// Copyright (c) 2014-2015 Conformal Systems LLC. // Use of this source code is governed by an ISC // license that can be found in the LICENSE file. package btcrpcclient import ( "bytes" "encoding/hex" "encoding/json" "errors" "fmt" "sync" "time" "github.com/btcsuite/btcd/btcjson" "github.com/btcsuite/btcd/wire" "github.com/btcsuite/btcutil" ) var ( // ErrNotificationsNotSupported is an error to describe the condition // where the caller is trying to request notifications when they are // not supported due to the client being configured to run in HTTP POST // mode. ErrNotificationsNotSupported = errors.New("notifications are not " + "supported when running in HTTP POST mode") ) // notificationState is used to track the current state of successfuly // registered notification so the state can be automatically re-established on // reconnect. type notificationState struct { sync.Mutex notifyBlocks bool notifyNewTx bool notifyNewTxVerbose bool notifyReceived map[string]struct{} notifySpent map[btcjson.OutPoint]struct{} } // Copy returns a deep copy of the receiver. // // This function is safe for concurrent access. func (s *notificationState) Copy() *notificationState { s.Lock() defer s.Unlock() stateCopy := *s stateCopy.notifyReceived = make(map[string]struct{}) for addr := range s.notifyReceived { stateCopy.notifyReceived[addr] = struct{}{} } stateCopy.notifySpent = make(map[btcjson.OutPoint]struct{}) for op := range s.notifySpent { stateCopy.notifySpent[op] = struct{}{} } return &stateCopy } // newNotificationState returns a new notification state ready to be populated. func newNotificationState() *notificationState { return ¬ificationState{ notifyReceived: make(map[string]struct{}), notifySpent: make(map[btcjson.OutPoint]struct{}), } } // newNilFutureResult returns a new future result channel that already has the // result waiting on the channel with the reply set to nil. This is useful // to ignore things such as notifications when the caller didn't specify any // notification handlers. func newNilFutureResult() chan *response { responseChan := make(chan *response, 1) responseChan <- &response{result: nil, err: nil} return responseChan } // NotificationHandlers defines callback function pointers to invoke with // notifications. Since all of the functions are nil by default, all // notifications are effectively ignored until their handlers are set to a // concrete callback. // // NOTE: Unless otherwise documented, these handlers must NOT directly call any // blocking calls on the client instance since the input reader goroutine blocks // until the callback has completed. Doing so will result in a deadlock // situation. type NotificationHandlers struct { // OnClientConnected is invoked when the client connects or reconnects // to the RPC server. This callback is run async with the rest of the // notification handlers, and is safe for blocking client requests. OnClientConnected func() // OnBlockConnected is invoked when a block is connected to the longest // (best) chain. It will only be invoked if a preceding call to // NotifyBlocks has been made to register for the notification and the // function is non-nil. OnBlockConnected func(hash *wire.ShaHash, height int32) // OnBlockDisconnected is invoked when a block is disconnected from the // longest (best) chain. It will only be invoked if a preceding call to // NotifyBlocks has been made to register for the notification and the // function is non-nil. OnBlockDisconnected func(hash *wire.ShaHash, height int32) // OnRecvTx is invoked when a transaction that receives funds to a // registered address is received into the memory pool and also // connected to the longest (best) chain. It will only be invoked if a // preceding call to NotifyReceived, Rescan, or RescanEndHeight has been // made to register for the notification and the function is non-nil. OnRecvTx func(transaction *btcutil.Tx, details *btcjson.BlockDetails) // OnRedeemingTx is invoked when a transaction that spends a registered // outpoint is received into the memory pool and also connected to the // longest (best) chain. It will only be invoked if a preceding call to // NotifySpent, Rescan, or RescanEndHeight has been made to register for // the notification and the function is non-nil. // // NOTE: The NotifyReceived will automatically