gomail/export.go

259 lines
6.1 KiB
Go

package gomail
import (
"bytes"
"encoding/base64"
"io"
"mime/multipart"
"net/mail"
"time"
"gopkg.in/alexcesaro/quotedprintable.v1"
)
// Export converts the message into a net/mail.Message.
func (msg *Message) Export() *mail.Message {
w := newMessageWriter(msg)
if msg.hasMixedPart() {
w.openMultipart("mixed")
}
if msg.hasRelatedPart() {
w.openMultipart("related")
}
if msg.hasAlternativePart() {
w.openMultipart("alternative")
}
for _, part := range msg.parts {
h := make(map[string][]string)
h["Content-Type"] = []string{part.contentType + "; charset=" + msg.charset}
h["Content-Transfer-Encoding"] = []string{string(msg.encoding)}
w.write(h, part.body.Bytes(), msg.encoding)
}
if msg.hasAlternativePart() {
w.closeMultipart()
}
w.addFiles(msg.embedded, false)
if msg.hasRelatedPart() {
w.closeMultipart()
}
w.addFiles(msg.attachments, true)
if msg.hasMixedPart() {
w.closeMultipart()
}
return w.export()
}
func (msg *Message) hasMixedPart() bool {
return (len(msg.parts) > 0 && len(msg.attachments) > 0) || len(msg.attachments) > 1
}
func (msg *Message) hasRelatedPart() bool {
return (len(msg.parts) > 0 && len(msg.embedded) > 0) || len(msg.embedded) > 1
}
func (msg *Message) hasAlternativePart() bool {
return len(msg.parts) > 1
}
// messageWriter helps converting the message into a net/mail.Message
type messageWriter struct {
header map[string][]string
buf *bytes.Buffer
writers [3]*multipart.Writer
partWriter io.Writer
depth uint8
}
func newMessageWriter(msg *Message) *messageWriter {
// We copy the header so Export does not modify the message
header := make(map[string][]string, len(msg.header)+2)
for k, v := range msg.header {
header[k] = v
}
if _, ok := header["Mime-Version"]; !ok {
header["Mime-Version"] = []string{"1.0"}
}
if _, ok := header["Date"]; !ok {
header["Date"] = []string{msg.FormatDate(now())}
}
return &messageWriter{header: header, buf: new(bytes.Buffer)}
}
// Stubbed out for testing.
var now = time.Now
func (w *messageWriter) openMultipart(mimeType string) {
w.writers[w.depth] = multipart.NewWriter(w.buf)
contentType := "multipart/" + mimeType + "; boundary=" + w.writers[w.depth].Boundary()
if w.depth == 0 {
w.header["Content-Type"] = []string{contentType}
} else {
h := make(map[string][]string)
h["Content-Type"] = []string{contentType}
w.createPart(h)
}
w.depth++
}
func (w *messageWriter) createPart(h map[string][]string) {
// No need to check the error since the underlying writer is a bytes.Buffer
w.partWriter, _ = w.writers[w.depth-1].CreatePart(h)
}
func (w *messageWriter) closeMultipart() {
if w.depth > 0 {
w.writers[w.depth-1].Close()
w.depth--
}
}
func (w *messageWriter) addFiles(files []*File, isAttachment bool) {
for _, f := range files {
h := make(map[string][]string)
h["Content-Type"] = []string{f.MimeType + "; name=\"" + f.Name + "\""}
h["Content-Transfer-Encoding"] = []string{string(Base64)}
if isAttachment {
h["Content-Disposition"] = []string{"attachment; filename=\"" + f.Name + "\""}
} else {
h["Content-Disposition"] = []string{"inline; filename=\"" + f.Name + "\""}
h["Content-ID"] = []string{"<" + f.Name + ">"}
}
w.write(h, f.Content, Base64)
}
}
func (w *messageWriter) write(h map[string][]string, body []byte, enc Encoding) {
w.writeHeader(h)
w.writeBody(body, enc)
}
func (w *messageWriter) writeHeader(h map[string][]string) {
if w.depth == 0 {
for field, value := range h {
w.header[field] = value
}
} else {
w.createPart(h)
}
}
func (w *messageWriter) writeBody(body []byte, enc Encoding) {
var subWriter io.Writer
if w.depth == 0 {
subWriter = w.buf
} else {
subWriter = w.partWriter
}
// The errors returned by writers are not checked since these writers cannot
// return errors.
if enc == Base64 {
writer := base64.NewEncoder(base64.StdEncoding, newBase64LineWriter(subWriter))
writer.Write(body)
writer.Close()
} else if enc == Unencoded {
subWriter.Write(body)
} else {
writer := quotedprintable.NewEncoder(newQpLineWriter(subWriter))
writer.Write(body)
}
}
func (w *messageWriter) export() *mail.Message {
return &mail.Message{Header: w.header, Body: w.buf}
}
// As required by RFC 2045, 6.7. (page 21) for quoted-printable, and
// RFC 2045, 6.8. (page 25) for base64.
const maxLineLen = 76
// base64LineWriter limits text encoded in base64 to 76 characters per line
type base64LineWriter struct {
w io.Writer
lineLen int
}
func newBase64LineWriter(w io.Writer) *base64LineWriter {
return &base64LineWriter{w: w}
}
func (w *base64LineWriter) Write(p []byte) (int, error) {
n := 0
for len(p)+w.lineLen > maxLineLen {
w.w.Write(p[:maxLineLen-w.lineLen])
w.w.Write([]byte("\r\n"))
p = p[maxLineLen-w.lineLen:]
n += maxLineLen - w.lineLen
w.lineLen = 0
}
w.w.Write(p)
w.lineLen += len(p)
return n + len(p), nil
}
// qpLineWriter limits text encoded in quoted-printable to 76 characters per
// line
type qpLineWriter struct {
w io.Writer
lineLen int
}
func newQpLineWriter(w io.Writer) *qpLineWriter {
return &qpLineWriter{w: w}
}
func (w *qpLineWriter) Write(p []byte) (int, error) {
n := 0
for len(p) > 0 {
// If the text is not over the limit, write everything
if len(p) < maxLineLen-w.lineLen {
w.w.Write(p)
w.lineLen += len(p)
return n + len(p), nil
}
i := bytes.IndexAny(p[:maxLineLen-w.lineLen+2], "\n")
// If there is a newline before the limit, write the end of the line
if i != -1 && (i != maxLineLen-w.lineLen+1 || p[i-1] == '\r') {
w.w.Write(p[:i+1])
p = p[i+1:]
n += i + 1
w.lineLen = 0
continue
}
// Quoted-printable text must not be cut between an equal sign and the
// two following characters
var toWrite int
if maxLineLen-w.lineLen-2 >= 0 && p[maxLineLen-w.lineLen-2] == '=' {
toWrite = maxLineLen - w.lineLen - 2
} else if p[maxLineLen-w.lineLen-1] == '=' {
toWrite = maxLineLen - w.lineLen - 1
} else {
toWrite = maxLineLen - w.lineLen
}
// Insert the newline where it is needed
w.w.Write(p[:toWrite])
w.w.Write([]byte("=\r\n"))
p = p[toWrite:]
n += toWrite
w.lineLen = 0
}
return n, nil
}