neoneo-go/pkg/rpc/server/server.go
Roman Khimov af17bbfeab rpc/server: encode answers more efficiently
We're at the point where even this code can clearly be seen in profiles. We
can save on some buffers (and CPU cycles) by encoding the answer once.

Another ~2% TPS for single node.
2020-09-09 20:46:31 +03:00

1322 lines
37 KiB
Go

package server
import (
"context"
"encoding/hex"
"encoding/json"
"errors"
"fmt"
"math"
"math/big"
"net"
"net/http"
"strconv"
"sync"
"time"
"github.com/gorilla/websocket"
"github.com/nspcc-dev/neo-go/pkg/config/netmode"
"github.com/nspcc-dev/neo-go/pkg/core"
"github.com/nspcc-dev/neo-go/pkg/core/block"
"github.com/nspcc-dev/neo-go/pkg/core/blockchainer"
"github.com/nspcc-dev/neo-go/pkg/core/state"
"github.com/nspcc-dev/neo-go/pkg/core/transaction"
"github.com/nspcc-dev/neo-go/pkg/crypto/keys"
"github.com/nspcc-dev/neo-go/pkg/encoding/address"
"github.com/nspcc-dev/neo-go/pkg/io"
"github.com/nspcc-dev/neo-go/pkg/network"
"github.com/nspcc-dev/neo-go/pkg/rpc"
"github.com/nspcc-dev/neo-go/pkg/rpc/request"
"github.com/nspcc-dev/neo-go/pkg/rpc/response"
"github.com/nspcc-dev/neo-go/pkg/rpc/response/result"
"github.com/nspcc-dev/neo-go/pkg/smartcontract"
"github.com/nspcc-dev/neo-go/pkg/util"
"go.uber.org/zap"
)
type (
// Server represents the JSON-RPC 2.0 server.
Server struct {
*http.Server
chain blockchainer.Blockchainer
config rpc.Config
network netmode.Magic
coreServer *network.Server
log *zap.Logger
https *http.Server
shutdown chan struct{}
subsLock sync.RWMutex
subscribers map[*subscriber]bool
subsGroup sync.WaitGroup
blockSubs int
executionSubs int
notificationSubs int
transactionSubs int
blockCh chan *block.Block
executionCh chan *state.AppExecResult
notificationCh chan *state.NotificationEvent
transactionCh chan *transaction.Transaction
}
)
const (
// Message limit for receiving side.
wsReadLimit = 4096
// Disconnection timeout.
wsPongLimit = 60 * time.Second
// Ping period for connection liveness check.
wsPingPeriod = wsPongLimit / 2
// Write deadline.
wsWriteLimit = wsPingPeriod / 2
// Maximum number of subscribers per Server. Each websocket client is
// treated like subscriber, so technically it's a limit on websocket
// connections.
maxSubscribers = 64
)
var rpcHandlers = map[string]func(*Server, request.Params) (interface{}, *response.Error){
"getapplicationlog": (*Server).getApplicationLog,
"getbestblockhash": (*Server).getBestBlockHash,
"getblock": (*Server).getBlock,
"getblockcount": (*Server).getBlockCount,
"getblockhash": (*Server).getBlockHash,
"getblockheader": (*Server).getBlockHeader,
"getblocksysfee": (*Server).getBlockSysFee,
"getconnectioncount": (*Server).getConnectionCount,
"getcontractstate": (*Server).getContractState,
"getnep5balances": (*Server).getNEP5Balances,
"getnep5transfers": (*Server).getNEP5Transfers,
"getpeers": (*Server).getPeers,
"getrawmempool": (*Server).getRawMempool,
"getrawtransaction": (*Server).getrawtransaction,
"getstorage": (*Server).getStorage,
"gettransactionheight": (*Server).getTransactionHeight,
"getunclaimedgas": (*Server).getUnclaimedGas,
"getvalidators": (*Server).getValidators,
"getversion": (*Server).getVersion,
"invokefunction": (*Server).invokeFunction,
"invokescript": (*Server).invokescript,
"sendrawtransaction": (*Server).sendrawtransaction,
"submitblock": (*Server).submitBlock,
"validateaddress": (*Server).validateAddress,
}
var rpcWsHandlers = map[string]func(*Server, request.Params, *subscriber) (interface{}, *response.Error){
"subscribe": (*Server).subscribe,
"unsubscribe": (*Server).unsubscribe,
}
var invalidBlockHeightError = func(index int, height int) *response.Error {
return response.NewRPCError(fmt.Sprintf("Param at index %d should be greater than or equal to 0 and less then or equal to current block height, got: %d", index, height), "", nil)
}
// upgrader is a no-op websocket.Upgrader that reuses HTTP server buffers and
// doesn't set any Error function.
var upgrader = websocket.Upgrader{}
// New creates a new Server struct.
