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ergo/irc/server.go
Daniel Oaks de7b679fc5
Merge pull request #247 from slingamn/vhosts.3
initial vhosts implementation, #183
2018-05-19 08:51:16 +10:00

1267 lines
40 KiB
Go

// Copyright (c) 2012-2014 Jeremy Latt
// Copyright (c) 2014-2015 Edmund Huber
// Copyright (c) 2016-2017 Daniel Oaks <daniel@danieloaks.net>
// released under the MIT license
package irc
import (
"bufio"
"crypto/tls"
"encoding/base64"
"fmt"
"log"
"math/rand"
"net"
"net/http"
_ "net/http/pprof"
"os"
"os/signal"
"strconv"
"strings"
"sync"
"syscall"
"time"
"github.com/goshuirc/irc-go/ircfmt"
"github.com/goshuirc/irc-go/ircmsg"
"github.com/oragono/oragono/irc/caps"
"github.com/oragono/oragono/irc/connection_limits"
"github.com/oragono/oragono/irc/isupport"
"github.com/oragono/oragono/irc/languages"
"github.com/oragono/oragono/irc/logger"
"github.com/oragono/oragono/irc/modes"
"github.com/oragono/oragono/irc/passwd"
"github.com/oragono/oragono/irc/sno"
"github.com/oragono/oragono/irc/utils"
"github.com/tidwall/buntdb"
)
var (
// common error line to sub values into
errorMsg, _ = (&[]ircmsg.IrcMessage{ircmsg.MakeMessage(nil, "", "ERROR", "%s ")}[0]).Line()
// common error responses
couldNotParseIPMsg, _ = (&[]ircmsg.IrcMessage{ircmsg.MakeMessage(nil, "", "ERROR", "Unable to parse your IP address")}[0]).Line()
// supportedUserModesString acts as a cache for when we introduce users
supportedUserModesString = modes.SupportedUserModes.String()
// supportedChannelModesString acts as a cache for when we introduce users
supportedChannelModesString = modes.SupportedChannelModes.String()
// SupportedCapabilities are the caps we advertise.
// MaxLine, SASL and STS are set during server startup.
SupportedCapabilities = caps.NewSet(caps.AccountTag, caps.AccountNotify, caps.AwayNotify, caps.Batch, caps.CapNotify, caps.ChgHost, caps.EchoMessage, caps.ExtendedJoin, caps.InviteNotify, caps.LabeledResponse, caps.Languages, caps.MessageTags, caps.MultiPrefix, caps.Rename, caps.Resume, caps.ServerTime, caps.UserhostInNames)
// CapValues are the actual values we advertise to v3.2 clients.
// actual values are set during server startup.
CapValues = caps.NewValues()
)
// Limits holds the maximum limits for various things such as topic lengths.
type Limits struct {
AwayLen int
ChannelLen int
KickLen int
MonitorEntries int
NickLen int
TopicLen int
ChanListModes int
LineLen LineLenLimits
}
// LineLenLimits holds the maximum limits for IRC lines.
type LineLenLimits struct {
Tags int
Rest int
}
// ListenerWrapper wraps a listener so it can be safely reconfigured or stopped
type ListenerWrapper struct {
listener net.Listener
tlsConfig *tls.Config
shouldStop bool
// protects atomic update of tlsConfig and shouldStop:
configMutex sync.Mutex // tier 1
}
// Server is the main Oragono server.
type Server struct {
accounts *AccountManager
batches *BatchManager
channelRegistrationEnabled bool
channels *ChannelManager
channelRegistry *ChannelRegistry
checkIdent bool
clients *ClientManager
config *Config
configFilename string
configurableStateMutex sync.RWMutex // tier 1; generic protection for server state modified by rehash()
connectionLimiter *connection_limits.Limiter
connectionThrottler *connection_limits.Throttler
ctime time.Time
defaultChannelModes modes.Modes
dlines *DLineManager
loggingRawIO bool
isupport *isupport.List
klines *KLineManager
languages *languages.Manager
limits Limits
listeners map[string]*ListenerWrapper
logger *logger.Manager
maxSendQBytes uint32
monitorManager *MonitorManager
motdLines []string
name string
nameCasefolded string
networkName string
operators map[string]*Oper
operclasses map[string]*OperClass
password []byte
passwords *passwd.SaltedManager
recoverFromErrors bool
rehashMutex sync.Mutex // tier 4
rehashSignal chan os.Signal
pprofServer *http.Server
proxyAllowedFrom []string
signals chan os.Signal
snomasks *SnoManager
store *buntdb.DB
stsEnabled bool
webirc []webircConfig
whoWas *WhoWasList
stats *Stats
semaphores *ServerSemaphores
}
var (
// ServerExitSignals are the signals the server will exit on.
ServerExitSignals = []os.Signal{
syscall.SIGINT,
syscall.SIGTERM,
syscall.SIGQUIT,
}
)
type clientConn struct {
Conn net.Conn
IsTLS bool
}
// NewServer returns a new Oragono server.
func NewServer(config *Config, logger *logger.Manager) (*Server, error) {
// initialize data structures
server := &Server{
batches: NewBatchManager(),
channels: NewChannelManager(),
clients: NewClientManager(),
connectionLimiter: connection_limits.NewLimiter(),
connectionThrottler: connection_limits.NewThrottler(),
languages: languages.NewManager(config.Languages.Default, config.Languages.Data),
listeners: make(map[string]*ListenerWrapper),
logger: logger,
monitorManager: NewMonitorManager(),
rehashSignal: make(chan os.Signal, 1),
signals: make(chan os.Signal, len(ServerExitSignals)),
snomasks: NewSnoManager(),
whoWas: NewWhoWasList(config.Limits.WhowasEntries),
stats: NewStats(),
semaphores: NewServerSemaphores(),
}
if err := server.applyConfig(config, true); err != nil {
return nil, err
}
// generate help info
if err := GenerateHelpIndices(server.languages); err != nil {
return nil, err
}
// confirm help entries for ChanServ exist.
