// This example demonstrates extracting information from a standard public key
// script.
func ExampleExtractPkScriptAddrs() {
// Start with a standard pay-to-pubkey-hash script.
scriptHex := "76a914128004ff2fcaf13b2b91eb654b1dc2b674f7ec6188ac"
script, err := hex.DecodeString(scriptHex)
if err != nil {
fmt.Println(err)
return
}
// Extract and print details from the script.
scriptClass, addresses, reqSigs, err := txscript.ExtractPkScriptAddrs(
script, &chaincfg.MainNetParams)
if err != nil {
fmt.Println(err)
return
}
fmt.Println("Script Class:", scriptClass)
fmt.Println("Addresses:", addresses)
fmt.Println("Required Signatures:", reqSigs)
// Output:
// Script Class: pubkeyhash
// Addresses: [12gpXQVcCL2qhTNQgyLVdCFG2Qs2px98nV]
// Required Signatures: 1
}
// signMultiSigUTXO signs the P2SH UTXO with the given index by constructing a
// script containing all given signatures plus the redeem (multi-sig) script. The
// redeem script is obtained by looking up the address of the given P2SH pkScript
// on the address manager.
// The order of the signatures must match that of the public keys in the multi-sig
// script as OP_CHECKMULTISIG expects that.
// This function must be called with the manager unlocked.
func signMultiSigUTXO(mgr *waddrmgr.Manager, tx *wire.MsgTx, idx int, pkScript []byte, sigs []RawSig) error {
class, addresses, _, err := txscript.ExtractPkScriptAddrs(pkScript, mgr.ChainParams())
if err != nil {
return newError(ErrTxSigning, "unparseable pkScript", err)
}
if class != txscript.ScriptHashTy {
return newError(ErrTxSigning, fmt.Sprintf("pkScript is not P2SH: %s", class), nil)
}
redeemScript, err := getRedeemScript(mgr, addresses[0].(*coinutil.AddressScriptHash))
if err != nil {
return newError(ErrTxSigning, "unable to retrieve redeem script", err)
}
class, _, nRequired, err := txscript.ExtractPkScriptAddrs(redeemScript, mgr.ChainParams())
if err != nil {
return newError(ErrTxSigning, "unparseable redeem script", err)
}
if class != txscript.MultiSigTy {
return newError(ErrTxSigning, fmt.Sprintf("redeem script is not multi-sig: %v", class), nil)
}
if len(sigs) < nRequired {
errStr := fmt.Sprintf("not enough signatures; need %d but got only %d", nRequired,
len(sigs))
return newError(ErrTxSigning, errStr, nil)
}
// Construct the unlocking script.
// Start with an OP_0 because of the bug in bitcoind, then add nRequired signatures.
unlockingScript := txscript.NewScriptBuilder().AddOp(txscript.OP_FALSE)
for _, sig := range sigs[:nRequired] {
unlockingScript.AddData(sig)
}
// Combine the redeem script and the unlocking script to get the actual signature script.
sigScript := unlockingScript.AddData(redeemScript)
script, err := sigScript.Script()
if err != nil {
return newError(ErrTxSigning, "error building sigscript", err)
}
tx.TxIn[idx].SignatureScript = script
if err := validateSigScript(tx, idx, pkScript); err != nil {
return err
}
return nil
}
func (w *Wallet) findEligibleOutputs(account uint32, minconf int32, bs *waddrmgr.BlockStamp) ([]wtxmgr.Credit, error) {
unspent, err := w.TxStore.UnspentOutputs()
if err != nil {
return nil, err
}
// TODO: Eventually all of these filters (except perhaps output locking)
// should be handled by the call to UnspentOutputs (or similar).
