soju/downstream.go

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package soju
import (
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"crypto/tls"
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"encoding/base64"
"fmt"
"io"
"net"
"strconv"
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"strings"
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"time"
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"github.com/emersion/go-sasl"
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"golang.org/x/crypto/bcrypt"
"gopkg.in/irc.v3"
)
type ircError struct {
Message *irc.Message
}
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func (err ircError) Error() string {
return err.Message.String()
}
func newUnknownCommandError(cmd string) ircError {
return ircError{&irc.Message{
Command: irc.ERR_UNKNOWNCOMMAND,
Params: []string{
"*",
cmd,
"Unknown command",
},
}}
}
func newNeedMoreParamsError(cmd string) ircError {
return ircError{&irc.Message{
Command: irc.ERR_NEEDMOREPARAMS,
Params: []string{
"*",
cmd,
"Not enough parameters",
},
}}
}
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var errAuthFailed = ircError{&irc.Message{
Command: irc.ERR_PASSWDMISMATCH,
Params: []string{"*", "Invalid username or password"},
}}
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// permanentDownstreamCaps is the list of always-supported downstream
// capabilities.
var permanentDownstreamCaps = map[string]string{
"batch": "",
"cap-notify": "",
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"echo-message": "",
"message-tags": "",
"sasl": "PLAIN",
"server-time": "",
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}
type downstreamConn struct {
conn
id uint64
registered bool
user *user
nick string
rawUsername string
networkName string
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clientName string
realname string
hostname string
password string // empty after authentication
network *network // can be nil
negociatingCaps bool
capVersion int
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supportedCaps map[string]string
caps map[string]bool
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saslServer sasl.Server
}
func newDownstreamConn(srv *Server, netConn net.Conn, id uint64) *downstreamConn {
logger := &prefixLogger{srv.Logger, fmt.Sprintf("downstream %q: ", netConn.RemoteAddr())}
dc := &downstreamConn{
conn: *newConn(srv, netConn, logger),
id: id,
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supportedCaps: make(map[string]string),
caps: make(map[string]bool),
}
dc.hostname = netConn.RemoteAddr().String()
if host, _, err := net.SplitHostPort(dc.hostname); err == nil {
dc.hostname = host
}
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for k, v := range permanentDownstreamCaps {
dc.supportedCaps[k] = v
}
return dc
}
func (dc *downstreamConn) prefix() *irc.Prefix {
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return &irc.Prefix{
Name: dc.nick,
User: dc.user.Username,
Host: dc.hostname,
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}
}
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func (dc *downstreamConn) forEachNetwork(f func(*network)) {
if dc.network != nil {
f(dc.network)
} else {
dc.user.forEachNetwork(f)
}
}
func (dc *downstreamConn) forEachUpstream(f func(*upstreamConn)) {
dc.user.forEachUpstream(func(uc *upstreamConn) {
if dc.network != nil && uc.network != dc.network {
return
}
f(uc)
})
}
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// upstream returns the upstream connection, if any. If there are zero or if
// there are multiple upstream connections, it returns nil.
func (dc *downstreamConn) upstream() *upstreamConn {
if dc.network == nil {
return nil
}
return dc.network.conn
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}
func isOurNick(net *network, nick string) bool {
// TODO: this doesn't account for nick changes
if net.conn != nil {
return nick == net.conn.nick
}
// We're not currently connected to the upstream connection, so we don't
// know whether this name is our nickname. Best-effort: use the network's
// configured nickname and hope it was the one being used when we were
// connected.
return nick == net.Nick
}
// marshalEntity converts an upstream entity name (ie. channel or nick) into a
// downstream entity name.
//
// This involves adding a "/<network>" suffix if the entity isn't the current
// user.
func (dc *downstreamConn) marshalEntity(net *network, name string) string {
if dc.network != nil {
if dc.network != net {
panic("soju: tried to marshal an entity for another network")
}
return name
}
if isOurNick(net, name) {
return dc.nick
}
return name + "/" + net.GetName()
}
func (dc *downstreamConn) marshalUserPrefix(net *network, prefix *irc.Prefix) *irc.Prefix {
if isOurNick(net, prefix.Name) {
return dc.prefix()
}
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if dc.network != nil {
if dc.network != net {
panic("soju: tried to marshal a user prefix for another network")
}
return prefix
}
return &irc.Prefix{
Name: prefix.Name + "/" + net.GetName(),
User: prefix.User,
Host: prefix.Host,
}
}
// unmarshalEntity converts a downstream entity name (ie. channel or nick) into
// an upstream entity name.
//
// This involves removing the "/<network>" suffix.
