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matterbridge/vendor/github.com/lrstanley/girc/cap.go
2018-09-14 00:18:20 +02:00

239 lines
6.2 KiB
Go

// Copyright (c) Liam Stanley <me@liamstanley.io>. All rights reserved. Use
// of this source code is governed by the MIT license that can be found in
// the LICENSE file.
package girc
import (
"strings"
)
// Something not in the list? Depending on the type of capability, you can
// enable it using Config.SupportedCaps.
var possibleCap = map[string][]string{
"account-notify": nil,
"account-tag": nil,
"away-notify": nil,
"batch": nil,
"cap-notify": nil,
"chghost": nil,
"extended-join": nil,
"invite-notify": nil,
"multi-prefix": nil,
"server-time": nil,
"userhost-in-names": nil,
"draft/message-tags-0.2": nil,
"draft/msgid": nil,
// "echo-message" is supported, but it's not enabled by default. This is
// to prevent unwanted confusion and utilize less traffic if it's not needed.
// echo messages aren't sent to girc.PRIVMSG and girc.NOTICE handlers,
// rather they are only sent to girc.ALL_EVENTS handlers (this is to prevent
// each handler to have to check these types of things for each message).
// You can compare events using Event.Equals() to see if they are the same.
}
// https://ircv3.net/specs/extensions/server-time-3.2.html
// <value> ::= YYYY-MM-DDThh:mm:ss.sssZ
const capServerTimeFormat = "2006-01-02T15:04:05.999Z"
func (c *Client) listCAP() {
if !c.Config.disableTracking {
c.write(&Event{Command: CAP, Params: []string{CAP_LS, "302"}})
}
}
func possibleCapList(c *Client) map[string][]string {
out := make(map[string][]string)
if c.Config.SASL != nil {
out["sasl"] = nil
}
for k := range c.Config.SupportedCaps {
out[k] = c.Config.SupportedCaps[k]
}
for k := range possibleCap {
out[k] = possibleCap[k]
}
return out
}
func parseCap(raw string) map[string][]string {
out := make(map[string][]string)
parts := strings.Split(raw, " ")
var val int
for i := 0; i < len(parts); i++ {
val = strings.IndexByte(parts[i], prefixTagValue) // =
// No value splitter, or has splitter but no trailing value.
if val < 1 || len(parts[i]) < val+1 {
// The capability doesn't contain a value.
out[parts[i]] = nil
continue
}
out[parts[i][:val]] = strings.Split(parts[i][val+1:], ",")
}
return out
}
// handleCAP attempts to find out what IRCv3 capabilities the server supports.
// This will lock further registration until we have acknowledged (or denied)
// the capabilities.
func handleCAP(c *Client, e Event) {
if len(e.Params) >= 2 && (e.Params[1] == CAP_NEW || e.Params[1] == CAP_DEL) {
c.listCAP()
return
}
// We can assume there was a failure attempting to enable a capability.
if len(e.Params) == 2 && e.Params[1] == CAP_NAK {
// Let the server know that we're done.
c.write(&Event{Command: CAP, Params: []string{CAP_END}})
return
}
possible := possibleCapList(c)
if len(e.Params) >= 2 && e.Params[1] == CAP_LS {
c.state.Lock()
caps := parseCap(e.Trailing)
for k := range caps {
if _, ok := possible[k]; !ok {
continue
}
if len(possible[k]) == 0 || len(caps[k]) == 0 {
c.state.tmpCap = append(c.state.tmpCap, k)
continue
}
var contains bool
for i := 0; i < len(caps[k]); i++ {
for j := 0; j < len(possible[k]); j++ {
if caps[k][i] == possible[k][j] {
// Assume we have a matching split value.
contains = true
goto checkcontains
}
}
}
checkcontains:
if !contains {
continue
}
c.state.tmpCap = append(c.state.tmpCap, k)
}
c.state.Unlock()
// Indicates if this is a multi-line LS. (2 args means it's the
// last LS).
if len(e.Params) == 2 {
// If we support no caps, just ack the CAP message and END.
if len(c.state.tmpCap) == 0 {
c.write(&Event{Command: CAP, Params: []string{CAP_END}})
return
}
// Let them know which ones we'd like to enable.
c.write(&Event{Command: CAP, Params: []string{CAP_REQ}, Trailing: strings.Join(c.state.tmpCap, " "), EmptyTrailing: true})
// Re-initialize the tmpCap, so if we get multiple 'CAP LS' requests
// due to cap-notify, we can re-evaluate what we can support.
c.state.Lock()
c.state.tmpCap = []string{}
c.state.Unlock()
}
}
if len(e.Params) == 2 && len(e.Trailing) > 1 && e.Params[1] == CAP_ACK {
c.state.Lock()
c.state.enabledCap = strings.Split(e.Trailing, " ")
// Do we need to do sasl auth?
wantsSASL := false
for i := 0; i < len(c.state.enabledCap); i++ {
if c.state.enabledCap[i] == "sasl" {
wantsSASL = true
break
}
}
c.state.Unlock()
if wantsSASL {
c.write(&Event{Command: AUTHENTICATE, Params: []string{c.Config.SASL.Method()}})
// Don't "CAP END", since we want to authenticate.
return
}
// Let the server know that we're done.
c.write(&Event{Command: CAP, Params: []string{CAP_END}})
return
}
}
// handleCHGHOST handles incoming IRCv3 hostname change events. CHGHOST is
// what occurs (when enabled) when a servers services change the hostname of
// a user. Traditionally, this was simply resolved with a quick QUIT and JOIN,
// however CHGHOST resolves this in a much cleaner fashion.
func handleCHGHOST(c *Client, e Event) {
if len(e.Params) != 2 {
return
}
c.state.Lock()
user := c.state.lookupUser(e.Source.Name)
if user != nil {
user.Ident = e.Params[0]
user.Host = e.Params[1]
}
c.state.Unlock()
c.state.notify(c, UPDATE_STATE)
}
// handleAWAY handles incoming IRCv3 AWAY events, for which are sent both
// when users are no longer away, or when they are away.
func handleAWAY(c *Client, e Event) {
c.state.Lock()
user := c.state.lookupUser(e.Source.Name)
if user != nil {
user.Extras.Away = e.Trailing
}
c.state.Unlock()
c.state.notify(c, UPDATE_STATE)
}
// handleACCOUNT handles incoming IRCv3 ACCOUNT events. ACCOUNT is sent when
// a user logs into an account, logs out of their account, or logs into a
// different account. The account backend is handled server-side, so this
// could be NickServ, X (undernet?), etc.
func handleACCOUNT(c *Client, e Event) {
if len(e.Params) != 1 {
return
}
account := e.Params[0]
if account == "*" {
account = ""
}
c.state.Lock()
user := c.state.lookupUser(e.Source.Name)
if user != nil {
user.Extras.Account = account
}
c.state.Unlock()
c.state.notify(c, UPDATE_STATE)
}