func New(chain blockchainer.Blockchainer, conf rpc.Config, coreServer *network.Server, log *zap.Logger) Server {
httpServer := &http.Server{
Addr: conf.Address + ":" + strconv.FormatUint(uint64(conf.Port), 10),
}
var tlsServer *http.Server
if cfg := conf.TLSConfig; cfg.Enabled {
tlsServer = &http.Server{
Addr: net.JoinHostPort(cfg.Address, strconv.FormatUint(uint64(cfg.Port), 10)),
}
}
return Server{
Server: httpServer,
chain: chain,
config: conf,
network: chain.GetConfig().Magic,
coreServer: coreServer,
log: log,
https: tlsServer,
shutdown: make(chan struct{}),
subscribers: make(map[*subscriber]bool),
// These are NOT buffered to preserve original order of events.
blockCh: make(chan *block.Block),
executionCh: make(chan *state.AppExecResult),
notificationCh: make(chan *state.NotificationEvent),
transactionCh: make(chan *transaction.Transaction),
}
}
// Start creates a new JSON-RPC server listening on the configured port. It's
// supposed to be run as a separate goroutine (like http.Server's Serve) and it
// returns its errors via given errChan.
func (s *Server) Start(errChan chan error) {
if !s.config.Enabled {
s.log.Info("RPC server is not enabled")
return
}
s.Handler = http.HandlerFunc(s.handleHTTPRequest)
s.log.Info("starting rpc-server", zap.String("endpoint", s.Addr))
go s.handleSubEvents()
if cfg := s.config.TLSConfig; cfg.Enabled {
s.https.Handler = http.HandlerFunc(s.handleHTTPRequest)
s.log.Info("starting rpc-server (https)", zap.String("endpoint", s.https.Addr))
go func() {
err := s.https.ListenAndServeTLS(cfg.CertFile, cfg.KeyFile)
if err != http.ErrServerClosed {
s.log.Error("failed to start TLS RPC server", zap.Error(err))
errChan <- err
}
}()
}
err := s.ListenAndServe()
if err != http.ErrServerClosed {
s.log.Error("failed to start RPC server", zap.Error(err))
errChan <- err
}
}
// Shutdown overrides the http.Server Shutdown
// method.
func (s *Server) Shutdown() error {
var httpsErr error
// Signal to websocket writer routines and handleSubEvents.
close(s.shutdown)
if s.config.TLSConfig.Enabled {
s.log.Info("shutting down rpc-server (https)", zap.String("endpoint", s.https.Addr))
httpsErr = s.https.Shutdown(context.Background())
}
s.log.Info("shutting down rpc-server", zap.String("endpoint", s.Addr))
err := s.Server.Shutdown(context.Background())
// Wait for handleSubEvents to finish.
<-s.executionCh
if err == nil {
return httpsErr
}
return err
}
func (s *Server) handleHTTPRequest(w http.ResponseWriter, httpRequest *http.Request) {
req := request.NewIn()
if httpRequest.URL.Path == "/ws" && httpRequest.Method == "GET" {
// Technically there is a race between this check and
// s.subscribers modification 20 lines below, but it's tiny
// and not really critical to bother with it. Some additional
// clients may sneak in, no big deal.
s.subsLock.RLock()
numOfSubs := len(s.subscribers)
s.subsLock.RUnlock()
if numOfSubs >= maxSubscribers {
s.writeHTTPErrorResponse(
req,
w,
response.NewInternalServerError("websocket users limit reached", nil),
)
return
}
ws, err := upgrader.Upgrade(w, httpRequest, nil)
if err != nil {
s.log.Info("websocket connection upgrade failed", zap.Error(err))
return
}
resChan := make(chan response.Abstract)
subChan := make(chan *websocket.PreparedMessage, notificationBufSize)
subscr := &subscriber{writer: subChan, ws: ws}
s.subsLock.Lock()
s.subscribers[subscr] = true
s.subsLock.Unlock()
go s.handleWsWrites(ws, resChan, subChan)
s.handleWsReads(ws, resChan, subscr)
return
}
if httpRequest.Method != "POST" {
s.writeHTTPErrorResponse(
req,
w,
response.NewInvalidParamsError(
fmt.Sprintf("Invalid method '%s', please retry with 'POST'", httpRequest.Method), nil,
),
)
return
}
err := req.DecodeData(httpRequest.Body)
if err != nil {
s.writeHTTPErrorResponse(req, w, response.NewParseError("Problem parsing JSON-RPC request body", err))
return
}
resp := s.handleRequest(req, nil)
s.writeHTTPServerResponse(req, w, resp)
}
func (s *Server) handleRequest(req *request.In, sub *subscriber) response.Abstract {
var res interface{}
var resErr *response.Error
reqParams, err := req.Params()
if err != nil {
return s.packResponse(req, nil, response.NewInvalidParamsError("Problem parsing request parameters", err))
}
s.log.Debug("processing rpc request",
zap.String("method", req.Method),
zap.String("params", fmt.Sprintf("%v", reqParams)))
incCounter(req.Method)
resErr = response.NewMethodNotFoundError(fmt.Sprintf("Method '%s' not supported", req.Method), nil)
handler, ok := rpcHandlers[req.Method]
if ok {
res, resErr = handler(s, *reqParams)
} else if sub != nil {
handler, ok := rpcWsHandlers[req.Method]
if ok {
res, resErr = handler(s, *reqParams, sub)
}
}
return s.packResponse(req, res, resErr)
}
func (s *Server) handleWsWrites(ws *websocket.Conn, resChan <-chan response.Abstract, subChan <-chan *websocket.PreparedMessage) {
pingTicker := time.NewTicker(wsPingPeriod)
eventloop:
for {
select {
case <-s.shutdown:
break eventloop
case event, ok := <-subChan:
if !ok {
break eventloop
}
ws.SetWriteDeadline(time.Now().Add(wsWriteLimit))
if err := ws.WritePreparedMessage(event); err != nil {
break eventloop
}
case res, ok := <-resChan:
if !ok {
break eventloop
}
ws.SetWriteDeadline(time.Now().Add(wsWriteLimit))
if err := ws.WriteJSON(res); err != nil {
break eventloop
}
case <-pingTicker.C:
ws.SetWriteDeadline(time.Now().Add(wsWriteLimit))
if err := ws.WriteMessage(websocket.PingMessage, []byte{}); err != nil {
break eventloop
}
}
}
ws.Close()
pingTicker.Stop()
// Drain notification channel as there might be some goroutines blocked
// on it.
