package message import ( "bytes" "errors" "io" "log" "os" "path/filepath" "reflect" "strings" "testing" "github.com/mjl-/mox/mlog" "github.com/mjl-/mox/moxvar" ) var pkglog = mlog.New("message", nil) func tcheck(t *testing.T, err error, msg string) { t.Helper() if err != nil { t.Fatalf("%s: %s", msg, err) } } func tcompare(t *testing.T, got, exp any) { t.Helper() if !reflect.DeepEqual(got, exp) { t.Fatalf("got %q, expected %q", got, exp) } } func tfail(t *testing.T, err, expErr error) { t.Helper() if (err == nil) != (expErr == nil) || expErr != nil && !errors.Is(err, expErr) { t.Fatalf("got err %v, expected %v", err, expErr) } } func TestEmptyHeader(t *testing.T) { s := "\r\nx" p, err := EnsurePart(pkglog.Logger, true, strings.NewReader(s), int64(len(s))) tcheck(t, err, "parse empty headers") buf, err := io.ReadAll(p.Reader()) tcheck(t, err, "read") expBody := "x" tcompare(t, string(buf), expBody) tcompare(t, p.MediaType, "") tcompare(t, p.MediaSubType, "") } func TestBadContentType(t *testing.T) { expBody := "test" // Pedantic is like strict. moxvar.Pedantic = true s := "content-type: text/html;;\r\n\r\ntest" p, err := EnsurePart(pkglog.Logger, false, strings.NewReader(s), int64(len(s))) tfail(t, err, ErrBadContentType) buf, err := io.ReadAll(p.Reader()) tcheck(t, err, "read") tcompare(t, string(buf), expBody) tcompare(t, p.MediaType, "APPLICATION") tcompare(t, p.MediaSubType, "OCTET-STREAM") moxvar.Pedantic = false // Strict s = "content-type: text/html;;\r\n\r\ntest" p, err = EnsurePart(pkglog.Logger, true, strings.NewReader(s), int64(len(s))) tfail(t, err, ErrBadContentType) buf, err = io.ReadAll(p.Reader()) tcheck(t, err, "read") tcompare(t, string(buf), expBody) tcompare(t, p.MediaType, "APPLICATION") tcompare(t, p.MediaSubType, "OCTET-STREAM") // Non-strict but unrecoverable content-type. s = "content-type: not a content type;;\r\n\r\ntest" p, err = EnsurePart(pkglog.Logger, false, strings.NewReader(s), int64(len(s))) tcheck(t, err, "parsing message with bad but recoverable content-type") buf, err = io.ReadAll(p.Reader()) tcheck(t, err, "read") tcompare(t, string(buf), expBody) tcompare(t, p.MediaType, "APPLICATION") tcompare(t, p.MediaSubType, "OCTET-STREAM") // We try to use only the content-type, typically better than application/octet-stream. s = "content-type: text/html;;\r\n\r\ntest" p, err = EnsurePart(pkglog.Logger, false, strings.NewReader(s), int64(len(s))) tcheck(t, err, "parsing message with bad but recoverable content-type") buf, err = io.ReadAll(p.Reader()) tcheck(t, err, "read") tcompare(t, string(buf), expBody) tcompare(t, p.MediaType, "TEXT") tcompare(t, p.MediaSubType, "HTML") // Not recovering multipart, we won't have a boundary. s = "content-type: multipart/mixed;;\r\n\r\ntest" p, err = EnsurePart(pkglog.Logger, false, strings.NewReader(s), int64(len(s))) tcheck(t, err, "parsing message with bad but recoverable content-type") buf, err = io.ReadAll(p.Reader()) tcheck(t, err, "read") tcompare(t, string(buf), expBody) tcompare(t, p.MediaType, "APPLICATION") tcompare(t, p.MediaSubType, "OCTET-STREAM") } func TestBareCR(t *testing.T) { s := "content-type: text/html\r\n\r\nbare\rcr\r\n" expBody := "bare\rcr\r\n" // Pedantic is like strict. moxvar.Pedantic = true p, err := EnsurePart(pkglog.Logger, false, strings.NewReader(s), int64(len(s))) tfail(t, err, errBareCR) _, err = io.ReadAll(p.Reader()) tfail(t, err, errBareCR) moxvar.Pedantic = false // Strict. p, err = EnsurePart(pkglog.Logger, true, strings.NewReader(s), int64(len(s))) tfail(t, err, errBareCR) _, err = io.ReadAll(p.Reader()) tcheck(t, err, "read fallback part without error") // Non-strict allows bare cr. p, err = EnsurePart(pkglog.Logger, false, strings.NewReader(s), int64(len(s))) tcheck(t, err, "parse") buf, err := io.ReadAll(p.Reader()) tcheck(t, err, "read") tcompare(t, string(buf), expBody) } var basicMsg = strings.ReplaceAll(`From: Content-Type: text/plain Content-Transfer-Encoding: base64 aGkK `, "\n", "\r\n") func TestBasic(t *testing.T) { r := strings.NewReader(basicMsg) p, err := Parse(pkglog.Logger, true, r) tcheck(t, err, "new reader") buf, err := io.ReadAll(p.RawReader()) tcheck(t, err, "read raw") expBody := "aGkK\r\n" tcompare(t, string(buf), expBody) buf, err = io.ReadAll(p.Reader()) tcheck(t, err, "read decoded") tcompare(t, string(buf), "hi\r\n") if p.RawLineCount != 1 { t.Fatalf("basic message, got %d lines, expected 1", p.RawLineCount) } if size := p.EndOffset - p.BodyOffset; size != int64(len(expBody)) { t.Fatalf("basic message, got size %d, expected %d", size, len(expBody)) } } // From ../rfc/3501:2589 var basicMsg2 = strings.ReplaceAll(`Date: Mon, 7 Feb 1994 21:52:25 -0800 (PST) From: Fred Foobar Subject: afternoon meeting To: mooch@owatagu.siam.edu.example Message-Id: MIME-Version: 1.0 Content-Type: TEXT/PLAIN; CHARSET=US-ASCII Hello Joe, do you think we can meet at 3:30 tomorrow? `, "\n", "\r\n") func TestBasic2(t *testing.T) { r := strings.NewReader(basicMsg2) p, err := Parse(pkglog.Logger, true, r) tcheck(t, err, "new reader") buf, err := io.ReadAll(p.RawReader()) tcheck(t, err, "read raw") expBody := "Hello Joe, do you think we can meet at 3:30 tomorrow?\r\n\r\n" tcompare(t, string(buf), expBody) buf, err = io.ReadAll(p.Reader()) tcheck(t, err, "read decoded") tcompare(t, string(buf), expBody) if p.RawLineCount != 2 { t.Fatalf("basic message, got %d lines, expected 2", p.RawLineCount) } if size := p.EndOffset - p.BodyOffset; size != int64(len(expBody)) { t.Fatalf("basic message, got size %d, expected %d", size, len(expBody)) } r = strings.NewReader(basicMsg2) p, err = Parse(pkglog.Logger, true, r) tcheck(t, err, "new reader") err = p.Walk(pkglog.Logger, nil) tcheck(t, err, "walk") if p.RawLineCount != 2 { t.Fatalf("basic message, got %d lines, expected 2", p.RawLineCount) } if size := p.EndOffset - p.BodyOffset; size != int64(len(expBody)) { t.Fatalf("basic message, got size %d, expected %d", size, len(expBody)) } } var mimeMsg = strings.ReplaceAll(`From: Nathaniel Borenstein To: Ned Freed Date: Sun, 21 Mar 1993 23:56:48 -0800 (PST) Subject: Sample message MIME-Version: 1.0 Content-type: multipart/mixed; boundary="simple boundary" This is the preamble. It is to be ignored, though it is a handy place for composition agents to include an explanatory note to non-MIME conformant readers. --simple boundary This is implicitly typed plain US-ASCII text. It does NOT end with a linebreak. --simple boundary Content-type: text/plain; charset=us-ascii This is explicitly typed plain US-ASCII text. It DOES end with a linebreak. --simple boundary-- This is the epilogue. It is also to be ignored. `, "\n", "\r\n") func TestMime(t *testing.T) { // from ../rfc/2046:1148 r := strings.NewReader(mimeMsg) p, err := Parse(pkglog.Logger, true, r) tcheck(t, err, "new reader") if len(p.bound) == 0 { t.Fatalf("got no bound, expected bound for mime message") } pp, err := p.ParseNextPart(pkglog.Logger) tcheck(t, err, "next part") buf, err := io.ReadAll(pp.Reader()) tcheck(t, err, "read all") tcompare(t, string(buf), "This is implicitly typed plain US-ASCII text.\r\nIt does NOT end with a linebreak.") pp, err = p.ParseNextPart(pkglog.Logger) tcheck(t, err, "next part") buf, err = io.ReadAll(pp.Reader()) tcheck(t, err, "read all") tcompare(t, string(buf), "This is explicitly typed plain US-ASCII text.\r\nIt DOES end with a linebreak.