// Because one of these filters requires matching the output script to
// the desired account, this change depends on making wtxmgr a waddrmgr
// dependancy and requesting unspent outputs for a single account.
eligible := make([]wtxmgr.Credit, 0, len(unspent))
for i := range unspent {
output := &unspent[i]
// Only include this output if it meets the required number of
// confirmations. Coinbase transactions must have have reached
// maturity before their outputs may be spent.
if !confirmed(minconf, output.Height, bs.Height) {
continue
}
if output.FromCoinBase {
const target = blockchain.CoinbaseMaturity
if !confirmed(target, output.Height, bs.Height) {
continue
}
}
// Locked unspent outputs are skipped.
if w.LockedOutpoint(output.OutPoint) {
continue
}
// Filter out unspendable outputs, that is, remove those that
// (at this time) are not P2PKH outputs. Other inputs must be
// manually included in transactions and sent (for example,
// using createrawtransaction, signrawtransaction, and
// sendrawtransaction).
class, addrs, _, err := txscript.ExtractPkScriptAddrs(
output.PkScript, w.chainParams)
if err != nil || class != txscript.PubKeyHashTy {
continue
}
// Only include the output if it is associated with the passed
// account. There should only be one address since this is a
// P2PKH script.
addrAcct, err := w.Manager.AddrAccount(addrs[0])
if err != nil || addrAcct != account {
continue
}
eligible = append(eligible, *output)
}
return eligible, nil
}
// removeScriptFromAddrIndex dissociates the address encoded by the
// passed pkScript from the passed tx in our address based tx index.
//
// This function MUST be called with the mempool lock held (for writes).
func (mp *txMemPool) removeScriptFromAddrIndex(pkScript []byte, tx *coinutil.Tx) error {
_, addresses, _, err := txscript.ExtractPkScriptAddrs(pkScript,
activeNetParams.Params)
if err != nil {
txmpLog.Errorf("Unable to extract encoded addresses from script "+
"for addrindex (addrindex): %v", err)
return err
}
for _, addr := range addresses {
delete(mp.addrindex[addr.EncodeAddress()], *tx.Sha())
}
return nil
}
// indexScriptByAddress alters our address index by indexing the payment address
// encoded by the passed scriptPubKey to the passed transaction.
//
// This function MUST be called with the mempool lock held (for writes).
func (mp *txMemPool) indexScriptAddressToTx(pkScript []byte, tx *coinutil.Tx) error {
_, addresses, _, err := txscript.ExtractPkScriptAddrs(pkScript,
activeNetParams.Params)
if err != nil {
txmpLog.Errorf("Unable to extract encoded addresses from script "+
"for addrindex: %v", err)
return err
}
for _, addr := range addresses {
if mp.addrindex[addr.EncodeAddress()] == nil {
mp.addrindex[addr.EncodeAddress()] = make(map[wire.ShaHash]struct{})
}
mp.addrindex[addr.EncodeAddress()][*tx.Sha()] = struct{}{}
}
return nil
}
// 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].(*coinutil.AddressPubKeyHash)
if !ok {
continue
}
_, ok = pkHashes[string(apkh.ScriptAddress())]
if !ok {
continue
}
jsonResults := ListTransactions(detail,
syncBlock.Height, w.chainParams)
if err != nil {
return false, err
}
txList = append(txList, jsonResults...)
continue loopDetails
}
}
return false, nil
})
return txList, err
}
// signMsgTx sets the SignatureScript for every item in msgtx.TxIn.
// It must be called every time a msgtx is changed.
// Only P2PKH outputs are supported at this point.
func signMsgTx(msgtx *wire.MsgTx, prevOutputs []wtxmgr.Credit, mgr *waddrmgr.Manager, chainParams *chaincfg.Params) error {
if len(prevOutputs) != len(msgtx.TxIn) {
return fmt.Errorf(
"Number of prevOutputs (%d) does not match number of tx inputs (%d)",
len(prevOutputs), len(msgtx.TxIn))
}
for i, output := range prevOutputs {
// Errors don't matter here, as we only consider the
// case where len(addrs) == 1.
