package httpserver import ( "bytes" "io" "net/http" "sync" "time" ) // ResponseRecorder is a type of http.ResponseWriter that captures // the status code written to it and also the size of the body // written in the response. A status code does not have // to be written, however, in which case 200 must be assumed. // It is best to have the constructor initialize this type // with that default status code. // // Setting the Replacer field allows middlewares to type-assert // the http.ResponseWriter to ResponseRecorder and set their own // placeholder values for logging utilities to use. // // Beware when accessing the Replacer value; it may be nil! type ResponseRecorder struct { *ResponseWriterWrapper Replacer Replacer status int size int start time.Time } // NewResponseRecorder makes and returns a new ResponseRecorder. // Because a status is not set unless WriteHeader is called // explicitly, this constructor initializes with a status code // of 200 to cover the default case. func NewResponseRecorder(w http.ResponseWriter) *ResponseRecorder { return &ResponseRecorder{ ResponseWriterWrapper: &ResponseWriterWrapper{ResponseWriter: w}, status: http.StatusOK, start: time.Now(), } } // WriteHeader records the status code and calls the // underlying ResponseWriter's WriteHeader method. func (r *ResponseRecorder) WriteHeader(status int) { r.status = status r.ResponseWriterWrapper.WriteHeader(status) } // Write is a wrapper that records the size of the body // that gets written. func (r *ResponseRecorder) Write(buf []byte) (int, error) { n, err := r.ResponseWriterWrapper.Write(buf) if err == nil { r.size += n } return n, err } // Size returns the size of the recorded response body. func (r *ResponseRecorder) Size() int { return r.size } // Status returns the recorded response status code. func (r *ResponseRecorder) Status() int { return r.status } // ResponseBuffer is a type that conditionally buffers the // response in memory. It implements http.ResponseWriter so // that it can stream the response if it is not buffering. // Whether it buffers is decided by a func passed into the // constructor, NewResponseBuffer. // // This type implements http.ResponseWriter, so you can pass // this to the Next() middleware in the chain and record its // response. However, since the entire response body will be // buffered in memory, only use this when explicitly configured // and required for some specific reason. For example, the // text/template package only parses templates out of []byte // and not io.Reader, so the templates directive uses this // type to obtain the entire template text, but only on certain // requests that match the right Content-Type, etc. // // ResponseBuffer also implements io.ReaderFrom for performance // reasons. The standard lib's http.response type (unexported) // uses io.Copy to write the body. io.Copy makes an allocation // if the destination does not have a ReadFrom method (or if // the source does not have a WriteTo method, but that's // irrelevant here). Our ReadFrom is smart: if buffering, it // calls the buffer's ReadFrom, which makes no allocs because // it is already a buffer! If we're streaming the response // instead, ReadFrom uses io.CopyBuffer with a pooled buffer // that is managed within this package. type ResponseBuffer struct { *ResponseWriterWrapper Buffer *bytes.Buffer header http.Header status int shouldBuffer func(status int, header http.Header) bool stream bool rw http.ResponseWriter } // NewResponseBuffer returns a new ResponseBuffer that will // use buf to store the full body of the response if shouldBuffer // returns true. If shouldBuffer returns false, then the response // body will be streamed directly to rw. // // shouldBuffer will be passed the status code and header fields of // the response. With that information, the function should decide // whether to buffer the response in memory. For example: the templates // directive uses this to determine whether the response is the // right Content-Type (according to user config) for a template. // // For performance, the buf you pass in should probably be obtained // from a sync.Pool in order to reuse allocated space. func NewResponseBuffer(buf *bytes.Buffer, rw http.ResponseWriter, shouldBuffer func(status int, header http.Header) bool) *ResponseBuffer { rb := &ResponseBuffer{ Buffer: buf, header: make(http.Header), status: http.StatusOK, // default status code shouldBuffer: shouldBuffer, rw: rw, } rb.ResponseWriterWrapper = &ResponseWriterWrapper{ResponseWriter: rw} return rb } // Header returns the response header map. func (rb *ResponseBuffer) Header() http.Header { return rb.header } // WriteHeader calls shouldBuffer to decide whether the // upcoming body should be buffered, and then writes // the header to the response. func (rb *ResponseBuffer) WriteHeader(status int) { rb.status = status rb.stream = !rb.shouldBuffer(status, rb.header) if rb.stream { rb.CopyHeader() rb.ResponseWriterWrapper.WriteHeader(status) } } // Write writes buf to rb.Buffer if buffering, otherwise // to the ResponseWriter directly if streaming. func (rb *ResponseBuffer) Write(buf []byte) (int, error) { if rb.stream { return rb.ResponseWriterWrapper.Write(buf) } return rb.Buffer.Write(buf) } // Buffered returns whether rb has decided to buffer the response. func (rb *ResponseBuffer) Buffered() bool { return !rb.stream } // CopyHeader copies the buffered header in rb to the ResponseWriter, // but it does not write the header out. func (rb *ResponseBuffer) CopyHeader() { for field, val := range rb.header { rb.ResponseWriterWrapper.Header()[field] = val } } // ReadFrom avoids allocations when writing to the buffer (if buffering), // and reduces allocations when writing to the ResponseWriter directly // (if streaming). // // In local testing with the templates directive, req/sec were improved // from ~8,200 to ~9,600 on templated files by ensuring that this type // implements io.ReaderFrom. func (rb *ResponseBuffer) ReadFrom(src io.Reader) (int64, error) { if rb.stream { // first see if we can avoid any allocations at all if wt, ok := src.(io.WriterTo); ok { return wt.WriteTo(rb.ResponseWriterWrapper) } // if not, use a pooled copy buffer to reduce allocs // (this improved req/sec from ~25,300 to ~27,000 on // static files served directly with the fileserver, // but results fluctuated a little on each run). // a note of caution: // https://go-review.googlesource.com/c/22134#message-ff351762308fe05f6b72a487d6842e3988916486 buf := respBufPool.Get().([]byte) n, err := io.CopyBuffer(rb.ResponseWriterWrapper, src, buf) respBufPool.Put(buf) // defer'ing this slowed down benchmarks a smidgin, I think return n, err } return rb.Buffer.ReadFrom(src) } // StatusCodeWriter returns an http.ResponseWriter that always // writes the status code stored in rb from when a response // was buffered to it. func (rb *ResponseBuffer) StatusCodeWriter(w http.ResponseWriter) http.ResponseWriter { return forcedStatusCodeWriter{w, rb} } // forcedStatusCodeWriter is used to force a status code when // writing the header. It uses the status code saved on rb. // This is useful if passing a http.ResponseWriter into // http.ServeContent because ServeContent hard-codes 2xx status // codes. If we buffered the response, we force that status code // instead. type forcedStatusCodeWriter struct { http.ResponseWriter rb *ResponseBuffer } func (fscw forcedStatusCodeWriter) WriteHeader(int) { fscw.ResponseWriter.WriteHeader(fscw.rb.status) } // respBufPool is used for io.CopyBuffer when ResponseBuffer // is configured to stream a response. var respBufPool = &sync.Pool{ New: func() interface{} { return make([]byte, 32*1024) }, } // Interface guards var ( _ HTTPInterfaces = (*ResponseRecorder)(nil) _ HTTPInterfaces = (*ResponseBuffer)(nil) _ io.ReaderFrom = (*ResponseBuffer)(nil) )