/* * Copyright (c) 2013 Conformal Systems LLC * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ package main import ( "encoding/hex" "encoding/json" "errors" "fmt" "github.com/conformal/btcjson" "github.com/conformal/btcwallet/wallet" "github.com/conformal/btcwire" "github.com/conformal/btcws" "time" ) var ( // ErrBtcdDisconnected describes an error where an operation cannot // successfully complete due to btcd not being connected to // btcwallet. ErrBtcdDisconnected = errors.New("btcd disconnected") ) type cmdHandler func(chan []byte, btcjson.Cmd) var rpcHandlers = map[string]cmdHandler{ // Standard bitcoind methods "dumpprivkey": DumpPrivKey, "getaddressesbyaccount": GetAddressesByAccount, "getbalance": GetBalance, "getnewaddress": GetNewAddress, "importprivkey": ImportPrivKey, "listaccounts": ListAccounts, "sendfrom": SendFrom, "sendmany": SendMany, "settxfee": SetTxFee, "walletlock": WalletLock, "walletpassphrase": WalletPassphrase, // Extensions not exclusive to websocket connections. "createencryptedwallet": CreateEncryptedWallet, } // Extensions exclusive to websocket connections. var wsHandlers = map[string]cmdHandler{ "getbalances": GetBalances, "walletislocked": WalletIsLocked, } // ProcessRequest checks the requests sent from a frontend. If the // request method is one that must be handled by btcwallet, the // request is processed here. Otherwise, the request is sent to btcd // and btcd's reply is routed back to the frontend. func ProcessRequest(frontend chan []byte, msg []byte, ws bool) { // Parse marshaled command and check cmd, err := btcjson.ParseMarshaledCmd(msg) if err != nil { // Check that msg is valid JSON-RPC. Reply to frontend // with error if invalid. if cmd == nil { ReplyError(frontend, nil, &btcjson.ErrInvalidRequest) return } // btcwallet cannot handle this command, so defer handling // to btcd. DeferToBTCD(frontend, msg) return } // Check for a handler to reply to cmd. If none exist, defer to btcd. if f, ok := rpcHandlers[cmd.Method()]; ok { f(frontend, cmd) } else if f, ok := wsHandlers[cmd.Method()]; ws && ok { f(frontend, cmd) } else { // btcwallet does not have a handler for the command. Pass // to btcd and route replies back to the appropiate frontend. DeferToBTCD(frontend, msg) } } // DeferToBTCD sends an unmarshaled command to btcd, modifying the id // and setting up a reply route to route the reply from btcd back to // the frontend reply channel with the original id. func DeferToBTCD(frontend chan []byte, msg []byte) { // msg cannot be sent to btcd directly, but the ID must instead be // changed to include additonal routing information so replies can // be routed back to the correct frontend. Unmarshal msg into a // generic btcjson.Message struct so the ID can be modified and the // whole thing re-marshaled. var m btcjson.Message json.Unmarshal(msg, &m) // Create a new ID so replies can be routed correctly. n := <-NewJSONID var id interface{} = RouteID(m.Id, n) m.Id = &id // Marshal the request with modified ID. newMsg, err := json.Marshal(m) if err != nil { log.Errorf("DeferToBTCD: Cannot marshal message: %v", err) return } // If marshaling suceeded, save the id and frontend reply channel // so the reply can be sent to the correct frontend. replyRouter.Lock() replyRouter.m[n] = frontend replyRouter.Unlock() // Send message with modified ID to btcd. btcdMsgs <- newMsg } // RouteID creates a JSON-RPC id for a frontend request that was deferred // to btcd. func RouteID(origID, routeID interface{}) string { return fmt.Sprintf("btcwallet(%v)-%v", routeID, origID) } // ReplyError creates and marshals a btcjson.Reply with the error e, // sending the reply to a frontend reply channel. func ReplyError(frontend chan []byte, id interface{}, e *btcjson.Error) { // Create a Reply with a non-nil error to marshal. r := btcjson.Reply{ Error: e, Id: &id, } // Marshal reply and send to frontend if marshaling suceeded. if mr, err := json.Marshal(r); err == nil { frontend <- mr } } // ReplySuccess creates and marshals a btcjson.Reply with the result r, // sending the reply to a frontend reply channel. func ReplySuccess(frontend chan []byte, id interface{}, result interface{}) { // Create a Reply with a non-nil