604 lines
17 KiB
Go
604 lines
17 KiB
Go
package gmi
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import (
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"bufio"
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"crypto/tls"
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"crypto/x509"
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"errors"
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"log"
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"net"
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"net/url"
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"path"
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"sort"
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"strconv"
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"strings"
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"sync"
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"time"
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)
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// Server errors.
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var (
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ErrBodyNotAllowed = errors.New("gemini: response status code does not allow for body")
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)
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// Server is a Gemini server.
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type Server struct {
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// Addr specifies the address that the server should listen on.
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// If Addr is empty, the server will listen on the address ":1965".
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Addr string
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// CertificateStore contains the certificates used by the server.
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CertificateStore CertificateStore
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// GetCertificate, if not nil, will be called to retrieve the certificate
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// to use for a given hostname.
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// If the certificate is nil, the connection will be aborted.
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GetCertificate func(hostname string) *tls.Certificate
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// registered handlers
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handlers []handlerEntry
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}
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// Handle registers a handler for the given host.
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// A default scheme of gemini:// is assumed.
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func (s *Server) Handle(host string, handler Handler) {
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if host == "" {
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panic("gmi: invalid host")
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}
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if handler == nil {
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panic("gmi: nil handler")
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}
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s.HandleScheme("gemini", host, handler)
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}
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// HandleScheme registers a handler for the given scheme and host.
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func (s *Server) HandleScheme(scheme string, host string, handler Handler) {
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s.handlers = append(s.handlers, handlerEntry{
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scheme,
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host,
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handler,
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})
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}
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type handlerEntry struct {
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scheme string
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host string
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h Handler
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}
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// ListenAndServe listens for requests at the server's configured address.
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func (s *Server) ListenAndServe() error {
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addr := s.Addr
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if addr == "" {
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addr = ":1965"
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}
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ln, err := net.Listen("tcp", addr)
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if err != nil {
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return err
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}
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defer ln.Close()
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config := &tls.Config{
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InsecureSkipVerify: true,
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MinVersion: tls.VersionTLS12,
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GetCertificate: func(h *tls.ClientHelloInfo) (*tls.Certificate, error) {
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if s.GetCertificate != nil {
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return s.GetCertificate(h.ServerName), nil
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}
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return s.CertificateStore.Lookup(h.ServerName)
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},
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ClientAuth: tls.RequestClientCert,
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}
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tlsListener := tls.NewListener(ln, config)
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return s.Serve(tlsListener)
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}
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// Serve listens for requests on the provided listener.
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func (s *Server) Serve(l net.Listener) error {
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var tempDelay time.Duration // how long to sleep on accept failure
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for {
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rw, err := l.Accept()
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if err != nil {
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// If this is a temporary error, sleep
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if ne, ok := err.(net.Error); ok && ne.Temporary() {
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if tempDelay == 0 {
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tempDelay = 5 * time.Millisecond
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} else {
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tempDelay *= 2
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}
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if max := 1 * time.Second; tempDelay > max {
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tempDelay = max
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}
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log.Printf("gemini: Accept error: %v; retrying in %v", err, tempDelay)
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time.Sleep(tempDelay)
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continue
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}
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// Otherwise, return the error
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return err
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}
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tempDelay = 0
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go s.respond(rw)
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}
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}
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// ResponseWriter is used by a Gemini handler to construct a Gemini response.
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type ResponseWriter struct {
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w *bufio.Writer
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bodyAllowed bool
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wroteHeader bool
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mimetype string
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}
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func newResponseWriter(conn net.Conn) *ResponseWriter {
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return &ResponseWriter{
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w: bufio.NewWriter(conn),
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}
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}
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// WriteHeader writes the response header.
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// If the header has already been written, WriteHeader does nothing.
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//
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// Meta contains more information related to the response status.
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// For successful responses, Meta should contain the mimetype of the response.
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// For failure responses, Meta should contain a short description of the failure.
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// Meta should not be longer than 1024 bytes.