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func (dc *downstreamConn) unmarshalEntity(name string) (*upstreamConn, string, error) {
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if uc := dc.upstream(); uc != nil {
return uc, name, nil
}
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var conn *upstreamConn
if i := strings.LastIndexByte(name, '/'); i >= 0 {
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network := name[i+1:]
name = name[:i]
dc.forEachUpstream(func(uc *upstreamConn) {
if network != uc.network.GetName() {
return
}
conn = uc
})
}
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if conn == nil {
return nil, "", ircError{&irc.Message{
Command: irc.ERR_NOSUCHCHANNEL,
Params: []string{name, "No such channel"},
}}
}
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return conn, name, nil
}
func (dc *downstreamConn) unmarshalText(uc *upstreamConn, text string) string {
if dc.upstream() != nil {
return text
}
// TODO: smarter parsing that ignores URLs
return strings.ReplaceAll(text, "/"+uc.network.GetName(), "")
}
func (dc *downstreamConn) readMessages(ch chan<- event) error {
for {
msg, err := dc.ReadMessage()
if err == io.EOF {
break
} else if err != nil {
return fmt.Errorf("failed to read IRC command: %v", err)
}
ch <- eventDownstreamMessage{msg, dc}
}
return nil
}
// SendMessage sends an outgoing message.
//
// This can only called from the user goroutine.
func (dc *downstreamConn) SendMessage(msg *irc.Message) {
if !dc.caps["message-tags"] {
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msg = msg.Copy()
for name := range msg.Tags {
supported := false
switch name {
case "time":
supported = dc.caps["server-time"]
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}
if !supported {
delete(msg.Tags, name)
}
}
}
dc.conn.SendMessage(msg)
}
// marshalMessage re-formats a message coming from an upstream connection so
// that it's suitable for being sent on this downstream connection. Only
// messages that may appear in logs are supported.
func (dc *downstreamConn) marshalMessage(msg *irc.Message, net *network) *irc.Message {
msg = msg.Copy()
msg.Prefix = dc.marshalUserPrefix(net, msg.Prefix)
switch msg.Command {
case "PRIVMSG", "NOTICE":
msg.Params[0] = dc.marshalEntity(net, msg.Params[0])
case "NICK":
// Nick change for another user
msg.Params[0] = dc.marshalEntity(net, msg.Params[0])
case "JOIN", "PART":
msg.Params[0] = dc.marshalEntity(net, msg.Params[0])
case "KICK":
msg.Params[0] = dc.marshalEntity(net, msg.Params[0])
msg.Params[1] = dc.marshalEntity(net, msg.Params[1])
case "TOPIC":
msg.Params[0] = dc.marshalEntity(net, msg.Params[0])
case "MODE":
msg.Params[0] = dc.marshalEntity(net, msg.Params[0])
case "QUIT":
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// This space is intentionally left blank
default:
panic(fmt.Sprintf("unexpected %q message", msg.Command))
}
return msg
}
func (dc *downstreamConn) handleMessage(msg *irc.Message) error {
switch msg.Command {
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case "QUIT":
return dc.Close()
default:
if dc.registered {
return dc.handleMessageRegistered(msg)
} else {
return dc.handleMessageUnregistered(msg)
}
}
}
func (dc *downstreamConn) handleMessageUnregistered(msg *irc.Message) error {
switch msg.Command {
case "NICK":
var nick string
if err := parseMessageParams(msg, &nick); err != nil {
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return err
}
if nick == serviceNick {
return ircError{&irc.Message{
Command: irc.ERR_NICKNAMEINUSE,
Params: []string{dc.nick, nick, "Nickname reserved for bouncer service"},
}}
}
dc.nick = nick
case "USER":
if err := parseMessageParams(msg, &dc.rawUsername, nil, nil, &dc.realname); err != nil {
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return err
}
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case "PASS":
if err := parseMessageParams(msg, &dc.password); err != nil {
return err
}
case "CAP":
var subCmd string
if err := parseMessageParams(msg, &subCmd); err != nil {
return err
}
if err := dc.handleCapCommand(subCmd, msg.Params[1:]); err != nil {
return err
}
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case "AUTHENTICATE":
if !dc.caps["sasl"] {
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return ircError{&irc.Message{
Command: irc.ERR_SASLFAIL,
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Params: []string{"*", "AUTHENTICATE requires the \"sasl\" capability to be enabled"},
}}
}
if len(msg.Params) == 0 {
return ircError{&irc.Message{
Command: irc.ERR_SASLFAIL,
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Params: []string{"*", "Missing AUTHENTICATE argument"},
}}
}
if dc.nick == "" {
return ircError{&irc.Message{
Command: irc.ERR_SASLFAIL,
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Params: []string{"*", "Expected NICK command before AUTHENTICATE"},
}}
}
var resp []byte
if dc.saslServer == nil {
mech := strings.ToUpper(msg.Params[0])
switch mech {
case "PLAIN":
dc.saslServer = sasl.NewPlainServer(sasl.PlainAuthenticator(func(identity, username, password string) error {
return dc.authenticate(username, password)
}))
default:
return ircError{&irc.Message{
Command: irc.ERR_SASLFAIL,
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Params: []string{"*", fmt.Sprintf("Unsupported SASL mechanism %q", mech)},
}}
}
} else if msg.Params[0] == "*" {
dc.saslServer = nil
return ircError{&irc.Message{
Command: irc.ERR_SASLABORTED,
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Params: []string{"*", "SASL authentication aborted"},
}}
} else if msg.Params[0] == "+" {
resp = nil
} else {
// TODO: multi-line messages
var err error
resp, err = base64.StdEncoding.DecodeString(msg.Params[0])
if err != nil {
dc.saslServer = nil
return ircError{&irc.Message{