result to marshal. r := btcjson.Reply{ Result: result, Id: &id, } // Marshal reply and send to frontend if marshaling suceeded. if mr, err := json.Marshal(r); err == nil { frontend <- mr } } // DumpPrivKey replies to a dumpprivkey request with the private // key for a single address, or an appropiate error if the wallet // is locked. func DumpPrivKey(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcjson.DumpPrivKeyCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } // Iterate over all accounts, returning the key if it is found // in any wallet. for _, a := range accounts.m { switch key, err := a.DumpWIFPrivateKey(cmd.Address); err { case wallet.ErrAddressNotFound: // Move on to the next account. continue case wallet.ErrWalletLocked: // Address was found, but the private key isn't // accessible. ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletUnlockNeeded) return case nil: // Key was found. ReplySuccess(frontend, cmd.Id(), key) return default: // all other non-nil errors e := &btcjson.Error{ Code: btcjson.ErrWallet.Code, Message: err.Error(), } ReplyError(frontend, cmd.Id(), e) return } } // If this is reached, all accounts have been checked, but none // have they address. e := &btcjson.Error{ Code: btcjson.ErrWallet.Code, Message: "Address does not refer to a key", } ReplyError(frontend, cmd.Id(), e) } // DumpWallet replies to a dumpwallet request with all private keys // in a wallet, or an appropiate error if the wallet is locked. // TODO: finish this to match bitcoind by writing the dump to a file. func DumpWallet(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcjson.DumpWalletCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } // Iterate over all accounts, appending the private keys // for each. var keys []string for _, a := range accounts.m { switch walletKeys, err := a.DumpPrivKeys(); err { case wallet.ErrWalletLocked: ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletUnlockNeeded) return case nil: keys = append(keys, walletKeys...) default: // any other non-nil error e := &btcjson.Error{ Code: btcjson.ErrWallet.Code, Message: err.Error(), } ReplyError(frontend, cmd.Id(), e) } } // Reply with sorted WIF encoded private keys ReplySuccess(frontend, cmd.Id(), keys) } // GetAddressesByAccount replies to a getaddressesbyaccount request with // all addresses for an account, or an error if the requested account does // not exist. func GetAddressesByAccount(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcjson.GetAddressesByAccountCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } // Check that the account specified in the request exists. a, ok := accounts.m[cmd.Account] if !ok { ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletInvalidAccountName) return } // Reply with sorted active payment addresses. ReplySuccess(frontend, cmd.Id(), a.SortedActivePaymentAddresses()) } // GetBalance replies to a getbalance request with the balance for an // account (wallet), or an error if the requested account does not // exist. func GetBalance(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcjson.GetBalanceCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } // Check that the account specified in the request exists. a, ok := accounts.m[cmd.Account] if !ok { ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletInvalidAccountName) return } // Reply with calculated balance. ReplySuccess(frontend, cmd.Id(), a.CalculateBalance(cmd.MinConf)) } // GetBalances replies to a getbalances extension request by notifying // the frontend of all balances for each opened account. func GetBalances(frontend chan []byte, cmd btcjson.Cmd) { NotifyBalances(frontend) } // ImportPrivKey replies to an importprivkey request by parsing // a WIF-encoded private key and adding it to an account. func ImportPrivKey(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcjson.ImportPrivKeyCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } // Check that the account specified in the requests exists. // Yes, Label is the account name. a, ok := accounts.m[cmd.Label] if !ok { ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletInvalidAccountName) return } // Create a blockstamp for when this address first