register notifications // for the outpoints that are now "owned" as a result of receiving // funds to the registered addresses. This means it is possible for // this to invoked indirectly as the result of a NotifyReceived call. OnRedeemingTx func(transaction *btcutil.Tx, details *btcjson.BlockDetails) // OnRescanFinished is invoked after a rescan finishes due to a previous // call to Rescan or RescanEndHeight. Finished rescans should be // signaled on this notification, rather than relying on the return // result of a rescan request, due to how btcd may send various rescan // notifications after the rescan request has already returned. OnRescanFinished func(hash *wire.ShaHash, height int32, blkTime time.Time) // OnRescanProgress is invoked periodically when a rescan is underway. // It will only be invoked if a preceding call to Rescan or // RescanEndHeight has been made and the function is non-nil. OnRescanProgress func(hash *wire.ShaHash, height int32, blkTime time.Time) // OnTxAccepted is invoked when a transaction is accepted into the // memory pool. It will only be invoked if a preceding call to // NotifyNewTransactions with the verbose flag set to false has been // made to register for the notification and the function is non-nil. OnTxAccepted func(hash *wire.ShaHash, amount btcutil.Amount) // OnTxAccepted is invoked when a transaction is accepted into the // memory pool. It will only be invoked if a preceding call to // NotifyNewTransactions with the verbose flag set to true has been // made to register for the notification and the function is non-nil. OnTxAcceptedVerbose func(txDetails *btcjson.TxRawResult) // OnBtcdConnected is invoked when a wallet connects or disconnects from // btcd. // // This will only be available when client is connected to a wallet // server such as btcwallet. OnBtcdConnected func(connected bool) // OnAccountBalance is invoked with account balance updates. // // This will only be available when speaking to a wallet server // such as btcwallet. OnAccountBalance func(account string, balance btcutil.Amount, confirmed bool) // OnWalletLockState is invoked when a wallet is locked or unlocked. // // This will only be available when client is connected to a wallet // server such as btcwallet. OnWalletLockState func(locked bool) // OnUnknownNotification is invoked when an unrecognized notification // is received. This typically means the notification handling code // for this package needs to be updated for a new notification type or // the caller is using a custom notification this package does not know // about. OnUnknownNotification func(method string, params []json.RawMessage) } // handleNotification examines the passed notification type, performs // conversions to get the raw notification types into higher level types and // delivers the notification to the appropriate On handler registered with // the client. func (c *Client) handleNotification(ntfn *rawNotification) { // Ignore the notification if the client is not interested in any // notifications. if c.ntfnHandlers == nil { return } switch ntfn.Method { // OnBlockConnected case btcjson.BlockConnectedNtfnMethod: // Ignore the notification if the client is not interested in // it. if c.ntfnHandlers.OnBlockConnected == nil { return } blockSha, blockHeight, err := parseChainNtfnParams(ntfn.Params) if err != nil { log.Warnf("Received invalid block connected "+ "notification: %v", err) return } c.ntfnHandlers.OnBlockConnected(blockSha, blockHeight) // OnBlockDisconnected case btcjson.BlockDisconnectedNtfnMethod: // Ignore the notification if the client is not interested in // it. if c.ntfnHandlers.OnBlockDisconnected == nil { return } blockSha, blockHeight, err := parseChainNtfnParams(ntfn.Params) if err != nil { log.Warnf("Received invalid block connected "+ "notification: %v", err) return } c.ntfnHandlers.OnBlockDisconnected(blockSha, blockHeight) // OnRecvTx case btcjson.RecvTxNtfnMethod: // Ignore the notification if the client is not interested in // it. if c.ntfnHandlers.OnRecvTx == nil { return } tx, block, err := parseChainTxNtfnParams(ntfn.Params) if err != nil { log.Warnf("Received invalid recvtx notification: %v", err) return } c.ntfnHandlers.OnRecvTx(tx, block) // OnRedeemingTx case btcjson.RedeemingTxNtfnMethod: // Ignore the notification if the client