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package client
import (
"context"
"encoding/json"
"fmt"
"github.com/pkg/errors"
data "github.com/tendermint/go-wire/data"
ctypes "github.com/tendermint/tendermint/rpc/core/types"
rpcclient "github.com/tendermint/tendermint/rpc/lib/client"
"github.com/tendermint/tendermint/types"
events "github.com/tendermint/tmlibs/events"
)
/*
HTTP is a Client implementation that communicates
with a tendermint node over json rpc and websockets.
This is the main implementation you probably want to use in
production code. There are other implementations when calling
the tendermint node in-process (local), or when you want to mock
out the server for test code (mock).
*/
type HTTP struct {
remote string
rpc *rpcclient.JSONRPCClient
*WSEvents
}
// New takes a remote endpoint in the form tcp://<host>:<port>
// and the websocket path (which always seems to be "/websocket")
func NewHTTP(remote, wsEndpoint string) *HTTP {
return &HTTP{
rpc: rpcclient.NewJSONRPCClient(remote),
remote: remote,
WSEvents: newWSEvents(remote, wsEndpoint),
}
}
func (c *HTTP) _assertIsClient() Client {
return c
}
func (c *HTTP) _assertIsNetworkClient() NetworkClient {
return c
}
func (c *HTTP) _assertIsEventSwitch() types.EventSwitch {
return c
}
func (c *HTTP) Status() (*ctypes.ResultStatus, error) {
result := new(ctypes.ResultStatus)
_, err := c.rpc.Call("status", map[string]interface{}{}, result)
if err != nil {
return nil, errors.Wrap(err, "Status")
}
return result, nil
}
func (c *HTTP) ABCIInfo() (*ctypes.ResultABCIInfo, error) {
result := new(ctypes.ResultABCIInfo)
_, err := c.rpc.Call("abci_info", map[string]interface{}{}, result)
if err != nil {
return nil, errors.Wrap(err, "ABCIInfo")
}
return result, nil
}
func (c *HTTP) ABCIQuery(path string, data data.Bytes, prove bool) (*ctypes.ResultABCIQuery, error) {
result := new(ctypes.ResultABCIQuery)
_, err := c.rpc.Call("abci_query",
map[string]interface{}{"path": path, "data": data, "prove": prove},
result)
if err != nil {
return nil, errors.Wrap(err, "ABCIQuery")
}
return result, nil
}
func (c *HTTP) BroadcastTxCommit(tx types.Tx) (*ctypes.ResultBroadcastTxCommit, error) {
result := new(ctypes.ResultBroadcastTxCommit)
_, err := c.rpc.Call("broadcast_tx_commit", map[string]interface{}{"tx": tx}, result)
if err != nil {
return nil, errors.Wrap(err, "broadcast_tx_commit")
}
return result, nil
}
func (c *HTTP) BroadcastTxAsync(tx types.Tx) (*ctypes.ResultBroadcastTx, error) {
return c.broadcastTX("broadcast_tx_async", tx)
}
func (c *HTTP) BroadcastTxSync(tx types.Tx) (*ctypes.ResultBroadcastTx, error) {
return c.broadcastTX("broadcast_tx_sync", tx)
}
func (c *HTTP) broadcastTX(route string, tx types.Tx) (*ctypes.ResultBroadcastTx, error) {
result := new(ctypes.ResultBroadcastTx)
_, err := c.rpc.Call(route, map[string]interface{}{"tx": tx}, result)
if err != nil {
return nil, errors.Wrap(err, route)
}
return result, nil
}
func (c *HTTP) NetInfo() (*ctypes.ResultNetInfo, error) {
result := new(ctypes.ResultNetInfo)
_, err := c.rpc.Call("net_info", map[string]interface{}{}, result)
if err != nil {
return nil, errors.Wrap(err, "NetInfo")
}
return result, nil
}
func (c *HTTP) DumpConsensusState() (*ctypes.ResultDumpConsensusState, error) {
result := new(ctypes.ResultDumpConsensusState)
_, err := c.rpc.Call("dump_consensus_state", map[string]interface{}{}, result)
if err != nil {
return nil, errors.Wrap(err, "DumpConsensusState")
}
return result, nil
}
func (c *HTTP) BlockchainInfo(minHeight, maxHeight int) (*ctypes.ResultBlockchainInfo, error) {
result := new(ctypes.ResultBlockchainInfo)
_, err := c.rpc.Call("blockchain",
map[string]interface{}{"minHeight": minHeight, "maxHeight": maxHeight},
result)
if err != nil {
return nil, errors.Wrap(err, "BlockchainInfo")
}
return result, nil
}
func (c *HTTP) Genesis() (*ctypes.ResultGenesis, error) {
result := new(ctypes.ResultGenesis)
_, err := c.rpc.Call("genesis", map[string]interface{}{}, result)
if err != nil {
return nil, errors.Wrap(err, "Genesis")
}
return result, nil
}
func (c *HTTP) Block(height *int) (*ctypes.ResultBlock, error) {
result := new(ctypes.ResultBlock)
_, err := c.rpc.Call("block", map[string]interface{}{"height": height}, result)
if err != nil {
return nil, errors.Wrap(err, "Block")
}
return result, nil
}
func (c *HTTP) Commit(height *int) (*ctypes.ResultCommit, error) {
result := new(ctypes.ResultCommit)
_, err := c.rpc.Call("commit", map[string]interface{}{"height": height}, result)
if err != nil {
return nil, errors.Wrap(err, "Commit")
}
return result, nil
}
func (c *HTTP) Tx(hash []byte, prove bool) (*ctypes.ResultTx, error) {
result := new(ctypes.ResultTx)
query := map[string]interface{}{
"hash": hash,
"prove": prove,
}
_, err := c.rpc.Call("tx", query, result)
if err != nil {
return nil, errors.Wrap(err, "Tx")
}
return result, nil
}
func (c *HTTP) Validators(height *int) (*ctypes.ResultValidators, error) {
result := new(ctypes.ResultValidators)
_, err := c.rpc.Call("validators", map[string]interface{}{"height": height}, result)
if err != nil {
return nil, errors.Wrap(err, "Validators")
}
return result, nil
}
/** websocket event stuff here... **/
type WSEvents struct {
types.EventSwitch
remote string
endpoint string
ws *rpcclient.WSClient
// used for signaling the goroutine that feeds ws -> EventSwitch
quit chan bool
done chan bool
// used to maintain counts of actively listened events
// so we can properly subscribe/unsubscribe
// FIXME: thread-safety???
