5
0
mirror of https://github.com/cwinfo/matterbridge.git synced 2024-11-23 01:11:37 +00:00
matterbridge/vendor/github.com/lrstanley/girc/cap.go
2019-09-07 21:35:45 +02:00

356 lines
10 KiB
Go
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

// 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 (
"fmt"
"strconv"
"strings"
"time"
)
// 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,
"message-tags": nil,
"msgid": nil,
"multi-prefix": nil,
"server-time": nil,
"userhost-in-names": nil,
// Supported draft versions, some may be duplicated above, this is for backwards
// compatibility.
"draft/message-tags-0.2": nil,
"draft/msgid": nil,
// sts, sasl, etc are enabled dynamically/depending on client configuration,
// so aren't included on this list.
// "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
}
if !c.Config.DisableSTS && !c.Config.SSL {
// If fallback supported, and we failed recently, don't try negotiating STS.
// ONLY do this fallback if we're expired (primarily useful during the first
// sts negotation).
if time.Since(c.state.sts.lastFailed) < 5*time.Minute && !c.Config.DisableSTSFallback {
c.debug.Println("skipping strict transport policy negotiation; failed within the last 5 minutes")
} else {
out["sts"] = 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]map[string]string {
out := make(map[string]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]] = make(map[string]string)
for _, option := range strings.Split(parts[i][val+1:], ",") {
j := strings.Index(option, "=")
if j < 0 {
out[parts[i][:val]][option] = ""
} else {
out[parts[i][:val]][option[:j]] = option[j+1 : len(option)]
}
}
}
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) {
c.state.Lock()
defer c.state.Unlock()
if len(e.Params) >= 2 && e.Params[1] == CAP_DEL {
caps := parseCap(e.Last())
for cap := range caps {
// TODO: test the deletion.
delete(c.state.enabledCap, cap)
}
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)
// TODO: test the addition.
if len(e.Params) >= 3 && (e.Params[1] == CAP_LS || e.Params[1] == CAP_NEW) {
caps := parseCap(e.Last())
for capName := range caps {
if _, ok := possible[capName]; !ok {
continue
}
if len(possible[capName]) == 0 || len(caps[capName]) == 0 {
c.state.tmpCap[capName] = caps[capName]
continue
}
var contains bool
for capAttr := range caps[capName] {
for i := 0; i < len(possible[capName]); i++ {
if _, ok := caps[capName][capAttr]; ok {
// Assuming we have a matching attribute for the capability.
contains = true
goto checkcontains
}
}
}
checkcontains:
if !contains {
continue
}
c.state.tmpCap[capName] = caps[capName]
}
// Indicates if this is a multi-line LS. (3 args means it's the
// last LS).
if len(e.Params) == 3 {
// 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.
reqKeys := make([]string, len(c.state.tmpCap))
i := 0
for k := range c.state.tmpCap {
reqKeys[i] = k
i++
}
c.write(&Event{Command: CAP, Params: []string{CAP_REQ, strings.Join(reqKeys, " ")}})
}
}
if len(e.Params) == 3 && e.Params[1] == CAP_ACK {
enabled := strings.Split(e.Last(), " ")
for _, cap := range enabled {
if val, ok := c.state.tmpCap[cap]; ok {
c.state.enabledCap[cap] = val
} else {
c.state.enabledCap[cap] = nil
}
}
// Anything client side that needs to be setup post-capability-acknowledgement,
// should be done here.
// Handle STS, and only if it's something specifically we enabled (client
// may choose to disable girc automatic STS, and do it themselves).
if sts, sok := c.state.enabledCap["sts"]; sok && !c.Config.DisableSTS {
var isError bool
// Some things are updated in the policy depending on if the current
// connection is over tls or not.
var hasTLSConnection bool
if tlsState, _ := c.TLSConnectionState(); tlsState != nil {
hasTLSConnection = true
}
// "This key indicates the port number for making a secure connection.
// This keys value MUST be a single port number. If the client is not
// already connected securely to the server at the requested hostname,
// it MUST close the insecure connection and reconnect securely on the
// stated port.
//
// To enforce an STS upgrade policy, servers MUST send this key to
// insecurely connected clients. Servers MAY send this key to securely
// connected clients, but it will be ignored."
//
// See: https://ircv3.net/specs/extensions/sts#the-port-key
if !hasTLSConnection {
if port, ok := sts["port"]; ok {
c.state.sts.upgradePort, _ = strconv.Atoi(port)
if c.state.sts.upgradePort < 21 {
isError = true
}
} else {
isError = true
}
}
// "This key is used on secure connections to indicate how long clients
// MUST continue to use secure connections when connecting to the server
// at the requested hostname. The value of this key MUST be given as a
// single integer which represents the number of seconds until the persistence
// policy expires.
//
// To enforce an STS persistence policy, servers MUST send this key to
// securely connected clients. Servers MAY send this key to all clients,
// but insecurely connected clients MUST ignore it."
//
// See: https://ircv3.net/specs/extensions/sts#the-duration-key
if hasTLSConnection {
if duration, ok := sts["duration"]; ok {
c.state.sts.persistenceDuration, _ = strconv.Atoi(duration)
c.state.sts.persistenceReceived = time.Now()
} else {
isError = true
}
}
// See: https://ircv3.net/specs/extensions/sts#the-preload-key
if hasTLSConnection {
if preload, ok := sts["preload"]; ok {
c.state.sts.preload, _ = strconv.ParseBool(preload)
}
}
if isError {
c.rx <- &Event{Command: ERROR, Params: []string{
fmt.Sprintf("closing connection: strict transport policy provided by server is invalid; possible MITM? config: %#v", sts),
}}
return
}
// Only upgrade if not already upgraded.
if !hasTLSConnection {
c.state.sts.beginUpgrade = true
c.RunHandlers(&Event{Command: STS_UPGRADE_INIT})
c.debug.Println("strict transport security policy provided by server; closing connection to begin upgrade...")
c.Close()
return
}
}
// 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.tmpCap = make(map[string]map[string]string)
if _, ok := c.state.enabledCap["sasl"]; ok && c.Config.SASL != nil {
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.Last()
}
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)
}