spvwallet

package module
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 Go to latest Published: Jan 12, 2020 License: MIT Imports: 47 Imported by: 0

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spvwallet

Lightweight p2p SPV wallet and library in Go. It connects directly to the bitcoin p2p network to fetch headers, merkle blocks, and transactions.

It uses a number of utilities from btcsuite but natively handles blockchain and wallet.

Library Usage:

// Create a new config
config := spvwallet.NewDefaultConfig()

// Select network
config.Params = &chaincfg.TestNet3Params

// Select wallet datastore
sqliteDatastore, _ := db.Create(config.RepoPath)
config.DB = sqliteDatastore

// Create the wallet
wallet, _ := spvwallet.NewSPVWallet(config)

// Start it!
go wallet.Start()

Easy peasy

The wallet implements the following interface:


type BitcoinWallet interface {

	// Start the wallet
	Start()

	// Return the network parameters
	Params() *chaincfg.Params

	// Returns the type of crytocurrency this wallet implements
	CurrencyCode() string

	// Check if this amount is considered dust
	IsDust(amount int64) bool

	// Get the master private key
	MasterPrivateKey() *hd.ExtendedKey

	// Get the master public key
	MasterPublicKey() *hd.ExtendedKey

	// Get the current address for the given purpose
	CurrentAddress(purpose spvwallet.KeyPurpose) btc.Address

	// Returns a fresh address that has never been returned by this function
	NewAddress(purpose spvwallet.KeyPurpose) btc.Address

	// Parse the address string and return an address interface
	DecodeAddress(addr string) (btc.Address, error)

	// Turn the given output script into an address
	ScriptToAddress(script []byte) (btc.Address, error)

	// Turn the given address into an output script
	AddressToScript(addr btc.Address) ([]byte, error)

	// Returns if the wallet has the key for the given address
	HasKey(addr btc.Address) bool

	// Get the confirmed and unconfirmed balances
	Balance() (confirmed, unconfirmed int64)

	// Returns a list of transactions for this wallet
	Transactions() ([]spvwallet.Txn, error)

	// Get info on a specific transaction
	GetTransaction(txid chainhash.Hash) (spvwallet.Txn, error)

	// Get the height of the blockchain
	ChainTip() uint32

	// Get the current fee per byte
	GetFeePerByte(feeLevel spvwallet.FeeLevel) uint64

	// Send bitcoins to an external wallet
	Spend(amount int64, addr btc.Address, feeLevel spvwallet.FeeLevel) (*chainhash.Hash, error)

	// Bump the fee for the given transaction
	BumpFee(txid chainhash.Hash) (*chainhash.Hash, error)

	// Calculates the estimated size of the transaction and returns the total fee for the given feePerByte
	EstimateFee(ins []spvwallet.TransactionInput, outs []spvwallet.TransactionOutput, feePerByte uint64) uint64

	// Build and broadcast a transaction that sweeps all coins from an address. If it is a p2sh multisig, the redeemScript must be included
	SweepAddress(utxos []spvwallet.Utxo, address *btc.Address, key *hd.ExtendedKey, redeemScript *[]byte, feeLevel spvwallet.FeeLevel) (*chainhash.Hash, error)

	// Create a signature for a multisig transaction
	CreateMultisigSignature(ins []spvwallet.TransactionInput, outs []spvwallet.TransactionOutput, key *hd.ExtendedKey, redeemScript []byte, feePerByte uint64) ([]spvwallet.Signature, error)

	// Combine signatures and optionally broadcast
	Multisign(ins []spvwallet.TransactionInput, outs []spvwallet.TransactionOutput, sigs1 []spvwallet.Signature, sigs2 []spvwallet.Signature, redeemScript []byte, feePerByte uint64, broadcast bool) ([]byte, error)

	// Generate a multisig script from public keys. If a timeout is included the returned script should be a timelocked escrow which releases using the timeoutKey.
	GenerateMultisigScript(keys []hd.ExtendedKey, threshold int, timeout time.Duration, timeoutKey *hd.ExtendedKey) (addr btc.Address, redeemScript []byte, err error)

	// Add a script to the wallet and get notifications back when coins are received or spent from it
	AddWatchedScript(script []byte) error

	// Add a callback for incoming transactions
	AddTransactionListener(func(spvwallet.TransactionCallback))

	// Use this to re-download merkle blocks in case of missed transactions
	ReSyncBlockchain(fromHeight int32)

	// Return the number of confirmations and the height for a transaction
	GetConfirmations(txid chainhash.Hash) (confirms, atHeight uint32, err error)

