lbcwallet/wallet/wallet.go
Josh Rickmar 1cb3b8b29a Update project dependencies. (#456)
This updates both btcsuite and external dependencies to their latest
versions.  In particular, gRPC was updated to version 1.0.3 and bolt
to 1.3.0.

The walletrpc package needed to be regenerated for the gRPC update.

While here, update the Travis-CI script so this can be tested there.
2016-10-27 12:27:58 -04:00

2165 lines
62 KiB
Go

// Copyright (c) 2013-2016 The btcsuite developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package wallet
import (
"bytes"
"encoding/base64"
"encoding/hex"
"errors"
"fmt"
"io/ioutil"
"os"
"path/filepath"
"sort"
"sync"
"time"
"github.com/btcsuite/btcd/blockchain"
"github.com/btcsuite/btcd/btcec"
"github.com/btcsuite/btcd/btcjson"
"github.com/btcsuite/btcd/chaincfg"
"github.com/btcsuite/btcd/chaincfg/chainhash"
"github.com/btcsuite/btcd/txscript"
"github.com/btcsuite/btcd/wire"
"github.com/btcsuite/btcrpcclient"
"github.com/btcsuite/btcutil"
"github.com/btcsuite/btcutil/hdkeychain"
"github.com/btcsuite/btcwallet/chain"
"github.com/btcsuite/btcwallet/waddrmgr"
"github.com/btcsuite/btcwallet/wallet/txauthor"
"github.com/btcsuite/btcwallet/wallet/txrules"
"github.com/btcsuite/btcwallet/walletdb"
"github.com/btcsuite/btcwallet/wtxmgr"
)
const (
// InsecurePubPassphrase is the default outer encryption passphrase used
// for public data (everything but private keys). Using a non-default
// public passphrase can prevent an attacker without the public
// passphrase from discovering all past and future wallet addresses if
// they gain access to the wallet database.
//
// NOTE: at time of writing, public encryption only applies to public
// data in the waddrmgr namespace. Transactions are not yet encrypted.
InsecurePubPassphrase = "public"
walletDbWatchingOnlyName = "wowallet.db"
)
// ErrNotSynced describes an error where an operation cannot complete
// due wallet being out of sync (and perhaps currently syncing with)
// the remote chain server.
var ErrNotSynced = errors.New("wallet is not synchronized with the chain server")
// Namespace bucket keys.
var (
waddrmgrNamespaceKey = []byte("waddrmgr")
wtxmgrNamespaceKey = []byte("wtxmgr")
)
// Wallet is a structure containing all the components for a
// complete wallet. It contains the Armory-style key store
// addresses and keys),
type Wallet struct {
publicPassphrase []byte
// Data stores
db walletdb.DB
Manager *waddrmgr.Manager
TxStore *wtxmgr.Store
chainClient *chain.RPCClient
chainClientLock sync.Mutex
chainClientSynced bool
chainClientSyncMtx sync.Mutex
lockedOutpoints map[wire.OutPoint]struct{}
relayFee btcutil.Amount
relayFeeMu sync.Mutex
// Channels for rescan processing. Requests are added and merged with
// any waiting requests, before being sent to another goroutine to
// call the rescan RPC.
rescanAddJob chan *RescanJob
rescanBatch chan *rescanBatch
rescanNotifications chan interface{} // From chain server
rescanProgress chan *RescanProgressMsg
rescanFinished chan *RescanFinishedMsg
// Channel for transaction creation requests.
createTxRequests chan createTxRequest
// Channels for the manager locker.
unlockRequests chan unlockRequest
lockRequests chan struct{}
holdUnlockRequests chan chan HeldUnlock
lockState chan bool
changePassphrase chan changePassphraseRequest
NtfnServer *NotificationServer
chainParams *chaincfg.Params
wg sync.WaitGroup
started bool
quit chan struct{}
quitMu sync.Mutex
}
// Start starts the goroutines necessary to manage a wallet.
func (w *Wallet) Start() {
w.quitMu.Lock()
select {
case <-w.quit:
// Restart the wallet goroutines after shutdown finishes.
w.WaitForShutdown()
w.quit = make(chan struct{})
default:
// Ignore when the wallet is still running.
if w.started {
w.quitMu.Unlock()
return
}
w.started = true
}
w.quitMu.Unlock()
w.wg.Add(2)
go w.txCreator()
go w.walletLocker()
}
// SynchronizeRPC associates the wallet with the consensus RPC client,
// synchronizes the wallet with the latest changes to the blockchain, and
// continuously updates the wallet through RPC notifications.
//
// This method is unstable and will be removed when all syncing logic is moved
// outside of the wallet package.
func (w *Wallet) SynchronizeRPC(chainClient *chain.RPCClient) {
w.quitMu.Lock()
select {
case <-w.quit:
w.quitMu.Unlock()
return
default:
}
w.quitMu.Unlock()
// TODO: Ignoring the new client when one is already set breaks callers
// who are replacing the client, perhaps after a disconnect.
w.chainClientLock.Lock()
if w.chainClient != nil {
w.chainClientLock.Unlock()
return
}
w.chainClient = chainClient
w.chainClientLock.Unlock()
// TODO: It would be preferable to either run these goroutines
// separately from the wallet (use wallet mutator functions to
// make changes from the RPC client) and not have to stop and
// restart them each time the client disconnects and reconnets.
w.wg.Add(4)
go w.handleChainNotifications()
go w.rescanBatchHandler()
go w.rescanProgressHandler()
go w.rescanRPCHandler()
}
// requireChainClient marks that a wallet method can only be completed when the
// consensus RPC server is set. This function and all functions that call it
// are unstable and will need to be moved when the syncing code is moved out of
// the wallet.
func (w *Wallet) requireChainClient() (*chain.RPCClient, error) {
w.chainClientLock.Lock()
chainClient := w.chainClient
w.chainClientLock.Unlock()
if chainClient == nil {
return nil, errors.New("blockchain RPC is inactive")
}
return chainClient, nil
}
// ChainClient returns the optional consensus RPC client associated with the
// wallet.
//
// This function is unstable and will be removed once sync logic is moved out of
// the wallet.
func (w *Wallet) ChainClient() *chain.RPCClient {
w.chainClientLock.Lock()
chainClient := w.chainClient
w.chainClientLock.Unlock()
return chainClient
}
// RelayFee returns the current minimum relay fee (per kB of serialized
// transaction) used when constructing transactions.
func (w *Wallet) RelayFee() btcutil.Amount {
w.relayFeeMu.Lock()
relayFee := w.relayFee
w.relayFeeMu.Unlock()
return relayFee
}
// SetRelayFee sets a new minimum relay fee (per kB of serialized
// transaction) used when constructing transactions.
func (w *Wallet) SetRelayFee(relayFee btcutil.Amount) {
w.relayFeeMu.Lock()
w.relayFee = relayFee
w.relayFeeMu.Unlock()
}
// quitChan atomically reads the quit channel.
func (w *Wallet) quitChan() <-chan struct{} {
w.quitMu.Lock()
c := w.quit
w.quitMu.Unlock()
return c
}
// Stop signals all wallet goroutines to shutdown.
func (w *Wallet) Stop() {
w.quitMu.Lock()
quit := w.quit
w.quitMu.Unlock()
select {
case <-quit:
default:
close(quit)
w.chainClientLock.Lock()
if w.chainClient != nil {
w.chainClient.Stop()
w.chainClient = nil
}
w.chainClientLock.Unlock()
}
}
// ShuttingDown returns whether the wallet is currently in the process of
// shutting down or not.
func (w *Wallet) ShuttingDown() bool {
select {
case <-w.quitChan():
return true
default:
return false
}
}
// WaitForShutdown blocks until all wallet goroutines have finished executing.
func (w *Wallet) WaitForShutdown() {
w.chainClientLock.Lock()
if w.chainClient != nil {
w.chainClient.WaitForShutdown()
}
w.chainClientLock.Unlock()
w.wg.Wait()
}
// SynchronizingToNetwork returns whether the wallet is currently synchronizing
// with the Bitcoin network.
func (w *Wallet) SynchronizingToNetwork() bool {
// At the moment, RPC is the only synchronization method. In the
// future, when SPV is added, a separate check will also be needed, or
// SPV could always be enabled if RPC was not explicitly specified when
// creating the wallet.
w.chainClientSyncMtx.Lock()
syncing := w.chainClient != nil
w.chainClientSyncMtx.Unlock()
return syncing
}
// ChainSynced returns whether the wallet has been attached to a chain server
// and synced up to the best block on the main chain.
func (w *Wallet) ChainSynced() bool {
w.chainClientSyncMtx.Lock()
synced := w.chainClientSynced
w.chainClientSyncMtx.Unlock()
return synced
}
// SetChainSynced marks whether the wallet is connected to and currently in sync
// with the latest block notified by the chain server.
