lbcd/rpcserver.go

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// Copyright (c) 2013 Conformal Systems LLC.
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package main
import (
"bytes"
"code.google.com/p/go.net/websocket"
"crypto/sha256"
"crypto/subtle"
"crypto/tls"
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"encoding/base64"
"encoding/hex"
"errors"
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"fmt"
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"github.com/conformal/btcchain"
"github.com/conformal/btcdb"
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"github.com/conformal/btcjson"
"github.com/conformal/btcscript"
"github.com/conformal/btcutil"
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"github.com/conformal/btcwire"
"io/ioutil"
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"math/big"
"net"
"net/http"
"os"
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"strconv"
"sync"
"sync/atomic"
"time"
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)
// rpcAuthTimeoutSeconds is the number of seconds a connection to the RPC server
// is allowed to stay open without authenticating before it is closed.
const rpcAuthTimeoutSeconds = 10
// Errors
var (
// ErrBadParamsField describes an error where the parameters JSON
// field cannot be properly parsed.
ErrBadParamsField = errors.New("bad params field")
)
type commandHandler func(*rpcServer, btcjson.Cmd) (interface{}, error)
// handlers maps RPC command strings to appropriate handler functions.
// this is copied by init because help references rpcHandlers and thus causes
// a dependancy loop.
var rpcHandlers map[string]commandHandler
var rpcHandlersBeforeInit = map[string]commandHandler{
"addnode": handleAddNode,
"createrawtransaction": handleCreateRawTransaction,
"debuglevel": handleDebugLevel,
"decoderawtransaction": handleDecodeRawTransaction,
"decodescript": handleDecodeScript,
"getaddednodeinfo": handleGetAddedNodeInfo,
"getbestblockhash": handleGetBestBlockHash,
"getblock": handleGetBlock,
"getblockcount": handleGetBlockCount,
"getblockhash": handleGetBlockHash,
"getconnectioncount": handleGetConnectionCount,
"getdifficulty": handleGetDifficulty,
"getgenerate": handleGetGenerate,
"gethashespersec": handleGetHashesPerSec,
"getinfo": handleGetInfo,
"getnettotals": handleGetNetTotals,
"getnetworkhashps": handleGetNetworkHashPS,
"getpeerinfo": handleGetPeerInfo,
"getrawmempool": handleGetRawMempool,
"getrawtransaction": handleGetRawTransaction,
"help": handleHelp,
"ping": handlePing,
"sendrawtransaction": handleSendRawTransaction,
"setgenerate": handleSetGenerate,
"stop": handleStop,
"submitblock": handleSubmitBlock,
"verifychain": handleVerifyChain,
}
func init() {
rpcHandlers = rpcHandlersBeforeInit
}
// list of commands that we recognise, but for which btcd has no support because
// it lacks support for wallet functionality. For these commands the user
// should ask a connected instance of btcwallet.
var rpcAskWallet = map[string]bool{
"addmultisigaddress": true,
"backupwallet": true,
"createmultisig": true,
"dumpprivkey": true,
"dumpwallet": true,
"encryptwallet": true,
"getaccount": true,
"getaccountaddress": true,
"getaddressesbyaccount": true,
"getbalance": true,
"getblocktemplate": true,
"getnewaddress": true,
"getrawchangeaddress": true,
"getreceivedbyaccount": true,
"getreceivedbyaddress": true,
"gettransaction": true,
"gettxout": true,
"gettxoutsetinfo": true,
"getwork": true,
"importprivkey": true,
"importwallet": true,
"keypoolrefill": true,
"listaccounts": true,
"listaddressgroupings": true,
"listlockunspent": true,
"listreceivedbyaccount": true,
"listreceivedbyaddress": true,
"listsinceblock": true,
"listtransactions": true,
"listunspent": true,
"lockunspent": true,
"move": true,
"sendfrom": true,
"sendmany": true,
"sendtoaddress": true,
"setaccount": true,
"settxfee": true,
"signmessage": true,
"signrawtransaction": true,
"validateaddress": true,
"verifymessage": true,
"walletlock": true,
"walletpassphrase": true,
"walletpassphrasechange": true,
}
// Commands that are temporarily unimplemented.
var rpcUnimplemented = map[string]bool{
"getmininginfo": true,
}
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// rpcServer holds the items the rpc server may need to access (config,
// shutdown, main server, etc.)
type rpcServer struct {
started int32
shutdown int32
server *server
authsha [sha256.Size]byte
ws *wsContext
wg sync.WaitGroup
listeners []net.Listener
quit chan int
}
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// Start is used by server.go to start the rpc listener.
func (s *rpcServer) Start() {
if atomic.AddInt32(&s.started, 1) != 1 {
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return
}
rpcsLog.Trace("Starting RPC server")
rpcServeMux := http.NewServeMux()
httpServer := &http.Server{
Handler: rpcServeMux,
// Timeout connections which don't complete the initial
// handshake within the allowed timeframe.
ReadTimeout: time.Second * rpcAuthTimeoutSeconds,
}
rpcServeMux.HandleFunc("/", func(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Connection", "close")
if _, err := s.checkAuth(r, true); err != nil {
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jsonAuthFail(w, r, s)
return
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}
jsonRPCRead(w, r, s)
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})
rpcServeMux.HandleFunc("/ws", func(w http.ResponseWriter, r *http.Request) {
authenticated, err := s.checkAuth(r, false)
if err != nil {
http.Error(w, "401 Unauthorized.", http.StatusUnauthorized)
return
}
wsServer := websocket.Server{
Handler: websocket.Handler(func(ws *websocket.Conn) {
s.walletReqsNotifications(ws, authenticated)
}),
}
wsServer.ServeHTTP(w, r)
})
for _, listener := range s.listeners {
s.wg.Add(1)
go func(listener net.Listener) {
rpcsLog.Infof("RPC server listening on %s", listener.Addr())
httpServer.Serve(listener)
rpcsLog.Tracef("RPC listener done for %s", listener.Addr())
s.wg.Done()
}(listener)
}
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}
// checkAuth checks the HTTP Basic authentication supplied by a wallet
// or RPC client in the HTTP request r. If the supplied authentication
// does not match the username and password expected, a non-nil error is
// returned.
