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message.go
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message.go
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// Copyright 2014 Vic Demuzere
//
// Use of this source code is governed by the MIT license.
package ircmsg
import (
"bytes"
"strings"
)
// Various constants used for formatting IRC messages.
const (
tags byte = 0x40 // Tag start indicator
tagsEquals byte = 0x3D // Keys and values are separated using equal signs
tagsSeparator byte = 0x3B // Separator between multiple tags
prefix byte = 0x3A // Prefix or last argument
prefixUser byte = 0x21 // Username
prefixHost byte = 0x40 // Hostname
space byte = 0x20 // Separator
maxLength = 510 // Maximum length is 512 - 2 for the line endings.
)
var (
tagEscapeReplacer = strings.NewReplacer("\\:", ";", "\\s", " ", "\\r", "\r", "\\n", "\n")
)
func cutsetFunc(r rune) bool {
// Characters to trim from prefixes/messages.
return r == '\r' || r == '\n'
}
// Tags represents (optional) tags added to the start of each message
// See IRCv3.2 Message Tags (http://ircv3.net/specs/core/message-tags-3.2.html)
//
// <message> ::= ['@' <tags> <SPACE>] [':' <prefix> <SPACE> ] <command> <params> <crlf>
// <tags> ::= <tag> [';' <tag>]*
// <tag> ::= <key> ['=' <escaped value>]
// <key> ::= [ <vendor> '/' ] <sequence of letters, digits, hyphens (`-`)>
// <escaped value> ::= <sequence of any characters except NUL, CR, LF, semicolon (`;`) and SPACE>
// <vendor> ::= <host>
type Tags map[string]string
// ParseTags takes a string and attempts to create a Tags struct
func ParseTags(raw string) (t Tags) {
t = make(Tags)
tags := strings.Split(raw, string(tagsSeparator))
for _, val := range tags {
replacedVal := tagEscapeReplacer.Replace(val)
tagParts := strings.SplitN(replacedVal, string(tagsEquals), 2)
// Tag must at least contain a key
if len(tagParts) < 1 {
continue
}
// Tag only contains key, set empty value
if len(tagParts) == 1 {
t[tagParts[0]] = ""
continue
}
t[tagParts[0]] = tagParts[1]
}
return t
}
// GetTag checks whether a tag with the given key exists. The boolean return value indicates whether a value was found
func (t Tags) GetTag(key string) (string, bool) {
if t != nil {
if val, ok := t[key]; ok {
return val, true
}
}
return "", false
}
// writeTo is an utility function to write the tags list to a bytes.Buffer.
func (t Tags) writeTo(buffer *bytes.Buffer) {
buffer.WriteByte(tags)
i := 0
mapLen := len(t)
for k, v := range t {
buffer.WriteString(k)
if v != "" {
buffer.WriteByte(tagsEquals)
buffer.WriteString(v)
}
if i != mapLen-1 {
buffer.WriteByte(tagsSeparator)
}
i++
}
}
// Bytes returns the []byte representation of this collection of message tags
func (t Tags) Bytes() []byte {
if t == nil {
return nil
}
buffer := new(bytes.Buffer)
t.writeTo(buffer)
return buffer.Bytes()
}
// String returns the string representation of all set message tags
func (t Tags) String() (s string) {
return string(t.Bytes())
}
// Prefix represents the prefix (sender) of an IRC message.
// See RFC1459 section 2.3.1.
//
// <servername> | <nick> [ '!' <user> ] [ '@' <host> ]
//
type Prefix struct {
Name string // Nick- or servername
User string // Username
Host string // Hostname
}
func indexByte(s string, c byte) int {
return strings.IndexByte(s, c)
}
// ParsePrefix takes a string and attempts to create a Prefix struct.
func ParsePrefix(raw string) (p *Prefix) {
p = new(Prefix)
user := indexByte(raw, prefixUser)
host := indexByte(raw, prefixHost)
switch {
case user > 0 && host > user:
p.Name = raw[:user]
p.User = raw[user+1 : host]
p.Host = raw[host+1:]
case user > 0:
p.Name = raw[:user]
p.User = raw[user+1:]
case host > 0:
p.Name = raw[:host]
p.Host = raw[host+1:]
default:
p.Name = raw
}
return p
}
// Len calculates the length of the string representation of this prefix.
func (p *Prefix) Len() (length int) {
length = len(p.Name)
if len(p.User) > 0 {
length = length + len(p.User) + 1
}
if len(p.Host) > 0 {
length = length + len(p.Host) + 1
}
return
}
// Bytes returns a []byte representation of this prefix.
func (p *Prefix) Bytes() []byte {
buffer := new(bytes.Buffer)
p.writeTo(buffer)
return buffer.Bytes()
}
// String returns a string representation of this prefix.
func (p *Prefix) String() (s string) {
// Benchmarks revealed that in this case simple string concatenation
// is actually faster than using a ByteBuffer as in (*Message).String()
s = p.Name
if len(p.User) > 0 {
s = s + string(prefixUser) + p.User
}
if len(p.Host) > 0 {
s = s + string(prefixHost) + p.Host
}
return
}
// IsHostmask returns true if this prefix looks like a user hostmask.
func (p *Prefix) IsHostmask() bool {
return len(p.User) > 0 && len(p.Host) > 0
}
// IsServer returns true if this prefix looks like a server name.
func (p *Prefix) IsServer() bool {
return len(p.User) <= 0 && len(p.Host) <= 0 // && indexByte(p.Name, '.') > 0
}
// writeTo is an utility function to write the prefix to the bytes.Buffer in Message.String().
func (p *Prefix) writeTo(buffer *bytes.Buffer) {
buffer.WriteString(p.Name)
if len(p.User) > 0 {
buffer.WriteByte(prefixUser)
buffer.WriteString(p.User)
}
if len(p.Host) > 0 {
buffer.WriteByte(prefixHost)
buffer.WriteString(p.Host)
}
return
}
// Message represents an IRC protocol message.