_, addrs, _, _ := txscript.ExtractPkScriptAddrs(output.PkScript,
chainParams)
if len(addrs) != 1 {
continue
}
apkh, ok := addrs[0].(*coinutil.AddressPubKeyHash)
if !ok {
return ErrUnsupportedTransactionType
}
ai, err := mgr.Address(apkh)
if err != nil {
return fmt.Errorf("cannot get address info: %v", err)
}
pka := ai.(waddrmgr.ManagedPubKeyAddress)
privkey, err := pka.PrivKey()
if err != nil {
return fmt.Errorf("cannot get private key: %v", err)
}
sigscript, err := txscript.SignatureScript(msgtx, i,
output.PkScript, txscript.SigHashAll, privkey,
ai.Compressed())
if err != nil {
return fmt.Errorf("cannot create sigscript: %s", err)
}
msgtx.TxIn[i].SignatureScript = sigscript
}
return nil
}
// 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 coinutil.Address, minConf int32) (coinutil.Amount, error) {
syncBlock := w.Manager.SyncedTo()
var (
addrStr = addr.EncodeAddress()
amount coinutil.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
}
// groupCreditsByAddr converts a slice of credits to a map from the string
// representation of an encoded address to the unspent outputs associated with
// that address.
func groupCreditsByAddr(credits []wtxmgr.Credit, chainParams *chaincfg.Params) (
map[string][]wtxmgr.Credit, error) {
addrMap := make(map[string][]wtxmgr.Credit)
for _, c := range credits {
_, addrs, _, err := txscript.ExtractPkScriptAddrs(c.PkScript, chainParams)
if err != nil {
return nil, newError(ErrInputSelection, "failed to obtain input address", err)
}
// As our credits are all P2SH we should never have more than one
// address per credit, so let's error out if that assumption is
// violated.
if len(addrs) != 1 {
return nil, newError(ErrInputSelection, "input doesn't have exactly one address", nil)
}
encAddr := addrs[0].EncodeAddress()
if v, ok := addrMap[encAddr]; ok {
addrMap[encAddr] = append(v, c)
} else {
addrMap[encAddr] = []wtxmgr.Credit{c}
}
}
return addrMap, nil
}
// CalculateAccountBalance sums the amounts of all unspent transaction
// outputs to the given account of a wallet and returns the balance.
func (w *Wallet) CalculateAccountBalance(account uint32, confirms int32) (coinutil.Amount, error) {
var bal coinutil.Amount
// 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 0, err
}
for i := range unspent {
output := &unspent[i]
if !confirmed(confirms, output.Height, syncBlock.Height) {
continue
}
if output.FromCoinBase {
const target = blockchain.CoinbaseMaturity
if !confirmed(target, output.Height, syncBlock.Height) {
continue
}
}
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 {
bal += output.Amount
}
}
return bal, nil
}
// 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) (coinutil.Amount, int32, error) {
syncBlock := w.Manager.SyncedTo()
var (
amount coinutil.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
}
// testAddrIndexOperations ensures that all normal operations concerning
// the optional address index function correctly.
func testAddrIndexOperations(t *testing.T, db database.Db, newestBlock *coinutil.Block, newestSha *wire.ShaHash, newestBlockIdx int32) {
// Metadata about the current addr index state should be unset.
sha, height, err := db.FetchAddrIndexTip()
if err != database.ErrAddrIndexDoesNotExist {
t.Fatalf("Address index metadata shouldn't be in db, hasn't been built up yet.")
}
var zeroHash wire.ShaHash
if !sha.IsEqual(&zeroHash) {
t.Fatalf("AddrIndexTip wrong hash got: %s, want %s", sha, &zeroHash)
}
if height != -1 {
t.Fatalf("Addrindex not built up, yet a block index tip has been set to: %d.", height)
}
// Test enforcement of constraints for "limit" and "skip"
var fakeAddr coinutil.Address
_, _, err = db.FetchTxsForAddr(fakeAddr, -1, 0, false)
if err == nil {
t.Fatalf("Negative value for skip passed, should return an error")
}
_, _, err = db.FetchTxsForAddr(fakeAddr, 0, -1, false)
if err == nil {
t.Fatalf("Negative value for limit passed, should return an error")
}
// Simple test to index outputs(s) of the first tx.
testIndex := make(database.BlockAddrIndex)
testTx, err := newestBlock.Tx(0)
if err != nil {
t.Fatalf("Block has no transactions, unable to test addr "+
"indexing, err %v", err)
}
// Extract the dest addr from the tx.
