lbcwallet/wtxmgr/tx.go

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// Copyright (c) 2013-2017 The btcsuite developers
// Copyright (c) 2015-2016 The Decred developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
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package wtxmgr
import (
"bytes"
"encoding/binary"
"errors"
"fmt"
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"time"
"github.com/btcsuite/btcd/blockchain"
"github.com/btcsuite/btcd/chaincfg"
"github.com/btcsuite/btcd/chaincfg/chainhash"
"github.com/btcsuite/btcd/wire"
"github.com/btcsuite/btcutil"
"github.com/btcsuite/btcwallet/walletdb"
"github.com/lightningnetwork/lnd/clock"
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)
const (
// TxLabelLimit is the length limit we impose on transaction labels.
TxLabelLimit = 500
)
var (
// ErrEmptyLabel is returned when an attempt to write a label that is
// empty is made.
ErrEmptyLabel = errors.New("empty transaction label not allowed")
// ErrLabelTooLong is returned when an attempt to write a label that is
// to long is made.
ErrLabelTooLong = errors.New("transaction label exceeds limit")
// ErrNoLabelBucket is returned when the bucket holding optional
// transaction labels is not found. This occurs when no transactions
// have been labelled yet.
ErrNoLabelBucket = errors.New("labels bucket does not exist")
// ErrTxLabelNotFound is returned when no label is found for a
// transaction hash.
ErrTxLabelNotFound = errors.New("label for transaction not found")
// ErrUnknownOutput is an error returned when an output not known to the
// wallet is attempted to be locked.
ErrUnknownOutput = errors.New("unknown output")
// ErrOutputAlreadyLocked is an error returned when an output has
// already been locked to a different ID.
ErrOutputAlreadyLocked = errors.New("output already locked")
// ErrOutputUnlockNotAllowed is an error returned when an output unlock
// is attempted with a different ID than the one which locked it.
ErrOutputUnlockNotAllowed = errors.New("output unlock not alowed")
)
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// Block contains the minimum amount of data to uniquely identify any block on
// either the best or side chain.
type Block struct {
Hash chainhash.Hash
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Height int32
}
// BlockMeta contains the unique identification for a block and any metadata
// pertaining to the block. At the moment, this additional metadata only
// includes the block time from the block header.
type BlockMeta struct {
Block
Time time.Time
}
// blockRecord is an in-memory representation of the block record saved in the
// database.
type blockRecord struct {
Block
Time time.Time
transactions []chainhash.Hash
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}
// incidence records the block hash and blockchain height of a mined transaction.
// Since a transaction hash alone is not enough to uniquely identify a mined
// transaction (duplicate transaction hashes are allowed), the incidence is used
// instead.
type incidence struct {
txHash chainhash.Hash
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block Block
}
// indexedIncidence records the transaction incidence and an input or output
// index.
type indexedIncidence struct {
incidence
index uint32
}
// debit records the debits a transaction record makes from previous wallet
// transaction credits.
type debit struct {
txHash chainhash.Hash
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index uint32
amount btcutil.Amount
spends indexedIncidence
}
// credit describes a transaction output which was or is spendable by wallet.
type credit struct {
outPoint wire.OutPoint
block Block
amount btcutil.Amount
change bool
spentBy indexedIncidence // Index == ^uint32(0) if unspent
}
// TxRecord represents a transaction managed by the Store.
type TxRecord struct {
MsgTx wire.MsgTx
Hash chainhash.Hash
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Received time.Time
SerializedTx []byte // Optional: may be nil
}
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// LockedOutput is a type that contains an outpoint of an UTXO and its lock
// lease information.
type LockedOutput struct {
Outpoint wire.OutPoint
LockID LockID
Expiration time.Time
}
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// NewTxRecord creates a new transaction record that may be inserted into the
// store. It uses memoization to save the transaction hash and the serialized
// transaction.
func NewTxRecord(serializedTx []byte, received time.Time) (*TxRecord, error) {
rec := &TxRecord{
Received: received,
SerializedTx: serializedTx,
}
err := rec.MsgTx.Deserialize(bytes.NewReader(serializedTx))
if err != nil {
str := "failed to deserialize transaction"
return nil, storeError(ErrInput, str, err)
}
copy(rec.Hash[:], chainhash.DoubleHashB(serializedTx))
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return rec, nil
}
// NewTxRecordFromMsgTx creates a new transaction record that may be inserted
// into the store.
func NewTxRecordFromMsgTx(msgTx *wire.MsgTx, received time.Time) (*TxRecord, error) {
buf := bytes.NewBuffer(make([]byte, 0, msgTx.SerializeSize()))
err := msgTx.Serialize(buf)
if err != nil {
str := "failed to serialize transaction"
return nil, storeError(ErrInput, str, err)
}
rec := &TxRecord{
MsgTx: *msgTx,
Received: received,
SerializedTx: buf.Bytes(),
Hash: msgTx.TxHash(),
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}
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return rec, nil
}
// Credit is the type representing a transaction output which was spent or
// is still spendable by wallet. A UTXO is an unspent Credit, but not all
// Credits are UTXOs.
type Credit struct {
wire.OutPoint
BlockMeta
Amount btcutil.Amount
PkScript []byte
Received time.Time
FromCoinBase bool
}
// LockID represents a unique context-specific ID assigned to an output lock.
type LockID [32]byte
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// Store implements a transaction store for storing and managing wallet
// transactions.
type Store struct {
chainParams *chaincfg.Params
Modernize the RPC server. This is a rather monolithic commit that moves the old RPC server to its own package (rpc/legacyrpc), introduces a new RPC server using gRPC (rpc/rpcserver), and provides the ability to defer wallet loading until request at a later time by an RPC (--noinitialload). The legacy RPC server remains the default for now while the new gRPC server is not enabled by default. Enabling the new server requires setting a listen address (--experimenalrpclisten). This experimental flag is used to effectively feature gate the server until it is ready to use as a default. Both RPC servers can be run at the same time, but require binding to different listen addresses. In theory, with the legacy RPC server now living in its own package it should become much easier to unit test the handlers. This will be useful for any future changes to the package, as compatibility with Core's wallet is still desired. Type safety has also been improved in the legacy RPC server. Multiple handler types are now used for methods that do and do not require the RPC client as a dependency. This can statically help prevent nil pointer dereferences, and was very useful for catching bugs during refactoring. To synchronize the wallet loading process between the main package (the default) and through the gRPC WalletLoader service (with the --noinitialload option), as well as increasing the loose coupling of packages, a new wallet.Loader type has been added. All creating and loading of existing wallets is done through a single Loader instance, and callbacks can be attached to the instance to run after the wallet has been opened. This is how the legacy RPC server is associated with a loaded wallet, even after the wallet is loaded by a gRPC method in a completely unrelated package. Documentation for the new RPC server has been added to the rpc/documentation directory. The documentation includes a specification for the new RPC API, addresses how to make changes to the server implementation, and provides short example clients in several different languages. Some of the new RPC methods are not implementated exactly as described by the specification. These are considered bugs with the implementation, not the spec. Known bugs are commented as such.