//
// This check is time-constant.
func (s *rpcServer) checkAuth(r *http.Request, require bool) (bool, error) {
authhdr := r.Header["Authorization"]
if len(authhdr) <= 0 {
if require {
rpcsLog.Warnf("Auth failure.")
return false, errors.New("auth failure")
}
return false, nil
}
authsha := sha256.Sum256([]byte(authhdr[0]))
cmp := subtle.ConstantTimeCompare(authsha[:], s.authsha[:])
if cmp != 1 {
rpcsLog.Warnf("Auth failure.")
return false, errors.New("auth failure")
}
return true, nil
}
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// Stop is used by server.go to stop the rpc listener.
func (s *rpcServer) Stop() error {
if atomic.AddInt32(&s.shutdown, 1) != 1 {
rpcsLog.Infof("RPC server is already in the process of shutting down")
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return nil
}
rpcsLog.Warnf("RPC server shutting down")
for _, listener := range s.listeners {
err := listener.Close()
if err != nil {
rpcsLog.Errorf("Problem shutting down rpc: %v", err)
return err
}
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}
close(s.quit)
s.wg.Wait()
rpcsLog.Infof("RPC server shutdown complete")
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return nil
}
// genCertPair generates a key/cert pair to the paths provided.
func genCertPair(certFile, keyFile string) error {
rpcsLog.Infof("Generating TLS certificates...")
org := "btcd autogenerated cert"
validUntil := time.Now().Add(10 * 365 * 24 * time.Hour)
cert, key, err := btcutil.NewTLSCertPair(org, validUntil, nil)
if err != nil {
return err
}
// Write cert and key files.
if err = ioutil.WriteFile(certFile, cert, 0666); err != nil {
return err
}
if err = ioutil.WriteFile(keyFile, key, 0600); err != nil {
os.Remove(certFile)
return err
}
rpcsLog.Infof("Done generating TLS certificates")
return nil
}
// newRPCServer returns a new instance of the rpcServer struct.
func newRPCServer(listenAddrs []string, s *server) (*rpcServer, error) {
login := cfg.RPCUser + ":" + cfg.RPCPass
auth := "Basic " + base64.StdEncoding.EncodeToString([]byte(login))
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rpc := rpcServer{
authsha: sha256.Sum256([]byte(auth)),
server: s,
ws: newWebsocketContext(),
quit: make(chan int),
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}
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// check for existence of cert file and key file
if !fileExists(cfg.RPCKey) && !fileExists(cfg.RPCCert) {
// if both files do not exist, we generate them.
err := genCertPair(cfg.RPCCert, cfg.RPCKey)
if err != nil {
return nil, err
}
}
keypair, err := tls.LoadX509KeyPair(cfg.RPCCert, cfg.RPCKey)
if err != nil {
return nil, err
}
tlsConfig := tls.Config{
Certificates: []tls.Certificate{keypair},
}
// TODO(oga) this code is similar to that in server, should be
// factored into something shared.
ipv4ListenAddrs, ipv6ListenAddrs, _, err := parseListeners(listenAddrs)
if err != nil {
return nil, err
}
listeners := make([]net.Listener, 0,
len(ipv6ListenAddrs)+len(ipv4ListenAddrs))
for _, addr := range ipv4ListenAddrs {
var listener net.Listener
listener, err = tls.Listen("tcp4", addr, &tlsConfig)
if err != nil {
rpcsLog.Warnf("Can't listen on %s: %v", addr,
err)
continue
}
listeners = append(listeners, listener)
}
for _, addr := range ipv6ListenAddrs {
var listener net.Listener
listener, err = tls.Listen("tcp6", addr, &tlsConfig)
if err != nil {
rpcsLog.Warnf("Can't listen on %s: %v", addr,
err)
continue
}
listeners = append(listeners, listener)
}
if len(listeners) == 0 {
return nil, errors.New("RPCS: No valid listen address")
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}
rpc.listeners = listeners
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return &rpc, err
}
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// jsonAuthFail sends a message back to the client if the http auth is rejected.
func jsonAuthFail(w http.ResponseWriter, r *http.Request, s *rpcServer) {
w.Header().Add("WWW-Authenticate", `Basic realm="btcd RPC"`)
http.Error(w, "401 Unauthorized.", http.StatusUnauthorized)
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}
// jsonRPCRead is the RPC wrapper around the jsonRead function to handle reading
// and responding to RPC messages.
func jsonRPCRead(w http.ResponseWriter, r *http.Request, s *rpcServer) {
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r.Close = true
if atomic.LoadInt32(&s.shutdown) != 0 {
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return
}
body, err := btcjson.GetRaw(r.Body)
if err != nil {
rpcsLog.Errorf("Error getting json message: %v", err)
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return
}
var reply btcjson.Reply
cmd, jsonErr := parseCmd(body)
if cmd != nil {
// Unmarshaling at least a valid JSON-RPC message succeeded.
