// Copyright (c) 2016-2019 Daniel Oaks // Copyright (c) 2018-2019 Shivaram Lingamneni // released under the ISC license package ircmsg import ( "bytes" "errors" "strings" "unicode/utf8" ) const ( // "The size limit for message tags is 8191 bytes, including the leading // '@' (0x40) and trailing space ' ' (0x20) characters." MaxlenTags = 8191 // MaxlenTags - ('@' + ' ') MaxlenTagData = MaxlenTags - 2 // "Clients MUST NOT send messages with tag data exceeding 4094 bytes, // this includes tags with or without the client-only prefix." MaxlenClientTagData = 4094 // "Servers MUST NOT add tag data exceeding 4094 bytes to messages." MaxlenServerTagData = 4094 // '@' + MaxlenClientTagData + ' ' // this is the analogue of MaxlenTags when the source of the message is a client MaxlenTagsFromClient = MaxlenClientTagData + 2 ) var ( // ErrorLineIsEmpty indicates that the given IRC line was empty. ErrorLineIsEmpty = errors.New("Line is empty") // ErrorLineContainsBadChar indicates that the line contained invalid characters ErrorLineContainsBadChar = errors.New("Line contains invalid characters") // ErrorBodyTooLong indicates that the message body exceeded the specified // length limit (typically 512 bytes). This error is non-fatal; if encountered // when parsing a message, the message is parsed up to the length limit, and // if encountered when serializing a message, the message is truncated to the limit. ErrorBodyTooLong = errors.New("Line body exceeded the specified length limit; outgoing messages will be truncated") // ErrorTagsTooLong indicates that the message exceeded the maximum tag length // (the specified response on the server side is 417 ERR_INPUTTOOLONG). ErrorTagsTooLong = errors.New("Line could not be processed because its tag data exceeded the length limit") // ErrorInvalidTagContent indicates that a tag name or value was invalid ErrorInvalidTagContent = errors.New("Line could not be processed because it contained an invalid tag name or value") // ErrorCommandMissing indicates that an IRC message was invalid because it lacked a command. ErrorCommandMissing = errors.New("IRC messages MUST have a command") // ErrorBadParam indicates that an IRC message could not be serialized because // its parameters violated the syntactic constraints on IRC parameters: // non-final parameters cannot be empty, contain a space, or start with `:`. ErrorBadParam = errors.New("Cannot have an empty param, a param with spaces, or a param that starts with ':' before the last parameter") ) // Message represents an IRC message, as defined by the RFCs and as // extended by the IRCv3 Message Tags specification with the introduction // of message tags. type Message struct { Source string Command string Params []string forceTrailing bool tags map[string]string clientOnlyTags map[string]string } // ForceTrailing ensures that when the message is serialized, the final parameter // will be encoded as a "trailing parameter" (preceded by a colon). This is // almost never necessary and should not be used except when having to interact // with broken implementations that don't correctly interpret IRC messages. func (msg *Message) ForceTrailing() { msg.forceTrailing = true } // GetTag returns whether a tag is present, and if so, what its value is. func (msg *Message) GetTag(tagName string) (present bool, value string) { if len(tagName) == 0 { return } else if tagName[0] == '+' { value, present = msg.clientOnlyTags[tagName] return } else { value, present = msg.tags[tagName] return } } // HasTag returns whether a tag is present. func (msg *Message) HasTag(tagName string) (present bool) { present, _ = msg.GetTag(tagName) return } // SetTag sets a tag. func (msg *Message) SetTag(tagName, tagValue string) { if len(tagName) == 0 { return } else if tagName[0] == '+' { if msg.clientOnlyTags == nil { msg.clientOnlyTags = make(map[string]string) } msg.clientOnlyTags[tagName] = tagValue } else { if msg.tags == nil { msg.tags = make(map[string]string) } msg.tags[tagName] = tagValue } } // DeleteTag deletes a tag. func (msg *Message) DeleteTag(tagName string) { if len(tagName) == 0 { return } else if tagName[0] == '+' { delete(msg.clientOnlyTags, tagName) } else { delete(msg.tags, tagName) } } // UpdateTags is a convenience to set multiple tags at once. func (msg *Message) UpdateTags(tags map[string]string) { for name, value := range tags { msg.SetTag(name, value) } } // AllTags returns all tags as a single map. func (msg *Message) AllTags() (result map[string]string) { result = make(map[string]string, len(msg.tags)+len(msg.clientOnlyTags)) for name, value := range msg.tags { result[name] = value } for name, value := range msg.clientOnlyTags { result[name] = value } return } // ClientOnlyTags returns the client-only tags (the