drainloop:
for {
select {
case _, ok := <-subChan:
if !ok {
break drainloop
}
default:
break drainloop
}
}
}
func (s *Server) handleWsReads(ws *websocket.Conn, resChan chan<- response.Abstract, subscr *subscriber) {
ws.SetReadLimit(wsReadLimit)
ws.SetReadDeadline(time.Now().Add(wsPongLimit))
ws.SetPongHandler(func(string) error { ws.SetReadDeadline(time.Now().Add(wsPongLimit)); return nil })
requestloop:
for {
req := new(request.In)
err := ws.ReadJSON(req)
if err != nil {
break
}
res := s.handleRequest(req, subscr)
if res.Error != nil {
s.logRequestError(req, res.Error)
}
select {
case <-s.shutdown:
break requestloop
case resChan <- res:
}
}
s.subsLock.Lock()
delete(s.subscribers, subscr)
for _, e := range subscr.feeds {
if e.event != response.InvalidEventID {
s.unsubscribeFromChannel(e.event)
}
}
s.subsLock.Unlock()
close(resChan)
ws.Close()
}
func (s *Server) getBestBlockHash(_ request.Params) (interface{}, *response.Error) {
return "0x" + s.chain.CurrentBlockHash().StringLE(), nil
}
func (s *Server) getBlockCount(_ request.Params) (interface{}, *response.Error) {
return s.chain.BlockHeight() + 1, nil
}
func (s *Server) getConnectionCount(_ request.Params) (interface{}, *response.Error) {
return s.coreServer.PeerCount(), nil
}
func (s *Server) blockHashFromParam(param *request.Param) (util.Uint256, *response.Error) {
var hash util.Uint256
if param == nil {
return hash, response.ErrInvalidParams
}
switch param.Type {
case request.StringT:
var err error
hash, err = param.GetUint256()
if err != nil {
return hash, response.ErrInvalidParams
}
case request.NumberT:
num, err := s.blockHeightFromParam(param)
if err != nil {
return hash, response.ErrInvalidParams
}
hash = s.chain.GetHeaderHash(num)
default:
return hash, response.ErrInvalidParams
}
return hash, nil
}
func (s *Server) getBlock(reqParams request.Params) (interface{}, *response.Error) {
param := reqParams.Value(0)
hash, respErr := s.blockHashFromParam(param)
if respErr != nil {
return nil, respErr
}
block, err := s.chain.GetBlock(hash)
if err != nil {
return nil, response.NewInternalServerError(fmt.Sprintf("Problem locating block with hash: %s", hash), err)
}
if reqParams.Value(1).GetBoolean() {
return result.NewBlock(block, s.chain), nil
}
writer := io.NewBufBinWriter()
block.EncodeBinary(writer.BinWriter)
return hex.EncodeToString(writer.Bytes()), nil
}
func (s *Server) getBlockHash(reqParams request.Params) (interface{}, *response.Error) {
param := reqParams.ValueWithType(0, request.NumberT)
if param == nil {
return nil, response.ErrInvalidParams
}
num, err := s.blockHeightFromParam(param)
if err != nil {
return nil, response.ErrInvalidParams
}
return s.chain.GetHeaderHash(num), nil
}
func (s *Server) getVersion(_ request.Params) (interface{}, *response.Error) {
port, err := s.coreServer.Port()
if err != nil {
return nil, response.NewInternalServerError("Cannot fetch tcp port", err)
}
return result.Version{
TCPPort: port,
Nonce: s.coreServer.ID(),
UserAgent: s.coreServer.UserAgent,
}, nil
}
func (s *Server) getPeers(_ request.Params) (interface{}, *response.Error) {
peers := result.NewGetPeers()
peers.AddUnconnected(s.coreServer.UnconnectedPeers())
peers.AddConnected(s.coreServer.ConnectedPeers())
peers.AddBad(s.coreServer.BadPeers())
return peers, nil
}
func (s *Server) getRawMempool(reqParams request.Params) (interface{}, *response.Error) {
verbose := reqParams.Value(0).GetBoolean()
mp := s.chain.GetMemPool()
hashList := make([]util.Uint256, 0)
for _, item := range mp.GetVerifiedTransactions() {
hashList = append(hashList, item.Hash())
}
if !verbose {
return hashList, nil
}
return result.RawMempool{
Height: s.chain.BlockHeight(),
Verified: hashList,
}, nil
}
func (s *Server) validateAddress(reqParams request.Params) (interface{}, *response.Error) {
param := reqParams.Value(0)
if param == nil {
return nil, response.ErrInvalidParams
}
return validateAddress(param.Value), nil
}
// getApplicationLog returns the contract log based on the specified txid.
