// Copyright (c) 2017 Shivaram Lingamneni // released under the MIT license package irc import ( "sync" "github.com/oragono/oragono/irc/utils" ) type channelManagerEntry struct { channel *Channel // this is a refcount for joins, so we can avoid a race where we incorrectly // think the channel is empty (without holding a lock across the entire Channel.Join() // call) pendingJoins int skeleton string } // ChannelManager keeps track of all the channels on the server, // providing synchronization for creation of new channels on first join, // cleanup of empty channels on last part, and renames. type ChannelManager struct { sync.RWMutex // tier 2 // chans is the main data structure, mapping casefolded name -> *Channel chans map[string]*channelManagerEntry chansSkeletons utils.StringSet // skeletons of *unregistered* chans registeredChannels utils.StringSet // casefolds of registered chans registeredSkeletons utils.StringSet // skeletons of registered chans purgedChannels utils.StringSet // casefolds of purged chans server *Server } // NewChannelManager returns a new ChannelManager. func (cm *ChannelManager) Initialize(server *Server) { cm.chans = make(map[string]*channelManagerEntry) cm.chansSkeletons = make(utils.StringSet) cm.server = server cm.loadRegisteredChannels(server.Config()) // purging should work even if registration is disabled cm.purgedChannels = cm.server.channelRegistry.PurgedChannels() } func (cm *ChannelManager) loadRegisteredChannels(config *Config) { if !config.Channels.Registration.Enabled { return } rawNames := cm.server.channelRegistry.AllChannels() registeredChannels := make(utils.StringSet, len(rawNames)) registeredSkeletons := make(utils.StringSet, len(rawNames)) for _, name := range rawNames { cfname, err := CasefoldChannel(name) if err == nil { registeredChannels.Add(cfname) } skeleton, err := Skeleton(name) if err == nil { registeredSkeletons.Add(skeleton) } } cm.Lock() defer cm.Unlock() cm.registeredChannels = registeredChannels cm.registeredSkeletons = registeredSkeletons } // Get returns an existing channel with name equivalent to `name`, or nil func (cm *ChannelManager) Get(name string) (channel *Channel) { name, err := CasefoldChannel(name) if err == nil { cm.RLock() defer cm.RUnlock() entry := cm.chans[name] // if the channel is still loading, pretend we don't have it if entry != nil && entry.channel.IsLoaded() { return entry.channel } } return nil } // Join causes `client` to join the channel named `name`, creating it if necessary. func (cm *ChannelManager) Join(client *Client, name string, key string, isSajoin bool, rb *ResponseBuffer) error { server := client.server casefoldedName, err := CasefoldChannel(name) skeleton, skerr := Skeleton(name) if err != nil || skerr != nil || len(casefoldedName) > server.Config().Limits.ChannelLen { return errNoSuchChannel } channel, err := func() (*Channel, error) { cm.Lock() defer cm.Unlock() if cm.purgedChannels.Has(casefoldedName) { return nil, errChannelPurged } entry := cm.chans[casefoldedName] if entry == nil { registered := cm.registeredChannels.Has(casefoldedName) // enforce OpOnlyCreation if !registered && server.Config().Channels.OpOnlyCreation && !client.HasRoleCapabs("chanreg") { return nil, errInsufficientPrivs } // enforce confusables if cm.chansSkeletons.Has(skeleton) || (!registered && cm.registeredSkeletons.Has(skeleton)) { return nil, errConfusableIdentifier } entry = &channelManagerEntry{ channel: NewChannel(server, name, casefoldedName, registered), pendingJoins: 0, } if !registered { // for an unregistered channel, we already have the correct unfolded name // and therefore the final skeleton. for a registered channel, we don't have // the unfolded name yet (it needs to be loaded from the db), but we already // have the final skeleton in `registeredSkeletons` so we don't need to track it cm.chansSkeletons.Add(skeleton) entry.skeleton = skeleton } cm.chans[casefoldedName] = entry } entry.pendingJoins += 1 return entry.channel, nil }() if err != nil { return err } channel.EnsureLoaded() err = channel.Join(client, key, isSajoin, rb) cm.maybeCleanup(channel, true) return err } func (cm *ChannelManager) maybeCleanup(channel *Channel, afterJoin bool) { cm.Lock() defer cm.Unlock() cfname := channel.NameCasefolded() entry := cm.chans[cfname] if entry == nil || entry.channel != channel { return } if afterJoin { entry.pendingJoins -= 1 } if entry.pendingJoins == 0 && entry.channel.IsClean() { delete(cm.chans, cfname) if entry.skeleton != "" { delete(cm.chansSkeletons, entry.skeleton) } } } // Part parts `client` from the channel named `name`, deleting it if it's empty. func (cm *ChannelManager) Part(client *Client, name string, message string, rb *ResponseBuffer) error { var channel *Channel casefoldedName, err := CasefoldChannel(name) if err != nil { return errNoSuchChannel } cm.RLock() entry := cm.chans[casefoldedName] if entry != nil { channel = entry.channel } cm.RUnlock() if channel == nil { return errNoSuchChannel } channel.Part(client, message, rb) return nil } func (cm *ChannelManager) Cleanup(channel *Channel) { cm.maybeCleanup(channel, false) } func (cm *ChannelManager) SetRegistered(channelName string, account string) (err error) { if cm.server.Defcon() <= 4 { return errFeatureDisabled } var channel *Channel cfname, err := CasefoldChannel(channelName) if err != nil { return err } var entry *channelManagerEntry defer func() { if err == nil && channel != nil { // registration was successful: make the database reflect it err = channel.Store(IncludeAllAttrs) } }() cm.Lock() defer cm.Unlock() entry = cm.chans[cfname] if entry == nil { return errNoSuchChannel } channel = entry.channel err = channel.SetRegistered(account) if err != nil { return err } cm.registeredChannels.Add(cfname) if skel, err := Skeleton(channel.Name()); err == nil { cm.registeredSkeletons.Add(skel) } return nil } func (cm *ChannelManager) SetUnregistered(channelName string, account string) (err error) { cfname, err := CasefoldChannel(channelName) if err != nil { return err } info, err := cm.server.channelRegistry.LoadChannel(cfname) if err != nil { return err } if info.Founder != account { return errChannelNotOwnedByAccount } defer func() { if err == nil { err = cm.server.channelRegistry.Delete(info) } }() cm.Lock() defer cm.Unlock() entry := cm.chans[cfname] if entry != nil { entry.channel.SetUnregistered(account) delete(cm.registeredChannels, cfname) if skel, err := Skeleton(entry.channel.Name()); err == nil { delete(cm.registeredSkeletons, skel) } } return nil } // Rename renames a channel (but does not notify the members) func (cm *ChannelManager) Rename(name string, newName string) (err error) { cfname, err := CasefoldChannel(name) if err != nil { return errNoSuchChannel } newCfname, err := CasefoldChannel(newName) if err != nil { return errInvalidChannelName } newSkeleton, err := Skeleton(newName) if err != nil { return errInvalidChannelName } var channel *Channel var info RegisteredChannel defer func() { if channel != nil && info.Founder != "" { channel.Store(IncludeAllAttrs) // we just flushed the channel under its new name, therefore this delete // cannot be overwritten by a write to the old name: cm.server.channelRegistry.Delete(info) } }() cm.Lock() defer cm.Unlock() if newCfname == cfname { entry := cm.chans[cfname] if entry == nil || !entry.channel.IsLoaded() { return errNoSuchChannel } entry.channel.Rename(newName, cfname) return nil } if cm.chans[newCfname] != nil || cm.registeredChannels.Has(newCfname) { return errChannelNameInUse } if cm.chansSkeletons.Has(newSkeleton) || cm.registeredSkeletons.Has(newSkeleton) { return errChannelNameInUse } entry := cm.chans[cfname] if entry == nil || !entry.channel.IsLoaded() { return errNoSuchChannel } channel = entry.channel info = channel.ExportRegistration(IncludeInitial) registered := info.Founder != "" delete(cm.chans, cfname) cm.chans[newCfname] = entry if registered { delete(cm.registeredChannels, cfname) if oldSkeleton, err := Skeleton(info.Name); err == nil { delete(cm.registeredSkeletons, oldSkeleton) } cm.registeredChannels.Add(newCfname) cm.registeredSkeletons.Add(newSkeleton) } else { delete(cm.chansSkeletons, entry.skeleton) cm.chansSkeletons.Add(newSkeleton) entry.skeleton = newSkeleton cm.chans[cfname] = entry } entry.channel.Rename(newName, newCfname) return nil } // Len returns the number of channels func (cm *ChannelManager) Len() int { cm.RLock() defer cm.RUnlock() return len(cm.chans) } // Channels returns a slice containing all current channels func (cm *ChannelManager) Channels() (result []*Channel) { cm.RLock() defer cm.RUnlock() result = make([]*Channel, 0, len(cm.chans)) for _, entry := range cm.chans { if entry.channel.IsLoaded() { result = append(result, entry.channel) } } return } // Purge marks a channel as purged. func (cm *ChannelManager) Purge(chname string, record ChannelPurgeRecord) (err error) { chname, err = CasefoldChannel(chname) if err != nil { return errInvalidChannelName } cm.Lock() cm.purgedChannels.Add(chname) cm.Unlock() cm.server.channelRegistry.PurgeChannel(chname, record) return nil } // IsPurged queries whether a channel is purged. func (cm *ChannelManager) IsPurged(chname string) (result bool) { chname, err := CasefoldChannel(chname) if err != nil { return false } cm.RLock() result = cm.purgedChannels.Has(chname) cm.RUnlock() return } // Unpurge deletes a channel's purged status. func (cm *ChannelManager) Unpurge(chname string) (err error) { chname, err = CasefoldChannel(chname) if err != nil { return errNoSuchChannel } cm.Lock() found := cm.purgedChannels.Has(chname) delete(cm.purgedChannels, chname) cm.Unlock() cm.server.channelRegistry.UnpurgeChannel(chname) if !found { return errNoSuchChannel } return nil }