is not interested in // it. if c.ntfnHandlers.OnRedeemingTx == nil { return } tx, block, err := parseChainTxNtfnParams(ntfn.Params) if err != nil { log.Warnf("Received invalid redeemingtx "+ "notification: %v", err) return } c.ntfnHandlers.OnRedeemingTx(tx, block) // OnRescanFinished case btcjson.RescanFinishedNtfnMethod: // Ignore the notification if the client is not interested in // it. if c.ntfnHandlers.OnRescanFinished == nil { return } hash, height, blkTime, err := parseRescanProgressParams(ntfn.Params) if err != nil { log.Warnf("Received invalid rescanfinished "+ "notification: %v", err) return } c.ntfnHandlers.OnRescanFinished(hash, height, blkTime) // OnRescanProgress case btcjson.RescanProgressNtfnMethod: // Ignore the notification if the client is not interested in // it. if c.ntfnHandlers.OnRescanProgress == nil { return } hash, height, blkTime, err := parseRescanProgressParams(ntfn.Params) if err != nil { log.Warnf("Received invalid rescanprogress "+ "notification: %v", err) return } c.ntfnHandlers.OnRescanProgress(hash, height, blkTime) // OnTxAccepted case btcjson.TxAcceptedNtfnMethod: // Ignore the notification if the client is not interested in // it. if c.ntfnHandlers.OnTxAccepted == nil { return } hash, amt, err := parseTxAcceptedNtfnParams(ntfn.Params) if err != nil { log.Warnf("Received invalid tx accepted "+ "notification: %v", err) return } c.ntfnHandlers.OnTxAccepted(hash, amt) // OnTxAcceptedVerbose case btcjson.TxAcceptedVerboseNtfnMethod: // Ignore the notification if the client is not interested in // it. if c.ntfnHandlers.OnTxAcceptedVerbose == nil { return } rawTx, err := parseTxAcceptedVerboseNtfnParams(ntfn.Params) if err != nil { log.Warnf("Received invalid tx accepted verbose "+ "notification: %v", err) return } c.ntfnHandlers.OnTxAcceptedVerbose(rawTx) // OnBtcdConnected case btcjson.BtcdConnectedNtfnMethod: // Ignore the notification if the client is not interested in // it. if c.ntfnHandlers.OnBtcdConnected == nil { return } connected, err := parseBtcdConnectedNtfnParams(ntfn.Params) if err != nil { log.Warnf("Received invalid btcd connected "+ "notification: %v", err) return } c.ntfnHandlers.OnBtcdConnected(connected) // OnAccountBalance case btcjson.AccountBalanceNtfnMethod: // Ignore the notification if the client is not interested in // it. if c.ntfnHandlers.OnAccountBalance == nil { return } account, bal, conf, err := parseAccountBalanceNtfnParams(ntfn.Params) if err != nil { log.Warnf("Received invalid account balance "+ "notification: %v", err) return } c.ntfnHandlers.OnAccountBalance(account, bal, conf) // OnWalletLockState case btcjson.WalletLockStateNtfnMethod: // Ignore the notification if the client is not interested in // it. if c.ntfnHandlers.OnWalletLockState == nil { return } // The account name is not notified, so the return value is // discarded. _, locked, err := parseWalletLockStateNtfnParams(ntfn.Params) if err != nil { log.Warnf("Received invalid wallet lock state "+ "notification: %v", err) return } c.ntfnHandlers.OnWalletLockState(locked) // OnUnknownNotification default: if c.ntfnHandlers.OnUnknownNotification == nil { return } c.ntfnHandlers.OnUnknownNotification(ntfn.Method, ntfn.Params) } } // wrongNumParams is an error type describing an unparseable JSON-RPC // notificiation due to an incorrect number of parameters for the // expected notification type. The value is the number of parameters // of the invalid notification. type wrongNumParams int // Error satisifies the builtin error interface. func (e wrongNumParams) Error() string { return fmt.Sprintf("wrong number of parameters (%d)", e) } // parseChainNtfnParams parses out the block hash and height from the parameters // of blockconnected and blockdisconnected notifications. func parseChainNtfnParams(params []json.RawMessage) (*wire.ShaHash, int32, error) { if len(params) != 2 { return nil, 0, wrongNumParams(len(params)) } // Unmarshal first parameter as a string. var blockShaStr string err := json.Unmarshal(params[0], &blockShaStr) if err != nil { return nil, 0, err } // Unmarshal second parameter as an integer. var blockHeight int32 err = json.Unmarshal(params[1], &blockHeight) if err != nil { return nil, 0, err } // Create ShaHash from block sha string. blockSha, err := wire.NewShaHashFromStr(blockShaStr) if err != nil { return nil, 0, err } return blockSha, blockHeight, nil } // parseChainTxNtfnParams parses out the transaction and optional details about // the block it's mined in from the parameters of recvtx and redeemingtx // notifications. func parseChainTxNtfnParams(params []json.RawMessage) (*btcutil.Tx, *btcjson.BlockDetails, error) { if len(params) == 0 || len(params) > 2 { return nil, nil, wrongNumParams(len(params)) } // Unmarshal first parameter as a string. var txHex string err := json.Unmarshal(params[0], &txHex) if err != nil { return nil, nil, err } // If present, unmarshal second optional parameter as the block details // JSON object. var block *btcjson.BlockDetails if len(params) > 1 { err = json.Unmarshal(params[1], &block) if err != nil { return nil, nil, err } } // Hex decode and deserialize the transaction. serializedTx, err := hex.DecodeString(txHex) if err != nil { return nil, nil, err } var msgTx wire.MsgTx err = msgTx.Deserialize(bytes.NewReader(serializedTx)) if err != nil { return nil, nil, err } // TODO: Change recvtx and redeemingtx callback signatures to use // nicer types for details about the block (block sha as a // wire.ShaHash, block time as a time.Time, etc.). return btcutil.NewTx(&msgTx), block, nil } // parseRescanProgressParams parses out the height of the last rescanned block // from the parameters of rescanfinished and rescanprogress notifications. func parseRescanProgressParams(params []json.RawMessage) (*wire.ShaHash, int32, time.Time, error) { if len(params) != 3 { return nil, 0, time.Time{}, wrongNumParams(len(params)) } // Unmarshal first parameter as an string. var hashStr string err := json.Unmarshal(params[0], &hashStr) if err != nil { return nil, 0, time.Time{}, err } // Unmarshal second parameter as an integer. var height int32 err = json.Unmarshal(params[1], &height) if err != nil { return nil, 0, time.Time{}, err } // Unmarshal third parameter as an integer. var blkTime int64 err = json.Unmarshal(params[2], &blkTime) if err != nil { return nil, 0, time.Time{}, err } // Decode string encoding of block hash. hash, err := wire.NewShaHashFromStr(hashStr) if err != nil { return nil, 0, time.Time{}, err } return hash, height, time.Unix(blkTime, 0), nil } // parseTxAcceptedNtfnParams parses out the transaction hash and total amount // from the parameters of a txaccepted notification. func parseTxAcceptedNtfnParams(params []json.RawMessage) (*wire.ShaHash, btcutil.Amount, error) { if len(params) != 2 { return nil, 0, wrongNumParams(len(params)) } // Unmarshal first parameter as a string. var txShaStr string err := json.Unmarshal(params[0], &txShaStr) if err != nil { return nil, 0, err } // Unmarshal second parameter as a floating point number. var famt float64 err = json.Unmarshal(params[1], &famt) if err != nil { return nil, 0, err } // Bounds check amount. amt, err := btcutil.NewAmount(famt) if err != nil { return nil, 0, err } // Decode string encoding of transaction sha. txSha, err := wire.NewShaHashFromStr(txShaStr) if err != nil { return nil, 0, err } return txSha, btcutil.Amount(amt), nil } // parseTxAcceptedVerboseNtfnParams parses out details about a raw transaction // from the parameters of a txacceptedverbose notification. func parseTxAcceptedVerboseNtfnParams(params []json.RawMessage) (*btcjson.TxRawResult, error) { if len(params) != 1 { return nil, wrongNumParams(len(params)) } // Unmarshal first parameter as a raw transaction result object. var rawTx btcjson.TxRawResult err := json.Unmarshal(params[0], &rawTx) if err != nil { return nil, err } // TODO: change txacceptedverbose notification callbacks to use nicer // types for all details about the transaction (i.e. decoding hashes // from their string encoding). return &rawTx, nil } // parseBtcdConnectedNtfnParams parses out the connection status of btcd // and btcwallet from the parameters of a btcdconnected notification. func parseBtcdConnectedNtfnParams(params []json.RawMessage) (bool, error) { if len(params) != 1 { return false, wrongNumParams(len(params)) } // Unmarshal first parameter as a boolean. var connected bool err := json.Unmarshal(params[0], &connected) if err != nil { return false, err } return connected, nil } // parseAccountBalanceNtfnParams parses out the account name, total balance, // and whether or not the balance is confirmed or