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transport.go
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transport.go
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package sentry
import (
"bytes"
"crypto/tls"
"encoding/json"
"errors"
"fmt"
"io"
"io/ioutil"
"net/http"
"net/url"
"sync"
"time"
"github.com/getsentry/sentry-go/internal/ratelimit"
)
const defaultBufferSize = 30
const defaultTimeout = time.Second * 30
// maxDrainResponseBytes is the maximum number of bytes that transport
// implementations will read from response bodies when draining them.
//
// Sentry's ingestion API responses are typically short and the SDK doesn't need
// the contents of the response body. However, the net/http HTTP client requires
// response bodies to be fully drained (and closed) for TCP keep-alive to work.
//
// maxDrainResponseBytes strikes a balance between reading too much data (if the
// server is misbehaving) and reusing TCP connections.
const maxDrainResponseBytes = 16 << 10
// Transport is used by the Client to deliver events to remote server.
type Transport interface {
Flush(timeout time.Duration) bool
Configure(options ClientOptions)
SendEvent(event *Event)
}
func getProxyConfig(options ClientOptions) func(*http.Request) (*url.URL, error) {
if options.HTTPSProxy != "" {
return func(_ *http.Request) (*url.URL, error) {
return url.Parse(options.HTTPSProxy)
}
} else if options.HTTPProxy != "" {
return func(_ *http.Request) (*url.URL, error) {
return url.Parse(options.HTTPProxy)
}
}
return http.ProxyFromEnvironment
}
func getTLSConfig(options ClientOptions) *tls.Config {
if options.CaCerts != nil {
return &tls.Config{
RootCAs: options.CaCerts,
}
}
return nil
}
func getRequestBodyFromEvent(event *Event) []byte {
body, err := json.Marshal(event)
if err == nil {
return body
}
msg := fmt.Sprintf("Could not encode original event as JSON. "+
"Succeeded by removing Breadcrumbs, Contexts and Extra. "+
"Please verify the data you attach to the scope. "+
"Error: %s", err)
// Try to serialize the event, with all the contextual data that allows for interface{} stripped.
event.Breadcrumbs = nil
event.Contexts = nil
event.Extra = map[string]interface{}{
"info": msg,
}
body, err = json.Marshal(event)
if err == nil {
Logger.Println(msg)
return body
}
// This should _only_ happen when Event.Exception[0].Stacktrace.Frames[0].Vars is unserializable
// Which won't ever happen, as we don't use it now (although it's the part of public interface accepted by Sentry)
// Juuust in case something, somehow goes utterly wrong.
Logger.Println("Event couldn't be marshaled, even with stripped contextual data. Skipping delivery. " +
"Please notify the SDK owners with possibly broken payload.")
return nil
}
func transactionEnvelopeFromBody(eventID EventID, sentAt time.Time, body json.RawMessage) (*bytes.Buffer, error) {
var b bytes.Buffer
enc := json.NewEncoder(&b)
// envelope header
err := enc.Encode(struct {
EventID EventID `json:"event_id"`
SentAt time.Time `json:"sent_at"`
}{
EventID: eventID,
SentAt: sentAt,
})
if err != nil {
return nil, err
}
// item header
err = enc.Encode(struct {
Type string `json:"type"`
Length int `json:"length"`
}{
Type: transactionType,
Length: len(body),
})
if err != nil {
return nil, err
}
// payload
err = enc.Encode(body)
if err != nil {
return nil, err
}
return &b, nil
}
func getRequestFromEvent(event *Event, dsn *Dsn) (r *http.Request, err error) {
defer func() {
if r != nil {
r.Header.Set("User-Agent", userAgent)
}
}()
body := getRequestBodyFromEvent(event)
if body == nil {
return nil, errors.New("event could not be marshaled")
}
if event.Type == transactionType {
b, err := transactionEnvelopeFromBody(event.EventID, time.Now(), body)
if err != nil {
return nil, err
}
return http.NewRequest(
http.MethodPost,
dsn.EnvelopeAPIURL().String(),
b,
)
}
return http.NewRequest(
http.MethodPost,
dsn.StoreAPIURL().String(),
bytes.NewReader(body),
)
}
func categoryFor(eventType string) ratelimit.Category {
switch eventType {
case "":
return ratelimit.CategoryError
case transactionType:
return ratelimit.CategoryTransaction
default:
return ratelimit.Category(eventType)
}
}
// ================================
// HTTPTransport
// ================================
// A batch groups items that are processed sequentially.
type batch struct {
items chan batchItem
started chan struct{} // closed to signal items started to be worked on
done chan struct{} // closed to signal completion of all items
}
type batchItem struct {
request *http.Request
category ratelimit.Category
}
// HTTPTransport is the default, non-blocking, implementation of Transport.
