/* * Copyright (c) 2013, 2014 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. */ // This file implements the RPC connection interface and functions to // communicate with a bitcoin RPC server. package main import ( "github.com/conformal/btcjson" "github.com/conformal/btcwire" "github.com/conformal/btcws" ) // RPCRequest is a type responsible for handling RPC requests and providing // a method to access the response. type RPCRequest struct { request btcjson.Cmd result interface{} response chan *RPCResponse } // NewRPCRequest creates a new RPCRequest from a btcjson.Cmd. request may be // nil to create a new var for the result (with types determined by the // unmarshaling rules described in the json package), or set to a var with // an expected type (i.e. *btcjson.BlockResult) to directly unmarshal the // response's result into a convenient type. func NewRPCRequest(request btcjson.Cmd, result interface{}) *RPCRequest { return &RPCRequest{ request: request, result: result, response: make(chan *RPCResponse), } } // RPCResponse holds a response's result and error returned from sending a // RPCRequest. type RPCResponse struct { // Result will be set to a concrete type (i.e. *btcjson.BlockResult) // and may be type asserted to that type if a non-nil result was used // to create the originating RPCRequest. Otherwise, Result will be // set to new memory allocated by json.Unmarshal, and the type rules // for unmarshaling described in the json package should be followed // when type asserting Result. Result interface{} // Err points to an unmarshaled error, or nil if result is valid. Err *btcjson.Error } // RPCConn is an interface representing a client connection to a bitcoin RPC // server. type RPCConn interface { // SendRequest sends a bitcoin RPC request, returning a channel to // read the reply. A channel is used so both synchronous and // asynchronous RPC can be supported. SendRequest(request *RPCRequest) chan *RPCResponse } // GetBestBlockResult holds the result of a getbestblock response. // // TODO(jrick): shove this in btcws. type GetBestBlockResult struct { Hash string `json:"hash"` Height int32 `json:"height"` } // GetBestBlock gets both the block height and hash of the best block // in the main chain. func GetBestBlock(rpc RPCConn) (*GetBestBlockResult, *btcjson.Error) { cmd := btcws.NewGetBestBlockCmd(<-NewJSONID) request := NewRPCRequest(cmd, new(GetBestBlockResult)) response := <-rpc.SendRequest(request) if response.Err != nil { return nil, response.Err } return response.Result.(*GetBestBlockResult), nil } // GetBlock requests details about a block with the given hash. func GetBlock(rpc RPCConn, blockHash string) (*btcjson.BlockResult, *btcjson.Error) { // NewGetBlockCmd cannot fail with no optargs, so omit the check. cmd, _ := btcjson.NewGetBlockCmd(<-NewJSONID, blockHash) request := NewRPCRequest(cmd, new(btcjson.BlockResult)) response := <-rpc.SendRequest(request) if response.Err != nil { return nil, response.Err } return response.Result.(*btcjson.BlockResult), nil } // GetCurrentNet requests the network a bitcoin RPC server is running on. func GetCurrentNet(rpc RPCConn) (btcwire.BitcoinNet, *btcjson.Error) { cmd := btcws.NewGetCurrentNetCmd(<-NewJSONID) request := NewRPCRequest(cmd, nil) response := <-rpc.SendRequest(request) if response.Err != nil { return 0, response.Err } return btcwire.BitcoinNet(uint32(response.Result.(float64))), nil } // NotifyNewTXs requests notifications for new transactions that spend // to any of the addresses in addrs. func NotifyNewTXs(rpc RPCConn, addrs []string) *btcjson.Error { cmd := btcws.NewNotifyNewTXsCmd(<-NewJSONID, addrs) request := NewRPCRequest(cmd, nil) response := <-rpc.SendRequest(request) return response.Err } // NotifySpent requests notifications for when a transaction is processed which // spends op. func NotifySpent(rpc RPCConn, op *btcwire.OutPoint) *btcjson.Error { cmd := btcws.NewNotifySpentCmd(<-NewJSONID, op) request := NewRPCRequest(cmd, nil) response := <-rpc.SendRequest(request) return response.Err } // Rescan requests a blockchain rescan for transactions to any number of // addresses and notifications to inform wallet about such transactions. func Rescan(rpc RPCConn, beginBlock int32, addrs map[string]struct{}) *btcjson.Error { // NewRescanCmd cannot fail with no optargs, so omit the check. cmd, _ := btcws.NewRescanCmd(<-NewJSONID, beginBlock, addrs) request := NewRPCRequest(cmd, nil) response := <-rpc.SendRequest(request) return response.Err } // SendRawTransaction sends a hex-encoded transaction for relay. func SendRawTransaction(rpc RPCConn, hextx string) (txid string, error *btcjson.Error) { // NewSendRawTransactionCmd cannot fail, so omit the check. cmd, _ := btcjson.NewSendRawTransactionCmd(<-NewJSONID, hextx) request := NewRPCRequest(cmd, new(string)) response := <-rpc.SendRequest(request) if response.Err != nil { return "", response.Err } return *response.Result.(*string), nil }