// Copyright 2010 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // /* Package multipart implements MIME multipart parsing, as defined in RFC 2046. The implementation is sufficient for HTTP (RFC 2388) and the multipart bodies generated by popular browsers. */ package multipart import ( "bufio" "bytes" "fmt" "io" "io/ioutil" "mime" "mime/quotedprintable" "net/textproto" ) var emptyParams = make(map[string]string) // This constant needs to be at least 76 for this package to work correctly. // This is because \r\n--separator_of_len_70- would fill the buffer and it // wouldn't be safe to consume a single byte from it. const peekBufferSize = 4096 // A Part represents a single part in a multipart body. type Part struct { // The headers of the body, if any, with the keys canonicalized // in the same fashion that the Go http.Request headers are. // For example, "foo-bar" changes case to "Foo-Bar" // // As a special case, if the "Content-Transfer-Encoding" header // has a value of "quoted-printable", that header is instead // hidden from this map and the body is transparently decoded // during Read calls. Header textproto.MIMEHeader mr *Reader disposition string dispositionParams map[string]string // r is either a reader directly reading from mr, or it's a // wrapper around such a reader, decoding the // Content-Transfer-Encoding r io.Reader n int // known data bytes waiting in mr.bufReader total int64 // total data bytes read already err error // error to return when n == 0 readErr error // read error observed from mr.bufReader } // FormName returns the name parameter if p has a Content-Disposition // of type "form-data". Otherwise it returns the empty string. func (p *Part) FormName() string { // See http://tools.ietf.org/html/rfc2183 section 2 for EBNF // of Content-Disposition value format. if p.dispositionParams == nil { p.parseContentDisposition() } if p.disposition != "form-data" { return "" } return p.dispositionParams["name"] } // FileName returns the filename parameter of the Part's // Content-Disposition header. func (p *Part) FileName() string { if p.dispositionParams == nil { p.parseContentDisposition() } return p.dispositionParams["filename"] } func (p *Part) parseContentDisposition() { v := p.Header.Get("Content-Disposition") var err error p.disposition, p.dispositionParams, err = mime.ParseMediaType(v) if err != nil { p.dispositionParams = emptyParams } } // NewReader creates a new multipart Reader reading from r using the // given MIME boundary. // // The boundary is usually obtained from the "boundary" parameter of // the message's "Content-Type" header. Use mime.ParseMediaType to // parse such headers. func NewReader(r io.Reader, boundary string) *Reader { b := []byte("\r\n--" + boundary + "--") return &Reader{ bufReader: bufio.NewReaderSize(&stickyErrorReader{r: r}, peekBufferSize), nl: b[:2], nlDashBoundary: b[:len(b)-2], dashBoundaryDash: b[2:], dashBoundary: b[2 : len(b)-2], } } // stickyErrorReader is an io.Reader which never calls Read on its // underlying Reader once an error has been seen. (the io.Reader // interface's contract promises nothing about the return values of // Read calls after an error, yet this package does do multiple Reads // after error) type stickyErrorReader struct { r io.Reader err error } func (r *stickyErrorReader) Read(p []byte) (n int, _ error) { if r.err != nil { return 0, r.err } n, r.err = r.r.Read(p) return n, r.err } func newPart(mr *Reader) (*Part, error) { bp := &Part{ Header: make(map[string][]string), mr: mr, } if err := bp.populateHeaders(); err != nil { return nil, err } bp.r = partReader{bp} const cte = "Content-Transfer-Encoding" if bp.Header.Get(cte) == "quoted-printable" { bp.Header.Del(cte) bp.r = quotedprintable.NewReader(bp.r) } return bp, nil } func (bp *Part) populateHeaders() error { r := textproto.NewReader(bp.mr.bufReader) header, err := r.ReadMIMEHeader() if err == nil { bp.Header = header } return err } // Read reads the body of a part, after its headers and before the // next part (if any) begins. func (p *Part) Read(d []byte) (n int, err error) { return p.r.Read(d) } // partReader implements io.Reader by reading raw bytes directly from the // wrapped *Part, without doing any Transfer-Encoding decoding. type partReader struct { p *Part } func (pr partReader) Read(d []byte) (int, error) { p := pr.p br := p.mr.bufReader // Read into buffer until we identify some data to return, // or we find a reason to stop (boundary or read error). for p.n == 0 && p.err == nil { peek, _ := br.Peek(br.Buffered()) p.n, p.err = scanUntilBoundary(peek, p.mr.dashBoundary, p.mr.nlDashBoundary, p.total, p.readErr) if p.n == 0 && p.err == nil { // Force buffered I/O to read more into buffer. _, p.readErr = br.Peek(len(peek) + 1) if p.readErr == io.EOF { p.readErr = io.ErrUnexpectedEOF } } } // Read out from "data to return" part of buffer. if p.n == 0 { return 0, p.err } n := len(d) if n > p.n { n = p.n } n, _ = br.Read(d[:n]) p.total += int64(n) p.n -= n if p.n == 0 { return n, p.err } return n, nil } // scanUntilBoundary scans buf to identify how much of it can be safely // returned as part of the Part body. // dashBoundary is "--boundary". // nlDashBoundary is "\r\n--boundary" or "\n--boundary", depending on what mode we are in. // The comments below (and the name) assume "\n--boundary", but either is accepted. // total is the number of bytes read out so far. If total == 0, then a leading "--boundary" is recognized. // readErr is the read error, if any, that