package connection import ( "github.com/s-rah/go-ricochet/channels" "github.com/s-rah/go-ricochet/utils" ) // ChannelManager encapsulates the logic for server and client side assignment // and removal of channels. type ChannelManager struct { channels map[int32]*channels.Channel nextFreeChannel int32 isClient bool } // NewClientChannelManager construsts a new channel manager enforcing behaviour // of a ricochet client func NewClientChannelManager() *ChannelManager { channelManager := new(ChannelManager) channelManager.channels = make(map[int32]*channels.Channel) channelManager.nextFreeChannel = 1 channelManager.isClient = true return channelManager } // NewServerChannelManager construsts a new channel manager enforcing behaviour // from a ricochet server func NewServerChannelManager() *ChannelManager { channelManager := new(ChannelManager) channelManager.channels = make(map[int32]*channels.Channel) channelManager.nextFreeChannel = 2 channelManager.isClient = false return channelManager } // OpenChannelRequest constructs a channel type ready for processing given a request // from the client. func (cm *ChannelManager) OpenChannelRequest(chandler channels.Handler) (*channels.Channel, error) { // Some channels only allow us to open one of them per connection if chandler.Singleton() && cm.Channel(chandler.Type(), channels.Outbound) != nil { return nil, utils.AttemptToOpenMoreThanOneSingletonChannelError } channel := new(channels.Channel) channel.ID = cm.nextFreeChannel cm.nextFreeChannel += 2 channel.Type = chandler.Type() channel.Handler = &chandler channel.Pending = true channel.Direction = channels.Outbound cm.channels[channel.ID] = channel return channel, nil } // OpenChannelRequestFromPeer constructs a channel type ready for processing given a request // from the remote peer. func (cm *ChannelManager) OpenChannelRequestFromPeer(channelID int32, chandler channels.Handler) (*channels.Channel, error) { if cm.isClient && (channelID%2) != 0 { // Server is trying to open odd numbered channels return nil, utils.ServerAttemptedToOpenEvenNumberedChannelError } else if !cm.isClient && (channelID%2) == 0 { // Server is trying to open odd numbered channels return nil, utils.ClientAttemptedToOpenOddNumberedChannelError } _, exists := cm.channels[channelID] if exists { return nil, utils.ChannelIDIsAlreadyInUseError } // Some channels only allow us to open one of them per connection if chandler.Singleton() && cm.Channel(chandler.Type(), channels.Inbound) != nil { return nil, utils.AttemptToOpenMoreThanOneSingletonChannelError } channel := new(channels.Channel) channel.ID = channelID channel.Type = chandler.Type() channel.Handler = &chandler channel.Pending = true channel.Direction = channels.Inbound cm.channels[channelID] = channel return channel, nil } // Channel finds an open or pending `type` channel in the direction `way` (Inbound // or Outbound), and returns the associated state. Returns nil if no matching channel // exists or if multiple matching channels exist. func (cm *ChannelManager) Channel(ctype string, way channels.Direction) *channels.Channel { var foundChannel *channels.Channel for _, channel := range cm.channels { if (*channel.Handler).Type() == ctype && channel.Direction == way { if foundChannel == nil { foundChannel = channel } else { // we have found multiple channels. return nil } } } return foundChannel } // GetChannel finds and returns a given channel if it is found func (cm *ChannelManager) GetChannel(channelID int32) (*channels.Channel, bool) { channel, found := cm.channels[channelID] return channel, found } // RemoveChannel removes a given channel id. func (cm *ChannelManager) RemoveChannel(channelID int32) { delete(cm.channels, channelID) }