// this forces people to write help entries for every single CS command.
for commandName, commandInfo := range chanservCommands {
if commandInfo.help == "" || commandInfo.helpShort == "" {
return nil, fmt.Errorf("Help entry does not exist for ChanServ command %s", commandName)
}
}
// confirm help entries for NickServ exist.
// this forces people to write help entries for every single NS command.
for commandName, commandInfo := range nickservCommands {
if commandInfo.help == "" || commandInfo.helpShort == "" {
return nil, fmt.Errorf("Help entry does not exist for NickServ command %s", commandName)
}
}
// Attempt to clean up when receiving these signals.
signal.Notify(server.signals, ServerExitSignals...)
signal.Notify(server.rehashSignal, syscall.SIGHUP)
return server, nil
}
// setISupport sets up our RPL_ISUPPORT reply.
func (server *Server) setISupport() {
maxTargetsString := strconv.Itoa(maxTargets)
server.configurableStateMutex.RLock()
// add RPL_ISUPPORT tokens
isupport := isupport.NewList()
isupport.Add("AWAYLEN", strconv.Itoa(server.limits.AwayLen))
isupport.Add("CASEMAPPING", "ascii")
isupport.Add("CHANMODES", strings.Join([]string{modes.Modes{modes.BanMask, modes.ExceptMask, modes.InviteMask}.String(), "", modes.Modes{modes.UserLimit, modes.Key}.String(), modes.Modes{modes.InviteOnly, modes.Moderated, modes.NoOutside, modes.OpOnlyTopic, modes.ChanRoleplaying, modes.Secret}.String()}, ","))
isupport.Add("CHANNELLEN", strconv.Itoa(server.limits.ChannelLen))
isupport.Add("CHANTYPES", "#")
isupport.Add("ELIST", "U")
isupport.Add("EXCEPTS", "")
isupport.Add("INVEX", "")
isupport.Add("KICKLEN", strconv.Itoa(server.limits.KickLen))
isupport.Add("MAXLIST", fmt.Sprintf("beI:%s", strconv.Itoa(server.limits.ChanListModes)))
isupport.Add("MAXTARGETS", maxTargetsString)
isupport.Add("MODES", "")
isupport.Add("MONITOR", strconv.Itoa(server.limits.MonitorEntries))
isupport.Add("NETWORK", server.networkName)
isupport.Add("NICKLEN", strconv.Itoa(server.limits.NickLen))
isupport.Add("PREFIX", "(qaohv)~&@%+")
isupport.Add("RPCHAN", "E")
isupport.Add("RPUSER", "E")
isupport.Add("STATUSMSG", "~&@%+")
isupport.Add("TARGMAX", fmt.Sprintf("NAMES:1,LIST:1,KICK:1,WHOIS:1,USERHOST:10,PRIVMSG:%s,TAGMSG:%s,NOTICE:%s,MONITOR:", maxTargetsString, maxTargetsString, maxTargetsString))
isupport.Add("TOPICLEN", strconv.Itoa(server.limits.TopicLen))
isupport.Add("UTF8MAPPING", casemappingName)
// account registration
if server.config.Accounts.Registration.Enabled {
// 'none' isn't shown in the REGCALLBACKS vars
var enabledCallbacks []string
for _, name := range server.config.Accounts.Registration.EnabledCallbacks {
if name != "*" {
enabledCallbacks = append(enabledCallbacks, name)
}
}
isupport.Add("ACCCOMMANDS", "CREATE,VERIFY")
isupport.Add("REGCALLBACKS", strings.Join(enabledCallbacks, ","))
isupport.Add("REGCREDTYPES", "passphrase,certfp")
}
server.configurableStateMutex.RUnlock()
isupport.RegenerateCachedReply()
server.configurableStateMutex.Lock()
server.isupport = isupport
server.configurableStateMutex.Unlock()
}
func loadChannelList(channel *Channel, list string, maskMode modes.Mode) {
if list == "" {
return
}
channel.lists[maskMode].AddAll(strings.Split(list, " "))
}
// Shutdown shuts down the server.
func (server *Server) Shutdown() {
//TODO(dan): Make sure we disallow new nicks
for _, client := range server.clients.AllClients() {
client.Notice("Server is shutting down")
}
if err := server.store.Close(); err != nil {
server.logger.Error("shutdown", fmt.Sprintln("Could not close datastore:", err))
}
}
// Run starts the server.