Command: irc.ERR_SASLFAIL,
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Params: []string{"*", "Invalid base64-encoded response"},
}}
}
}
challenge, done, err := dc.saslServer.Next(resp)
if err != nil {
dc.saslServer = nil
if ircErr, ok := err.(ircError); ok && ircErr.Message.Command == irc.ERR_PASSWDMISMATCH {
return ircError{&irc.Message{
Command: irc.ERR_SASLFAIL,
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Params: []string{"*", ircErr.Message.Params[1]},
}}
}
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.ERR_SASLFAIL,
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Params: []string{"*", "SASL error"},
})
return fmt.Errorf("SASL authentication failed: %v", err)
} else if done {
dc.saslServer = nil
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_LOGGEDIN,
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Params: []string{dc.nick, dc.nick, dc.user.Username, "You are now logged in"},
})
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_SASLSUCCESS,
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Params: []string{dc.nick, "SASL authentication successful"},
})
} else {
challengeStr := "+"
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if len(challenge) > 0 {
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challengeStr = base64.StdEncoding.EncodeToString(challenge)
}
// TODO: multi-line messages
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: "AUTHENTICATE",
Params: []string{challengeStr},
})
}
default:
dc.logger.Printf("unhandled message: %v", msg)
return newUnknownCommandError(msg.Command)
}
if dc.rawUsername != "" && dc.nick != "" && !dc.negociatingCaps {
return dc.register()
}
return nil
}
func (dc *downstreamConn) handleCapCommand(cmd string, args []string) error {
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cmd = strings.ToUpper(cmd)
replyTo := dc.nick
if !dc.registered {
replyTo = "*"
}
switch cmd {
case "LS":
if len(args) > 0 {
var err error
if dc.capVersion, err = strconv.Atoi(args[0]); err != nil {
return err
}
}
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caps := make([]string, 0, len(dc.supportedCaps))
for k, v := range dc.supportedCaps {
if dc.capVersion >= 302 && v != "" {
caps = append(caps, k+"="+v)
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} else {
caps = append(caps, k)
}
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}
// TODO: multi-line replies
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: "CAP",
Params: []string{replyTo, "LS", strings.Join(caps, " ")},
})
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if dc.capVersion >= 302 {
// CAP version 302 implicitly enables cap-notify
dc.caps["cap-notify"] = true
}
if !dc.registered {
dc.negociatingCaps = true
}
case "LIST":
var caps []string
for name := range dc.caps {
caps = append(caps, name)
}
// TODO: multi-line replies
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: "CAP",
Params: []string{replyTo, "LIST", strings.Join(caps, " ")},
})
case "REQ":
if len(args) == 0 {
return ircError{&irc.Message{
Command: err_invalidcapcmd,
Params: []string{replyTo, cmd, "Missing argument in CAP REQ command"},
}}
}
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// TODO: atomically ack/nak the whole capability set
caps := strings.Fields(args[0])
ack := true
for _, name := range caps {
name = strings.ToLower(name)
enable := !strings.HasPrefix(name, "-")
if !enable {
name = strings.TrimPrefix(name, "-")
}
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if enable == dc.caps[name] {
continue
}
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_, ok := dc.supportedCaps[name]
if !ok {
ack = false
break
}
if name == "cap-notify" && dc.capVersion >= 302 && !enable {
// cap-notify cannot be disabled with CAP version 302
ack = false
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break
}
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dc.caps[name] = enable
}
reply := "NAK"
if ack {
reply = "ACK"
}
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: "CAP",
Params: []string{replyTo, reply, args[0]},
})
case "END":
dc.negociatingCaps = false
default:
return ircError{&irc.Message{
Command: err_invalidcapcmd,
Params: []string{replyTo, cmd, "Unknown CAP command"},
}}
}
return nil
}
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func (dc *downstreamConn) setSupportedCap(name, value string) {
prevValue, hasPrev := dc.supportedCaps[name]
changed := !hasPrev || prevValue != value
dc.supportedCaps[name] = value
if !dc.caps["cap-notify"] || !changed {
return
}
replyTo := dc.nick
if !dc.registered {
replyTo = "*"
}
cap := name
if value != "" && dc.capVersion >= 302 {
cap = name + "=" + value
}
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: "CAP",
Params: []string{replyTo, "NEW", cap},
})
}
func (dc *downstreamConn) unsetSupportedCap(name string) {
_, hasPrev := dc.supportedCaps[name]
delete(dc.supportedCaps, name)
delete(dc.caps, name)
if !dc.caps["cap-notify"] || !hasPrev {
return
}
replyTo := dc.nick
if !dc.registered {
replyTo = "*"
}
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: "CAP",
Params: []string{replyTo, "DEL", name},
})
}
func (dc *downstreamConn) updateSupportedCaps() {
awayNotifySupported := true
dc.forEachUpstream(func(uc *upstreamConn) {
awayNotifySupported = awayNotifySupported && uc.caps["away-notify"]
})
if awayNotifySupported {
dc.setSupportedCap("away-notify", "")
} else {
dc.unsetSupportedCap("away-notify")
}
}
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func sanityCheckServer(addr string) error {
dialer := net.Dialer{Timeout: 30 * time.Second}
conn, err := tls.DialWithDialer(&dialer, "tcp", addr, nil)
if err != nil {
return err
}
return conn.Close()
}
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func unmarshalUsername(rawUsername string) (username, client, network string) {