tags with the + prefix). // The returned map may be internal storage of the Message object and // should not be modified. func (msg *Message) ClientOnlyTags() map[string]string { return msg.clientOnlyTags } // Nick returns the name component of the message source (typically a nickname, // but possibly a server name). func (msg *Message) Nick() (nick string) { nuh, err := ParseNUH(msg.Source) if err == nil { return nuh.Name } return } // NUH returns the source of the message as a parsed NUH ("nick-user-host"); // if the source is not well-formed as a NUH, it returns an error. func (msg *Message) NUH() (nuh NUH, err error) { return ParseNUH(msg.Source) } // ParseLine creates and returns a message from the given IRC line. func ParseLine(line string) (ircmsg Message, err error) { return parseLine(line, 0, 0) } // ParseLineStrict creates and returns an Message from the given IRC line, // taking the maximum length into account and truncating the message as appropriate. // If fromClient is true, it enforces the client limit on tag data length (4094 bytes), // allowing the server to return ERR_INPUTTOOLONG as appropriate. If truncateLen is // nonzero, it is the length at which the non-tag portion of the message is truncated. func ParseLineStrict(line string, fromClient bool, truncateLen int) (ircmsg Message, err error) { maxTagDataLength := MaxlenTagData if fromClient { maxTagDataLength = MaxlenClientTagData } return parseLine(line, maxTagDataLength, truncateLen) } // slice off any amount of ' ' from the front of the string func trimInitialSpaces(str string) string { var i int for i = 0; i < len(str) && str[i] == ' '; i++ { } return str[i:] } func parseLine(line string, maxTagDataLength int, truncateLen int) (ircmsg Message, err error) { // remove either \n or \r\n from the end of the line: line = strings.TrimSuffix(line, "\n") line = strings.TrimSuffix(line, "\r") // whether we removed them ourselves, or whether they were removed previously, // they count against the line limit: if truncateLen != 0 { if truncateLen <= 2 { return ircmsg, ErrorLineIsEmpty } truncateLen -= 2 } // now validate for the 3 forbidden bytes: if strings.IndexByte(line, '\x00') != -1 || strings.IndexByte(line, '\n') != -1 || strings.IndexByte(line, '\r') != -1 { return ircmsg, ErrorLineContainsBadChar } if len(line) < 1 { return ircmsg, ErrorLineIsEmpty } // tags if line[0] == '@' { tagEnd := strings.IndexByte(line, ' ') if tagEnd == -1 { return ircmsg, ErrorLineIsEmpty } tags := line[1:tagEnd] if 0 < maxTagDataLength && maxTagDataLength < len(tags) { return ircmsg, ErrorTagsTooLong } err = ircmsg.parseTags(tags) if err != nil { return } // skip over the tags and the separating space line = line[tagEnd+1:] } // truncate if desired if truncateLen != 0 && truncateLen < len(line) { err = ErrorBodyTooLong line = TruncateUTF8Safe(line, truncateLen) } // modern: "These message parts, and parameters themselves, are separated // by one or more ASCII SPACE characters" line = trimInitialSpaces(line) // source if 0 < len(line) && line[0] == ':' { sourceEnd := strings.IndexByte(line, ' ') if sourceEnd == -1 { return ircmsg, ErrorLineIsEmpty } ircmsg.Source = line[1:sourceEnd] // skip over the source and the separating space line = line[sourceEnd+1:] } line = trimInitialSpaces(line) // command commandEnd := strings.IndexByte(line, ' ') paramStart := commandEnd + 1 if commandEnd == -1 { commandEnd = len(line) paramStart = len(line) } // normalize command to uppercase: ircmsg.Command = strings.ToUpper(line[:commandEnd]) if len(ircmsg.Command) == 0 { return ircmsg, ErrorLineIsEmpty } line = line[paramStart:] for { line = trimInitialSpaces(line) if len(line) == 0 { break } // handle trailing if line[0] == ':' { ircmsg.Params = append(ircmsg.Params, line[1:]) break } paramEnd := strings.IndexByte(line, ' ') if paramEnd == -1 { ircmsg.Params = append(ircmsg.Params, line) break } ircmsg.Params = append(ircmsg.Params, line[:paramEnd]) line = line[paramEnd+1:] } return ircmsg, err } // helper to parse tags func (ircmsg *Message) parseTags(tags string) (err error) { for 0 < len(tags) { tagEnd := strings.IndexByte(tags, ';') endPos := tagEnd nextPos := tagEnd + 1 if tagEnd == -1 { endPos = len(tags) nextPos = len(tags) } tagPair := tags[:endPos] equalsIndex := strings.IndexByte(tagPair, '=') var tagName, tagValue string if equalsIndex == -1 { // tag with no value tagName = tagPair } else { tagName, tagValue = tagPair[:equalsIndex], tagPair[equalsIndex+1:] } // "Implementations [...] MUST NOT perform any validation that would // reject the message if an invalid tag key name is used." if validateTagName(tagName) { if !validateTagValue(tagValue) { return ErrorInvalidTagContent } ircmsg.SetTag(tagName, UnescapeTagValue(tagValue)) } // skip