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// clock is used to determine when outputs locks have expired.
clock clock.Clock
Modernize the RPC server. This is a rather monolithic commit that moves the old RPC server to its own package (rpc/legacyrpc), introduces a new RPC server using gRPC (rpc/rpcserver), and provides the ability to defer wallet loading until request at a later time by an RPC (--noinitialload). The legacy RPC server remains the default for now while the new gRPC server is not enabled by default. Enabling the new server requires setting a listen address (--experimenalrpclisten). This experimental flag is used to effectively feature gate the server until it is ready to use as a default. Both RPC servers can be run at the same time, but require binding to different listen addresses. In theory, with the legacy RPC server now living in its own package it should become much easier to unit test the handlers. This will be useful for any future changes to the package, as compatibility with Core's wallet is still desired. Type safety has also been improved in the legacy RPC server. Multiple handler types are now used for methods that do and do not require the RPC client as a dependency. This can statically help prevent nil pointer dereferences, and was very useful for catching bugs during refactoring. To synchronize the wallet loading process between the main package (the default) and through the gRPC WalletLoader service (with the --noinitialload option), as well as increasing the loose coupling of packages, a new wallet.Loader type has been added. All creating and loading of existing wallets is done through a single Loader instance, and callbacks can be attached to the instance to run after the wallet has been opened. This is how the legacy RPC server is associated with a loaded wallet, even after the wallet is loaded by a gRPC method in a completely unrelated package. Documentation for the new RPC server has been added to the rpc/documentation directory. The documentation includes a specification for the new RPC API, addresses how to make changes to the server implementation, and provides short example clients in several different languages. Some of the new RPC methods are not implementated exactly as described by the specification. These are considered bugs with the implementation, not the spec. Known bugs are commented as such.
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// Event callbacks. These execute in the same goroutine as the wtxmgr
// caller.
NotifyUnspent func(hash *chainhash.Hash, index uint32)
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}
// Open opens the wallet transaction store from a walletdb namespace. If the
// store does not exist, ErrNoExist is returned. `lockDuration` represents how
// long outputs are locked for.
func Open(ns walletdb.ReadBucket, chainParams *chaincfg.Params) (*Store, error) {
// Open the store.
err := openStore(ns)
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if err != nil {
return nil, err
}
s := &Store{chainParams, clock.NewDefaultClock(), nil} // TODO: set callbacks
return s, nil
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}
// Create creates a new persistent transaction store in the walletdb namespace.
// Creating the store when one already exists in this namespace will error with
// ErrAlreadyExists.
func Create(ns walletdb.ReadWriteBucket) error {
return createStore(ns)
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}
// updateMinedBalance updates the mined balance within the store, if changed,
// after processing the given transaction record.
func (s *Store) updateMinedBalance(ns walletdb.ReadWriteBucket, rec *TxRecord,
block *BlockMeta) error {
// Fetch the mined balance in case we need to update it.
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minedBalance, err := fetchMinedBalance(ns)
if err != nil {
return err
}
// Add a debit record for each unspent credit spent by this transaction.
// The index is set in each iteration below.
spender := indexedIncidence{
incidence: incidence{
txHash: rec.Hash,
block: block.Block,
},
}
newMinedBalance := minedBalance
for i, input := range rec.MsgTx.TxIn {
unspentKey, credKey := existsUnspent(ns, &input.PreviousOutPoint)
if credKey == nil {
// Debits for unmined transactions are not explicitly
// tracked. Instead, all previous outputs spent by any
// unmined transaction are added to a map for quick
// lookups when it must be checked whether a mined
// output is unspent or not.
//
// Tracking individual debits for unmined transactions
// could be added later to simplify (and increase
// performance of) determining some details that need
// the previous outputs (e.g. determining a fee), but at
// the moment that is not done (and a db lookup is used
// for those cases instead). There is also a good
// chance that all unmined transaction handling will
// move entirely to the db rather than being handled in
// memory for atomicity reasons, so the simplist
// implementation is currently used.
continue
}
// If this output is relevant to us, we'll mark the it as spent
// and remove its amount from the store.
spender.index = uint32(i)
amt, err := spendCredit(ns, credKey, &spender)
if err != nil {
return err
}
err = putDebit(
ns, &rec.Hash, uint32(i), amt, &block.Block, credKey,
)
if err != nil {
return err
}
if err := deleteRawUnspent(ns, unspentKey); err != nil {
return err
}
newMinedBalance -= amt
}
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// For each output of the record that is marked as a credit, if the
// output is marked as a credit by the unconfirmed store, remove the
// marker and mark the output as a credit in the db.
//
// Moved credits are added as unspents, even if there is another
// unconfirmed transaction which spends them.
cred := credit{
outPoint: wire.OutPoint{Hash: rec.Hash},
block: block.Block,
spentBy: indexedIncidence{index: ^uint32(0)},
}
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it := makeUnminedCreditIterator(ns, &rec.Hash)
for it.next() {
// TODO: This should use the raw apis. The credit value (it.cv)
// can be moved from unmined directly to the credits bucket.
// The key needs a modification to include the block
// height/hash.
index, err := fetchRawUnminedCreditIndex(it.ck)
if err != nil {
return err
}
amount, change, err := fetchRawUnminedCreditAmountChange(it.cv)
if err != nil {
return err
}
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cred.outPoint.Index = index
cred.amount = amount
cred.change = change
if err := putUnspentCredit(ns, &cred); err != nil {
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return err
}
err = putUnspent(ns, &cred.outPoint, &block.Block)
if err != nil {
return err
}
newMinedBalance += amount
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}
if it.err != nil {
return it.err
}
// Update the balance if it has changed.
if newMinedBalance != minedBalance {
return putMinedBalance(ns, newMinedBalance)
}
return nil
}
// deleteUnminedTx deletes an unmined transaction from the store.
//
// NOTE: This should only be used once the transaction has been mined.
func (s *Store) deleteUnminedTx(ns walletdb.ReadWriteBucket, rec *TxRecord) error {
for _, input := range rec.MsgTx.TxIn {
prevOut := input.PreviousOutPoint
k := canonicalOutPoint(&prevOut.Hash, prevOut.Index)
if err := deleteRawUnminedInput(ns, k, rec.Hash); err != nil {
return err
}
}
for i := range rec.MsgTx.TxOut {
k := canonicalOutPoint(&rec.Hash, uint32(i))
if err := deleteRawUnminedCredit(ns, k); err != nil {
return err
}
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}
return deleteRawUnmined(ns, rec.Hash[:])
}
// InsertTx records a transaction as belonging to a wallet's transaction
// history. If block is nil, the transaction is considered unspent, and the
// transaction's index must be unset.
func (s *Store) InsertTx(ns walletdb.ReadWriteBucket, rec *TxRecord, block *BlockMeta) error {
if block == nil {
return s.insertMemPoolTx(ns, rec)
}
return s.insertMinedTx(ns, rec, block)
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}
// RemoveUnminedTx attempts to remove an unmined transaction from the
// transaction store. This is to be used in the scenario that a transaction
// that we attempt to rebroadcast, turns out to double spend one of our
// existing inputs. This function we remove the conflicting transaction
// identified by the tx record, and also recursively remove all transactions
// that depend on it.
