package message // todo: allow more invalid content-type values, we now stop parsing on: empty media type (eg "content-type: ; name=..."), empty value for property (eg "charset=", missing quotes for characters that should be quoted (eg boundary containing "=" but without quotes), duplicate properties (two charsets), empty pairs (eg "text/html;;"). // todo: should we be forgiving when closing boundary in multipart message is missing? seems like spam messages do this... // todo: should we allow base64 messages where a line starts with a space? and possibly more whitespace. is happening in messages. coreutils base64 accepts it, encoding/base64 does not. // todo: handle comments in headers? // todo: should we just always store messages with \n instead of \r\n? \r\n seems easier for use with imap. // todo: can use a cleanup import ( "bufio" "bytes" "encoding/base64" "errors" "fmt" "io" "mime" "mime/quotedprintable" "net/mail" "net/textproto" "strings" "time" "golang.org/x/text/encoding/ianaindex" "github.com/mjl-/mox/mlog" "github.com/mjl-/mox/moxio" "github.com/mjl-/mox/moxvar" "github.com/mjl-/mox/smtp" ) var ( ErrBadContentType = errors.New("bad content-type") ) var ( errNotMultipart = errors.New("not a multipart message") errFirstBoundCloses = errors.New("first boundary cannot be finishing boundary") errLineTooLong = errors.New("line too long") errMissingBoundaryParam = errors.New("missing/empty boundary content-type parameter") errMissingClosingBoundary = errors.New("eof without closing boundary") errBareLF = errors.New("invalid bare line feed") errBareCR = errors.New("invalid bare carriage return") errUnexpectedEOF = errors.New("unexpected eof") ) // If set, during tests, attempts to reparse a part will cause an error, because sequentially reading parts should not lead to reparsing. var enforceSequential bool // Part represents a whole mail message, or a part of a multipart message. It // is designed to handle IMAP requirements efficiently. type Part struct { BoundaryOffset int64 // Offset in message where bound starts. -1 for top-level message. HeaderOffset int64 // Offset in message file where header starts. BodyOffset int64 // Offset in message file where body starts. EndOffset int64 // Where body of part ends. Set when part is fully read. RawLineCount int64 // Number of lines in raw, undecoded, body of part. Set when part is fully read. DecodedSize int64 // Number of octets when decoded. If this is a text mediatype, lines ending only in LF are changed end in CRLF and DecodedSize reflects that. MediaType string // From Content-Type, upper case. E.g. "TEXT". Can be empty because content-type may be absent. In this case, the part may be treated as TEXT/PLAIN. MediaSubType string // From Content-Type, upper case. E.g. "PLAIN". ContentTypeParams map[string]string // E.g. holds "boundary" for multipart messages. Has lower-case keys, and original case values. ContentID string ContentDescription string ContentTransferEncoding string // In upper case. Envelope *Envelope // Email message headers. Not for non-message parts. Parts []Part // Parts if this is a multipart. // Only for message/rfc822 and message/global. This part may have a buffer as // backing io.ReaderAt, because a message/global can have a non-identity // content-transfer-encoding. This part has a nil parent. Message *Part r io.ReaderAt header textproto.MIMEHeader // Parsed header. nextBoundOffset int64 // If >= 0, the offset where the next part header starts. We can set this when a user fully reads each part. lastBoundOffset int64 // Start of header of last/previous part. Used to skip a part if ParseNextPart is called and nextBoundOffset is -1. parent *Part // Parent part, for getting bound from, and setting nextBoundOffset when a part has finished reading. Only for subparts, not top-level parts. bound []byte // Only set if valid multipart with boundary, includes leading --, excludes \r\n. strict bool // If