func (server *Server) Run() {
// defer closing db/store
defer server.store.Close()
for {
select {
case <-server.signals:
server.Shutdown()
return
case <-server.rehashSignal:
go func() {
server.logger.Info("rehash", "Rehashing due to SIGHUP")
err := server.rehash()
if err != nil {
server.logger.Error("rehash", fmt.Sprintln("Failed to rehash:", err.Error()))
}
}()
}
}
}
func (server *Server) acceptClient(conn clientConn) {
// check IP address
ipaddr := utils.AddrToIP(conn.Conn.RemoteAddr())
if ipaddr != nil {
isBanned, banMsg := server.checkBans(ipaddr)
if isBanned {
// this might not show up properly on some clients, but our objective here is just to close the connection out before it has a load impact on us
conn.Conn.Write([]byte(fmt.Sprintf(errorMsg, banMsg)))
conn.Conn.Close()
return
}
}
server.logger.Debug("localconnect-ip", fmt.Sprintf("Client connecting from %v", ipaddr))
// prolly don't need to alert snomasks on this, only on connection reg
NewClient(server, conn.Conn, conn.IsTLS)
}
func (server *Server) checkBans(ipaddr net.IP) (banned bool, message string) {
// check DLINEs
isBanned, info := server.dlines.CheckIP(ipaddr)
if isBanned {
server.logger.Info("localconnect-ip", fmt.Sprintf("Client from %v rejected by d-line", ipaddr))
return true, info.BanMessage("You are banned from this server (%s)")
}
// check connection limits
err := server.connectionLimiter.AddClient(ipaddr, false)
if err != nil {
// too many connections from one client, tell the client and close the connection
server.logger.Info("localconnect-ip", fmt.Sprintf("Client from %v rejected for connection limit", ipaddr))
return true, "Too many clients from your network"
}
// check connection throttle
err = server.connectionThrottler.AddClient(ipaddr)
if err != nil {
// too many connections too quickly from client, tell them and close the connection
duration := server.connectionThrottler.BanDuration()
length := &IPRestrictTime{
Duration: duration,
Expires: time.Now().Add(duration),
}
server.dlines.AddIP(ipaddr, length, server.connectionThrottler.BanMessage(), "Exceeded automated connection throttle", "auto.connection.throttler")
// they're DLINE'd for 15 minutes or whatever, so we can reset the connection throttle now,
// and once their temporary DLINE is finished they can fill up the throttler again
server.connectionThrottler.ResetFor(ipaddr)
// this might not show up properly on some clients, but our objective here is just to close it out before it has a load impact on us
server.logger.Info(
"localconnect-ip",
fmt.Sprintf("Client from %v exceeded connection throttle, d-lining for %v", ipaddr, duration))
return true, server.connectionThrottler.BanMessage()
}
return false, ""
}
//
// IRC protocol listeners
//
// createListener starts the given listeners.
func (server *Server) createListener(addr string, tlsConfig *tls.Config) *ListenerWrapper {
// make listener
var listener net.Listener
var err error
addr = strings.TrimPrefix(addr, "unix:")
if strings.HasPrefix(addr, "/") {
// https://stackoverflow.com/a/34881585
os.Remove(addr)
listener, err = net.Listen("unix", addr)
} else {
listener, err = net.Listen("tcp", addr)
}
if err != nil {
log.Fatal(server, "listen error: ", err)
}
// throw our details to the server so we can be modified/killed later
wrapper := ListenerWrapper{
listener: listener,
tlsConfig: tlsConfig,
shouldStop: false,
}
var shouldStop bool
// setup accept goroutine
go func() {
for {
conn, err := listener.Accept()
// synchronously access config data:
// whether TLS is enabled and whether we should stop listening
wrapper.configMutex.Lock()
shouldStop = wrapper.shouldStop
tlsConfig = wrapper.tlsConfig
wrapper.configMutex.Unlock()
if err == nil {
if tlsConfig != nil {
conn = tls.Server(conn, tlsConfig)
}
newConn := clientConn{
Conn: conn,
IsTLS: tlsConfig != nil,
}
// hand off the connection
go server.acceptClient(newConn)
}
if shouldStop {
listener.Close()
return
}
}
}()
return &wrapper
}
// generateMessageID returns a network-unique message ID.
func (server *Server) generateMessageID() string {
// we don't need the full like 30 chars since the unixnano below handles
// most of our uniqueness requirements, so just truncate at 5
lastbit := strconv.FormatInt(rand.Int63(), 36)
if 5 < len(lastbit) {
lastbit = lastbit[:4]
}
return fmt.Sprintf("%s%s", strconv.FormatInt(time.Now().UTC().UnixNano(), 36), lastbit)
}
//
// server functionality
//
func (server *Server) tryRegister(c *Client) {
if c.Registered() {
return
}
preregNick := c.PreregNick()
if preregNick == "" || !c.HasUsername() || c.capState == caps.NegotiatingState {
return
}
// client MUST send PASS (or AUTHENTICATE, if skip-server-password is set)
// before completing the other registration commands
if !c.Authorized() {
c.Quit(c.t("Bad password"))
c.destroy(false)
return
}
rb := NewResponseBuffer(c)
nickAssigned := performNickChange(server, c, c, preregNick, rb)
rb.Send()
if !nickAssigned {
c.SetPreregNick("")
return
}
// check KLINEs
isBanned, info := server.klines.CheckMasks(c.AllNickmasks()...)