over the tag just processed, plus the delimiting ; if any tags = tags[nextPos:] } return nil } // MakeMessage provides a simple way to create a new Message. func MakeMessage(tags map[string]string, source string, command string, params ...string) (ircmsg Message) { ircmsg.Source = source ircmsg.Command = command ircmsg.Params = params ircmsg.UpdateTags(tags) return ircmsg } // Line returns a sendable line created from an Message. func (ircmsg *Message) Line() (result string, err error) { bytes, err := ircmsg.line(0, 0, 0, 0) if err == nil { result = string(bytes) } return } // LineBytes returns a sendable line created from an Message. func (ircmsg *Message) LineBytes() (result []byte, err error) { result, err = ircmsg.line(0, 0, 0, 0) return } // LineBytesStrict returns a sendable line, as a []byte, created from an Message. // fromClient controls whether the server-side or client-side tag length limit // is enforced. If truncateLen is nonzero, it is the length at which the // non-tag portion of the message is truncated. func (ircmsg *Message) LineBytesStrict(fromClient bool, truncateLen int) ([]byte, error) { var tagLimit, clientOnlyTagDataLimit, serverAddedTagDataLimit int if fromClient { // enforce client max tags: // (4096) :: '@' ' ' tagLimit = MaxlenTagsFromClient } else { // on the server side, enforce separate client-only and server-added tag budgets: // "Servers MUST NOT add tag data exceeding 4094 bytes to messages." // (8191) :: '@' ';' ' ' clientOnlyTagDataLimit = MaxlenClientTagData serverAddedTagDataLimit = MaxlenServerTagData } return ircmsg.line(tagLimit, clientOnlyTagDataLimit, serverAddedTagDataLimit, truncateLen) } func paramRequiresTrailing(param string) bool { return len(param) == 0 || strings.IndexByte(param, ' ') != -1 || param[0] == ':' } // line returns a sendable line created from an Message. func (ircmsg *Message) line(tagLimit, clientOnlyTagDataLimit, serverAddedTagDataLimit, truncateLen int) (result []byte, err error) { if len(ircmsg.Command) == 0 { return nil, ErrorCommandMissing } var buf bytes.Buffer // write the tags, computing the budgets for client-only tags and regular tags var lenRegularTags, lenClientOnlyTags, lenTags int if 0 < len(ircmsg.tags) || 0 < len(ircmsg.clientOnlyTags) { var tagError error buf.WriteByte('@') firstTag := true writeTags := func(tags map[string]string) { for tag, val := range tags { if !(validateTagName(tag) && validateTagValue(val)) { tagError = ErrorInvalidTagContent } if !firstTag { buf.WriteByte(';') // delimiter } buf.WriteString(tag) if val != "" { buf.WriteByte('=') buf.WriteString(EscapeTagValue(val)) } firstTag = false } } writeTags(ircmsg.tags) lenRegularTags = buf.Len() - 1 // '@' is not counted writeTags(ircmsg.clientOnlyTags) lenClientOnlyTags = (buf.Len() - 1) - lenRegularTags // '@' is not counted if lenRegularTags != 0 { // semicolon between regular and client-only tags is not counted lenClientOnlyTags -= 1 } buf.WriteByte(' ') if tagError != nil { return nil, tagError } } lenTags = buf.Len() if 0 < tagLimit && tagLimit < buf.Len() { return nil, ErrorTagsTooLong } if (0 < clientOnlyTagDataLimit && clientOnlyTagDataLimit < lenClientOnlyTags) || (0 < serverAddedTagDataLimit && serverAddedTagDataLimit < lenRegularTags) { return nil, ErrorTagsTooLong } if len(ircmsg.Source) > 0 { buf.WriteByte(':') buf.WriteString(ircmsg.Source) buf.WriteByte(' ') } buf.WriteString(ircmsg.Command) for i, param := range ircmsg.Params { buf.WriteByte(' ') requiresTrailing := paramRequiresTrailing(param) lastParam := i == len(ircmsg.Params)-1 if (requiresTrailing || ircmsg.forceTrailing) && lastParam { buf.WriteByte(':') } else if requiresTrailing && !lastParam { return nil, ErrorBadParam } buf.WriteString(param) } // truncate if desired; leave 2 bytes over for \r\n: if truncateLen != 0 && (truncateLen-2) < (buf.Len()-lenTags) { err = ErrorBodyTooLong newBufLen := lenTags + (truncateLen - 2) buf.Truncate(newBufLen) // XXX: we may have truncated in the middle of a UTF8-encoded codepoint; // if so, remove additional bytes, stopping when the sequence either // ends in a valid codepoint, or we have removed 3 bytes (the maximum // length of the remnant of a once-valid, truncated codepoint; we don't // want to truncate the entire message if it wasn't UTF8 in the first // place). for i := 0; i < (utf8.UTFMax - 1); i++ { r, n := utf8.DecodeLastRune(buf.Bytes()) if r == utf8.RuneError && n <= 1 { newBufLen-- buf.Truncate(newBufLen) } else { break } } } buf.WriteString("\r\n") result = buf.Bytes() toValidate := result[:len(result)-2] if bytes.IndexByte(toValidate, '\x00') != -1 || bytes.IndexByte(toValidate, '\r') != -1 || bytes.IndexByte(toValidate, '\n') != -1 { return nil, ErrorLineContainsBadChar } return result, err }