which denotes a quantity of Satoshi, do a simple type conversion from type int64 to Amount. See GoDoc for example: http://godoc.org/github.com/MrLinnea/ltcd/ltcutil#example-Amount

Example
package main

import (
	"fmt"
	"math"

	"github.com/MrLinnea/ltcd/ltcutil"
)

func main() {
	amountOne, err := ltcutil.NewAmount(1)
	if err != nil {
		fmt.Println(err)
		return
	}
	fmt.Println(amountOne) //Output 1

	amountFraction, err := ltcutil.NewAmount(0.01234567)
	if err != nil {
		fmt.Println(err)
		return
	}
	fmt.Println(amountFraction) //Output 2

	amountZero, err := ltcutil.NewAmount(0)
	if err != nil {
		fmt.Println(err)
		return
	}
	fmt.Println(amountZero) //Output 3

	amountNaN, err := ltcutil.NewAmount(math.NaN())
	if err != nil {
		fmt.Println(err)
		return
	}
	fmt.Println(amountNaN) //Output 4

}
Output:

1 LTC
0.01234567 LTC
0 LTC
invalid bitcoin amount

func (Amount) Format

func (a Amount) Format(u AmountUnit) string

Format formats a monetary amount counted in bitcoin base units as a string for a given unit. The conversion will succeed for any unit, however, known units will be formated with an appended label describing the units with SI notation, or "Satoshi" for the base unit.

func (Amount) MulF64

func (a Amount) MulF64(f float64) Amount

MulF64 multiplies an Amount by a floating point value. While this is not an operation that must typically be done by a full node or wallet, it is useful for services that build on top of bitcoin (for example, calculating a fee by multiplying by a percentage).

func (Amount) String

func (a Amount) String() string

String is the equivalent of calling Format with AmountBTC.

func (Amount) ToBTC

func (a Amount) ToBTC() float64

ToBTC is the equivalent of calling ToUnit with AmountBTC.

func (Amount) ToUnit

func (a Amount) ToUnit(u AmountUnit) float64

ToUnit converts a monetary amount counted in bitcoin base units to a floating point value representing an amount of bitcoin.

type AmountUnit

type AmountUnit int

AmountUnit describes a method of converting an Amount to something other than the base unit of a bitcoin. The value of the AmountUnit is the exponent component of the decadic multiple to convert from an amount in bitcoin to an amount counted in units.

const (
	AmountMegaBTC  AmountUnit = 6
	AmountKiloBTC  AmountUnit = 3
	AmountBTC      AmountUnit = 0
	AmountMilliBTC AmountUnit = -3
	AmountMicroBTC AmountUnit = -6
	AmountSatoshi  AmountUnit = -8
)

These constants define various units used when describing a bitcoin monetary amount.

func (AmountUnit) String

func (u AmountUnit) String() string

String returns the unit as a string. For recognized units, the SI prefix is used, or "Satoshi" for the base unit. For all unrecognized units, "1eN LTC" is returned, where N is the AmountUnit.

type Block

type Block struct {
	// contains filtered or unexported fields
}

Block defines a bitcoin block that provides easier and more efficient manipulation of raw blocks. It also memoizes hashes for the block and its transactions on their first access so subsequent accesses don't have to repeat the relatively expensive hashing operations.

func NewBlock

func NewBlock(msgBlock *wire.MsgBlock) *Block

NewBlock returns a new instance of a bitcoin block given an underlying wire.MsgBlock. See Block.

func NewBlockFromBlockAndBytes

func NewBlockFromBlockAndBytes(msgBlock *wire.MsgBlock, serializedBlock []byte) *Block

NewBlockFromBlockAndBytes returns a new instance of a bitcoin block given an underlying wire.MsgBlock and the serialized bytes for it. See Block.

func NewBlockFromBytes

func NewBlockFromBytes(serializedBlock []byte) (*Block, error)

NewBlockFromBytes returns a new instance of a bitcoin block given the serialized bytes. See Block.

func NewBlockFromReader

func NewBlockFromReader(r io.Reader) (*Block, error)

NewBlockFromReader returns a new instance of a bitcoin block given a Reader to deserialize the block. See Block.