//
// NOTE: Due to an API limitation with btcrpcclient, this may return true after
// the client disconnected (and is attempting a reconnect). This will be unknown
// until the reconnect notification is received, at which point the wallet can be
// marked out of sync again until after the next rescan completes.
func (w *Wallet) SetChainSynced(synced bool) {
w.chainClientSyncMtx.Lock()
w.chainClientSynced = synced
w.chainClientSyncMtx.Unlock()
}
// activeData returns the currently-active receiving addresses and all unspent
// outputs. This is primarely intended to provide the parameters for a
// rescan request.
func (w *Wallet) activeData() ([]btcutil.Address, []wtxmgr.Credit, error) {
var addrs []btcutil.Address
err := w.Manager.ForEachActiveAddress(func(addr btcutil.Address) error {
addrs = append(addrs, addr)
return nil
})
if err != nil {
return nil, nil, err
}
unspent, err := w.TxStore.UnspentOutputs()
return addrs, unspent, err
}
// syncWithChain brings the wallet up to date with the current chain server
// connection. It creates a rescan request and blocks until the rescan has
// finished.
//
func (w *Wallet) syncWithChain() error {
chainClient, err := w.requireChainClient()
if err != nil {
return err
}
// Request notifications for connected and disconnected blocks.
//
// TODO(jrick): Either request this notification only once, or when
// btcrpcclient is modified to allow some notification request to not
// automatically resent on reconnect, include the notifyblocks request
// as well. I am leaning towards allowing off all btcrpcclient
// notification re-registrations, in which case the code here should be
// left as is.
err = chainClient.NotifyBlocks()
if err != nil {
return err
}
// Request notifications for transactions sending to all wallet
// addresses.
addrs, unspent, err := w.activeData()
if err != nil {
return err
}
// TODO(jrick): How should this handle a synced height earlier than
// the chain server best block?
// When no addresses have been generated for the wallet, the rescan can
// be skipped.
//
// TODO: This is only correct because activeData above returns all
// addresses ever created, including those that don't need to be watched
// anymore. This code should be updated when this assumption is no
// longer true, but worst case would result in an unnecessary rescan.
if len(addrs) == 0 && len(unspent) == 0 {
// TODO: It would be ideal if on initial sync wallet saved the
// last several recent blocks rather than just one. This would
// avoid a full rescan for a one block reorg of the current
// chain tip.
hash, height, err := chainClient.GetBestBlock()
if err != nil {
return err
}
return w.Manager.SetSyncedTo(&waddrmgr.BlockStamp{
Hash: *hash,
Height: height,
})
}
// Compare previously-seen blocks against the chain server. If any of
// these blocks no longer exist, rollback all of the missing blocks
// before catching up with the rescan.
iter := w.Manager.NewIterateRecentBlocks()
rollback := iter == nil
syncBlock := waddrmgr.BlockStamp{
Hash: *w.chainParams.GenesisHash,
Height: 0,
}
for cont := iter != nil; cont; cont = iter.Prev() {
bs := iter.BlockStamp()
log.Debugf("Checking for previous saved block with height %v hash %v",
bs.Height, bs.Hash)
_, err = chainClient.GetBlock(&bs.Hash)
if err != nil {
rollback = true
continue
}
log.Debug("Found matching block.")
syncBlock = bs
break
}
if rollback {
err = w.Manager.SetSyncedTo(&syncBlock)
if err != nil {
return err
}
// Rollback unconfirms transactions at and beyond the passed
// height, so add one to the new synced-to height to prevent
// unconfirming txs from the synced-to block.
err = w.TxStore.Rollback(syncBlock.Height + 1)
if err != nil {
return err
}
}
return w.Rescan(addrs, unspent)
}
type (
createTxRequest struct {
account uint32
outputs []*wire.TxOut
minconf int32
resp chan createTxResponse
}
createTxResponse struct {
tx *txauthor.AuthoredTx
err error
}
)
// txCreator is responsible for the input selection and creation of
// transactions. These functions are the responsibility of this method
// (designed to be run as its own goroutine) since input selection must be
// serialized, or else it is possible to create double spends by choosing the
// same inputs for multiple transactions. Along with input selection, this
// method is also responsible for the signing of transactions, since we don't
// want to end up in a situation where we run out of inputs as multiple
// transactions are being created. In this situation, it would then be possible
// for both requests, rather than just one, to fail due to not enough available
// inputs.
func (w *Wallet) txCreator() {
quit := w.quitChan()
out:
for {
select {
case txr := <-w.createTxRequests:
tx, err := w.txToOutputs(txr.outputs, txr.account, txr.minconf)
txr.resp <- createTxResponse{tx, err}
case <-quit:
break out
}
}
w.wg.Done()
}
// CreateSimpleTx creates a new signed transaction spending unspent P2PKH
// outputs with at laest minconf confirmations spending to any number of
// address/amount pairs. Change and an appropriate transaction fee are
// automatically included, if necessary. All transaction creation through this
// function is serialized to prevent the creation of many transactions which
// spend the same outputs.
func (w *Wallet) CreateSimpleTx(account uint32, outputs []*wire.TxOut,
minconf int32) (*txauthor.AuthoredTx, error) {
req := createTxRequest{
account: account,
outputs: outputs,
minconf: minconf,
resp: make(chan createTxResponse),
}
w.createTxRequests <- req
resp := <-req.resp
return resp.tx, resp.err
}
type (
unlockRequest struct {
passphrase []byte
lockAfter <-chan time.Time // nil prevents the timeout.
err chan error
}
changePassphraseRequest struct {
old, new []byte
err chan error
}
// HeldUnlock is a tool to prevent the wallet from automatically
// locking after some timeout before an operation which needed
// the unlocked wallet has finished. Any aquired HeldUnlock
// *must* be released (preferably with a defer) or the wallet
// will forever remain unlocked.
HeldUnlock chan struct{}
)
// walletLocker manages the locked/unlocked state of a wallet.
func (w *Wallet) walletLocker() {
var timeout <-chan time.Time
holdChan := make(HeldUnlock)
quit := w.quitChan()
out:
for {
select {
case req := <-w.unlockRequests:
err := w.Manager.Unlock(req.passphrase)
if err != nil {
req.err <- err
continue
}
timeout = req.lockAfter
if timeout == nil {
log.Info("The wallet has been unlocked without a time limit")
} else {
log.Info("The wallet has been temporarily unlocked")
}
req.err <- nil
continue
case req := <-w.changePassphrase:
err := w.Manager.ChangePassphrase(req.old, req.new, true,
&waddrmgr.DefaultScryptOptions)
req.err <- err
continue
case req := <-w.holdUnlockRequests:
if w.Manager.IsLocked() {
close(req)
continue
}
req <- holdChan
<-holdChan // Block until the lock is released.
