package storage import ( "errors" "sync" "github.com/chihaya/chihaya/bittorrent" "github.com/chihaya/chihaya/pkg/log" "github.com/chihaya/chihaya/pkg/stop" ) var ( driversM sync.RWMutex drivers = make(map[string]Driver) ) // Driver is the interface used to initialize a new type of PeerStore. type Driver interface { NewPeerStore(cfg interface{}) (PeerStore, error) } // ErrResourceDoesNotExist is the error returned by all delete methods and the // AnnouncePeers method of the PeerStore interface if the requested resource // does not exist. var ErrResourceDoesNotExist = bittorrent.ClientError("resource does not exist") // ErrDriverDoesNotExist is the error returned by NewPeerStore when a peer // store driver with that name does not exist. var ErrDriverDoesNotExist = errors.New("peer store driver with that name does not exist") // PeerStore is an interface that abstracts the interactions of storing and // manipulating Peers such that it can be implemented for various data stores. // // Implementations of the PeerStore interface must do the following in addition // to implementing the methods of the interface in the way documented: // // - Implement a garbage-collection strategy that ensures stale data is removed. // For example, a timestamp on each InfoHash/Peer combination can be used // to track the last activity for that Peer. The entire database can then // be scanned periodically and too old Peers removed. The intervals and // durations involved should be configurable. // - IPv4 and IPv6 swarms must be isolated from each other. // A PeerStore must be able to transparently handle IPv4 and IPv6 Peers, but // must separate them. AnnouncePeers and ScrapeSwarm must return information // about the Swarm matching the given AddressFamily only. // // Implementations can be tested against this interface using the tests in // storage_tests.go and the benchmarks in storage_bench.go. type PeerStore interface { // PutSeeder adds a Seeder to the Swarm identified by the provided // InfoHash. PutSeeder(infoHash bittorrent.InfoHash, p bittorrent.Peer) error // DeleteSeeder removes a Seeder from the Swarm identified by the // provided InfoHash. // // If the Swarm or Peer does not exist, this function returns // ErrResourceDoesNotExist. DeleteSeeder(infoHash bittorrent.InfoHash, p bittorrent.Peer) error // PutLeecher adds a Leecher to the Swarm identified by the provided // InfoHash. // If the Swarm does not exist already, it is created. PutLeecher(infoHash bittorrent.InfoHash, p bittorrent.Peer) error // DeleteLeecher removes a Leecher from the Swarm identified by the // provided InfoHash. // // If the Swarm or Peer does not exist, this function returns // ErrResourceDoesNotExist. DeleteLeecher(infoHash bittorrent.InfoHash, p bittorrent.Peer) error // GraduateLeecher promotes a Leecher to a Seeder in the Swarm // identified by the provided InfoHash. // // If the given Peer is not present as a Leecher or the swarm does not exist // already, the Peer is added as a Seeder and no error is returned. GraduateLeecher(infoHash bittorrent.InfoHash, p bittorrent.Peer) error // AnnouncePeers is a best effort attempt to return Peers from the Swarm // identified by the provided InfoHash. // The numWant parameter indicates the number of peers requested by the // announcing Peer p. The seeder flag determines whether the Peer announced // as a Seeder. // The returned Peers are required to be either all IPv4 or all IPv6. // // The returned Peers should strive be: // - as close to length equal to numWant as possible without going over // - all IPv4 or all IPv6 depending on the provided peer // - if seeder is true, should ideally return more leechers than seeders // - if seeder is false, should ideally return more seeders than // leechers // // Returns ErrResourceDoesNotExist if the provided InfoHash is not tracked. AnnouncePeers(infoHash bittorrent.InfoHash, seeder bool, numWant int, p bittorrent.Peer) (peers []bittorrent.Peer, err error) // ScrapeSwarm returns information required to answer a Scrape request // about a Swarm identified by the given InfoHash. // The AddressFamily indicates whether or not the IPv6 swarm should be // scraped. // The Complete and Incomplete fields of the Scrape must be filled, // filling the Snatches field is optional. // // If the Swarm does not exist, an empty Scrape and no error is returned. ScrapeSwarm(infoHash bittorrent.InfoHash, addressFamily bittorrent.AddressFamily) bittorrent.Scrape // stop.Stopper is an interface that expects a Stop method to stop the // PeerStore. // For more details see the documentation in the stop package. stop.Stopper // log.Fielder returns a loggable version of the data used to configure and // operate a particular PeerStore. log.Fielder } // RegisterDriver makes a Driver available by the provided name. // // If called twice with the same name, the name is blank, or if the provided // Driver is nil, this function panics. func RegisterDriver(name string, d Driver) { if name == "" { panic("storage: could not register a Driver with an empty name") } if d == nil { panic("storage: could not register a nil Driver") } driversM.Lock() defer driversM.Unlock() if _, dup := drivers[name]; dup { panic("storage: RegisterDriver called twice for " + name) } drivers[name] = d } // NewPeerStore attempts to initialize a new PeerStore with given a name from // the list of registered Drivers. // // If a driver does not exist, returns ErrDriverDoesNotExist. func NewPeerStore(name string, cfg interface{}) (ps PeerStore, err error) { driversM.RLock() defer driversM.RUnlock() var d Driver d, ok := drivers[name] if !ok { return nil, ErrDriverDoesNotExist } return d.NewPeerStore(cfg) }