/* * 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/json" "fmt" "github.com/conformal/btcjson" "sync" "time" ) // Errors var ( // Standard JSON-RPC 2.0 errors InvalidRequest = btcjson.Error{ Code: -32600, Message: "Invalid request", } MethodNotFound = btcjson.Error{ Code: -32601, Message: "Method not found", } InvalidParams = btcjson.Error{ Code: -32602, Message: "Invalid paramaters", } InternalError = btcjson.Error{ Code: -32603, Message: "Internal error", } ParseError = btcjson.Error{ Code: -32700, Message: "Parse error", } // General application defined errors MiscError = btcjson.Error{ Code: -1, Message: "Miscellaneous error", } ForbiddenBySafeMode = btcjson.Error{ Code: -2, Message: "Server is in safe mode, and command is not allowed in safe mode", } TypeError = btcjson.Error{ Code: -3, Message: "Unexpected type was passed as parameter", } InvalidAddressOrKey = btcjson.Error{ Code: -5, Message: "Invalid address or key", } OutOfMemory = btcjson.Error{ Code: -7, Message: "Ran out of memory during operation", } InvalidParameter = btcjson.Error{ Code: -8, Message: "Invalid, missing or duplicate parameter", } DatabaseError = btcjson.Error{ Code: -20, Message: "Database error", } DeserializationError = btcjson.Error{ Code: -22, Message: "Error parsing or validating structure in raw format", } // Wallet errors WalletError = btcjson.Error{ Code: -4, Message: "Unspecified problem with wallet", } WalletInsufficientFunds = btcjson.Error{ Code: -6, Message: "Not enough funds in wallet or account", } WalletInvalidAccountName = btcjson.Error{ Code: -11, Message: "Invalid account name", } WalletKeypoolRanOut = btcjson.Error{ Code: -12, Message: "Keypool ran out, call keypoolrefill first", } WalletUnlockNeeded = btcjson.Error{ Code: -13, Message: "Enter the wallet passphrase with walletpassphrase first", } WalletPassphraseIncorrect = btcjson.Error{ Code: -14, Message: "The wallet passphrase entered was incorrect", } WalletWrongEncState = btcjson.Error{ Code: -15, Message: "Command given in wrong wallet encryption state", } WalletEncryptionFailed = btcjson.Error{ Code: -16, Message: "Failed to encrypt the wallet", } WalletAlreadyUnlocked = btcjson.Error{ Code: -17, Message: "Wallet is already unlocked", } ) var ( // seq holds the btcwallet sequence number for frontend messages // which must be sent to and received from btcd. A Mutex protects // against concurrent access. seq = struct { sync.Mutex n uint64 }{} // replyRouter maps uint64 ids to reply channels, so btcd replies can // be routed to the correct frontend. replyRouter = struct { sync.Mutex m map[uint64]chan []byte }{ m: make(map[uint64]chan []byte), } ) // ProcessFrontendMsg checks the message sent from a frontend. If the // message method is one that must be handled by btcwallet, the request // is processed here. Otherwise, the message is sent to btcd. func ProcessFrontendMsg(reply chan []byte, msg []byte) { cmd, err := btcjson.JSONGetMethod(msg) if err != nil { log.Error("Unable to parse JSON method from message.") return } switch cmd { case "getaddressesbyaccount": GetAddressesByAccount(reply, msg) case "getnewaddress": GetNewAddress(reply, msg) case "walletlock": WalletLock(reply, msg) case "walletpassphrase": WalletPassphrase(reply, msg) default: // btcwallet does not understand method. Pass to btcd. log.Info("Unknown btcwallet method", cmd) seq.Lock() n := seq.n seq.n++ seq.Unlock() var m map[string]interface{} json.Unmarshal(msg, &m) m["id"] = fmt.Sprintf("btcwallet(%v)-%v", n, m["id"]) newMsg, err := json.Marshal(m) if err != nil { log.Info("Error marshalling json: " + err.Error()) } replyRouter.Lock() replyRouter.m[n] = reply replyRouter.Unlock() btcdMsgs <- newMsg } } // ReplyError creates and marshalls a btcjson.Reply with the error e, // sending the reply to a reply channel. func ReplyError(reply chan []byte, id interface{}, e *btcjson.Error) { r := btcjson.Reply{ Error: e, Id: &id, } if mr, err := json.Marshal(r); err != nil { reply <- mr } } // ReplySuccess creates and marshalls a btcjson.Reply with the result r, // sending the reply to a reply channel. func ReplySuccess(reply chan []byte, id interface{}, result interface{}) { r := btcjson.Reply{ Result: result, Id: &id, } if mr, err := json.Marshal(r); err != nil { reply <- mr } } // GetAddressesByAccount Gets all addresses for an account. func GetAddressesByAccount(reply chan []byte, msg []byte) { var v map[string]interface{} json.Unmarshal(msg, &v) params := v["params"].([]interface{}) id := v["id"] r := btcjson.Reply{ Id: &id, } if w := wallets[params[0].(string)]; w != nil { r.Result = w.GetActiveAddresses() } else { r.Result = []interface{}{} } mr, err := json.Marshal(r) if err != nil { log.Info("Error marshalling reply: %v", err) return } reply <- mr } // GetNewAddress gets or generates a new address for an account. // // TODO(jrick): support non-default account wallets. func GetNewAddress(reply chan []byte, msg []byte) { var v map[string]interface{} json.Unmarshal(msg, &v) params := v["params"].([]interface{}) if len(params) == 0 || params[0].(string) == "" { if w := wallets[""]; w != nil { addr := w.NextUnusedAddress() id := v["id"] r := btcjson.Reply{ Result: addr, Id: &id, } mr, err := json.Marshal(r) if err != nil { log.Info("Error marshalling reply: %v", err) return } reply <- mr } } } // WalletLock locks the wallet. // // TODO(jrick): figure out how multiple wallets/accounts will work // with this. func WalletLock(reply chan []byte, msg []byte) { var v map[string]interface{} json.Unmarshal(msg, &v) if w := wallets[""]; w != nil { if err := w.Lock(); err != nil { ReplyError(reply, v["id"], &WalletWrongEncState) } else { ReplySuccess(reply, v["id"], nil) } } } // WalletPassphrase stores the decryption key for the default account, // unlocking the wallet. // // TODO(jrick): figure out how multiple wallets/accounts will work // with this. func WalletPassphrase(reply chan []byte, msg []byte) { var v map[string]interface{} json.Unmarshal(msg, &v) params := v["params"].([]interface{}) if len(params) != 2 { ReplyError(reply, v["id"], &InvalidParams) return } passphrase, ok1 := params[0].(string) timeout, ok2 := params[1].(float64) if !ok1 || !ok2 { ReplyError(reply, v["id"], &InvalidParams) return } if w := wallets[""]; w != nil { if err := w.Unlock([]byte(passphrase)); err != nil { ReplyError(reply, v["id"], &WalletPassphraseIncorrect) return } ReplySuccess(reply, v["id"], nil) go func() { time.Sleep(time.Second * time.Duration(int64(timeout))) w.Lock() }() } }