// Use the provided id for errors.
id := cmd.Id()
reply.Id = &id
}
if jsonErr != nil {
reply.Error = jsonErr
} else {
reply = standardCmdReply(cmd, s)
}
rpcsLog.Tracef("reply: %v", reply)
msg, err := btcjson.MarshallAndSend(reply, w)
if err != nil {
rpcsLog.Errorf(msg)
return
}
rpcsLog.Debugf(msg)
}
// handleUnimplemented is a temporary handler for commands that we should
// support but do not.
func handleUnimplemented(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
return nil, btcjson.ErrUnimplemented
}
// handleAskWallet is the handler for commands that we do recognise as valid
// but that we can not answer correctly since it involves wallet state.
// These commands will be implemented in btcwallet.
func handleAskWallet(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
return nil, btcjson.ErrNoWallet
}
// handleAddNode handles addnode commands.
func handleAddNode(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.AddNodeCmd)
addr := normalizeAddress(c.Addr, activeNetParams.peerPort)
var err error
switch c.SubCmd {
case "add":
err = s.server.AddAddr(addr, true)
case "remove":
err = s.server.RemoveAddr(addr)
case "onetry":
err = s.server.AddAddr(addr, false)
default:
err = errors.New("Invalid subcommand for addnode")
}
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrInternal.Code,
Message: err.Error(),
}
}
// no data returned unless an error.
return nil, nil
}
// messageToHex serializes a message to the wire protocol encoding using the
// latest protocol version and returns a hex-encoded string of the result.
func messageToHex(msg btcwire.Message) (string, error) {
var buf bytes.Buffer
err := msg.BtcEncode(&buf, btcwire.ProtocolVersion)
if err != nil {
return "", btcjson.Error{
Code: btcjson.ErrInternal.Code,
Message: err.Error(),
}
}
return hex.EncodeToString(buf.Bytes()), nil
}
// handleCreateRawTransaction handles createrawtransaction commands.
func handleCreateRawTransaction(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.CreateRawTransactionCmd)
// Add all transaction inputs to a new transaction after performing
// some validty checks.
mtx := btcwire.NewMsgTx()
for _, input := range c.Inputs {
txHash, err := btcwire.NewShaHashFromStr(input.Txid)
if err != nil {
return nil, btcjson.ErrDecodeHexString
}
if input.Vout < 0 {
return nil, btcjson.Error{
Code: btcjson.ErrInvalidParameter.Code,
Message: "Invalid parameter, vout must be positive",
}
}
prevOut := btcwire.NewOutPoint(txHash, uint32(input.Vout))
txIn := btcwire.NewTxIn(prevOut, []byte{})
mtx.AddTxIn(txIn)
}
// Add all transaction outputs to the transaction after performing
// some validty checks.
for encodedAddr, amount := range c.Amounts {
// Ensure amount is in the valid range for monetary amounts.
if amount <= 0 || amount > btcutil.MaxSatoshi {
return nil, btcjson.Error{
Code: btcjson.ErrType.Code,
Message: "Invalid amount",
}
}
// Decode the provided address.
addr, err := btcutil.DecodeAddr(encodedAddr)
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrInvalidAddressOrKey.Code,
Message: btcjson.ErrInvalidAddressOrKey.Message +
": " + err.Error(),
}
}
// Ensure the address is one of the supported types and that
// the network encoded with the address matches the network the
// server is currently on.
net := s.server.btcnet
switch addr := addr.(type) {
case *btcutil.AddressPubKeyHash:
net = addr.Net()
case *btcutil.AddressScriptHash:
net = addr.Net()
default:
return nil, btcjson.ErrInvalidAddressOrKey
}
if net != s.server.btcnet {
return nil, btcjson.Error{
Code: btcjson.ErrInvalidAddressOrKey.Code,
Message: fmt.Sprintf("%s: %q",
btcjson.ErrInvalidAddressOrKey.Message,
encodedAddr),
}
}
// Create a new script which pays to the provided address.
pkScript, err := btcscript.PayToAddrScript(addr)
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrInternal.Code,
Message: err.Error(),
}
}
txOut := btcwire.NewTxOut(amount, pkScript)
mtx.AddTxOut(txOut)
}
// Return the serialized and hex-encoded transaction.
mtxHex, err := messageToHex(mtx)
if err != nil {
return nil, err
}
return mtxHex, nil
}
// handleDebugLevel handles debuglevel commands.
func handleDebugLevel(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.DebugLevelCmd)
// Special show command to list supported subsystems.
if c.LevelSpec == "show" {
return fmt.Sprintf("Supported subsystems %v",
supportedSubsystems()), nil
}
err := parseAndSetDebugLevels(c.LevelSpec)
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrInvalidParams.Code,
Message: err.Error(),
}
}
return "Done.", nil
}
// createVinList returns a slice of JSON objects for the inputs of the passed
// transaction.
func createVinList(mtx *btcwire.MsgTx) ([]btcjson.Vin, error) {
tx := btcutil.NewTx(mtx)
vinList := make([]btcjson.Vin, len(mtx.TxIn))
for i, v := range mtx.TxIn {
if btcchain.IsCoinBase(tx) {
vinList[i].Coinbase = hex.EncodeToString(v.SignatureScript)
} else {
vinList[i].Txid = v.PreviousOutpoint.Hash.String()
vinList[i].Vout = int(v.PreviousOutpoint.Index)
disbuf, err := btcscript.DisasmString(v.SignatureScript)
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrInternal.Code,
Message: err.Error(),
}
}
vinList[i].ScriptSig = new(btcjson.ScriptSig)
vinList[i].ScriptSig.Asm = disbuf
vinList[i].ScriptSig.Hex = hex.EncodeToString(v.SignatureScript)
}
vinList[i].Sequence = v.Sequence
}
return vinList, nil
}
// createVoutList returns a slice of JSON objects for the outputs of the passed
// transaction.