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username = rawUsername
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i := strings.IndexAny(username, "/@")
j := strings.LastIndexAny(username, "/@")
if i >= 0 {
username = rawUsername[:i]
}
if j >= 0 {
if rawUsername[j] == '@' {
client = rawUsername[j+1:]
} else {
network = rawUsername[j+1:]
}
}
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if i >= 0 && j >= 0 && i < j {
if rawUsername[i] == '@' {
client = rawUsername[i+1 : j]
} else {
network = rawUsername[i+1 : j]
}
}
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return username, client, network
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}
func (dc *downstreamConn) authenticate(username, password string) error {
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username, clientName, networkName := unmarshalUsername(username)
u, err := dc.srv.db.GetUser(username)
if err != nil {
dc.logger.Printf("failed authentication for %q: %v", username, err)
return errAuthFailed
}
err = bcrypt.CompareHashAndPassword([]byte(u.Password), []byte(password))
if err != nil {
dc.logger.Printf("failed authentication for %q: %v", username, err)
return errAuthFailed
}
dc.user = dc.srv.getUser(username)
if dc.user == nil {
dc.logger.Printf("failed authentication for %q: user not active", username)
return errAuthFailed
}
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dc.clientName = clientName
dc.networkName = networkName
return nil
}
func (dc *downstreamConn) register() error {
if dc.registered {
return fmt.Errorf("tried to register twice")
}
password := dc.password
dc.password = ""
if dc.user == nil {
if err := dc.authenticate(dc.rawUsername, password); err != nil {
return err
}
}
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if dc.clientName == "" && dc.networkName == "" {
_, dc.clientName, dc.networkName = unmarshalUsername(dc.rawUsername)
}
dc.registered = true
dc.logger.Printf("registration complete for user %q", dc.user.Username)
return nil
}
func (dc *downstreamConn) loadNetwork() error {
if dc.networkName == "" {
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return nil
}
network := dc.user.getNetwork(dc.networkName)
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if network == nil {
addr := dc.networkName
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if !strings.ContainsRune(addr, ':') {
addr = addr + ":6697"
}
dc.logger.Printf("trying to connect to new network %q", addr)
if err := sanityCheckServer(addr); err != nil {
dc.logger.Printf("failed to connect to %q: %v", addr, err)
return ircError{&irc.Message{
Command: irc.ERR_PASSWDMISMATCH,
Params: []string{"*", fmt.Sprintf("Failed to connect to %q", dc.networkName)},
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}}
}
dc.logger.Printf("auto-saving network %q", dc.networkName)
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var err error
network, err = dc.user.createNetwork(&Network{
Addr: dc.networkName,
Nick: dc.nick,
})
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if err != nil {
return err
}
}
dc.network = network
return nil
}
func (dc *downstreamConn) welcome() error {
if dc.user == nil || !dc.registered {
panic("tried to welcome an unregistered connection")
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}
// TODO: doing this might take some time. We should do it in dc.register
// instead, but we'll potentially be adding a new network and this must be
// done in the user goroutine.
if err := dc.loadNetwork(); err != nil {
return err
}
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_WELCOME,
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Params: []string{dc.nick, "Welcome to soju, " + dc.nick},
})
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_YOURHOST,
Params: []string{dc.nick, "Your host is " + dc.srv.Hostname},
})
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_CREATED,
Params: []string{dc.nick, "Who cares when the server was created?"},
})
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_MYINFO,
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Params: []string{dc.nick, dc.srv.Hostname, "soju", "aiwroO", "OovaimnqpsrtklbeI"},
})
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// TODO: RPL_ISUPPORT
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.ERR_NOMOTD,
Params: []string{dc.nick, "No MOTD"},
})
dc.forEachUpstream(func(uc *upstreamConn) {
for _, ch := range uc.channels {
if ch.complete {
dc.SendMessage(&irc.Message{
Prefix: dc.prefix(),
Command: "JOIN",
Params: []string{dc.marshalEntity(ch.conn.network, ch.Name)},
})
forwardChannel(dc, ch)
}
}
})
dc.forEachNetwork(func(net *network) {
// Only send history if we're the first connected client with that name
// for the network
if _, ok := net.offlineClients[dc.clientName]; ok {
dc.sendNetworkHistory(net)
delete(net.offlineClients, dc.clientName)
}
})
return nil
}
func (dc *downstreamConn) sendNetworkHistory(net *network) {
for target, history := range net.history {
seq, ok := history.offlineClients[dc.clientName]
if !ok {
continue
}
delete(history.offlineClients, dc.clientName)
// If all clients have received history, no need to keep the
// ring buffer around
if len(history.offlineClients) == 0 {
delete(net.history, target)
}
consumer := history.ring.NewConsumer(seq)
batchRef := "history"
if dc.caps["batch"] {
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: "BATCH",
Params: []string{"+" + batchRef, "chathistory", dc.marshalEntity(net, target)},
})
}
for {
msg := consumer.Consume()
if msg == nil {
break
}
// Don't replay all messages, because that would mess up client
// state. For instance we just sent the list of users, sending
// PART messages for one of these users would be incorrect.