// If, after holding onto the unlocked wallet for some
// time, the timeout has expired, lock it now instead
// of hoping it gets unlocked next time the top level
// select runs.
select {
case <-timeout:
// Let the top level select fallthrough so the
// wallet is locked.
default:
continue
}
case w.lockState <- w.Manager.IsLocked():
continue
case <-quit:
break out
case <-w.lockRequests:
case <-timeout:
}
// Select statement fell through by an explicit lock or the
// timer expiring. Lock the manager here.
timeout = nil
err := w.Manager.Lock()
if err != nil && !waddrmgr.IsError(err, waddrmgr.ErrLocked) {
log.Errorf("Could not lock wallet: %v", err)
} else {
log.Info("The wallet has been locked")
}
}
w.wg.Done()
}
// Unlock unlocks the wallet's address manager and relocks it after timeout has
// expired. If the wallet is already unlocked and the new passphrase is
// correct, the current timeout is replaced with the new one. The wallet will
// be locked if the passphrase is incorrect or any other error occurs during the
// unlock.
func (w *Wallet) Unlock(passphrase []byte, lock <-chan time.Time) error {
err := make(chan error, 1)
w.unlockRequests <- unlockRequest{
passphrase: passphrase,
lockAfter: lock,
err: err,
}
return <-err
}
// Lock locks the wallet's address manager.
func (w *Wallet) Lock() {
w.lockRequests <- struct{}{}
}
// Locked returns whether the account manager for a wallet is locked.
func (w *Wallet) Locked() bool {
return <-w.lockState
}
// HoldUnlock prevents the wallet from being locked. The HeldUnlock object
// *must* be released, or the wallet will forever remain unlocked.
//
// TODO: To prevent the above scenario, perhaps closures should be passed
// to the walletLocker goroutine and disallow callers from explicitly
// handling the locking mechanism.
func (w *Wallet) HoldUnlock() (HeldUnlock, error) {
req := make(chan HeldUnlock)
w.holdUnlockRequests <- req
hl, ok := <-req
if !ok {
// TODO(davec): This should be defined and exported from
// waddrmgr.
return nil, waddrmgr.ManagerError{
ErrorCode: waddrmgr.ErrLocked,
Description: "address manager is locked",
}
}
return hl, nil
}
// Release releases the hold on the unlocked-state of the wallet and allows the
// wallet to be locked again. If a lock timeout has already expired, the
// wallet is locked again as soon as Release is called.
func (c HeldUnlock) Release() {
c <- struct{}{}
}
// ChangePassphrase attempts to change the passphrase for a wallet from old
// to new. Changing the passphrase is synchronized with all other address
// manager locking and unlocking. The lock state will be the same as it was
// before the password change.
func (w *Wallet) ChangePassphrase(old, new []byte) error {
err := make(chan error, 1)
w.changePassphrase <- changePassphraseRequest{
old: old,
new: new,
err: err,
}
return <-err
}
// AccountUsed returns whether there are any recorded transactions spending to
// a given account. It returns true if atleast one address in the account was
// used and false if no address in the account was used.
func (w *Wallet) AccountUsed(account uint32) (bool, error) {
var used bool
var err error
merr := w.Manager.ForEachAccountAddress(account,
func(maddr waddrmgr.ManagedAddress) error {
used, err = maddr.Used()
if err != nil {
return err
}
if used {
return waddrmgr.Break
}
return nil
})
if merr == waddrmgr.Break {
merr = nil
}
return used, merr
}
// CalculateBalance sums the amounts of all unspent transaction
// outputs to addresses of a wallet and returns the balance.
//
// If confirmations is 0, all UTXOs, even those not present in a
// block (height -1), will be used to get the balance. Otherwise,
// a UTXO must be in a block. If confirmations is 1 or greater,
// the balance will be calculated based on how many how many blocks
// include a UTXO.
func (w *Wallet) CalculateBalance(confirms int32) (btcutil.Amount, error) {
blk := w.Manager.SyncedTo()
return w.TxStore.Balance(confirms, blk.Height)
}
// Balances records total, spendable (by policy), and immature coinbase
// reward balance amounts.
type Balances struct {
Total btcutil.Amount
Spendable btcutil.Amount
ImmatureReward btcutil.Amount
}
// CalculateAccountBalances sums the amounts of all unspent transaction
// outputs to the given account of a wallet and returns the balance.
//
// This function is much slower than it needs to be since transactions outputs
// are not indexed by the accounts they credit to, and all unspent transaction
// outputs must be iterated.
func (w *Wallet) CalculateAccountBalances(account uint32, confirms int32) (Balances, error) {
var bals Balances
// Get current block. The block height used for calculating
// the number of tx confirmations.
syncBlock := w.Manager.SyncedTo()
unspent, err := w.TxStore.UnspentOutputs()
if err != nil {
return bals, err
}
for i := range unspent {
output := &unspent[i]
var outputAcct uint32
_, addrs, _, err := txscript.ExtractPkScriptAddrs(
output.PkScript, w.chainParams)
if err == nil && len(addrs) > 0 {
outputAcct, err = w.Manager.AddrAccount(addrs[0])
}
if err != nil || outputAcct != account {
continue
}
bals.Total += output.Amount
if output.FromCoinBase {
target := int32(w.chainParams.CoinbaseMaturity)
if !confirmed(target, output.Height, syncBlock.Height) {
bals.ImmatureReward += output.Amount
}
} else if confirmed(confirms, output.Height, syncBlock.Height) {
bals.Spendable += output.Amount
}
}
return bals, nil
}
// CurrentAddress gets the most recently requested Bitcoin payment address
// from a wallet. If the address has already been used (there is at least
// one transaction spending to it in the blockchain or btcd mempool), the next
// chained address is returned.
func (w *Wallet) CurrentAddress(account uint32) (btcutil.Address, error) {
addr, err := w.Manager.LastExternalAddress(account)
if err != nil {
// If no address exists yet, create the first external address
if waddrmgr.IsError(err, waddrmgr.ErrAddressNotFound) {
return w.NewAddress(account)
}
return nil, err
}
// Get next chained address if the last one has already been used.
used, err := addr.Used()
if err != nil {
return nil, err
}
if used {
return w.NewAddress(account)
}
return addr.Address(), nil
}
// RenameAccount sets the name for an account number to newName.
func (w *Wallet) RenameAccount(account uint32, newName string) error {
err := w.Manager.RenameAccount(account, newName)
if err != nil {
return err
}
props, err := w.Manager.AccountProperties(account)
if err != nil {
log.Errorf("Cannot fetch new account properties for notification "+
"during account rename: %v", err)
} else {
w.NtfnServer.notifyAccountProperties(props)
}
return nil
}
// NextAccount creates the next account and returns its account number. The
// name must be unique to the account.
func (w *Wallet) NextAccount(name string) (uint32, error) {
account, err := w.Manager.NewAccount(name)
if err != nil {
return 0, err
}
props, err := w.Manager.AccountProperties(account)
if err != nil {
log.Errorf("Cannot fetch new account properties for notification "+
"after account creation: %v", err)
} else {
w.NtfnServer.notifyAccountProperties(props)
}
return account, nil
}
// CreditCategory describes the type of wallet transaction output. The category
// of "sent transactions" (debits) is always "send", and is not expressed by
// this type.
//
// TODO: This is a requirement of the RPC server and should be moved.
type CreditCategory byte
// These constants define the possible credit categories.
const (
CreditReceive CreditCategory = iota
CreditGenerate
CreditImmature
)
// String returns the category as a string. This string may be used as the
// JSON string for categories as part of listtransactions and gettransaction
// RPC responses.
func (c CreditCategory) String() string {
switch c {
case CreditReceive:
return "receive"
case CreditGenerate:
return "generate"
case CreditImmature:
return "immature"
default:
return "unknown"
}
}
// RecvCategory returns the category of received credit outputs from a
// transaction record. The passed block chain height is used to distinguish
// immature from mature coinbase outputs.
