Official Go implementation of the Ethereum protocol
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go-ethereum/rpc/handler.go

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// Copyright 2019 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
package rpc
import (
"context"
"encoding/json"
"reflect"
"strconv"
"strings"
"sync"
"time"
"github.com/ethereum/go-ethereum/log"
)
// handler handles JSON-RPC messages. There is one handler per connection. Note that
// handler is not safe for concurrent use. Message handling never blocks indefinitely
// because RPCs are processed on background goroutines launched by handler.
//
// The entry points for incoming messages are:
//
// h.handleMsg(message)
// h.handleBatch(message)
//
// Outgoing calls use the requestOp struct. Register the request before sending it
// on the connection:
//
// op := &requestOp{ids: ...}
// h.addRequestOp(op)
//
// Now send the request, then wait for the reply to be delivered through handleMsg:
//
// if err := op.wait(...); err != nil {
// h.removeRequestOp(op) // timeout, etc.
// }
type handler struct {
reg *serviceRegistry
unsubscribeCb *callback
idgen func() ID // subscription ID generator
respWait map[string]*requestOp // active client requests
clientSubs map[string]*ClientSubscription // active client subscriptions
callWG sync.WaitGroup // pending call goroutines
rootCtx context.Context // canceled by close()
cancelRoot func() // cancel function for rootCtx
conn jsonWriter // where responses will be sent
log log.Logger
allowSubscribe bool
batchRequestLimit int
batchResponseMaxSize int
subLock sync.Mutex
serverSubs map[ID]*Subscription
}
type callProc struct {
ctx context.Context
notifiers []*Notifier
}
func newHandler(connCtx context.Context, conn jsonWriter, idgen func() ID, reg *serviceRegistry, batchRequestLimit, batchResponseMaxSize int) *handler {
rootCtx, cancelRoot := context.WithCancel(connCtx)
h := &handler{
reg: reg,
idgen: idgen,
conn: conn,
respWait: make(map[string]*requestOp),
clientSubs: make(map[string]*ClientSubscription),
rootCtx: rootCtx,
cancelRoot: cancelRoot,
allowSubscribe: true,
serverSubs: make(map[ID]*Subscription),
log: log.Root(),
batchRequestLimit: batchRequestLimit,
batchResponseMaxSize: batchResponseMaxSize,
}
if conn.remoteAddr() != "" {
h.log = h.log.New("conn", conn.remoteAddr())
}
h.unsubscribeCb = newCallback(reflect.Value{}, reflect.ValueOf(h.unsubscribe))
return h
}
// batchCallBuffer manages in progress call messages and their responses during a batch
// call. Calls need to be synchronized between the processing and timeout-triggering
// goroutines.
type batchCallBuffer struct {
mutex sync.Mutex
calls []*jsonrpcMessage
resp []*jsonrpcMessage
wrote bool
}
// nextCall returns the next unprocessed message.
func (b *batchCallBuffer) nextCall() *jsonrpcMessage {
b.mutex.Lock()
defer b.mutex.Unlock()
if len(b.calls) == 0 {
return nil
}
// The popping happens in `pushAnswer`. The in progress call is kept
// so we can return an error for it in case of timeout.
msg := b.calls[0]
return msg
}
// pushResponse adds the response to last call returned by nextCall.
func (b *batchCallBuffer) pushResponse(answer *jsonrpcMessage) {
b.mutex.Lock()
defer b.mutex.Unlock()
if answer != nil {
b.resp = append(b.resp, answer)
}
b.calls = b.calls[1:]
}
// write sends the responses.
func (b *batchCallBuffer) write(ctx context.Context, conn jsonWriter) {
b.mutex.Lock()
defer b.mutex.Unlock()
b.doWrite(ctx, conn, false)
}
// respondWithError sends the responses added so far. For the remaining unanswered call
// messages, it responds with the given error.
func (b *batchCallBuffer) respondWithError(ctx context.Context, conn jsonWriter, err error) {
b.mutex.Lock()
defer b.mutex.Unlock()
for _, msg := range b.calls {
if !msg.isNotification() {
b.resp = append(b.resp, msg.errorResponse(err))
}
}
b.doWrite(ctx, conn, true)
}
// doWrite actually writes the response.