func (*Block) Bytes

func (b *Block) Bytes() ([]byte, error)

Bytes returns the serialized bytes for the Block. This is equivalent to calling Serialize on the underlying wire.MsgBlock, however it caches the result so subsequent calls are more efficient.

func (*Block) BytesNoWitness

func (b *Block) BytesNoWitness() ([]byte, error)

BytesNoWitness returns the serialized bytes for the block with transactions encoded without any witness data.

func (*Block) Hash

func (b *Block) Hash() *chainhash.Hash

Hash returns the block identifier hash for the Block. This is equivalent to calling BlockHash on the underlying wire.MsgBlock, however it caches the result so subsequent calls are more efficient.

func (*Block) Height

func (b *Block) Height() int32

Height returns the saved height of the block in the block chain. This value will be BlockHeightUnknown if it hasn't already explicitly been set.

func (*Block) MsgBlock

func (b *Block) MsgBlock() *wire.MsgBlock

MsgBlock returns the underlying wire.MsgBlock for the Block.

func (*Block) SetHeight

func (b *Block) SetHeight(height int32)

SetHeight sets the height of the block in the block chain.

func (*Block) Transactions

func (b *Block) Transactions() []*Tx

Transactions returns a slice of wrapped transactions (ltcutil.Tx) for all transactions in the Block. This is nearly equivalent to accessing the raw transactions (wire.MsgTx) in the underlying wire.MsgBlock, however it instead provides easy access to wrapped versions (ltcutil.Tx) of them.

func (*Block) Tx

func (b *Block) Tx(txNum int) (*Tx, error)

Tx returns a wrapped transaction (ltcutil.Tx) for the transaction at the specified index in the Block. The supplied index is 0 based. That is to say, the first transaction in the block is txNum 0. This is nearly equivalent to accessing the raw transaction (wire.MsgTx) from the underlying wire.MsgBlock, however the wrapped transaction has some helpful properties such as caching the hash so subsequent calls are more efficient.

func (*Block) TxHash

func (b *Block) TxHash(txNum int) (*chainhash.Hash, error)

TxHash returns the hash for the requested transaction number in the Block. The supplied index is 0 based. That is to say, the first transaction in the block is txNum 0. This is equivalent to calling TxHash on the underlying wire.MsgTx, however it caches the result so subsequent calls are more efficient.

func (*Block) TxLoc

func (b *Block) TxLoc() ([]wire.TxLoc, error)

TxLoc returns the offsets and lengths of each transaction in a raw block. It is used to allow fast indexing into transactions within the raw byte stream.

type OutOfRangeError

type OutOfRangeError string

OutOfRangeError describes an error due to accessing an element that is out of range.

func (OutOfRangeError) Error

func (e OutOfRangeError) Error() string

Error satisfies the error interface and prints human-readable errors.

type PubKeyFormat

type PubKeyFormat int

PubKeyFormat describes what format to use for a pay-to-pubkey address.

const (
	// PKFUncompressed indicates the pay-to-pubkey address format is an
	// uncompressed public key.
	PKFUncompressed PubKeyFormat = iota

	// PKFCompressed indicates the pay-to-pubkey address format is a
	// compressed public key.
	PKFCompressed
)

type Tx

type Tx struct {
	// contains filtered or unexported fields
}

Tx defines a bitcoin transaction that provides easier and more efficient manipulation of raw transactions. It also memoizes the hash for the transaction on its first access so subsequent accesses don't have to repeat the relatively expensive hashing operations.

func NewTx

func NewTx(msgTx *wire.MsgTx) *Tx

NewTx returns a new instance of a bitcoin transaction given an underlying wire.MsgTx. See Tx.

func NewTxFromBytes

func NewTxFromBytes(serializedTx []byte) (*Tx, error)

NewTxFromBytes returns a new instance of a bitcoin transaction given the serialized bytes. See Tx.

func NewTxFromReader

func NewTxFromReader(r io.Reader) (*Tx, error)

NewTxFromReader returns a new instance of a bitcoin transaction given a Reader to deserialize the transaction. See Tx.

