status-go/telemetry/client.go

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package telemetry
import (
"bytes"
"context"
"encoding/json"
"fmt"
"net/http"
"strings"
"sync"
"time"
"go.uber.org/zap"
"github.com/status-im/status-go/eth-node/types"
"github.com/status-im/status-go/protocol/transport"
"github.com/status-im/status-go/wakuv2"
v2protocol "github.com/waku-org/go-waku/waku/v2/protocol"
v1protocol "github.com/status-im/status-go/protocol/v1"
)
type TelemetryType string
const (
ProtocolStatsMetric TelemetryType = "ProtocolStats"
ReceivedEnvelopeMetric TelemetryType = "ReceivedEnvelope"
SentEnvelopeMetric TelemetryType = "SentEnvelope"
UpdateEnvelopeMetric TelemetryType = "UpdateEnvelope"
ReceivedMessagesMetric TelemetryType = "ReceivedMessages"
ErrorSendingEnvelopeMetric TelemetryType = "ErrorSendingEnvelope"
PeerCountMetric TelemetryType = "PeerCount"
PeerConnFailuresMetric TelemetryType = "PeerConnFailure"
MaxRetryCache = 5000
)
type TelemetryRequest struct {
Id int `json:"id"`
TelemetryType TelemetryType `json:"telemetry_type"`
TelemetryData *json.RawMessage `json:"telemetry_data"`
}
func (c *Client) PushReceivedMessages(ctx context.Context, receivedMessages ReceivedMessages) {
c.processAndPushTelemetry(ctx, receivedMessages)
}
func (c *Client) PushSentEnvelope(ctx context.Context, sentEnvelope wakuv2.SentEnvelope) {
c.processAndPushTelemetry(ctx, sentEnvelope)
}
func (c *Client) PushReceivedEnvelope(ctx context.Context, receivedEnvelope *v2protocol.Envelope) {
c.processAndPushTelemetry(ctx, receivedEnvelope)
}
func (c *Client) PushErrorSendingEnvelope(ctx context.Context, errorSendingEnvelope wakuv2.ErrorSendingEnvelope) {
c.processAndPushTelemetry(ctx, errorSendingEnvelope)
}
func (c *Client) PushPeerCount(ctx context.Context, peerCount int) {
if peerCount != c.lastPeerCount {
c.lastPeerCount = peerCount
c.processAndPushTelemetry(ctx, PeerCount{PeerCount: peerCount})
}
}
func (c *Client) PushPeerConnFailures(ctx context.Context, peerConnFailures map[string]int) {
for peerID, failures := range peerConnFailures {
if lastFailures, exists := c.lastPeerConnFailures[peerID]; exists {
if failures == lastFailures {
continue
}
}
c.lastPeerConnFailures[peerID] = failures
c.processAndPushTelemetry(ctx, PeerConnFailure{FailedPeerId: peerID, FailureCount: failures})
}
}
type ReceivedMessages struct {
Filter transport.Filter
SSHMessage *types.Message
Messages []*v1protocol.StatusMessage
}
type PeerCount struct {
PeerCount int
}
type PeerConnFailure struct {
FailedPeerId string
FailureCount int
}
type Client struct {
serverURL string
httpClient *http.Client
logger *zap.Logger
keyUID string
nodeName string
peerId string
version string
telemetryCh chan TelemetryRequest
telemetryCacheLock sync.Mutex
telemetryCache []TelemetryRequest
telemetryRetryCache []TelemetryRequest
nextIdLock sync.Mutex
nextId int
sendPeriod time.Duration
lastPeerCount int
lastPeerConnFailures map[string]int
}
type TelemetryClientOption func(*Client)
func WithSendPeriod(sendPeriod time.Duration) TelemetryClientOption {
return func(c *Client) {
c.sendPeriod = sendPeriod
}
}
func WithPeerID(peerId string) TelemetryClientOption {
return func(c *Client) {
c.peerId = peerId
}
}
func NewClient(logger *zap.Logger, serverURL string, keyUID string, nodeName string, version string, opts ...TelemetryClientOption) *Client {
serverURL = strings.TrimRight(serverURL, "/")
client := &Client{
serverURL: serverURL,
httpClient: &http.Client{Timeout: time.Minute},
logger: logger,
keyUID: keyUID,
nodeName: nodeName,
version: version,
telemetryCh: make(chan TelemetryRequest),
telemetryCacheLock: sync.Mutex{},
telemetryCache: make([]TelemetryRequest, 0),
telemetryRetryCache: make([]TelemetryRequest, 0),
nextId: 0,
nextIdLock: sync.Mutex{},
sendPeriod: 10 * time.Second, // default value
lastPeerCount: 0,
lastPeerConnFailures: make(map[string]int),
}
for _, opt := range opts {
opt(client)
}
return client
}
func (c *Client) Start(ctx context.Context) {
go func() {
for {
select {
case telemetryRequest := <-c.telemetryCh:
c.telemetryCacheLock.Lock()
c.telemetryCache = append(c.telemetryCache, telemetryRequest)
c.telemetryCacheLock.Unlock()
case <-ctx.Done():
return
}
}
}()
go func() {
sendPeriod := c.sendPeriod
timer := time.NewTimer(sendPeriod)
defer timer.Stop()
for {
select {
case <-timer.C:
c.telemetryCacheLock.Lock()
telemetryRequests := make([]TelemetryRequest, len(c.telemetryCache))
copy(telemetryRequests, c.telemetryCache)
c.telemetryCache = nil
c.telemetryCacheLock.Unlock()
if len(telemetryRequests) > 0 {
err := c.pushTelemetryRequest(telemetryRequests)
if err != nil {
if sendPeriod < 60*time.Second { //Stop the growing if the timer is > 60s to at least retry every minute
sendPeriod = sendPeriod * 2
}
} else {
sendPeriod = c.sendPeriod
}
}
timer.Reset(sendPeriod)
case <-ctx.Done():
return
}
}
}()
}
func (c *Client) processAndPushTelemetry(ctx context.Context, data interface{}) {
var telemetryRequest TelemetryRequest
switch v := data.(type) {
case ReceivedMessages:
telemetryRequest = TelemetryRequest{
Id: c.nextId,
TelemetryType: ReceivedMessagesMetric,
TelemetryData: c.ProcessReceivedMessages(v),
}
case *v2protocol.Envelope:
telemetryRequest = TelemetryRequest{
Id: c.nextId,
TelemetryType: ReceivedEnvelopeMetric,
TelemetryData: c.ProcessReceivedEnvelope(v),
}
case wakuv2.SentEnvelope:
telemetryRequest = TelemetryRequest{
Id: c.nextId,
TelemetryType: SentEnvelopeMetric,
TelemetryData: c.ProcessSentEnvelope(v),
}
case wakuv2.ErrorSendingEnvelope:
telemetryRequest = TelemetryRequest{
Id: c.nextId,
TelemetryType: ErrorSendingEnvelopeMetric,
TelemetryData: c.ProcessErrorSendingEnvelope(v),
}
case PeerCount:
telemetryRequest = TelemetryRequest{
Id: c.nextId,
TelemetryType: PeerCountMetric,
TelemetryData: c.ProcessPeerCount(v),
}
case PeerConnFailure:
telemetryRequest = TelemetryRequest{
Id: c.nextId,
TelemetryType: PeerConnFailuresMetric,
TelemetryData: c.ProcessPeerConnFailure(v),
}
default:
c.logger.Error("Unknown telemetry data type")
return
}
select {
case <-ctx.Done():
return
case c.telemetryCh <- telemetryRequest:
}
c.nextIdLock.Lock()
c.nextId++
c.nextIdLock.Unlock()
}
// This is assuming to not run concurrently as we are not locking the `telemetryRetryCache`
func (c *Client) pushTelemetryRequest(request []TelemetryRequest) error {
if len(c.telemetryRetryCache) > MaxRetryCache { //Limit the size of the cache to not grow the slice indefinitely in case the Telemetry server is gone for longer time
removeNum := len(c.telemetryRetryCache) - MaxRetryCache
c.telemetryRetryCache = c.telemetryRetryCache[removeNum:]
}
c.telemetryRetryCache = append(c.telemetryRetryCache, request...)
url := fmt.Sprintf("%s/record-metrics", c.serverURL)
body, err := json.Marshal(c.telemetryRetryCache)
if err != nil {
c.logger.Error("Error marshaling telemetry data", zap.Error(err))
return err
}
res, err := c.httpClient.Post(url, "application/json", bytes.NewBuffer(body))
if err != nil {
c.logger.Error("Error sending telemetry data", zap.Error(err))
return err
}
defer res.Body.Close()
var responseBody []map[string]interface{}
if err := json.NewDecoder(res.Body).Decode(&responseBody); err != nil {
c.logger.Error("Error decoding response body", zap.Error(err))
return err
}
if res.StatusCode != http.StatusCreated {
c.logger.Error("Error sending telemetry data", zap.Int("statusCode", res.StatusCode), zap.Any("responseBody", responseBody))
return fmt.Errorf("status code %d, response body: %v", res.StatusCode, responseBody)
}
c.telemetryRetryCache = nil
return nil
}
func (c *Client) ProcessReceivedMessages(receivedMessages ReceivedMessages) *json.RawMessage {
var postBody []map[string]interface{}
for _, message := range receivedMessages.Messages {
postBody = append(postBody, map[string]interface{}{
"chatId": receivedMessages.Filter.ChatID,
"messageHash": types.EncodeHex(receivedMessages.SSHMessage.Hash),
"messageId": message.ApplicationLayer.ID,
"sentAt": receivedMessages.SSHMessage.Timestamp,
"pubsubTopic": receivedMessages.Filter.PubsubTopic,
"topic": receivedMessages.Filter.ContentTopic.String(),
