// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause // Package tsweb contains code used in various Tailscale webservers. package tsweb import ( "bufio" "bytes" "cmp" "context" "errors" "expvar" "fmt" "io" "net" "net/http" _ "net/http/pprof" "net/netip" "net/url" "os" "path/filepath" "regexp" "runtime" "strconv" "strings" "sync" "time" "go4.org/mem" "tailscale.com/envknob" "tailscale.com/metrics" "tailscale.com/net/tsaddr" "tailscale.com/tsweb/varz" "tailscale.com/types/logger" "tailscale.com/util/ctxkey" "tailscale.com/util/vizerror" ) // DevMode controls whether extra output in shown, for when the binary is being run in dev mode. var DevMode bool func DefaultCertDir(leafDir string) string { cacheDir, err := os.UserCacheDir() if err == nil { return filepath.Join(cacheDir, "tailscale", leafDir) } return "" } // IsProd443 reports whether addr is a Go listen address for port 443. func IsProd443(addr string) bool { _, port, _ := net.SplitHostPort(addr) return port == "443" || port == "https" } // AllowDebugAccess reports whether r should be permitted to access // various debug endpoints. func AllowDebugAccess(r *http.Request) bool { if allowDebugAccessWithKey(r) { return true } if r.Header.Get("X-Forwarded-For") != "" { // TODO if/when needed. For now, conservative: return false } ipStr, _, err := net.SplitHostPort(r.RemoteAddr) if err != nil { return false } ip, err := netip.ParseAddr(ipStr) if err != nil { return false } if tsaddr.IsTailscaleIP(ip) || ip.IsLoopback() || ipStr == envknob.String("TS_ALLOW_DEBUG_IP") { return true } return false } func allowDebugAccessWithKey(r *http.Request) bool { if r.Method != "GET" { return false } urlKey := r.FormValue("debugkey") keyPath := envknob.String("TS_DEBUG_KEY_PATH") if urlKey != "" && keyPath != "" { slurp, err := os.ReadFile(keyPath) if err == nil && string(bytes.TrimSpace(slurp)) == urlKey { return true } } return false } // AcceptsEncoding reports whether r accepts the named encoding // ("gzip", "br", etc). func AcceptsEncoding(r *http.Request, enc string) bool { h := r.Header.Get("Accept-Encoding") if h == "" { return false } if !strings.Contains(h, enc) && !mem.ContainsFold(mem.S(h), mem.S(enc)) { return false } remain := h for len(remain) > 0 { var part string part, remain, _ = strings.Cut(remain, ",") part = strings.TrimSpace(part) part, _, _ = strings.Cut(part, ";") if part == enc { return true } } return false } // Protected wraps a provided debug handler, h, returning a Handler // that enforces AllowDebugAccess and returns forbidden replies for // unauthorized requests. func Protected(h http.Handler) http.Handler { return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { if !AllowDebugAccess(r) { msg := "debug access denied" if DevMode { ipStr, _, _ := net.SplitHostPort(r.RemoteAddr) msg += fmt.Sprintf("; to permit access, set TS_ALLOW_DEBUG_IP=%v", ipStr) } http.Error(w, msg, http.StatusForbidden) return } h.ServeHTTP(w, r) }) } // Port80Handler is the handler to be given to // autocert.Manager.HTTPHandler. The inner handler is the mux // returned by NewMux containing registered /debug handlers. type Port80Handler struct { Main http.Handler // FQDN is used to redirect incoming requests to https://. // If it is not set, the hostname is calculated from the incoming // request. FQDN string } func (h Port80Handler) ServeHTTP(w http.ResponseWriter, r *http.Request) { path := r.RequestURI if path == "/debug" || strings.HasPrefix(path, "/debug") { h.Main.ServeHTTP(w, r) return } if r.Method != "GET" && r.Method != "HEAD" { http.Error(w, "Use HTTPS", http.StatusBadRequest) return } if path == "/" && AllowDebugAccess(r) { // Redirect authorized user to the debug handler. path = "/debug/" } host := cmp.Or(h.FQDN, r.Host) target := "https://" + host + path http.Redirect(w, r, target, http.StatusFound) } // ReturnHandler is like net/http.Handler, but the handler can return an // error instead of writing to its ResponseWriter. type ReturnHandler interface { // ServeHTTPReturn is like http.Handler.ServeHTTP, except that // it can choose to return an error instead of writing to its // http.ResponseWriter. // // If ServeHTTPReturn returns an error, it caller should handle // an error by serving an HTTP 500 response to the user. The // error details should not be sent to