set, valid crlf line endings are verified when reading body. } // todo: have all Content* fields in Part? // todo: make Address contain a type Localpart and dns.Domain? // todo: if we ever make a major change and reparse all parts, switch to lower-case values if not too troublesome. // Envelope holds the basic/common message headers as used in IMAP4. type Envelope struct { Date time.Time Subject string // Q/B-word-decoded. From []Address Sender []Address ReplyTo []Address To []Address CC []Address BCC []Address InReplyTo string MessageID string } // Address as used in From and To headers. type Address struct { Name string // Free-form name for display in mail applications. User string // Localpart. Host string // Domain in ASCII. } // Parse reads the headers of the mail message and returns a part. // A part provides access to decoded and raw contents of a message and its multiple parts. // // If strict is set, fewer attempts are made to continue parsing when errors are // encountered, such as with invalid content-type headers or bare carriage returns. func Parse(log *mlog.Log, strict bool, r io.ReaderAt) (Part, error) { return newPart(log, strict, r, 0, nil) } // EnsurePart parses a part as with Parse, but ensures a usable part is always // returned, even if error is non-nil. If a parse error occurs, the message is // returned as application/octet-stream, and headers can still be read if they // were valid. // // If strict is set, fewer attempts are made to continue parsing when errors are // encountered, such as with invalid content-type headers or bare carriage returns. func EnsurePart(log *mlog.Log, strict bool, r io.ReaderAt, size int64) (Part, error) { p, err := Parse(log, strict, r) if err == nil { err = p.Walk(log, nil) } if err != nil { np, err2 := fallbackPart(p, r, size) if err2 != nil { err = err2 } p = np } return p, err } func fallbackPart(p Part, r io.ReaderAt, size int64) (Part, error) { np := Part{ HeaderOffset: p.HeaderOffset, BodyOffset: p.BodyOffset, EndOffset: size, MediaType: "APPLICATION", MediaSubType: "OCTET-STREAM", ContentTypeParams: p.ContentTypeParams, ContentID: p.ContentID, ContentDescription: p.ContentDescription, ContentTransferEncoding: p.ContentTransferEncoding, Envelope: p.Envelope, // We don't keep: // - BoundaryOffset: irrelevant for top-level message. // - RawLineCount and DecodedSize: set below. // - Parts: we are not treating this as a multipart message. } np.SetReaderAt(r) // By reading body, the number of lines and decoded size will be set. _, err := io.Copy(io.Discard, np.Reader()) return np, err } // SetReaderAt sets r as reader for this part and all its sub parts, recursively. // No reader is set for any Message subpart, see SetMessageReaderAt. func (p *Part) SetReaderAt(r io.ReaderAt) { if r == nil { panic("nil reader") } p.r = r for i := range p.Parts { pp := &p.Parts[i] pp.SetReaderAt(r) } } // SetMessageReaderAt sets a reader on p.Message, which must be non-nil. func (p *Part) SetMessageReaderAt() error { // todo: if p.Message does not contain any non-identity content-transfer-encoding, we should set an offsetReader of p.Message, recursively. buf, err := io.ReadAll(p.Reader()) if err != nil { return err } p.Message.SetReaderAt(bytes.NewReader(buf)) return nil } // Walk through message, decoding along the way, and collecting mime part offsets and sizes, and line counts. func (p *Part) Walk(log *mlog.Log, parent *Part) error { if len(p.bound) == 0 { if p.MediaType == "MESSAGE" && (p.MediaSubType == "RFC822" || p.MediaSubType == "GLOBAL") { // todo: don't read whole submessage in memory... buf, err := io.ReadAll(p.Reader()) if err != nil { return err } br := bytes.NewReader(buf) mp, err := Parse(log, p.strict, br) if err != nil { return fmt.Errorf("parsing embedded message: %w", err) } if err := mp.Walk(log, nil); err != nil { // If this is a DSN and we are not in pedantic mode, accept unexpected end of // message. This