func (s *Server) getApplicationLog(reqParams request.Params) (interface{}, *response.Error) {
txHash, err := reqParams.Value(0).GetUint256()
if err != nil {
return nil, response.ErrInvalidParams
}
appExecResult, err := s.chain.GetAppExecResult(txHash)
if err != nil {
return nil, response.NewRPCError("Unknown transaction", "", err)
}
return appExecResult, nil
}
func (s *Server) getNEP5Balances(ps request.Params) (interface{}, *response.Error) {
u, err := ps.Value(0).GetUint160FromAddressOrHex()
if err != nil {
return nil, response.ErrInvalidParams
}
as := s.chain.GetNEP5Balances(u)
bs := &result.NEP5Balances{
Address: address.Uint160ToString(u),
Balances: []result.NEP5Balance{},
}
if as != nil {
cache := make(map[int32]decimals)
for id, bal := range as.Trackers {
dec, err := s.getDecimals(id, cache)
if err != nil {
continue
}
amount := amountToString(&bal.Balance, dec.Value)
bs.Balances = append(bs.Balances, result.NEP5Balance{
Asset: dec.Hash,
Amount: amount,
LastUpdated: bal.LastUpdatedBlock,
})
}
}
return bs, nil
}
func getTimestamps(p1, p2 *request.Param) (uint64, uint64, error) {
var start, end uint64
if p1 != nil {
val, err := p1.GetInt()
if err != nil {
return 0, 0, err
}
start = uint64(val)
}
if p2 != nil {
val, err := p2.GetInt()
if err != nil {
return 0, 0, err
}
end = uint64(val)
}
return start, end, nil
}
func (s *Server) getNEP5Transfers(ps request.Params) (interface{}, *response.Error) {
u, err := ps.Value(0).GetUint160FromAddressOrHex()
if err != nil {
return nil, response.ErrInvalidParams
}
p1, p2 := ps.Value(1), ps.Value(2)
start, end, err := getTimestamps(p1, p2)
if err != nil {
return nil, response.NewInvalidParamsError(err.Error(), err)
}
if p2 == nil {
end = uint64(time.Now().Unix() * 1000)
if p1 == nil {
start = uint64(time.Now().Add(-time.Hour*24*7).Unix() * 1000)
}
}
bs := &result.NEP5Transfers{
Address: address.Uint160ToString(u),
Received: []result.NEP5Transfer{},
Sent: []result.NEP5Transfer{},
}
cache := make(map[int32]decimals)
err = s.chain.ForEachNEP5Transfer(u, func(tr *state.NEP5Transfer) error {
if tr.Timestamp < start || tr.Timestamp > end {
return nil
}
d, err := s.getDecimals(tr.Asset, cache)
if err != nil {
return nil
}
transfer := result.NEP5Transfer{
Timestamp: tr.Timestamp,
Asset: d.Hash,
Index: tr.Block,
TxHash: tr.Tx,
}
if tr.Amount.Sign() > 0 { // token was received
transfer.Amount = amountToString(&tr.Amount, d.Value)
if !tr.From.Equals(util.Uint160{}) {
transfer.Address = address.Uint160ToString(tr.From)
}
bs.Received = append(bs.Received, transfer)
return nil
}
transfer.Amount = amountToString(new(big.Int).Neg(&tr.Amount), d.Value)
if !tr.To.Equals(util.Uint160{}) {
transfer.Address = address.Uint160ToString(tr.To)
}
bs.Sent = append(bs.Sent, transfer)
return nil
})
if err != nil {
return nil, response.NewInternalServerError("invalid NEP5 transfer log", err)
}
return bs, nil
}
func amountToString(amount *big.Int, decimals int64) string {
if decimals == 0 {
return amount.String()
}
pow := int64(math.Pow10(int(decimals)))
q, r := new(big.Int).DivMod(amount, big.NewInt(pow), new(big.Int))
if r.Sign() == 0 {
return q.String()
}
fs := fmt.Sprintf("%%d.%%0%dd", decimals)
return fmt.Sprintf(fs, q, r)
}
// decimals represents decimals value for the contract with the specified scripthash.