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func (r *ResponseWriter) WriteHeader(status int, meta string) {
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if r.wroteHeader {
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return
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}
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r.w.WriteString(strconv.Itoa(status))
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r.w.WriteByte(' ')
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r.w.WriteString(meta)
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r.w.Write(crlf)
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// Only allow body to be written on successful status codes.
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if status/10 == StatusClassSuccess {
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r.bodyAllowed = true
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}
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r.wroteHeader = true
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}
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// SetMimetype sets the mimetype that will be written for a successful response.
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// The provided mimetype will only be used if Write is called without calling
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// WriteHeader.
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// If the mimetype is not set, it will default to "text/gemini".
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func (r *ResponseWriter) SetMimetype(mimetype string) {
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r.mimetype = mimetype
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}
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// Write writes the response body.
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// If the response status does not allow for a response body, Write returns
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// ErrBodyNotAllowed.
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//
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// If WriteHeader has not yet been called, Write calls
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// WriteHeader(StatusSuccess, mimetype) where mimetype is the mimetype set in
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// SetMimetype. If no mimetype is set, a default of "text/gemini" will be used.
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func (r *ResponseWriter) Write(b []byte) (int, error) {
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if !r.wroteHeader {
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mimetype := r.mimetype
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if mimetype == "" {
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mimetype = "text/gemini"
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}
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r.WriteHeader(StatusSuccess, mimetype)
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}
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if !r.bodyAllowed {
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return 0, ErrBodyNotAllowed
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}
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return r.w.Write(b)
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}
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// respond responds to a connection.
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func (s *Server) respond(conn net.Conn) {
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r := bufio.NewReader(conn)
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rw := newResponseWriter(conn)
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// Read requested URL
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rawurl, err := r.ReadString('\r')
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if err != nil {
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return
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}
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// Read terminating line feed
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if b, err := r.ReadByte(); err != nil {
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return
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} else if b != '\n' {
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rw.WriteHeader(StatusBadRequest, "Bad request")
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}
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// Trim carriage return
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rawurl = rawurl[:len(rawurl)-1]
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// Ensure URL is valid
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if len(rawurl) > 1024 {
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rw.WriteHeader(StatusBadRequest, "Bad request")
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} else if url, err := url.Parse(rawurl); err != nil || url.User != nil {
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// Note that we return an error status if User is specified in the URL
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rw.WriteHeader(StatusBadRequest, "Bad request")
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} else {
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// Gather information about the request
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req := &Request{
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URL: url,
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RemoteAddr: conn.RemoteAddr(),
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TLS: conn.(*tls.Conn).ConnectionState(),
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}
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s.handler(req).Serve(rw, req)
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}
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rw.w.Flush()
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conn.Close()
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}
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func (s *Server) handler(req *Request) Handler {
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for _, e := range s.handlers {
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if req.URL.Scheme != e.scheme {
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continue
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}
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// Allow host or bare hostname
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if req.URL.Host == e.host || req.Hostname() == e.host {
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return e.h
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}
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}
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return NotFoundHandler()
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}
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// A Handler responds to a Gemini request.
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type Handler interface {
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// Serve accepts a Request and constructs a Response.
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Serve(*ResponseWriter, *Request)
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}
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// Input responds to the request with a request for input using the given prompt.
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func Input(rw *ResponseWriter, req *Request, prompt string) {
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rw.WriteHeader(StatusInput, prompt)
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}
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// InputHandler returns a simple handler that responds to each request with
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// a request for input.
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func InputHandler(prompt string) Handler {
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return HandlerFunc(func(rw *ResponseWriter, req *Request) {
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Input(rw, req, prompt)
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})
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}
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// WithInput either responds to the request with StatusInput if no input
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// is provided, or calls f with the input when provided.
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func WithInput(rw *ResponseWriter, req *Request, prompt string, f func(string)) {
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input := req.URL.RawQuery
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if input == "" {
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Input(rw, req, prompt)
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return
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}
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f(input)
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}
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// Sensitive responds to the request with a request for sensitive input
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// using the given prompt.
