mirror of
https://github.com/autc04/Retro68.git
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435 lines
10 KiB
Go
435 lines
10 KiB
Go
// Copyright 2015 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 mime
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import (
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"bytes"
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"encoding/base64"
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"errors"
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"fmt"
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"io"
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"strings"
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"sync"
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"unicode"
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"unicode/utf8"
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)
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// A WordEncoder is a RFC 2047 encoded-word encoder.
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type WordEncoder byte
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const (
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// BEncoding represents Base64 encoding scheme as defined by RFC 2045.
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BEncoding = WordEncoder('b')
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// QEncoding represents the Q-encoding scheme as defined by RFC 2047.
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QEncoding = WordEncoder('q')
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)
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var (
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errInvalidWord = errors.New("mime: invalid RFC 2047 encoded-word")
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)
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// Encode returns the encoded-word form of s. If s is ASCII without special
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// characters, it is returned unchanged. The provided charset is the IANA
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// charset name of s. It is case insensitive.
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func (e WordEncoder) Encode(charset, s string) string {
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if !needsEncoding(s) {
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return s
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}
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return e.encodeWord(charset, s)
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}
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func needsEncoding(s string) bool {
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for _, b := range s {
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if (b < ' ' || b > '~') && b != '\t' {
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return true
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}
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}
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return false
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}
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// encodeWord encodes a string into an encoded-word.
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func (e WordEncoder) encodeWord(charset, s string) string {
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buf := getBuffer()
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defer putBuffer(buf)
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e.openWord(buf, charset)
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if e == BEncoding {
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e.bEncode(buf, charset, s)
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} else {
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e.qEncode(buf, charset, s)
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}
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closeWord(buf)
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return buf.String()
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}
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const (
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// The maximum length of an encoded-word is 75 characters.
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// See RFC 2047, section 2.
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maxEncodedWordLen = 75
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// maxContentLen is how much content can be encoded, ignoring the header and
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// 2-byte footer.
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maxContentLen = maxEncodedWordLen - len("=?UTF-8?") - len("?=")
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)
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var maxBase64Len = base64.StdEncoding.DecodedLen(maxContentLen)
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// bEncode encodes s using base64 encoding and writes it to buf.
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func (e WordEncoder) bEncode(buf *bytes.Buffer, charset, s string) {
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w := base64.NewEncoder(base64.StdEncoding, buf)
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// If the charset is not UTF-8 or if the content is short, do not bother
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// splitting the encoded-word.
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if !isUTF8(charset) || base64.StdEncoding.EncodedLen(len(s)) <= maxContentLen {
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io.WriteString(w, s)
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w.Close()
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return
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}
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var currentLen, last, runeLen int
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for i := 0; i < len(s); i += runeLen {
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// Multi-byte characters must not be split accross encoded-words.
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// See RFC 2047, section 5.3.
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_, runeLen = utf8.DecodeRuneInString(s[i:])
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if currentLen+runeLen <= maxBase64Len {
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currentLen += runeLen
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} else {
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io.WriteString(w, s[last:i])
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w.Close()
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e.splitWord(buf, charset)
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last = i
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currentLen = runeLen
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}
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}
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io.WriteString(w, s[last:])
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w.Close()
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}
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// qEncode encodes s using Q encoding and writes it to buf. It splits the
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// encoded-words when necessary.
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func (e WordEncoder) qEncode(buf *bytes.Buffer, charset, s string) {
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// We only split encoded-words when the charset is UTF-8.
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if !isUTF8(charset) {
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writeQString(buf, s)
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return
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}
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var currentLen, runeLen int
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for i := 0; i < len(s); i += runeLen {
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b := s[i]
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// Multi-byte characters must not be split accross encoded-words.
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// See RFC 2047, section 5.3.
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var encLen int
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if b >= ' ' && b <= '~' && b != '=' && b != '?' && b != '_' {
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runeLen, encLen = 1, 1
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} else {
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_, runeLen = utf8.DecodeRuneInString(s[i:])
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encLen = 3 * runeLen
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}
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if currentLen+encLen > maxContentLen {
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e.splitWord(buf, charset)
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currentLen = 0
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}
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writeQString(buf, s[i:i+runeLen])
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currentLen += encLen
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}
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}
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// writeQString encodes s using Q encoding and writes it to buf.