type decimals struct {
Hash util.Uint160
Value int64
}
func (s *Server) getDecimals(contractID int32, cache map[int32]decimals) (decimals, error) {
if d, ok := cache[contractID]; ok {
return d, nil
}
h, err := s.chain.GetContractScriptHash(contractID)
if err != nil {
return decimals{}, err
}
script, err := request.CreateFunctionInvocationScript(h, request.Params{
{
Type: request.StringT,
Value: "decimals",
},
{
Type: request.ArrayT,
Value: []request.Param{},
},
})
if err != nil {
return decimals{}, fmt.Errorf("can't create script: %w", err)
}
res := s.runScriptInVM(script, nil)
if res == nil || res.State != "HALT" || len(res.Stack) == 0 {
return decimals{}, errors.New("execution error : no result")
}
d := decimals{Hash: h}
bi, err := res.Stack[len(res.Stack)-1].TryInteger()
if err != nil {
return decimals{}, err
}
d.Value = bi.Int64()
if d.Value < 0 {
return d, errors.New("incorrect result: negative result")
}
cache[contractID] = d
return d, nil
}
func (s *Server) contractIDFromParam(param *request.Param) (int32, *response.Error) {
var result int32
if param == nil {
return 0, response.ErrInvalidParams
}
switch param.Type {
case request.StringT:
var err error
scriptHash, err := param.GetUint160FromHex()
if err != nil {
return 0, response.ErrInvalidParams
}
cs := s.chain.GetContractState(scriptHash)
if cs == nil {
return 0, response.ErrUnknown
}
result = cs.ID
case request.NumberT:
id, err := param.GetInt()
if err != nil {
return 0, response.ErrInvalidParams
}
result = int32(id)
default:
return 0, response.ErrInvalidParams
}
return result, nil
}
func (s *Server) getStorage(ps request.Params) (interface{}, *response.Error) {
id, rErr := s.contractIDFromParam(ps.Value(0))
if rErr == response.ErrUnknown {
return nil, nil
}
if rErr != nil {
return nil, rErr
}
key, err := ps.Value(1).GetBytesHex()
if err != nil {
return nil, response.ErrInvalidParams
}
item := s.chain.GetStorageItem(id, key)
if item == nil {
return "", nil
}
return hex.EncodeToString(item.Value), nil
}
func (s *Server) getrawtransaction(reqParams request.Params) (interface{}, *response.Error) {
var resultsErr *response.Error
var results interface{}
if txHash, err := reqParams.Value(0).GetUint256(); err != nil {
resultsErr = response.ErrInvalidParams
} else if tx, height, err := s.chain.GetTransaction(txHash); err != nil {
err = fmt.Errorf("invalid transaction %s: %w", txHash, err)
return nil, response.NewRPCError("Unknown transaction", err.Error(), err)
} else if reqParams.Value(1).GetBoolean() {
_header := s.chain.GetHeaderHash(int(height))
header, err := s.chain.GetHeader(_header)
if err != nil {
return nil, response.NewInvalidParamsError(err.Error(), err)
}
st, err := s.chain.GetAppExecResult(txHash)
if err != nil {
return nil, response.NewRPCError("Unknown transaction", err.Error(), err)
}
results = result.NewTransactionOutputRaw(tx, header, st, s.chain)
} else {
results = hex.EncodeToString(tx.Bytes())
}
return results, resultsErr
}
func (s *Server) getTransactionHeight(ps request.Params) (interface{}, *response.Error) {
h, err := ps.Value(0).GetUint256()
if err != nil {
return nil, response.ErrInvalidParams
}
_, height, err := s.chain.GetTransaction(h)
if err != nil {
return nil, response.NewRPCError("unknown transaction", "", nil)
}
return height, nil
}
// getContractState returns contract state (contract information, according to the contract script hash).
func (s *Server) getContractState(reqParams request.Params) (interface{}, *response.Error) {
scriptHash, err := reqParams.ValueWithType(0, request.StringT).GetUint160FromHex()
if err != nil {
return nil, response.ErrInvalidParams
}
cs := s.chain.GetContractState(scriptHash)
if cs == nil {
return nil, response.NewRPCError("Unknown contract", "", nil)
}
return cs, nil
}
// getBlockSysFee returns the system fees of the block, based on the specified index.
func (s *Server) getBlockSysFee(reqParams request.Params) (interface{}, *response.Error) {
param := reqParams.ValueWithType(0, request.NumberT)
if param == nil {
return 0, response.ErrInvalidParams
}
num, err := s.blockHeightFromParam(param)
if err != nil {
return 0, response.NewRPCError("Invalid height", "", nil)
}
headerHash := s.chain.GetHeaderHash(num)
block, errBlock := s.chain.GetBlock(headerHash)
if errBlock != nil {
return 0, response.NewRPCError(errBlock.Error(), "", nil)
}
var blockSysFee int64
for _, tx := range block.Transactions {
blockSysFee += tx.SystemFee
}
return blockSysFee, nil
}
// getBlockHeader returns the corresponding block header information according to the specified script hash.
func (s *Server) getBlockHeader(reqParams request.Params) (interface{}, *response.Error) {
param := reqParams.Value(0)
hash, respErr := s.blockHashFromParam(param)
if respErr != nil {
return nil, respErr
}
verbose := reqParams.Value(1).GetBoolean()
h, err := s.chain.GetHeader(hash)
if err != nil {
return nil, response.NewRPCError("unknown block", "", nil)
}
if verbose {
return result.NewHeader(h, s.chain), nil
}
buf := io.NewBufBinWriter()
h.EncodeBinary(buf.BinWriter)
if buf.Err != nil {
return nil, response.NewInternalServerError("encoding error", buf.Err)
}
return hex.EncodeToString(buf.Bytes()), nil
}
// getUnclaimedGas returns unclaimed GAS amount of the specified address.