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func SensitiveInput(rw *ResponseWriter, req *Request, prompt string) {
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rw.WriteHeader(StatusSensitiveInput, prompt)
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}
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// SensitiveInputHandler returns a simpler handler that responds to each request
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// with a request for sensitive input.
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func SensitiveInputHandler(prompt string) Handler {
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return HandlerFunc(func(rw *ResponseWriter, req *Request) {
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SensitiveInput(rw, req, prompt)
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})
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}
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// WithSensitiveInput either responds to the request with StatusSensitiveInput
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// if no input is provided, or calls f with the input when provided.
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func WithSensitiveInput(rw *ResponseWriter, req *Request, prompt string, f func(string)) {
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input := req.URL.RawQuery
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if input == "" {
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SensitiveInput(rw, req, prompt)
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return
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}
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f(input)
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}
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// Redirect replies to the request with a redirect to the given URL.
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func Redirect(rw *ResponseWriter, req *Request, url string) {
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rw.WriteHeader(StatusRedirect, url)
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}
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// RedirectHandler returns a simple handler that responds to each request with
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// a redirect to the given URL.
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// If permanent is true, the handler will respond with a permanent redirect.
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func RedirectHandler(url string) Handler {
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return HandlerFunc(func(rw *ResponseWriter, req *Request) {
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Redirect(rw, req, url)
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})
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}
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// PermanentRedirect replies to the request with a permanent redirect to the given URL.
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func PermanentRedirect(rw *ResponseWriter, req *Request, url string) {
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rw.WriteHeader(StatusRedirectPermanent, url)
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}
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// PermanentRedirectHandler returns a simple handler that responds to each request with
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// a redirect to the given URL.
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func PermanentRedirectHandler(url string) Handler {
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return HandlerFunc(func(rw *ResponseWriter, req *Request) {
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PermanentRedirect(rw, req, url)
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})
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}
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// NotFound replies to the request with the NotFound status code.
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func NotFound(rw *ResponseWriter, req *Request) {
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rw.WriteHeader(StatusNotFound, "Not found")
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}
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// NotFoundHandler returns a simple handler that responds to each request with
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// the status code NotFound.
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func NotFoundHandler() Handler {
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return HandlerFunc(NotFound)
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}
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// Gone replies to the request with the Gone status code.
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func Gone(rw *ResponseWriter, req *Request) {
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rw.WriteHeader(StatusGone, "Gone")
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}
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// GoneHandler returns a simple handler that responds to each request with
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// the status code Gone.
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func GoneHandler() Handler {
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return HandlerFunc(Gone)
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}
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// CertificateRequired responds to the request with the CertificateRequired
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// status code.
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func CertificateRequired(rw *ResponseWriter, req *Request) {
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rw.WriteHeader(StatusCertificateRequired, "Certificate required")
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}
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// CertificateNotAuthorized responds to the request with
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// the CertificateNotAuthorized status code.
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func CertificateNotAuthorized(rw *ResponseWriter, req *Request) {
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rw.WriteHeader(StatusCertificateNotAuthorized, "Certificate not authorized")
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}
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// WithCertificate either responds with CertificateRequired if the client did
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// not provide a certificate, or calls f with the first ceritificate provided.
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func WithCertificate(rw *ResponseWriter, req *Request, f func(*x509.Certificate)) {
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if len(req.TLS.PeerCertificates) == 0 {
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CertificateRequired(rw, req)
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return
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}
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cert := req.TLS.PeerCertificates[0]
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f(cert)
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}
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// CertificateHandler returns a simple handler that requests a certificate from
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// clients if they did not provide one, and calls f with the first certificate
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// if they did.
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func CertificateHandler(f func(*x509.Certificate)) Handler {
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return HandlerFunc(func(rw *ResponseWriter, req *Request) {
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WithCertificate(rw, req, f)
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})
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}
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// HandlerFunc is a wrapper around a bare function that implements Handler.