ignore := true
switch msg.Command {
case "PRIVMSG", "NOTICE":
ignore = false
}
if ignore {
continue
}
if dc.caps["batch"] {
msg = msg.Copy()
msg.Tags["batch"] = irc.TagValue(batchRef)
}
dc.SendMessage(dc.marshalMessage(msg, net))
}
if dc.caps["batch"] {
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: "BATCH",
Params: []string{"-" + batchRef},
})
}
}
}
func (dc *downstreamConn) runUntilRegistered() error {
for !dc.registered {
msg, err := dc.ReadMessage()
if err != nil {
return fmt.Errorf("failed to read IRC command: %v", err)
}
err = dc.handleMessage(msg)
if ircErr, ok := err.(ircError); ok {
ircErr.Message.Prefix = dc.srv.prefix()
dc.SendMessage(ircErr.Message)
} else if err != nil {
return fmt.Errorf("failed to handle IRC command %q: %v", msg, err)
}
}
return nil
}
func (dc *downstreamConn) handleMessageRegistered(msg *irc.Message) error {
switch msg.Command {
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case "CAP":
var subCmd string
if err := parseMessageParams(msg, &subCmd); err != nil {
return err
}
if err := dc.handleCapCommand(subCmd, msg.Params[1:]); err != nil {
return err
}
case "PING":
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: "PONG",
Params: msg.Params,
})
return nil
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case "USER":
return ircError{&irc.Message{
Command: irc.ERR_ALREADYREGISTERED,
Params: []string{dc.nick, "You may not reregister"},
}}
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case "NICK":
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var nick string
if err := parseMessageParams(msg, &nick); err != nil {
return err
}
var err error
dc.forEachNetwork(func(n *network) {
if err != nil {
return
}
n.Nick = nick
err = dc.srv.db.StoreNetwork(dc.user.Username, &n.Network)
})
if err != nil {
return err
}
dc.forEachUpstream(func(uc *upstreamConn) {
uc.SendMessage(msg)
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})
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case "JOIN":
var namesStr string
if err := parseMessageParams(msg, &namesStr); err != nil {
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return err
}
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var keys []string
if len(msg.Params) > 1 {
keys = strings.Split(msg.Params[1], ",")
}
for i, name := range strings.Split(namesStr, ",") {
uc, upstreamName, err := dc.unmarshalEntity(name)
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if err != nil {
return err
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}
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var key string
if len(keys) > i {
key = keys[i]
}
params := []string{upstreamName}
if key != "" {
params = append(params, key)
}
uc.SendMessage(&irc.Message{
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Command: "JOIN",
Params: params,
})
ch := &Channel{Name: upstreamName, Key: key}
if err := uc.network.createUpdateChannel(ch); err != nil {
dc.logger.Printf("failed to create or update channel %q: %v", upstreamName, err)
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}
}
case "PART":
var namesStr string
if err := parseMessageParams(msg, &namesStr); err != nil {
return err
}
var reason string
if len(msg.Params) > 1 {
reason = msg.Params[1]
}
for _, name := range strings.Split(namesStr, ",") {
uc, upstreamName, err := dc.unmarshalEntity(name)
if err != nil {
return err
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}
params := []string{upstreamName}
if reason != "" {
params = append(params, reason)
}
uc.SendMessage(&irc.Message{
Command: "PART",
Params: params,
})
if err := uc.network.deleteChannel(upstreamName); err != nil {
dc.logger.Printf("failed to delete channel %q: %v", upstreamName, err)
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}
}
case "KICK":
var channelStr, userStr string
if err := parseMessageParams(msg, &channelStr, &userStr); err != nil {
return err
}
channels := strings.Split(channelStr, ",")
users := strings.Split(userStr, ",")
var reason string
if len(msg.Params) > 2 {
reason = msg.Params[2]
}
if len(channels) != 1 && len(channels) != len(users) {
return ircError{&irc.Message{
Command: irc.ERR_BADCHANMASK,
Params: []string{dc.nick, channelStr, "Bad channel mask"},
}}
}
for i, user := range users {
var channel string
if len(channels) == 1 {
channel = channels[0]
} else {
channel = channels[i]
}
ucChannel, upstreamChannel, err := dc.unmarshalEntity(channel)
if err != nil {
return err
}
ucUser, upstreamUser, err := dc.unmarshalEntity(user)
if err != nil {
return err
}
if ucChannel != ucUser {
return ircError{&irc.Message{
Command: irc.ERR_USERNOTINCHANNEL,
Params: []string{dc.nick, user, channel, "They aren't on that channel"},
}}
}
uc := ucChannel
params := []string{upstreamChannel, upstreamUser}
if reason != "" {
params = append(params, reason)
}
uc.SendMessage(&irc.Message{
Command: "KICK",
Params: params,
})
}
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case "MODE":
var name string
if err := parseMessageParams(msg, &name); err != nil {
return err
}
var modeStr string