if isBanned {
reason := info.Reason
if info.Time != nil {
reason += fmt.Sprintf(" [%s]", info.Time.Duration.String())
}
c.Quit(fmt.Sprintf(c.t("You are banned from this server (%s)"), reason))
c.destroy(false)
return
}
// count new user in statistics
server.stats.ChangeTotal(1)
// continue registration
server.logger.Debug("localconnect", fmt.Sprintf("Client registered [%s] [u:%s] [r:%s]", c.nick, c.username, c.realname))
server.snomasks.Send(sno.LocalConnects, fmt.Sprintf(ircfmt.Unescape("Client registered $c[grey][$r%s$c[grey]] [u:$r%s$c[grey]] [h:$r%s$c[grey]] [r:$r%s$c[grey]]"), c.nick, c.username, c.rawHostname, c.realname))
c.Register()
// send welcome text
//NOTE(dan): we specifically use the NICK here instead of the nickmask
// see http://modern.ircdocs.horse/#rplwelcome-001 for details on why we avoid using the nickmask
c.Send(nil, server.name, RPL_WELCOME, c.nick, fmt.Sprintf(c.t("Welcome to the Internet Relay Network %s"), c.nick))
c.Send(nil, server.name, RPL_YOURHOST, c.nick, fmt.Sprintf(c.t("Your host is %[1]s, running version %[2]s"), server.name, Ver))
c.Send(nil, server.name, RPL_CREATED, c.nick, fmt.Sprintf(c.t("This server was created %s"), server.ctime.Format(time.RFC1123)))
//TODO(dan): Look at adding last optional [<channel modes with a parameter>] parameter
c.Send(nil, server.name, RPL_MYINFO, c.nick, server.name, Ver, supportedUserModesString, supportedChannelModesString)
rb = NewResponseBuffer(c)
c.RplISupport(rb)
server.MOTD(c, rb)
rb.Send()
modestring := c.ModeString()
if modestring != "+" {
c.Send(nil, c.nickMaskString, RPL_UMODEIS, c.nick, c.ModeString())
}
if server.logger.IsLoggingRawIO() {
c.Notice(c.t("This server is in debug mode and is logging all user I/O. If you do not wish for everything you send to be readable by the server owner(s), please disconnect."))
}
// if resumed, send fake channel joins
if c.resumeDetails != nil {
for _, name := range c.resumeDetails.SendFakeJoinsFor {
channel := server.channels.Get(name)
if channel == nil {
continue
}
if c.capabilities.Has(caps.ExtendedJoin) {
c.Send(nil, c.nickMaskString, "JOIN", channel.name, c.AccountName(), c.realname)
} else {
c.Send(nil, c.nickMaskString, "JOIN", channel.name)
}
// reuse the last rb
channel.SendTopic(c, rb)
channel.Names(c, rb)
rb.Send()
// construct and send fake modestring if necessary
c.stateMutex.RLock()
myModes := channel.members[c]
c.stateMutex.RUnlock()
if myModes == nil {
continue
}
oldModes := myModes.String()
if 0 < len(oldModes) {
params := []string{channel.name, "+" + oldModes}
for range oldModes {
params = append(params, c.nick)
}
c.Send(nil, server.name, "MODE", params...)
}
}
}
}
// t returns the translated version of the given string, based on the languages configured by the client.
func (client *Client) t(originalString string) string {
// grab this mutex to protect client.languages
client.stateMutex.RLock()
defer client.stateMutex.RUnlock()
return client.server.languages.Translate(client.languages, originalString)
}
// MOTD serves the Message of the Day.
func (server *Server) MOTD(client *Client, rb *ResponseBuffer) {
server.configurableStateMutex.RLock()
motdLines := server.motdLines
server.configurableStateMutex.RUnlock()
if len(motdLines) < 1 {
rb.Add(nil, server.name, ERR_NOMOTD, client.nick, client.t("MOTD File is missing"))
return
}
rb.Add(nil, server.name, RPL_MOTDSTART, client.nick, fmt.Sprintf(client.t("- %s Message of the day - "), server.name))
for _, line := range motdLines {
rb.Add(nil, server.name, RPL_MOTD, client.nick, line)
}
rb.Add(nil, server.name, RPL_ENDOFMOTD, client.nick, client.t("End of MOTD command"))
}
// wordWrap wraps the given text into a series of lines that don't exceed lineWidth characters.
func wordWrap(text string, lineWidth int) []string {
var lines []string
var cacheLine, cacheWord string
for _, char := range text {
if char == '\r' {
continue
} else if char == '\n' {
cacheLine += cacheWord
lines = append(lines, cacheLine)
cacheWord = ""
cacheLine = ""
} else if (char == ' ' || char == '-') && len(cacheLine)+len(cacheWord)+1 < lineWidth {
// natural word boundary
cacheLine += cacheWord + string(char)
cacheWord = ""
} else if lineWidth <= len(cacheLine)+len(cacheWord)+1 {
// time to wrap to next line
if len(cacheLine) < (lineWidth / 2) {
// this word takes up more than half a line... just split in the middle of the word
cacheLine += cacheWord + string(char)
cacheWord = ""
} else {
cacheWord += string(char)
}
lines = append(lines, cacheLine)
cacheLine = ""
} else {
// normal character
cacheWord += string(char)
}
}
if 0 < len(cacheWord) {
cacheLine += cacheWord
}
if 0 < len(cacheLine) {
lines = append(lines, cacheLine)
}
return lines
}
// SplitMessage represents a message that's been split for sending.
type SplitMessage struct {
For512 []string
ForMaxLine string
}
func (server *Server) splitMessage(original string, origIs512 bool) SplitMessage {
var newSplit SplitMessage
newSplit.ForMaxLine = original
if !origIs512 {
newSplit.For512 = wordWrap(original, 400)
} else {
newSplit.For512 = []string{original}
}
return newSplit
}
// WhoisChannelsNames returns the common channel names between two users.