_, testAddrs, _, err := txscript.ExtractPkScriptAddrs(testTx.MsgTx().TxOut[0].PkScript, &chaincfg.MainNetParams)
if err != nil {
t.Fatalf("Unable to decode tx output, err %v", err)
}
// Extract the hash160 from the output script.
var hash160Bytes [ripemd160.Size]byte
testHash160 := testAddrs[0].(*coinutil.AddressPubKey).AddressPubKeyHash().ScriptAddress()
copy(hash160Bytes[:], testHash160[:])
// Create a fake index.
blktxLoc, _ := newestBlock.TxLoc()
testIndex[hash160Bytes] = []*wire.TxLoc{&blktxLoc[0]}
// Insert our test addr index into the DB.
err = db.UpdateAddrIndexForBlock(newestSha, newestBlockIdx, testIndex)
if err != nil {
t.Fatalf("UpdateAddrIndexForBlock: failed to index"+
" addrs for block #%d (%s) "+
"err %v", newestBlockIdx, newestSha, err)
}
// Chain Tip of address should've been updated.
assertAddrIndexTipIsUpdated(db, t, newestSha, newestBlockIdx)
// Check index retrieval.
txReplies, _, err := db.FetchTxsForAddr(testAddrs[0], 0, 1000, false)
if err != nil {
t.Fatalf("FetchTxsForAddr failed to correctly fetch txs for an "+
"address, err %v", err)
}
// Should have one reply.
if len(txReplies) != 1 {
t.Fatalf("Failed to properly index tx by address.")
}
// Our test tx and indexed tx should have the same sha.
indexedTx := txReplies[0]
if !bytes.Equal(indexedTx.Sha.Bytes(), testTx.Sha().Bytes()) {
t.Fatalf("Failed to fetch proper indexed tx. Expected sha %v, "+
"fetched %v", testTx.Sha(), indexedTx.Sha)
}
// Shut down DB.
db.Sync()
db.Close()
// Re-Open, tip still should be updated to current height and sha.
db, err = database.OpenDB("leveldb", "tstdbopmode")
if err != nil {
t.Fatalf("Unable to re-open created db, err %v", err)
}
assertAddrIndexTipIsUpdated(db, t, newestSha, newestBlockIdx)
// Delete the entire index.
err = db.DeleteAddrIndex()
if err != nil {
t.Fatalf("Couldn't delete address index, err %v", err)
}
// Former index should no longer exist.
txReplies, _, err = db.FetchTxsForAddr(testAddrs[0], 0, 1000, false)
if err != nil {
t.Fatalf("Unable to fetch transactions for address: %v", err)
}
if len(txReplies) != 0 {
t.Fatalf("Address index was not successfully deleted. "+
"Should have 0 tx's indexed, %v were returned.",
len(txReplies))
}
// Tip should be blanked out.
if _, _, err := db.FetchAddrIndexTip(); err != database.ErrAddrIndexDoesNotExist {
t.Fatalf("Address index was not fully deleted.")
}
}
// TestExtractPkScriptAddrs ensures that extracting the type, addresses, and
// number of required signatures from PkScripts works as intended.