func (s *Store) RemoveUnminedTx(ns walletdb.ReadWriteBucket, rec *TxRecord) error {
// As we already have a tx record, we can directly call the
// removeConflict method. This will do the job of recursively removing
// this unmined transaction, and any transactions that depend on it.
return s.removeConflict(ns, rec)
}
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// insertMinedTx inserts a new transaction record for a mined transaction into
// the database under the confirmed bucket. It guarantees that, if the
// tranasction was previously unconfirmed, then it will take care of cleaning up
// the unconfirmed state. All other unconfirmed double spend attempts will be
// removed as well.
func (s *Store) insertMinedTx(ns walletdb.ReadWriteBucket, rec *TxRecord,
block *BlockMeta) error {
// If a transaction record for this hash and block already exists, we
// can exit early.
if _, v := existsTxRecord(ns, &rec.Hash, &block.Block); v != nil {
return nil
}
// If a block record does not yet exist for any transactions from this
// block, insert a block record first. Otherwise, update it by adding
// the transaction hash to the set of transactions from this block.
var err error
blockKey, blockValue := existsBlockRecord(ns, block.Height)
if blockValue == nil {
err = putBlockRecord(ns, block, &rec.Hash)
} else {
blockValue, err = appendRawBlockRecord(blockValue, &rec.Hash)
if err != nil {
return err
}
err = putRawBlockRecord(ns, blockKey, blockValue)
}
if err != nil {
return err
}
if err := putTxRecord(ns, rec, &block.Block); err != nil {
return err
}
// Determine if this transaction has affected our balance, and if so,
// update it.
if err := s.updateMinedBalance(ns, rec, block); err != nil {
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return err
}
// If this transaction previously existed within the store as unmined,
// we'll need to remove it from the unmined bucket.
if v := existsRawUnmined(ns, rec.Hash[:]); v != nil {
log.Infof("Marking unconfirmed transaction %v mined in block %d",
&rec.Hash, block.Height)
if err := s.deleteUnminedTx(ns, rec); err != nil {
return err
}
}
// As there may be unconfirmed transactions that are invalidated by this
// transaction (either being duplicates, or double spends), remove them
// from the unconfirmed set. This also handles removing unconfirmed
// transaction spend chains if any other unconfirmed transactions spend
// outputs of the removed double spend.
if err := s.removeDoubleSpends(ns, rec); err != nil {
return err
}
// Clear any locked outputs since we now have a confirmed spend for
// them, making them not eligible for coin selection anyway.
for _, txIn := range rec.MsgTx.TxIn {
if err := unlockOutput(ns, txIn.PreviousOutPoint); err != nil {
return err
}
}
return nil
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}
// AddCredit marks a transaction record as containing a transaction output
// spendable by wallet. The output is added unspent, and is marked spent
// when a new transaction spending the output is inserted into the store.
//
// TODO(jrick): This should not be necessary. Instead, pass the indexes
// that are known to contain credits when a transaction or merkleblock is
// inserted into the store.
func (s *Store) AddCredit(ns walletdb.ReadWriteBucket, rec *TxRecord, block *BlockMeta, index uint32, change bool) error {
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if int(index) >= len(rec.MsgTx.TxOut) {
str := "transaction output does not exist"
return storeError(ErrInput, str, nil)
}
isNew, err := s.addCredit(ns, rec, block, index, change)
Modernize the RPC server. This is a rather monolithic commit that moves the old RPC server to its own package (rpc/legacyrpc), introduces a new RPC server using gRPC (rpc/rpcserver), and provides the ability to defer wallet loading until request at a later time by an RPC (--noinitialload). The legacy RPC server remains the default for now while the new gRPC server is not enabled by default. Enabling the new server requires setting a listen address (--experimenalrpclisten). This experimental flag is used to effectively feature gate the server until it is ready to use as a default. Both RPC servers can be run at the same time, but require binding to different listen addresses. In theory, with the legacy RPC server now living in its own package it should become much easier to unit test the handlers. This will be useful for any future changes to the package, as compatibility with Core's wallet is still desired. Type safety has also been improved in the legacy RPC server. Multiple handler types are now used for methods that do and do not require the RPC client as a dependency. This can statically help prevent nil pointer dereferences, and was very useful for catching bugs during refactoring. To synchronize the wallet loading process between the main package (the default) and through the gRPC WalletLoader service (with the --noinitialload option), as well as increasing the loose coupling of packages, a new wallet.Loader type has been added. All creating and loading of existing wallets is done through a single Loader instance, and callbacks can be attached to the instance to run after the wallet has been opened. This is how the legacy RPC server is associated with a loaded wallet, even after the wallet is loaded by a gRPC method in a completely unrelated package. Documentation for the new RPC server has been added to the rpc/documentation directory. The documentation includes a specification for the new RPC API, addresses how to make changes to the server implementation, and provides short example clients in several different languages. Some of the new RPC methods are not implementated exactly as described by the specification. These are considered bugs with the implementation, not the spec. Known bugs are commented as such.
2015-06-01 21:57:50 +02:00
if err == nil && isNew && s.NotifyUnspent != nil {
s.NotifyUnspent(&rec.Hash, index)
}
return err
2015-04-06 21:18:04 +02:00
}
Modernize the RPC server. This is a rather monolithic commit that moves the old RPC server to its own package (rpc/legacyrpc), introduces a new RPC server using gRPC (rpc/rpcserver), and provides the ability to defer wallet loading until request at a later time by an RPC (--noinitialload). The legacy RPC server remains the default for now while the new gRPC server is not enabled by default. Enabling the new server requires setting a listen address (--experimenalrpclisten). This experimental flag is used to effectively feature gate the server until it is ready to use as a default. Both RPC servers can be run at the same time, but require binding to different listen addresses. In theory, with the legacy RPC server now living in its own package it should become much easier to unit test the handlers. This will be useful for any future changes to the package, as compatibility with Core's wallet is still desired. Type safety has also been improved in the legacy RPC server. Multiple handler types are now used for methods that do and do not require the RPC client as a dependency. This can statically help prevent nil pointer dereferences, and was very useful for catching bugs during refactoring. To synchronize the wallet loading process between the main package (the default) and through the gRPC WalletLoader service (with the --noinitialload option), as well as increasing the loose coupling of packages, a new wallet.Loader type has been added. All creating and loading of existing wallets is done through a single Loader instance, and callbacks can be attached to the instance to run after the wallet has been opened. This is how the legacy RPC server is associated with a loaded wallet, even after the wallet is loaded by a gRPC method in a completely unrelated package. Documentation for the new RPC server has been added to the rpc/documentation directory. The documentation includes a specification for the new RPC API, addresses how to make changes to the server implementation, and provides short example clients in several different languages. Some of the new RPC methods are not implementated exactly as described by the specification. These are considered bugs with the implementation, not the spec. Known bugs are commented as such.