func (client *Client) WhoisChannelsNames(target *Client) []string {
isMultiPrefix := client.capabilities.Has(caps.MultiPrefix)
var chstrs []string
for _, channel := range target.Channels() {
// channel is secret and the target can't see it
if !client.HasMode(modes.Operator) {
if (target.HasMode(modes.Invisible) || channel.flags.HasMode(modes.Secret)) && !channel.hasClient(client) {
continue
}
}
chstrs = append(chstrs, channel.ClientPrefixes(target, isMultiPrefix)+channel.name)
}
return chstrs
}
func (client *Client) getWhoisOf(target *Client, rb *ResponseBuffer) {
target.stateMutex.RLock()
defer target.stateMutex.RUnlock()
rb.Add(nil, client.server.name, RPL_WHOISUSER, client.nick, target.nick, target.username, target.hostname, "*", target.realname)
whoischannels := client.WhoisChannelsNames(target)
if whoischannels != nil {
rb.Add(nil, client.server.name, RPL_WHOISCHANNELS, client.nick, target.nick, strings.Join(whoischannels, " "))
}
tOper := target.Oper()
if tOper != nil {
rb.Add(nil, client.server.name, RPL_WHOISOPERATOR, client.nick, target.nick, tOper.WhoisLine)
}
if client.HasMode(modes.Operator) || client == target {
rb.Add(nil, client.server.name, RPL_WHOISACTUALLY, client.nick, target.nick, fmt.Sprintf("%s@%s", target.username, utils.LookupHostname(target.IPString())), target.IPString(), client.t("Actual user@host, Actual IP"))
}
if target.HasMode(modes.TLS) {
rb.Add(nil, client.server.name, RPL_WHOISSECURE, client.nick, target.nick, client.t("is using a secure connection"))
}
if target.LoggedIntoAccount() {
rb.Add(nil, client.server.name, RPL_WHOISACCOUNT, client.nick, target.AccountName(), client.t("is logged in as"))
}
if target.HasMode(modes.Bot) {
rb.Add(nil, client.server.name, RPL_WHOISBOT, client.nick, target.nick, ircfmt.Unescape(fmt.Sprintf(client.t("is a $bBot$b on %s"), client.server.networkName)))
}
if 0 < len(target.languages) {
params := []string{client.nick, target.nick}
for _, str := range client.server.languages.Codes(target.languages) {
params = append(params, str)
}
params = append(params, client.t("can speak these languages"))
rb.Add(nil, client.server.name, RPL_WHOISLANGUAGE, params...)
}
if target.certfp != "" && (client.HasMode(modes.Operator) || client == target) {
rb.Add(nil, client.server.name, RPL_WHOISCERTFP, client.nick, target.nick, fmt.Sprintf(client.t("has client certificate fingerprint %s"), target.certfp))
}
rb.Add(nil, client.server.name, RPL_WHOISIDLE, client.nick, target.nick, strconv.FormatUint(target.IdleSeconds(), 10), strconv.FormatInt(target.SignonTime(), 10), client.t("seconds idle, signon time"))
}
// rplWhoReply returns the WHO reply between one user and another channel/user.
// <channel> <user> <host> <server> <nick> ( "H" / "G" ) ["*"] [ ( "@" / "+" ) ]
// :<hopcount> <real name>
func (target *Client) rplWhoReply(channel *Channel, client *Client, rb *ResponseBuffer) {
channelName := "*"
flags := ""
if client.HasMode(modes.Away) {
flags = "G"
} else {
flags = "H"
}
if client.HasMode(modes.Operator) {
flags += "*"
}
if channel != nil {
flags += channel.ClientPrefixes(client, target.capabilities.Has(caps.MultiPrefix))
channelName = channel.name
}
rb.Add(nil, target.server.name, RPL_WHOREPLY, target.nick, channelName, client.Username(), client.Hostname(), client.server.name, client.Nick(), flags, strconv.Itoa(client.hops)+" "+client.Realname())
}
func whoChannel(client *Client, channel *Channel, friends ClientSet, rb *ResponseBuffer) {
for _, member := range channel.Members() {
if !client.HasMode(modes.Invisible) || friends[client] {
client.rplWhoReply(channel, member, rb)
}
}
}
// rehash reloads the config and applies the changes from the config file.
func (server *Server) rehash() error {
server.logger.Debug("rehash", "Starting rehash")
// only let one REHASH go on at a time
server.rehashMutex.Lock()
defer server.rehashMutex.Unlock()
server.logger.Debug("rehash", "Got rehash lock")
config, err := LoadConfig(server.configFilename)
if err != nil {
return fmt.Errorf("Error loading config file config: %s", err.Error())
}
err = server.applyConfig(config, false)
if err != nil {
return fmt.Errorf("Error applying config changes: %s", err.Error())
}
return nil
}
func (server *Server) applyConfig(config *Config, initial bool) error {
if initial {
server.ctime = time.Now()
server.configFilename = config.Filename
} else {
// enforce configs that can't be changed after launch:
if server.limits.LineLen.Tags != config.Limits.LineLen.Tags || server.limits.LineLen.Rest != config.Limits.LineLen.Rest {
return fmt.Errorf("Maximum line length (linelen) cannot be changed after launching the server, rehash aborted")
} else if server.name != config.Server.Name {
return fmt.Errorf("Server name cannot be changed after launching the server, rehash aborted")
} else if server.config.Datastore.Path != config.Datastore.Path {
return fmt.Errorf("Datastore path cannot be changed after launching the server, rehash aborted")
}
}
server.logger.Info("rehash", "Using config file", server.configFilename)
casefoldedName, err := Casefold(config.Server.Name)
if err != nil {
return fmt.Errorf("Server name isn't valid [%s]: %s", config.Server.Name, err.Error())
}
// confirm operator stuff all exists and is fine
operclasses, err := config.OperatorClasses()
if err != nil {
return fmt.Errorf("Error rehashing config file operclasses: %s", err.Error())
}
opers, err := config.Operators(operclasses)
if err != nil {
return fmt.Errorf("Error rehashing config file opers: %s", err.Error())
}
// TODO: support rehash of existing operator perms?