func createVoutList(mtx *btcwire.MsgTx, net btcwire.BitcoinNet) ([]btcjson.Vout, error) {
voutList := make([]btcjson.Vout, len(mtx.TxOut))
for i, v := range mtx.TxOut {
voutList[i].N = i
voutList[i].Value = float64(v.Value) / float64(btcutil.SatoshiPerBitcoin)
disbuf, err := btcscript.DisasmString(v.PkScript)
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrInternal.Code,
Message: err.Error(),
}
}
voutList[i].ScriptPubKey.Asm = disbuf
voutList[i].ScriptPubKey.Hex = hex.EncodeToString(v.PkScript)
// Ignore the error here since an error means the script
// couldn't parse and there is no additional information about
// it anyways.
scriptClass, addrs, reqSigs, _ := btcscript.ExtractPkScriptAddrs(v.PkScript, net)
voutList[i].ScriptPubKey.Type = scriptClass.String()
voutList[i].ScriptPubKey.ReqSigs = reqSigs
if addrs == nil {
voutList[i].ScriptPubKey.Addresses = nil
} else {
voutList[i].ScriptPubKey.Addresses = make([]string, len(addrs))
for j, addr := range addrs {
voutList[i].ScriptPubKey.Addresses[j] = addr.EncodeAddress()
}
}
}
return voutList, nil
}
// handleDecodeRawTransaction handles decoderawtransaction commands.
func handleDecodeRawTransaction(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.DecodeRawTransactionCmd)
// Deserialize the transaction.
hexStr := c.HexTx
if len(hexStr)%2 != 0 {
hexStr = "0" + hexStr
}
serializedTx, err := hex.DecodeString(hexStr)
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrInvalidParameter.Code,
Message: fmt.Sprintf("argument must be hexadecimal "+
"string (not %q)", hexStr),
}
}
var mtx btcwire.MsgTx
err = mtx.Deserialize(bytes.NewBuffer(serializedTx))
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrDeserialization.Code,
Message: "TX decode failed",
}
}
txSha, _ := mtx.TxSha()
vin, err := createVinList(&mtx)
if err != nil {
return nil, err
}
vout, err := createVoutList(&mtx, s.server.btcnet)
if err != nil {
return nil, err
}
// Create and return the result.
txReply := btcjson.TxRawDecodeResult{
Txid: txSha.String(),
Version: mtx.Version,
Locktime: mtx.LockTime,
Vin: vin,
Vout: vout,
}
return txReply, nil
}
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// handleDecodeScript handles decodescript commands.
func handleDecodeScript(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.DecodeScriptCmd)
// Convert the hex script to bytes.
script, err := hex.DecodeString(c.HexScript)
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrInvalidParameter.Code,
Message: fmt.Sprintf("argument must be hexadecimal "+
"string (not %q)", c.HexScript),
}
}
// The disassembled string will contain [error] inline if the script
// doesn't fully parse, so ignore the error here.
disbuf, _ := btcscript.DisasmString(script)
// Get information about the script.
// Ignore the error here since an error means the script couldn't parse
// and there is no additinal information about it anyways.
net := s.server.btcnet
scriptClass, addrs, reqSigs, _ := btcscript.ExtractPkScriptAddrs(script, net)
addresses := make([]string, len(addrs))
for i, addr := range addrs {
addresses[i] = addr.EncodeAddress()
}
// Convert the script itself to a pay-to-script-hash address.
p2sh, err := btcutil.NewAddressScriptHash(script, net)
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrInternal.Code,
Message: err.Error(),
}
}
// Generate and return the reply.
reply := btcjson.DecodeScriptResult{
Asm: disbuf,
ReqSigs: reqSigs,
Type: scriptClass.String(),
Addresses: addresses,
P2sh: p2sh.EncodeAddress(),
}
return reply, nil
}
// handleGetAddedNodeInfo handles getaddednodeinfo commands.
func handleGetAddedNodeInfo(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.GetAddedNodeInfoCmd)
// Retrieve a list of persistent (added) peers from the bitcoin server
// and filter the list of peer per the specified address (if any).
peers := s.server.AddedNodeInfo()
if c.Node != "" {
found := false
for i, peer := range peers {
if peer.addr == c.Node {
peers = peers[i : i+1]
found = true
}
}
if !found {
return nil, btcjson.Error{
Code: -24,
Message: "Node has not been added.",
}
}
}
// Without the dns flag, the result is just a slice of the addresses as
// strings.
if !c.Dns {
results := make([]string, 0, len(peers))
for _, peer := range peers {
results = append(results, peer.addr)
}
return results, nil
}
// With the dns flag, the result is an array of JSON objects which
// include the result of DNS lookups for each peer.
results := make([]*btcjson.GetAddedNodeInfoResult, 0, len(peers))
for _, peer := range peers {
// Set the "address" of the peer which could be an ip address
// or a domain name.
var result btcjson.GetAddedNodeInfoResult
result.AddedNode = peer.addr
isConnected := peer.Connected()
result.Connected = &isConnected
// Split the address into host and port portions so we can do
// a DNS lookup against the host. When no port is specified in
// the address, just use the address as the host.
host, _, err := net.SplitHostPort(peer.addr)
if err != nil {
host = peer.addr
}
// Do a DNS lookup for the address. If the lookup fails, just
// use the host.
var ipList []string
ips, err := btcdLookup(host)
if err == nil {
ipList = make([]string, 0, len(ips))
for _, ip := range ips {
ipList = append(ipList, ip.String())
}
} else {
ipList = make([]string, 1)
ipList[0] = host
}
// Add the addresses and connection info to the result.
addrs := make([]btcjson.GetAddedNodeInfoResultAddr, 0, len(ipList))
for _, ip := range ipList {
var addr btcjson.GetAddedNodeInfoResultAddr
addr.Address = ip
addr.Connected = "false"
if ip == host && peer.Connected() {
addr.Connected = directionString(peer.inbound)
}
addrs = append(addrs, addr)
}
result.Addresses = &addrs
results = append(results, &result)
}
return results, nil
}
// handleGetBestBlockHash implements the getbestblockhash command.