2015-06-01 21:57:50 +02:00
// addCredit is an AddCredit helper that runs in an update transaction. The
// bool return specifies whether the unspent output is newly added (true) or a
// duplicate (false).
func (s *Store) addCredit(ns walletdb.ReadWriteBucket, rec *TxRecord, block *BlockMeta, index uint32, change bool) (bool, error) {
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if block == nil {
// If the outpoint that we should mark as credit already exists
// within the store, either as unconfirmed or confirmed, then we
// have nothing left to do and can exit.
2015-04-06 21:18:04 +02:00
k := canonicalOutPoint(&rec.Hash, index)
Modernize the RPC server. This is a rather monolithic commit that moves the old RPC server to its own package (rpc/legacyrpc), introduces a new RPC server using gRPC (rpc/rpcserver), and provides the ability to defer wallet loading until request at a later time by an RPC (--noinitialload). The legacy RPC server remains the default for now while the new gRPC server is not enabled by default. Enabling the new server requires setting a listen address (--experimenalrpclisten). This experimental flag is used to effectively feature gate the server until it is ready to use as a default. Both RPC servers can be run at the same time, but require binding to different listen addresses. In theory, with the legacy RPC server now living in its own package it should become much easier to unit test the handlers. This will be useful for any future changes to the package, as compatibility with Core's wallet is still desired. Type safety has also been improved in the legacy RPC server. Multiple handler types are now used for methods that do and do not require the RPC client as a dependency. This can statically help prevent nil pointer dereferences, and was very useful for catching bugs during refactoring. To synchronize the wallet loading process between the main package (the default) and through the gRPC WalletLoader service (with the --noinitialload option), as well as increasing the loose coupling of packages, a new wallet.Loader type has been added. All creating and loading of existing wallets is done through a single Loader instance, and callbacks can be attached to the instance to run after the wallet has been opened. This is how the legacy RPC server is associated with a loaded wallet, even after the wallet is loaded by a gRPC method in a completely unrelated package. Documentation for the new RPC server has been added to the rpc/documentation directory. The documentation includes a specification for the new RPC API, addresses how to make changes to the server implementation, and provides short example clients in several different languages. Some of the new RPC methods are not implementated exactly as described by the specification. These are considered bugs with the implementation, not the spec. Known bugs are commented as such.
2015-06-01 21:57:50 +02:00
if existsRawUnminedCredit(ns, k) != nil {
return false, nil
}
if _, tv := latestTxRecord(ns, &rec.Hash); tv != nil {
log.Tracef("Ignoring credit for existing confirmed transaction %v",
rec.Hash.String())
return false, nil
}
2015-04-06 21:18:04 +02:00
v := valueUnminedCredit(btcutil.Amount(rec.MsgTx.TxOut[index].Value), change)
Modernize the RPC server. This is a rather monolithic commit that moves the old RPC server to its own package (rpc/legacyrpc), introduces a new RPC server using gRPC (rpc/rpcserver), and provides the ability to defer wallet loading until request at a later time by an RPC (--noinitialload). The legacy RPC server remains the default for now while the new gRPC server is not enabled by default. Enabling the new server requires setting a listen address (--experimenalrpclisten). This experimental flag is used to effectively feature gate the server until it is ready to use as a default. Both RPC servers can be run at the same time, but require binding to different listen addresses. In theory, with the legacy RPC server now living in its own package it should become much easier to unit test the handlers. This will be useful for any future changes to the package, as compatibility with Core's wallet is still desired. Type safety has also been improved in the legacy RPC server. Multiple handler types are now used for methods that do and do not require the RPC client as a dependency. This can statically help prevent nil pointer dereferences, and was very useful for catching bugs during refactoring. To synchronize the wallet loading process between the main package (the default) and through the gRPC WalletLoader service (with the --noinitialload option), as well as increasing the loose coupling of packages, a new wallet.Loader type has been added. All creating and loading of existing wallets is done through a single Loader instance, and callbacks can be attached to the instance to run after the wallet has been opened. This is how the legacy RPC server is associated with a loaded wallet, even after the wallet is loaded by a gRPC method in a completely unrelated package. Documentation for the new RPC server has been added to the rpc/documentation directory. The documentation includes a specification for the new RPC API, addresses how to make changes to the server implementation, and provides short example clients in several different languages. Some of the new RPC methods are not implementated exactly as described by the specification. These are considered bugs with the implementation, not the spec. Known bugs are commented as such.
2015-06-01 21:57:50 +02:00
return true, putRawUnminedCredit(ns, k, v)
2015-04-06 21:18:04 +02:00
}
k, v := existsCredit(ns, &rec.Hash, index, &block.Block)
if v != nil {
Modernize the RPC server. This is a rather monolithic commit that moves the old RPC server to its own package (rpc/legacyrpc), introduces a new RPC server using gRPC (rpc/rpcserver), and provides the ability to defer wallet loading until request at a later time by an RPC (--noinitialload). The legacy RPC server remains the default for now while the new gRPC server is not enabled by default. Enabling the new server requires setting a listen address (--experimenalrpclisten). This experimental flag is used to effectively feature gate the server until it is ready to use as a default. Both RPC servers can be run at the same time, but require binding to different listen addresses. In theory, with the legacy RPC server now living in its own package it should become much easier to unit test the handlers. This will be useful for any future changes to the package, as compatibility with Core's wallet is still desired. Type safety has also been improved in the legacy RPC server. Multiple handler types are now used for methods that do and do not require the RPC client as a dependency. This can statically help prevent nil pointer dereferences, and was very useful for catching bugs during refactoring. To synchronize the wallet loading process between the main package (the default) and through the gRPC WalletLoader service (with the --noinitialload option), as well as increasing the loose coupling of packages, a new wallet.Loader type has been added. All creating and loading of existing wallets is done through a single Loader instance, and callbacks can be attached to the instance to run after the wallet has been opened. This is how the legacy RPC server is associated with a loaded wallet, even after the wallet is loaded by a gRPC method in a completely unrelated package. Documentation for the new RPC server has been added to the rpc/documentation directory. The documentation includes a specification for the new RPC API, addresses how to make changes to the server implementation, and provides short example clients in several different languages. Some of the new RPC methods are not implementated exactly as described by the specification. These are considered bugs with the implementation, not the spec. Known bugs are commented as such.