// sanity checks complete, start modifying server state
if initial {
server.name = config.Server.Name
server.nameCasefolded = casefoldedName
}
server.configurableStateMutex.Lock()
server.networkName = config.Network.Name
if config.Server.Password != "" {
server.password = config.Server.PasswordBytes()
} else {
server.password = nil
}
// apply new WebIRC command restrictions
server.webirc = config.Server.WebIRC
// apply new PROXY command restrictions
server.proxyAllowedFrom = config.Server.ProxyAllowedFrom
server.recoverFromErrors = true
if config.Debug.RecoverFromErrors != nil {
server.recoverFromErrors = *config.Debug.RecoverFromErrors
}
server.configurableStateMutex.Unlock()
err = server.connectionLimiter.ApplyConfig(config.Server.ConnectionLimiter)
if err != nil {
return err
}
err = server.connectionThrottler.ApplyConfig(config.Server.ConnectionThrottler)
if err != nil {
return err
}
// setup new and removed caps
addedCaps := caps.NewSet()
removedCaps := caps.NewSet()
updatedCaps := caps.NewSet()
// Translations
currentLanguageValue, _ := CapValues.Get(caps.Languages)
langCodes := []string{strconv.Itoa(len(config.Languages.Data) + 1), "en"}
for _, info := range config.Languages.Data {
if info.Incomplete {
langCodes = append(langCodes, "~"+info.Code)
} else {
langCodes = append(langCodes, info.Code)
}
}
newLanguageValue := strings.Join(langCodes, ",")
server.logger.Debug("rehash", "Languages:", newLanguageValue)
if currentLanguageValue != newLanguageValue {
updatedCaps.Add(caps.Languages)
CapValues.Set(caps.Languages, newLanguageValue)
}
lm := languages.NewManager(config.Languages.Default, config.Languages.Data)
server.logger.Debug("rehash", "Regenerating HELP indexes for new languages")
GenerateHelpIndices(lm)
server.languages = lm
// SASL
oldAccountConfig := server.AccountConfig()
authPreviouslyEnabled := oldAccountConfig != nil && oldAccountConfig.AuthenticationEnabled
if config.Accounts.AuthenticationEnabled && !authPreviouslyEnabled {
// enabling SASL
SupportedCapabilities.Enable(caps.SASL)
CapValues.Set(caps.SASL, "PLAIN,EXTERNAL")
addedCaps.Add(caps.SASL)
} else if !config.Accounts.AuthenticationEnabled && authPreviouslyEnabled {
// disabling SASL
SupportedCapabilities.Disable(caps.SASL)
removedCaps.Add(caps.SASL)
}
nickReservationPreviouslyDisabled := oldAccountConfig != nil && !oldAccountConfig.NickReservation.Enabled
nickReservationNowEnabled := config.Accounts.NickReservation.Enabled
if nickReservationPreviouslyDisabled && nickReservationNowEnabled {
server.accounts.buildNickToAccountIndex()
}
hsPreviouslyDisabled := oldAccountConfig != nil && !oldAccountConfig.VHosts.Enabled
hsNowEnabled := config.Accounts.VHosts.Enabled
if hsPreviouslyDisabled && hsNowEnabled {
server.accounts.initVHostRequestQueue()
}
// STS
stsValue := config.Server.STS.Value()
var stsDisabled bool
stsCurrentCapValue, _ := CapValues.Get(caps.STS)
server.logger.Debug("rehash", "STS Vals", stsCurrentCapValue, stsValue, fmt.Sprintf("server[%v] config[%v]", server.stsEnabled, config.Server.STS.Enabled))
if config.Server.STS.Enabled && !server.stsEnabled {
// enabling STS
SupportedCapabilities.Enable(caps.STS)
addedCaps.Add(caps.STS)
CapValues.Set(caps.STS, stsValue)
} else if !config.Server.STS.Enabled && server.stsEnabled {
// disabling STS
SupportedCapabilities.Disable(caps.STS)
removedCaps.Add(caps.STS)
stsDisabled = true
} else if config.Server.STS.Enabled && server.stsEnabled && stsValue != stsCurrentCapValue {
// STS policy updated
CapValues.Set(caps.STS, stsValue)
updatedCaps.Add(caps.STS)
}
server.stsEnabled = config.Server.STS.Enabled
// burst new and removed caps
var capBurstClients ClientSet
added := make(map[caps.Version]string)
var removed string
// updated caps get DEL'd and then NEW'd
// so, we can just add updated ones to both removed and added lists here and they'll be correctly handled
server.logger.Debug("rehash", "Updated Caps", updatedCaps.String(caps.Cap301, CapValues), strconv.Itoa(updatedCaps.Count()))
for _, capab := range updatedCaps.List() {
addedCaps.Enable(capab)
removedCaps.Enable(capab)
}
if 0 < addedCaps.Count() || 0 < removedCaps.Count() {
capBurstClients = server.clients.AllWithCaps(caps.CapNotify)
added[caps.Cap301] = addedCaps.String(caps.Cap301, CapValues)
added[caps.Cap302] = addedCaps.String(caps.Cap302, CapValues)
// removed never has values, so we leave it as Cap301
removed = removedCaps.String(caps.Cap301, CapValues)
}
for sClient := range capBurstClients {
if stsDisabled {
// remove STS policy
//TODO(dan): this is an ugly hack. we can write this better.