followed reading the bytes in buf. // scanUntilBoundary returns the number of data bytes from buf that can be // returned as part of the Part body and also the error to return (if any) // once those data bytes are done. func scanUntilBoundary(buf, dashBoundary, nlDashBoundary []byte, total int64, readErr error) (int, error) { if total == 0 { // At beginning of body, allow dashBoundary. if bytes.HasPrefix(buf, dashBoundary) { switch matchAfterPrefix(buf, dashBoundary, readErr) { case -1: return len(dashBoundary), nil case 0: return 0, nil case +1: return 0, io.EOF } } if bytes.HasPrefix(dashBoundary, buf) { return 0, readErr } } // Search for "\n--boundary". if i := bytes.Index(buf, nlDashBoundary); i >= 0 { switch matchAfterPrefix(buf[i:], nlDashBoundary, readErr) { case -1: return i + len(nlDashBoundary), nil case 0: return i, nil case +1: return i, io.EOF } } if bytes.HasPrefix(nlDashBoundary, buf) { return 0, readErr } // Otherwise, anything up to the final \n is not part of the boundary // and so must be part of the body. // Also if the section from the final \n onward is not a prefix of the boundary, // it too must be part of the body. i := bytes.LastIndexByte(buf, nlDashBoundary[0]) if i >= 0 && bytes.HasPrefix(nlDashBoundary, buf[i:]) { return i, nil } return len(buf), readErr } // matchAfterPrefix checks whether buf should be considered to match the boundary. // The prefix is "--boundary" or "\r\n--boundary" or "\n--boundary", // and the caller has verified already that bytes.HasPrefix(buf, prefix) is true. // // matchAfterPrefix returns +1 if the buffer does match the boundary, // meaning the prefix is followed by a dash, space, tab, cr, nl, or end of input. // It returns -1 if the buffer definitely does NOT match the boundary, // meaning the prefix is followed by some other character. // For example, "--foobar" does not match "--foo". // It returns 0 more input needs to be read to make the decision, // meaning that len(buf) == len(prefix) and readErr == nil. func matchAfterPrefix(buf, prefix []byte, readErr error) int { if len(buf) == len(prefix) { if readErr != nil { return +1 } return 0 } c := buf[len(prefix)] if c == ' ' || c == '\t' || c == '\r' || c == '\n' || c == '-' { return +1 } return -1 } func (p *Part) Close() error { io.Copy(ioutil.Discard, p) return nil } // Reader is an iterator over parts in a MIME multipart body. // Reader's underlying parser consumes its input as needed. Seeking // isn't supported. type Reader struct { bufReader *bufio.Reader currentPart *Part partsRead int nl []byte // "\r\n" or "\n" (set after seeing first boundary line) nlDashBoundary []byte // nl + "--boundary" dashBoundaryDash []byte // "--boundary--" dashBoundary []byte // "--boundary" } // NextPart returns the next part in the multipart or an error. // When there are no more parts, the error io.EOF is returned. func (r *Reader) NextPart() (*Part, error) { if r.currentPart != nil { r.currentPart.Close() } expectNewPart := false for { line, err := r.bufReader.ReadSlice('\n') if err == io.EOF && r.isFinalBoundary(line) { // If the buffer ends in "--boundary--" without the // trailing "\r\n", ReadSlice will return an error // (since it's missing the '\n'), but this is a valid // multipart EOF so we need to return io.EOF instead of // a fmt-wrapped one. return nil, io.EOF } if err != nil { return nil, fmt.Errorf("multipart: NextPart: %v", err) } if r.isBoundaryDelimiterLine(line) { r.partsRead++ bp, err := newPart(r) if err != nil { return nil, err } r.currentPart = bp return bp, nil } if r.isFinalBoundary(line) { // Expected EOF return nil, io.EOF } if expectNewPart { return nil, fmt.Errorf("multipart: expecting a new Part; got line %q", string(line)) } if r.partsRead == 0 { // skip line continue } // Consume the "\n" or "\r\n" separator between the // body of the previous part and the boundary line we // now expect will follow. (either a new part or the // end boundary) if bytes.Equal(line, r.nl) { expectNewPart = true continue } return nil, fmt.Errorf("multipart: unexpected line in Next(): %q", line) } } // isFinalBoundary reports whether line is the final boundary line // indicating that all parts are over. // It matches `^--boundary--[ \t]*(\r\n)?$` func (mr *Reader) isFinalBoundary(line []byte) bool { if !bytes.HasPrefix(line, mr.dashBoundaryDash) { return false } rest := line[len(mr.dashBoundaryDash):] rest = skipLWSPChar(rest) return len(rest) == 0 || bytes.Equal(rest, mr.nl) } func (mr *Reader) isBoundaryDelimiterLine(line []byte) (ret bool) { // http://tools.ietf.org/html/rfc2046#section-5.1 // The boundary delimiter line is then defined as a line // consisting entirely of two hyphen characters ("-", // decimal value 45) followed by the boundary parameter // value from the Content-Type header field, optional linear // whitespace, and a terminating CRLF. if !bytes.HasPrefix(line, mr.dashBoundary) { return false } rest := line[len(mr.dashBoundary):] rest = skipLWSPChar(rest) // On the first part, see our lines are ending in \n instead of \r\n // and switch into that mode if so. This is a violation of the spec, // but occurs in practice. if mr.partsRead == 0 && len(rest) == 1 && rest[0] == '\n' { mr.nl = mr.nl[1:] mr.nlDashBoundary = mr.nlDashBoundary[1:] } return bytes.Equal(rest, mr.nl) } // skipLWSPChar returns b with leading spaces and tabs removed. // RFC 822 defines: // LWSP-char = SPACE / HTAB func skipLWSPChar(b []byte) []byte { for len(b) > 0 && (b[0] == ' ' || b[0] == '\t') { b = b[1:] } return b }