if len(msg.Params) > 1 {
modeStr = msg.Params[1]
}
if name == dc.nick {
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if modeStr != "" {
dc.forEachUpstream(func(uc *upstreamConn) {
uc.SendMessage(&irc.Message{
Command: "MODE",
Params: []string{uc.nick, modeStr},
})
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})
} else {
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
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Command: irc.RPL_UMODEIS,
Params: []string{dc.nick, ""}, // TODO
})
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}
return nil
}
uc, upstreamName, err := dc.unmarshalEntity(name)
if err != nil {
return err
}
if !uc.isChannel(upstreamName) {
return ircError{&irc.Message{
Command: irc.ERR_USERSDONTMATCH,
Params: []string{dc.nick, "Cannot change mode for other users"},
}}
}
if modeStr != "" {
params := []string{upstreamName, modeStr}
params = append(params, msg.Params[2:]...)
uc.SendMessage(&irc.Message{
Command: "MODE",
Params: params,
})
} else {
ch, ok := uc.channels[upstreamName]
if !ok {
return ircError{&irc.Message{
Command: irc.ERR_NOSUCHCHANNEL,
Params: []string{dc.nick, name, "No such channel"},
}}
}
if ch.modes == nil {
// we haven't received the initial RPL_CHANNELMODEIS yet
// ignore the request, we will broadcast the modes later when we receive RPL_CHANNELMODEIS
return nil
}
modeStr, modeParams := ch.modes.Format()
params := []string{dc.nick, name, modeStr}
params = append(params, modeParams...)
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_CHANNELMODEIS,
Params: params,
})
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if ch.creationTime != "" {
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: rpl_creationtime,
Params: []string{dc.nick, name, ch.creationTime},
})
}
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}
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case "TOPIC":
var channel string
if err := parseMessageParams(msg, &channel); err != nil {
return err
}
uc, upstreamChannel, err := dc.unmarshalEntity(channel)
if err != nil {
return err
}
if len(msg.Params) > 1 { // setting topic
topic := msg.Params[1]
uc.SendMessage(&irc.Message{
Command: "TOPIC",
Params: []string{upstreamChannel, topic},
})
} else { // getting topic
ch, ok := uc.channels[upstreamChannel]
if !ok {
return ircError{&irc.Message{
Command: irc.ERR_NOSUCHCHANNEL,
Params: []string{dc.nick, upstreamChannel, "No such channel"},
}}
}
sendTopic(dc, ch)
}
Add LIST support This commit adds support for downstream LIST messages from multiple concurrent downstreams to multiple concurrent upstreams, including support for multiple pending LIST requests from the same downstream. Because a unique RPL_LISTEND message must be sent to the requesting downstream, and that there might be multiple upstreams, each sending their own RPL_LISTEND, a cache of RPL_LISTEND replies of some sort is required to match RPL_LISTEND together in order to only send one back downstream. This commit adds a list of "pending LIST" structs, which each contain a map of all upstreams that yet need to send a RPL_LISTEND, and the corresponding LIST request associated with that response. This list of pending LISTs is sorted according to the order that the requesting downstreams sent the LIST messages in. Each pending set also stores the id of the requesting downstream, in order to only forward the replies to it and no other downstream. (This is important because LIST replies can typically amount to several thousands messages on large servers.) When a single downstream makes multiple LIST requests, only the first one will be immediately sent to the upstream servers. The next ones will be buffered until the first one is completed. Distinct downstreams can make concurrent LIST requests without any request buffering. Each RPL_LIST message is forwarded to the downstream of the first matching pending LIST struct. When an upstream sends an RPL_LISTEND message, the upstream is removed from the first matching pending LIST struct, but that message is not immediately forwarded downstream. If there are no remaining pending LIST requests in that struct is then empty, that means all upstreams have sent back all their RPL_LISTEND replies (which means they also sent all their RPL_LIST replies); so a unique RPL_LISTEND is sent to downstream and that pending LIST set is removed from the cache. Upstreams are removed from the pending LIST structs in two other cases: - when they are closed (to avoid stalling because of a disconnected upstream that will never reply to the LIST message): they are removed from all pending LIST structs - when they reply with an ERR_UNKNOWNCOMMAND or RPL_TRYAGAIN LIST reply, which is typically used when a user is not allowed to LIST because they just joined the server: they are removed from the first pending LIST struct, as if an RPL_LISTEND message was received
2020-03-26 01:40:30 +00:00
case "LIST":
// TODO: support ELIST when supported by all upstreams
pl := pendingLIST{
downstreamID: dc.id,
pendingCommands: make(map[int64]*irc.Message),