// See RFC1459 section 2.3.1.
//
// <message> ::= [':' <prefix> <SPACE> ] <command> <params> <crlf>
// <prefix> ::= <servername> | <nick> [ '!' <user> ] [ '@' <host> ]
// <command> ::= <letter> { <letter> } | <number> <number> <number>
// <SPACE> ::= ' ' { ' ' }
// <params> ::= <SPACE> [ ':' <trailing> | <middle> <params> ]
//
// <middle> ::= <Any *non-empty* sequence of octets not including SPACE
// or NUL or CR or LF, the first of which may not be ':'>
// <trailing> ::= <Any, possibly *empty*, sequence of octets not including
// NUL or CR or LF>
//
// <crlf> ::= CR LF
type Message struct {
Tags
*Prefix
Command string
Params []string
}
// Param returns the i'th parameter.
// Returns the empty string if the requested parameter does not exist.
func (m *Message) Param(i int) string {
if i < 0 || i >= len(m.Params) {
return ""
}
return m.Params[i]
}
// Trailing returns the last parameter.
// Returns the empty string if there are no parameters.
func (m *Message) Trailing() string {
if len(m.Params) > 0 {
return m.Params[len(m.Params)-1]
}
return ""
}
// ParseMessage takes a string and attempts to create a Message struct.
// Returns nil if the Message is invalid.
func ParseMessage(raw string) (m *Message) {
// Ignore empty messages.
if raw = strings.TrimFunc(raw, cutsetFunc); len(raw) < 2 {
return nil
}
i, j, k := 0, 0, 0
m = new(Message)
if raw[k] == tags {
// Tags end with a space
k = indexByte(raw, space)
// Tags must not be empty if the indicator is present
if k < 2 {
return nil
}
m.Tags = ParseTags(raw[1:k])
// Skip space at the end of the tags
k++
}
if raw[k] == prefix {
// Prefix ends with a space.
i = k + indexByte(raw[k:], space)
// Prefix string must not be empty if the indicator is present.
if i < 2 {
return nil
}
m.Prefix = ParsePrefix(raw[k+1 : i])
// Skip space at the end of the prefix
i++
} else {
i = k
}
// Find end of command
j = i + indexByte(raw[i:], space)
// Extract command
if j > i {
m.Command = strings.ToUpper(raw[i:j])
} else {
m.Command = strings.ToUpper(raw[i:])
// We're done here!
return m
}
// Find prefix for trailer. Note that because we need to match the trailing
// argument even if it's the only one, we can't skip the space until we've
// searched for it.
i = strings.Index(raw[j:], " :")
// Skip the space
j++
if i < 0 {
// There is no trailing argument!
m.Params = strings.Split(raw[j:], string(space))
// We're done here!
return m
}
// Compensate for index on substring. Note that we skipped the space after
// looking for i, so we need to subtract 1 to account for that.
i = i + j - 1
// Check if we need to parse arguments.
if i > j {
m.Params = strings.Split(raw[j:i], string(space))
}
m.Params = append(m.Params, raw[i+2:])
return m
}
// Len calculates the length of the string representation of this message.
func (m *Message) Len() (length int) {
if m.Prefix != nil {
length = m.Prefix.Len() + 2 // Include prefix and trailing space
}
length = length + len(m.Command)
if len(m.Params) > 0 {
length = length + len(m.Params)
for _, param := range m.Params {
length = length + len(param)
}
if trailing := m.Trailing(); len(trailing) < 1 || strings.Contains(trailing, " ") || trailing[0] == ':' {
// Add one for the colon in the trailing parameter
length++
}
}
return
}
// Bytes returns a []byte representation of this message.
//
// As noted in rfc2812 section 2.3, messages should not exceed 512 characters
// in length. This method forces that limit by discarding any characters
// exceeding the length limit.
func (m *Message) Bytes() []byte {
buffer := new(bytes.Buffer)
// Message tags
if m.Tags != nil {
buffer.WriteByte(tags)
m.Tags.writeTo(buffer)
buffer.WriteByte(space)
}
// Message prefix
if m.Prefix != nil {
buffer.WriteByte(prefix)
m.Prefix.writeTo(buffer)
buffer.WriteByte(space)
}
// Command is required
buffer.WriteString(m.Command)
// Space separated list of arguments
if len(m.Params) > 1 {
buffer.WriteByte(space)
buffer.WriteString(strings.Join(m.Params[:len(m.Params)-1], string(space)))
}
if len(m.Params) > 0 {
buffer.WriteByte(space)
trailing := m.Trailing()
if len(trailing) < 1 || strings.Contains(trailing, " ") || trailing[0] == ':' {
buffer.WriteByte(prefix)
}
buffer.WriteString(trailing)
}
// We need the limit the buffer length.
if buffer.Len() > (maxLength) {
buffer.Truncate(maxLength)
}
return buffer.Bytes()
}
// String returns a string representation of this message.
//
// As noted in rfc2812 section 2.3, messages should not exceed 512 characters
// in length. This method forces that limit by discarding any characters
// exceeding the length limit.
func (m *Message) String() string {
return string(m.Bytes())
}