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ergo/irc/channelmanager.go

179 lines
4.8 KiB
Go

// Copyright (c) 2017 Shivaram Lingamneni <slingamn@cs.stanford.edu>
// released under the MIT license
package irc
import (
"sync"
)
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
}
// 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 map[string]*channelManagerEntry
}
// NewChannelManager returns a new ChannelManager.
func NewChannelManager() *ChannelManager {
return &ChannelManager{
chans: make(map[string]*channelManagerEntry),
}
}
// Get returns an existing channel with name equivalent to `name`, or nil
func (cm *ChannelManager) Get(name string) *Channel {
name, err := CasefoldChannel(name)
if err == nil {
cm.RLock()
defer cm.RUnlock()
entry := cm.chans[name]
if entry != nil {
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)
if err != nil || len(casefoldedName) > server.Limits().ChannelLen {
return errNoSuchChannel
}
cm.Lock()
entry := cm.chans[casefoldedName]
if entry == nil {
// XXX give up the lock to check for a registration, then check again
// to see if we need to create the channel. we could solve this by doing LoadChannel
// outside the lock initially on every join, so this is best thought of as an
// optimization to avoid that.
cm.Unlock()
info := client.server.channelRegistry.LoadChannel(casefoldedName)
cm.Lock()
entry = cm.chans[casefoldedName]
if entry == nil {
entry = &channelManagerEntry{
channel: NewChannel(server, name, info),
pendingJoins: 0,
}
cm.chans[casefoldedName] = entry
}
}
entry.pendingJoins += 1
cm.Unlock()
entry.channel.Join(client, key, isSajoin, rb)
cm.maybeCleanup(entry.channel, true)
return nil
}
func (cm *ChannelManager) maybeCleanup(channel *Channel, afterJoin bool) {
cm.Lock()
defer cm.Unlock()
entry := cm.chans[channel.NameCasefolded()]
if entry == nil || entry.channel != channel {
return
}
if afterJoin {
entry.pendingJoins -= 1
}
// TODO(slingamn) right now, registered channels cannot be cleaned up.
// this is because once ChannelManager becomes the source of truth about a channel,
// we can't move the source of truth back to the database unless we do an ACID
// store while holding the ChannelManager's Lock(). This is pending more decisions
// about where the database transaction lock fits into the overall lock model.
if !entry.channel.IsRegistered() && entry.channel.IsEmpty() && entry.pendingJoins == 0 {
// reread the name, handling the case where the channel was renamed
casefoldedName := entry.channel.NameCasefolded()
delete(cm.chans, casefoldedName)
// invalidate the entry (otherwise, a subsequent cleanup attempt could delete
// a valid, distinct entry under casefoldedName):
entry.channel = nil
}
}
// 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 {
casefoldedName, err := CasefoldChannel(name)
if err != nil {
return errNoSuchChannel
}
cm.RLock()
entry := cm.chans[casefoldedName]
cm.RUnlock()
if entry == nil {
return errNoSuchChannel
}
entry.channel.Part(client, message, rb)
return nil
}
func (cm *ChannelManager) Cleanup(channel *Channel) {
cm.maybeCleanup(channel, false)
}
// Rename renames a channel (but does not notify the members)
func (cm *ChannelManager) Rename(name string, newname string) error {
cfname, err := CasefoldChannel(name)
if err != nil {
return errNoSuchChannel
}
cfnewname, err := CasefoldChannel(newname)
if err != nil {
return errInvalidChannelName
}
cm.Lock()
defer cm.Unlock()
if cm.chans[cfnewname] != nil {
return errChannelNameInUse
}
entry := cm.chans[cfname]
if entry == nil {
return errNoSuchChannel
}
delete(cm.chans, cfname)
cm.chans[cfnewname] = entry
entry.channel.setName(newname)
entry.channel.setNameCasefolded(cfnewname)
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()
for _, entry := range cm.chans {
result = append(result, entry.channel)
}
return
}