2015-06-01 21:57:50 +02:00
return false, nil
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}
txOutAmt := btcutil.Amount(rec.MsgTx.TxOut[index].Value)
log.Debugf("Marking transaction %v output %d (%v) spendable",
rec.Hash, index, txOutAmt)
cred := credit{
outPoint: wire.OutPoint{
Hash: rec.Hash,
Index: index,
},
block: block.Block,
amount: txOutAmt,
change: change,
spentBy: indexedIncidence{index: ^uint32(0)},
}
v = valueUnspentCredit(&cred)
err := putRawCredit(ns, k, v)
if err != nil {
Modernize the RPC server. This is a rather monolithic commit that moves the old RPC server to its own package (rpc/legacyrpc), introduces a new RPC server using gRPC (rpc/rpcserver), and provides the ability to defer wallet loading until request at a later time by an RPC (--noinitialload). The legacy RPC server remains the default for now while the new gRPC server is not enabled by default. Enabling the new server requires setting a listen address (--experimenalrpclisten). This experimental flag is used to effectively feature gate the server until it is ready to use as a default. Both RPC servers can be run at the same time, but require binding to different listen addresses. In theory, with the legacy RPC server now living in its own package it should become much easier to unit test the handlers. This will be useful for any future changes to the package, as compatibility with Core's wallet is still desired. Type safety has also been improved in the legacy RPC server. Multiple handler types are now used for methods that do and do not require the RPC client as a dependency. This can statically help prevent nil pointer dereferences, and was very useful for catching bugs during refactoring. To synchronize the wallet loading process between the main package (the default) and through the gRPC WalletLoader service (with the --noinitialload option), as well as increasing the loose coupling of packages, a new wallet.Loader type has been added. All creating and loading of existing wallets is done through a single Loader instance, and callbacks can be attached to the instance to run after the wallet has been opened. This is how the legacy RPC server is associated with a loaded wallet, even after the wallet is loaded by a gRPC method in a completely unrelated package. Documentation for the new RPC server has been added to the rpc/documentation directory. The documentation includes a specification for the new RPC API, addresses how to make changes to the server implementation, and provides short example clients in several different languages. Some of the new RPC methods are not implementated exactly as described by the specification. These are considered bugs with the implementation, not the spec. Known bugs are commented as such.
2015-06-01 21:57:50 +02:00
return false, err
2015-04-06 21:18:04 +02:00
}
minedBalance, err := fetchMinedBalance(ns)
if err != nil {
Modernize the RPC server. This is a rather monolithic commit that moves the old RPC server to its own package (rpc/legacyrpc), introduces a new RPC server using gRPC (rpc/rpcserver), and provides the ability to defer wallet loading until request at a later time by an RPC (--noinitialload). The legacy RPC server remains the default for now while the new gRPC server is not enabled by default. Enabling the new server requires setting a listen address (--experimenalrpclisten). This experimental flag is used to effectively feature gate the server until it is ready to use as a default. Both RPC servers can be run at the same time, but require binding to different listen addresses. In theory, with the legacy RPC server now living in its own package it should become much easier to unit test the handlers. This will be useful for any future changes to the package, as compatibility with Core's wallet is still desired. Type safety has also been improved in the legacy RPC server. Multiple handler types are now used for methods that do and do not require the RPC client as a dependency. This can statically help prevent nil pointer dereferences, and was very useful for catching bugs during refactoring. To synchronize the wallet loading process between the main package (the default) and through the gRPC WalletLoader service (with the --noinitialload option), as well as increasing the loose coupling of packages, a new wallet.Loader type has been added. All creating and loading of existing wallets is done through a single Loader instance, and callbacks can be attached to the instance to run after the wallet has been opened. This is how the legacy RPC server is associated with a loaded wallet, even after the wallet is loaded by a gRPC method in a completely unrelated package. Documentation for the new RPC server has been added to the rpc/documentation directory. The documentation includes a specification for the new RPC API, addresses how to make changes to the server implementation, and provides short example clients in several different languages. Some of the new RPC methods are not implementated exactly as described by the specification. These are considered bugs with the implementation, not the spec. Known bugs are commented as such.
2015-06-01 21:57:50 +02:00
return false, err
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}
err = putMinedBalance(ns, minedBalance+txOutAmt)
if err != nil {
Modernize the RPC server. This is a rather monolithic commit that moves the old RPC server to its own package (rpc/legacyrpc), introduces a new RPC server using gRPC (rpc/rpcserver), and provides the ability to defer wallet loading until request at a later time by an RPC (--noinitialload). The legacy RPC server remains the default for now while the new gRPC server is not enabled by default. Enabling the new server requires setting a listen address (--experimenalrpclisten). This experimental flag is used to effectively feature gate the server until it is ready to use as a default. Both RPC servers can be run at the same time, but require binding to different listen addresses. In theory, with the legacy RPC server now living in its own package it should become much easier to unit test the handlers. This will be useful for any future changes to the package, as compatibility with Core's wallet is still desired. Type safety has also been improved in the legacy RPC server. Multiple handler types are now used for methods that do and do not require the RPC client as a dependency. This can statically help prevent nil pointer dereferences, and was very useful for catching bugs during refactoring. To synchronize the wallet loading process between the main package (the default) and through the gRPC WalletLoader service (with the --noinitialload option), as well as increasing the loose coupling of packages, a new wallet.Loader type has been added. All creating and loading of existing wallets is done through a single Loader instance, and callbacks can be attached to the instance to run after the wallet has been opened. This is how the legacy RPC server is associated with a loaded wallet, even after the wallet is loaded by a gRPC method in a completely unrelated package. Documentation for the new RPC server has been added to the rpc/documentation directory. The documentation includes a specification for the new RPC API, addresses how to make changes to the server implementation, and provides short example clients in several different languages. Some of the new RPC methods are not implementated exactly as described by the specification. These are considered bugs with the implementation, not the spec. Known bugs are commented as such.
2015-06-01 21:57:50 +02:00
return false, err
2015-04-06 21:18:04 +02:00
}
Modernize the RPC server. This is a rather monolithic commit that moves the old RPC server to its own package (rpc/legacyrpc), introduces a new RPC server using gRPC (rpc/rpcserver), and provides the ability to defer wallet loading until request at a later time by an RPC (--noinitialload). The legacy RPC server remains the default for now while the new gRPC server is not enabled by default. Enabling the new server requires setting a listen address (--experimenalrpclisten). This experimental flag is used to effectively feature gate the server until it is ready to use as a default. Both RPC servers can be run at the same time, but require binding to different listen addresses. In theory, with the legacy RPC server now living in its own package it should become much easier to unit test the handlers. This will be useful for any future changes to the package, as compatibility with Core's wallet is still desired. Type safety has also been improved in the legacy RPC server. Multiple handler types are now used for methods that do and do not require the RPC client as a dependency. This can statically help prevent nil pointer dereferences, and was very useful for catching bugs during refactoring. To synchronize the wallet loading process between the main package (the default) and through the gRPC WalletLoader service (with the --noinitialload option), as well as increasing the loose coupling of packages, a new wallet.Loader type has been added. All creating and loading of existing wallets is done through a single Loader instance, and callbacks can be attached to the instance to run after the wallet has been opened. This is how the legacy RPC server is associated with a loaded wallet, even after the wallet is loaded by a gRPC method in a completely unrelated package. Documentation for the new RPC server has been added to the rpc/documentation directory. The documentation includes a specification for the new RPC API, addresses how to make changes to the server implementation, and provides short example clients in several different languages. Some of the new RPC methods are not implementated exactly as described by the specification. These are considered bugs with the implementation, not the spec. Known bugs are commented as such.
