mirror of
https://github.com/autc04/Retro68.git
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215 lines
5.2 KiB
Go
215 lines
5.2 KiB
Go
// Copyright 2011 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package http
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import (
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"bytes"
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"encoding/binary"
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)
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// The algorithm uses at most sniffLen bytes to make its decision.
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const sniffLen = 512
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// DetectContentType implements the algorithm described
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// at http://mimesniff.spec.whatwg.org/ to determine the
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// Content-Type of the given data. It considers at most the
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// first 512 bytes of data. DetectContentType always returns
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// a valid MIME type: if it cannot determine a more specific one, it
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// returns "application/octet-stream".
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func DetectContentType(data []byte) string {
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if len(data) > sniffLen {
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data = data[:sniffLen]
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}
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// Index of the first non-whitespace byte in data.
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firstNonWS := 0
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for ; firstNonWS < len(data) && isWS(data[firstNonWS]); firstNonWS++ {
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}
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for _, sig := range sniffSignatures {
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if ct := sig.match(data, firstNonWS); ct != "" {
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return ct
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}
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}
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return "application/octet-stream" // fallback
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}
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func isWS(b byte) bool {
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return bytes.IndexByte([]byte("\t\n\x0C\r "), b) != -1
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}
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type sniffSig interface {
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// match returns the MIME type of the data, or "" if unknown.
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match(data []byte, firstNonWS int) string
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}
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// Data matching the table in section 6.
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var sniffSignatures = []sniffSig{
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htmlSig("<!DOCTYPE HTML"),
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htmlSig("<HTML"),
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htmlSig("<HEAD"),
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htmlSig("<SCRIPT"),
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htmlSig("<IFRAME"),
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htmlSig("<H1"),
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htmlSig("<DIV"),
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htmlSig("<FONT"),
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htmlSig("<TABLE"),
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htmlSig("<A"),
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htmlSig("<STYLE"),
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htmlSig("<TITLE"),
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htmlSig("<B"),
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htmlSig("<BODY"),
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htmlSig("<BR"),
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htmlSig("<P"),
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htmlSig("<!--"),
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&maskedSig{mask: []byte("\xFF\xFF\xFF\xFF\xFF"), pat: []byte("<?xml"), skipWS: true, ct: "text/xml; charset=utf-8"},
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&exactSig{[]byte("%PDF-"), "application/pdf"},
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&exactSig{[]byte("%!PS-Adobe-"), "application/postscript"},
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// UTF BOMs.
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&maskedSig{mask: []byte("\xFF\xFF\x00\x00"), pat: []byte("\xFE\xFF\x00\x00"), ct: "text/plain; charset=utf-16be"},
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&maskedSig{mask: []byte("\xFF\xFF\x00\x00"), pat: []byte("\xFF\xFE\x00\x00"), ct: "text/plain; charset=utf-16le"},
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&maskedSig{mask: []byte("\xFF\xFF\xFF\x00"), pat: []byte("\xEF\xBB\xBF\x00"), ct: "text/plain; charset=utf-8"},
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&exactSig{[]byte("GIF87a"), "image/gif"},
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&exactSig{[]byte("GIF89a"), "image/gif"},
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&exactSig{[]byte("\x89\x50\x4E\x47\x0D\x0A\x1A\x0A"), "image/png"},
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&exactSig{[]byte("\xFF\xD8\xFF"), "image/jpeg"},
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&exactSig{[]byte("BM"), "image/bmp"},
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&maskedSig{
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mask: []byte("\xFF\xFF\xFF\xFF\x00\x00\x00\x00\xFF\xFF\xFF\xFF\xFF\xFF"),
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pat: []byte("RIFF\x00\x00\x00\x00WEBPVP"),
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ct: "image/webp",
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},
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&exactSig{[]byte("\x00\x00\x01\x00"), "image/vnd.microsoft.icon"},
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&exactSig{[]byte("\x4F\x67\x67\x53\x00"), "application/ogg"},
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&maskedSig{
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mask: []byte("\xFF\xFF\xFF\xFF\x00\x00\x00\x00\xFF\xFF\xFF\xFF"),
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pat: []byte("RIFF\x00\x00\x00\x00WAVE"),
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ct: "audio/wave",
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},
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&exactSig{[]byte("\x1A\x45\xDF\xA3"), "video/webm"},
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&exactSig{[]byte("\x52\x61\x72\x20\x1A\x07\x00"), "application/x-rar-compressed"},
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&exactSig{[]byte("\x50\x4B\x03\x04"), "application/zip"},
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&exactSig{[]byte("\x1F\x8B\x08"), "application/x-gzip"},
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// TODO(dsymonds): Re-enable this when the spec is sorted w.r.t. MP4.
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//mp4Sig(0),
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textSig(0), // should be last
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}
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type exactSig struct {
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sig []byte
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ct string
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}
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func (e *exactSig) match(data []byte, firstNonWS int) string {
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if bytes.HasPrefix(data, e.sig) {
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return e.ct
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}
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return ""
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}
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type maskedSig struct {
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mask, pat []byte
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skipWS bool
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ct string
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}
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func (m *maskedSig) match(data []byte, firstNonWS int) string {
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if m.skipWS {
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data = data[firstNonWS:]
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}
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if len(data) < len(m.mask) {
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return ""
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}
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for i, mask := range m.mask {
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db := data[i] & mask
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if db != m.pat[i] {
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return ""
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}
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}
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return m.ct
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}
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type htmlSig []byte
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func (h htmlSig) match(data []byte, firstNonWS int) string {
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data = data[firstNonWS:]
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if len(data) < len(h)+1 {
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return ""
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}
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for i, b := range h {
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db := data[i]
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if 'A' <= b && b <= 'Z' {
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db &= 0xDF
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}
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if b != db {
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return ""
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}
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}
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// Next byte must be space or right angle bracket.
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if db := data[len(h)]; db != ' ' && db != '>' {
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return ""
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}
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return "text/html; charset=utf-8"
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}
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type mp4Sig int
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func (mp4Sig) match(data []byte, firstNonWS int) string {
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// c.f. section 6.1.
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if len(data) < 8 {
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return ""
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}
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boxSize := int(binary.BigEndian.Uint32(data[:4]))
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if boxSize%4 != 0 || len(data) < boxSize {
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return ""
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}
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if !bytes.Equal(data[4:8], []byte("ftyp")) {
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return ""
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}
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for st := 8; st < boxSize; st += 4 {
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if st == 12 {
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// minor version number
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continue
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}
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seg := string(data[st : st+3])
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switch seg {
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case "mp4", "iso", "M4V", "M4P", "M4B":
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return "video/mp4"
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/* The remainder are not in the spec.
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case "M4A":
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return "audio/mp4"
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case "3gp":
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return "video/3gpp"
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case "jp2":
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return "image/jp2" // JPEG 2000
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*/
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}
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}
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return ""
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}
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type textSig int
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func (textSig) match(data []byte, firstNonWS int) string {
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// c.f. section 5, step 4.
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for _, b := range data[firstNonWS:] {
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switch {
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case 0x00 <= b && b <= 0x08,
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b == 0x0B,
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0x0E <= b && b <= 0x1A,
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0x1C <= b && b <= 0x1F:
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return ""
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}
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}
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return "text/plain; charset=utf-8"
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}
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