func (*Tx) HasWitness

func (t *Tx) HasWitness() bool

HasWitness returns false if none of the inputs within the transaction contain witness data, true false otherwise. This equivalent to calling HasWitness on the underlying wire.MsgTx, however it caches the result so subsequent calls are more efficient.

func (*Tx) Hash

func (t *Tx) Hash() *chainhash.Hash

Hash returns the hash of the transaction. This is equivalent to calling TxHash on the underlying wire.MsgTx, however it caches the result so subsequent calls are more efficient.

func (*Tx) Index

func (t *Tx) Index() int

Index returns the saved index of the transaction within a block. This value will be TxIndexUnknown if it hasn't already explicitly been set.

func (*Tx) MsgTx

func (t *Tx) MsgTx() *wire.MsgTx

MsgTx returns the underlying wire.MsgTx for the transaction.

func (*Tx) SetIndex

func (t *Tx) SetIndex(index int)

SetIndex sets the index of the transaction in within a block.

func (*Tx) WitnessHash

func (t *Tx) WitnessHash() *chainhash.Hash

WitnessHash returns the witness hash (wtxid) of the transaction. This is equivalent to calling WitnessHash on the underlying wire.MsgTx, however it caches the result so subsequent calls are more efficient.

type UnsupportedWitnessProgLenError

type UnsupportedWitnessProgLenError int

UnsupportedWitnessProgLenError describes an error where a segwit address being decoded has an unsupported witness program length.

func (UnsupportedWitnessProgLenError) Error

type UnsupportedWitnessVerError

type UnsupportedWitnessVerError byte

UnsupportedWitnessVerError describes an error where a segwit address being decoded has an unsupported witness version.

func (UnsupportedWitnessVerError) Error

type WIF

type WIF struct {
	// PrivKey is the private key being imported or exported.
	PrivKey *btcec.PrivateKey

	// CompressPubKey specifies whether the address controlled by the
	// imported or exported private key was created by hashing a
	// compressed (33-byte) serialized public key, rather than an
	// uncompressed (65-byte) one.
	CompressPubKey bool
	// contains filtered or unexported fields
}

WIF contains the individual components described by the Wallet Import Format (WIF). A WIF string is typically used to represent a private key and its associated address in a way that may be easily copied and imported into or exported from wallet software. WIF strings may be decoded into this structure by calling DecodeWIF or created with a user-provided private key by calling NewWIF.

func DecodeWIF

func DecodeWIF(wif string) (*WIF, error)

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 NewWIF

func NewWIF(privKey *btcec.PrivateKey, net *chaincfg.Params, compress bool) (*WIF, error)

NewWIF creates a new WIF structure to export an address and its private key as a string encoded in the Wallet Import Format. The compress argument specifies whether the address intended to be imported or exported was created by serializing the public key compressed rather than uncompressed.

func (*WIF) IsForNet

func (w *WIF) IsForNet(net *chaincfg.Params) bool

IsForNet returns whether or not the decoded WIF structure is associated with the passed bitcoin network.

func (*WIF) SerializePubKey

func (w *WIF) SerializePubKey() []byte

SerializePubKey serializes the associated public key of the imported or exported private key in either a compressed or uncompressed format. The serialization format chosen depends on the value of w.CompressPubKey.

func (*WIF) String

func (w *WIF) String() string

String creates the Wallet Import Format string encoding of a WIF structure. See DecodeWIF for a detailed breakdown of the format and requirements of a valid WIF string.

Directories

Path Synopsis
Package base58 provides an API for working with modified base58 and Base58Check encodings.
Package base58 provides an API for working with modified base58 and Base58Check encodings.
Package bech32 provides a Go implementation of the bech32 format specified in BIP 173.
Package bech32 provides a Go implementation of the bech32 format specified in BIP 173.
gcs
Package gcs provides an API for building and using a Golomb-coded set filter.
Package gcs provides an API for building and using a Golomb-coded set filter.
Package hdkeychain provides an API for bitcoin hierarchical deterministic extended keys (BIP0032).
Package hdkeychain provides an API for bitcoin hierarchical deterministic extended keys (BIP0032).
psbt module
Package txsort provides the transaction sorting according to BIP 69.
Package txsort provides the transaction sorting according to BIP 69.

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