2015-06-01 21:57:50 +02:00
return true, putUnspent(ns, &cred.outPoint, &block.Block)
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}
// Rollback removes all blocks at height onwards, moving any transactions within
// each block to the unconfirmed pool.
func (s *Store) Rollback(ns walletdb.ReadWriteBucket, height int32) error {
return s.rollback(ns, height)
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}
func (s *Store) rollback(ns walletdb.ReadWriteBucket, height int32) error {
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minedBalance, err := fetchMinedBalance(ns)
if err != nil {
return err
}
// Keep track of all credits that were removed from coinbase
// transactions. After detaching all blocks, if any transaction record
// exists in unmined that spends these outputs, remove them and their
// spend chains.
//
// It is necessary to keep these in memory and fix the unmined
// transactions later since blocks are removed in increasing order.
var coinBaseCredits []wire.OutPoint
var heightsToRemove []int32
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it := makeReverseBlockIterator(ns)
for it.prev() {
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b := &it.elem
if it.elem.Height < height {
break
}
heightsToRemove = append(heightsToRemove, it.elem.Height)
2015-04-06 21:18:04 +02:00
log.Infof("Rolling back %d transactions from block %v height %d",
len(b.transactions), b.Hash, b.Height)
for i := range b.transactions {
txHash := &b.transactions[i]
recKey := keyTxRecord(txHash, &b.Block)
recVal := existsRawTxRecord(ns, recKey)
var rec TxRecord
err = readRawTxRecord(txHash, recVal, &rec)
if err != nil {
return err
}
err = deleteTxRecord(ns, txHash, &b.Block)
if err != nil {
return err
}
// Handle coinbase transactions specially since they are
// not moved to the unconfirmed store. A coinbase cannot
// contain any debits, but all credits should be removed
// and the mined balance decremented.
if blockchain.IsCoinBaseTx(&rec.MsgTx) {
op := wire.OutPoint{Hash: rec.Hash}
for i, output := range rec.MsgTx.TxOut {
k, v := existsCredit(ns, &rec.Hash,
uint32(i), &b.Block)
if v == nil {
continue
}
op.Index = uint32(i)
coinBaseCredits = append(coinBaseCredits, op)
unspentKey, credKey := existsUnspent(ns, &op)
if credKey != nil {
minedBalance -= btcutil.Amount(output.Value)
err = deleteRawUnspent(ns, unspentKey)
if err != nil {
return err
}
}
err = deleteRawCredit(ns, k)
if err != nil {
return err
}
}
continue
}
err = putRawUnmined(ns, txHash[:], recVal)
if err != nil {
return err
}
// For each debit recorded for this transaction, mark
// the credit it spends as unspent (as long as it still
// exists) and delete the debit. The previous output is
// recorded in the unconfirmed store for every previous
// output, not just debits.
for i, input := range rec.MsgTx.TxIn {
prevOut := &input.PreviousOutPoint
prevOutKey := canonicalOutPoint(&prevOut.Hash,
prevOut.Index)
err = putRawUnminedInput(ns, prevOutKey, rec.Hash[:])
if err != nil {
return err
}
// If this input is a debit, remove the debit
// record and mark the credit that it spent as
// unspent, incrementing the mined balance.
debKey, credKey, err := existsDebit(ns,
&rec.Hash, uint32(i), &b.Block)
if err != nil {
return err
}
if debKey == nil {
continue
}
// unspendRawCredit does not error in case the
// no credit exists for this key, but this
// behavior is correct. Since blocks are
// removed in increasing order, this credit
// may have already been removed from a
// previously removed transaction record in
// this rollback.
var amt btcutil.Amount
amt, err = unspendRawCredit(ns, credKey)
if err != nil {
return err
}
err = deleteRawDebit(ns, debKey)
if err != nil {
return err
}
// If the credit was previously removed in the
// rollback, the credit amount is zero. Only
// mark the previously spent credit as unspent
// if it still exists.
if amt == 0 {
continue
}
unspentVal, err := fetchRawCreditUnspentValue(credKey)
if err != nil {
return err
}
minedBalance += amt
err = putRawUnspent(ns, prevOutKey, unspentVal)
if err != nil {
return err
}
}
// For each detached non-coinbase credit, move the
// credit output to unmined. If the credit is marked
// unspent, it is removed from the utxo set and the
// mined balance is decremented.
//
// TODO: use a credit iterator
for i, output := range rec.MsgTx.TxOut {
k, v := existsCredit(ns, &rec.Hash, uint32(i),
&b.Block)
if v == nil {
continue
}
amt, change, err := fetchRawCreditAmountChange(v)
if err != nil {
return err
}
outPointKey := canonicalOutPoint(&rec.Hash, uint32(i))
unminedCredVal := valueUnminedCredit(amt, change)
err = putRawUnminedCredit(ns, outPointKey, unminedCredVal)
if err != nil {
return err
}
err = deleteRawCredit(ns, k)
if err != nil {
return err
}
credKey := existsRawUnspent(ns, outPointKey)
if credKey != nil {
minedBalance -= btcutil.Amount(output.Value)
err = deleteRawUnspent(ns, outPointKey)
if err != nil {
return err
}
}
}
}
// reposition cursor before deleting this k/v pair and advancing to the
// previous.
it.reposition(it.elem.Height)
// Avoid cursor deletion until bolt issue #620 is resolved.
// err = it.delete()
// if err != nil {
// return err
// }
2015-04-06 21:18:04 +02:00
}
if it.err != nil {
return it.err
}
// Delete the block records outside of the iteration since cursor deletion
// is broken.
for _, h := range heightsToRemove {
err = deleteBlockRecord(ns, h)
if err != nil {
return err
}
}
2015-04-06 21:18:04 +02:00
for _, op := range coinBaseCredits {
opKey := canonicalOutPoint(&op.Hash, op.Index)
unminedSpendTxHashKeys := fetchUnminedInputSpendTxHashes(ns, opKey)
for _, unminedSpendTxHashKey := range unminedSpendTxHashKeys {
unminedVal := existsRawUnmined(ns, unminedSpendTxHashKey[:])
// If the spending transaction spends multiple outputs
// from the same transaction, we'll find duplicate
// entries within the store, so it's possible we're
// unable to find it if the conflicts have already been
// removed in a previous iteration.
if unminedVal == nil {
continue
}
2015-04-06 21:18:04 +02:00
var unminedRec TxRecord
unminedRec.Hash = unminedSpendTxHashKey
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err = readRawTxRecord(&unminedRec.Hash, unminedVal, &unminedRec)
if err != nil {
return err
}
log.Debugf("Transaction %v spends a removed coinbase "+
"output -- removing as well", unminedRec.Hash)
err = s.removeConflict(ns, &unminedRec)
if err != nil {
return err
}
}
}
return putMinedBalance(ns, minedBalance)
}
// UnspentOutputs returns all unspent received transaction outputs.