func (s *Server) getUnclaimedGas(ps request.Params) (interface{}, *response.Error) {
u, err := ps.ValueWithType(0, request.StringT).GetUint160FromAddress()
if err != nil {
return nil, response.ErrInvalidParams
}
neo, neoHeight := s.chain.GetGoverningTokenBalance(u)
if neo.Sign() == 0 {
return result.UnclaimedGas{
Address: u,
}, nil
}
gas := s.chain.CalculateClaimable(neo, neoHeight, s.chain.BlockHeight()+1) // +1 as in C#, for the next block.
return result.UnclaimedGas{
Address: u,
Unclaimed: *gas,
}, nil
}
// getValidators returns the current NEO consensus nodes information and voting status.
func (s *Server) getValidators(_ request.Params) (interface{}, *response.Error) {
var validators keys.PublicKeys
validators, err := s.chain.GetValidators()
if err != nil {
return nil, response.NewRPCError("can't get validators", "", err)
}
enrollments, err := s.chain.GetEnrollments()
if err != nil {
return nil, response.NewRPCError("can't get enrollments", "", err)
}
var res = make([]result.Validator, 0)
for _, v := range enrollments {
res = append(res, result.Validator{
PublicKey: *v.Key,
Votes: v.Votes.Int64(),
Active: validators.Contains(v.Key),
})
}
return res, nil
}
// invokeFunction implements the `invokeFunction` RPC call.
func (s *Server) invokeFunction(reqParams request.Params) (interface{}, *response.Error) {
scriptHash, err := reqParams.ValueWithType(0, request.StringT).GetUint160FromHex()
if err != nil {
return nil, response.ErrInvalidParams
}
tx := &transaction.Transaction{}
checkWitnessHashesIndex := len(reqParams)
if checkWitnessHashesIndex > 3 {
signers, err := reqParams[3].GetSigners()
if err != nil {
return nil, response.ErrInvalidParams
}
tx.Signers = signers
checkWitnessHashesIndex--
}
if len(tx.Signers) == 0 {
tx.Signers = []transaction.Signer{{Account: util.Uint160{}, Scopes: transaction.FeeOnly}}
}
script, err := request.CreateFunctionInvocationScript(scriptHash, reqParams[1:checkWitnessHashesIndex])
if err != nil {
return nil, response.NewInternalServerError("can't create invocation script", err)
}
tx.Script = script
return s.runScriptInVM(script, tx), nil
}
// invokescript implements the `invokescript` RPC call.
func (s *Server) invokescript(reqParams request.Params) (interface{}, *response.Error) {
if len(reqParams) < 1 {
return nil, response.ErrInvalidParams
}
script, err := reqParams[0].GetBytesHex()
if err != nil {
return nil, response.ErrInvalidParams
}
tx := &transaction.Transaction{}
if len(reqParams) > 1 {
signers, err := reqParams[1].GetSigners()
if err != nil {
return nil, response.ErrInvalidParams
}
tx.Signers = signers
}
if len(tx.Signers) == 0 {
tx.Signers = []transaction.Signer{{Account: util.Uint160{}, Scopes: transaction.FeeOnly}}
}
tx.Script = script
return s.runScriptInVM(script, tx), nil
}
// runScriptInVM runs given script in a new test VM and returns the invocation
// result.
func (s *Server) runScriptInVM(script []byte, tx *transaction.Transaction) *result.Invoke {
vm := s.chain.GetTestVM(tx)
vm.GasLimit = int64(s.config.MaxGasInvoke)
vm.LoadScriptWithFlags(script, smartcontract.All)
_ = vm.Run()
result := &result.Invoke{
State: vm.State().String(),
GasConsumed: vm.GasConsumed(),
Script: hex.EncodeToString(script),
Stack: vm.Estack().ToArray(),
}
return result
}
// submitBlock broadcasts a raw block over the NEO network.
func (s *Server) submitBlock(reqParams request.Params) (interface{}, *response.Error) {
blockBytes, err := reqParams.ValueWithType(0, request.StringT).GetBytesHex()
if err != nil {
return nil, response.ErrInvalidParams
}
b := block.New(s.network)
r := io.NewBinReaderFromBuf(blockBytes)
b.DecodeBinary(r)
if r.Err != nil {
return nil, response.ErrInvalidParams
}
err = s.chain.AddBlock(b)
if err != nil {
switch {
case errors.Is(err, core.ErrInvalidBlockIndex) || errors.Is(err, core.ErrAlreadyExists):
return nil, response.ErrAlreadyExists
default:
return nil, response.ErrValidationFailed
}
}
return &result.RelayResult{
Hash: b.Hash(),
}, nil
}
func (s *Server) sendrawtransaction(reqParams request.Params) (interface{}, *response.Error) {
var resultsErr *response.Error
var results interface{}
if len(reqParams) < 1 {
return nil, response.ErrInvalidParams
} else if byteTx, err := reqParams[0].GetBytesHex(); err != nil {
return nil, response.ErrInvalidParams
} else {
tx, err := transaction.NewTransactionFromBytes(s.network, byteTx)
if err != nil {
return nil, response.ErrInvalidParams
}
relayReason := s.coreServer.RelayTxn(tx)
switch relayReason {
case network.RelaySucceed:
results = result.RelayResult{
Hash: tx.Hash(),
}
case network.RelayAlreadyExists:
resultsErr = response.ErrAlreadyExists
case network.RelayOutOfMemory:
resultsErr = response.ErrOutOfMemory
case network.RelayUnableToVerify:
resultsErr = response.ErrUnableToVerify
case network.RelayInvalid:
resultsErr = response.ErrValidationFailed
case network.RelayPolicyFail:
resultsErr = response.ErrPolicyFail
default:
resultsErr = response.ErrUnknown
}
}
return results, resultsErr
}
// subscribe handles subscription requests from websocket clients.