the client, as they may // contain sensitive information. If the error is an // HTTPError, though, callers should use the HTTP response // code and message as the response to the client. ServeHTTPReturn(http.ResponseWriter, *http.Request) error } // BucketedStatsOptions describes tsweb handler options surrounding // the generation of metrics, grouped into buckets. type BucketedStatsOptions struct { // Bucket returns which bucket the given request is in. // If nil, [NormalizedPath] is used to compute the bucket. Bucket func(req *http.Request) string // If non-nil, Started maintains a counter of all requests which // have begun processing. Started *metrics.LabelMap // If non-nil, Finished maintains a counter of all requests which // have finished processing with success (that is, the HTTP handler has // returned). Finished *metrics.LabelMap } // normalizePathRegex matches components in a HTTP request path // that should be replaced. // // See: https://regex101.com/r/WIfpaR/3 for the explainer and test cases. var normalizePathRegex = regexp.MustCompile("([a-fA-F0-9]{9,}|([^\\/])+\\.([^\\/]){2,}|((n|k|u|L|t|S)[a-zA-Z0-9]{5,}(CNTRL|Djz1H|LV5CY|mxgaY|jNy1b))|(([^\\/])+\\@passkey))") // NormalizedPath returns the given path with the following modifications: // // - any query parameters are removed // - any path component with a hex string of 9 or more characters is // replaced by an ellipsis // - any path component containing a period with at least two characters // after the period (i.e. an email or domain) // - any path component consisting of a common Tailscale Stable ID // - any path segment *@passkey. func NormalizedPath(p string) string { // Fastpath: No hex sequences in there we might have to trim. // Avoids allocating. if normalizePathRegex.FindStringIndex(p) == nil { b, _, _ := strings.Cut(p, "?") return b } // If we got here, there's at least one hex sequences we need to // replace with an ellipsis. replaced := normalizePathRegex.ReplaceAllString(p, "…") b, _, _ := strings.Cut(replaced, "?") return b } func (o *BucketedStatsOptions) bucketForRequest(r *http.Request) string { if o.Bucket != nil { return o.Bucket(r) } return NormalizedPath(r.URL.Path) } // HandlerOptions are options used by [StdHandler], containing both [LogOptions] // used by [LogHandler] and [ErrorOptions] used by [ErrorHandler]. type HandlerOptions struct { QuietLoggingIfSuccessful bool // if set, do not log successfully handled HTTP requests (200 and 304 status codes) Logf logger.Logf Now func() time.Time // if nil, defaults to time.Now // If non-nil, StatusCodeCounters maintains counters // of status codes for handled responses. // The keys are "1xx", "2xx", "3xx", "4xx", and "5xx". StatusCodeCounters *expvar.Map // If non-nil, StatusCodeCountersFull maintains counters of status // codes for handled responses. // The keys are HTTP numeric response codes e.g. 200, 404, ... StatusCodeCountersFull *expvar.Map // If non-nil, BucketedStats computes and exposes statistics // for each bucket based on the contained parameters. BucketedStats *BucketedStatsOptions // OnStart is called inline before ServeHTTP is called. Optional. OnStart OnStartFunc // OnError is called if the handler returned a HTTPError. This // is intended to be used to present pretty error pages if // the user agent is determined to be a browser. OnError ErrorHandlerFunc // OnCompletion is called inline when ServeHTTP is finished and gets // useful data that the implementor can use for metrics. Optional. OnCompletion OnCompletionFunc } // LogOptions are the options used by [LogHandler]. // These options are a subset of [HandlerOptions]. type LogOptions struct { // Logf is used to log HTTP requests and responses. Logf logger.Logf // Now is a function giving the current time. Defaults to [time.Now]. Now func() time.Time // QuietLogging suppresses all logging of handled HTTP requests, even if // there are errors or status codes considered unsuccessful. Use this option // to add your own logging in OnCompletion. QuietLogging bool // QuietLoggingIfSuccessful suppresses logging of handled HTTP requests // where the request's response status code is 200 or 304. QuietLoggingIfSuccessful bool // StatusCodeCounters maintains counters of status code classes. // The keys are "1xx", "2xx", "3xx", "4xx", and "5xx". // If nil, no counting is done. StatusCodeCounters *expvar.Map // StatusCodeCountersFull maintains counters of status codes. // The keys are HTTP numeric response codes e.g. 200, 404, ... // If nil, no counting is done. StatusCodeCountersFull *expvar.Map // BucketedStats computes and exposes statistics for each bucket based on // the contained parameters. If nil, no counting is done. BucketedStats *BucketedStatsOptions // OnStart is called inline before ServeHTTP is called. Optional. OnStart OnStartFunc // OnCompletion is called inline when ServeHTTP is finished and gets // useful data that the implementor can use for metrics. Optional. OnCompletion OnCompletionFunc } func (o HandlerOptions) logOptions() LogOptions { return LogOptions{ QuietLoggingIfSuccessful: o.QuietLoggingIfSuccessful, Logf: o.Logf, Now: o.Now, StatusCodeCounters: o.StatusCodeCounters, StatusCodeCountersFull: o.StatusCodeCountersFull, BucketedStats: o.BucketedStats, OnStart: o.OnStart, OnCompletion: o.OnCompletion, } } func (opts LogOptions) withDefaults() LogOptions { if opts.Logf == nil { opts.Logf = logger.Discard } if opts.Now == nil { opts.Now = time.Now } return opts } // ErrorOptions are options used by [ErrorHandler]. type ErrorOptions struct { // Logf is used to record unexpected behaviours when returning HTTPError but // different error codes have already been written to the client. Logf logger.Logf // OnError is called if the handler returned a HTTPError. This // is intended to be used to present pretty error pages if // the user agent is determined to be a browser. OnError ErrorHandlerFunc } func (opts ErrorOptions) withDefaults() ErrorOptions { if opts.Logf == nil { opts.Logf = logger.Discard } if opts.OnError == nil { opts.OnError = WriteHTTPError } return opts } func (opts HandlerOptions) errorOptions() ErrorOptions { return ErrorOptions{ OnError: opts.OnError, } } // ErrorHandlerFunc is called to present a error response. type ErrorHandlerFunc func(http.ResponseWriter, *http.Request, HTTPError) // OnStartFunc is called before ServeHTTP is called. type OnStartFunc func(*http.Request, AccessLogRecord) // OnCompletionFunc is called when ServeHTTP is finished and gets // useful data that the implementor can use for metrics. type OnCompletionFunc func(*http.Request, AccessLogRecord) // ReturnHandlerFunc is an adapter to allow the use of ordinary // functions as ReturnHandlers. If f is a function with the // appropriate signature, ReturnHandlerFunc(f) is a ReturnHandler that // calls f. type ReturnHandlerFunc func(http.ResponseWriter, *http.Request) error // A Middleware is a function that wraps an http.Handler to extend or modify // its behaviour. // // The implementation of the wrapper is responsible for delegating its input // request to the underlying handler, if appropriate. type Middleware func(h http.Handler) http.Handler // MiddlewareStack combines multiple middleware into a single middleware for // decorating a [http.Handler]. The first middleware argument will be the first // to process an incoming request, before passing the request onto subsequent // middleware and eventually the wrapped handler. // // For example: // // MiddlewareStack(A, B)(h).ServeHTTP(w, r) // // calls in sequence: // // a.ServeHTTP(w, r) // -> b.ServeHTTP(w, r) // -> h.ServeHTTP(w, r) // // (where the lowercase handlers were generated by the uppercase middleware). func MiddlewareStack(mw ...Middleware) Middleware { if len(mw) == 1 { return mw[0] } return func(h http.Handler) http.Handler { for i := len(mw) - 1; i >= 0; i-- { h = mw[i](h) } return h } } // ServeHTTPReturn calls f(w, r). func (f ReturnHandlerFunc) ServeHTTPReturn(w http.ResponseWriter, r *http.Request) error { return f(w, r) } // StdHandler converts a ReturnHandler into a standard http.Handler. // Handled requests are logged using opts.Logf, as are any errors. // Errors are handled as specified by the ReturnHandler interface. // Short-hand for LogHandler(ErrorHandler()). func StdHandler(h ReturnHandler, opts HandlerOptions) http.Handler { return LogHandler(ErrorHandler(h, opts.errorOptions()), opts.logOptions()) } // LogHandler returns an http.Handler that logs to opts.Logf. // It logs both successful and failing requests. // The log line includes the first error returned to [ErrorHandler] within. // The outer-most LogHandler(LogHandler(...)) does all of the logging. // Inner LogHandler instance do nothing. // Panics are swallowed and their stack traces are put in the error. func LogHandler(h http.Handler, opts LogOptions) http.Handler { return logHandler{h, opts.withDefaults()} } // ErrorHandler converts a [ReturnHandler] into a standard [http.Handler]. // Errors are handled as specified by the [ReturnHandler.ServeHTTPReturn] method. // When wrapped in a [LogHandler], panics are added to the [AccessLogRecord]; // otherwise, panics continue up the stack. func ErrorHandler(h ReturnHandler, opts ErrorOptions) http.Handler { return errorHandler{h, opts.withDefaults()} } // errCallback is added to logHandler's request context so that errorHandler can // pass errors back up the stack to logHandler. var errCallback = ctxkey.New[func(HTTPError)]("tailscale.com/tsweb.errCallback", nil) // logHandler is a http.Handler which logs the HTTP request. // It injects an errCallback for errorHandler to augment the log message with // a specific error. type logHandler struct { h http.Handler opts LogOptions } func (h logHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) { // If there's already a logHandler up the chain, skip this one. ctx := r.Context() if errCallback.Has(ctx) { h.h.ServeHTTP(w, r) return } msg := AccessLogRecord{ Time: h.opts.Now(), RemoteAddr: r.RemoteAddr, Proto: r.Proto, TLS: r.TLS != nil, Host: r.Host, Method: r.Method, RequestURI: r.URL.RequestURI(), UserAgent: r.UserAgent(), Referer: r.Referer(), RequestID: RequestIDFromContext(r.Context()), } if bs := h.opts.BucketedStats; bs != nil && bs.Started != nil && bs.Finished != nil { bucket := bs.bucketForRequest(r) var startRecorded bool switch v := bs.Started.Map.Get(bucket).(type) { case *expvar.Int: // If we've already seen this bucket for, count it immediately. // Otherwise, for newly seen paths, only count retroactively // (so started-finished doesn't go negative) so we don't fill // this LabelMap up with internet scanning spam. v.Add(1) startRecorded = true } defer func() { // Only increment metrics for buckets that result in good HTTP statuses // or when we know the start was already counted. // Otherwise they get full of internet scanning noise. Only filtering 404 // gets most of the way there but there are also plenty of URLs that are // almost right but result in 400s too. Seem easier to just only ignore // all 4xx and 5xx. if startRecorded { bs.Finished.Add(bucket, 1) } else if msg.Code < 400 { // This is the first non-error request for this bucket, // so count it now retroactively. bs.Started.Add(bucket, 1) bs.Finished.Add(bucket, 1) } }() } if fn := h.opts.OnStart; fn != nil { fn(r, msg) } // Let errorHandler tell us what error it wrote to the client. r = r.WithContext(errCallback.WithValue(ctx, func(e HTTPError) { // Keep the deepest error. if msg.Err != "" { return } // Log the error. if e.Msg != "" && e.Err != nil { msg.Err = e.Msg + ": " + e.Err.Error() } else if e.Err != nil { msg.Err = e.Err.Error() } else if e.Msg != "" { msg.Err = e.Msg } // We log the code from the loggingResponseWriter, except for // cancellation where we override with 499. if reqCancelled(r, e.Err) { msg.Code = 499 } })) lw := newLogResponseWriter(h.opts.Logf, w, r) defer func() { // If the handler panicked then make sure we include that in our error. // Panics caught up errorHandler shouldn't appear here, unless the panic // originates in one of its callbacks. recovered := recover() if recovered != nil { if msg.Err == "" { msg.Err = panic2err(recovered).Error() } else { msg.Err += "\n\nthen " + panic2err(recovered).Error() } } h.logRequest(r, lw, msg) }() h.h.ServeHTTP(lw, r) } func (h logHandler) logRequest(r *http.Request, lw *loggingResponseWriter, msg AccessLogRecord) { // Complete our access log from the loggingResponseWriter. msg.Bytes = lw.bytes msg.Seconds = h.opts.Now().Sub(msg.Time).Seconds() switch { case msg.Code != 0: // Keep explicit codes from a few particular errors. case lw.hijacked: // Connection no longer belongs to us, just log that we // switched protocols away from HTTP. msg.Code = http.StatusSwitchingProtocols case lw.code == 0: // If the handler didn't write and didn't send a header, that still means 200. // (See https://play.golang.org/p/4P7nx_Tap7p) msg.Code = 200 default: msg.Code = lw.code } // Keep track of the original response code when we've overridden it. if lw.code != 0 && msg.Code != lw.code { if msg.Err == "" { msg.Err = fmt.Sprintf("(original code %d)", lw.code) } else { msg.Err = fmt.Sprintf("%s (original code %d)", msg.Err, lw.code) } } if !h.opts.QuietLogging && !