func TestExtractPkScriptAddrs(t *testing.T) {
t.Parallel()
tests := []struct {
name string
script []byte
addrs []coinutil.Address
reqSigs int
class txscript.ScriptClass
}{
{
name: "standard p2pk with compressed pubkey (0x02)",
script: decodeHex("2102192d74d0cb94344c9569c2e7790157" +
"3d8d7903c3ebec3a957724895dca52c6b4ac"),
addrs: []coinutil.Address{
newAddressPubKey(decodeHex("02192d74d0cb94344" +
"c9569c2e77901573d8d7903c3ebec3a95772" +
"4895dca52c6b4")),
},
reqSigs: 1,
class: txscript.PubKeyTy,
},
{
name: "standard p2pk with uncompressed pubkey (0x04)",
script: decodeHex("410411db93e1dcdb8a016b49840f8c53bc" +
"1eb68a382e97b1482ecad7b148a6909a5cb2e0eaddfb" +
"84ccf9744464f82e160bfa9b8b64f9d4c03f999b8643" +
"f656b412a3ac"),
addrs: []coinutil.Address{
newAddressPubKey(decodeHex("0411db93e1dcdb8a0" +
"16b49840f8c53bc1eb68a382e97b1482ecad" +
"7b148a6909a5cb2e0eaddfb84ccf9744464f" +
"82e160bfa9b8b64f9d4c03f999b8643f656b" +
"412a3")),
},
reqSigs: 1,
class: txscript.PubKeyTy,
},
{
name: "standard p2pk with hybrid pubkey (0x06)",
script: decodeHex("4106192d74d0cb94344c9569c2e7790157" +
"3d8d7903c3ebec3a957724895dca52c6b40d45264838" +
"c0bd96852662ce6a847b197376830160c6d2eb5e6a4c" +
"44d33f453eac"),
addrs: []coinutil.Address{
newAddressPubKey(decodeHex("06192d74d0cb94344" +
"c9569c2e77901573d8d7903c3ebec3a95772" +
"4895dca52c6b40d45264838c0bd96852662c" +
"e6a847b197376830160c6d2eb5e6a4c44d33" +
"f453e")),
},
reqSigs: 1,
class: txscript.PubKeyTy,
},
{
name: "standard p2pk with compressed pubkey (0x03)",
script: decodeHex("2103b0bd634234abbb1ba1e986e884185c" +
"61cf43e001f9137f23c2c409273eb16e65ac"),
addrs: []coinutil.Address{
newAddressPubKey(decodeHex("03b0bd634234abbb1" +
"ba1e986e884185c61cf43e001f9137f23c2c" +
"409273eb16e65")),
},
reqSigs: 1,
class: txscript.PubKeyTy,
},
{
name: "2nd standard p2pk with uncompressed pubkey (0x04)",
script: decodeHex("4104b0bd634234abbb1ba1e986e884185c" +
"61cf43e001f9137f23c2c409273eb16e6537a576782e" +
"ba668a7ef8bd3b3cfb1edb7117ab65129b8a2e681f3c" +
"1e0908ef7bac"),
addrs: []coinutil.Address{
newAddressPubKey(decodeHex("04b0bd634234abbb1" +
"ba1e986e884185c61cf43e001f9137f23c2c" +
"409273eb16e6537a576782eba668a7ef8bd3" +
"b3cfb1edb7117ab65129b8a2e681f3c1e090" +
"8ef7b")),
},
reqSigs: 1,
class: txscript.PubKeyTy,
},
{
name: "standard p2pk with hybrid pubkey (0x07)",
script: decodeHex("4107b0bd634234abbb1ba1e986e884185c" +
"61cf43e001f9137f23c2c409273eb16e6537a576782e" +
"ba668a7ef8bd3b3cfb1edb7117ab65129b8a2e681f3c" +
"1e0908ef7bac"),
addrs: []coinutil.Address{
newAddressPubKey(decodeHex("07b0bd634234abbb1" +
"ba1e986e884185c61cf43e001f9137f23c2c" +
"409273eb16e6537a576782eba668a7ef8bd3" +
"b3cfb1edb7117ab65129b8a2e681f3c1e090" +
"8ef7b")),
},
reqSigs: 1,
class: txscript.PubKeyTy,
