package context
import (
"bytes"
"errors"
"fmt"
"io"
"net/http"
"net/textproto"
"strconv"
"sync"
)
// Recorder the middleware to enable response writer recording ( ResponseWriter -> ResponseRecorder)
var Recorder = func(ctx *Context) {
ctx.Record()
ctx.Next()
}
var rrpool = sync.Pool{New: func() interface{} { return &ResponseRecorder{} }}
// AcquireResponseRecorder returns a new *AcquireResponseRecorder from the pool.
// Releasing is done automatically when request and response is done.
func AcquireResponseRecorder() *ResponseRecorder {
return rrpool.Get().(*ResponseRecorder)
}
func releaseResponseRecorder(w *ResponseRecorder) {
rrpool.Put(w)
}
// A ResponseRecorder is used mostly for testing
// in order to record and modify, if necessary, the body and status code and headers.
//
// See `context.Recorder“ method too.
type ResponseRecorder struct {
ResponseWriter
// keep track of the body written.
chunks []byte
// the saved headers
headers http.Header
result *http.Response
}
var _ ResponseWriter = (*ResponseRecorder)(nil)
// Naive returns the simple, underline and original http.ResponseWriter
// that backends this response writer.
func (w *ResponseRecorder) Naive() http.ResponseWriter {
return w.ResponseWriter.Naive()
}
// BeginRecord accepts its parent ResponseWriter and
// prepares itself, the response recorder, to record and send response to the client.
func (w *ResponseRecorder) BeginRecord(underline ResponseWriter) {
w.ResponseWriter = underline
w.headers = underline.Header().Clone()
w.result = nil
w.ResetBody()
}
// EndResponse is auto-called when the whole client's request is done,
// releases the response recorder and its underline ResponseWriter.
func (w *ResponseRecorder) EndResponse() {
w.ResponseWriter.EndResponse()
releaseResponseRecorder(w)
}
// Write Adds the contents to the body reply, it writes the contents temporarily
// to a value in order to be flushed at the end of the request,
// this method give us the opportunity to reset the body if needed.
//
// If WriteHeader has not yet been called, Write calls
// WriteHeader(http.StatusOK) before writing the data. If the Header
// does not contain a Content-Type line, Write adds a Content-Type set
// to the result of passing the initial 512 bytes of written data to
// DetectContentType.
//
// Depending on the HTTP protocol version and the client, calling
// Write or WriteHeader may prevent future reads on the
// Request.Body. For HTTP/1.x requests, handlers should read any
// needed request body data before writing the response. Once the
// headers have been flushed (due to either an explicit Flusher.Flush
// call or writing enough data to trigger a flush), the request body
// may be unavailable. For HTTP/2 requests, the Go HTTP server permits
// handlers to continue to read the request body while concurrently
// writing the response. However, such behavior may not be supported
// by all HTTP/2 clients. Handlers should read before writing if
// possible to maximize compatibility.
func (w *ResponseRecorder) Write(contents []byte) (int, error) {
w.chunks = append(w.chunks, contents...)
// Remember that we should not return all the written length within `Write`:
// see https://github.com/kataras/iris/pull/931
return len(contents), nil
}
// Header returns the temporary header map that, on flush response,
// will be sent by the underline's ResponseWriter's WriteHeader method.
func (w *ResponseRecorder) Header() http.Header {
return w.headers
}
// SetBody overrides the body and sets it to a slice of bytes value.
func (w *ResponseRecorder) SetBody(b []byte) {
w.chunks = b
}
// SetBodyString overrides the body and sets it to a string value.
func (w *ResponseRecorder) SetBodyString(s string) {
w.SetBody([]byte(s))
}
// Body returns the body tracked from the writer so far,
// do not use this for edit.
func (w *ResponseRecorder) Body() []byte {
return w.chunks
}
// ResetBody resets the response body.
func (w *ResponseRecorder) ResetBody() {
w.chunks = w.chunks[0:0]
}
// ResetHeaders sets the headers to the underline's response writer's headers, may empty.
func (w *ResponseRecorder) ResetHeaders() {
w.headers = w.ResponseWriter.Header().Clone()
}
// ClearHeaders clears all headers, both temp and underline's response writer.
func (w *ResponseRecorder) ClearHeaders() {
w.headers = http.Header{}
h := w.ResponseWriter.Header()
for k := range h {
delete(h, k)
}
}
// Reset clears headers, sets the status code to 200
// and clears the cached body.