	// Cleanly disconnect from the wallet
	Close()
}

To create a wallet binary:

make install

Usage:

Usage:
  spvwallet [OPTIONS] <command>

Help Options:
  -h, --help  Show this help message

Available commands:
  addwatchedscript         add a script to watch
  balance                  get the wallet balance
  bumpfee                  bump the tx fee
  chaintip                 return the height of the chain
  createmultisigsignature  create a p2sh multisig signature
  currentaddress           get the current bitcoin address
  dumpheaders              print the header database
  estimatefee              estimate the fee for a tx
  getconfirmations         get the number of confirmations for a tx
  getfeeperbyte            get the current bitcoin fee
  gettransaction           get a specific transaction
  haskey                   does key exist
  masterprivatekey         get the wallet's master private key
  masterpublickey          get the wallet's master public key
  multisign                combine multisig signatures
  newaddress               get a new bitcoin address
  peers                    get info about peers
  resyncblockchain         re-download the chain of headers
  spend                    send bitcoins
  start                    start the wallet
  stop                     stop the wallet
  sweepaddress             sweep all coins from an address
  transactions             get a list of transactions
  version                  print the version number

Finally a gRPC API is available on port 8234. The same interface is exposed via the API plus a streaming wallet notifier which fires when a new transaction (either incoming or outgoing) is recorded then again when it gains its first confirmation.

This library began it's life as a library called uspv written by Thaddeus Dryja for the lnd. Several files still contain the original code.

Documentation

Index

Constants

View Source 
const (
	MAX_HEADERS = 2000
	CACHE_SIZE  = 100
)
View Source 
const (
	// RedeemP2PKHSigScriptSize is the worst case (largest) serialize size
	// of a transaction input script that redeems a compressed P2PKH output.
	// It is calculated as:
	//
	//   - OP_DATA_73
	//   - 72 bytes DER signature + 1 byte sighash
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	RedeemP2PKHSigScriptSize = 1 + 73 + 1 + 33

	// RedeemP2SHMultisigSigScriptSize is the worst case (largest) serialize size
	// of a transaction input script that redeems a 2 of 3 P2SH multisig output with compressed keys.
	// It is calculated as:
	//
	//   - OP_0
	//   - OP_DATA_72
	//   - 72 bytes DER signature
	//   - OP_DATA_72
	//   - 72 bytes DER signature
	//   - OP_PUSHDATA
	//   - OP_2
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP3
	//   - OP_CHECKMULTISIG
	RedeemP2SH2of3MultisigSigScriptSize = 1 + 1 + 72 + 1 + 72 + 1 + 1 + 1 + 33 + 1 + 33 + 1 + 33 + 1 + 1

	// RedeemP2SH1of2MultisigSigScriptSize is the worst case (largest) serialize size
	// of a transaction input script that redeems a 1 of 2 P2SH multisig output with compressed keys.
	// It is calculated as:
	//
	//   - OP_0
	//   - OP_DATA_72
	//   - 72 bytes DER signature
	//   - OP_PUSHDATA
	//   - OP_1
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP2
	//   - OP_CHECKMULTISIG
	RedeemP2SH1of2MultisigSigScriptSize = 1 + 1 + 72 + 1 + 1 + 1 + 33 + 1 + 33 + 1 + 1

	// RedeemP2SHMultisigTimelock1SigScriptSize is the worst case (largest) serialize size
	// of a transaction input script that redeems a compressed P2SH timelocked multisig using the timeout.
	// It is calculated as:
	//
	//   - OP_DATA_72
	//   - 72 bytes DER signature
	//   - OP_0
	//   - OP_PUSHDATA
	//   - OP_IF
	//   - OP_2
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP3
	//   - OP_CHECKMULTISIG
	//   - OP_ELSE
	//   - OP_PUSHDATA
	//   - 2 byte block height
	//   - OP_CHECKSEQUENCEVERIFY
	//   - OP_DROP
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP_CHECKSIG
	//   - OP_ENDIF
	RedeemP2SHMultisigTimelock1SigScriptSize = 1 + 72 + 1 + 1 + 1 + 1 + 1 + 33 + 1 + 33 + 1 + 33 + 1 + 1 + 1 + 1 + 2 + 1 + 1 + 1 + 33 + 1 + 1