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type HandlerFunc func(*ResponseWriter, *Request)
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func (f HandlerFunc) Serve(rw *ResponseWriter, req *Request) {
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f(rw, req)
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}
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// The following code is modified from the net/http package.
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// ServeMux is a Gemini request multiplexer.
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// It matches the URL of each incoming request against a list of registered
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// patterns and calls the handler for the pattern that
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// most closely matches the URL.
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//
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// Patterns name fixed, rooted paths, like "/favicon.ico",
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// or rooted subtrees, like "/images/" (note the trailing slash).
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// Longer patterns take precedence over shorter ones, so that
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// if there are handlers registered for both "/images/"
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// and "/images/thumbnails/", the latter handler will be
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// called for paths beginning "/images/thumbnails/" and the
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// former will receive requests for any other paths in the
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// "/images/" subtree.
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//
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// Note that since a pattern ending in a slash names a rooted subtree,
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// the pattern "/" matches all paths not matched by other registered
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// patterns, not just the URL with Path == "/".
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//
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// If a subtree has been registered and a request is received naming the
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// subtree root without its trailing slash, ServeMux redirects that
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// request to the subtree root (adding the trailing slash). This behavior can
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// be overridden with a separate registration for the path without
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// the trailing slash. For example, registering "/images/" causes ServeMux
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// to redirect a request for "/images" to "/images/", unless "/images" has
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// been registered separately.
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//
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// ServeMux also takes care of sanitizing the URL request path and
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// redirecting any request containing . or .. elements or repeated slashes
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// to an equivalent, cleaner URL.
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type ServeMux struct {
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mu sync.RWMutex
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m map[string]muxEntry
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es []muxEntry // slice of entries sorted from longest to shortest.
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}
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type muxEntry struct {
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h Handler
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pattern string
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}
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// cleanPath returns the canonical path for p, eliminating . and .. elements.
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func cleanPath(p string) string {
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if p == "" {
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return "/"
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}
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if p[0] != '/' {
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p = "/" + p
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}
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np := path.Clean(p)
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// path.Clean removes trailing slash except for root;
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// put the trailing slash back if necessary.
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if p[len(p)-1] == '/' && np != "/" {
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// Fast path for common case of p being the string we want:
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if len(p) == len(np)+1 && strings.HasPrefix(p, np) {
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np = p
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} else {
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np += "/"
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}
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}
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return np
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}
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// Find a handler on a handler map given a path string.
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// Most-specific (longest) pattern wins.
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func (mux *ServeMux) match(path string) (h Handler, pattern string) {
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// Check for exact match first.
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v, ok := mux.m[path]
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if ok {
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return v.h, v.pattern
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}
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// Check for longest valid match. mux.es contains all patterns
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// that end in / sorted from longest to shortest.
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for _, e := range mux.es {
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if strings.HasPrefix(path, e.pattern) {
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return e.h, e.pattern
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}
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}
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return nil, ""
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}
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// redirectToPathSlash determines if the given path needs appending "/" to it.
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// This occurs when a handler for path + "/" was already registered, but
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// not for path itself. If the path needs appending to, it creates a new
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// URL, setting the path to u.Path + "/" and returning true to indicate so.
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func (mux *ServeMux) redirectToPathSlash(path string, u *url.URL) (*url.URL, bool) {
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mux.mu.RLock()
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shouldRedirect := mux.shouldRedirectRLocked(path)
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mux.mu.RUnlock()
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if !shouldRedirect {
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return u, false
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}
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path = path + "/"
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u = &url.URL{Path: path, RawQuery: u.RawQuery}
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return u, true
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}
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// shouldRedirectRLocked reports whether the given path and host should be redirected to
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// path+"/". This should happen if a handler is registered for path+"/" but
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// not path -- see comments at ServeMux.
