// Copyright 2011 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 mail implements parsing of mail messages. For the most part, this package follows the syntax as specified by RFC 5322. Notable divergences: * Obsolete address formats are not parsed, including addresses with embedded route information. * Group addresses are not parsed. * The full range of spacing (the CFWS syntax element) is not supported, such as breaking addresses across lines. */ package mail import ( "bufio" "bytes" "fmt" "io" "log" "net/textproto" "os" "strconv" "strings" "time" ) var debug = debugT(false) type debugT bool func (d debugT) Printf(format string, args ...interface{}) { if d { log.Printf(format, args...) } } // A Message represents a parsed mail message. type Message struct { Header Header Body io.Reader } // ReadMessage reads a message from r. // The headers are parsed, and the body of the message will be reading from r. func ReadMessage(r io.Reader) (msg *Message, err os.Error) { tp := textproto.NewReader(bufio.NewReader(r)) hdr, err := tp.ReadMIMEHeader() if err != nil { return nil, err } return &Message{ Header: Header(hdr), Body: tp.R, }, nil } // Layouts suitable for passing to time.Parse. // These are tried in order. var dateLayouts []string func init() { // Generate layouts based on RFC 5322, section 3.3. dows := [...]string{"", "Mon, "} // day-of-week days := [...]string{"2", "02"} // day = 1*2DIGIT years := [...]string{"2006", "06"} // year = 4*DIGIT / 2*DIGIT seconds := [...]string{":05", ""} // second zones := [...]string{"-0700", "MST"} // zone = (("+" / "-") 4DIGIT) / "GMT" / ... for _, dow := range dows { for _, day := range days { for _, year := range years { for _, second := range seconds { for _, zone := range zones { s := dow + day + " Jan " + year + " 15:04" + second + " " + zone dateLayouts = append(dateLayouts, s) } } } } } } func parseDate(date string) (*time.Time, os.Error) { for _, layout := range dateLayouts { t, err := time.Parse(layout, date) if err == nil { return t, nil } } return nil, os.ErrorString("mail: header could not be parsed") } // TODO(dsymonds): Parsers for more specific headers such as To, From, etc. // A Header represents the key-value pairs in a mail message header. type Header map[string][]string // Get gets the first value associated with the given key. // If there are no values associated with the key, Get returns "". func (h Header) Get(key string) string { return textproto.MIMEHeader(h).Get(key) } var ErrHeaderNotPresent = os.ErrorString("mail: header not in message") // Date parses the Date header field. func (h Header) Date() (*time.Time, os.Error) { hdr := h.Get("Date") if hdr == "" { return nil, ErrHeaderNotPresent } return parseDate(hdr) } // AddressList parses the named header field as a list of addresses. func (h Header) AddressList(key string) ([]*Address, os.Error) { hdr := h.Get(key) if hdr == "" { return nil, ErrHeaderNotPresent } return newAddrParser(hdr).parseAddressList() } // Address represents a single mail address. // An address such as "Barry Gibbs " is represented // as Address{Name: "Barry Gibbs", Address: "bg@example.com"}. type Address struct { Name string // Proper name; may be empty. Address string // user@domain } func (a *Address) String() string { s := "<" + a.Address + ">" if a.Name == "" { return s } return "\"" + strconv.Quote(a.Name) + "\" " + s } type addrParser []byte func newAddrParser(s string) *addrParser { p := addrParser([]byte(s)) return &p } func (p *addrParser) parseAddressList() ([]*Address, os.Error) { var list []*Address for { p.skipSpace() addr, err := p.parseAddress() if err != nil { return nil, err } list = append(list, addr) p.skipSpace() if p.empty() { break } if !p.consume(',') { return nil, os.ErrorString("mail: expected comma") } } return list, nil } // parseAddress parses a single RFC 5322 address at the start of p. func (p *addrParser) parseAddress() (addr *Address, err os.Error) { debug.Printf("parseAddress: %q", *p) p.skipSpace() if p.empty() { return nil, os.ErrorString("mail: no address") } // address = name-addr / addr-spec // TODO(dsymonds): Support parsing group address. // addr-spec has a more restricted grammar than name-addr, // so try parsing it first, and fallback to name-addr. // TODO(dsymonds): Is this really correct? spec, err := p.consumeAddrSpec() if err == nil { return &Address{ Address: spec, }, err } debug.Printf("parseAddress: not an addr-spec: %v", err) debug.Printf("parseAddress: state is now %q", *p) // display-name var displayName string if p.peek() != '<' { displayName, err = p.consumePhrase() if err != nil { return nil, err } } debug.Printf("parseAddress: displayName=%q", displayName) // angle-addr = "<" addr-spec ">" p.skipSpace() if !p.consume('<') { return nil, os.ErrorString("mail: no angle-addr") } spec, err = p.consumeAddrSpec() if err != nil { return nil, err } if !p.consume('>') { return nil, os.ErrorString("mail: unclosed angle-addr") } debug.Printf("parseAddress: spec=%q", spec) return &Address{ Name: displayName, Address: spec, }, nil } // consumeAddrSpec parses a single RFC 5322 addr-spec at the start of p. func (p *addrParser) consumeAddrSpec() (spec string, err os.Error) { debug.Printf("consumeAddrSpec: %q", *p) orig := *p defer func() { if err != nil { *p = orig } }() // local-part = dot-atom / quoted-string var localPart string p.skipSpace() if p.empty() { return "", os.ErrorString("mail: no addr-spec") } if p.peek() == '"' { // quoted-string debug.Printf("consumeAddrSpec: parsing quoted-string") localPart, err = p.consumeQuotedString() } else { // dot-atom debug.Printf("consumeAddrSpec: parsing dot-atom") localPart, err = p.consumeAtom(true) } if err != nil { debug.Printf("consumeAddrSpec: failed: %v", err) return "", err } if !p.consume('@') { return "", os.ErrorString("mail: missing @ in addr-spec") } // domain = dot-atom / domain-literal var domain string p.skipSpace() if p.empty() { return "", os.ErrorString("mail: no domain in addr-spec") } // TODO(dsymonds): Handle domain-literal domain, err = p.consumeAtom(true) if err != nil { return "", err } return localPart + "@" + domain, nil } // consumePhrase parses the RFC 5322 phrase at the start of p. func (p *addrParser) consumePhrase() (phrase string, err os.Error) { debug.Printf("consumePhrase: [%s]", *p) // phrase = 1*word var words []string for { // word = atom / quoted-string var word string p.skipSpace() if p.empty() { return "", os.ErrorString("mail: missing phrase") } if p.peek() == '"' { // quoted-string word, err = p.consumeQuotedString() } else { // atom word, err = p.consumeAtom(false) } if err != nil { break } debug.Printf("consumePhrase: consumed %q", word) words = append(words, word) } // Ignore any error if we got at least one word. if err != nil && len(words) == 0 { debug.Printf("consumePhrase: hit err: %v", err) return "", os.ErrorString("mail: missing word in phrase") } return strings.Join(words, " "), nil } // consumeQuotedString parses the quoted string at the start of p. func (p *addrParser) consumeQuotedString() (qs string, err os.Error) { // Assume first byte is '"'. i := 1 qsb := make([]byte, 0, 10) Loop: for { if i >= p.len() { return "", os.ErrorString("mail: unclosed quoted-string") } switch c := (*p)[i]; { case c == '"': break Loop case c == '\\': if i+1 == p.len() { return "", os.ErrorString("mail: unclosed quoted-string") } qsb = append(qsb, (*p)[i+1]) i += 2 case '!' <= c && c <= '~', c == ' ' || c == '\t': // qtext (printable US-ASCII excluding " and \), or // FWS (almost; we're ignoring CRLF) qsb = append(qsb, c) i++ default: return "", fmt.Errorf("mail: bad character in quoted-string: %q", c) } } *p = (*p)[i+1:] return string(qsb), nil } // consumeAtom parses an RFC 5322 atom at the start of p. // If dot is true, consumeAtom parses an RFC 5322 dot-atom instead. func (p *addrParser) consumeAtom(dot bool) (atom string, err os.Error) { if !isAtext(p.peek(), false) { return "", os.ErrorString("mail: invalid string") } i := 1 for ; i < p.len() && isAtext((*p)[i], dot); i++ { } // TODO(dsymonds): Remove the []byte() conversion here when 6g doesn't need it. atom, *p = string([]byte((*p)[:i])), (*p)[i:] return atom, nil } func (p *addrParser) consume(c byte) bool { if p.empty() || p.peek() != c { return false } *p = (*p)[1:] return true } // skipSpace skips the leading space and tab characters. func (p *addrParser) skipSpace() { *p = bytes.TrimLeft(*p, " \t") } func (p *addrParser) peek() byte { return (*p)[0] } func (p *addrParser) empty() bool { return p.len() == 0 } func (p *addrParser) len() int { return len(*p) } var atextChars = []byte("ABCDEFGHIJKLMNOPQRSTUVWXYZ" + "abcdefghijklmnopqrstuvwxyz" + "0123456789" + "!#$%&'*+-/=?^_`{|}~") // isAtext returns true if c is an RFC 5322 atext character. // If dot is true, period is included. func isAtext(c byte, dot bool) bool { if dot && c == '.' { return true } return bytes.IndexByte(atextChars, c) >= 0 }