	// RedeemP2SHMultisigTimelock2SigScriptSize is the worst case (largest) serialize size
	// of a transaction input script that redeems a compressed P2SH timelocked multisig without using the timeout.
	// It is calculated as:
	//
	//   - OP_0
	//   - OP_DATA_72
	//   - 72 bytes DER signature
	//   - OP_DATA_72
	//   - 72 bytes DER signature
	//   - OP_1
	//   - OP_PUSHDATA
	//   - OP_IF
	//   - OP_2
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP3
	//   - OP_CHECKMULTISIG
	//   - OP_ELSE
	//   - OP_PUSHDATA
	//   - 2 byte block height
	//   - OP_CHECKSEQUENCEVERIFY
	//   - OP_DROP
	//   - OP_DATA_33
	//   - 33 bytes serialized compressed pubkey
	//   - OP_CHECKSIG
	//   - OP_ENDIF
	RedeemP2SHMultisigTimelock2SigScriptSize = 1 + 1 + 72 + +1 + 72 + 1 + 1 + 1 + 1 + 1 + 33 + 1 + 33 + 1 + 33 + 1 + 1 + 1 + 1 + 2 + 1 + 1 + 1 + 33 + 1 + 1

	// P2PKHPkScriptSize is the size of a transaction output script that
	// pays to a compressed pubkey hash.  It is calculated as:
	//
	//   - OP_DUP
	//   - OP_HASH160
	//   - OP_DATA_20
	//   - 20 bytes pubkey hash
	//   - OP_EQUALVERIFY
	//   - OP_CHECKSIG
	P2PKHPkScriptSize = 1 + 1 + 1 + 20 + 1 + 1

	// RedeemP2PKHInputSize is the worst case (largest) serialize size of a
	// transaction input redeeming a compressed P2PKH output.  It is
	// calculated as:
	//
	//   - 32 bytes previous tx
	//   - 4 bytes output index
	//   - 1 byte script len
	//   - signature script
	//   - 4 bytes sequence
	RedeemP2PKHInputSize = 32 + 4 + 1 + RedeemP2PKHSigScriptSize + 4

	// RedeemP2SH2of3MultisigInputSize is the worst case (largest) serialize size of a
	// transaction input redeeming a compressed P2SH 2 of 3 multisig output.  It is
	// calculated as:
	//
	//   - 32 bytes previous tx
	//   - 4 bytes output index
	//   - 1 byte script len
	//   - 4 bytes sequence
	///  - witness discounted signature script
	RedeemP2SH2of3MultisigInputSize = 32 + 4 + 1 + 4 + (RedeemP2SH2of3MultisigSigScriptSize / 4)

	// RedeemP2SH1of2MultisigInputSize is the worst case (largest) serialize size of a
	// transaction input redeeming a compressed P2SH 2 of 3 multisig output.  It is
	// calculated as:
	//
	//   - 32 bytes previous tx
	//   - 4 bytes output index
	//   - 1 byte script len
	//   - 4 bytes sequence
	///  - witness discounted signature script
	RedeemP2SH1of2MultisigInputSize = 32 + 4 + 1 + 4 + (RedeemP2SH1of2MultisigSigScriptSize / 4)

	// RedeemP2SHMultisigTimelock1InputSize is the worst case (largest) serialize size of a
	// transaction input redeeming a compressed p2sh timelocked multig output with using the timeout.  It is
	// calculated as:
	//
	//   - 32 bytes previous tx
	//   - 4 bytes output index
	//   - 1 byte script len
	//   - 4 bytes sequence
	///  - witness discounted signature script
	RedeemP2SHMultisigTimelock1InputSize = 32 + 4 + 1 + 4 + (RedeemP2SHMultisigTimelock1SigScriptSize / 4)

	// RedeemP2SHMultisigTimelock2InputSize is the worst case (largest) serialize size of a
	// transaction input redeeming a compressed P2SH timelocked multisig output without using the timeout.  It is
	// calculated as:
	//
	//   - 32 bytes previous tx
	//   - 4 bytes output index
	//   - 1 byte script len
	//   - 4 bytes sequence
	///  - witness discounted signature script
	RedeemP2SHMultisigTimelock2InputSize = 32 + 4 + 1 + 4 + (RedeemP2SHMultisigTimelock2SigScriptSize / 4)

	// P2PKHOutputSize is the serialize size of a transaction output with a
	// P2PKH output script.  It is calculated as:
	//
	//   - 8 bytes output value
	//   - 1 byte compact int encoding value 25
	//   - 25 bytes P2PKH output script
	P2PKHOutputSize = 8 + 1 + P2PKHPkScriptSize
)

Worst case script and input/output size estimates.