//
// TODO: This is intended for use by the RPC server and should be moved out of
// this package at a later time.
func RecvCategory(details *wtxmgr.TxDetails, syncHeight int32, net *chaincfg.Params) CreditCategory {
if blockchain.IsCoinBaseTx(&details.MsgTx) {
if confirmed(int32(net.CoinbaseMaturity), details.Block.Height,
syncHeight) {
return CreditGenerate
}
return CreditImmature
}
return CreditReceive
}
// ListTransactions creates a object that may be marshalled to a response result
// for a listtransactions RPC.
//
// TODO: This should be moved to the legacyrpc package.
func ListTransactions(details *wtxmgr.TxDetails, addrMgr *waddrmgr.Manager,
syncHeight int32, net *chaincfg.Params) []btcjson.ListTransactionsResult {
var (
blockHashStr string
blockTime int64
confirmations int64
)
if details.Block.Height != -1 {
blockHashStr = details.Block.Hash.String()
blockTime = details.Block.Time.Unix()
confirmations = int64(confirms(details.Block.Height, syncHeight))
}
results := []btcjson.ListTransactionsResult{}
txHashStr := details.Hash.String()
received := details.Received.Unix()
generated := blockchain.IsCoinBaseTx(&details.MsgTx)
recvCat := RecvCategory(details, syncHeight, net).String()
send := len(details.Debits) != 0
// Fee can only be determined if every input is a debit.
var feeF64 float64
if len(details.Debits) == len(details.MsgTx.TxIn) {
var debitTotal btcutil.Amount
for _, deb := range details.Debits {
debitTotal += deb.Amount
}
var outputTotal btcutil.Amount
for _, output := range details.MsgTx.TxOut {
outputTotal += btcutil.Amount(output.Value)
}
// Note: The actual fee is debitTotal - outputTotal. However,
// this RPC reports negative numbers for fees, so the inverse
// is calculated.
feeF64 = (outputTotal - debitTotal).ToBTC()
}
outputs:
for i, output := range details.MsgTx.TxOut {
// Determine if this output is a credit, and if so, determine
// its spentness.
var isCredit bool
var spentCredit bool
for _, cred := range details.Credits {
if cred.Index == uint32(i) {
// Change outputs are ignored.
if cred.Change {
continue outputs
}
isCredit = true
spentCredit = cred.Spent
break
}
}
var address string
var accountName string
_, addrs, _, _ := txscript.ExtractPkScriptAddrs(output.PkScript, net)
if len(addrs) == 1 {
addr := addrs[0]
address = addr.EncodeAddress()
account, err := addrMgr.AddrAccount(addrs[0])
if err == nil {
accountName, err = addrMgr.AccountName(account)
if err != nil {
accountName = ""
}
}
}
amountF64 := btcutil.Amount(output.Value).ToBTC()
result := btcjson.ListTransactionsResult{
// Fields left zeroed:
// InvolvesWatchOnly
// BlockIndex
//
// Fields set below:
// Account (only for non-"send" categories)
// Category
// Amount
// Fee
Address: address,
Vout: uint32(i),
Confirmations: confirmations,
Generated: generated,
BlockHash: blockHashStr,
BlockTime: blockTime,
TxID: txHashStr,
WalletConflicts: []string{},
Time: received,
TimeReceived: received,
}
// Add a received/generated/immature result if this is a credit.
// If the output was spent, create a second result under the
// send category with the inverse of the output amount. It is
// therefore possible that a single output may be included in
// the results set zero, one, or two times.
//
// Since credits are not saved for outputs that are not
// controlled by this wallet, all non-credits from transactions
// with debits are grouped under the send category.
if send || spentCredit {
result.Category = "send"
result.Amount = -amountF64
result.Fee = &feeF64
results = append(results, result)
}
if isCredit {
result.Account = accountName
result.Category = recvCat
result.Amount = amountF64
result.Fee = nil
results = append(results, result)
}
}
return results
}
// ListSinceBlock returns a slice of objects with details about transactions
// since the given block. If the block is -1 then all transactions are included.
// This is intended to be used for listsinceblock RPC replies.
func (w *Wallet) ListSinceBlock(start, end, syncHeight int32) ([]btcjson.ListTransactionsResult, error) {
txList := []btcjson.ListTransactionsResult{}
err := w.TxStore.RangeTransactions(start, end, func(details []wtxmgr.TxDetails) (bool, error) {
for _, detail := range details {
jsonResults := ListTransactions(&detail, w.Manager,
syncHeight, w.chainParams)
txList = append(txList, jsonResults...)
}
return false, nil
})
return txList, err
}
// ListTransactions returns a slice of objects with details about a recorded
// transaction. This is intended to be used for listtransactions RPC
// replies.
func (w *Wallet) ListTransactions(from, count int) ([]btcjson.ListTransactionsResult, error) {
txList := []btcjson.ListTransactionsResult{}
// Get current block. The block height used for calculating
// the number of tx confirmations.
syncBlock := w.Manager.SyncedTo()
// Need to skip the first from transactions, and after those, only
// include the next count transactions.
skipped := 0
n := 0
// Return newer results first by starting at mempool height and working
// down to the genesis block.
err := w.TxStore.RangeTransactions(-1, 0, func(details []wtxmgr.TxDetails) (bool, error) {
// Iterate over transactions at this height in reverse order.
// This does nothing for unmined transactions, which are
// unsorted, but it will process mined transactions in the
// reverse order they were marked mined.
for i := len(details) - 1; i >= 0; i-- {
if from > skipped {
skipped++
continue
}
n++
if n > count {
return true, nil
}
jsonResults := ListTransactions(&details[i],
w.Manager, syncBlock.Height, w.chainParams)
txList = append(txList, jsonResults...)
}
return false, nil
})
return txList, err
}
// ListAddressTransactions returns a slice of objects with details about
// recorded transactions to or from any address belonging to a set. This is
// intended to be used for listaddresstransactions RPC replies.
func (w *Wallet) ListAddressTransactions(pkHashes map[string]struct{}) (
[]btcjson.ListTransactionsResult, error) {
txList := []btcjson.ListTransactionsResult{}
// Get current block. The block height used for calculating
// the number of tx confirmations.
syncBlock := w.Manager.SyncedTo()
err := w.TxStore.RangeTransactions(0, -1, func(details []wtxmgr.TxDetails) (bool, error) {
loopDetails:
for i := range details {
detail := &details[i]
for _, cred := range detail.Credits {
pkScript := detail.MsgTx.TxOut[cred.Index].PkScript
_, addrs, _, err := txscript.ExtractPkScriptAddrs(
pkScript, w.chainParams)
if err != nil || len(addrs) != 1 {
continue
}
apkh, ok := addrs[0].(*btcutil.AddressPubKeyHash)
if !ok {
continue
}
_, ok = pkHashes[string(apkh.ScriptAddress())]
if !ok {
continue
}
jsonResults := ListTransactions(detail, w.Manager,
syncBlock.Height, w.chainParams)
if err != nil {
return false, err
}
txList = append(txList, jsonResults...)
continue loopDetails
}
}
return false, nil
})
return txList, err
}
// ListAllTransactions returns a slice of objects with details about a recorded
// transaction. This is intended to be used for listalltransactions RPC
// replies.
func (w *Wallet) ListAllTransactions() ([]btcjson.ListTransactionsResult, error) {
txList := []btcjson.ListTransactionsResult{}
// Get current block. The block height used for calculating
// the number of tx confirmations.
syncBlock := w.Manager.SyncedTo()
// Return newer results first by starting at mempool height and working
// down to the genesis block.
err := w.TxStore.RangeTransactions(-1, 0, func(details []wtxmgr.TxDetails) (bool, error) {
// Iterate over transactions at this height in reverse order.
// This does nothing for unmined transactions, which are
// unsorted, but it will process mined transactions in the
// reverse order they were marked mined.
for i := len(details) - 1; i >= 0; i-- {
jsonResults := ListTransactions(&details[i], w.Manager,
syncBlock.Height, w.chainParams)
txList = append(txList, jsonResults...)