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func (mux *ServeMux) shouldRedirectRLocked(path string) bool {
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if _, exist := mux.m[path]; exist {
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return false
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}
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n := len(path)
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if n == 0 {
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return false
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}
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if _, exist := mux.m[path+"/"]; exist {
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return path[n-1] != '/'
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}
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return false
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}
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// Handler returns the handler to use for the given request.
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// It consults r.URL.Path. It always returns a non-nil handler.
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// If the path is not in its canonical form, the
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// handler will be an internally-generated handler that redirects
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// to the canonical path. If the host contains a port, it is ignored
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// when matching handlers.
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//
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// Handler also returns the registered pattern that matches the
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// request or, in the case of internally-generated redirects,
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// the pattern that will match after following the redirect.
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//
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// If there is no registered handler that applies to the request,
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// Handler returns a "not found" handler and an empty pattern.
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func (mux *ServeMux) Handler(r *Request) (h Handler, pattern string) {
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path := cleanPath(r.URL.Path)
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// If the given path is /tree and its handler is not registered,
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// redirect for /tree/.
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if u, ok := mux.redirectToPathSlash(path, r.URL); ok {
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return RedirectHandler(u.String()), u.Path
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}
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if path != r.URL.Path {
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_, pattern = mux.handler(path)
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url := *r.URL
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url.Path = path
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return RedirectHandler(url.String()), pattern
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}
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return mux.handler(r.URL.Path)
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}
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// handler is the main implementation of Handler.
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// The path is known to be in canonical form.
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func (mux *ServeMux) handler(path string) (h Handler, pattern string) {
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mux.mu.RLock()
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|
defer mux.mu.RUnlock()
|
|
|
|
h, pattern = mux.match(path)
|
|
if h == nil {
|
|
h, pattern = NotFoundHandler(), ""
|
|
}
|
|
return
|
|
}
|
|
|
|
// Serve dispatches the request to the handler whose
|
|
// pattern most closely matches the request URL.
|
|
func (mux *ServeMux) Serve(w *ResponseWriter, r *Request) {
|
|
h, _ := mux.Handler(r)
|
|
h.Serve(w, r)
|
|
}
|
|
|
|
// Handle registers the handler for the given pattern.
|
|
// If a handler already exists for pattern, Handle panics.
|
|
func (mux *ServeMux) Handle(pattern string, handler Handler) {
|
|
mux.mu.Lock()
|
|
defer mux.mu.Unlock()
|
|
|
|
if pattern == "" {
|
|
panic("gmi: invalid pattern")
|
|
}
|
|
if handler == nil {
|
|
panic("gmi: nil handler")
|
|
}
|
|
if _, exist := mux.m[pattern]; exist {
|
|
panic("gmi: multiple registrations for " + pattern)
|
|
}
|
|
|
|
if mux.m == nil {
|
|
mux.m = make(map[string]muxEntry)
|
|
}
|
|
e := muxEntry{h: handler, pattern: pattern}
|
|
mux.m[pattern] = e
|
|
if pattern[len(pattern)-1] == '/' {
|
|
mux.es = appendSorted(mux.es, e)
|
|
}
|
|
}
|
|
|
|
func appendSorted(es []muxEntry, e muxEntry) []muxEntry {
|
|
n := len(es)
|
|
i := sort.Search(n, func(i int) bool {
|
|
return len(es[i].pattern) < len(e.pattern)
|
|
})
|
|
if i == n {
|
|
return append(es, e)
|
|
}
|
|
// we now know that i points at where we want to insert
|
|
es = append(es, muxEntry{}) // try to grow the slice in place, any entry works.
|
|
copy(es[i+1:], es[i:]) // move shorter entries down
|
|
es[i] = e
|
|
return es
|
|
}
|
|
|
|
// HandleFunc registers the handler function for the given pattern.
|
|
func (mux *ServeMux) HandleFunc(pattern string, handler func(*ResponseWriter, *Request)) {
|
|
if handler == nil {
|
|
panic("gmi: nil handler")
|
|
}
|
|
mux.Handle(pattern, HandlerFunc(handler))
|
|
}
|