appeared. // Because the importprivatekey RPC call does not allow // specifying when the address first appeared, we must make // a worst case guess. bs := &wallet.BlockStamp{Height: 0} // Attempt importing the private key, replying with an appropiate // error if the import was unsuccesful. addr, err := a.ImportWIFPrivateKey(cmd.PrivKey, cmd.Label, bs) switch { case err == wallet.ErrWalletLocked: ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletUnlockNeeded) return case err != nil: e := &btcjson.Error{ Code: btcjson.ErrWallet.Code, Message: err.Error(), } ReplyError(frontend, cmd.Id(), e) return } if cmd.Rescan { addrs := map[string]struct{}{ addr: struct{}{}, } a.RescanAddresses(bs.Height, addrs) } // If the import was successful, reply with nil. ReplySuccess(frontend, cmd.Id(), nil) } // NotifyBalances notifies an attached frontend of the current confirmed // and unconfirmed account balances. // // TODO(jrick): Switch this to return a JSON object (map) of all accounts // and their balances, instead of separate notifications for each account. func NotifyBalances(frontend chan []byte) { for _, a := range accounts.m { balance := a.CalculateBalance(1) unconfirmed := a.CalculateBalance(0) - balance NotifyWalletBalance(frontend, a.name, balance) NotifyWalletBalanceUnconfirmed(frontend, a.name, unconfirmed) } } // GetNewAddress responds to a getnewaddress request by getting a new // address for an account. If the account does not exist, an appropiate // error is returned to the frontend. func GetNewAddress(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcjson.GetNewAddressCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } // Check that the account specified in the request exists. a, ok := accounts.m[cmd.Account] if !ok { ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletInvalidAccountName) return } // Get next address from wallet. addr, err := a.NextUnusedAddress() if err != nil { // TODO(jrick): generate new addresses if the address pool is // empty. e := btcjson.ErrInternal e.Message = fmt.Sprintf("New address generation not implemented yet") ReplyError(frontend, cmd.Id(), &e) return } // Write updated wallet to disk. a.dirty = true if err = a.writeDirtyToDisk(); err != nil { log.Errorf("cannot sync dirty wallet: %v", err) } // Request updates from btcd for new transactions sent to this address. a.ReqNewTxsForAddress(addr) // Reply with the new payment address string. ReplySuccess(frontend, cmd.Id(), addr) } // ListAccounts replies to a listaccounts request by returning a JSON // object mapping account names with their balances. func ListAccounts(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcjson.ListAccountsCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } // Create and fill a map of account names and their balances. pairs := make(map[string]float64) for aname, a := range accounts.m { pairs[aname] = a.CalculateBalance(cmd.MinConf) } // Reply with the map. This will be marshaled into a JSON object. ReplySuccess(frontend, cmd.Id(), pairs) } // SendFrom creates a new transaction spending unspent transaction // outputs for a wallet to another payment address. Leftover inputs // not sent to the payment address or a fee for the miner are sent // back to a new address in the wallet. Upon success, the TxID // for the created transaction is sent to the frontend. func SendFrom(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcjson.SendFromCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } // Check that signed integer parameters are positive. if cmd.Amount < 0 { e := &btcjson.Error{ Code: btcjson.ErrInvalidParameter.Code, Message: "amount must be positive", } ReplyError(frontend, cmd.Id(), e) return } if cmd.MinConf < 0 { e := &btcjson.Error{ Code: btcjson.ErrInvalidParameter.Code, Message: "minconf must be positive", } ReplyError(frontend, cmd.Id(), e) return } // Check that the account specified in the request exists. a, ok := accounts.m[cmd.FromAccount] if !ok { ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletInvalidAccountName) return } // Create map of address and amount pairs. pairs := map[string]int64{ cmd.ToAddress: cmd.Amount, } // Get fee to add to tx. // TODO(jrick): this needs to