}
return false, nil
})
return txList, err
}
// BlockIdentifier identifies a block by either a height or a hash.
type BlockIdentifier struct {
height int32
hash *chainhash.Hash
}
// NewBlockIdentifierFromHeight constructs a BlockIdentifier for a block height.
func NewBlockIdentifierFromHeight(height int32) *BlockIdentifier {
return &BlockIdentifier{height: height}
}
// NewBlockIdentifierFromHash constructs a BlockIdentifier for a block hash.
func NewBlockIdentifierFromHash(hash *chainhash.Hash) *BlockIdentifier {
return &BlockIdentifier{hash: hash}
}
// GetTransactionsResult is the result of the wallet's GetTransactions method.
// See GetTransactions for more details.
type GetTransactionsResult struct {
MinedTransactions []Block
UnminedTransactions []TransactionSummary
}
// GetTransactions returns transaction results between a starting and ending
// block. Blocks in the block range may be specified by either a height or a
// hash.
//
// Because this is a possibly lenghtly operation, a cancel channel is provided
// to cancel the task. If this channel unblocks, the results created thus far
// will be returned.
//
// Transaction results are organized by blocks in ascending order and unmined
// transactions in an unspecified order. Mined transactions are saved in a
// Block structure which records properties about the block.
func (w *Wallet) GetTransactions(startBlock, endBlock *BlockIdentifier, cancel <-chan struct{}) (*GetTransactionsResult, error) {
var start, end int32 = 0, -1
w.chainClientLock.Lock()
chainClient := w.chainClient
w.chainClientLock.Unlock()
// TODO: Fetching block heights by their hashes is inherently racy
// because not all block headers are saved but when they are for SPV the
// db can be queried directly without this.
var startResp, endResp btcrpcclient.FutureGetBlockVerboseResult
if startBlock != nil {
if startBlock.hash == nil {
start = startBlock.height
} else {
if chainClient == nil {
return nil, errors.New("no chain server client")
}
startResp = chainClient.GetBlockVerboseAsync(startBlock.hash)
}
}
if endBlock != nil {
if endBlock.hash == nil {
end = endBlock.height
} else {
if chainClient == nil {
return nil, errors.New("no chain server client")
}
endResp = chainClient.GetBlockVerboseAsync(endBlock.hash)
}
}
if startResp != nil {
resp, err := startResp.Receive()
if err != nil {
return nil, err
}
start = int32(resp.Height)
}
if endResp != nil {
resp, err := endResp.Receive()
if err != nil {
return nil, err
}
end = int32(resp.Height)
}
var res GetTransactionsResult
err := w.TxStore.RangeTransactions(start, end, func(details []wtxmgr.TxDetails) (bool, error) {
// TODO: probably should make RangeTransactions not reuse the
// details backing array memory.
dets := make([]wtxmgr.TxDetails, len(details))
copy(dets, details)
details = dets
txs := make([]TransactionSummary, 0, len(details))
for i := range details {
txs = append(txs, makeTxSummary(w, &details[i]))
}
if details[0].Block.Height != -1 {
blockHash := details[0].Block.Hash
res.MinedTransactions = append(res.MinedTransactions, Block{
Hash: &blockHash,
Height: details[0].Block.Height,
Timestamp: details[0].Block.Time.Unix(),
Transactions: txs,
})
} else {
res.UnminedTransactions = txs
}
select {
case <-cancel:
return true, nil
default:
return false, nil
}
})
return &res, err
}
// AccountResult is a single account result for the AccountsResult type.
type AccountResult struct {
waddrmgr.AccountProperties
TotalBalance btcutil.Amount
}
// AccountsResult is the resutl of the wallet's Accounts method. See that
// method for more details.
type AccountsResult struct {
Accounts []AccountResult
CurrentBlockHash *chainhash.Hash
CurrentBlockHeight int32
}
// Accounts returns the current names, numbers, and total balances of all
// accounts in the wallet. The current chain tip is included in the result for
// atomicity reasons.
//
// TODO(jrick): Is the chain tip really needed, since only the total balances
// are included?
func (w *Wallet) Accounts() (*AccountsResult, error) {
var accounts []AccountResult
syncBlock := w.Manager.SyncedTo()
unspent, err := w.TxStore.UnspentOutputs()
if err != nil {
return nil, err
}
err = w.Manager.ForEachAccount(func(acct uint32) error {
props, err := w.Manager.AccountProperties(acct)
if err != nil {
return err
}
accounts = append(accounts, AccountResult{
AccountProperties: *props,
// TotalBalance set below
})
return nil
})
if err != nil {
return nil, err
}
m := make(map[uint32]*btcutil.Amount)
for i := range accounts {
a := &accounts[i]
m[a.AccountNumber] = &a.TotalBalance
}
for i := range unspent {
output := &unspent[i]
var outputAcct uint32
_, addrs, _, err := txscript.ExtractPkScriptAddrs(
output.PkScript, w.chainParams)
if err == nil && len(addrs) > 0 {
outputAcct, err = w.Manager.AddrAccount(addrs[0])
}
if err == nil {
amt, ok := m[outputAcct]
if ok {
*amt += output.Amount
}
}
}
return &AccountsResult{
Accounts: accounts,
CurrentBlockHash: &syncBlock.Hash,
CurrentBlockHeight: syncBlock.Height,
}, nil
}
// creditSlice satisifies the sort.Interface interface to provide sorting
// transaction credits from oldest to newest. Credits with the same receive
// time and mined in the same block are not guaranteed to be sorted by the order
// they appear in the block. Credits from the same transaction are sorted by
// output index.
type creditSlice []wtxmgr.Credit
func (s creditSlice) Len() int {
return len(s)
}
func (s creditSlice) Less(i, j int) bool {
switch {
// If both credits are from the same tx, sort by output index.
case s[i].OutPoint.Hash == s[j].OutPoint.Hash:
return s[i].OutPoint.Index < s[j].OutPoint.Index
// If both transactions are unmined, sort by their received date.
case s[i].Height == -1 && s[j].Height == -1:
return s[i].Received.Before(s[j].Received)
// Unmined (newer) txs always come last.
case s[i].Height == -1:
return false
case s[j].Height == -1:
return true
// If both txs are mined in different blocks, sort by block height.
default:
return s[i].Height < s[j].Height
}
}
func (s creditSlice) Swap(i, j int) {
s[i], s[j] = s[j], s[i]
}
// ListUnspent returns a slice of objects representing the unspent wallet
// transactions fitting the given criteria. The confirmations will be more than
// minconf, less than maxconf and if addresses is populated only the addresses
// contained within it will be considered. If we know nothing about a
// transaction an empty array will be returned.
func (w *Wallet) ListUnspent(minconf, maxconf int32,
addresses map[string]struct{}) ([]*btcjson.ListUnspentResult, error) {
syncBlock := w.Manager.SyncedTo()
filter := len(addresses) != 0
unspent, err := w.TxStore.UnspentOutputs()
if err != nil {
return nil, err
}
sort.Sort(sort.Reverse(creditSlice(unspent)))
defaultAccountName, err := w.Manager.AccountName(waddrmgr.DefaultAccountNum)
if err != nil {
return nil, err
}
results := make([]*btcjson.ListUnspentResult, 0, len(unspent))
for i := range unspent {
output := &unspent[i]
// Outputs with fewer confirmations than the minimum or more
// confs than the maximum are excluded.
confs := confirms(output.Height, syncBlock.Height)
if confs < minconf || confs > maxconf {
continue
}
// Only mature coinbase outputs are included.
if output.FromCoinBase {
target := int32(w.chainParams.CoinbaseMaturity)
if !confirmed(target, output.Height, syncBlock.Height) {
continue
}
}
// Exclude locked outputs from the result set.
if w.LockedOutpoint(output.OutPoint) {
continue
}
// Lookup the associated account for the output. Use the
// default account name in case there is no associated account
// for some reason, although this should never happen.