func handleGetBestBlockHash(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
sha, _, err := s.server.db.NewestSha()
if err != nil {
rpcsLog.Errorf("Error getting newest sha: %v", err)
return nil, btcjson.ErrBestBlockHash
}
return sha.String(), nil
}
// handleGetBlock implements the getblock command.
func handleGetBlock(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.GetBlockCmd)
sha, err := btcwire.NewShaHashFromStr(c.Hash)
if err != nil {
rpcsLog.Errorf("Error generating sha: %v", err)
return nil, btcjson.ErrBlockNotFound
}
blk, err := s.server.db.FetchBlockBySha(sha)
if err != nil {
rpcsLog.Errorf("Error fetching sha: %v", err)
return nil, btcjson.ErrBlockNotFound
}
// When the verbose flag isn't set, simply return the network-serialized
// block as a hex-encoded string.
if !c.Verbose {
blkHex, err := messageToHex(blk.MsgBlock())
if err != nil {
return nil, err
}
return blkHex, nil
}
// The verbose flag is set, so generate the JSON object and return it.
buf, err := blk.Bytes()
if err != nil {
rpcsLog.Errorf("Error fetching block: %v", err)
return nil, btcjson.Error{
Code: btcjson.ErrInternal.Code,
Message: err.Error(),
}
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}
idx := blk.Height()
_, maxidx, err := s.server.db.NewestSha()
if err != nil {
rpcsLog.Errorf("Cannot get newest sha: %v", err)
return nil, btcjson.ErrBlockNotFound
}
blockHeader := &blk.MsgBlock().Header
blockReply := btcjson.BlockResult{
Hash: c.Hash,
Version: blockHeader.Version,
MerkleRoot: blockHeader.MerkleRoot.String(),
PreviousHash: blockHeader.PrevBlock.String(),
Nonce: blockHeader.Nonce,
Time: blockHeader.Timestamp.Unix(),
Confirmations: uint64(1 + maxidx - idx),
Height: idx,
Size: len(buf),
Bits: strconv.FormatInt(int64(blockHeader.Bits), 16),
Difficulty: getDifficultyRatio(blockHeader.Bits),
}
if !c.VerboseTx {
txList, _ := blk.TxShas()
txNames := make([]string, len(txList))
for i, v := range txList {
txNames[i] = v.String()
}
blockReply.Tx = txNames
} else {
txns := blk.Transactions()
rawTxns := make([]btcjson.TxRawResult, len(txns))
for i, tx := range txns {
txSha := tx.Sha().String()
mtx := tx.MsgTx()
rawTxn, err := createTxRawResult(s.server.btcnet, txSha,
mtx, blk, maxidx, sha)
if err != nil {
rpcsLog.Errorf("Cannot create TxRawResult for "+
"transaction %s: %v", txSha, err)
return nil, err
}
rawTxns[i] = *rawTxn
}
blockReply.RawTx = rawTxns
}
// Get next block unless we are already at the top.
if idx < maxidx {
var shaNext *btcwire.ShaHash
shaNext, err = s.server.db.FetchBlockShaByHeight(int64(idx + 1))
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if err != nil {
rpcsLog.Errorf("No next block: %v", err)
return nil, btcjson.ErrBlockNotFound
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}
blockReply.NextHash = shaNext.String()
}
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return blockReply, nil
}
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// handleGetBlockCount implements the getblockcount command.
func handleGetBlockCount(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
_, maxidx, err := s.server.db.NewestSha()
if err != nil {
rpcsLog.Errorf("Error getting newest sha: %v", err)
return nil, btcjson.ErrBlockCount
}
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return maxidx, nil
}
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// handleGetBlockHash implements the getblockhash command.
func handleGetBlockHash(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.GetBlockHashCmd)
sha, err := s.server.db.FetchBlockShaByHeight(c.Index)
if err != nil {
rpcsLog.Errorf("Error getting block: %v", err)
return nil, btcjson.ErrOutOfRange
}
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return sha.String(), nil
}
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// handleGetConnectionCount implements the getconnectioncount command.
func handleGetConnectionCount(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
return s.server.ConnectedCount(), nil
}
// handleGetDifficulty implements the getdifficulty command.
func handleGetDifficulty(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
sha, _, err := s.server.db.NewestSha()
if err != nil {
rpcsLog.Errorf("Error getting sha: %v", err)
return nil, btcjson.ErrDifficulty
}
blockHeader, err := s.server.db.FetchBlockHeaderBySha(sha)
if err != nil {
rpcsLog.Errorf("Error getting block: %v", err)
return nil, btcjson.ErrDifficulty
}
return getDifficultyRatio(blockHeader.Bits), nil
}
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// handleGetGenerate implements the getgenerate command.
func handleGetGenerate(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
// btcd does not do mining so we can hardcode replies here.
return false, nil
}
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// handleGetHashesPerSec implements the gethashespersec command.
func handleGetHashesPerSec(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
// btcd does not do mining so we can hardcode replies here.
return 0, nil
}
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// handleGetInfo implements the getinfo command. We only return the fields
// that are not related to wallet functionality.
func handleGetInfo(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
// We require the current block height and sha.