"messageType": message.ApplicationLayer.Type.String(),
"receiverKeyUID": c.keyUID,
"peerId": c.peerId,
"nodeName": c.nodeName,
"messageSize": len(receivedMessages.SSHMessage.Payload),
"statusVersion": c.version,
})
}
body, _ := json.Marshal(postBody)
jsonRawMessage := json.RawMessage(body)
return &jsonRawMessage
}
func (c *Client) ProcessReceivedEnvelope(envelope *v2protocol.Envelope) *json.RawMessage {
postBody := map[string]interface{}{
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"messageHash": envelope.Hash().String(),
"sentAt": uint32(envelope.Message().GetTimestamp() / int64(time.Second)),
"pubsubTopic": envelope.PubsubTopic(),
"topic": envelope.Message().ContentTopic,
"receiverKeyUID": c.keyUID,
"peerId": c.peerId,
"nodeName": c.nodeName,
"statusVersion": c.version,
}
body, _ := json.Marshal(postBody)
jsonRawMessage := json.RawMessage(body)
return &jsonRawMessage
}
func (c *Client) ProcessSentEnvelope(sentEnvelope wakuv2.SentEnvelope) *json.RawMessage {
postBody := map[string]interface{}{
"messageHash": sentEnvelope.Envelope.Hash().String(),
"sentAt": uint32(sentEnvelope.Envelope.Message().GetTimestamp() / int64(time.Second)),
"pubsubTopic": sentEnvelope.Envelope.PubsubTopic(),
"topic": sentEnvelope.Envelope.Message().ContentTopic,
"senderKeyUID": c.keyUID,
"peerId": c.peerId,
"nodeName": c.nodeName,
"publishMethod": sentEnvelope.PublishMethod.String(),
"statusVersion": c.version,
}
body, _ := json.Marshal(postBody)
jsonRawMessage := json.RawMessage(body)
return &jsonRawMessage
}
func (c *Client) ProcessErrorSendingEnvelope(errorSendingEnvelope wakuv2.ErrorSendingEnvelope) *json.RawMessage {
postBody := map[string]interface{}{
"messageHash": errorSendingEnvelope.SentEnvelope.Envelope.Hash().String(),
"sentAt": uint32(errorSendingEnvelope.SentEnvelope.Envelope.Message().GetTimestamp() / int64(time.Second)),
"pubsubTopic": errorSendingEnvelope.SentEnvelope.Envelope.PubsubTopic(),
"topic": errorSendingEnvelope.SentEnvelope.Envelope.Message().ContentTopic,
"senderKeyUID": c.keyUID,
"peerId": c.peerId,
"nodeName": c.nodeName,
"publishMethod": errorSendingEnvelope.SentEnvelope.PublishMethod.String(),
"statusVersion": c.version,
"error": errorSendingEnvelope.Error.Error(),
}
body, _ := json.Marshal(postBody)
jsonRawMessage := json.RawMessage(body)
return &jsonRawMessage
}
func (c *Client) ProcessPeerCount(peerCount PeerCount) *json.RawMessage {
postBody := map[string]interface{}{
"peerCount": peerCount.PeerCount,
"nodeName": c.nodeName,
"nodeKeyUID": c.keyUID,
"peerId": c.peerId,
"statusVersion": c.version,
"timestamp": time.Now().Unix(),
}
body, _ := json.Marshal(postBody)
jsonRawMessage := json.RawMessage(body)
return &jsonRawMessage
}
func (c *Client) ProcessPeerConnFailure(peerConnFailure PeerConnFailure) *json.RawMessage {
postBody := map[string]interface{}{
"failedPeerId": peerConnFailure.FailedPeerId,
"failureCount": peerConnFailure.FailureCount,
"nodeName": c.nodeName,
"nodeKeyUID": c.keyUID,
"peerId": c.peerId,
"statusVersion": c.version,
"timestamp": time.Now().Unix(),
}
body, _ := json.Marshal(postBody)
jsonRawMessage := json.RawMessage(body)
return &jsonRawMessage
}
func (c *Client) UpdateEnvelopeProcessingError(shhMessage *types.Message, processingError error) {
c.logger.Debug("Pushing envelope update to telemetry server", zap.String("hash", types.EncodeHex(shhMessage.Hash)))
url := fmt.Sprintf("%s/update-envelope", c.serverURL)
var errorString = ""
if processingError != nil {
errorString = processingError.Error()
}
postBody := map[string]interface{}{
"messageHash": types.EncodeHex(shhMessage.Hash),
"sentAt": shhMessage.Timestamp,
"pubsubTopic": shhMessage.PubsubTopic,
"topic": shhMessage.Topic,
"receiverKeyUID": c.keyUID,
"peerId": c.peerId,
"nodeName": c.nodeName,
"processingError": errorString,
}
body, _ := json.Marshal(postBody)
_, err := c.httpClient.Post(url, "application/json", bytes.NewBuffer(body))
if err != nil {
c.logger.Error("Error sending envelope update to telemetry server", zap.Error(err))
}
}