stsPolicy := "sts=duration=0"
if 0 < addedCaps.Count() {
added[caps.Cap302] = added[caps.Cap302] + " " + stsPolicy
} else {
addedCaps.Enable(caps.STS)
added[caps.Cap302] = stsPolicy
}
}
// DEL caps and then send NEW ones so that updated caps get removed/added correctly
if 0 < removedCaps.Count() {
sClient.Send(nil, server.name, "CAP", sClient.nick, "DEL", removed)
}
if 0 < addedCaps.Count() {
sClient.Send(nil, server.name, "CAP", sClient.nick, "NEW", added[sClient.capVersion])
}
}
// set server options
server.configurableStateMutex.Lock()
lineLenConfig := LineLenLimits{
Tags: config.Limits.LineLen.Tags,
Rest: config.Limits.LineLen.Rest,
}
server.limits = Limits{
AwayLen: int(config.Limits.AwayLen),
ChannelLen: int(config.Limits.ChannelLen),
KickLen: int(config.Limits.KickLen),
MonitorEntries: int(config.Limits.MonitorEntries),
NickLen: int(config.Limits.NickLen),
TopicLen: int(config.Limits.TopicLen),
ChanListModes: int(config.Limits.ChanListModes),
LineLen: lineLenConfig,
}
server.operclasses = operclasses
server.operators = opers
server.checkIdent = config.Server.CheckIdent
// registration
server.channelRegistrationEnabled = config.Channels.Registration.Enabled
server.defaultChannelModes = ParseDefaultChannelModes(config)
server.configurableStateMutex.Unlock()
// set new sendqueue size
server.SetMaxSendQBytes(config.Server.MaxSendQBytes)
server.loadMOTD(config.Server.MOTD, config.Server.MOTDFormatting)
// reload logging config
err = server.logger.ApplyConfig(config.Logging)
if err != nil {
return err
}
nowLoggingRawIO := server.logger.IsLoggingRawIO()
// notify clients if raw i/o logging was enabled by a rehash
sendRawOutputNotice := !initial && !server.loggingRawIO && nowLoggingRawIO
server.loggingRawIO = nowLoggingRawIO
// save a pointer to the new config
server.configurableStateMutex.Lock()
server.config = config
server.configurableStateMutex.Unlock()
server.logger.Info("rehash", "Using datastore", config.Datastore.Path)
if initial {
if err := server.loadDatastore(config); err != nil {
return err
}
}
server.setupPprofListener(config)
// set RPL_ISUPPORT
var newISupportReplies [][]string
oldISupportList := server.ISupport()
server.setISupport()
if oldISupportList != nil {
newISupportReplies = oldISupportList.GetDifference(server.ISupport())
}
// we are now open for business
server.setupListeners(config)
if !initial {
// push new info to all of our clients
for _, sClient := range server.clients.AllClients() {
for _, tokenline := range newISupportReplies {
sClient.Send(nil, server.name, RPL_ISUPPORT, append([]string{sClient.nick}, tokenline...)...)
}
if sendRawOutputNotice {
sClient.Notice(sClient.t("This server is in debug mode and is logging all user I/O. If you do not wish for everything you send to be readable by the server owner(s), please disconnect."))
}
}
}
return nil
}
func (server *Server) setupPprofListener(config *Config) {
pprofListener := ""
if config.Debug.PprofListener != nil {
pprofListener = *config.Debug.PprofListener
}
if server.pprofServer != nil {
if pprofListener == "" || (pprofListener != server.pprofServer.Addr) {
server.logger.Info("rehash", "Stopping pprof listener", server.pprofServer.Addr)
server.pprofServer.Close()
server.pprofServer = nil
}
}
if pprofListener != "" && server.pprofServer == nil {
ps := http.Server{
Addr: pprofListener,
}
go func() {
if err := ps.ListenAndServe(); err != nil {
server.logger.Error("rehash", fmt.Sprintf("pprof listener failed: %v", err))
}
}()
server.pprofServer = &ps
server.logger.Info("rehash", "Started pprof listener", server.pprofServer.Addr)
}
}
func (server *Server) loadMOTD(motdPath string, useFormatting bool) error {
server.logger.Info("rehash", "Using MOTD", motdPath)
motdLines := make([]string, 0)
if motdPath != "" {
file, err := os.Open(motdPath)
if err == nil {
defer file.Close()
reader := bufio.NewReader(file)
for {
line, err := reader.ReadString('\n')
if err != nil {
break
}
line = strings.TrimRight(line, "\r\n")
if useFormatting {
line = ircfmt.Unescape(line)
}
// "- " is the required prefix for MOTD, we just add it here to make
// bursting it out to clients easier
line = fmt.Sprintf("- %s", line)
motdLines = append(motdLines, line)
}
} else {
return err
}
}
server.configurableStateMutex.Lock()
server.motdLines = motdLines
server.configurableStateMutex.Unlock()
return nil
}
func (server *Server) loadDatastore(config *Config) error {
// open the datastore and load server state for which it (rather than config)
// is the source of truth
db, err := OpenDatabase(config)
if err == nil {
server.store = db
} else {
return fmt.Errorf("Failed to open datastore: %s", err.Error())
}
// load *lines (from the datastores)
server.logger.Debug("startup", "Loading D/Klines")
server.loadDLines()
server.loadKLines()
// load password manager
server.logger.Debug("startup", "Loading passwords")
err = server.store.View(func(tx *buntdb.Tx) error {
saltString, err := tx.Get(keySalt)
if err != nil {
return fmt.Errorf("Could not retrieve salt string: %s", err.Error())
}
salt, err := base64.StdEncoding.DecodeString(saltString)
if err != nil {
return err
}
pwm := passwd.NewSaltedManager(salt)
server.passwords = &pwm
return nil
})
if err != nil {
return fmt.Errorf("Could not load salt: %s", err.Error())
}
server.channelRegistry = NewChannelRegistry(server)
server.accounts = NewAccountManager(server)
return nil
}
func (server *Server) setupListeners(config *Config) {
logListener := func(addr string, tlsconfig *tls.Config) {
server.logger.Info("listeners",
fmt.Sprintf("now listening on %s, tls=%t.", addr, (tlsconfig != nil)),
)
}
// update or destroy all existing listeners
tlsListeners := config.TLSListeners()
for addr := range server.listeners {
currentListener := server.listeners[addr]
var stillConfigured bool
for _, newaddr := range config.Server.Listen {
if newaddr == addr {
stillConfigured = true
break
}
}
// pass new config information to the listener, to be picked up after
// its next Accept(). this is like sending over a buffered channel of
// size 1, but where sending a second item overwrites the buffered item
// instead of blocking.