},
{
name: "standard p2pkh",
script: decodeHex("76a914ad06dd6ddee55cbca9a9e3713bd7" +
"587509a3056488ac"),
addrs: []coinutil.Address{
newAddressPubKeyHash(decodeHex("ad06dd6ddee55" +
"cbca9a9e3713bd7587509a30564")),
},
reqSigs: 1,
class: txscript.PubKeyHashTy,
},
{
name: "standard p2sh",
script: decodeHex("a91463bcc565f9e68ee0189dd5cc67f1b0" +
"e5f02f45cb87"),
addrs: []coinutil.Address{
newAddressScriptHash(decodeHex("63bcc565f9e68" +
"ee0189dd5cc67f1b0e5f02f45cb")),
},
reqSigs: 1,
class: txscript.ScriptHashTy,
},
// from real tx 60a20bd93aa49ab4b28d514ec10b06e1829ce6818ec06cd3aabd013ebcdc4bb1, vout 0
{
name: "standard 1 of 2 multisig",
script: decodeHex("514104cc71eb30d653c0c3163990c47b97" +
"6f3fb3f37cccdcbedb169a1dfef58bbfbfaff7d8a473" +
"e7e2e6d317b87bafe8bde97e3cf8f065dec022b51d11" +
"fcdd0d348ac4410461cbdcc5409fb4b4d42b51d33381" +
"354d80e550078cb532a34bfa2fcfdeb7d76519aecc62" +
"770f5b0e4ef8551946d8a540911abe3e7854a26f39f5" +
"8b25c15342af52ae"),
addrs: []coinutil.Address{
newAddressPubKey(decodeHex("04cc71eb30d653c0c" +
"3163990c47b976f3fb3f37cccdcbedb169a1" +
"dfef58bbfbfaff7d8a473e7e2e6d317b87ba" +
"fe8bde97e3cf8f065dec022b51d11fcdd0d3" +
"48ac4")),
newAddressPubKey(decodeHex("0461cbdcc5409fb4b" +
"4d42b51d33381354d80e550078cb532a34bf" +
"a2fcfdeb7d76519aecc62770f5b0e4ef8551" +
"946d8a540911abe3e7854a26f39f58b25c15" +
"342af")),
},
reqSigs: 1,
class: txscript.MultiSigTy,
},
// from real tx d646f82bd5fbdb94a36872ce460f97662b80c3050ad3209bef9d1e398ea277ab, vin 1
{
name: "standard 2 of 3 multisig",
script: decodeHex("524104cb9c3c222c5f7a7d3b9bd152f363" +
"a0b6d54c9eb312c4d4f9af1e8551b6c421a6a4ab0e29" +
"105f24de20ff463c1c91fcf3bf662cdde4783d4799f7" +
"87cb7c08869b4104ccc588420deeebea22a7e900cc8b" +
"68620d2212c374604e3487ca08f1ff3ae12bdc639514" +
"d0ec8612a2d3c519f084d9a00cbbe3b53d071e9b09e7" +
"1e610b036aa24104ab47ad1939edcb3db65f7fedea62" +
"bbf781c5410d3f22a7a3a56ffefb2238af8627363bdf" +
"2ed97c1f89784a1aecdb43384f11d2acc64443c7fc29" +
"9cef0400421a53ae"),
addrs: []coinutil.Address{
newAddressPubKey(decodeHex("04cb9c3c222c5f7a7" +
"d3b9bd152f363a0b6d54c9eb312c4d4f9af1" +
"e8551b6c421a6a4ab0e29105f24de20ff463" +
"c1c91fcf3bf662cdde4783d4799f787cb7c0" +
"8869b")),
newAddressPubKey(decodeHex("04ccc588420deeebe" +
"a22a7e900cc8b68620d2212c374604e3487c" +
"a08f1ff3ae12bdc639514d0ec8612a2d3c51" +
"9f084d9a00cbbe3b53d071e9b09e71e610b0" +
"36aa2")),
newAddressPubKey(decodeHex("04ab47ad1939edcb3" +
"db65f7fedea62bbf781c5410d3f22a7a3a56" +
"ffefb2238af8627363bdf2ed97c1f89784a1" +
"aecdb43384f11d2acc64443c7fc299cef040" +
"0421a")),
},
reqSigs: 2,
class: txscript.MultiSigTy,
},
// The below are nonstandard script due to things such as
// invalid pubkeys, failure to parse, and not being of a
// standard form.