func (s *Server) subscribe(reqParams request.Params, sub *subscriber) (interface{}, *response.Error) {
streamName, err := reqParams.Value(0).GetString()
if err != nil {
return nil, response.ErrInvalidParams
}
event, err := response.GetEventIDFromString(streamName)
if err != nil || event == response.MissedEventID {
return nil, response.ErrInvalidParams
}
// Optional filter.
var filter interface{}
if p := reqParams.Value(1); p != nil {
switch event {
case response.BlockEventID:
if p.Type != request.BlockFilterT {
return nil, response.ErrInvalidParams
}
case response.TransactionEventID:
if p.Type != request.TxFilterT {
return nil, response.ErrInvalidParams
}
case response.NotificationEventID:
if p.Type != request.NotificationFilterT {
return nil, response.ErrInvalidParams
}
case response.ExecutionEventID:
if p.Type != request.ExecutionFilterT {
return nil, response.ErrInvalidParams
}
}
filter = p.Value
}
s.subsLock.Lock()
defer s.subsLock.Unlock()
select {
case <-s.shutdown:
return nil, response.NewInternalServerError("server is shutting down", nil)
default:
}
var id int
for ; id < len(sub.feeds); id++ {
if sub.feeds[id].event == response.InvalidEventID {
break
}
}
if id == len(sub.feeds) {
return nil, response.NewInternalServerError("maximum number of subscriptions is reached", nil)
}
sub.feeds[id].event = event
sub.feeds[id].filter = filter
s.subscribeToChannel(event)
return strconv.FormatInt(int64(id), 10), nil
}
// subscribeToChannel subscribes RPC server to appropriate chain events if
// it's not yet subscribed for them. It's supposed to be called with s.subsLock
// taken by the caller.
func (s *Server) subscribeToChannel(event response.EventID) {
switch event {
case response.BlockEventID:
if s.blockSubs == 0 {
s.chain.SubscribeForBlocks(s.blockCh)
}
s.blockSubs++
case response.TransactionEventID:
if s.transactionSubs == 0 {
s.chain.SubscribeForTransactions(s.transactionCh)
}
s.transactionSubs++
case response.NotificationEventID:
if s.notificationSubs == 0 {
s.chain.SubscribeForNotifications(s.notificationCh)
}
s.notificationSubs++
case response.ExecutionEventID:
if s.executionSubs == 0 {
s.chain.SubscribeForExecutions(s.executionCh)
}
s.executionSubs++
}
}
// unsubscribe handles unsubscription requests from websocket clients.
func (s *Server) unsubscribe(reqParams request.Params, sub *subscriber) (interface{}, *response.Error) {
id, err := reqParams.Value(0).GetInt()
if err != nil || id < 0 {
return nil, response.ErrInvalidParams
}
s.subsLock.Lock()
defer s.subsLock.Unlock()
if len(sub.feeds) <= id || sub.feeds[id].event == response.InvalidEventID {
return nil, response.ErrInvalidParams
}
event := sub.feeds[id].event
sub.feeds[id].event = response.InvalidEventID
sub.feeds[id].filter = nil
s.unsubscribeFromChannel(event)
return true, nil
}
// unsubscribeFromChannel unsubscribes RPC server from appropriate chain events
// if there are no other subscribers for it. It's supposed to be called with
// s.subsLock taken by the caller.
func (s *Server) unsubscribeFromChannel(event response.EventID) {
switch event {
case response.BlockEventID:
s.blockSubs--
if s.blockSubs == 0 {
s.chain.UnsubscribeFromBlocks(s.blockCh)
}
case response.TransactionEventID:
s.transactionSubs--
if s.transactionSubs == 0 {
s.chain.UnsubscribeFromTransactions(s.transactionCh)
}
case response.NotificationEventID:
s.notificationSubs--
if s.notificationSubs == 0 {
s.chain.UnsubscribeFromNotifications(s.notificationCh)
}
case response.ExecutionEventID:
s.executionSubs--
if s.executionSubs == 0 {
s.chain.UnsubscribeFromExecutions(s.executionCh)
}
}
}
func (s *Server) handleSubEvents() {
b, err := json.Marshal(response.Notification{
JSONRPC: request.JSONRPCVersion,
Event: response.MissedEventID,
Payload: make([]interface{}, 0),
})
if err != nil {
s.log.Error("fatal: failed to marshal overflow event", zap.Error(err))
return
}
overflowMsg, err := websocket.NewPreparedMessage(websocket.TextMessage, b)
if err != nil {
s.log.Error("fatal: failed to prepare overflow message", zap.Error(err))
return
}
chloop:
for {
var resp = response.Notification{
JSONRPC: request.JSONRPCVersion,
Payload: make([]interface{}, 1),
}
var msg *websocket.PreparedMessage
select {
case <-s.shutdown:
break chloop
case b := <-s.blockCh:
resp.Event = response.BlockEventID
resp.Payload[0] = b
case execution := <-s.executionCh:
resp.Event = response.ExecutionEventID
resp.Payload[0] = execution
case notification := <-s.notificationCh:
resp.Event = response.NotificationEventID
resp.Payload[0] = *notification
case tx := <-s.transactionCh:
resp.Event = response.TransactionEventID
resp.Payload[0] = tx
}
s.subsLock.RLock()
subloop:
for sub := range s.subscribers {
if sub.overflown.Load() {
continue
}
for i := range sub.feeds {
if sub.feeds[i].Matches(&resp) {
if msg == nil {
b, err = json.Marshal(resp)
if err != nil {
s.log.Error("failed to marshal notification",
zap.Error(err),
zap.String("type", resp.Event.String()))
break subloop
}
msg, err = websocket.NewPreparedMessage(websocket.TextMessage, b)
if err != nil {
s.log.Error("failed to prepare notification message",
zap.Error(err),
zap.String("type", resp.Event.String()))
break subloop
}
}
select {
case sub.writer <- msg:
default:
sub.overflown.Store(true)
// MissedEvent is to be delivered eventually.