(h.opts.QuietLoggingIfSuccessful && (msg.Code == http.StatusOK || msg.Code == http.StatusNotModified)) { h.opts.Logf("%s", msg) } if h.opts.OnCompletion != nil { h.opts.OnCompletion(r, msg) } // Closing metrics. if h.opts.StatusCodeCounters != nil { h.opts.StatusCodeCounters.Add(responseCodeString(msg.Code/100), 1) } if h.opts.StatusCodeCountersFull != nil { h.opts.StatusCodeCountersFull.Add(responseCodeString(msg.Code), 1) } } func responseCodeString(code int) string { if v, ok := responseCodeCache.Load(code); ok { return v.(string) } var ret string if code < 10 { ret = fmt.Sprintf("%dxx", code) } else { ret = strconv.Itoa(code) } responseCodeCache.Store(code, ret) return ret } // responseCodeCache memoizes the string form of HTTP response codes, // so that the hot request-handling codepath doesn't have to allocate // in strconv/fmt for every request. // // Keys are either full HTTP response code ints (200, 404) or "family" // ints representing entire families (e.g. 2 for 2xx codes). Values // are the string form of that code/family. var responseCodeCache sync.Map // loggingResponseWriter wraps a ResponseWriter and record the HTTP // response code that gets sent, if any. type loggingResponseWriter struct { http.ResponseWriter ctx context.Context code int bytes int hijacked bool logf logger.Logf } // newLogResponseWriter returns a loggingResponseWriter which uses's the logger // from r, or falls back to logf. If a nil logger is given, the logs are // discarded. func newLogResponseWriter(logf logger.Logf, w http.ResponseWriter, r *http.Request) *loggingResponseWriter { if l, ok := logger.LogfKey.ValueOk(r.Context()); ok && l != nil { logf = l } if logf == nil { logf = logger.Discard } return &loggingResponseWriter{ ResponseWriter: w, ctx: r.Context(), logf: logf, } } // WriteHeader implements [http.ResponseWriter]. func (l *loggingResponseWriter) WriteHeader(statusCode int) { if l.code != 0 { l.logf("[unexpected] HTTP handler set statusCode twice (%d and %d)", l.code, statusCode) return } if l.ctx.Err() == nil { l.code = statusCode } l.ResponseWriter.WriteHeader(statusCode) } // Write implements [http.ResponseWriter]. func (l *loggingResponseWriter) Write(bs []byte) (int, error) { if l.code == 0 { l.code = 200 } n, err := l.ResponseWriter.Write(bs) l.bytes += n return n, err } // Hijack implements http.Hijacker. Note that hijacking can still fail // because the wrapped ResponseWriter is not required to implement // Hijacker, as this breaks HTTP/2. func (l *loggingResponseWriter) Hijack() (net.Conn, *bufio.ReadWriter, error) { h, ok := l.ResponseWriter.(http.Hijacker) if !ok { return nil, nil, errors.New("ResponseWriter is not a Hijacker") } conn, buf, err := h.Hijack() if err == nil { l.hijacked = true } return conn, buf, err } func (l loggingResponseWriter) Flush() { f, _ := l.ResponseWriter.(http.Flusher) if f == nil { l.logf("[unexpected] tried to Flush a ResponseWriter that can't flush") return } f.Flush() } // errorHandler is an http.Handler that wraps a ReturnHandler to render the // returned errors to the client and pass them back to any logHandlers. type errorHandler struct { rh ReturnHandler opts ErrorOptions } // ServeHTTP implements the http.Handler interface. func (h errorHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) { // Keep track of whether a response gets written. lw, ok := w.