// The order is undefined.
func (s *Store) UnspentOutputs(ns walletdb.ReadBucket) ([]Credit, error) {
2015-04-06 21:18:04 +02:00
var unspent []Credit
var op wire.OutPoint
var block Block
err := ns.NestedReadBucket(bucketUnspent).ForEach(func(k, v []byte) error {
2015-04-06 21:18:04 +02:00
err := readCanonicalOutPoint(k, &op)
if err != nil {
return err
}
// Skip the output if it's locked.
_, _, isLocked := isLockedOutput(ns, op, s.clock.Now())
if isLocked {
return nil
}
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if existsRawUnminedInput(ns, k) != nil {
// Output is spent by an unmined transaction.
// Skip this k/v pair.
return nil
}
2015-04-06 21:18:04 +02:00
err = readUnspentBlock(v, &block)
if err != nil {
return err
}
blockTime, err := fetchBlockTime(ns, block.Height)
if err != nil {
return err
}
// TODO(jrick): reading the entire transaction should
// be avoidable. Creating the credit only requires the
// output amount and pkScript.
rec, err := fetchTxRecord(ns, &op.Hash, &block)
if err != nil {
return fmt.Errorf("unable to retrieve transaction %v: "+
"%v", op.Hash, err)
2015-04-06 21:18:04 +02:00
}
txOut := rec.MsgTx.TxOut[op.Index]
cred := Credit{
OutPoint: op,
BlockMeta: BlockMeta{
Block: block,
Time: blockTime,
},
Amount: btcutil.Amount(txOut.Value),
PkScript: txOut.PkScript,
Received: rec.Received,
FromCoinBase: blockchain.IsCoinBaseTx(&rec.MsgTx),
}
unspent = append(unspent, cred)
return nil
})
if err != nil {
if _, ok := err.(Error); ok {
return nil, err
}
str := "failed iterating unspent bucket"
return nil, storeError(ErrDatabase, str, err)
}
err = ns.NestedReadBucket(bucketUnminedCredits).ForEach(func(k, v []byte) error {
if err := readCanonicalOutPoint(k, &op); err != nil {
return err
}
// Skip the output if it's locked.
_, _, isLocked := isLockedOutput(ns, op, s.clock.Now())
if isLocked {
return nil
}
2015-04-06 21:18:04 +02:00
if existsRawUnminedInput(ns, k) != nil {
// Output is spent by an unmined transaction.
// Skip to next unmined credit.
return nil
}
// TODO(jrick): Reading/parsing the entire transaction record
// just for the output amount and script can be avoided.
recVal := existsRawUnmined(ns, op.Hash[:])
var rec TxRecord
err = readRawTxRecord(&op.Hash, recVal, &rec)
if err != nil {
return fmt.Errorf("unable to retrieve raw transaction "+
"%v: %v", op.Hash, err)
2015-04-06 21:18:04 +02:00
}
txOut := rec.MsgTx.TxOut[op.Index]
cred := Credit{
OutPoint: op,
BlockMeta: BlockMeta{
Block: Block{Height: -1},
},
Amount: btcutil.Amount(txOut.Value),
PkScript: txOut.PkScript,
Received: rec.Received,
FromCoinBase: blockchain.IsCoinBaseTx(&rec.MsgTx),
}
unspent = append(unspent, cred)
return nil
})
if err != nil {
if _, ok := err.(Error); ok {
return nil, err
}
str := "failed iterating unmined credits bucket"
return nil, storeError(ErrDatabase, str, err)
}
return unspent, nil
}
// Balance returns the spendable wallet balance (total value of all unspent
// transaction outputs) given a minimum of minConf confirmations, calculated
// at a current chain height of curHeight. Coinbase outputs are only included
// in the balance if maturity has been reached.
//
// Balance may return unexpected results if syncHeight is lower than the block
// height of the most recent mined transaction in the store.
func (s *Store) Balance(ns walletdb.ReadBucket, minConf int32, syncHeight int32) (btcutil.Amount, error) {
2015-04-06 21:18:04 +02:00
bal, err := fetchMinedBalance(ns)
if err != nil {
return 0, err
}
// Subtract the balance for each credit that is spent by an unmined
// transaction.
var op wire.OutPoint
var block Block
err = ns.NestedReadBucket(bucketUnspent).ForEach(func(k, v []byte) error {
2015-04-06 21:18:04 +02:00
err := readCanonicalOutPoint(k, &op)
if err != nil {
return err
}
err = readUnspentBlock(v, &block)
if err != nil {
return err
}
// Subtract the output's amount if it's locked.
_, _, isLocked := isLockedOutput(ns, op, s.clock.Now())
if isLocked {
_, v := existsCredit(ns, &op.Hash, op.Index, &block)
amt, err := fetchRawCreditAmount(v)
if err != nil {
return err
}
bal -= amt
// To prevent decrementing the balance twice if the
// output has an unconfirmed spend, return now.
return nil
}
2015-04-06 21:18:04 +02:00
if existsRawUnminedInput(ns, k) != nil {
_, v := existsCredit(ns, &op.Hash, op.Index, &block)
amt, err := fetchRawCreditAmount(v)
if err != nil {
return err
}
bal -= amt
}
2015-04-06 21:18:04 +02:00
return nil
})
if err != nil {
if _, ok := err.(Error); ok {
return 0, err
}
str := "failed iterating unspent outputs"
return 0, storeError(ErrDatabase, str, err)
}
// Decrement the balance for any unspent credit with less than
// minConf confirmations and any (unspent) immature coinbase credit.
coinbaseMaturity := int32(s.chainParams.CoinbaseMaturity)
2015-04-06 21:18:04 +02:00
stopConf := minConf
if coinbaseMaturity > stopConf {
stopConf = coinbaseMaturity
2015-04-06 21:18:04 +02:00
}
lastHeight := syncHeight - stopConf
blockIt := makeReadReverseBlockIterator(ns)
2015-04-06 21:18:04 +02:00
for blockIt.prev() {
block := &blockIt.elem
if block.Height < lastHeight {
break
}
for i := range block.transactions {
txHash := &block.transactions[i]
rec, err := fetchTxRecord(ns, txHash, &block.Block)
if err != nil {
return 0, err
}
numOuts := uint32(len(rec.MsgTx.TxOut))
for i := uint32(0); i < numOuts; i++ {
// Avoid double decrementing the credit amount
// if it was already removed for being spent by
// an unmined tx or being locked.
op = wire.OutPoint{Hash: *txHash, Index: i}
_, _, isLocked := isLockedOutput(
ns, op, s.clock.Now(),
)
if isLocked {
continue
}
2015-04-06 21:18:04 +02:00
opKey := canonicalOutPoint(txHash, i)
if existsRawUnminedInput(ns, opKey) != nil {
continue
}
_, v := existsCredit(ns, txHash, i, &block.Block)
if v == nil {
continue
}
amt, spent, err := fetchRawCreditAmountSpent(v)
if err != nil {
return 0, err
}
if spent {
continue
}
confs := syncHeight - block.Height + 1
if confs < minConf || (blockchain.IsCoinBaseTx(&rec.MsgTx) &&
confs < coinbaseMaturity) {
2015-04-06 21:18:04 +02:00
bal -= amt
}
}
}
}
if blockIt.err != nil {
return 0, blockIt.err
}
// If unmined outputs are included, increment the balance for each
// output that is unspent.
if minConf == 0 {
err = ns.NestedReadBucket(bucketUnminedCredits).ForEach(func(k, v []byte) error {
if err := readCanonicalOutPoint(k, &op); err != nil {
return err
}
// Skip adding the balance for this output if it's
// locked.