be fee per kB. TxFee.Lock() fee := TxFee.i TxFee.Unlock() // Create transaction, replying with an error if the creation // was not successful. createdTx, err := a.txToPairs(pairs, fee, cmd.MinConf) switch { case err == ErrNonPositiveAmount: e := &btcjson.Error{ Code: btcjson.ErrInvalidParameter.Code, Message: "amount must be positive", } ReplyError(frontend, cmd.Id(), e) return case err == wallet.ErrWalletLocked: ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletUnlockNeeded) return case err != nil: e := &btcjson.Error{ Code: btcjson.ErrInternal.Code, Message: err.Error(), } ReplyError(frontend, cmd.Id(), e) return } // If a change address was added, mark wallet as dirty, sync to disk, // and Request updates for change address. if len(createdTx.changeAddr) != 0 { a.dirty = true if err := a.writeDirtyToDisk(); err != nil { log.Errorf("cannot write dirty wallet: %v", err) } a.ReqNewTxsForAddress(createdTx.changeAddr) } // Create sendrawtransaction request with hexstring of the raw tx. n := <-NewJSONID var id interface{} = fmt.Sprintf("btcwallet(%v)", n) m, err := btcjson.CreateMessageWithId("sendrawtransaction", id, hex.EncodeToString(createdTx.rawTx)) if err != nil { e := &btcjson.Error{ Code: btcjson.ErrInternal.Code, Message: err.Error(), } ReplyError(frontend, cmd.Id(), e) return } // Set up a reply handler to respond to the btcd reply. replyHandlers.Lock() replyHandlers.m[n] = func(result interface{}, err *btcjson.Error) bool { return handleSendRawTxReply(frontend, cmd, result, err, a, createdTx) } replyHandlers.Unlock() // Send sendrawtransaction request to btcd. btcdMsgs <- m } // SendMany creates a new transaction spending unspent transaction // outputs for a wallet to any number of payment addresses. Leftover // inputs not sent to the payment address or a fee for the miner are // sent back to a new address in the wallet. Upon success, the TxID // for the created transaction is sent to the frontend. func SendMany(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcjson.SendManyCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } // Check that minconf is positive. if cmd.MinConf < 0 { e := &btcjson.Error{ Code: btcjson.ErrInvalidParameter.Code, Message: "minconf must be positive", } ReplyError(frontend, cmd.Id(), e) return } // Check that the account specified in the request exists. a, ok := accounts.m[cmd.FromAccount] if !ok { ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletInvalidAccountName) return } // Get fee to add to tx. // TODO(jrick): this needs to be fee per kB. TxFee.Lock() fee := TxFee.i TxFee.Unlock() // Create transaction, replying with an error if the creation // was not successful. createdTx, err := a.txToPairs(cmd.Amounts, fee, cmd.MinConf) switch { case err == ErrNonPositiveAmount: e := &btcjson.Error{ Code: btcjson.ErrInvalidParameter.Code, Message: "amount must be positive", } ReplyError(frontend, cmd.Id(), e) return case err == wallet.ErrWalletLocked: ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletUnlockNeeded) return case err != nil: e := &btcjson.Error{ Code: btcjson.ErrInternal.Code, Message: err.Error(), } ReplyError(frontend, cmd.Id(), e) return } // If a change address was added, mark wallet as dirty, sync to disk, // and request updates for change address. if len(createdTx.changeAddr) != 0 { a.dirty = true if err := a.writeDirtyToDisk(); err != nil { log.Errorf("cannot write dirty wallet: %v", err) } a.ReqNewTxsForAddress(createdTx.changeAddr) } // Create sendrawtransaction request with hexstring of the raw tx. n := <-NewJSONID var id interface{} = fmt.Sprintf("btcwallet(%v)", n) m, err := btcjson.CreateMessageWithId("sendrawtransaction", id, hex.EncodeToString(createdTx.rawTx)) if err != nil { e := &btcjson.Error{ Code: btcjson.ErrInternal.Code, Message: err.Error(), } ReplyError(frontend, cmd.Id(), e) return } // Set up a reply handler to respond to the btcd reply. replyHandlers.Lock() replyHandlers.m[n] = func(result interface{}, err *btcjson.Error) bool { return handleSendRawTxReply(frontend, cmd, result, err, a, createdTx) } replyHandlers.Unlock() // Send sendrawtransaction request to btcd. btcdMsgs <- m } func handleSendRawTxReply(frontend chan []byte, icmd