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func writeQString(buf *bytes.Buffer, s string) {
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for i := 0; i < len(s); i++ {
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switch b := s[i]; {
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case b == ' ':
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buf.WriteByte('_')
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case b >= '!' && b <= '~' && b != '=' && b != '?' && b != '_':
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buf.WriteByte(b)
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default:
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buf.WriteByte('=')
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buf.WriteByte(upperhex[b>>4])
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buf.WriteByte(upperhex[b&0x0f])
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}
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}
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}
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// openWord writes the beginning of an encoded-word into buf.
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func (e WordEncoder) openWord(buf *bytes.Buffer, charset string) {
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buf.WriteString("=?")
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buf.WriteString(charset)
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buf.WriteByte('?')
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buf.WriteByte(byte(e))
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buf.WriteByte('?')
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}
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// closeWord writes the end of an encoded-word into buf.
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func closeWord(buf *bytes.Buffer) {
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buf.WriteString("?=")
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}
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// splitWord closes the current encoded-word and opens a new one.
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func (e WordEncoder) splitWord(buf *bytes.Buffer, charset string) {
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closeWord(buf)
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buf.WriteByte(' ')
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e.openWord(buf, charset)
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}
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func isUTF8(charset string) bool {
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return strings.EqualFold(charset, "UTF-8")
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}
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const upperhex = "0123456789ABCDEF"
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// A WordDecoder decodes MIME headers containing RFC 2047 encoded-words.
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type WordDecoder struct {
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// CharsetReader, if non-nil, defines a function to generate
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// charset-conversion readers, converting from the provided
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// charset into UTF-8.
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// Charsets are always lower-case. utf-8, iso-8859-1 and us-ascii charsets
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// are handled by default.
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// One of the the CharsetReader's result values must be non-nil.
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CharsetReader func(charset string, input io.Reader) (io.Reader, error)
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}
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// Decode decodes an RFC 2047 encoded-word.
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func (d *WordDecoder) Decode(word string) (string, error) {
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if !strings.HasPrefix(word, "=?") || !strings.HasSuffix(word, "?=") || strings.Count(word, "?") != 4 {
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return "", errInvalidWord
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}
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word = word[2 : len(word)-2]
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// split delimits the first 2 fields
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split := strings.IndexByte(word, '?')
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// the field after split must only be one byte
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if word[split+2] != '?' {
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return "", errInvalidWord
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}
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// split word "UTF-8?q?ascii" into "UTF-8", 'q', and "ascii"
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charset := word[:split]
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encoding := word[split+1]
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text := word[split+3:]
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content, err := decode(encoding, text)
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if err != nil {
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return "", err
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}
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buf := getBuffer()
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defer putBuffer(buf)
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if err := d.convert(buf, charset, content); err != nil {
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return "", err
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}
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return buf.String(), nil
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}
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// DecodeHeader decodes all encoded-words of the given string. It returns an
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// error if and only if CharsetReader of d returns an error.
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func (d *WordDecoder) DecodeHeader(header string) (string, error) {
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// If there is no encoded-word, returns before creating a buffer.
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i := strings.Index(header, "=?")
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if i == -1 {
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return header, nil
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}
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buf := getBuffer()
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defer putBuffer(buf)
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buf.WriteString(header[:i])
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header = header[i:]
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betweenWords := false
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for {
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start := strings.Index(header, "=?")
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if start == -1 {
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break
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}
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cur := start + len("=?")
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i := strings.Index(header[cur:], "?")
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if i == -1 {
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break
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}
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charset := header[cur : cur+i]
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cur += i + len("?")
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if len(header) < cur+len("Q??=") {
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break
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}
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encoding := header[cur]
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cur++
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if header[cur] != '?' {
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break
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}
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cur++
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j := strings.Index(header[cur:], "?=")
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if j == -1 {
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break
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}
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text := header[cur : cur+j]
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end := cur + j + len("?=")
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content, err := decode(encoding, text)
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if err != nil {
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betweenWords = false
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buf.WriteString(header[:start+2])
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header = header[start+2:]
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continue
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}
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// Write characters before the encoded-word. White-space and newline
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// characters separating two encoded-words must be deleted.