//
// This will be unnecessary once transactions and outputs are
// grouped under the associated account in the db.
acctName := defaultAccountName
sc, addrs, _, err := txscript.ExtractPkScriptAddrs(
output.PkScript, w.chainParams)
if err != nil {
continue
}
if len(addrs) > 0 {
acct, err := w.Manager.AddrAccount(addrs[0])
if err == nil {
s, err := w.Manager.AccountName(acct)
if err == nil {
acctName = s
}
}
}
if filter {
for _, addr := range addrs {
_, ok := addresses[addr.EncodeAddress()]
if ok {
goto include
}
}
continue
}
include:
// At the moment watch-only addresses are not supported, so all
// recorded outputs that are not multisig are "spendable".
// Multisig outputs are only "spendable" if all keys are
// controlled by this wallet.
//
// TODO: Each case will need updates when watch-only addrs
// is added. For P2PK, P2PKH, and P2SH, the address must be
// looked up and not be watching-only. For multisig, all
// pubkeys must belong to the manager with the associated
// private key (currently it only checks whether the pubkey
// exists, since the private key is required at the moment).
var spendable bool
scSwitch:
switch sc {
case txscript.PubKeyHashTy:
spendable = true
case txscript.PubKeyTy:
spendable = true
case txscript.ScriptHashTy:
spendable = true
case txscript.MultiSigTy:
for _, a := range addrs {
_, err := w.Manager.Address(a)
if err == nil {
continue
}
if waddrmgr.IsError(err, waddrmgr.ErrAddressNotFound) {
break scSwitch
}
return nil, err
}
spendable = true
}
result := &btcjson.ListUnspentResult{
TxID: output.OutPoint.Hash.String(),
Vout: output.OutPoint.Index,
Account: acctName,
ScriptPubKey: hex.EncodeToString(output.PkScript),
Amount: output.Amount.ToBTC(),
Confirmations: int64(confs),
Spendable: spendable,
}
// BUG: this should be a JSON array so that all
// addresses can be included, or removed (and the
// caller extracts addresses from the pkScript).
if len(addrs) > 0 {
result.Address = addrs[0].EncodeAddress()
}
results = append(results, result)
}
return results, nil
}
// DumpPrivKeys returns the WIF-encoded private keys for all addresses with
// private keys in a wallet.
func (w *Wallet) DumpPrivKeys() ([]string, error) {
var privkeys []string
// Iterate over each active address, appending the private key to
// privkeys.
err := w.Manager.ForEachActiveAddress(func(addr btcutil.Address) error {
ma, err := w.Manager.Address(addr)
if err != nil {
return err
}
// Only those addresses with keys needed.
pka, ok := ma.(waddrmgr.ManagedPubKeyAddress)
if !ok {
return nil
}
wif, err := pka.ExportPrivKey()
if err != nil {
// It would be nice to zero out the array here. However,
// since strings in go are immutable, and we have no
// control over the caller I don't think we can. :(
return err
}
privkeys = append(privkeys, wif.String())
return nil
})
return privkeys, err
}
// DumpWIFPrivateKey returns the WIF encoded private key for a
// single wallet address.
func (w *Wallet) DumpWIFPrivateKey(addr btcutil.Address) (string, error) {
// Get private key from wallet if it exists.
address, err := w.Manager.Address(addr)
if err != nil {
return "", err
}
pka, ok := address.(waddrmgr.ManagedPubKeyAddress)
if !ok {
return "", fmt.Errorf("address %s is not a key type", addr)
}
wif, err := pka.ExportPrivKey()
if err != nil {
return "", err
}
return wif.String(), nil
}
// ImportPrivateKey imports a private key to the wallet and writes the new
// wallet to disk.
func (w *Wallet) ImportPrivateKey(wif *btcutil.WIF, bs *waddrmgr.BlockStamp,
rescan bool) (string, error) {
// The starting block for the key is the genesis block unless otherwise
// specified.
if bs == nil {
bs = &waddrmgr.BlockStamp{
Hash: *w.chainParams.GenesisHash,
Height: 0,
}
}
// Attempt to import private key into wallet.
addr, err := w.Manager.ImportPrivateKey(wif, bs)
if err != nil {
return "", err
}
// Rescan blockchain for transactions with txout scripts paying to the
// imported address.
if rescan {
job := &RescanJob{
Addrs: []btcutil.Address{addr.Address()},
OutPoints: nil,
BlockStamp: *bs,
}
// Submit rescan job and log when the import has completed.
// Do not block on finishing the rescan. The rescan success
// or failure is logged elsewhere, and the channel is not
// required to be read, so discard the return value.
_ = w.SubmitRescan(job)
}
addrStr := addr.Address().EncodeAddress()
log.Infof("Imported payment address %s", addrStr)
props, err := w.Manager.AccountProperties(waddrmgr.ImportedAddrAccount)
if err != nil {
log.Errorf("Cannot fetch account properties for imported "+
"account after importing key: %v", err)
} else {
w.NtfnServer.notifyAccountProperties(props)
}
// Return the payment address string of the imported private key.
return addrStr, nil
}
// ExportWatchingWallet returns a watching-only version of the wallet serialized
// database as a base64-encoded string.
func (w *Wallet) ExportWatchingWallet() (string, error) {
tmpDir, err := ioutil.TempDir("", "btcwallet")
if err != nil {
return "", err
}
defer os.RemoveAll(tmpDir)
// Create a new file and write a copy of the current database into it.
woDbPath := filepath.Join(tmpDir, walletDbWatchingOnlyName)
fi, err := os.OpenFile(woDbPath, os.O_CREATE|os.O_RDWR, 0600)
if err != nil {
return "", err
}
if err := w.db.Copy(fi); err != nil {
fi.Close()
return "", err
}
fi.Close()
defer os.Remove(woDbPath)
// Open the new database, get the address manager namespace, and open
// it.
woDb, err := walletdb.Open("bdb", woDbPath)
if err != nil {
_ = os.Remove(woDbPath)
return "", err
}
defer woDb.Close()
namespace, err := woDb.Namespace(waddrmgrNamespaceKey)
if err != nil {
return "", err
}
woMgr, err := waddrmgr.Open(namespace, w.publicPassphrase,
w.chainParams, nil)
if err != nil {
return "", err
}
defer woMgr.Close()
// Convert the namespace to watching only if needed.
if err := woMgr.ConvertToWatchingOnly(); err != nil {
// Only return the error is it's not because it's already
// watching-only. When it is already watching-only, the code
// just falls through to the export below.
if !waddrmgr.IsError(err, waddrmgr.ErrWatchingOnly) {
return "", err
}
}
// Export the watching only wallet's serialized data.
return exportBase64DB(woDb)
}
// exportBase64DB exports a wallet's serialized database as a base64-encoded
// string.
func exportBase64DB(db walletdb.DB) (string, error) {
var buf bytes.Buffer
if err := db.Copy(&buf); err != nil {
return "", err
}
return base64.StdEncoding.EncodeToString(buf.Bytes()), nil
}
// LockedOutpoint returns whether an outpoint has been marked as locked and
// should not be used as an input for created transactions.
func (w *Wallet) LockedOutpoint(op wire.OutPoint) bool {
_, locked := w.lockedOutpoints[op]
return locked
}
// LockOutpoint marks an outpoint as locked, that is, it should not be used as
// an input for newly created transactions.
func (w *Wallet) LockOutpoint(op wire.OutPoint) {
w.lockedOutpoints[op] = struct{}{}
}
// UnlockOutpoint marks an outpoint as unlocked, that is, it may be used as an
// input for newly created transactions.
func (w *Wallet) UnlockOutpoint(op wire.OutPoint) {
delete(w.lockedOutpoints, op)
}
// ResetLockedOutpoints resets the set of locked outpoints so all may be used
// as inputs for new transactions.
func (w *Wallet) ResetLockedOutpoints() {
w.lockedOutpoints = map[wire.OutPoint]struct{}{}
}
// LockedOutpoints returns a slice of currently locked outpoints. This is
// intended to be used by marshaling the result as a JSON array for
// listlockunspent RPC results.