is quite common because MTA's sometimes just truncate the original // message in a place that makes the message invalid. if errors.Is(err, errUnexpectedEOF) && !moxvar.Pedantic && parent != nil && len(parent.Parts) >= 3 && p == &parent.Parts[2] && parent.MediaType == "MULTIPART" && parent.MediaSubType == "REPORT" { mp, err = fallbackPart(mp, br, int64(len(buf))) if err != nil { return fmt.Errorf("parsing invalid embedded message: %w", err) } } else { return fmt.Errorf("parsing parts of embedded message: %w", err) } } // todo: if mp does not contain any non-identity content-transfer-encoding, we should set an offsetReader of p.r on mp, recursively. p.Message = &mp return nil } _, err := io.Copy(io.Discard, p.Reader()) return err } for { pp, err := p.ParseNextPart(log) if err == io.EOF { return nil } if err != nil { return err } if err := pp.Walk(log, p); err != nil { return err } } } // String returns a debugging representation of the part. func (p *Part) String() string { return fmt.Sprintf("&Part{%s/%s offsets %d/%d/%d/%d lines %d decodedsize %d next %d last %d bound %q parts %v}", p.MediaType, p.MediaSubType, p.BoundaryOffset, p.HeaderOffset, p.BodyOffset, p.EndOffset, p.RawLineCount, p.DecodedSize, p.nextBoundOffset, p.lastBoundOffset, p.bound, p.Parts) } // newPart parses a new part, which can be the top-level message. // offset is the bound offset for parts, and the start of message for top-level messages. parent indicates if this is a top-level message or sub-part. // If an error occurs, p's exported values can still be relevant. EnsurePart uses these values. func newPart(log *mlog.Log, strict bool, r io.ReaderAt, offset int64, parent *Part) (p Part, rerr error) { if r == nil { panic("nil reader") } p = Part{ BoundaryOffset: -1, EndOffset: -1, r: r, parent: parent, strict: strict, } b := &bufAt{strict: strict, r: r, offset: offset} if parent != nil { p.BoundaryOffset = offset if line, _, err := b.ReadLine(true); err != nil { return p, err } else if match, finish := checkBound(line, parent.bound); !match { return p, fmt.Errorf("missing bound") } else if finish { return p, fmt.Errorf("new part for closing boundary") } } // Collect header. p.HeaderOffset = b.offset p.BodyOffset = b.offset hb := &bytes.Buffer{} for { line, _, err := b.ReadLine(true) if err == io.EOF { // No body is valid. break } if err != nil { return p, fmt.Errorf("reading header line: %w", err) } hb.Write(line) if len(line) == 2 { break // crlf } } p.BodyOffset = b.offset // Don't attempt to parse empty header, mail.ReadMessage doesn't like it. if p.HeaderOffset == p.BodyOffset { p.header = textproto.MIMEHeader{} } else { h, err := parseHeader(hb) if err != nil { return p, fmt.Errorf("parsing header: %w", err) } p.header = h } ct := p.header.Get("Content-Type") mt, params, err := mime.ParseMediaType(ct) if err != nil && ct != "" { if moxvar.Pedantic || strict { return p, fmt.Errorf("%w: %s: %q", ErrBadContentType, err, ct) } // Try parsing just a content-type, ignoring parameters. // ../rfc/2045:628 ct = strings.TrimSpace(strings.SplitN(ct, ";", 2)[0]) t := strings.SplitN(ct, "/", 2) isToken := func(s string) bool { const separators = `()<>@,;:\\"/[]?= ` // ../rfc/2045:663 for _, c := range s { if c < 0x20 || c >= 0x80 || strings.ContainsRune(separators, c) { return false } } return len(s) > 0 } // We cannot recover content-type of multipart, we won't have a boundary. if len(t) == 2 && isToken(t[0]) && !strings.EqualFold(t[0], "multipart") && isToken(t[1]) { p.MediaType = strings.ToUpper(t[0]) p.MediaSubType = strings.ToUpper(t[1]) } else { p.MediaType = "APPLICATION" p.MediaSubType = "OCTET-STREAM" } log.Debugx("malformed content-type, attempting to recover and continuing", err, mlog.Field("contenttype", p.header.Get("Content-Type")), mlog.Field("mediatype", p.MediaType), mlog.Field("mediasubtype", p.MediaSubType)) } else if mt != "" { t := strings.SplitN(strings.ToUpper(mt), "/", 2) if