// SPDX-FileCopyrightText: 2022-2023 The go-mail Authors // // SPDX-License-Identifier: MIT package mail import ( "bytes" "encoding/base64" "fmt" "io" "mime" "mime/multipart" "mime/quotedprintable" "net/textproto" "path/filepath" "sort" "strings" ) const ( // MaxHeaderLength defines the maximum line length for a mail header. // // This constant follows the recommendation of RFC 2047, which suggests a maximum length of 76 characters. // // References: // - https://datatracker.ietf.org/doc/html/rfc2047 MaxHeaderLength = 76 // MaxBodyLength defines the maximum line length for the mail body. // // This constant follows the recommendation of RFC 2047, which suggests a maximum length of 76 characters. // // References: // - https://datatracker.ietf.org/doc/html/rfc2047 MaxBodyLength = 76 // SingleNewLine represents a single newline character sequence ("\r\n"). // // This constant can be used by the msgWriter to issue a carriage return when writing mail content. SingleNewLine = "\r\n" // DoubleNewLine represents a double newline character sequence ("\r\n\r\n"). // // This constant can be used by the msgWriter to indicate a new segment of the mail when writing mail content. DoubleNewLine = "\r\n\r\n" ) // msgWriter handles the I/O operations for writing to the io.WriteCloser of the SMTP client. // // This struct keeps track of the number of bytes written, the character set used, and the depth of the // current multipart section. It also handles encoding, error tracking, and managing multipart and part // writers for constructing the email message body. type msgWriter struct { bytesWritten int64 charset Charset depth int8 encoder mime.WordEncoder err error multiPartWriter [3]*multipart.Writer partWriter io.Writer writer io.Writer } // Write implements the io.Writer interface for msgWriter. // // This method writes the provided payload to the underlying writer. It keeps track of the number of bytes // written and handles any errors encountered during the writing process. If a previous error exists, it // prevents further writing and returns the error. // // Parameters: // - payload: A byte slice containing the data to be written. // // Returns: // - The number of bytes successfully written. // - An error if the writing process fails, or if a previous error was encountered. func (mw *msgWriter) Write(payload []byte) (int, error) { if mw.err != nil { return 0, fmt.Errorf("failed to write due to previous error: %w", mw.err) } var n int n, mw.err = mw.writer.Write(payload) mw.bytesWritten += int64(n) return n, mw.err } // writeMsg formats the message and writes it to the msgWriter's io.Writer. // // This method handles the process of writing the message headers and body content, including handling // multipart structures (e.g., mixed, related, alternative), PGP types, and attachments/embeds. It sets the // required headers (e.g., "From", "To", "Cc") and iterates over the message parts, writing them to the // output writer. // // Parameters: // - msg: A pointer to the Msg struct containing the message data and headers to be written. // // References: // - https://datatracker.ietf.org/doc/html/rfc2045 (Multipurpose Internet Mail Extensions - MIME) // - https://datatracker.ietf.org/doc/html/rfc5322 (Internet Message Format) func (mw *msgWriter) writeMsg(msg *Msg) { msg.addDefaultHeader() msg.checkUserAgent() mw.writeGenHeader(msg) mw.writePreformattedGenHeader(msg) // Set the FROM header (or envelope FROM if FROM is empty) hasFrom := true from, ok := msg.addrHeader[HeaderFrom] if !ok || (len(from) == 0 || from == nil) { from, ok = msg.addrHeader[HeaderEnvelopeFrom] if !ok || (len(from) == 0 || from == nil) { hasFrom = false } } if hasFrom && (len(from) > 0 && from[0] != nil) { mw.writeHeader(Header(HeaderFrom), from[0].String()) } // Set the rest of the address headers for _, to := range []AddrHeader{HeaderTo, HeaderCc} { if addresses, ok := msg.addrHeader[to]; ok { var val []string for _, addr := range addresses { val = append(val, addr.String()) } mw.writeHeader(Header(to), val...) } } if msg.hasMixed() { mw.startMP(MIMEMixed, msg.boundary) mw.writeString(DoubleNewLine) } if msg.hasRelated() { mw.startMP(MIMERelated, msg.boundary) mw.writeString(DoubleNewLine) } if msg.hasAlt() { mw.startMP(MIMEAlternative, msg.boundary) mw.writeString(DoubleNewLine) } if msg.hasPGPType() { switch msg.pgptype { case PGPEncrypt: mw.startMP(`encrypted; protocol="application/pgp-encrypted"`, msg.boundary) case PGPSignature: mw.startMP(`signed; protocol="application/pgp-signature";`, msg.boundary) default: } mw.writeString(DoubleNewLine) } for _, part := range msg.parts { if !part.isDeleted { mw.writePart(part, msg.charset) } } if msg.hasAlt() { mw.stopMP() } // Add embeds mw.addFiles(msg.embeds, false) if msg.hasRelated() { mw.stopMP() } // Add attachments mw.addFiles(msg.attachments, true) if msg.hasMixed() { mw.stopMP() } } // writeGenHeader writes out all generic headers to the msgWriter. // // This function extracts all generic headers from the provided Msg object, sorts them, and writes them // to the msgWriter in alphabetical order. // // Parameters: // - msg: The Msg object containing the headers to be written. func (mw *msgWriter) writeGenHeader(msg *Msg) { keys := make([]string, 0, len(msg.genHeader)) for key := range msg.genHeader { keys = append(keys, string(key)) } sort.Strings(keys) for _, key := range keys { mw.writeHeader(Header(key), msg.genHeader[Header(key)]...) } } // writePreformattedGenHeader writes out all preformatted generic headers to the msgWriter. // // This function iterates over all preformatted generic headers from the provided Msg object and writes // them to the msgWriter in the format "key: value" followed by a newline. // // Parameters: // - msg: The Msg object containing the preformatted headers to be written. func (mw *msgWriter) writePreformattedGenHeader(msg *Msg) { for key, val := range msg.preformHeader { mw.writeString(fmt.Sprintf("%s: %s%s", key, val, SingleNewLine)) } } // startMP writes a multipart beginning. // // This function initializes a multipart writer for the msgWriter using the specified MIME type and // boundary. It sets the Content-Type header to indicate the multipart type and writes the boundary // information. If a boundary is provided, it is set explicitly; otherwise, a default boundary is // generated. It also handles writing a new part when nested multipart structures are used. // // Parameters: // - mimeType: The MIME type of the multipart content (e.g., "mixed", "alternative"). // - boundary: The boundary string separating different parts of the multipart message. // // References: // - https://datatracker.ietf.org/doc/html/rfc2046 func (mw *msgWriter) startMP(mimeType MIMEType, boundary string) { multiPartWriter := multipart.NewWriter(mw) if boundary != "" { mw.err = multiPartWriter.SetBoundary(boundary) } contentType := fmt.Sprintf("multipart/%s;\r\n boundary=%s", mimeType, multiPartWriter.Boundary()) mw.multiPartWriter[mw.depth] = multiPartWriter if mw.depth == 0 { mw.writeString(fmt.Sprintf("%s: %s", HeaderContentType, contentType)) } if mw.depth > 0 { mw.newPart(map[string][]string{"Content-Type": {contentType}}) } mw.depth++ } // stopMP closes the multipart. // // This function closes the current multipart writer if there is an active multipart structure. // It decreases the depth level of multipart nesting. func (mw *msgWriter) stopMP() { if mw.depth > 0 { mw.err = mw.multiPartWriter[mw.depth-1].Close() mw.depth-- } } // addFiles adds the attachments/embeds file content to the mail body. // // This function iterates through the list of files, setting necessary headers for each file, // including Content-Type, Content-Transfer-Encoding, Content-Disposition, and Content-ID // (if the file is an embed). It determines the appropriate MIME type for each file