func (w *Wallet) LockedOutpoints() []btcjson.TransactionInput {
locked := make([]btcjson.TransactionInput, len(w.lockedOutpoints))
i := 0
for op := range w.lockedOutpoints {
locked[i] = btcjson.TransactionInput{
Txid: op.Hash.String(),
Vout: op.Index,
}
i++
}
return locked
}
// ResendUnminedTxs iterates through all transactions that spend from wallet
// credits that are not known to have been mined into a block, and attempts
// to send each to the chain server for relay.
func (w *Wallet) ResendUnminedTxs() {
chainClient, err := w.requireChainClient()
if err != nil {
log.Errorf("No chain server available to resend unmined transactions")
return
}
txs, err := w.TxStore.UnminedTxs()
if err != nil {
log.Errorf("Cannot load unmined transactions for resending: %v", err)
return
}
for _, tx := range txs {
resp, err := chainClient.SendRawTransaction(tx, false)
if err != nil {
// TODO(jrick): Check error for if this tx is a double spend,
// remove it if so.
log.Debugf("Could not resend transaction %v: %v",
tx.TxHash(), err)
continue
}
log.Debugf("Resent unmined transaction %v", resp)
}
}
// SortedActivePaymentAddresses returns a slice of all active payment
// addresses in a wallet.
func (w *Wallet) SortedActivePaymentAddresses() ([]string, error) {
var addrStrs []string
err := w.Manager.ForEachActiveAddress(func(addr btcutil.Address) error {
addrStrs = append(addrStrs, addr.EncodeAddress())
return nil
})
if err != nil {
return nil, err
}
sort.Sort(sort.StringSlice(addrStrs))
return addrStrs, nil
}
// NewAddress returns the next external chained address for a wallet.
func (w *Wallet) NewAddress(account uint32) (btcutil.Address, error) {
// Get next address from wallet.
addrs, err := w.Manager.NextExternalAddresses(account, 1)
if err != nil {
return nil, err
}
// Request updates from btcd for new transactions sent to this address.
utilAddrs := make([]btcutil.Address, len(addrs))
for i, addr := range addrs {
utilAddrs[i] = addr.Address()
}
w.chainClientLock.Lock()
chainClient := w.chainClient
w.chainClientLock.Unlock()
if chainClient != nil {
err := chainClient.NotifyReceived(utilAddrs)
if err != nil {
return nil, err
}
}
props, err := w.Manager.AccountProperties(account)
if err != nil {
log.Errorf("Cannot fetch account properties for notification "+
"after deriving next external address: %v", err)
} else {
w.NtfnServer.notifyAccountProperties(props)
}
return utilAddrs[0], nil
}
// NewChangeAddress returns a new change address for a wallet.
func (w *Wallet) NewChangeAddress(account uint32) (btcutil.Address, error) {
// Get next chained change address from wallet for account.
addrs, err := w.Manager.NextInternalAddresses(account, 1)
if err != nil {
return nil, err
}
// Request updates from btcd for new transactions sent to this address.
utilAddrs := make([]btcutil.Address, len(addrs))
for i, addr := range addrs {
utilAddrs[i] = addr.Address()
}
chainClient, err := w.requireChainClient()
if err == nil {
err = chainClient.NotifyReceived(utilAddrs)
if err != nil {
return nil, err
}
}
return utilAddrs[0], nil
}
// confirmed checks whether a transaction at height txHeight has met minconf
// confirmations for a blockchain at height curHeight.
func confirmed(minconf, txHeight, curHeight int32) bool {
return confirms(txHeight, curHeight) >= minconf
}
// confirms returns the number of confirmations for a transaction in a block at
// height txHeight (or -1 for an unconfirmed tx) given the chain height
// curHeight.
func confirms(txHeight, curHeight int32) int32 {
switch {
case txHeight == -1, txHeight > curHeight:
return 0
default:
return curHeight - txHeight + 1
}
}
// TotalReceivedForAccount iterates through a wallet's transaction history,
// returning the total amount of bitcoins received for a single wallet
// account.
func (w *Wallet) TotalReceivedForAccount(account uint32, minConf int32) (btcutil.Amount, int32, error) {
syncBlock := w.Manager.SyncedTo()
var (
amount btcutil.Amount
lastConf int32 // Confs of the last matching transaction.
stopHeight int32
)
if minConf > 0 {
stopHeight = syncBlock.Height - minConf + 1
} else {
stopHeight = -1
}
err := w.TxStore.RangeTransactions(0, stopHeight, func(details []wtxmgr.TxDetails) (bool, error) {
for i := range details {
detail := &details[i]
for _, cred := range detail.Credits {
pkScript := detail.MsgTx.TxOut[cred.Index].PkScript
var outputAcct uint32
_, addrs, _, err := txscript.ExtractPkScriptAddrs(
pkScript, w.chainParams)
if err == nil && len(addrs) > 0 {
outputAcct, err = w.Manager.AddrAccount(addrs[0])
}
if err == nil && outputAcct == account {
amount += cred.Amount
lastConf = confirms(detail.Block.Height, syncBlock.Height)
}
}
}
return false, nil
})
return amount, lastConf, err
}
// TotalReceivedForAddr iterates through a wallet's transaction history,
// returning the total amount of bitcoins received for a single wallet
// address.
func (w *Wallet) TotalReceivedForAddr(addr btcutil.Address, minConf int32) (btcutil.Amount, error) {
syncBlock := w.Manager.SyncedTo()
var (
addrStr = addr.EncodeAddress()
amount btcutil.Amount
stopHeight int32
)
if minConf > 0 {
stopHeight = syncBlock.Height - minConf + 1
} else {
stopHeight = -1
}
err := w.TxStore.RangeTransactions(0, stopHeight, func(details []wtxmgr.TxDetails) (bool, error) {
for i := range details {
detail := &details[i]
for _, cred := range detail.Credits {
pkScript := detail.MsgTx.TxOut[cred.Index].PkScript
_, addrs, _, err := txscript.ExtractPkScriptAddrs(
pkScript, w.chainParams)
// An error creating addresses from the output script only
// indicates a non-standard script, so ignore this credit.
if err != nil {
continue
}
for _, a := range addrs {
if addrStr == a.EncodeAddress() {
amount += cred.Amount
break
}
}
}
}
return false, nil
})
return amount, err
}
// SendOutputs creates and sends payment transactions. It returns the
// transaction hash upon success.
func (w *Wallet) SendOutputs(outputs []*wire.TxOut, account uint32,
minconf int32) (*chainhash.Hash, error) {
chainClient, err := w.requireChainClient()
if err != nil {
return nil, err
}
relayFee := w.RelayFee()
for _, output := range outputs {
err = txrules.CheckOutput(output, relayFee)
if err != nil {
return nil, err
}
}
// Create transaction, replying with an error if the creation
// was not successful.
createdTx, err := w.CreateSimpleTx(account, outputs, minconf)
if err != nil {
return nil, err
}
// Create transaction record and insert into the db.
rec, err := wtxmgr.NewTxRecordFromMsgTx(createdTx.Tx, time.Now())
if err != nil {
log.Errorf("Cannot create record for created transaction: %v", err)
return nil, err
}
err = w.TxStore.InsertTx(rec, nil)
if err != nil {
log.Errorf("Error adding sent tx history: %v", err)
return nil, err
}
if createdTx.ChangeIndex >= 0 {
err = w.TxStore.AddCredit(rec, nil, uint32(createdTx.ChangeIndex), true)
if err != nil {
log.Errorf("Error adding change address for sent "+
"tx: %v", err)
return nil, err
}
}
// TODO: The record already has the serialized tx, so no need to
// serialize it again.
return chainClient.SendRawTransaction(&rec.MsgTx, false)
}
// SignatureError records the underlying error when validating a transaction
// input signature.
type SignatureError struct {
InputIndex uint32
Error error
}
// SignTransaction uses secrets of the wallet, as well as additional secrets
// passed in by the caller, to create and add input signatures to a transaction.