go func(sub *subscriber) {
sub.writer <- overflowMsg
sub.overflown.Store(false)
}(sub)
}
// The message is sent only once per subscriber.
break
}
}
}
s.subsLock.RUnlock()
}
// It's important to do it with lock held because no subscription routine
// should be running concurrently to this one. And even if one is to run
// after unlock, it'll see closed s.shutdown and won't subscribe.
s.subsLock.Lock()
// There might be no subscription in reality, but it's not a problem as
// core.Blockchain allows unsubscribing non-subscribed channels.
s.chain.UnsubscribeFromBlocks(s.blockCh)
s.chain.UnsubscribeFromTransactions(s.transactionCh)
s.chain.UnsubscribeFromNotifications(s.notificationCh)
s.chain.UnsubscribeFromExecutions(s.executionCh)
s.subsLock.Unlock()
drainloop:
for {
select {
case <-s.blockCh:
case <-s.executionCh:
case <-s.notificationCh:
case <-s.transactionCh:
default:
break drainloop
}
}
// It's not required closing these, but since they're drained already
// this is safe and it also allows to give a signal to Shutdown routine.
close(s.blockCh)
close(s.transactionCh)
close(s.notificationCh)
close(s.executionCh)
}
func (s *Server) blockHeightFromParam(param *request.Param) (int, *response.Error) {
num, err := param.GetInt()
if err != nil {
return 0, nil
}
if num < 0 || num > int(s.chain.BlockHeight()) {
return 0, invalidBlockHeightError(0, num)
}
return num, nil
}
func (s *Server) packResponse(r *request.In, result interface{}, respErr *response.Error) response.Abstract {
resp := response.Abstract{
HeaderAndError: response.HeaderAndError{
Header: response.Header{
JSONRPC: r.JSONRPC,
ID: r.RawID,
},
},
}
if respErr != nil {
resp.Error = respErr
} else {
resp.Result = result
}
return resp
}
// logRequestError is a request error logger.
func (s *Server) logRequestError(r *request.In, jsonErr *response.Error) {
logFields := []zap.Field{
zap.Error(jsonErr.Cause),
zap.String("method", r.Method),
}
params, err := r.Params()
if err == nil {
logFields = append(logFields, zap.Any("params", params))
}
s.log.Error("Error encountered with rpc request", logFields...)
}
// writeHTTPErrorResponse writes an error response to the ResponseWriter.
func (s *Server) writeHTTPErrorResponse(r *request.In, w http.ResponseWriter, jsonErr *response.Error) {
resp := s.packResponse(r, nil, jsonErr)
s.writeHTTPServerResponse(r, w, resp)
}
func (s *Server) writeHTTPServerResponse(r *request.In, w http.ResponseWriter, resp response.Abstract) {
// Errors can happen in many places and we can only catch ALL of them here.
if resp.Error != nil {
s.logRequestError(r, resp.Error)
w.WriteHeader(resp.Error.HTTPCode)
}
w.Header().Set("Content-Type", "application/json; charset=utf-8")
if s.config.EnableCORSWorkaround {
w.Header().Set("Access-Control-Allow-Origin", "*")
w.Header().Set("Access-Control-Allow-Headers", "Content-Type, Access-Control-Allow-Headers, Authorization, X-Requested-With")
}
encoder := json.NewEncoder(w)
err := encoder.Encode(resp)
if err != nil {
s.log.Error("Error encountered while encoding response",
zap.String("err", err.Error()),
zap.String("method", r.Method))
}
}
// validateAddress verifies that the address is a correct NEO address
// see https://docs.neo.org/en-us/node/cli/2.9.4/api/validateaddress.html
func validateAddress(addr interface{}) result.ValidateAddress {
resp := result.ValidateAddress{Address: addr}
if addr, ok := addr.(string); ok {
_, err := address.StringToUint160(addr)
resp.IsValid = (err == nil)
}
return resp
}