// This assumes b.mutex is held.
func (b *batchCallBuffer) doWrite(ctx context.Context, conn jsonWriter, isErrorResponse bool) {
if b.wrote {
return
}
b.wrote = true // can only write once
if len(b.resp) > 0 {
conn.writeJSON(ctx, b.resp, isErrorResponse)
}
}
// handleBatch executes all messages in a batch and returns the responses.
func (h *handler) handleBatch(msgs []*jsonrpcMessage) {
// Emit error response for empty batches:
if len(msgs) == 0 {
h.startCallProc(func(cp *callProc) {
resp := errorMessage(&invalidRequestError{"empty batch"})
h.conn.writeJSON(cp.ctx, resp, true)
})
return
}
// Apply limit on total number of requests.
if h.batchRequestLimit != 0 && len(msgs) > h.batchRequestLimit {
h.startCallProc(func(cp *callProc) {
h.respondWithBatchTooLarge(cp, msgs)
})
return
}
// Handle non-call messages first.
// Here we need to find the requestOp that sent the request batch.
calls := make([]*jsonrpcMessage, 0, len(msgs))
h.handleResponses(msgs, func(msg *jsonrpcMessage) {
calls = append(calls, msg)
})
if len(calls) == 0 {
return
}
// Process calls on a goroutine because they may block indefinitely:
h.startCallProc(func(cp *callProc) {
var (
timer *time.Timer
cancel context.CancelFunc
callBuffer = &batchCallBuffer{calls: calls, resp: make([]*jsonrpcMessage, 0, len(calls))}
)
cp.ctx, cancel = context.WithCancel(cp.ctx)
defer cancel()
// Cancel the request context after timeout and send an error response. Since the
// currently-running method might not return immediately on timeout, we must wait
// for the timeout concurrently with processing the request.
if timeout, ok := ContextRequestTimeout(cp.ctx); ok {
timer = time.AfterFunc(timeout, func() {
cancel()
err := &internalServerError{errcodeTimeout, errMsgTimeout}
callBuffer.respondWithError(cp.ctx, h.conn, err)
})
}
responseBytes := 0
for {
// No need to handle rest of calls if timed out.
if cp.ctx.Err() != nil {
break
}
msg := callBuffer.nextCall()
if msg == nil {
break
}
resp := h.handleCallMsg(cp, msg)
callBuffer.pushResponse(resp)
if resp != nil && h.batchResponseMaxSize != 0 {
responseBytes += len(resp.Result)
if responseBytes > h.batchResponseMaxSize {
err := &internalServerError{errcodeResponseTooLarge, errMsgResponseTooLarge}
callBuffer.respondWithError(cp.ctx, h.conn, err)
break
}
}
}
if timer != nil {
timer.Stop()
}
h.addSubscriptions(cp.notifiers)
callBuffer.write(cp.ctx, h.conn)
for _, n := range cp.notifiers {
n.activate()
}
})
}
func (h *handler) respondWithBatchTooLarge(cp *callProc, batch []*jsonrpcMessage) {
resp := errorMessage(&invalidRequestError{errMsgBatchTooLarge})
// Find the first call and add its "id" field to the error.
// This is the best we can do, given that the protocol doesn't have a way
// of reporting an error for the entire batch.
for _, msg := range batch {
if msg.isCall() {
resp.ID = msg.ID
break
}
}
h.conn.writeJSON(cp.ctx, []*jsonrpcMessage{resp}, true)
}
// handleMsg handles a single non-batch message.
func (h *handler) handleMsg(msg *jsonrpcMessage) {
msgs := []*jsonrpcMessage{msg}
h.handleResponses(msgs, func(msg *jsonrpcMessage) {
h.startCallProc(func(cp *callProc) {
h.handleNonBatchCall(cp, msg)
})
})
}
func (h *handler) handleNonBatchCall(cp *callProc, msg *jsonrpcMessage) {
var (
responded sync.Once
timer *time.Timer
cancel context.CancelFunc
)
cp.ctx, cancel = context.WithCancel(cp.ctx)
defer cancel()
// Cancel the request context after timeout and send an error response. Since the
// running method might not return immediately on timeout, we must wait for the
// timeout concurrently with processing the request.