sha, height, err := s.server.db.NewestSha()
if err != nil {
rpcsLog.Errorf("Error getting sha: %v", err)
return nil, btcjson.ErrBlockCount
}
blkHeader, err := s.server.db.FetchBlockHeaderBySha(sha)
if err != nil {
rpcsLog.Errorf("Error getting block: %v", err)
return nil, btcjson.ErrDifficulty
}
ret := map[string]interface{}{
"version": 1000000*appMajor + 10000*appMinor + 100*appPatch,
"protocolversion": btcwire.ProtocolVersion,
"blocks": height,
"timeoffset": 0,
"proxy": cfg.Proxy,
"difficulty": getDifficultyRatio(blkHeader.Bits),
"testnet": cfg.TestNet3,
}
return ret, nil
}
// handleGetNetTotals implements the getnettotals command.
func handleGetNetTotals(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
totalBytesRecv, totalBytesSent := s.server.NetTotals()
reply := &btcjson.GetNetTotalsResult{
TotalBytesRecv: totalBytesRecv,
TotalBytesSent: totalBytesSent,
TimeMillis: time.Now().UTC().UnixNano() / int64(time.Millisecond),
}
return reply, nil
}
// handleGetNetworkHashPS implements the getnetworkhashps command.
func handleGetNetworkHashPS(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.GetNetworkHashPSCmd)
_, newestHeight, err := s.server.db.NewestSha()
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrInternal.Code,
Message: err.Error(),
}
}
// When the passed height is too high or zero, just return 0 now
// since we can't reasonably calculate the number of network hashes
// per second from invalid values. When it's negative, use the current
// best block height.
endHeight := int64(c.Height)
if endHeight > newestHeight || endHeight == 0 {
return 0, nil
}
if endHeight < 0 {
endHeight = newestHeight
}
// Calculate the starting block height based on the passed number of
// blocks. When the passed value is negative, use the last block the
// difficulty changed as the starting height. Also make sure the
// starting height is not before the beginning of the chain.
var startHeight int64
if c.Blocks <= 0 {
startHeight = endHeight - ((endHeight % btcchain.BlocksPerRetarget) + 1)
} else {
startHeight = endHeight - int64(c.Blocks)
}
if startHeight < 0 {
startHeight = 0
}
rpcsLog.Debugf("Calculating network hashes per second from %d to %d",
startHeight, endHeight)
// Find the min and max block timestamps as well as calculate the total
// amount of work that happened between the start and end blocks.
var minTimestamp, maxTimestamp time.Time
totalWork := big.NewInt(0)
for curHeight := startHeight; curHeight <= endHeight; curHeight++ {
hash, err := s.server.db.FetchBlockShaByHeight(curHeight)
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrInternal.Code,
Message: err.Error(),
}
}
header, err := s.server.db.FetchBlockHeaderBySha(hash)
if err != nil {
return nil, btcjson.Error{
Code: btcjson.ErrInternal.Code,
Message: err.Error(),
}
}
if curHeight == startHeight {
minTimestamp = header.Timestamp
maxTimestamp = minTimestamp
} else {
totalWork.Add(totalWork, btcchain.CalcWork(header.Bits))
if minTimestamp.After(header.Timestamp) {
minTimestamp = header.Timestamp
}
if maxTimestamp.Before(header.Timestamp) {
maxTimestamp = header.Timestamp
}
}
}
// Calculate the difference in seconds between the min and max block
// timestamps and avoid division by zero in the case where there is no
// time difference.
timeDiff := int64(maxTimestamp.Sub(minTimestamp) / time.Second)
if timeDiff == 0 {
return 0, nil
}
hashesPerSec := new(big.Int).Div(totalWork, big.NewInt(timeDiff))
return hashesPerSec.Int64(), nil
}
// handleGetPeerInfo implements the getpeerinfo command.
func handleGetPeerInfo(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
return s.server.PeerInfo(), nil
}
// mempoolDescriptor describes a JSON object which is returned for each
// transaction in the memory pool in response to a getrawmempool command with
// the verbose flag set.
type mempoolDescriptor struct {
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Size int `json:"size"`
Fee float64 `json:"fee"`
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Time int64 `json:"time"`
Height int64 `json:"height"`
StartingPriority int `json:"startingpriority"`
CurrentPriority int `json:"currentpriority"`
Depends []string `json:"depends"`
}
// handleGetRawMempool implements the getrawmempool command.
func handleGetRawMempool(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.GetRawMempoolCmd)
descs := s.server.txMemPool.TxDescs()
if c.Verbose {
result := make(map[string]*mempoolDescriptor, len(descs))
for _, desc := range descs {
mpd := &mempoolDescriptor{
Size: desc.Tx.MsgTx().SerializeSize(),
Fee: float64(desc.Fee) /
float64(btcutil.SatoshiPerBitcoin),
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Time: desc.Added.Unix(),
Height: desc.Height,
StartingPriority: 0, // We don't mine.
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CurrentPriority: 0, // We don't mine.
Depends: make([]string, 0),
}
for _, txIn := range desc.Tx.MsgTx().TxIn {
hash := &txIn.PreviousOutpoint.Hash
if s.server.txMemPool.HaveTransaction(hash) {
mpd.Depends = append(mpd.Depends,
hash.String())
}
}
result[desc.Tx.Sha().String()] = mpd
}
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return result, nil
}
// The response is simply an array of the transaction hashes if the
// verbose flag is not set.
hashStrings := make([]string, len(descs))
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for i := range hashStrings {
hashStrings[i] = descs[i].Tx.Sha().String()
}
return hashStrings, nil
}
// handleGetRawTransaction implements the getrawtransaction command.
func handleGetRawTransaction(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.GetRawTransactionCmd)
// Convert the provided transaction hash hex to a ShaHash.
txSha, err := btcwire.NewShaHashFromStr(c.Txid)
if err != nil {
rpcsLog.Errorf("Error generating sha: %v", err)
return nil, btcjson.Error{
Code: btcjson.ErrBlockNotFound.Code,
Message: "Parameter 1 must be a hexaecimal string",
}
}
// Try to fetch the transaction from the memory pool and if that fails,
// try the block database.