btcjson.Cmd, result interface{}, err *btcjson.Error, a *Account, txInfo *CreatedTx) bool { if err != nil { ReplyError(frontend, icmd.Id(), err) return true } // Remove previous unspent outputs now spent by the tx. a.UtxoStore.Lock() modified := a.UtxoStore.s.Remove(txInfo.inputs) // Add unconfirmed change utxo (if any) to UtxoStore. if txInfo.changeUtxo != nil { a.UtxoStore.s = append(a.UtxoStore.s, txInfo.changeUtxo) a.ReqSpentUtxoNtfn(txInfo.changeUtxo) modified = true } if modified { a.UtxoStore.dirty = true a.UtxoStore.Unlock() if err := a.writeDirtyToDisk(); err != nil { log.Errorf("cannot sync dirty wallet: %v", err) } // Notify all frontends of account's new unconfirmed and // confirmed balance. confirmed := a.CalculateBalance(1) unconfirmed := a.CalculateBalance(0) - confirmed NotifyWalletBalance(frontendNotificationMaster, a.name, confirmed) NotifyWalletBalanceUnconfirmed(frontendNotificationMaster, a.name, unconfirmed) } else { a.UtxoStore.Unlock() } // btcd cannot be trusted to successfully relay the tx to the // Bitcoin network. Even if this succeeds, the rawtx must be // saved and checked for an appearence in a later block. btcd // will make a best try effort, but ultimately it's btcwallet's // responsibility. // // Add hex string of raw tx to sent tx pool. If btcd disconnects // and is reconnected, these txs are resent. UnminedTxs.Lock() UnminedTxs.m[TXID(result.(string))] = txInfo UnminedTxs.Unlock() log.Debugf("successfully sent transaction %v", result) ReplySuccess(frontend, icmd.Id(), result) // The comments to be saved differ based on the underlying type // of the cmd, so switch on the type to check whether it is a // SendFromCmd or SendManyCmd. // // TODO(jrick): If message succeeded in being sent, save the // transaction details with comments. switch cmd := icmd.(type) { case *btcjson.SendFromCmd: _ = cmd.Comment _ = cmd.CommentTo case *btcjson.SendManyCmd: _ = cmd.Comment } return true } // SetTxFee sets the global transaction fee added to transactions. func SetTxFee(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcjson.SetTxFeeCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } // Check that amount is not negative. if cmd.Amount < 0 { e := &btcjson.Error{ Code: btcjson.ErrInvalidParams.Code, Message: "amount cannot be negative", } ReplyError(frontend, cmd.Id(), e) return } // Set global tx fee. // // TODO(jrick): this must be a fee per kB. // TODO(jrick): need to notify all frontends of new tx fee. TxFee.Lock() TxFee.i = cmd.Amount TxFee.Unlock() // A boolean true result is returned upon success. ReplySuccess(frontend, cmd.Id(), true) } // CreateEncryptedWallet creates a new account with an encrypted // wallet. If an account with the same name as the requested account // name already exists, an invalid account name error is returned to // the client. // // Wallets will be created on TestNet3, or MainNet if btcwallet is run with // the --mainnet option. func CreateEncryptedWallet(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcws.CreateEncryptedWalletCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } // Grab the account map lock and defer the unlock. If an // account is successfully created, it will be added to the // map while the lock is held. accounts.Lock() defer accounts.Unlock() // Does this wallet already exist? if _, ok = accounts.m[cmd.Account]; ok { ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletInvalidAccountName) return } // Decide which Bitcoin network must be used. var net btcwire.BitcoinNet if cfg.MainNet { net = btcwire.MainNet } else { net = btcwire.TestNet3 } // Get current block's height and hash. bs, err := GetCurBlock() if err != nil { e := &btcjson.Error{ Code: btcjson.ErrInternal.Code, Message: "btcd disconnected", } ReplyError(frontend, cmd.Id(), e) return } // Create new wallet in memory. wlt, err := wallet.NewWallet(cmd.Account, cmd.Description, []byte(cmd.Passphrase), net, &bs) if err != nil { log.Error("Error creating wallet: " + err.Error()) ReplyError(frontend, cmd.Id(), &btcjson.ErrInternal) return } // Create new account with the wallet. A new JSON ID is set for // transaction notifications. a := &Account{ Wallet: wlt, name: cmd.Account, dirty: true, NewBlockTxSeqN: <-NewJSONID, } // Begin tracking account against a connected btcd. // // TODO(jrick): this should *only* happen if btcd is connected. a.Track() // Save the account in the global account map. The mutex is // already held at this point, and will be unlocked when this // func returns. accounts.m[cmd.Account] = a // Write new wallet to disk. if err := a.writeDirtyToDisk(); err != nil { log.Errorf("cannot sync dirty wallet: %v", err) } // Notify all frontends of this new account, and its balance. NotifyBalances(frontendNotificationMaster) // A nil reply is sent upon successful wallet creation. ReplySuccess(frontend, cmd.Id(), nil) } // WalletIsLocked responds to the walletislocked extension request by // replying with the current lock state (false for unlocked, true for // locked) of an account. An error is returned if the requested account // does not exist. func WalletIsLocked(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcws.WalletIsLockedCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } // Check that the account specified in the request exists. a, ok := accounts.m[cmd.Account] if !ok { ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletInvalidAccountName) return } // Reply with true for a locked wallet, and false for unlocked. ReplySuccess(frontend, cmd.Id(), a.IsLocked()) } // WalletLock responds to walletlock request by locking the wallet, // replying with an error if the wallet is already locked. // // TODO(jrick): figure out how multiple wallets/accounts will work // with this. Lock all the wallets, like if all accounts are locked // for one bitcoind wallet? func WalletLock(frontend chan []byte, icmd btcjson.Cmd) { if a, ok := accounts.m[""]; ok { if err := a.Lock(); err != nil { ReplyError(frontend, icmd.Id(), &btcjson.ErrWalletWrongEncState) return } ReplySuccess(frontend, icmd.Id(), nil) NotifyWalletLockStateChange("", true) } } // WalletPassphrase responds to the walletpassphrase request by unlocking // the wallet. The decryption key is saved in the wallet until timeout // seconds expires, after which the wallet is locked. // // TODO(jrick): figure out how to do this for non-default accounts. func WalletPassphrase(frontend chan []byte, icmd btcjson.Cmd) { // Type assert icmd to access parameters. cmd, ok := icmd.(*btcjson.WalletPassphraseCmd) if !ok { ReplyError(frontend, icmd.Id(), &btcjson.ErrInternal) return } if a, ok := accounts.m[""]; ok { if err := a.Unlock([]byte(cmd.Passphrase)); err != nil { ReplyError(frontend, cmd.Id(), &btcjson.ErrWalletPassphraseIncorrect) return } ReplySuccess(frontend, cmd.Id(), nil) NotifyWalletLockStateChange("", false) go func() { time.Sleep(time.Second * time.Duration(int64(cmd.Timeout))) a.Lock() NotifyWalletLockStateChange("", true) }() } } // AccountNtfn is a struct for marshalling any generic notification // about a account for a wallet frontend. // // TODO(jrick): move to btcjson so it can be shared with frontends? type AccountNtfn struct { Account string `json:"account"` Notification interface{} `json:"notification"` } // NotifyWalletLockStateChange sends a notification to all frontends // that the wallet has just been locked or unlocked. func NotifyWalletLockStateChange(account string, locked bool) { var id interface{} = "btcwallet:newwalletlockstate" m := btcjson.Reply{ Result: &AccountNtfn{ Account: account, Notification: locked, }, Id: &id, } msg, _ := json.Marshal(&m) frontendNotificationMaster <- msg } // NotifyWalletBalance sends a confirmed account balance notification // to a frontend. func NotifyWalletBalance(frontend chan []byte, account string, balance float64) { var id interface{} = "btcwallet:accountbalance" m := btcjson.Reply{ Result: &AccountNtfn{ Account: account, Notification: balance, }, Id: &id, } msg, _ := json.Marshal(&m) frontend <- msg } // NotifyWalletBalanceUnconfirmed sends a confirmed account balance // notification to a frontend. func NotifyWalletBalanceUnconfirmed(frontend chan []byte, account string, balance float64) { var id interface{} = "btcwallet:accountbalanceunconfirmed" m := btcjson.Reply{ Result: &AccountNtfn{ Account: account, Notification: balance, }, Id: &id, } msg, _ := json.Marshal(&m) frontend <- msg }