//
// - Use ResetBody() and ResetHeaders() instead to keep compression after reseting.
//
// - Use Reset() & ResponseRecorder.ResponseWriter.(*context.CompressResponseWriter).Disabled = true
// to set a new body without compression when the previous handler was iris.Compression.
//
// Implements the `ResponseWriterReseter`.
func (w *ResponseRecorder) Reset() bool {
w.ClearHeaders()
w.WriteHeader(defaultStatusCode)
w.ResetBody()
return true
}
// FlushResponse the full body, headers and status code to the underline response writer
// called automatically at the end of each request.
func (w *ResponseRecorder) FlushResponse() {
// copy the headers to the underline response writer
if w.headers != nil {
h := w.ResponseWriter.Header()
// note: we don't reset the current underline's headers.
for k, v := range w.headers {
h[k] = v
}
}
cw, mustWriteToClose := w.ResponseWriter.(*CompressResponseWriter)
if mustWriteToClose { // see #1569#issuecomment-664003098
cw.FlushHeaders()
} else {
// NOTE: before the ResponseWriter.Write in order to:
// set the given status code even if the body is empty.
w.ResponseWriter.FlushResponse()
}
if len(w.chunks) > 0 {
// ignore error
w.ResponseWriter.Write(w.chunks)
}
if mustWriteToClose {
cw.ResponseWriter.FlushResponse()
cw.CompressWriter.Close()
}
}
// Clone returns a clone of this response writer
// it copies the header, status code, headers and the beforeFlush finally returns a new ResponseRecorder
func (w *ResponseRecorder) Clone() ResponseWriter {
wc := &ResponseRecorder{}
// copy headers.
wc.headers = w.headers.Clone()
// copy body.
chunksCopy := make([]byte, len(w.chunks))
copy(chunksCopy, w.chunks)
wc.chunks = chunksCopy
if resW, ok := w.ResponseWriter.(*responseWriter); ok {
wc.ResponseWriter = &responseWriter{
ResponseWriter: resW.ResponseWriter,
statusCode: resW.statusCode,
written: resW.written,
beforeFlush: resW.beforeFlush,
} // clone it
} else { // else just copy, may pointer, developer can change its behavior
wc.ResponseWriter = w.ResponseWriter
}
return wc
}
// CopyTo writes a response writer (temp: status code, headers and body) to another response writer
func (w *ResponseRecorder) CopyTo(res ResponseWriter) {
if to, ok := res.(*ResponseRecorder); ok {
// set the status code, to is first ( probably an error? (context.StatusCodeNotSuccessful, defaults to >=400).
if statusCode := w.ResponseWriter.StatusCode(); statusCode == defaultStatusCode {
to.WriteHeader(statusCode)
}
if beforeFlush := w.ResponseWriter.GetBeforeFlush(); beforeFlush != nil {
// if to had a before flush, lets combine them
if to.GetBeforeFlush() != nil {
nextBeforeFlush := beforeFlush
prevBeforeFlush := to.GetBeforeFlush()
to.SetBeforeFlush(func() {
prevBeforeFlush()
nextBeforeFlush()
})
} else {
to.SetBeforeFlush(w.ResponseWriter.GetBeforeFlush())
}
}
// if "to" is *responseWriter and it never written before (if -1),
// set the "w"'s written length.