\r\n") _, err = p.ParseNextPart(pkglog.Logger) tcompare(t, err, io.EOF) if len(p.Parts) != 2 { t.Fatalf("got %d parts, expected 2", len(p.Parts)) } if p.Parts[0].RawLineCount != 2 { t.Fatalf("got %d lines for first part, expected 2", p.Parts[0].RawLineCount) } if p.Parts[1].RawLineCount != 2 { t.Fatalf("got %d lines for second part, expected 2", p.Parts[1].RawLineCount) } } func TestLongLine(t *testing.T) { line := make([]byte, maxLineLength+1) for i := range line { line[i] = 'a' } _, err := Parse(pkglog.Logger, true, bytes.NewReader(line)) tfail(t, err, errLineTooLong) } func TestBareCrLf(t *testing.T) { parse := func(strict bool, s string) error { p, err := Parse(pkglog.Logger, strict, strings.NewReader(s)) if err != nil { return err } return p.Walk(pkglog.Logger, nil) } err := parse(false, "subject: test\ntest\r\n") tfail(t, err, errBareLF) err = parse(false, "\r\ntest\ntest\r\n") tfail(t, err, errBareLF) moxvar.Pedantic = true err = parse(false, "subject: test\rtest\r\n") tfail(t, err, errBareCR) err = parse(false, "\r\ntest\rtest\r\n") tfail(t, err, errBareCR) moxvar.Pedantic = false err = parse(true, "subject: test\rtest\r\n") tfail(t, err, errBareCR) err = parse(true, "\r\ntest\rtest\r\n") tfail(t, err, errBareCR) err = parse(false, "subject: test\rtest\r\n") tcheck(t, err, "header with bare cr") err = parse(false, "\r\ntest\rtest\r\n") tcheck(t, err, "body with bare cr") } func TestMissingClosingBoundary(t *testing.T) { message := strings.ReplaceAll(`Content-Type: multipart/mixed; boundary=x --x test `, "\n", "\r\n") msg, err := Parse(pkglog.Logger, false, strings.NewReader(message)) tcheck(t, err, "new reader") err = walkmsg(&msg) tfail(t, err, errMissingClosingBoundary) msg, _ = Parse(pkglog.Logger, false, strings.NewReader(message)) err = msg.Walk(pkglog.Logger, nil) tfail(t, err, errMissingClosingBoundary) } func TestHeaderEOF(t *testing.T) { message := "header: test" _, err := Parse(pkglog.Logger, false, strings.NewReader(message)) tfail(t, err, errUnexpectedEOF) } func TestBodyEOF(t *testing.T) { message := "header: test\r\n\r\ntest" msg, err := Parse(pkglog.Logger, true, strings.NewReader(message)) tcheck(t, err, "new reader") buf, err := io.ReadAll(msg.Reader()) tcheck(t, err, "read body") tcompare(t, string(buf), "test") } func TestWalk(t *testing.T) { var message = strings.ReplaceAll(`Content-Type: multipart/related; boundary="----=_NextPart_afb3ad6f146b12b709deac3e387a3ad7" ------=_NextPart_afb3ad6f146b12b709deac3e387a3ad7 Content-Type: multipart/alternative; boundary="----=_NextPart_afb3ad6f146b12b709deac3e387a3ad7_alt" ------=_NextPart_afb3ad6f146b12b709deac3e387a3ad7_alt Content-Type: text/plain; charset="utf-8" Content-Transfer-Encoding: 8bit test ------=_NextPart_afb3ad6f146b12b709deac3e387a3ad7_alt Content-Type: text/html; charset="utf-8" Content-Transfer-Encoding: 8bit test ------=_NextPart_afb3ad6f146b12b709deac3e387a3ad7_alt-- ------=_NextPart_afb3ad6f146b12b709deac3e387a3ad7-- `, "\n", "\r\n") msg, err := Parse(pkglog.Logger, false, strings.NewReader(message)) tcheck(t, err, "new reader") enforceSequential = true defer func() { enforceSequential = false }() err = walkmsg(&msg) tcheck(t, err, "walkmsg") msg, _ = Parse(pkglog.Logger, false, strings.NewReader(message)) err = msg.Walk(pkglog.Logger, nil) tcheck(t, err, "msg.Walk") } func TestNested(t *testing.T) { // From ../rfc/2049:801 nestedMessage := strings.ReplaceAll(`MIME-Version: 1.0 From: Nathaniel Borenstein To: Ned Freed Date: Fri, 07 Oct 1994 16:15:05 -0700 (PDT) Subject: A multipart example Content-Type: multipart/mixed; boundary=unique-boundary-1 This is the preamble area of a multipart message. Mail readers that understand multipart format should ignore this preamble. If you are reading this text, you might want to consider changing to a mail reader that understands how to properly display multipart messages. --unique-boundary-1 ... Some text appears here ... [Note that the blank between the boundary and the start of the text in this part means no header fields were given and this is text in the US-ASCII character set. It could have been done with explicit typing as in the next part.] --unique-boundary-1 Content-type: text/plain; charset=US-ASCII This could have been part of the previous part, but illustrates