(*loggingResponseWriter) if !ok { lw = newLogResponseWriter(h.opts.Logf, w, r) } var err error defer func() { // In case the handler panics, we want to recover and continue logging // the error before logging it (or re-panicking if we couldn't log). rec := recover() if rec != nil { err = panic2err(rec) } if err == nil { return } if h.handleError(w, r, lw, err) { return } if rec != nil { // If we weren't able to log the panic somewhere, throw it up the // stack to someone who can. panic(rec) } }() err = h.rh.ServeHTTPReturn(lw, r) } func (h errorHandler) handleError(w http.ResponseWriter, r *http.Request, lw *loggingResponseWriter, err error) bool { var logged bool // Extract a presentable, loggable error. var hOK bool var hErr HTTPError if errors.As(err, &hErr) { hOK = true if hErr.Code == 0 { lw.logf("[unexpected] HTTPError %v did not contain an HTTP status code, sending internal server error", hErr) hErr.Code = http.StatusInternalServerError } } else if v, ok := vizerror.As(err); ok { hErr = Error(http.StatusInternalServerError, v.Error(), nil) } else if reqCancelled(r, err) { // 499 is the Nginx convention meaning "Client Closed Connection". if errors.Is(err, context.Canceled) || errors.Is(err, http.ErrAbortHandler) { hErr = Error(499, "", err) } else { hErr = Error(499, "", fmt.Errorf("%w: %w", context.Canceled, err)) } } else { // Omit the friendly message so HTTP logs show the bare error that was // returned and we know it's not a HTTPError. hErr = Error(http.StatusInternalServerError, "", err) } // Tell the logger what error we wrote back to the client. if pb := errCallback.Value(r.Context()); pb != nil { pb(hErr) logged = true } if r.Context().Err() != nil { return logged } if lw.code != 0 { if hOK && hErr.Code != lw.code { lw.logf("[unexpected] handler returned HTTPError %v, but already sent response with code %d", hErr, lw.code) } return logged } // Set a default error message from the status code. Do this after we pass // the error back to the logger so that `return errors.New("oh")` logs as // `"err": "oh"`, not `"err": "Internal Server Error: oh"`. if hErr.Msg == "" { switch hErr.Code { case 499: hErr.Msg = "Client Closed Request" default: hErr.Msg = http.StatusText(hErr.Code) } } // If OnError panics before a response is written, write a bare 500 back. // OnError panics are thrown further up the stack. defer func() { if lw.code == 0 { if rec := recover(); rec != nil { w.WriteHeader(http.StatusInternalServerError) panic(rec) } } }() h.opts.OnError(w, r, hErr) return logged } // panic2err converts a recovered value to an error containing the panic stack trace. func panic2err(recovered any) error { if recovered == nil { return nil } if recovered == http.ErrAbortHandler { return http.ErrAbortHandler } // Even if r is an error, do not wrap it as an error here as // that would allow things like panic(vizerror.New("foo")) // which is really hard to define the behavior of. var stack [10000]byte n := runtime.Stack(stack[:], false) return &panicError{ rec: recovered, stack: stack[:n], } } // panicError is an error that contains a panic. type panicError struct { rec any stack []byte } func (e *panicError) Error() string { return fmt.Sprintf("panic: %v\n\n%s", e.rec, e.stack) } func (e *panicError) Unwrap() error { err, _ := e.rec.(error) return err } // reqCancelled returns true if err is http.ErrAbortHandler or r.Context.Err() // is context.Canceled. func reqCancelled(r *http.Request, err error) bool { return errors.Is(err, http.ErrAbortHandler) || r.Context().Err() == context.Canceled } // WriteHTTPError is the default error response formatter. func WriteHTTPError(w http.ResponseWriter, r *http.Request, e HTTPError) { // Don't write a response if we've hit a cancellation/abort. if r.Context().Err() != nil || errors.Is(e.Err, http.ErrAbortHandler) { return } // Default headers set by http.Error. h := w.Header() h.Set("Content-Type", "text/plain; charset=utf-8") h.Set("X-Content-Type-Options", "nosniff") // Custom headers from the error. for k, vs := range e.Header { h[k] = vs } // Write the msg back to the user. w.WriteHeader(e.Code) fmt.Fprint(w, e.Msg) // If it's a plaintext message, add line breaks and RequestID. if strings.HasPrefix(h.Get("Content-Type"), "text/plain") { io.WriteString(w, "\n") if id := RequestIDFromContext(r.Context()); id != "" { io.WriteString(w, id.String()) io.WriteString(w, "\n") } } } // HTTPError is an error with embedded HTTP response information. // // It is the error type to be (optionally) used by Handler.ServeHTTPReturn. type HTTPError struct { Code int // HTTP response code to send to client; 0 means 500 Msg string // Response body to send to client Err error // Detailed error to log on the server Header http.Header // Optional set of HTTP headers to set in the response } // Error implements the error interface. func (e HTTPError) Error() string { return