// FIXME: reuse code from tmlibs/events???
evtCount map[string]int // count how many time each event is subscribed
listeners map[string][]string // keep track of which events each listener is listening to
}
func newWSEvents(remote, endpoint string) *WSEvents {
return &WSEvents{
EventSwitch: types.NewEventSwitch(),
endpoint: endpoint,
remote: remote,
quit: make(chan bool, 1),
done: make(chan bool, 1),
evtCount: map[string]int{},
listeners: map[string][]string{},
}
}
func (w *WSEvents) _assertIsEventSwitch() types.EventSwitch {
return w
}
// Start is the only way I could think the extend OnStart from
// events.eventSwitch. If only it wasn't private...
// BaseService.Start -> eventSwitch.OnStart -> WSEvents.Start
func (w *WSEvents) Start() (bool, error) {
st, err := w.EventSwitch.Start()
// if we did start, then OnStart here...
if st && err == nil {
ws := rpcclient.NewWSClient(w.remote, w.endpoint)
_, err = ws.Start()
if err == nil {
w.ws = ws
go w.eventListener()
}
}
return st, errors.Wrap(err, "StartWSEvent")
}
// Stop wraps the BaseService/eventSwitch actions as Start does
func (w *WSEvents) Stop() bool {
stop := w.EventSwitch.Stop()
if stop {
// send a message to quit to stop the eventListener
w.quit <- true
<-w.done
w.ws.Stop()
w.ws = nil
}
return stop
}
/** TODO: more intelligent subscriptions! **/
func (w *WSEvents) AddListenerForEvent(listenerID, event string, cb events.EventCallback) {
// no one listening -> subscribe
if w.evtCount[event] == 0 {
w.subscribe(event)
}
// if this listener was already listening to this event, return early
for _, s := range w.listeners[listenerID] {
if event == s {
return
}
}
// otherwise, add this event to this listener
w.evtCount[event] += 1
w.listeners[listenerID] = append(w.listeners[listenerID], event)
w.EventSwitch.AddListenerForEvent(listenerID, event, cb)
}
func (w *WSEvents) RemoveListenerForEvent(event string, listenerID string) {
// if this listener is listening already, splice it out
found := false
l := w.listeners[listenerID]
for i, s := range l {
if event == s {
found = true
w.listeners[listenerID] = append(l[:i], l[i+1:]...)
break
}
}
// if the listener wasn't already listening to the event, exit early
if !found {
return
}
// now we can update the subscriptions
w.evtCount[event] -= 1
if w.evtCount[event] == 0 {
w.unsubscribe(event)
}
w.EventSwitch.RemoveListenerForEvent(event, listenerID)
}
func (w *WSEvents) RemoveListener(listenerID string) {
// remove all counts for this listener
for _, s := range w.listeners[listenerID] {
w.evtCount[s] -= 1
if w.evtCount[s] == 0 {
w.unsubscribe(s)
}
}
w.listeners[listenerID] = nil
// then let the switch do it's magic
w.EventSwitch.RemoveListener(listenerID)
}
// eventListener is an infinite loop pulling all websocket events
// and pushing them to the EventSwitch.
//
// the goroutine only stops by closing quit
func (w *WSEvents) eventListener() {
for {
select {
case res := <-w.ws.ResultsCh:
// res is json.RawMessage
err := w.parseEvent(res)
if err != nil {
// FIXME: better logging/handling of errors??
fmt.Printf("ws result: %+v\n", err)
}
case err := <-w.ws.ErrorsCh:
// FIXME: better logging/handling of errors??
fmt.Printf("ws err: %+v\n", err)
case <-w.quit:
// send a message so we can wait for the routine to exit
// before cleaning up the w.ws stuff
w.done <- true
return
}
}
}
// parseEvent unmarshals the json message and converts it into
// some implementation of types.TMEventData, and sends it off
// on the merry way to the EventSwitch
func (w *WSEvents) parseEvent(data []byte) (err error) {
result := new(ctypes.ResultEvent)
err = json.Unmarshal(data, result)
if err != nil {
// ignore silently (eg. subscribe, unsubscribe and maybe other events)
// TODO: ?
return nil
}
// looks good! let's fire this baby!
w.EventSwitch.FireEvent(result.Name, result.Data)
return nil
}
// no way of exposing these failures, so we panic.
// is this right? or silently ignore???
func (w *WSEvents) subscribe(event string) {
err := w.ws.Subscribe(context.TODO(), event)
if err != nil {
panic(err)
}
}
func (w *WSEvents) unsubscribe(event string) {
err := w.ws.Unsubscribe(context.TODO(), event)
if err != nil {
panic(err)
}
}