currentListener.configMutex.Lock()
currentListener.shouldStop = !stillConfigured
currentListener.tlsConfig = tlsListeners[addr]
currentListener.configMutex.Unlock()
if stillConfigured {
logListener(addr, currentListener.tlsConfig)
} else {
// tell the listener it should stop by interrupting its Accept() call:
currentListener.listener.Close()
delete(server.listeners, addr)
server.logger.Info("listeners", fmt.Sprintf("stopped listening on %s.", addr))
}
}
// create new listeners that were not previously configured
for _, newaddr := range config.Server.Listen {
_, exists := server.listeners[newaddr]
if !exists {
// make new listener
tlsConfig := tlsListeners[newaddr]
server.listeners[newaddr] = server.createListener(newaddr, tlsConfig)
logListener(newaddr, tlsConfig)
}
}
if len(tlsListeners) == 0 {
server.logger.Warning("startup", "You are not exposing an SSL/TLS listening port. You should expose at least one port (typically 6697) to accept TLS connections")
}
var usesStandardTLSPort bool
for addr := range config.TLSListeners() {
if strings.Contains(addr, "6697") {
usesStandardTLSPort = true
break
}
}
if 0 < len(tlsListeners) && !usesStandardTLSPort {
server.logger.Warning("startup", "Port 6697 is the standard TLS port for IRC. You should (also) expose port 6697 as a TLS port to ensure clients can connect securely")
}
}
// elistMatcher takes and matches ELIST conditions
type elistMatcher struct {
MinClientsActive bool
MinClients int
MaxClientsActive bool
MaxClients int
}
// Matches checks whether the given channel matches our matches.
func (matcher *elistMatcher) Matches(channel *Channel) bool {
if matcher.MinClientsActive {
if len(channel.Members()) < matcher.MinClients {
return false
}
}
if matcher.MaxClientsActive {
if len(channel.Members()) < len(channel.members) {
return false
}
}
return true
}
// RplList returns the RPL_LIST numeric for the given channel.
func (target *Client) RplList(channel *Channel, rb *ResponseBuffer) {
// get the correct number of channel members
var memberCount int
if target.HasMode(modes.Operator) || channel.hasClient(target) {
memberCount = len(channel.Members())
} else {
for _, member := range channel.Members() {
if !member.HasMode(modes.Invisible) {
memberCount++
}
}
}
rb.Add(nil, target.server.name, RPL_LIST, target.nick, channel.name, strconv.Itoa(memberCount), channel.topic)
}
// ResumeDetails are the details that we use to resume connections.
type ResumeDetails struct {
OldNick string
Timestamp *time.Time
SendFakeJoinsFor []string
}
var (
infoString1 = strings.Split(` ▄▄▄ ▄▄▄· ▄▄ • ▐ ▄
▪ ▀▄ █·▐█ ▀█ ▐█ ▀ ▪▪ •█▌▐█▪
▄█▀▄ ▐▀▀▄ ▄█▀▀█ ▄█ ▀█▄ ▄█▀▄▪▐█▐▐▌ ▄█▀▄
▐█▌.▐▌▐█•█▌▐█ ▪▐▌▐█▄▪▐█▐█▌ ▐▌██▐█▌▐█▌.▐▌
▀█▄▀▪.▀ ▀ ▀ ▀ ·▀▀▀▀ ▀█▄▀ ▀▀ █▪ ▀█▄▀▪
https://oragono.io/
https://github.com/oragono/oragono
https://crowdin.com/project/oragono
`, "\n")
infoString2 = strings.Split(` Daniel Oakley, DanielOaks, <daniel@danieloaks.net>
Shivaram Lingamneni, slingamn, <slingamn@cs.stanford.edu>
`, "\n")
infoString3 = strings.Split(` 3onyc
Edmund Huber
Euan Kemp (euank)
Jeremy Latt
Martin Lindhe (martinlindhe)
Roberto Besser (besser)
Robin Burchell (rburchell)
Sean Enck (enckse)
soul9
Vegax
`, "\n")
)