len(t) != 2 { if moxvar.Pedantic || strict { return p, fmt.Errorf("bad content-type: %q (content-type %q)", mt, ct) } log.Debug("malformed media-type, ignoring and continuing", mlog.Field("type", mt)) p.MediaType = "APPLICATION" p.MediaSubType = "OCTET-STREAM" } else { p.MediaType = t[0] p.MediaSubType = t[1] p.ContentTypeParams = params } } p.ContentID = p.header.Get("Content-Id") p.ContentDescription = p.header.Get("Content-Description") p.ContentTransferEncoding = strings.ToUpper(p.header.Get("Content-Transfer-Encoding")) if parent == nil { p.Envelope, err = parseEnvelope(log, mail.Header(p.header)) if err != nil { return p, err } } if p.MediaType == "MULTIPART" { s := params["boundary"] if s == "" { return p, errMissingBoundaryParam } p.bound = append([]byte("--"), s...) // Discard preamble, before first boundary. for { line, _, err := b.PeekLine(true) if err != nil { return p, fmt.Errorf("parsing line for part preamble: %w", err) } // Line only needs boundary prefix, not exact match. ../rfc/2046:1103 // Well, for compatibility, we require whitespace after the boundary. Because some // software use the same boundary but with text appended for sub parts. if match, finish := checkBound(line, p.bound); match { if finish { return p, errFirstBoundCloses } break } b.ReadLine(true) } p.nextBoundOffset = b.offset p.lastBoundOffset = b.offset } return p, nil } // Header returns the parsed header of this part. func (p *Part) Header() (textproto.MIMEHeader, error) { if p.header != nil { return p.header, nil } if p.HeaderOffset == p.BodyOffset { p.header = textproto.MIMEHeader{} return p.header, nil } h, err := parseHeader(p.HeaderReader()) p.header = h return h, err } // HeaderReader returns a reader for the header section of this part, including ending bare CRLF. func (p *Part) HeaderReader() io.Reader { return io.NewSectionReader(p.r, p.HeaderOffset, p.BodyOffset-p.HeaderOffset) } // parse a header, only call this on non-empty input (even though that is a valid header). func parseHeader(r io.Reader) (textproto.MIMEHeader, error) { // We read using mail.ReadMessage instead of textproto.ReadMIMEHeaders because the // first handles email messages properly, while the second only works for HTTP // headers. var zero textproto.MIMEHeader // We read the header and add the optional \r\n header/body separator. If the \r\n // is missing, parsing with Go <1.21 results in an EOF error. // todo: directly parse from reader r when Go 1.20 is no longer supported. buf, err := io.ReadAll(r) if err != nil { return zero, err } if bytes.HasSuffix(buf, []byte("\r\n")) && !bytes.HasSuffix(buf, []byte("\r\n\r\n")) { buf = append(buf, "\r\n"...) } msg, err := mail.ReadMessage(bytes.NewReader(buf)) if err != nil { return zero, err } return textproto.MIMEHeader(msg.Header), nil } var wordDecoder = mime.WordDecoder{ CharsetReader: func(charset string, r io.Reader) (io.Reader, error) { switch strings.ToLower(charset) { case "", "us-ascii", "utf-8": return r, nil } enc, _ := ianaindex.MIME.Encoding(charset) if enc == nil { enc, _ = ianaindex.IANA.Encoding(charset) } if enc == nil { return r, fmt.Errorf("unknown charset %q", charset) } return enc.NewDecoder().Reader(r), nil }, } func parseEnvelope(log *mlog.Log, h mail.Header) (*Envelope, error) { date, _ := h.Date() // We currently marshal this field to JSON. But JSON cannot represent all // time.Time. Time zone of 24:00 was seen in the wild. We won't try for extreme // years, but we can readjust timezones. // todo: remove this once we no longer store using json. _, offset := date.Zone() if date.Year() > 9999 { date = time.Time{} } else if offset <= -24*3600 || offset >= 24*3600 { date = time.Unix(date.Unix(), 0).UTC() } subject := h.Get("Subject") if s, err := wordDecoder.DecodeHeader(subject); err == nil { subject = s } env := &Envelope{ date, subject, parseAddressList(log, h, "from"), parseAddressList(log, h, "sender"), parseAddressList(log, h, "reply-to"), parseAddressList(log, h, "to"), parseAddressList(log, h, "cc"), parseAddressList(log, h, "bcc"), h.Get("In-Reply-To"), h.Get("Message-Id"), } return env, nil } func parseAddressList(log *mlog.Log, h mail.Header, k string) []Address { // todo: possibly work around ios mail generating incorrect q-encoded "phrases" with unencoded double quotes? ../rfc/2047:382 l, err := h.AddressList(k) if err != nil { return nil } var r []Address for _, a := range l { // todo: parse more fully according to ../rfc/5322:959 var user, host string addr, err := smtp.ParseAddress(a.Address) if err != nil { // todo: pass a ctx to this function so we can log with cid. log.Infox("parsing address (continuing)", err, mlog.Field("address", a.Address)) } else { user = addr.Localpart.String() host = addr.Domain.ASCII } r = append(r, Address{a.Name, user, host}) } return r } // ParseNextPart parses the next (sub)part of this multipart message. // ParseNextPart returns io.EOF and a nil part when there are no more parts. // Only used for initial parsing of message. Once parsed, use p.Parts. func (p *Part) ParseNextPart(log *mlog.Log) (*Part, error) { if len(p.bound) == 0 { return nil, errNotMultipart } if p.nextBoundOffset == -1 { if enforceSequential { panic("access not sequential") } // Set nextBoundOffset by fully reading the last part. last, err := newPart(log, p.strict, p.r, p.lastBoundOffset, p) if err != nil { return nil, err } if _, err := io.Copy(io.Discard, last.RawReader()); err != nil { return nil, err } if p.nextBoundOffset == -1 { return nil, fmt.Errorf("internal error: reading part did not set nextBoundOffset") } } b := &bufAt{strict: p.strict, r: p.r, offset: p.nextBoundOffset} // todo: should we require a crlf on final closing bound? we don't require it because some message/rfc822 don't have a crlf after their closing boundary, so those messages don't end in crlf. line, crlf, err := b.ReadLine(false) if err != nil { return nil, err } if match, finish := checkBound(line, p.bound); !match { return nil, fmt.Errorf("expected bound, got %q", line) } else if finish { // Read any trailing data. if p.parent != nil { for { line, _, err := b.PeekLine(false) if err != nil { break } if match, _ := checkBound(line, p.parent.bound); match { break } b.ReadLine(false) } if p.parent.lastBoundOffset == p.BoundaryOffset { p.parent.nextBoundOffset = b.offset } } p.EndOffset = b.offset return nil, io.EOF } else if !crlf { return nil, fmt.Errorf("non-finishing bound without crlf: %w", errUnexpectedEOF) } boundOffset := p.nextBoundOffset p.lastBoundOffset = boundOffset p.nextBoundOffset = -1 np, err := newPart(log, p.strict, p.r, boundOffset, p) if err != nil { return nil, err } p.Parts = append(p.Parts, np) return &p.Parts[len(p.Parts)-1], nil } // Reader returns a reader for the decoded body content. func (p *Part) Reader() io.Reader { return p.bodyReader(p.RawReader()) } // ReaderUTF8OrBinary returns a reader for the decode body content, transformed to // utf-8 for known mime/iana encodings (only if they aren't us-ascii or utf-8 // already). For unknown or missing character sets/encodings, the original reader // is returned. func (p *Part) ReaderUTF8OrBinary() io.Reader { return moxio.DecodeReader(p.ContentTypeParams["charset"], p.Reader()) } func (p *Part) bodyReader(r io.Reader) io.Reader { r = newDecoder(p.ContentTransferEncoding, r) if p.MediaType == "TEXT" { return &textReader{p, bufio.NewReader(r), 0, false} } return &countReader{p, r, 0} } // countReader is an io.Reader that passes Reads to the underlying reader. // when eof is read, it sets p.DecodedSize to the number of bytes returned. type countReader struct { p *Part r io.Reader count int64 } func (cr *countReader) Read(buf []byte) (int, error) { n, err := cr.r.Read(buf) if n >= 0 { cr.count += int64(n) } if err == io.EOF { cr.p.DecodedSize = cr.count } return n, err } // textReader is an io.Reader that ensures all lines return end in