unconfirmed from the // parameters of an accountbalance notification. func parseAccountBalanceNtfnParams(params []json.RawMessage) (account string, balance btcutil.Amount, confirmed bool, err error) { if len(params) != 3 { return "", 0, false, wrongNumParams(len(params)) } // Unmarshal first parameter as a string. err = json.Unmarshal(params[0], &account) if err != nil { return "", 0, false, err } // Unmarshal second parameter as a floating point number. var fbal float64 err = json.Unmarshal(params[1], &fbal) if err != nil { return "", 0, false, err } // Unmarshal third parameter as a boolean. err = json.Unmarshal(params[2], &confirmed) if err != nil { return "", 0, false, err } // Bounds check amount. bal, err := btcutil.NewAmount(fbal) if err != nil { return "", 0, false, err } return account, btcutil.Amount(bal), confirmed, nil } // parseWalletLockStateNtfnParams parses out the account name and locked // state of an account from the parameters of a walletlockstate notification. func parseWalletLockStateNtfnParams(params []json.RawMessage) (account string, locked bool, err error) { if len(params) != 2 { return "", false, wrongNumParams(len(params)) } // Unmarshal first parameter as a string. err = json.Unmarshal(params[0], &account) if err != nil { return "", false, err } // Unmarshal second parameter as a boolean. err = json.Unmarshal(params[1], &locked) if err != nil { return "", false, err } return account, locked, nil } // FutureNotifyBlocksResult is a future promise to deliver the result of a // NotifyBlocksAsync RPC invocation (or an applicable error). type FutureNotifyBlocksResult chan *response // Receive waits for the response promised by the future and returns an error // if the registration was not successful. func (r FutureNotifyBlocksResult) Receive() error { _, err := receiveFuture(r) if err != nil { return err } return nil } // NotifyBlocksAsync returns an instance of a type that can be used to get the // result of the RPC at some future time by invoking the Receive function on // the returned instance. // // See NotifyBlocks for the blocking version and more details. // // NOTE: This is a btcd extension and requires a websocket connection. func (c *Client) NotifyBlocksAsync() FutureNotifyBlocksResult { // Not supported in HTTP POST mode. if c.config.HTTPPostMode { return newFutureError(ErrNotificationsNotSupported) } // Ignore the notification if the client is not interested in // notifications. if c.ntfnHandlers == nil { return newNilFutureResult() } cmd := btcjson.NewNotifyBlocksCmd() return c.sendCmd(cmd) } // NotifyBlocks registers the client to receive notifications when blocks are // connected and disconnected from the main chain. The notifications are // delivered to the notification handlers associated with the client. Calling // this function has no effect if there are no notification handlers and will // result in an error if the client is configured to run in HTTP POST mode. // // The notifications delivered as a result of this call will be via one of // OnBlockConnected or OnBlockDisconnected. // // NOTE: This is a btcd extension and requires a websocket connection. func (c *Client) NotifyBlocks() error { return c.NotifyBlocksAsync().Receive() } // FutureNotifySpentResult is a future promise to deliver the result of a // NotifySpentAsync RPC invocation (or an applicable error). type FutureNotifySpentResult chan *response // Receive waits for the response promised by the future and returns an error // if the registration was not successful. func (r FutureNotifySpentResult) Receive() error { _, err := receiveFuture(r) if err != nil { return err } return nil } // notifySpentInternal is the same as notifySpentAsync except it accepts // the converted outpoints as a parameter so the client can more efficiently // recreate the previous notification state on reconnect. func (c *Client) notifySpentInternal(outpoints []btcjson.OutPoint) FutureNotifySpentResult { // Not supported in HTTP POST mode. if c.config.HTTPPostMode { return newFutureError(ErrNotificationsNotSupported) } // Ignore the notification if the client is not interested in // notifications. if c.ntfnHandlers == nil { return newNilFutureResult() } cmd := btcjson.NewNotifySpentCmd(outpoints) return c.sendCmd(cmd) } // newOutPointFromWire constructs the btcjson