//
// Transaction input script validation is used to confirm that all signatures
// are valid. For any invalid input, a SignatureError is added to the returns.
// The final error return is reserved for unexpected or fatal errors, such as
// being unable to determine a previous output script to redeem.
//
// The transaction pointed to by tx is modified by this function.
func (w *Wallet) SignTransaction(tx *wire.MsgTx, hashType txscript.SigHashType,
additionalPrevScripts map[wire.OutPoint][]byte,
additionalKeysByAddress map[string]*btcutil.WIF,
p2shRedeemScriptsByAddress map[string][]byte) ([]SignatureError, error) {
var signErrors []SignatureError
for i, txIn := range tx.TxIn {
prevOutScript, ok := additionalPrevScripts[txIn.PreviousOutPoint]
if !ok {
prevHash := &txIn.PreviousOutPoint.Hash
prevIndex := txIn.PreviousOutPoint.Index
txDetails, err := w.TxStore.TxDetails(prevHash)
if err != nil {
return nil, fmt.Errorf("Cannot query previous transaction "+
"details for %v: %v", txIn.PreviousOutPoint, err)
}
if txDetails == nil {
return nil, fmt.Errorf("%v not found",
txIn.PreviousOutPoint)
}
prevOutScript = txDetails.MsgTx.TxOut[prevIndex].PkScript
}
// Set up our callbacks that we pass to txscript so it can
// look up the appropriate keys and scripts by address.
getKey := txscript.KeyClosure(func(addr btcutil.Address) (
*btcec.PrivateKey, bool, error) {
if len(additionalKeysByAddress) != 0 {
addrStr := addr.EncodeAddress()
wif, ok := additionalKeysByAddress[addrStr]
if !ok {
return nil, false,
errors.New("no key for address")
}
return wif.PrivKey, wif.CompressPubKey, nil
}
address, err := w.Manager.Address(addr)
if err != nil {
return nil, false, err
}
pka, ok := address.(waddrmgr.ManagedPubKeyAddress)
if !ok {
return nil, false, errors.New("address is not " +
"a pubkey address")
}
key, err := pka.PrivKey()
if err != nil {
return nil, false, err
}
return key, pka.Compressed(), nil
})
getScript := txscript.ScriptClosure(func(
addr btcutil.Address) ([]byte, error) {
// If keys were provided then we can only use the
// redeem scripts provided with our inputs, too.
if len(additionalKeysByAddress) != 0 {
addrStr := addr.EncodeAddress()
script, ok := p2shRedeemScriptsByAddress[addrStr]
if !ok {
return nil, errors.New("no script for " +
"address")
}
return script, nil
}
address, err := w.Manager.Address(addr)
if err != nil {
return nil, err
}
sa, ok := address.(waddrmgr.ManagedScriptAddress)
if !ok {
return nil, errors.New("address is not a script" +
" address")
}
return sa.Script()
})
// SigHashSingle inputs can only be signed if there's a
// corresponding output. However this could be already signed,
// so we always verify the output.
if (hashType&txscript.SigHashSingle) !=
txscript.SigHashSingle || i < len(tx.TxOut) {
script, err := txscript.SignTxOutput(w.ChainParams(),
tx, i, prevOutScript, hashType, getKey,
getScript, txIn.SignatureScript)
// Failure to sign isn't an error, it just means that
// the tx isn't complete.
if err != nil {
signErrors = append(signErrors, SignatureError{
InputIndex: uint32(i),
Error: err,
})
continue
}
txIn.SignatureScript = script
}
// Either it was already signed or we just signed it.
// Find out if it is completely satisfied or still needs more.
vm, err := txscript.NewEngine(prevOutScript, tx, i,
txscript.StandardVerifyFlags, nil)
if err == nil {
err = vm.Execute()
}
if err != nil {
signErrors = append(signErrors, SignatureError{
InputIndex: uint32(i),
Error: err,
})
}
}
return signErrors, nil
}
// PublishTransaction sends the transaction to the consensus RPC server so it
// can be propigated to other nodes and eventually mined.
//
// This function is unstable and will be removed once syncing code is moved out
// of the wallet.
func (w *Wallet) PublishTransaction(tx *wire.MsgTx) error {
server, err := w.requireChainClient()
if err != nil {
return err
}
_, err = server.SendRawTransaction(tx, false)
return err
}
// ChainParams returns the network parameters for the blockchain the wallet
// belongs to.
func (w *Wallet) ChainParams() *chaincfg.Params {
return w.chainParams
}
// Create creates an new wallet, writing it to an empty database. If the passed
// seed is non-nil, it is used. Otherwise, a secure random seed of the
// recommended length is generated.
func Create(db walletdb.DB, pubPass, privPass, seed []byte, params *chaincfg.Params) error {
// If a seed was provided, ensure that it is of valid length. Otherwise,
// we generate a random seed for the wallet with the recommended seed
// length.
if seed == nil {
hdSeed, err := hdkeychain.GenerateSeed(
hdkeychain.RecommendedSeedLen)
if err != nil {
return err
}
seed = hdSeed
}
if len(seed) < hdkeychain.MinSeedBytes ||
len(seed) > hdkeychain.MaxSeedBytes {
return hdkeychain.ErrInvalidSeedLen
}
// Create the address manager.
addrMgrNamespace, err := db.Namespace(waddrmgrNamespaceKey)
if err != nil {
return err
}
err = waddrmgr.Create(addrMgrNamespace, seed, pubPass, privPass,
params, nil)
if err != nil {
return err
}
// Create empty transaction manager.
txMgrNamespace, err := db.Namespace(wtxmgrNamespaceKey)
if err != nil {
return err
}
return wtxmgr.Create(txMgrNamespace)
}
// Open loads an already-created wallet from the passed database and namespaces.
func Open(db walletdb.DB, pubPass []byte, cbs *waddrmgr.OpenCallbacks, params *chaincfg.Params) (*Wallet, error) {
addrMgrNS, err := db.Namespace(waddrmgrNamespaceKey)
if err != nil {
return nil, err
}
txMgrNS, err := db.Namespace(wtxmgrNamespaceKey)
if err != nil {
return nil, err
}
addrMgr, err := waddrmgr.Open(addrMgrNS, pubPass, params, cbs)
if err != nil {
return nil, err
}
noTxMgr, err := walletdb.NamespaceIsEmpty(txMgrNS)
if err != nil {
return nil, err
}
if noTxMgr {
log.Info("No recorded transaction history -- needs full rescan")
err = addrMgr.SetSyncedTo(nil)
if err != nil {
return nil, err
}
err = wtxmgr.Create(txMgrNS)
if err != nil {
return nil, err
}
}
txMgr, err := wtxmgr.Open(txMgrNS, params)
if err != nil {
return nil, err
}
log.Infof("Opened wallet") // TODO: log balance? last sync height?
w := &Wallet{
publicPassphrase: pubPass,
db: db,
Manager: addrMgr,
TxStore: txMgr,
lockedOutpoints: map[wire.OutPoint]struct{}{},
relayFee: txrules.DefaultRelayFeePerKb,
rescanAddJob: make(chan *RescanJob),
rescanBatch: make(chan *rescanBatch),
rescanNotifications: make(chan interface{}),
rescanProgress: make(chan *RescanProgressMsg),
rescanFinished: make(chan *RescanFinishedMsg),
createTxRequests: make(chan createTxRequest),
unlockRequests: make(chan unlockRequest),
lockRequests: make(chan struct{}),
holdUnlockRequests: make(chan chan HeldUnlock),
lockState: make(chan bool),
changePassphrase: make(chan changePassphraseRequest),
chainParams: params,
quit: make(chan struct{}),
}
w.NtfnServer = newNotificationServer(w)
w.TxStore.NotifyUnspent = func(hash *chainhash.Hash, index uint32) {
w.NtfnServer.notifyUnspentOutput(0, hash, index)
}
return w, nil
}