View Source 
const LOOKAHEADWINDOW = 100
View Source 
const MaxGetAddressAttempts = 10
View Source 
const WALLET_VERSION = "0.1.0"

Variables

View Source 
var (
	BKTHeaders  = []byte("Headers")
	BKTChainTip = []byte("ChainTip")
	KEYChainTip = []byte("ChainTip")
)
View Source 
var (
	// ErrTorInvalidAddressResponse indicates an invalid address was
	// returned by the Tor DNS resolver.
	ErrTorInvalidAddressResponse = errors.New("invalid address response")

	// ErrTorInvalidProxyResponse indicates the Tor proxy returned a
	// response in an unexpected format.
	ErrTorInvalidProxyResponse = errors.New("invalid proxy response")

	// ErrTorUnrecognizedAuthMethod indicates the authentication method
	// provided is not recognized.
	ErrTorUnrecognizedAuthMethod = errors.New("invalid proxy authentication method")
)
View Source 
var BumpFeeAlreadyConfirmedError = errors.New("Transaction is confirmed, cannot bump fee")
View Source 
var BumpFeeNotFoundError = errors.New("Transaction either doesn't exist or has already been spent")
View Source 
var BumpFeeTransactionDeadError = errors.New("Cannot bump fee of dead transaction")
View Source 
var OrphanHeaderError = errors.New("header does not extend any known headers")
View Source 
var SFNodeBitcoinCash wire.ServiceFlag = 1 << 5

Functions

func Bip44Derivation 

func Bip44Derivation(masterPrivKey *hd.ExtendedKey) (internal, external *hd.ExtendedKey, err error)

m / purpose' / coin_type' / account' / change / address_index

func EstimateSerializeSize 

func EstimateSerializeSize(inputCount int, txOuts []*wire.TxOut, addChangeOutput bool, inputType InputType) int

EstimateSerializeSize returns a worst case serialize size estimate for a signed transaction that spends inputCount number of compressed P2PKH outputs and contains each transaction output from txOuts. The estimated size is incremented for an additional P2PKH change output if addChangeOutput is true.

func LockTimeFromRedeemScript 

func LockTimeFromRedeemScript(redeemScript []byte) (uint32, error)

func MakeMerkleParent 

func MakeMerkleParent(left *chainhash.Hash, right *chainhash.Hash) (*chainhash.Hash, error)

func NewCoin 

func NewCoin(txid []byte, index uint32, value btc.Amount, numConfs int64, scriptPubKey []byte) coinset.Coin

func NewUnsignedTransaction 

func NewUnsignedTransaction(outputs []*wire.TxOut, feePerKb btc.Amount, fetchInputs txauthor.InputSource, fetchChange txauthor.ChangeSource) (*txauthor.AuthoredTx, error)

func SumOutputSerializeSizes 

func SumOutputSerializeSizes(outputs []*wire.TxOut) (serializeSize int)

SumOutputSerializeSizes sums up the serialized size of the supplied outputs.

func TestStxo_IsEqual 

func TestStxo_IsEqual(t *testing.T)

func TestUtxo_IsEqual 

func TestUtxo_IsEqual(t *testing.T)

func TorLookupIP 

func TorLookupIP(host string) ([]net.IP, error)

TorLookupIP uses Tor to resolve DNS via the SOCKS extension they provide for resolution over the Tor network. Tor itself doesn't support ipv6 so this doesn't either.

Types

type Blockchain 

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

Wrapper around Headers implementation that handles all blockchain operations

func NewBlockchain 

func NewBlockchain(filePath string, walletCreationDate time.Time, params *chaincfg.Params) (*Blockchain, error)

func (*Blockchain) BestBlock 

func (b *Blockchain) BestBlock() (StoredHeader, error)

func (*Blockchain) CalcMedianTimePast 

func (b *Blockchain) CalcMedianTimePast(header wire.BlockHeader) (time.Time, error)

func (*Blockchain) CheckHeader 

func (b *Blockchain) CheckHeader(header wire.BlockHeader, prevHeader StoredHeader) bool

func (*Blockchain) Close 

func (b *Blockchain) Close()

func (*Blockchain) CommitHeader 

func (b *Blockchain) CommitHeader(header wire.BlockHeader) (bool, *StoredHeader, uint32, error)

func (*Blockchain) GetBlockLocator 

func (b *Blockchain) GetBlockLocator() blockchain.BlockLocator

func (*Blockchain) GetCommonAncestor 

func (b *Blockchain) GetCommonAncestor(bestHeader, prevBestHeader StoredHeader) (*StoredHeader, error)