}
var upstreamChannels map[int64][]string
if len(msg.Params) > 0 {
upstreamChannels = make(map[int64][]string)
channels := strings.Split(msg.Params[0], ",")
for _, channel := range channels {
uc, upstreamChannel, err := dc.unmarshalEntity(channel)
if err != nil {
return err
}
upstreamChannels[uc.network.ID] = append(upstreamChannels[uc.network.ID], upstreamChannel)
}
}
dc.user.pendingLISTs = append(dc.user.pendingLISTs, pl)
dc.forEachUpstream(func(uc *upstreamConn) {
var params []string
if upstreamChannels != nil {
if channels, ok := upstreamChannels[uc.network.ID]; ok {
params = []string{strings.Join(channels, ",")}
} else {
return
}
}
pl.pendingCommands[uc.network.ID] = &irc.Message{
Command: "LIST",
Params: params,
}
uc.trySendLIST(dc.id)
Add LIST support This commit adds support for downstream LIST messages from multiple concurrent downstreams to multiple concurrent upstreams, including support for multiple pending LIST requests from the same downstream. Because a unique RPL_LISTEND message must be sent to the requesting downstream, and that there might be multiple upstreams, each sending their own RPL_LISTEND, a cache of RPL_LISTEND replies of some sort is required to match RPL_LISTEND together in order to only send one back downstream. This commit adds a list of "pending LIST" structs, which each contain a map of all upstreams that yet need to send a RPL_LISTEND, and the corresponding LIST request associated with that response. This list of pending LISTs is sorted according to the order that the requesting downstreams sent the LIST messages in. Each pending set also stores the id of the requesting downstream, in order to only forward the replies to it and no other downstream. (This is important because LIST replies can typically amount to several thousands messages on large servers.) When a single downstream makes multiple LIST requests, only the first one will be immediately sent to the upstream servers. The next ones will be buffered until the first one is completed. Distinct downstreams can make concurrent LIST requests without any request buffering. Each RPL_LIST message is forwarded to the downstream of the first matching pending LIST struct. When an upstream sends an RPL_LISTEND message, the upstream is removed from the first matching pending LIST struct, but that message is not immediately forwarded downstream. If there are no remaining pending LIST requests in that struct is then empty, that means all upstreams have sent back all their RPL_LISTEND replies (which means they also sent all their RPL_LIST replies); so a unique RPL_LISTEND is sent to downstream and that pending LIST set is removed from the cache. Upstreams are removed from the pending LIST structs in two other cases: - when they are closed (to avoid stalling because of a disconnected upstream that will never reply to the LIST message): they are removed from all pending LIST structs - when they reply with an ERR_UNKNOWNCOMMAND or RPL_TRYAGAIN LIST reply, which is typically used when a user is not allowed to LIST because they just joined the server: they are removed from the first pending LIST struct, as if an RPL_LISTEND message was received
2020-03-26 01:40:30 +00:00
})
case "NAMES":
if len(msg.Params) == 0 {
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_ENDOFNAMES,
Params: []string{dc.nick, "*", "End of /NAMES list"},
})
return nil
}
channels := strings.Split(msg.Params[0], ",")
for _, channel := range channels {
uc, upstreamChannel, err := dc.unmarshalEntity(channel)
if err != nil {
return err
}
ch, ok := uc.channels[upstreamChannel]
if ok {
sendNames(dc, ch)
} else {
// NAMES on a channel we have not joined, ask upstream
uc.SendMessageLabeled(dc.id, &irc.Message{
Command: "NAMES",
Params: []string{upstreamChannel},
})
}
}
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case "WHO":
if len(msg.Params) == 0 {
// TODO: support WHO without parameters
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_ENDOFWHO,
Params: []string{dc.nick, "*", "End of /WHO list"},
2020-03-19 23:23:19 +00:00
})
return nil
}
// TODO: support WHO masks
entity := msg.Params[0]
if entity == dc.nick {
// TODO: support AWAY (H/G) in self WHO reply
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_WHOREPLY,
Params: []string{dc.nick, "*", dc.user.Username, dc.hostname, dc.srv.Hostname, dc.nick, "H", "0 " + dc.realname},
})
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_ENDOFWHO,
Params: []string{dc.nick, dc.nick, "End of /WHO list"},
})
return nil
}
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uc, upstreamName, err := dc.unmarshalEntity(entity)
if err != nil {
return err
}
var params []string
if len(msg.Params) == 2 {
params = []string{upstreamName, msg.Params[1]}
} else {
params = []string{upstreamName}
}
uc.SendMessageLabeled(dc.id, &irc.Message{
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Command: "WHO",
Params: params,
})
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case "WHOIS":
if len(msg.Params) == 0 {