if resW, ok := to.ResponseWriter.(*responseWriter); ok {
if resW.Written() != StatusCodeWritten {
resW.written = w.ResponseWriter.Written()
}
}
// append the headers
for k, values := range w.headers {
for _, v := range values {
if to.headers.Get(v) == "" {
to.headers.Add(k, v)
}
}
}
// append the body
if len(w.chunks) > 0 {
// ignore error
to.Write(w.chunks)
}
}
}
// Flush sends any buffered data to the client.
func (w *ResponseRecorder) Flush() {
// This fixes response recorder when chunked + Flush is used.
if w.headers.Get("Transfer-Encoding") == "chunked" {
if w.Written() == NoWritten {
if len(w.headers) > 0 {
h := w.ResponseWriter.Header()
// note: we don't reset the current underline's headers.
for k, v := range w.headers {
h[k] = v
}
}
}
if len(w.chunks) > 0 {
w.ResponseWriter.Write(w.chunks)
}
}
w.ResponseWriter.Flush()
w.ResetBody()
}
// ErrPushNotSupported is returned by the Push method to
// indicate that HTTP/2 Push support is not available.
var ErrPushNotSupported = errors.New("push feature is not supported by this ResponseWriter")
// Push initiates an HTTP/2 server push. This constructs a synthetic
// request using the given target and options, serializes that request
// into a PUSH_PROMISE frame, then dispatches that request using the
// server's request handler. If opts is nil, default options are used.
//
// The target must either be an absolute path (like "/path") or an absolute
// URL that contains a valid host and the same scheme as the parent request.
// If the target is a path, it will inherit the scheme and host of the
// parent request.
//
// The HTTP/2 spec disallows recursive pushes and cross-authority pushes.
// Push may or may not detect these invalid pushes; however, invalid
// pushes will be detected and canceled by conforming clients.
//
// Handlers that wish to push URL X should call Push before sending any
// data that may trigger a request for URL X. This avoids a race where the
// client issues requests for X before receiving the PUSH_PROMISE for X.
//
// Push returns ErrPushNotSupported if the client has disabled push or if push
// is not supported on the underlying connection.
func (w *ResponseRecorder) Push(target string, opts *http.PushOptions) (err error) {
w.FlushResponse()
if pusher, ok := w.ResponseWriter.Naive().(http.Pusher); ok {
err = pusher.Push(target, opts)
if err != nil && err.Error() == http.ErrNotSupported.ErrorString {
return ErrPushNotSupported
}
}
// NOTE: we have to reset them even if the push failed.
w.ResetBody()
w.ResetHeaders()
return ErrPushNotSupported
}
// Result returns the response generated by the handler.
// It does set all provided headers.
//
// Result must only be called after the handler has finished running.
func (w *ResponseRecorder) Result() *http.Response { // a modified copy of net/http/httptest
if w.result != nil {
return w.result
}
headers := w.headers.Clone()
// for k, v := range w.ResponseWriter.Header() {
// headers[k] = v
// }
/*
dateFound := false
for k := range headers {
if strings.ToLower(k) == "date" {
dateFound = true
break
}
}
if !dateFound {
headers["Date"] = []string{time.Now().Format(http.TimeFormat)}
}
*/
res := &http.Response{
Proto: "HTTP/1.1",
ProtoMajor: 1,
ProtoMinor: 1,
StatusCode: w.StatusCode(),
Header: headers,
}
if res.StatusCode == 0 {
res.StatusCode = 200
}
res.Status = fmt.Sprintf("%03d %s", res.StatusCode, http.StatusText(res.StatusCode))
if w.chunks != nil {
res.Body = io.NopCloser(bytes.NewReader(w.chunks))
} else {
res.Body = http.NoBody
}
res.ContentLength = parseContentLength(res.Header.Get("Content-Length"))
w.result = res
return res
}
// copy of net/http/httptest
func parseContentLength(cl string) int64 {
cl = textproto.TrimString(cl)
if cl == "" {
return -1
}
n, err := strconv.ParseUint(cl, 10, 63)
if err != nil {
return -1
}
return int64(n)
}