{
name: "p2pk with uncompressed pk missing OP_CHECKSIG",
script: decodeHex("410411db93e1dcdb8a016b49840f8c53bc" +
"1eb68a382e97b1482ecad7b148a6909a5cb2e0eaddfb" +
"84ccf9744464f82e160bfa9b8b64f9d4c03f999b8643" +
"f656b412a3"),
addrs: nil,
reqSigs: 0,
class: txscript.NonStandardTy,
},
{
name: "valid signature from a sigscript - no addresses",
script: decodeHex("47304402204e45e16932b8af514961a1d3" +
"a1a25fdf3f4f7732e9d624c6c61548ab5fb8cd410220" +
"181522ec8eca07de4860a4acdd12909d831cc56cbbac" +
"4622082221a8768d1d0901"),
addrs: nil,
reqSigs: 0,
class: txscript.NonStandardTy,
},
// Note the technically the pubkey is the second item on the
// stack, but since the address extraction intentionally only
// works with standard PkScripts, this should not return any
// addresses.
{
name: "valid sigscript to reedeem p2pk - no addresses",
script: decodeHex("493046022100ddc69738bf2336318e4e04" +
"1a5a77f305da87428ab1606f023260017854350ddc02" +
"2100817af09d2eec36862d16009852b7e3a0f6dd7659" +
"8290b7834e1453660367e07a014104cd4240c198e125" +
"23b6f9cb9f5bed06de1ba37e96a1bbd13745fcf9d11c" +
"25b1dff9a519675d198804ba9962d3eca2d5937d58e5" +
"a75a71042d40388a4d307f887d"),
addrs: nil,
reqSigs: 0,
class: txscript.NonStandardTy,
},
// from real tx 691dd277dc0e90a462a3d652a1171686de49cf19067cd33c7df0392833fb986a, vout 0
// invalid public keys
{
name: "1 of 3 multisig with invalid pubkeys",
script: decodeHex("51411c2200007353455857696b696c6561" +
"6b73204361626c6567617465204261636b75700a0a63" +
"61626c65676174652d3230313031323034313831312e" +
"377a0a0a446f41776e6c6f61642074686520666f6c6c" +
"6f77696e67207472616e73616374696f6e7320776974" +
"68205361746f736869204e616b616d6f746f27732064" +
"6f776e6c6f61416420746f6f6c2077686963680a6361" +
"6e20626520666f756e6420696e207472616e73616374" +
"696f6e20366335336364393837313139656637393764" +
"35616463636453ae"),
addrs: []coinutil.Address{},
reqSigs: 1,
class: txscript.MultiSigTy,
},
// from real tx: 691dd277dc0e90a462a3d652a1171686de49cf19067cd33c7df0392833fb986a, vout 44
// invalid public keys
{
name: "1 of 3 multisig with invalid pubkeys 2",
script: decodeHex("5141346333656332353963373464616365" +
"36666430383862343463656638630a63363662633139" +
"39366338623934613338313162333635363138666531" +
"65396231623541366361636365393933613339383861" +
"34363966636336643664616266640a32363633636661" +
"39636634633033633630396335393363336539316665" +
"64653730323921313233646434326432353633396433" +
"38613663663530616234636434340a00000053ae"),
addrs: []coinutil.Address{},
reqSigs: 1,
class: txscript.MultiSigTy,
},
{
name: "empty script",
script: []byte{},
addrs: nil,
reqSigs: 0,
class: txscript.NonStandardTy,
},
{
name: "script that does not parse",
script: []byte{txscript.OP_DATA_45},
addrs: nil,
reqSigs: 0,
class: txscript.NonStandardTy,
},
}
t.Logf("Running %d tests.", len(tests))
for i, test := range tests {
class, addrs, reqSigs, err := txscript.ExtractPkScriptAddrs(
test.script, &chaincfg.MainNetParams)
if err != nil {
}
if !reflect.DeepEqual(addrs, test.addrs) {
t.Errorf("ExtractPkScriptAddrs #%d (%s) unexpected "+
"addresses\ngot %v\nwant %v", i, test.name,
addrs, test.addrs)
continue
}
if reqSigs != test.reqSigs {
t.Errorf("ExtractPkScriptAddrs #%d (%s) unexpected "+
"number of required signatures - got %d, "+
"want %d", i, test.name, reqSigs, test.reqSigs)
continue
}
if class != test.class {
t.Errorf("ExtractPkScriptAddrs #%d (%s) unexpected "+
"script type - got %s, want %s", i, test.name,
class, test.class)
continue
}
}
}
// ListTransactions creates a object that may be marshalled to a response result
// for a listtransactions RPC.