GetCommonAncestor returns last header before reorg point

func (*Blockchain) GetEpoch 

func (b *Blockchain) GetEpoch() (*wire.BlockHeader, error)

func (*Blockchain) GetHeader 

func (b *Blockchain) GetHeader(hash *chainhash.Hash) (StoredHeader, error)

func (*Blockchain) GetNPrevBlockHashes 

func (b *Blockchain) GetNPrevBlockHashes(n int) []*chainhash.Hash

func (*Blockchain) Rollback 

func (b *Blockchain) Rollback(t time.Time) error

Rollback the header database to the last header before time t. We shouldn't go back further than the checkpoint

type Checkpoint 

type Checkpoint struct {
	Height uint32
	Header wire.BlockHeader
}

func GetCheckpoint 

func GetCheckpoint(walletCreationDate time.Time, params *chaincfg.Params) Checkpoint

type Coin 

type Coin struct {
	TxHash       *chainhash.Hash
	TxIndex      uint32
	TxValue      btc.Amount
	TxNumConfs   int64
	ScriptPubKey []byte
}

func (*Coin) Hash 

func (c *Coin) Hash() *chainhash.Hash

func (*Coin) Index 

func (c *Coin) Index() uint32

func (*Coin) NumConfs 

func (c *Coin) NumConfs() int64

func (*Coin) PkScript 

func (c *Coin) PkScript() []byte

func (*Coin) Value 

func (c *Coin) Value() btc.Amount

func (*Coin) ValueAge 

func (c *Coin) ValueAge() int64

type Config 

type Config struct {
	// Network parameters. Set mainnet, testnet, or regtest using this.
	Params *chaincfg.Params

	// Bip39 mnemonic string. If empty a new mnemonic will be created.
	Mnemonic string

	// The date the wallet was created.
	// If before the earliest checkpoint the chain will be synced using the earliest checkpoint.
	CreationDate time.Time

	// The user-agent that shall be visible to peers
	UserAgent string

	// Location of the data directory
	RepoPath string

	// An implementation of the Datastore interface
	DB wallet.Datastore

	// If you wish to connect to a single trusted peer set this. Otherwise leave nil.
	TrustedPeer net.Addr

	// A Tor proxy can be set here causing the wallet will use Tor
	Proxy proxy.Dialer

	// The default fee-per-byte for each level
	LowFee    uint64
	MediumFee uint64
	HighFee   uint64

	// The highest allowable fee-per-byte
	MaxFee uint64

	// External API to query to look up fees. If this field is nil then the default fees will be used.
	// If the API is unreachable then the default fees will likewise be used. If the API returns a fee
	// greater than MaxFee then the MaxFee will be used in place. The API response must be formatted as
	// { "fastestFee": 40, "halfHourFee": 20, "hourFee": 10 }
	FeeAPI url.URL

	// A logger. You can write the logs to file or stdout or however else you want.
	Logger logging.Backend

	// Disable the exchange rate provider
	DisableExchangeRates bool
}

func NewDefaultConfig 

func NewDefaultConfig() *Config

type FeeProvider 

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

func NewFeeProvider 

func NewFeeProvider(maxFee, priorityFee, normalFee, economicFee uint64, feeAPI string, proxy proxy.Dialer) *FeeProvider

func (*FeeProvider) GetFeePerByte 

func (fp *FeeProvider) GetFeePerByte(feeLevel wallet.FeeLevel) uint64

type Fees 

type Fees struct {
	Priority uint64 `json:"priority"`
	Normal   uint64 `json:"normal"`
	Economic uint64 `json:"economic"`
}

type HeaderCache 

type HeaderCache struct {
	sync.RWMutex
	// contains filtered or unexported fields
}

func (*HeaderCache) Get 

func (h *HeaderCache) Get(hash chainhash.Hash) (StoredHeader, error)

func (*HeaderCache) Set 

func (h *HeaderCache) Set(sh StoredHeader)

type HeaderDB 

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

HeaderDB implements Headers using bolt DB

func NewHeaderDB 

func NewHeaderDB(filePath string) (*HeaderDB, error)

func (*HeaderDB) Close 

func (h *HeaderDB) Close()

func (*HeaderDB) DeleteAfter 

func (h *HeaderDB) DeleteAfter(height uint32) error

func (*HeaderDB) GetBestHeader 

func (h *HeaderDB) GetBestHeader() (sh StoredHeader, err error)