_, _, isLocked := isLockedOutput(ns, op, s.clock.Now())
if isLocked {
return nil
}
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if existsRawUnminedInput(ns, k) != nil {
// Output is spent by an unmined transaction.
// Skip to next unmined credit.
return nil
}
amount, err := fetchRawUnminedCreditAmount(v)
if err != nil {
return err
}
bal += amount
return nil
})
if err != nil {
if _, ok := err.(Error); ok {
return 0, err
}
str := "failed to iterate over unmined credits bucket"
return 0, storeError(ErrDatabase, str, err)
}
}
return bal, nil
}
// PutTxLabel validates transaction labels and writes them to disk if they
// are non-zero and within the label length limit. The entry is keyed by the
// transaction hash:
// [0:32] Transaction hash (32 bytes)
//
// The label itself is written to disk in length value format:
// [0:2] Label length
// [2: +len] Label
func (s *Store) PutTxLabel(ns walletdb.ReadWriteBucket, txid chainhash.Hash,
label string) error {
if len(label) == 0 {
return ErrEmptyLabel
}
if len(label) > TxLabelLimit {
return ErrLabelTooLong
}
labelBucket, err := ns.CreateBucketIfNotExists(bucketTxLabels)
if err != nil {
return err
}
return PutTxLabel(labelBucket, txid, label)
}
// PutTxLabel writes a label for a tx to the bucket provided. Note that it does
// not perform any validation on the label provided, or check whether there is
// an existing label for the txid.
func PutTxLabel(labelBucket walletdb.ReadWriteBucket, txid chainhash.Hash,
label string) error {
// We expect the label length to be limited on creation, so we can
// store the label's length as a uint16.
labelLen := uint16(len(label))
var buf bytes.Buffer
var b [2]byte
binary.BigEndian.PutUint16(b[:], labelLen)
if _, err := buf.Write(b[:]); err != nil {
return err
}
if _, err := buf.WriteString(label); err != nil {
return err
}
return labelBucket.Put(txid[:], buf.Bytes())
}
// FetchTxLabel reads a transaction label from the tx labels bucket. If a label
// with 0 length was written, we return an error, since this is unexpected.
func FetchTxLabel(ns walletdb.ReadBucket, txid chainhash.Hash) (string, error) {
labelBucket := ns.NestedReadBucket(bucketTxLabels)
if labelBucket == nil {
return "", ErrNoLabelBucket
}
v := labelBucket.Get(txid[:])
if v == nil {
return "", ErrTxLabelNotFound
}
return DeserializeLabel(v)
}
// DeserializeLabel reads a deserializes a length-value encoded label from the
// byte array provided.
func DeserializeLabel(v []byte) (string, error) {
// If the label is empty, return an error.
length := binary.BigEndian.Uint16(v[0:2])
if length == 0 {
return "", ErrEmptyLabel
}
// Read the remainder of the bytes into a label string.
label := string(v[2:])
return label, nil
}
// isKnownOutput returns whether the output is known to the transaction store
// either as confirmed or unconfirmed.
func isKnownOutput(ns walletdb.ReadWriteBucket, op wire.OutPoint) bool {
k := canonicalOutPoint(&op.Hash, op.Index)
if existsRawUnminedCredit(ns, k) != nil {
return true
}
if existsRawUnspent(ns, k) != nil {
return true
}
return false
}
// LockOutput locks an output to the given ID, preventing it from being
// available for coin selection. The absolute time of the lock's expiration is
// returned. The expiration of the lock can be extended by successive
// invocations of this call.
//
// Outputs can be unlocked before their expiration through `UnlockOutput`.
// Otherwise, they are unlocked lazily through calls which iterate through all
// known outputs, e.g., `Balance`, `UnspentOutputs`.
//
// If the output is not known, ErrUnknownOutput is returned. If the output has
// already been locked to a different ID, then ErrOutputAlreadyLocked is
// returned.
func (s *Store) LockOutput(ns walletdb.ReadWriteBucket, id LockID,
op wire.OutPoint, duration time.Duration) (time.Time, error) {
// Make sure the output is known.
if !isKnownOutput(ns, op) {
return time.Time{}, ErrUnknownOutput
}
// Make sure the output hasn't already been locked to some other ID.
lockedID, _, isLocked := isLockedOutput(ns, op, s.clock.Now())
if isLocked && lockedID != id {
return time.Time{}, ErrOutputAlreadyLocked
}
expiry := s.clock.Now().Add(duration)
if err := lockOutput(ns, id, op, expiry); err != nil {
return time.Time{}, err
}
return expiry, nil
}
// UnlockOutput unlocks an output, allowing it to be available for coin
// selection if it remains unspent. The ID should match the one used to
// originally lock the output.
func (s *Store) UnlockOutput(ns walletdb.ReadWriteBucket, id LockID,
op wire.OutPoint) error {
// Make sure the output is known.
if !isKnownOutput(ns, op) {
return ErrUnknownOutput
}
// If the output has already been unlocked, we can return now.
lockedID, _, isLocked := isLockedOutput(ns, op, s.clock.Now())
if !isLocked {
return nil
}
// Make sure the output was locked to the same ID.
if lockedID != id {
return ErrOutputUnlockNotAllowed
}
return unlockOutput(ns, op)
}
// DeleteExpiredLockedOutputs iterates through all existing locked outputs and
// deletes those which have already expired.
func (s *Store) DeleteExpiredLockedOutputs(ns walletdb.ReadWriteBucket) error {
// Collect all expired output locks first to remove them later on. This
// is necessary as deleting while iterating would invalidate the
// iterator.
var expiredOutputs []wire.OutPoint
err := forEachLockedOutput(
ns, func(op wire.OutPoint, _ LockID, expiration time.Time) {
if !s.clock.Now().Before(expiration) {
expiredOutputs = append(expiredOutputs, op)
}
},
)
if err != nil {
return err
}
for _, op := range expiredOutputs {
if err := unlockOutput(ns, op); err != nil {
return err
}
}
return nil
}
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// ListLockedOutputs returns a list of objects representing the currently locked
// utxos.
func (s *Store) ListLockedOutputs(ns walletdb.ReadBucket) ([]*LockedOutput,
error) {
var outputs []*LockedOutput
err := forEachLockedOutput(
ns, func(op wire.OutPoint, id LockID, expiration time.Time) {
outputs = append(outputs, &LockedOutput{
Outpoint: op,
LockID: id,
Expiration: expiration,
})
},
)
if err != nil {
return nil, err
}
return outputs, nil
}