var mtx *btcwire.MsgTx
var blksha *btcwire.ShaHash
tx, err := s.server.txMemPool.FetchTransaction(txSha)
if err != nil {
txList, err := s.server.db.FetchTxBySha(txSha)
if err != nil || len(txList) == 0 {
rpcsLog.Errorf("Error fetching tx: %v", err)
return nil, btcjson.ErrNoTxInfo
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}
lastTx := len(txList) - 1
mtx = txList[lastTx].Tx
blksha = txList[lastTx].BlkSha
} else {
mtx = tx.MsgTx()
}
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// When the verbose flag isn't set, simply return the network-serialized
// transaction as a hex-encoded string.
if c.Verbose == 0 {
mtxHex, err := messageToHex(mtx)
if err != nil {
return nil, err
}
return mtxHex, nil
}
var blk *btcutil.Block
var maxidx int64
if blksha != nil {
blk, err = s.server.db.FetchBlockBySha(blksha)
if err != nil {
rpcsLog.Errorf("Error fetching sha: %v", err)
return nil, btcjson.ErrBlockNotFound
2013-08-06 23:55:22 +02:00
}
_, maxidx, err = s.server.db.NewestSha()
if err != nil {
rpcsLog.Errorf("Cannot get newest sha: %v", err)
return nil, btcjson.ErrNoNewestBlockInfo
2013-08-06 23:55:22 +02:00
}
}
rawTxn, jsonErr := createTxRawResult(s.server.btcnet, c.Txid, mtx, blk, maxidx, blksha)
if err != nil {
rpcsLog.Errorf("Cannot create TxRawResult for txSha=%s: %v", txSha, err)
return nil, jsonErr
}
return *rawTxn, nil
}
// createTxRawResult converts the passed transaction and associated parameters
// to a raw transaction JSON object.
func createTxRawResult(net btcwire.BitcoinNet, txSha string, mtx *btcwire.MsgTx, blk *btcutil.Block, maxidx int64, blksha *btcwire.ShaHash) (*btcjson.TxRawResult, error) {
mtxHex, err := messageToHex(mtx)
if err != nil {
return nil, err
}
vin, err := createVinList(mtx)
if err != nil {
return nil, err
}
vout, err := createVoutList(mtx, net)
if err != nil {
return nil, err
}
txReply := &btcjson.TxRawResult{
Hex: mtxHex,
Txid: txSha,
Vout: vout,
Vin: vin,
Version: mtx.Version,
LockTime: mtx.LockTime,
}
if blk != nil {
blockHeader := &blk.MsgBlock().Header
idx := blk.Height()
// This is not a typo, they are identical in bitcoind as well.
txReply.Time = blockHeader.Timestamp.Unix()
txReply.Blocktime = blockHeader.Timestamp.Unix()
txReply.BlockHash = blksha.String()
txReply.Confirmations = uint64(1 + maxidx - idx)
}
return txReply, nil
}
var helpAddenda = map[string]string{
"getgenerate": `
NOTE: btcd does not mine so this will always return false. The call is provided
for compatibility only.`,
"gethashespersec": `
NOTE: btcd does not mine so this will always return false. The call is provided
for compatibility only.`,
"getpeerinfo": `
NOTE: btcd does not currently implement all fields. the "bytessent",
"bytesrecv" and "syncnode" fields are not yet
implemented.`,
"sendrawtransaction": `
NOTE: btcd does not currently support the "allowhighfees" parameter.`,
"setgenerate": `
NOTE: btcd does not mine so command has no effect. The call is provided
for compatibility only.`,
}
// getHelp text retreives help text from btcjson for the command in question.
// If there is any extra btcd specific information related to the given command
// then this is appended to the string.
func getHelpText(cmdName string) (string, error) {
help, err := btcjson.GetHelpString(cmdName)
if err != nil {
return "", err
}
if helpAddendum, ok := helpAddenda[cmdName]; ok {
help += helpAddendum
}
return help, nil
}
// handleHelp implements the help command.
func handleHelp(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
help := cmd.(*btcjson.HelpCmd)
// if no args we give a list of all known commands
if help.Command == "" {
commands := ""
first := true
// TODO(oga) this should have one liner usage for each command
// really, but for now just a list of commands is sufficient.
for k := range rpcHandlers {
if !first {
commands += "\n"
}
commands += k
first = false
}
return commands, nil
}
// Check that we actually support the command asked for. We only
// search the main list of hanlders since we do not wish to provide help
// for commands that are unimplemented or relate to wallet
// functionality.
if _, ok := rpcHandlers[help.Command]; !ok {
return "", fmt.Errorf("help: unknown command: %s", help.Command)
}
return getHelpText(help.Command)
}
// handlePing implements the ping command.
func handlePing(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
// Ask server to ping \o_
nonce, err := btcwire.RandomUint64()
if err != nil {
return nil, fmt.Errorf("Not sending ping - can not generate "+
"nonce: %v", err)
}
s.server.BroadcastMessage(btcwire.NewMsgPing(nonce))
return nil, nil
}
// handleSendRawTransaction implements the sendrawtransaction command.
func handleSendRawTransaction(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.SendRawTransactionCmd)
// Deserialize and send off to tx relay
serializedTx, err := hex.DecodeString(c.HexTx)
if err != nil {
return nil, btcjson.ErrDecodeHexString
}
msgtx := btcwire.NewMsgTx()
err = msgtx.Deserialize(bytes.NewBuffer(serializedTx))
if err != nil {
err := btcjson.Error{
Code: btcjson.ErrDeserialization.Code,
Message: "TX decode failed",
}
return nil, err
}
tx := btcutil.NewTx(msgtx)
err = s.server.txMemPool.ProcessTransaction(tx)
if err != nil {
// When the error is a rule error, it means the transaction was
// simply rejected as opposed to something actually going wrong,
// so log it as such. Otherwise, something really did go wrong,
// so log it as an actual error.