func (*HeaderDB) GetHeader 

func (h *HeaderDB) GetHeader(hash chainhash.Hash) (sh StoredHeader, err error)

func (*HeaderDB) GetPreviousHeader 

func (h *HeaderDB) GetPreviousHeader(header wire.BlockHeader) (sh StoredHeader, err error)

func (*HeaderDB) Height 

func (h *HeaderDB) Height() (uint32, error)

func (*HeaderDB) Print 

func (h *HeaderDB) Print(w io.Writer)

func (*HeaderDB) Prune 

func (h *HeaderDB) Prune() error

func (*HeaderDB) Put 

func (h *HeaderDB) Put(sh StoredHeader, newBestHeader bool) error

type Headers 

type Headers interface {
	// Put a block header to the database
	// Total work and height are required to be calculated prior to insertion
	// If this is the new best header, the chain tip should also be updated
	Put(header StoredHeader, newBestHeader bool) error

	// Delete all headers after the MAX_HEADERS most recent
	Prune() error

	// Delete all headers after the given height
	DeleteAfter(height uint32) error

	// Returns all information about the previous header
	GetPreviousHeader(header wire.BlockHeader) (StoredHeader, error)

	// Grab a header given hash
	GetHeader(hash chainhash.Hash) (StoredHeader, error)

	// Retrieve the best header from the database
	GetBestHeader() (StoredHeader, error)

	// Get the height of chain
	Height() (uint32, error)

	// Cleanly close the db
	Close()

	// Print all headers
	Print(io.Writer)
}

Database interface for storing block headers

type InputType 

type InputType int
const (
	P2PKH InputType = iota
	P2SH_1of2_Multisig
	P2SH_2of3_Multisig
	P2SH_Multisig_Timelock_1Sig
	P2SH_Multisig_Timelock_2Sigs
)

type KeyManager 

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

func NewKeyManager 

func NewKeyManager(db wallet.Keys, params *chaincfg.Params, masterPrivKey *hd.ExtendedKey) (*KeyManager, error)

func (*KeyManager) GetCurrentKey 

func (km *KeyManager) GetCurrentKey(purpose wallet.KeyPurpose) (*hd.ExtendedKey, error)

func (*KeyManager) GetFreshKey 

func (km *KeyManager) GetFreshKey(purpose wallet.KeyPurpose) (*hd.ExtendedKey, error)

func (*KeyManager) GetKeyForScript 

func (km *KeyManager) GetKeyForScript(scriptAddress []byte) (*hd.ExtendedKey, error)

func (*KeyManager) GetKeys 

func (km *KeyManager) GetKeys() []*hd.ExtendedKey

func (*KeyManager) MarkKeyAsUsed 

func (km *KeyManager) MarkKeyAsUsed(scriptAddress []byte) error

Mark the given key as used and extend the lookahead window

type MockDatastore 

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

func (*MockDatastore) Keys 

func (m *MockDatastore) Keys() wallet.Keys

func (*MockDatastore) Stxos 

func (m *MockDatastore) Stxos() wallet.Stxos

func (*MockDatastore) Txns 

func (m *MockDatastore) Txns() wallet.Txns

func (*MockDatastore) Utxos 

func (m *MockDatastore) Utxos() wallet.Utxos

func (*MockDatastore) WatchedScripts 

func (m *MockDatastore) WatchedScripts() wallet.WatchedScripts

type PeerManager 

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

func NewPeerManager 

func NewPeerManager(config *PeerManagerConfig) (*PeerManager, error)

func (*PeerManager) ConnectedPeers 

func (pm *PeerManager) ConnectedPeers() []*peer.Peer

func (*PeerManager) Start 

func (pm *PeerManager) Start()

func (*PeerManager) Stop 

func (pm *PeerManager) Stop()

type PeerManagerConfig 

type PeerManagerConfig struct {

	// The network parameters to use
	Params *chaincfg.Params

	// The target number of outbound peers. Defaults to 10.
	TargetOutbound uint32

	// Duration of time to retry a connection. Defaults to 5 seconds.
	RetryDuration time.Duration

	// UserAgentName specifies the user agent name to advertise.  It is
	// highly recommended to specify this value.
	UserAgentName string

	// UserAgentVersion specifies the user agent version to advertise.  It
	// is highly recommended to specify this value and that it follows the
	// form "major.minor.revision" e.g. "2.6.41".
	UserAgentVersion string

	// The directory to store cached peers
	AddressCacheDir string

	// If this field is not nil the PeerManager will only connect to this address
	TrustedPeer net.Addr