return ircError{&irc.Message{
Command: irc.ERR_NONICKNAMEGIVEN,
Params: []string{dc.nick, "No nickname given"},
}}
}
var target, mask string
if len(msg.Params) == 1 {
target = ""
mask = msg.Params[0]
} else {
target = msg.Params[0]
mask = msg.Params[1]
}
// TODO: support multiple WHOIS users
if i := strings.IndexByte(mask, ','); i >= 0 {
mask = mask[:i]
}
if mask == dc.nick {
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_WHOISUSER,
Params: []string{dc.nick, dc.nick, dc.user.Username, dc.hostname, "*", dc.realname},
})
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_WHOISSERVER,
Params: []string{dc.nick, dc.nick, dc.srv.Hostname, "soju"},
})
dc.SendMessage(&irc.Message{
Prefix: dc.srv.prefix(),
Command: irc.RPL_ENDOFWHOIS,
Params: []string{dc.nick, dc.nick, "End of /WHOIS list"},
})
return nil
}
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// TODO: support WHOIS masks
uc, upstreamNick, err := dc.unmarshalEntity(mask)
if err != nil {
return err
}
var params []string
if target != "" {
params = []string{target, upstreamNick}
} else {
params = []string{upstreamNick}
}
uc.SendMessageLabeled(dc.id, &irc.Message{
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Command: "WHOIS",
Params: params,
})
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case "PRIVMSG":
var targetsStr, text string
if err := parseMessageParams(msg, &targetsStr, &text); err != nil {
return err
}
for _, name := range strings.Split(targetsStr, ",") {
if name == serviceNick {
handleServicePRIVMSG(dc, text)
continue
}
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uc, upstreamName, err := dc.unmarshalEntity(name)
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if err != nil {
return err
}
if upstreamName == "NickServ" {
dc.handleNickServPRIVMSG(uc, text)
}
unmarshaledText := text
if uc.isChannel(upstreamName) {
unmarshaledText = dc.unmarshalText(uc, text)
}
uc.SendMessage(&irc.Message{
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Command: "PRIVMSG",
Params: []string{upstreamName, unmarshaledText},
})
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echoMsg := &irc.Message{
Prefix: &irc.Prefix{
Name: uc.nick,
User: uc.username,
},
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Command: "PRIVMSG",
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Params: []string{upstreamName, text},
}
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uc.produce(upstreamName, echoMsg, dc)
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}
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case "NOTICE":
var targetsStr, text string
if err := parseMessageParams(msg, &targetsStr, &text); err != nil {
return err
}
for _, name := range strings.Split(targetsStr, ",") {
uc, upstreamName, err := dc.unmarshalEntity(name)
if err != nil {
return err
}
unmarshaledText := text
if uc.isChannel(upstreamName) {
unmarshaledText = dc.unmarshalText(uc, text)
}
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uc.SendMessage(&irc.Message{
Command: "NOTICE",
Params: []string{upstreamName, unmarshaledText},
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})
}
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case "INVITE":
var user, channel string
if err := parseMessageParams(msg, &user, &channel); err != nil {
return err
}
ucChannel, upstreamChannel, err := dc.unmarshalEntity(channel)
if err != nil {
return err
}
ucUser, upstreamUser, err := dc.unmarshalEntity(user)
if err != nil {
return err
}
if ucChannel != ucUser {
return ircError{&irc.Message{
Command: irc.ERR_USERNOTINCHANNEL,
Params: []string{dc.nick, user, channel, "They aren't on that channel"},
}}
}
uc := ucChannel
uc.SendMessageLabeled(dc.id, &irc.Message{
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Command: "INVITE",
Params: []string{upstreamUser, upstreamChannel},
})
default:
dc.logger.Printf("unhandled message: %v", msg)
return newUnknownCommandError(msg.Command)
}
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return nil
}
func (dc *downstreamConn) handleNickServPRIVMSG(uc *upstreamConn, text string) {
username, password, ok := parseNickServCredentials(text, uc.nick)
if !ok {
return
}
dc.logger.Printf("auto-saving NickServ credentials with username %q", username)
n := uc.network
n.SASL.Mechanism = "PLAIN"
n.SASL.Plain.Username = username
n.SASL.Plain.Password = password
if err := dc.srv.db.StoreNetwork(dc.user.Username, &n.Network); err != nil {
dc.logger.Printf("failed to save NickServ credentials: %v", err)
}
}
func parseNickServCredentials(text, nick string) (username, password string, ok bool) {
fields := strings.Fields(text)
if len(fields) < 2 {
return "", "", false
}
cmd := strings.ToUpper(fields[0])
params := fields[1:]
switch cmd {
case "REGISTER":
username = nick
password = params[0]
case "IDENTIFY":
if len(params) == 1 {
username = nick
password = params[0]
} else {
username = params[0]
password = params[1]
}
case "SET":
if len(params) == 2 && strings.EqualFold(params[0], "PASSWORD") {
username = nick
password = params[1]
}
}
return username, password, true
}