CRLF. // when eof is read from the underlying reader, it sets p.DecodedSize. type textReader struct { p *Part r *bufio.Reader count int64 prevcr bool // If previous byte returned was a CR. } func (tr *textReader) Read(buf []byte) (int, error) { o := 0 for o < len(buf) { c, err := tr.r.ReadByte() if err != nil { tr.count += int64(o) tr.p.DecodedSize = tr.count return o, err } if c == '\n' && !tr.prevcr { buf[o] = '\r' o++ tr.prevcr = true tr.r.UnreadByte() continue } buf[o] = c tr.prevcr = c == '\r' o++ } tr.count += int64(o) return o, nil } func newDecoder(cte string, r io.Reader) io.Reader { // ../rfc/2045:775 switch cte { case "BASE64": return base64.NewDecoder(base64.StdEncoding, r) case "QUOTED-PRINTABLE": return quotedprintable.NewReader(r) } return r } // RawReader returns a reader for the raw, undecoded body content. E.g. with // quoted-printable or base64 content intact. // Fully reading a part helps its parent part find its next part efficiently. func (p *Part) RawReader() io.Reader { if p.r == nil { panic("missing reader") } if p.EndOffset >= 0 { return &crlfReader{strict: p.strict, r: io.NewSectionReader(p.r, p.BodyOffset, p.EndOffset-p.BodyOffset)} } p.RawLineCount = 0 if p.parent == nil { return &offsetReader{p, p.BodyOffset, p.strict, true, false, 0} } return &boundReader{p: p, b: &bufAt{strict: p.strict, r: p.r, offset: p.BodyOffset}, prevlf: true} } // crlfReader verifies there are no bare newlines and optionally no bare carriage returns. type crlfReader struct { r io.Reader strict bool prevcr bool } func (r *crlfReader) Read(buf []byte) (int, error) { n, err := r.r.Read(buf) if err == nil || err == io.EOF { for _, b := range buf[:n] { if b == '\n' && !r.prevcr { err = errBareLF break } else if b != '\n' && r.prevcr && (r.strict || moxvar.Pedantic) { err = errBareCR break } r.prevcr = b == '\r' } } return n, err } // bufAt is a buffered reader on an underlying ReaderAt. // bufAt verifies that lines end with crlf. type bufAt struct { offset int64 // Offset in r currently consumed, i.e. not including any buffered data. strict bool r io.ReaderAt buf []byte // Buffered data. nbuf int // Valid bytes in buf. scratch []byte } // Messages should not have lines longer than 78+2 bytes, and must not have // lines longer than 998+2 bytes. But in practice they have longer lines. We // have a higher limit, but for when parsing with strict we check for the 1000 // bytes limit. // ../rfc/5321:3512 const maxLineLength = 8 * 1024 func (b *bufAt) maxLineLength() int { if b.strict || moxvar.Pedantic { return 1000 } return maxLineLength } // ensure makes sure b.nbuf is up to maxLineLength, unless eof is encountered. func (b *bufAt) ensure() error { for _, c := range b.buf[:b.nbuf] { if c == '\n' { return nil } } if b.scratch == nil { b.scratch = make([]byte, b.maxLineLength()) } if b.buf == nil { b.buf = make([]byte, b.maxLineLength()) } for b.nbuf < b.maxLineLength() { n, err := b.r.ReadAt(b.buf[b.nbuf:], b.offset+int64(b.nbuf)) if n > 0 { b.nbuf += n } if err != nil && err != io.EOF || err == io.EOF && b.nbuf+n == 0 { return err } if n == 0 || err == io.EOF { break } } return nil } // ReadLine reads a line until \r\n is found, returning the line including \r\n. // If not found, or a bare \n is encountered, or a bare \r is enountered in pedantic mode, ReadLine returns an error. func (b *bufAt) ReadLine(requirecrlf bool) (buf []byte, crlf bool, err error) { return b.line(true, requirecrlf) } func (b *bufAt) PeekLine(requirecrlf bool) (buf []byte, crlf bool, err error) { return b.line(false, requirecrlf) } func (b *bufAt) line(consume, requirecrlf bool) (buf []byte, crlf bool, err error) { if err := b.ensure(); err != nil { return nil, false, err } for i, c := range b.buf[:b.nbuf] { if c == '\n' { // Should have seen a \r, which should have been handled below. return nil, false, errBareLF } if c != '\r' { continue } i++ if i >= b.nbuf || b.buf[i] != '\n' { if b.strict || moxvar.Pedantic { return nil, false, errBareCR } continue } b.scratch = b.scratch[:i+1] copy(b.scratch, b.buf[:i+1]) if consume { copy(b.buf, b.buf[i+1:]) b.offset += int64(i + 1) b.nbuf -= i + 1 } return b.scratch, true, nil } if b.nbuf >= b.maxLineLength() { return nil, false, errLineTooLong } if requirecrlf { return nil, false, errUnexpectedEOF } b.scratch = b.scratch[:b.nbuf] copy(b.scratch, b.buf[:b.nbuf]) if consume { b.offset += int64(b.nbuf) b.nbuf = 0 } return b.scratch, false, nil } // PeekByte returns the next unread byte, or an error. func (b *bufAt) PeekByte() (byte, error) { if err := b.ensure(); err != nil { return 0, err } if b.nbuf == 0 { return 0, io.EOF } return b.buf[0], nil } // offsetReader reads from p.r starting from offset, and RawLineCount on p. // offsetReader validates lines end with \r\n. type offsetReader struct { p *Part offset int64 strict bool prevlf bool prevcr bool linelength int } func (r *offsetReader) Read(buf []byte) (int, error) { n, err := r.p.r.ReadAt(buf, r.offset) if n > 0 { r.offset += int64(n) max := maxLineLength if r.strict || moxvar.Pedantic { max = 1000 } for _, c := range buf[:n] { if r.prevlf { r.p.RawLineCount++ } if err == nil || err == io.EOF { if c == '\n' && !r.prevcr { err = errBareLF } else if c != '\n' && r.prevcr && (r.strict || moxvar.Pedantic) { err = errBareCR } } r.prevlf = c == '\n' r.prevcr = c == '\r' r.linelength++ if c == '\n' { r.linelength = 0 } else if r.linelength > max && err == nil { err = errLineTooLong } } } if err == io.EOF { r.p.EndOffset = r.offset } return n, err } var crlf = []byte("\r\n") // boundReader is a reader that stops at a closing multipart boundary. // boundReader ensures lines end with crlf through its use of bufAt. type boundReader struct { p *Part b *bufAt buf []byte // Data from previous line, to be served first. nbuf int // Number of valid bytes in buf. crlf []byte // Possible crlf, to be returned if we do not yet encounter a boundary. prevlf bool // If last char returned was a newline. For counting lines. } func (b *boundReader) Read(buf []byte) (count int, rerr error) { origBuf := buf defer func() { if count > 0 { for _, c := range origBuf[:count] { if b.prevlf { b.p.RawLineCount++ } b.prevlf = c == '\n' } } }() for { // Read data from earlier line. if b.nbuf > 0 { n := b.nbuf if n > len(buf) { n = len(buf) } copy(buf, b.buf[:n]) copy(b.buf, b.buf[n:]) buf = buf[n:] b.nbuf -= n count += n if b.nbuf > 0 { break } } // Look at next line. If it is a boundary, we are done and won't serve the crlf from the last line. line, _, err := b.b.PeekLine(false) if match, _ := checkBound(line, b.p.parent.bound); match { b.p.EndOffset = b.b.offset - int64(len(b.crlf)) if b.p.parent.lastBoundOffset == b.p.BoundaryOffset { b.p.parent.nextBoundOffset = b.b.offset } else if enforceSequential { panic("access not sequential") } return count, io.EOF } if err == io.EOF { err = errMissingClosingBoundary } if err != nil && err != io.EOF { return count, err } if len(b.crlf) > 0 { n := len(b.crlf) if n > len(buf) { n = len(buf) } copy(buf, b.crlf[:n]) count += n buf = buf[n:] b.crlf = b.crlf[n:] } if len(buf) == 0 { break } line, _, err = b.b.ReadLine(true) if err != nil { // Could be an unexpected end of the part. return 0, err } b.crlf = crlf // crlf will be read next time, but not if a boundary follows. n := len(line) - 2 line = line[:n] if n > len(buf) { n = len(buf) } copy(buf, line[:n]) count += n buf = buf[n:] line = line[n:] if len(line) > 0 { if b.buf == nil { b.buf = make([]byte, b.b.maxLineLength()) } copy(b.buf, line) b.nbuf = len(line) } } return count, nil } func checkBound(line, bound []byte) (bool, bool) { if !bytes.HasPrefix(line, bound) { return false, false } line = line[len(bound):] if bytes.HasPrefix(line, []byte("--")) { return true, true } if len(line) == 0 { return true, false } c := line[0] switch c { case ' ', '\t', '\r', '\n': return true, false } return false, false }