	// Listeners to handle messages from peers. If nil, no messages will be handled.
	Listeners *peer.MessageListeners

	// An optional proxy dialer. Will use net.Dial if nil.
	Proxy proxy.Dialer

	// Function to return current block hash and height
	GetNewestBlock func() (hash *chainhash.Hash, height int32, err error)

	// The main channel over which to send outgoing events
	MsgChan chan interface{}
}

type SPVWallet 

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

func NewSPVWallet 

func NewSPVWallet(config *Config) (*SPVWallet, error)

func (*SPVWallet) AddTransactionListener 

func (w *SPVWallet) AddTransactionListener(callback func(wallet.TransactionCallback))

func (*SPVWallet) AddWatchedAddresses 

func (w *SPVWallet) AddWatchedAddresses(addrs ...btc.Address) error

func (*SPVWallet) AddressToScript 

func (w *SPVWallet) AddressToScript(addr btc.Address) ([]byte, error)

func (*SPVWallet) AssociateTransactionWithOrder 

func (w *SPVWallet) AssociateTransactionWithOrder(cb wallet.TransactionCallback)

AssociateTransactionWithOrder used for ORDER_PAYMENT message

func (*SPVWallet) Balance 

func (w *SPVWallet) Balance() (confirmed, unconfirmed int64)

func (*SPVWallet) Broadcast 

func (s *SPVWallet) Broadcast(tx *wire.MsgTx) error

func (*SPVWallet) BumpFee 

func (w *SPVWallet) BumpFee(txid chainhash.Hash) (*chainhash.Hash, error)

func (*SPVWallet) ChainTip 

func (w *SPVWallet) ChainTip() (uint32, chainhash.Hash)

func (*SPVWallet) ChildKey 

func (w *SPVWallet) ChildKey(keyBytes []byte, chaincode []byte, isPrivateKey bool) (*hd.ExtendedKey, error)

func (*SPVWallet) Close 

func (w *SPVWallet) Close()

func (*SPVWallet) ConnectedPeers 

func (w *SPVWallet) ConnectedPeers() []*peer.Peer

func (*SPVWallet) CreateMultisigSignature 

func (w *SPVWallet) CreateMultisigSignature(ins []wallet.TransactionInput, outs []wallet.TransactionOutput, key *hd.ExtendedKey, redeemScript []byte, feePerByte uint64) ([]wallet.Signature, error)

func (*SPVWallet) CurrencyCode 

func (w *SPVWallet) CurrencyCode() string

func (*SPVWallet) CurrentAddress 

func (w *SPVWallet) CurrentAddress(purpose wallet.KeyPurpose) btc.Address

func (*SPVWallet) DecodeAddress 

func (w *SPVWallet) DecodeAddress(addr string) (btc.Address, error)

func (*SPVWallet) DumpHeaders 

func (w *SPVWallet) DumpHeaders(writer io.Writer)

func (*SPVWallet) EstimateFee 

func (w *SPVWallet) EstimateFee(ins []wallet.TransactionInput, outs []wallet.TransactionOutput, feePerByte uint64) uint64

func (*SPVWallet) EstimateSpendFee 

func (w *SPVWallet) EstimateSpendFee(amount int64, feeLevel wallet.FeeLevel) (uint64, error)

Build a spend transaction for the amount and return the transaction fee

func (*SPVWallet) ExchangeRates 

func (w *SPVWallet) ExchangeRates() wallet.ExchangeRates

func (*SPVWallet) GenerateMultisigScript 

func (w *SPVWallet) GenerateMultisigScript(keys []hd.ExtendedKey, threshold int, timeout time.Duration, timeoutKey *hd.ExtendedKey) (addr btc.Address, redeemScript []byte, err error)

func (*SPVWallet) GetConfirmations 

func (w *SPVWallet) GetConfirmations(txid chainhash.Hash) (uint32, uint32, error)

func (*SPVWallet) GetFeePerByte 

func (w *SPVWallet) GetFeePerByte(feeLevel wallet.FeeLevel) uint64

func (*SPVWallet) GetKey 

func (w *SPVWallet) GetKey(addr btc.Address) (*btcec.PrivateKey, error)

func (*SPVWallet) GetTransaction 

func (w *SPVWallet) GetTransaction(txid chainhash.Hash) (wallet.Txn, error)

