package imapserver import ( "fmt" "io" ) type token interface { pack(c *conn) string writeTo(c *conn, w io.Writer) } type bare string func (t bare) pack(c *conn) string { return string(t) } func (t bare) writeTo(c *conn, w io.Writer) { w.Write([]byte(t.pack(c))) } type niltoken struct{} var nilt niltoken func (t niltoken) pack(c *conn) string { return "NIL" } func (t niltoken) writeTo(c *conn, w io.Writer) { w.Write([]byte(t.pack(c))) } func nilOrString(s string) token { if s == "" { return nilt } return string0(s) } type string0 string // ../rfc/9051:7081 // ../rfc/9051:6856 ../rfc/6855:153 func (t string0) pack(c *conn) string { r := `"` for _, ch := range t { if ch == '\x00' || ch == '\r' || ch == '\n' || ch > 0x7f && !c.utf8strings() { return syncliteral(t).pack(c) } if ch == '\\' || ch == '"' { r += `\` } r += string(ch) } r += `"` return r } func (t string0) writeTo(c *conn, w io.Writer) { w.Write([]byte(t.pack(c))) } type dquote string func (t dquote) pack(c *conn) string { r := `"` for _, c := range t { if c == '\\' || c == '"' { r += `\` } r += string(c) } r += `"` return r } func (t dquote) writeTo(c *conn, w io.Writer) { w.Write([]byte(t.pack(c))) } type syncliteral string func (t syncliteral) pack(c *conn) string { return fmt.Sprintf("{%d}\r\n", len(t)) + string(t) } func (t syncliteral) writeTo(c *conn, w io.Writer) { fmt.Fprintf(w, "{%d}\r\n", len(t)) w.Write([]byte(t)) } // data from reader with known size. type readerSizeSyncliteral struct { r io.Reader size int64 } func (t readerSizeSyncliteral) pack(c *conn) string { buf, err := io.ReadAll(t.r) if err != nil { panic(err) } return fmt.Sprintf("{%d}\r\n", t.size) + string(buf) } func (t readerSizeSyncliteral) writeTo(c *conn, w io.Writer) { fmt.Fprintf(w, "{%d}\r\n", t.size) if _, err := io.Copy(w, io.LimitReader(t.r, t.size)); err != nil { panic(err) } } // data from reader without known size. type readerSyncliteral struct { r io.Reader } func (t readerSyncliteral) pack(c *conn) string { buf, err := io.ReadAll(t.r) if err != nil { panic(err) } return fmt.Sprintf("{%d}\r\n", len(buf)) + string(buf) } func (t readerSyncliteral) writeTo(c *conn, w io.Writer) { buf, err := io.ReadAll(t.r) if err != nil { panic(err) } fmt.Fprintf(w, "{%d}\r\n", len(buf)) _, err = w.Write(buf) if err != nil { panic(err) } } // list with tokens space-separated type listspace []token func (t listspace) pack(c *conn) string { s := "(" for i, e := range t { if i > 0 { s += " " } s += e.pack(c) } s += ")" return s } func (t listspace) writeTo(c *conn, w io.Writer) { fmt.Fprint(w, "(") for i, e := range t { if i > 0 { fmt.Fprint(w, " ") } e.writeTo(c, w) } fmt.Fprint(w, ")") } // Concatenated tokens, no spaces or list syntax. type concat []token func (t concat) pack(c *conn) string { var s string for _, e := range t { s += e.pack(c) } return s } func (t concat) writeTo(c *conn, w io.Writer) { for _, e := range t { e.writeTo(c, w) } } type astring string func (t astring) pack(c *conn) string { if len(t) == 0 { return string0(t).pack(c) } next: for _, ch := range t { for _, x := range atomChar { if ch == x { continue next } } return string0(t).pack(c) } return string(t) } func (t astring) writeTo(c *conn, w io.Writer) { w.Write([]byte(t.pack(c))) } type number uint32 func (t number) pack(c *conn) string { return fmt.Sprintf("%d", t) } func (t number) writeTo(c *conn, w io.Writer) { w.Write([]byte(t.pack(c))) }