fmt.Sprintf("httperror{%d, %q, %v}", e.Code, e.Msg, e.Err) } func (e HTTPError) Unwrap() error { return e.Err } // Error returns an HTTPError containing the given information. func Error(code int, msg string, err error) HTTPError { return HTTPError{Code: code, Msg: msg, Err: err} } // VarzHandler writes expvar values as Prometheus metrics. // TODO: migrate all users to varz.Handler or promvarz.Handler and remove this. func VarzHandler(w http.ResponseWriter, r *http.Request) { varz.Handler(w, r) } // CleanRedirectURL ensures that urlStr is a valid redirect URL to the // current server, or one of allowedHosts. Returns the cleaned URL or // a validation error. func CleanRedirectURL(urlStr string, allowedHosts []string) (*url.URL, error) { if urlStr == "" { return &url.URL{}, nil } // In some places, we unfortunately query-escape the redirect URL // too many times, and end up needing to redirect to a URL that's // still escaped by one level. Try to unescape the input. unescaped, err := url.QueryUnescape(urlStr) if err == nil && unescaped != urlStr { urlStr = unescaped } // Go's URL parser and browser URL parsers disagree on the meaning // of malformed HTTP URLs. Given the input https:/evil.com, Go // parses it as hostname="", path="/evil.com". Browsers parse it // as hostname="evil.com", path="". This means that, using // malformed URLs, an attacker could trick us into approving of a // "local" redirect that in fact sends people elsewhere. // // This very blunt check enforces that we'll only process // redirects that are definitely well-formed URLs. // // Note that the check for just / also allows URLs of the form // "//foo.com/bar", which are scheme-relative redirects. These // must be handled with care below when determining whether a // redirect is relative to the current host. Notably, // url.URL.IsAbs reports // URLs as relative, whereas we want to // treat them as absolute redirects and verify the target host. if !hasSafeRedirectPrefix(urlStr) { return nil, fmt.Errorf("invalid redirect URL %q", urlStr) } url, err := url.Parse(urlStr) if err != nil { return nil, fmt.Errorf("invalid redirect URL %q: %w", urlStr, err) } // Redirects to self are always allowed. A self redirect must // start with url.Path, all prior URL sections must be empty. isSelfRedirect := url.Scheme == "" && url.Opaque == "" && url.User == nil && url.Host == "" if isSelfRedirect { return url, nil } for _, allowed := range allowedHosts { if strings.EqualFold(allowed, url.Hostname()) { return url, nil } } return nil, fmt.Errorf("disallowed target host %q in redirect URL %q", url.Hostname(), urlStr) } // hasSafeRedirectPrefix reports whether url starts with a slash, or // one of the case-insensitive strings "http://" or "https://". func hasSafeRedirectPrefix(url string) bool { if len(url) >= 1 && url[0] == '/' { return true } const http = "http://" if len(url) >= len(http) && strings.EqualFold(url[:len(http)], http) { return true } const https = "https://" if len(url) >= len(https) && strings.EqualFold(url[:len(https)], https) { return true } return false } // AddBrowserHeaders sets various HTTP security headers for browser-facing endpoints. // // The specific headers: // - require HTTPS access (HSTS) // - disallow iframe embedding // - mitigate MIME confusion attacks // // These headers are based on // https://infosec.mozilla.org/guidelines/web_security func AddBrowserHeaders(w http.ResponseWriter) { w.Header().Set("Strict-Transport-Security", "max-age=63072000; includeSubDomains") w.Header().Set("Content-Security-Policy", "default-src 'self'; frame-ancestors 'none'; form-action 'self'; base-uri 'self'; block-all-mixed-content; object-src 'none'") w.Header().Set("X-Frame-Options", "DENY") w.Header().Set("X-Content-Type-Options", "nosniff") } // BrowserHeaderHandler wraps the provided http.Handler with a call to // AddBrowserHeaders. func BrowserHeaderHandler(h http.Handler) http.Handler { return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { AddBrowserHeaders(w) h.ServeHTTP(w, r) }) } // BrowserHeaderHandlerFunc wraps the provided http.HandlerFunc with a call to // AddBrowserHeaders. func BrowserHeaderHandlerFunc(h http.HandlerFunc) http.HandlerFunc { return func(w http.ResponseWriter, r *http.Request) { AddBrowserHeaders(w) h.ServeHTTP(w, r) } }