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if start > 0 && (!betweenWords || hasNonWhitespace(header[:start])) {
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buf.WriteString(header[:start])
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}
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if err := d.convert(buf, charset, content); err != nil {
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return "", err
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}
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header = header[end:]
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betweenWords = true
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}
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if len(header) > 0 {
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buf.WriteString(header)
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}
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return buf.String(), nil
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}
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func decode(encoding byte, text string) ([]byte, error) {
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switch encoding {
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case 'B', 'b':
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return base64.StdEncoding.DecodeString(text)
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case 'Q', 'q':
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return qDecode(text)
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default:
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return nil, errInvalidWord
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}
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}
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func (d *WordDecoder) convert(buf *bytes.Buffer, charset string, content []byte) error {
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switch {
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case strings.EqualFold("utf-8", charset):
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buf.Write(content)
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case strings.EqualFold("iso-8859-1", charset):
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for _, c := range content {
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buf.WriteRune(rune(c))
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}
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case strings.EqualFold("us-ascii", charset):
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for _, c := range content {
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if c >= utf8.RuneSelf {
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buf.WriteRune(unicode.ReplacementChar)
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} else {
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buf.WriteByte(c)
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}
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}
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default:
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if d.CharsetReader == nil {
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return fmt.Errorf("mime: unhandled charset %q", charset)
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}
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r, err := d.CharsetReader(strings.ToLower(charset), bytes.NewReader(content))
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if err != nil {
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return err
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}
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if _, err = buf.ReadFrom(r); err != nil {
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return err
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}
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}
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return nil
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}
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// hasNonWhitespace reports whether s (assumed to be ASCII) contains at least
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// one byte of non-whitespace.
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func hasNonWhitespace(s string) bool {
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for _, b := range s {
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switch b {
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// Encoded-words can only be separated by linear white spaces which does
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// not include vertical tabs (\v).
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case ' ', '\t', '\n', '\r':
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default:
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return true
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}
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}
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return false
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}
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// qDecode decodes a Q encoded string.
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func qDecode(s string) ([]byte, error) {
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dec := make([]byte, len(s))
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n := 0
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for i := 0; i < len(s); i++ {
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switch c := s[i]; {
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case c == '_':
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dec[n] = ' '
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case c == '=':
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if i+2 >= len(s) {
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return nil, errInvalidWord
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}
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b, err := readHexByte(s[i+1], s[i+2])
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if err != nil {
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return nil, err
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}
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dec[n] = b
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i += 2
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case (c <= '~' && c >= ' ') || c == '\n' || c == '\r' || c == '\t':
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dec[n] = c
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default:
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return nil, errInvalidWord
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}
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n++
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}
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return dec[:n], nil
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}
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// readHexByte returns the byte from its quoted-printable representation.
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func readHexByte(a, b byte) (byte, error) {
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var hb, lb byte
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var err error
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if hb, err = fromHex(a); err != nil {
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return 0, err
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}
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if lb, err = fromHex(b); err != nil {
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return 0, err
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}
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return hb<<4 | lb, nil
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}
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func fromHex(b byte) (byte, error) {
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switch {
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case b >= '0' && b <= '9':
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return b - '0', nil
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case b >= 'A' && b <= 'F':
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return b - 'A' + 10, nil
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// Accept badly encoded bytes.
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case b >= 'a' && b <= 'f':
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return b - 'a' + 10, nil
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}
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return 0, fmt.Errorf("mime: invalid hex byte %#02x", b)
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}
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var bufPool = sync.Pool{
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New: func() interface{} {
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return new(bytes.Buffer)
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},
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}
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func getBuffer() *bytes.Buffer {
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return bufPool.Get().(*bytes.Buffer)
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}
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func putBuffer(buf *bytes.Buffer) {
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if buf.Len() > 1024 {
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return
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}
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buf.Reset()
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bufPool.Put(buf)
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}
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