if timeout, ok := ContextRequestTimeout(cp.ctx); ok {
timer = time.AfterFunc(timeout, func() {
cancel()
responded.Do(func() {
resp := msg.errorResponse(&internalServerError{errcodeTimeout, errMsgTimeout})
h.conn.writeJSON(cp.ctx, resp, true)
})
})
}
answer := h.handleCallMsg(cp, msg)
if timer != nil {
timer.Stop()
}
h.addSubscriptions(cp.notifiers)
if answer != nil {
responded.Do(func() {
h.conn.writeJSON(cp.ctx, answer, false)
})
}
for _, n := range cp.notifiers {
n.activate()
}
}
// close cancels all requests except for inflightReq and waits for
// call goroutines to shut down.
func (h *handler) close(err error, inflightReq *requestOp) {
h.cancelAllRequests(err, inflightReq)
h.callWG.Wait()
h.cancelRoot()
h.cancelServerSubscriptions(err)
}
// addRequestOp registers a request operation.
func (h *handler) addRequestOp(op *requestOp) {
for _, id := range op.ids {
h.respWait[string(id)] = op
}
}
// removeRequestOp stops waiting for the given request IDs.
func (h *handler) removeRequestOp(op *requestOp) {
for _, id := range op.ids {
delete(h.respWait, string(id))
}
}
// cancelAllRequests unblocks and removes pending requests and active subscriptions.
func (h *handler) cancelAllRequests(err error, inflightReq *requestOp) {
didClose := make(map[*requestOp]bool)
if inflightReq != nil {
didClose[inflightReq] = true
}
for id, op := range h.respWait {
// Remove the op so that later calls will not close op.resp again.
delete(h.respWait, id)
if !didClose[op] {
op.err = err
close(op.resp)
didClose[op] = true
}
}
for id, sub := range h.clientSubs {
delete(h.clientSubs, id)
sub.close(err)
}
}
func (h *handler) addSubscriptions(nn []*Notifier) {
h.subLock.Lock()
defer h.subLock.Unlock()
for _, n := range nn {
if sub := n.takeSubscription(); sub != nil {
h.serverSubs[sub.ID] = sub
}
}
}
// cancelServerSubscriptions removes all subscriptions and closes their error channels.
func (h *handler) cancelServerSubscriptions(err error) {
h.subLock.Lock()
defer h.subLock.Unlock()
for id, s := range h.serverSubs {
s.err <- err
close(s.err)
delete(h.serverSubs, id)
}
}
// startCallProc runs fn in a new goroutine and starts tracking it in the h.calls wait group.
func (h *handler) startCallProc(fn func(*callProc)) {
h.callWG.Add(1)
go func() {
ctx, cancel := context.WithCancel(h.rootCtx)
defer h.callWG.Done()
defer cancel()
fn(&callProc{ctx: ctx})
}()
}
// handleResponse processes method call responses.
func (h *handler) handleResponses(batch []*jsonrpcMessage, handleCall func(*jsonrpcMessage)) {
var resolvedops []*requestOp
handleResp := func(msg *jsonrpcMessage) {
op := h.respWait[string(msg.ID)]
if op == nil {
h.log.Debug("Unsolicited RPC response", "reqid", idForLog{msg.ID})
return
}
resolvedops = append(resolvedops, op)
delete(h.respWait, string(msg.ID))
// For subscription responses, start the subscription if the server
// indicates success. EthSubscribe gets unblocked in either case through
// the op.resp channel.
if op.sub != nil {
if msg.Error != nil {
op.err = msg.Error
} else {
op.err = json.Unmarshal(msg.Result, &op.sub.subid)
if op.err == nil {
go op.sub.run()
h.clientSubs[op.sub.subid] = op.sub
}
}
}
if !op.hadResponse {
op.hadResponse = true
op.resp <- batch
}
}
for _, msg := range batch {
start := time.Now()
switch {
case msg.isResponse():
handleResp(msg)
h.log.Trace("Handled RPC response", "reqid", idForLog{msg.ID}, "duration", time.Since(start))
case msg.isNotification():
if strings.HasSuffix(msg.Method, notificationMethodSuffix) {
h.handleSubscriptionResult(msg)
continue
}
handleCall(msg)
default:
handleCall(msg)
}
}
for _, op := range resolvedops {
h.removeRequestOp(op)
}
}
// handleSubscriptionResult processes subscription notifications.
func (h *handler) handleSubscriptionResult(msg *jsonrpcMessage) {
var result subscriptionResult
if err := json.Unmarshal(msg.Params, &result); err != nil {
h.log.Debug("Dropping invalid subscription message")
return
}
if h.clientSubs[result.ID] != nil {
h.clientSubs[result.ID].deliver(result.Result)
}
}
// handleCallMsg executes a call message and returns the answer.