based on // its extension or the provided ContentType. It writes file headers and file content // to the mail body using the appropriate encoding. // // Parameters: // - files: A slice of File objects to be added to the mail body. // - isAttachment: A boolean indicating whether the files are attachments (true) or embeds (false). func (mw *msgWriter) addFiles(files []*File, isAttachment bool) { for _, file := range files { encoding := EncodingB64 if _, ok := file.getHeader(HeaderContentType); !ok { mimeType := mime.TypeByExtension(filepath.Ext(file.Name)) if mimeType == "" { mimeType = "application/octet-stream" } if file.ContentType != "" { mimeType = string(file.ContentType) } file.setHeader(HeaderContentType, fmt.Sprintf(`%s; name="%s"`, mimeType, mw.encoder.Encode(mw.charset.String(), file.Name))) } if _, ok := file.getHeader(HeaderContentTransferEnc); !ok { if file.Enc != "" { encoding = file.Enc } file.setHeader(HeaderContentTransferEnc, string(encoding)) } if file.Desc != "" { if _, ok := file.getHeader(HeaderContentDescription); !ok { file.setHeader(HeaderContentDescription, file.Desc) } } if _, ok := file.getHeader(HeaderContentDisposition); !ok { disposition := "inline" if isAttachment { disposition = "attachment" } file.setHeader(HeaderContentDisposition, fmt.Sprintf(`%s; filename="%s"`, disposition, mw.encoder.Encode(mw.charset.String(), file.Name))) } if !isAttachment { if _, ok := file.getHeader(HeaderContentID); !ok { file.setHeader(HeaderContentID, fmt.Sprintf("<%s>", file.Name)) } } if mw.depth == 0 { for header, val := range file.Header { mw.writeHeader(Header(header), val...) } mw.writeString(SingleNewLine) } if mw.depth > 0 { mw.newPart(file.Header) } if mw.err == nil { mw.writeBody(file.Writer, encoding) } } } // newPart creates a new MIME multipart io.Writer and sets the partWriter to it. // // This function creates a new MIME part using the provided header information and assigns it // to the partWriter. It interacts with the current multipart writer at the specified depth // to create the part. // // Parameters: // - header: A map containing the header fields and their corresponding values for the new part. func (mw *msgWriter) newPart(header map[string][]string) { mw.partWriter, mw.err = mw.multiPartWriter[mw.depth-1].CreatePart(header) } // writePart writes the corresponding part to the Msg body. // // This function writes a MIME part to the message body, setting the appropriate headers such // as Content-Type and Content-Transfer-Encoding. It determines the charset for the part, // either using the part's own charset or a fallback charset if none is specified. If the part // is at the top level (depth 0), headers are written directly. For nested parts, it creates // a new MIME part with the provided headers. // // Parameters: // - part: The Part object containing the data to be written. // - charset: The Charset used as a fallback if the part does not specify one. func (mw *msgWriter) writePart(part *Part, charset Charset) { partCharset := part.charset if partCharset.String() == "" { partCharset = charset } contentType := fmt.Sprintf("%s; charset=%s", part.contentType, partCharset) contentTransferEnc := part.encoding.String() if mw.depth == 0 { mw.writeHeader(HeaderContentType, contentType) mw.writeHeader(HeaderContentTransferEnc, contentTransferEnc) mw.writeString(SingleNewLine) } if mw.depth > 0 { mimeHeader := textproto.MIMEHeader{} if part.description != "" { mimeHeader.Add(string(HeaderContentDescription), part.description) } mimeHeader.Add(string(HeaderContentType), contentType) mimeHeader.Add(string(HeaderContentTransferEnc), contentTransferEnc) mw.newPart(mimeHeader) } mw.writeBody(part.writeFunc, part.encoding) } // writeString writes a string into the msgWriter's io.Writer interface. // // This function writes the given string to the msgWriter's underlying writer. It checks for // existing errors before performing