representation of a transaction // outpoint from the wire type. func newOutPointFromWire(op *wire.OutPoint) btcjson.OutPoint { return btcjson.OutPoint{ Hash: op.Hash.String(), Index: op.Index, } } // NotifySpentAsync returns an instance of a type that can be used to get the // result of the RPC at some future time by invoking the Receive function on // the returned instance. // // See NotifySpent for the blocking version and more details. // // NOTE: This is a btcd extension and requires a websocket connection. func (c *Client) NotifySpentAsync(outpoints []*wire.OutPoint) FutureNotifySpentResult { // Not supported in HTTP POST mode. if c.config.HTTPPostMode { return newFutureError(ErrNotificationsNotSupported) } // Ignore the notification if the client is not interested in // notifications. if c.ntfnHandlers == nil { return newNilFutureResult() } ops := make([]btcjson.OutPoint, 0, len(outpoints)) for _, outpoint := range outpoints { ops = append(ops, newOutPointFromWire(outpoint)) } cmd := btcjson.NewNotifySpentCmd(ops) return c.sendCmd(cmd) } // NotifySpent registers the client to receive notifications when the passed // transaction outputs are spent. The notifications are delivered to the // notification handlers associated with the client. Calling this function has // no effect if there are no notification handlers and will result in an error // if the client is configured to run in HTTP POST mode. // // The notifications delivered as a result of this call will be via // OnRedeemingTx. // // NOTE: This is a btcd extension and requires a websocket connection. func (c *Client) NotifySpent(outpoints []*wire.OutPoint) error { return c.NotifySpentAsync(outpoints).Receive() } // FutureNotifyNewTransactionsResult is a future promise to deliver the result // of a NotifyNewTransactionsAsync RPC invocation (or an applicable error). type FutureNotifyNewTransactionsResult chan *response // Receive waits for the response promised by the future and returns an error // if the registration was not successful. func (r FutureNotifyNewTransactionsResult) Receive() error { _, err := receiveFuture(r) if err != nil { return err } return nil } // NotifyNewTransactionsAsync returns an instance of a type that can be used to // get the result of the RPC at some future time by invoking the Receive // function on the returned instance. // // See NotifyNewTransactionsAsync for the blocking version and more details. // // NOTE: This is a btcd extension and requires a websocket connection. func (c *Client) NotifyNewTransactionsAsync(verbose bool) FutureNotifyNewTransactionsResult { // Not supported in HTTP POST mode. if c.config.HTTPPostMode { return newFutureError(ErrNotificationsNotSupported) } // Ignore the notification if the client is not interested in // notifications. if c.ntfnHandlers == nil { return newNilFutureResult() } cmd := btcjson.NewNotifyNewTransactionsCmd(&verbose) return c.sendCmd(cmd) } // NotifyNewTransactions registers the client to receive notifications every // time a new transaction is accepted to the memory pool. The notifications are // delivered to the notification handlers associated with the client. Calling // this function has no effect if there are no notification handlers and will // result in an error if the client is configured to run in HTTP POST mode. // // The notifications delivered as a result of this call will be via one of // OnTxAccepted (when verbose is false) or OnTxAcceptedVerbose (when verbose is // true). // // NOTE: This is a btcd extension and requires a websocket connection. func (c *Client) NotifyNewTransactions(verbose bool) error { return c.NotifyNewTransactionsAsync(verbose).Receive() } // FutureNotifyReceivedResult is a future promise to deliver the result of a // NotifyReceivedAsync RPC invocation (or an applicable error). type FutureNotifyReceivedResult chan *response // Receive waits for the response promised by the future and returns an error // if the registration was not successful. func (r FutureNotifyReceivedResult) Receive() error { _, err := receiveFuture(r) if err != nil { return err } return nil } // notifyReceivedInternal is the same as notifyReceivedAsync except it accepts // the converted addresses as a parameter so the client can more efficiently // recreate the previous notification state on reconnect. func (c *Client) notifyReceivedInternal(addresses []string) FutureNotifyReceivedResult { // Not supported in HTTP POST mode. if c.config.HTTPPostMode { return newFutureError(ErrNotificationsNotSupported) } // Ignore the notification if the client is not interested in // notifications. if c.ntfnHandlers == nil { return newNilFutureResult() } // Convert addresses to strings. cmd := btcjson.NewNotifyReceivedCmd(addresses) return c.sendCmd(cmd) } // NotifyReceivedAsync returns an instance of a type that can be used to get the // result of the RPC at some future time by invoking the Receive function on // the returned instance. // // See NotifyReceived for the blocking version and more details. // // NOTE: This is a btcd extension and requires a websocket connection. func (c *Client) NotifyReceivedAsync(addresses []btcutil.Address) FutureNotifyReceivedResult { // Not supported in HTTP POST mode. if c.config.HTTPPostMode { return newFutureError(ErrNotificationsNotSupported) } // Ignore the notification if the client is not interested in // notifications. if c.ntfnHandlers == nil { return newNilFutureResult() } // Convert addresses to strings. addrs := make([]string, 0, len(addresses)) for _, addr := range addresses { addrs = append(addrs, addr.String()) } cmd := btcjson.NewNotifyReceivedCmd(addrs) return c.sendCmd(cmd) } // NotifyReceived registers the client to receive notifications every time a // new transaction which pays to one of the passed addresses is accepted to // memory pool or in a block connected to the block chain. In addition, when // one of these transactions is detected, the client is also automatically // registered for notifications when the new transaction outpoints the address // now has available are spent (See NotifySpent). The notifications are // delivered to the notification handlers associated with the client. Calling // this function has no effect if there are no notification handlers and will // result in an error if the client is configured to run in HTTP POST mode. // // The notifications delivered as a result of this call will be via one of // *OnRecvTx (for transactions that receive funds to one of the passed // addresses) or OnRedeemingTx (for transactions which spend from one // of the outpoints which are automatically registered upon receipt of funds to // the address). // // NOTE: This is a btcd extension and requires a websocket connection. func (c *Client) NotifyReceived(addresses []btcutil.Address) error { return c.NotifyReceivedAsync(addresses).Receive() } // FutureRescanResult is a future promise to deliver the result of a RescanAsync // or RescanEndHeightAsync RPC invocation (or an applicable error). type FutureRescanResult chan *response // Receive waits for the response promised by the future and returns an error // if the rescan was not successful. func (r FutureRescanResult) Receive() error { _, err := receiveFuture(r) if err != nil { return err } return nil } // RescanAsync returns an instance of a type that can be used to get the result // of the RPC at some future time by invoking the Receive function on the // returned instance. // // See Rescan for the blocking version and more details. // // NOTE: Rescan requests are not issued on client reconnect and must be // performed manually (ideally with a new start height based on the last // rescan progress notification). See the OnClientConnected notification // callback for a good callsite to reissue rescan requests on connect and // reconnect. // // NOTE: This is a btcd extension and requires a websocket connection. func (c *Client) RescanAsync(startBlock *wire.ShaHash, addresses []btcutil.Address, outpoints []*wire.OutPoint) FutureRescanResult { // Not supported in HTTP POST mode. if c.config.HTTPPostMode { return newFutureError(ErrNotificationsNotSupported) } // Ignore the notification if the client is not interested in // notifications. if c.ntfnHandlers == nil { return newNilFutureResult() } // Convert block hashes to strings. var startBlockShaStr string if startBlock != nil { startBlockShaStr = startBlock.String() } // Convert addresses to strings. addrs := make([]string, 0, len(addresses)) for _, addr := range addresses { addrs = append(addrs, addr.String()) } // Convert outpoints. ops := make([]btcjson.OutPoint, 0, len(outpoints)) for _, op := range outpoints { ops = append(ops, newOutPointFromWire(op)) } cmd := btcjson.NewRescanCmd(startBlockShaStr, addrs, ops, nil) return c.sendCmd(cmd) } // Rescan rescans the block chain starting from the provided starting block to // the end of the longest chain for transactions that pay to the passed // addresses and transactions which spend the passed outpoints. // // The notifications of found transactions are delivered to the notification // handlers associated with client and this call will not return until the // rescan has completed. Calling this function has no effect if there are no // notification handlers and will result in an error if the client is configured // to run in HTTP POST mode. // // The notifications delivered as a result of this call will be via one of // OnRedeemingTx (for transactions which spend from the one of the // passed outpoints), OnRecvTx (for transactions that receive funds // to one of the passed addresses), and OnRescanProgress (for rescan progress // updates). // // See RescanEndBlock to also specify an ending block to finish the rescan // without continuing through the best block on the main chain. // // NOTE: Rescan requests are not issued on client reconnect and must be // performed manually (ideally with a new start height based on the last // rescan progress notification). See the OnClientConnected notification // callback for a good callsite to reissue rescan requests on connect and // reconnect. // // NOTE: This is a btcd extension and requires a websocket connection. func (c *Client) Rescan(startBlock *wire.ShaHash, addresses []btcutil.Address, outpoints []*wire.OutPoint) error { return c.RescanAsync(startBlock, addresses, outpoints).Receive() } // RescanEndBlockAsync returns an instance of a type that can be used to get // the result of the RPC at some future time by invoking the Receive function on // the returned instance. // // See RescanEndBlock for the blocking version and more details. // // NOTE: This is a btcd extension and requires a websocket connection. func (c *Client) RescanEndBlockAsync(startBlock *wire.ShaHash, addresses []btcutil.Address, outpoints []*wire.OutPoint, endBlock *wire.ShaHash) FutureRescanResult { // Not supported in HTTP POST mode. if c.config.HTTPPostMode { return newFutureError(ErrNotificationsNotSupported) } // Ignore the notification if the client is not interested in // notifications. if c.ntfnHandlers == nil { return newNilFutureResult() } // Convert block hashes to strings. var startBlockShaStr, endBlockShaStr string if startBlock != nil { startBlockShaStr = startBlock.String() } if endBlock != nil { endBlockShaStr = endBlock.String() } // Convert addresses to strings. addrs := make([]string, 0, len(addresses)) for _, addr := range addresses { addrs = append(addrs, addr.String()) } // Convert outpoints. ops := make([]btcjson.OutPoint, 0, len(outpoints)) for _, op := range outpoints { ops = append(ops, newOutPointFromWire(op)) } cmd := btcjson.NewRescanCmd(startBlockShaStr, addrs, ops, &endBlockShaStr) return c.sendCmd(cmd) } // RescanEndHeight rescans the block chain starting from the provided starting // block up to the provided ending block for transactions that pay to the // passed addresses and transactions which spend the passed outpoints. // // The notifications of found transactions are delivered to the notification // handlers associated with client and this call will not return until the // rescan has completed. Calling this function has no effect if there are no // notification handlers and will result in an error if the client is configured // to run in HTTP POST mode. // // The notifications delivered as a result of this call will be via one of // OnRedeemingTx (for transactions which spend from the one of the // passed outpoints), OnRecvTx (for transactions that receive funds // to one of the passed addresses), and OnRescanProgress (for rescan progress // updates). // // See Rescan to also perform a rescan through current end of the longest chain. // // NOTE: This is a btcd extension and requires a websocket connection. func (c *Client) RescanEndHeight(startBlock *wire.ShaHash, addresses []btcutil.Address, outpoints []*wire.OutPoint, endBlock *wire.ShaHash) error { return c.RescanEndBlockAsync(startBlock, addresses, outpoints, endBlock).Receive() }