//
// TODO: This should be moved out of this package into the main package's
// rpcserver.go, along with everything that requires this.
func ListTransactions(details *wtxmgr.TxDetails, 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).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 coinutil.Amount
for _, deb := range details.Debits {
debitTotal += deb.Amount
}
var outputTotal coinutil.Amount
for _, output := range details.MsgTx.TxOut {
outputTotal += coinutil.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
_, addrs, _, _ := txscript.ExtractPkScriptAddrs(output.PkScript, net)
if len(addrs) == 1 {
address = addrs[0].EncodeAddress()
}
amountF64 := coinutil.Amount(output.Value).ToBTC()
result := btcjson.ListTransactionsResult{
// Fields left zeroed:
// InvolvesWatchOnly
// Account
// BlockIndex
//
// Fields set below:
// 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.Category = recvCat
result.Amount = amountF64
result.Fee = nil
results = append(results, result)
}
}
return results
}
// 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 {
const target = blockchain.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
}
func (w *Wallet) addRelevantTx(rec *wtxmgr.TxRecord, block *wtxmgr.BlockMeta) error {
// TODO: The transaction store and address manager need to be updated
// together, but each operate under different namespaces and are changed
// under new transactions. This is not error safe as we lose
// transaction semantics.
//
// I'm unsure of the best way to solve this. Some possible solutions
// and drawbacks:
//
// 1. Open write transactions here and pass the handle to every
// waddrmr and wtxmgr method. This complicates the caller code
// everywhere, however.
//
// 2. Move the wtxmgr namespace into the waddrmgr namespace, likely
// under its own bucket. This entire function can then be moved
// into the waddrmgr package, which updates the nested wtxmgr.
// This removes some of separation between the components.
//
// 3. Use multiple wtxmgrs, one for each account, nested in the
// waddrmgr namespace. This still provides some sort of logical
// separation (transaction handling remains in another package, and
// is simply used by waddrmgr), but may result in duplicate
// transactions being saved if they are relevant to multiple
// accounts.
//
// 4. Store wtxmgr-related details under the waddrmgr namespace, but
// solve the drawback of #3 by splitting wtxmgr to save entire
// transaction records globally for all accounts, with
// credit/debit/balance tracking per account. Each account would
// also save the relevant transaction hashes and block incidence so
// the full transaction can be loaded from the waddrmgr
// transactions bucket. This currently seems like the best
// solution.
// At the moment all notified transactions are assumed to actually be
// relevant. This assumption will not hold true when SPV support is
// added, but until then, simply insert the transaction because there
// should either be one or more relevant inputs or outputs.
err := w.TxStore.InsertTx(rec, block)
if err != nil {
return err
}
// Check every output to determine whether it is controlled by a wallet
// key. If so, mark the output as a credit.
for i, output := range rec.MsgTx.TxOut {
_, addrs, _, err := txscript.ExtractPkScriptAddrs(output.PkScript,
w.chainParams)
if err != nil {
// Non-standard outputs are skipped.
continue
}
for _, addr := range addrs {
ma, err := w.Manager.Address(addr)
if err == nil {
// TODO: Credits should be added with the
// account they belong to, so wtxmgr is able to
// track per-account balances.
err = w.TxStore.AddCredit(rec, block, uint32(i),
ma.Internal())
if err != nil {
return err
}
err = w.Manager.MarkUsed(addr)
if err != nil {
return err
}
log.Debugf("Marked address %v used", addr)
continue
}
// Missing addresses are skipped. Other errors should
// be propagated.
if !waddrmgr.IsError(err, waddrmgr.ErrAddressNotFound) {
return err
}
}
}
// TODO: Notify connected clients of the added transaction.
bs, err := w.chainSvr.BlockStamp()
if err == nil {
w.notifyBalances(bs.Height)
}
return nil
}