the write operation. It also tracks the number of bytes // written and updates the bytesWritten field accordingly. // // Parameters: // - s: The string to be written. func (mw *msgWriter) writeString(s string) { if mw.err != nil { return } var n int n, mw.err = io.WriteString(mw.writer, s) mw.bytesWritten += int64(n) } // writeHeader writes a header into the msgWriter's io.Writer. // // This function writes a header key and its associated values to the msgWriter. It ensures // proper formatting of long headers by inserting line breaks as needed. The header values // are joined and split into words to ensure compliance with the maximum header length // (MaxHeaderLength). After processing the header, it is written to the underlying writer. // // Parameters: // - key: The Header key to be written. // - values: A variadic parameter representing the values associated with the header. func (mw *msgWriter) writeHeader(key Header, values ...string) { buffer := strings.Builder{} charLength := MaxHeaderLength - 2 buffer.WriteString(string(key)) charLength -= len(key) if len(values) == 0 { buffer.WriteString(":\r\n") return } buffer.WriteString(": ") charLength -= 2 fullValueStr := strings.Join(values, ", ") words := strings.Split(fullValueStr, " ") for i, val := range words { if charLength-len(val) <= 1 { buffer.WriteString(fmt.Sprintf("%s ", SingleNewLine)) charLength = MaxHeaderLength - 3 } buffer.WriteString(val) if i < len(words)-1 { buffer.WriteString(" ") charLength -= 1 } charLength -= len(val) } bufferString := buffer.String() bufferString = strings.ReplaceAll(bufferString, fmt.Sprintf(" %s", SingleNewLine), SingleNewLine) mw.writeString(bufferString) mw.writeString("\r\n") } // writeBody writes an io.Reader into an io.Writer using the provided Encoding. // // This function writes data from an io.Reader to the underlying writer using a specified // encoding (quoted-printable, base64, or no encoding). It handles encoding of the content // and manages writing the encoded data to the appropriate writer, depending on the depth // (whether the data is part of a multipart structure or not). It also tracks the number // of bytes written and manages any errors encountered during the process. // // Parameters: // - writeFunc: A function that writes the body content to the given io.Writer. // - encoding: The encoding type to use when writing the content (e.g., base64, quoted-printable). func (mw *msgWriter) writeBody(writeFunc func(io.Writer) (int64, error), encoding Encoding) { var writer io.Writer var encodedWriter io.WriteCloser var n int64 var err error if mw.depth == 0 { writer = mw.writer } if mw.depth > 0 { writer = mw.partWriter } writeBuffer := bytes.Buffer{} lineBreaker := Base64LineBreaker{} lineBreaker.out = &writeBuffer switch encoding { case EncodingQP: encodedWriter = quotedprintable.NewWriter(&writeBuffer) case EncodingB64: encodedWriter = base64.NewEncoder(base64.StdEncoding, &lineBreaker) case NoEncoding: _, err = writeFunc(&writeBuffer) if err != nil { mw.err = fmt.Errorf("bodyWriter function: %w", err) } n, err = io.Copy(writer, &writeBuffer) if err != nil && mw.err == nil { mw.err = fmt.Errorf("bodyWriter io.Copy: %w", err) } if mw.depth == 0 { mw.bytesWritten += n } return default: encodedWriter = quotedprintable.NewWriter(writer) } _, err = writeFunc(encodedWriter) if err != nil { mw.err = fmt.Errorf("bodyWriter function: %w", err) } err = encodedWriter.Close() if err != nil && mw.err == nil { mw.err = fmt.Errorf("bodyWriter close encoded writer: %w", err) } err = lineBreaker.Close() if err != nil && mw.err == nil { mw.err = fmt.Errorf("bodyWriter close linebreaker: %w", err) } n, err = io.Copy(writer, &writeBuffer) if err != nil && mw.err == nil { mw.err = fmt.Errorf("bodyWriter io.Copy: %w", err) } // Since the part writer uses the WriteTo() method, we don't need to add the // bytes twice if mw.depth == 0 { mw.bytesWritten += n } }