if _, ok := err.(TxRuleError); ok {
rpcsLog.Debugf("Rejected transaction %v: %v", tx.Sha(),
err)
} else {
rpcsLog.Errorf("Failed to process transaction %v: %v",
tx.Sha(), err)
err = btcjson.Error{
Code: btcjson.ErrDeserialization.Code,
Message: "TX rejected",
}
return nil, err
}
}
return tx.Sha().String(), nil
}
// handleSetGenerate implements the setgenerate command.
func handleSetGenerate(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
// btcd does not do mining so we can hardcode replies here.
return nil, nil
}
// handleStop implements the stop command.
func handleStop(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
s.server.Stop()
return "btcd stopping.", nil
}
2014-01-15 16:01:12 +01:00
// handleSubmitBlock implements the submitblock command.
func handleSubmitBlock(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.SubmitBlockCmd)
// Deserialize and send off to block processor.
serializedBlock, err := hex.DecodeString(c.HexBlock)
if err != nil {
err := btcjson.Error{
Code: btcjson.ErrDeserialization.Code,
Message: "Block decode failed",
}
return nil, err
}
block, err := btcutil.NewBlockFromBytes(serializedBlock)
if err != nil {
err := btcjson.Error{
Code: btcjson.ErrDeserialization.Code,
Message: "Block decode failed",
}
return nil, err
}
err = s.server.blockManager.blockChain.ProcessBlock(block, false)
if err != nil {
return fmt.Sprintf("rejected: %s", err.Error()), nil
}
return nil, nil
}
func verifyChain(db btcdb.Db, level, depth int32) error {
_, curheight64, err := db.NewestSha()
if err != nil {
rpcsLog.Errorf("Verify is unable to fetch current block "+
"height: %v", err)
}
curheight := int32(curheight64)
if depth > curheight {
depth = curheight
}
for height := curheight; height > (curheight - depth); height-- {
// Level 0 just looks up the block.
sha, err := db.FetchBlockShaByHeight(int64(height))
if err != nil {
rpcsLog.Errorf("Verify is unable to fetch block at "+
"height %d: %v", height, err)
return err
}
block, err := db.FetchBlockBySha(sha)
if err != nil {
rpcsLog.Errorf("Verify is unable to fetch block at "+
"sha %v height %d: %v", sha, height, err)
return err
}
// Level 1 does basic chain sanity checks.
if level > 0 {
err := btcchain.CheckBlockSanity(block,
activeNetParams.powLimit)
if err != nil {
rpcsLog.Errorf("Verify is unable to "+
"validate block at sha %v height "+
2014-02-04 19:55:23 +01:00
"%d: %v", sha, height, err)
return err
}
}
}
rpcsLog.Infof("Chain verify completed successfully")
return nil
}
func handleVerifyChain(s *rpcServer, cmd btcjson.Cmd) (interface{}, error) {
c := cmd.(*btcjson.VerifyChainCmd)
err := verifyChain(s.server.db, c.CheckLevel, c.CheckDepth)
return err == nil, nil
}
// parseCmd parses a marshaled known command, returning any errors as a
// btcjson.Error that can be used in replies. The returned cmd may still
// be non-nil if b is at least a valid marshaled JSON-RPC message.
func parseCmd(b []byte) (btcjson.Cmd, *btcjson.Error) {
cmd, err := btcjson.ParseMarshaledCmd(b)
if err != nil {
jsonErr, ok := err.(btcjson.Error)
if !ok {
jsonErr = btcjson.Error{
Code: btcjson.ErrParse.Code,
Message: err.Error(),
}
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}
return cmd, &jsonErr
}
return cmd, nil
}
// standardCmdReply checks that a parsed command is a standard
// Bitcoin JSON-RPC command and runs the proper handler to reply to the
// command.
func standardCmdReply(cmd btcjson.Cmd, s *rpcServer) (reply btcjson.Reply) {
id := cmd.Id()
reply.Id = &id
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handler, ok := rpcHandlers[cmd.Method()]
if ok {
goto handled
}
_, ok = rpcAskWallet[cmd.Method()]
if ok {
handler = handleAskWallet
goto handled
}
_, ok = rpcUnimplemented[cmd.Method()]
if ok {
handler = handleUnimplemented
goto handled
}
reply.Error = &btcjson.ErrMethodNotFound
return reply
handled:
result, err := handler(s, cmd)
if err != nil {
jsonErr, ok := err.(btcjson.Error)
if !ok {
// In the case where we did not have a btcjson
// error to begin with, make a new one to send,
// but this really should not happen.
jsonErr = btcjson.Error{
Code: btcjson.ErrInternal.Code,
Message: err.Error(),
}
}
reply.Error = &jsonErr
} else {
reply.Result = result
}
return reply
}
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// getDifficultyRatio returns the proof-of-work difficulty as a multiple of the
// minimum difficulty using the passed bits field from the header of a block.
func getDifficultyRatio(bits uint32) float64 {
// The minimum difficulty is the max possible proof-of-work limit bits
// converted back to a number. Note this is not the same as the the
// proof of work limit directly because the block difficulty is encoded
// in a block with the compact form which loses precision.
max := btcchain.CompactToBig(activeNetParams.powLimitBits)
target := btcchain.CompactToBig(bits)
difficulty := new(big.Rat).SetFrac(max, target)
outString := difficulty.FloatString(2)
diff, err := strconv.ParseFloat(outString, 64)
if err != nil {
rpcsLog.Errorf("Cannot get difficulty: %v", err)
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return 0
}
return diff
}