func (*SPVWallet) HasKey 

func (w *SPVWallet) HasKey(addr btc.Address) bool

func (*SPVWallet) IsDust 

func (w *SPVWallet) IsDust(amount int64) bool

func (*SPVWallet) ListAddresses 

func (w *SPVWallet) ListAddresses() []btc.Address

func (*SPVWallet) ListKeys 

func (w *SPVWallet) ListKeys() []btcec.PrivateKey

func (*SPVWallet) MasterPrivateKey 

func (w *SPVWallet) MasterPrivateKey() *hd.ExtendedKey

func (*SPVWallet) MasterPublicKey 

func (w *SPVWallet) MasterPublicKey() *hd.ExtendedKey

func (*SPVWallet) Mnemonic 

func (w *SPVWallet) Mnemonic() string

func (*SPVWallet) Multisign 

func (w *SPVWallet) Multisign(ins []wallet.TransactionInput, outs []wallet.TransactionOutput, sigs1 []wallet.Signature, sigs2 []wallet.Signature, redeemScript []byte, feePerByte uint64, broadcast bool) ([]byte, error)

func (*SPVWallet) NewAddress 

func (w *SPVWallet) NewAddress(purpose wallet.KeyPurpose) btc.Address

func (*SPVWallet) Params 

func (w *SPVWallet) Params() *chaincfg.Params

func (*SPVWallet) ReSyncBlockchain 

func (w *SPVWallet) ReSyncBlockchain(fromDate time.Time)

func (*SPVWallet) ScriptToAddress 

func (w *SPVWallet) ScriptToAddress(script []byte) (btc.Address, error)

func (*SPVWallet) Spend 

func (w *SPVWallet) Spend(amount int64, addr btc.Address, feeLevel wallet.FeeLevel, referenceID string, spendAll bool) (*chainhash.Hash, error)

func (*SPVWallet) Start 

func (w *SPVWallet) Start()

func (*SPVWallet) SweepAddress 

func (w *SPVWallet) SweepAddress(ins []wallet.TransactionInput, address *btc.Address, key *hd.ExtendedKey, redeemScript *[]byte, feeLevel wallet.FeeLevel) (*chainhash.Hash, error)

func (*SPVWallet) Transactions 

func (w *SPVWallet) Transactions() ([]wallet.Txn, error)

type StoredHeader 

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

type TxStore 

type TxStore struct {
	wallet.Datastore
	// contains filtered or unexported fields
}

func NewTxStore 

func NewTxStore(p *chaincfg.Params, db wallet.Datastore, keyManager *KeyManager) (*TxStore, error)

func (*TxStore) CheckDoubleSpends 

func (ts *TxStore) CheckDoubleSpends(argTx *wire.MsgTx) ([]*chainhash.Hash, error)

CheckDoubleSpends takes a transaction and compares it with all transactions in the db. It returns a slice of all txids in the db which are double spent by the received tx.

func (*TxStore) GetPendingInv 

func (ts *TxStore) GetPendingInv() (*wire.MsgInv, error)

GetPendingInv returns an inv message containing all txs known to the db which are at height 0 (not known to be confirmed). This can be useful on startup or to rebroadcast unconfirmed txs.

func (*TxStore) GimmeFilter 

func (ts *TxStore) GimmeFilter() (*bloom.Filter, error)

... or I'm gonna fade away

func (*TxStore) Ingest 

func (ts *TxStore) Ingest(tx *wire.MsgTx, height int32, timestamp time.Time) (uint32, error)

Ingest puts a tx into the DB atomically. This can result in a gain, a loss, or no result. Gain or loss in satoshis is returned.

func (*TxStore) PopulateAdrs 

func (ts *TxStore) PopulateAdrs() error

PopulateAdrs just puts a bunch of adrs in ram; it doesn't touch the DB

type WireService 

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

func NewWireService 

func NewWireService(config *WireServiceConfig) *WireService

func (*WireService) Current 

func (ws *WireService) Current() bool

func (*WireService) MsgChan 

func (ws *WireService) MsgChan() chan interface{}

func (*WireService) Rebroadcast 

func (ws *WireService) Rebroadcast()

func (*WireService) Resync 

func (ws *WireService) Resync()

func (*WireService) Start 

func (ws *WireService) Start()

The start function must be run in its own goroutine. The entire WireService is single threaded which means all messages are processed sequentially removing the need for complex locking.

func (*WireService) Stop 

func (ws *WireService) Stop()

type WireServiceConfig 

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

Source Files

View all Source files

Directories

Path Synopsis
api
pb
Package pb is a generated protocol buffer package.
 Package pb is a generated protocol buffer package.
cmd
spvwallet
gui
bootstrap

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