explicit versus implicit typing of body parts. --unique-boundary-1 Content-Type: multipart/parallel; boundary=unique-boundary-2 --unique-boundary-2 Content-Type: audio/basic Content-Transfer-Encoding: base64 --unique-boundary-2 Content-Type: image/jpeg Content-Transfer-Encoding: base64 --unique-boundary-2-- --unique-boundary-1 Content-type: text/enriched This is enriched. as defined in RFC 1896 Isn't it cool? --unique-boundary-1 Content-Type: message/rfc822 From: (mailbox in US-ASCII) To: (address in US-ASCII) Subject: (subject in US-ASCII) Content-Type: Text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: Quoted-printable ... Additional text in ISO-8859-1 goes here ... --unique-boundary-1-- `, "\n", "\r\n") msg, err := Parse(pkglog.Logger, true, strings.NewReader(nestedMessage)) tcheck(t, err, "new reader") enforceSequential = true defer func() { enforceSequential = false }() err = walkmsg(&msg) tcheck(t, err, "walkmsg") if len(msg.Parts) != 5 { t.Fatalf("got %d parts, expected 5", len(msg.Parts)) } sub := msg.Parts[4].Message if sub == nil { t.Fatalf("missing part.Message") } buf, err := io.ReadAll(sub.Reader()) if err != nil { t.Fatalf("read message body: %v", err) } exp := " ... Additional text in ISO-8859-1 goes here ...\r\n" if string(buf) != exp { t.Fatalf("got %q, expected %q", buf, exp) } msg, _ = Parse(pkglog.Logger, false, strings.NewReader(nestedMessage)) err = msg.Walk(pkglog.Logger, nil) tcheck(t, err, "msg.Walk") } func TestWalkdir(t *testing.T) { // Ensure these dirs exist. Developers should bring their own ham/spam example // emails. os.MkdirAll("../testdata/train/ham", 0770) os.MkdirAll("../testdata/train/spam", 0770) var n, nfail int twalkdir(t, "../testdata/train/ham", &n, &nfail) twalkdir(t, "../testdata/train/spam", &n, &nfail) log.Printf("parsing messages: %d/%d failed", nfail, n) } func twalkdir(t *testing.T, dir string, n, nfail *int) { names, err := os.ReadDir(dir) tcheck(t, err, "readdir") if len(names) > 1000 { names = names[:1000] } for _, name := range names { p := filepath.Join(dir, name.Name()) *n++ err := walk(p) if err != nil { *nfail++ log.Printf("%s: %v", p, err) } } } func walk(path string) error { r, err := os.Open(path) if err != nil { return err } defer r.Close() msg, err := Parse(pkglog.Logger, false, r) if err != nil { return err } return walkmsg(&msg) } func walkmsg(msg *Part) error { enforceSequential = true defer func() { enforceSequential = false }() if len(msg.bound) == 0 { buf, err := io.ReadAll(msg.Reader()) if err != nil { return err } if msg.MediaType == "MESSAGE" && (msg.MediaSubType == "RFC822" || msg.MediaSubType == "GLOBAL") { mp, err := Parse(pkglog.Logger, false, bytes.NewReader(buf)) if err != nil { return err } msg.Message = &mp walkmsg(msg.Message) } size := msg.EndOffset - msg.BodyOffset if size < 0 { log.Printf("msg %v", msg) panic("inconsistent body/end offset") } sr := io.NewSectionReader(msg.r, msg.BodyOffset, size) decsr := msg.bodyReader(sr) buf2, err := io.ReadAll(decsr) if err != nil { return err } if !bytes.Equal(buf, buf2) { panic("data mismatch reading sequentially vs via offsets") } return nil } for { pp, err := msg.ParseNextPart(pkglog.Logger) if err == io.EOF { return nil } if err != nil { return err } if err := walkmsg(pp); err != nil { return err } enforceSequential = true } } func TestEmbedded(t *testing.T) { f, err := os.Open("../testdata/message/message-rfc822-multipart.eml") tcheck(t, err, "open") fi, err := f.Stat() tcheck(t, err, "stat") _, err = EnsurePart(pkglog.Logger, false, f, fi.Size()) tcheck(t, err, "parse") } func TestEmbedded2(t *testing.T) { buf, err := os.ReadFile("../testdata/message/message-rfc822-multipart2.eml") tcheck(t, err, "readfile") buf = bytes.ReplaceAll(buf, []byte("\n"), []byte("\r\n")) _, err = EnsurePart(pkglog.Logger, false, bytes.NewReader(buf), int64(len(buf))) tfail(t, err, nil) }