//
// Clients using this transport will enqueue requests in a buffer and return to
// the caller before any network communication has happened. Requests are sent
// to Sentry sequentially from a background goroutine.
type HTTPTransport struct {
dsn *Dsn
client *http.Client
transport http.RoundTripper
// buffer is a channel of batches. Calling Flush terminates work on the
// current in-flight items and starts a new batch for subsequent events.
buffer chan batch
start sync.Once
// Size of the transport buffer. Defaults to 30.
BufferSize int
// HTTP Client request timeout. Defaults to 30 seconds.
Timeout time.Duration
mu sync.RWMutex
limits ratelimit.Map
}
// NewHTTPTransport returns a new pre-configured instance of HTTPTransport.
func NewHTTPTransport() *HTTPTransport {
transport := HTTPTransport{
BufferSize: defaultBufferSize,
Timeout: defaultTimeout,
limits: make(ratelimit.Map),
}
return &transport
}
// Configure is called by the Client itself, providing it it's own ClientOptions.
func (t *HTTPTransport) Configure(options ClientOptions) {
dsn, err := NewDsn(options.Dsn)
if err != nil {
Logger.Printf("%v\n", err)
return
}
t.dsn = dsn
// A buffered channel with capacity 1 works like a mutex, ensuring only one
// goroutine can access the current batch at a given time. Access is
// synchronized by reading from and writing to the channel.
t.buffer = make(chan batch, 1)
t.buffer <- batch{
items: make(chan batchItem, t.BufferSize),
started: make(chan struct{}),
done: make(chan struct{}),
}
if options.HTTPTransport != nil {
t.transport = options.HTTPTransport
} else {
t.transport = &http.Transport{
Proxy: getProxyConfig(options),
TLSClientConfig: getTLSConfig(options),
}
}
if options.HTTPClient != nil {
t.client = options.HTTPClient
} else {
t.client = &http.Client{
Transport: t.transport,
Timeout: t.Timeout,
}
}
t.start.Do(func() {
go t.worker()
})
}
// SendEvent assembles a new packet out of Event and sends it to remote server.
func (t *HTTPTransport) SendEvent(event *Event) {
if t.dsn == nil {
return
}
category := categoryFor(event.Type)
if t.disabled(category) {
return
}
request, err := getRequestFromEvent(event, t.dsn)
if err != nil {
return
}
for headerKey, headerValue := range t.dsn.RequestHeaders() {
request.Header.Set(headerKey, headerValue)
}
// <-t.buffer is equivalent to acquiring a lock to access the current batch.
// A few lines below, t.buffer <- b releases the lock.
//
// The lock must be held during the select block below to guarantee that
// b.items is not closed while trying to send to it. Remember that sending
// on a closed channel panics.
//
// Note that the select block takes a bounded amount of CPU time because of
// the default case that is executed if sending on b.items would block. That
// is, the event is dropped if it cannot be sent immediately to the b.items
// channel (used as a queue).
b := <-t.buffer
select {
case b.items <- batchItem{
request: request,
category: category,
}:
var eventType string
if event.Type == transactionType {
eventType = "transaction"
} else {
eventType = fmt.Sprintf("%s event", event.Level)
}
Logger.Printf(
"Sending %s [%s] to %s project: %d",
eventType,
event.EventID,
t.dsn.host,
t.dsn.projectID,
)
default:
Logger.Println("Event dropped due to transport buffer being full.")
}
t.buffer <- b
}
// Flush waits until any buffered events are sent to the Sentry server, blocking
// for at most the given timeout. It returns false if the timeout was reached.
// In that case, some events may not have been sent.
//
// Flush should be called before terminating the program to avoid
// unintentionally dropping events.
//
// Do not call Flush indiscriminately after every call to SendEvent. Instead, to
// have the SDK send events over the network synchronously, configure it to use
// the HTTPSyncTransport in the call to Init.
func (t *HTTPTransport) Flush(timeout time.Duration) bool {
toolate := time.After(timeout)
// Wait until processing the current batch has started or the timeout.
//
// We must wait until the worker has seen the current batch, because it is
// the only way b.done will be closed. If we do not wait, there is a
// possible execution flow in which b.done is never closed, and the only way
// out of Flush would be waiting for the timeout, which is undesired.
var b batch
for {
select {
case b = <-t.buffer:
select {
case <-b.started:
goto started
default:
t.buffer <- b
}
case <-toolate:
goto fail
}
}
started:
// Signal that there won't be any more items in this batch, so that the
// worker inner loop can end.
close(b.items)
// Start a new batch for subsequent events.
t.buffer <- batch{
items: make(chan batchItem, t.BufferSize),
started: make(chan struct{}),
done: make(chan struct{}),
}
// Wait until the current batch is done or the timeout.
select {
case <-b.done:
Logger.Println("Buffer flushed successfully.")
return true
case <-toolate:
goto fail
}
fail:
Logger.Println("Buffer flushing reached the timeout.")
return false
}
func (t *HTTPTransport) worker() {
for b := range t.buffer {
// Signal that processing of the current batch has started.
close(b.started)
// Return the batch to the buffer so that other goroutines can use it.