func (h *handler) handleCallMsg(ctx *callProc, msg *jsonrpcMessage) *jsonrpcMessage {
start := time.Now()
switch {
case msg.isNotification():
h.handleCall(ctx, msg)
h.log.Debug("Served "+msg.Method, "duration", time.Since(start))
return nil
case msg.isCall():
resp := h.handleCall(ctx, msg)
var ctx []interface{}
ctx = append(ctx, "reqid", idForLog{msg.ID}, "duration", time.Since(start))
if resp.Error != nil {
ctx = append(ctx, "err", resp.Error.Message)
if resp.Error.Data != nil {
ctx = append(ctx, "errdata", resp.Error.Data)
}
h.log.Warn("Served "+msg.Method, ctx...)
} else {
h.log.Debug("Served "+msg.Method, ctx...)
}
return resp
case msg.hasValidID():
return msg.errorResponse(&invalidRequestError{"invalid request"})
default:
return errorMessage(&invalidRequestError{"invalid request"})
}
}
// handleCall processes method calls.
func (h *handler) handleCall(cp *callProc, msg *jsonrpcMessage) *jsonrpcMessage {
if msg.isSubscribe() {
return h.handleSubscribe(cp, msg)
}
var callb *callback
if msg.isUnsubscribe() {
callb = h.unsubscribeCb
} else {
callb = h.reg.callback(msg.Method)
}
if callb == nil {
return msg.errorResponse(&methodNotFoundError{method: msg.Method})
}
args, err := parsePositionalArguments(msg.Params, callb.argTypes)
if err != nil {
return msg.errorResponse(&invalidParamsError{err.Error()})
}
start := time.Now()
answer := h.runMethod(cp.ctx, msg, callb, args)
// Collect the statistics for RPC calls if metrics is enabled.
// We only care about pure rpc call. Filter out subscription.
if callb != h.unsubscribeCb {
rpcRequestGauge.Inc(1)
if answer.Error != nil {
failedRequestGauge.Inc(1)
} else {
successfulRequestGauge.Inc(1)
}
rpcServingTimer.UpdateSince(start)
updateServeTimeHistogram(msg.Method, answer.Error == nil, time.Since(start))
}
return answer
}
// handleSubscribe processes *_subscribe method calls.
func (h *handler) handleSubscribe(cp *callProc, msg *jsonrpcMessage) *jsonrpcMessage {
if !h.allowSubscribe {
return msg.errorResponse(ErrNotificationsUnsupported)
}
// Subscription method name is first argument.
name, err := parseSubscriptionName(msg.Params)
if err != nil {
return msg.errorResponse(&invalidParamsError{err.Error()})
}
namespace := msg.namespace()
callb := h.reg.subscription(namespace, name)
if callb == nil {
return msg.errorResponse(&subscriptionNotFoundError{namespace, name})
}
// Parse subscription name arg too, but remove it before calling the callback.
argTypes := append([]reflect.Type{stringType}, callb.argTypes...)
args, err := parsePositionalArguments(msg.Params, argTypes)
if err != nil {
return msg.errorResponse(&invalidParamsError{err.Error()})
}
args = args[1:]
// Install notifier in context so the subscription handler can find it.
n := &Notifier{h: h, namespace: namespace}
cp.notifiers = append(cp.notifiers, n)
ctx := context.WithValue(cp.ctx, notifierKey{}, n)
return h.runMethod(ctx, msg, callb, args)
}
// runMethod runs the Go callback for an RPC method.
func (h *handler) runMethod(ctx context.Context, msg *jsonrpcMessage, callb *callback, args []reflect.Value) *jsonrpcMessage {
result, err := callb.call(ctx, msg.Method, args)
if err != nil {
return msg.errorResponse(err)
}
return msg.response(result)
}
// unsubscribe is the callback function for all *_unsubscribe calls.
func (h *handler) unsubscribe(ctx context.Context, id ID) (bool, error) {
h.subLock.Lock()
defer h.subLock.Unlock()
s := h.serverSubs[id]
if s == nil {
return false, ErrSubscriptionNotFound
}
close(s.err)
delete(h.serverSubs, id)
return true, nil
}
type idForLog struct{ json.RawMessage }
func (id idForLog) String() string {
if s, err := strconv.Unquote(string(id.RawMessage)); err == nil {
return s
}
return string(id.RawMessage)
}