// Equivalent to releasing a lock.
t.buffer <- b
// Process all batch items.
for item := range b.items {
if t.disabled(item.category) {
continue
}
response, err := t.client.Do(item.request)
if err != nil {
Logger.Printf("There was an issue with sending an event: %v", err)
continue
}
t.mu.Lock()
t.limits.Merge(ratelimit.FromResponse(response))
t.mu.Unlock()
// Drain body up to a limit and close it, allowing the
// transport to reuse TCP connections.
_, _ = io.CopyN(ioutil.Discard, response.Body, maxDrainResponseBytes)
response.Body.Close()
}
// Signal that processing of the batch is done.
close(b.done)
}
}
func (t *HTTPTransport) disabled(c ratelimit.Category) bool {
t.mu.RLock()
defer t.mu.RUnlock()
disabled := t.limits.IsRateLimited(c)
if disabled {
Logger.Printf("Too many requests for %q, backing off till: %v", c, t.limits.Deadline(c))
}
return disabled
}
// ================================
// HTTPSyncTransport
// ================================
// HTTPSyncTransport is a blocking implementation of Transport.
//
// Clients using this transport will send requests to Sentry sequentially and
// block until a response is returned.
//
// The blocking behavior is useful in a limited set of use cases. For example,
// use it when deploying code to a Function as a Service ("Serverless")
// platform, where any work happening in a background goroutine is not
// guaranteed to execute.
//
// For most cases, prefer HTTPTransport.
type HTTPSyncTransport struct {
dsn *Dsn
client *http.Client
transport http.RoundTripper
mu sync.Mutex
limits ratelimit.Map
// HTTP Client request timeout. Defaults to 30 seconds.
Timeout time.Duration
}
// NewHTTPSyncTransport returns a new pre-configured instance of HTTPSyncTransport.
func NewHTTPSyncTransport() *HTTPSyncTransport {
transport := HTTPSyncTransport{
Timeout: defaultTimeout,
limits: make(ratelimit.Map),
}
return &transport
}
// Configure is called by the Client itself, providing it it's own ClientOptions.
func (t *HTTPSyncTransport) Configure(options ClientOptions) {
dsn, err := NewDsn(options.Dsn)
if err != nil {
Logger.Printf("%v\n", err)
return
}
t.dsn = dsn
if options.HTTPTransport != nil {
t.transport = options.HTTPTransport
} else {
t.transport = &http.Transport{
Proxy: getProxyConfig(options),
TLSClientConfig: getTLSConfig(options),
}
}
if options.HTTPClient != nil {
t.client = options.HTTPClient
} else {
t.client = &http.Client{
Transport: t.transport,
Timeout: t.Timeout,
}
}
}
// SendEvent assembles a new packet out of Event and sends it to remote server.
func (t *HTTPSyncTransport) SendEvent(event *Event) {
if t.dsn == nil {
return
}
if t.disabled(categoryFor(event.Type)) {
return
}
request, err := getRequestFromEvent(event, t.dsn)
if err != nil {
return
}
for headerKey, headerValue := range t.dsn.RequestHeaders() {
request.Header.Set(headerKey, headerValue)
}
var eventType string
if event.Type == transactionType {
eventType = "transaction"
} else {
eventType = fmt.Sprintf("%s event", event.Level)
}
Logger.Printf(
"Sending %s [%s] to %s project: %d",
eventType,
event.EventID,
t.dsn.host,
t.dsn.projectID,
)
response, err := t.client.Do(request)
if err != nil {
Logger.Printf("There was an issue with sending an event: %v", err)
return
}
t.mu.Lock()
t.limits.Merge(ratelimit.FromResponse(response))
t.mu.Unlock()
// Drain body up to a limit and close it, allowing the
// transport to reuse TCP connections.
_, _ = io.CopyN(ioutil.Discard, response.Body, maxDrainResponseBytes)
response.Body.Close()
}
// Flush is a no-op for HTTPSyncTransport. It always returns true immediately.
func (t *HTTPSyncTransport) Flush(_ time.Duration) bool {
return true
}
func (t *HTTPSyncTransport) disabled(c ratelimit.Category) bool {
t.mu.Lock()
defer t.mu.Unlock()
disabled := t.limits.IsRateLimited(c)
if disabled {
Logger.Printf("Too many requests for %q, backing off till: %v", c, t.limits.Deadline(c))
}
return disabled
}
// ================================
// noopTransport
// ================================
// noopTransport is an implementation of Transport interface which drops all the events.
// Only used internally when an empty DSN is provided, which effectively disables the SDK.
type noopTransport struct{}
func (t *noopTransport) Configure(options ClientOptions) {
Logger.Println("Sentry client initialized with an empty DSN. Using noopTransport. No events will be delivered.")
}
func (t *noopTransport) SendEvent(event *Event) {
Logger.Println("Event dropped due to noopTransport usage.")
}
func (t *noopTransport) Flush(_ time.Duration) bool {
return true
}