// package bitswap implements the IPFS Exchange interface with the BitSwap // bilateral exchange protocol. package bitswap import ( "math" "sync" "time" process "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/goprocess" context "github.com/jbenet/go-ipfs/Godeps/_workspace/src/golang.org/x/net/context" blocks "github.com/jbenet/go-ipfs/blocks" blockstore "github.com/jbenet/go-ipfs/blocks/blockstore" exchange "github.com/jbenet/go-ipfs/exchange" decision "github.com/jbenet/go-ipfs/exchange/bitswap/decision" bsmsg "github.com/jbenet/go-ipfs/exchange/bitswap/message" bsnet "github.com/jbenet/go-ipfs/exchange/bitswap/network" notifications "github.com/jbenet/go-ipfs/exchange/bitswap/notifications" wantlist "github.com/jbenet/go-ipfs/exchange/bitswap/wantlist" peer "github.com/jbenet/go-ipfs/p2p/peer" "github.com/jbenet/go-ipfs/thirdparty/delay" eventlog "github.com/jbenet/go-ipfs/thirdparty/eventlog" u "github.com/jbenet/go-ipfs/util" errors "github.com/jbenet/go-ipfs/util/debugerror" pset "github.com/jbenet/go-ipfs/util/peerset" // TODO move this to peerstore ) var log = eventlog.Logger("bitswap") const ( // maxProvidersPerRequest specifies the maximum number of providers desired // from the network. This value is specified because the network streams // results. // TODO: if a 'non-nice' strategy is implemented, consider increasing this value maxProvidersPerRequest = 3 providerRequestTimeout = time.Second * 10 hasBlockTimeout = time.Second * 15 provideTimeout = time.Second * 15 sizeBatchRequestChan = 32 // kMaxPriority is the max priority as defined by the bitswap protocol kMaxPriority = math.MaxInt32 hasBlockBufferSize = 256 provideWorkers = 4 ) var ( rebroadcastDelay = delay.Fixed(time.Second * 10) ) // New initializes a BitSwap instance that communicates over the provided // BitSwapNetwork. This function registers the returned instance as the network // delegate. // Runs until context is cancelled. func New(parent context.Context, p peer.ID, network bsnet.BitSwapNetwork, bstore blockstore.Blockstore, nice bool) exchange.Interface { // important to use provided parent context (since it may include important // loggable data). It's probably not a good idea to allow bitswap to be // coupled to the concerns of the IPFS daemon in this way. // // FIXME(btc) Now that bitswap manages itself using a process, it probably // shouldn't accept a context anymore. Clients should probably use Close() // exclusively. We should probably find another way to share logging data ctx, cancelFunc := context.WithCancel(parent) notif := notifications.New() px := process.WithTeardown(func() error { notif.Shutdown() return nil }) go func() { <-px.Closing() // process closes first cancelFunc() }() go func() { <-ctx.Done() // parent cancelled first px.Close() }() bs := &Bitswap{ self: p, blockstore: bstore, notifications: notif, engine: decision.NewEngine(ctx, bstore), // TODO close the engine with Close() method network: network, wantlist: wantlist.NewThreadSafe(), batchRequests: make(chan *blockRequest, sizeBatchRequestChan), process: px, newBlocks: make(chan *blocks.Block, hasBlockBufferSize), } network.SetDelegate(bs) // Start up bitswaps async worker routines bs.startWorkers(px, ctx) return bs } // Bitswap instances implement the bitswap protocol. type Bitswap struct { // the ID of the peer to act on behalf of self peer.ID // network delivers messages on behalf of the session network bsnet.BitSwapNetwork // blockstore is the local database // NB: ensure threadsafety blockstore blockstore.Blockstore notifications notifications.PubSub // Requests for a set of related blocks // the assumption is made that the same peer is likely to // have more than a single block in the set batchRequests chan *blockRequest engine *decision.Engine wantlist *wantlist.ThreadSafe process process.Process newBlocks chan *blocks.Block } type blockRequest struct { keys []u.Key ctx context.Context } // GetBlock attempts to retrieve a particular block from peers within the // deadline enforced by the context. func (bs *Bitswap) GetBlock(parent context.Context, k u.Key) (*blocks.Block, error) { // Any async work initiated by this function must end when this function // returns. To ensure this, derive a new context. Note that it is okay to // listen on parent in this scope, but NOT okay to pass |parent| to // functions called by this one. Otherwise those functions won't return // when this context's cancel func is executed. This is difficult to // enforce. May this comment keep you safe. ctx, cancelFunc := context.WithCancel(parent) ctx = eventlog.ContextWithLoggable(ctx, eventlog.Uuid("GetBlockRequest")) defer log.EventBegin(ctx, "GetBlockRequest", &k).Done() defer func() { cancelFunc() }() promise, err := bs.GetBlocks(ctx, []u.Key{k}) if err != nil { return nil, err } select { case block, ok := <-promise: if !ok { select { case <-ctx.Done(): return nil, ctx.Err() default: return nil, errors.New("promise channel was closed") } } return block, nil case <-parent.Done(): return nil, parent.Err() } } // GetBlocks returns a channel where the caller may receive blocks that // correspond to the provided |keys|. Returns an error if BitSwap is unable to // begin this request within the deadline enforced by the context. // // NB: Your request remains open until the context expires. To conserve // resources, provide a context with a reasonably short deadline (ie. not one // that lasts throughout the lifetime of the server) func (bs *Bitswap) GetBlocks(ctx context.Context, keys []u.Key) (<-chan *blocks.Block, error) { select { case <-bs.process.Closing(): return nil, errors.New("bitswap is closed") default: } promise := bs.notifications.Subscribe(ctx, keys...) req := &blockRequest{ keys: keys, ctx: ctx, } select { case bs.batchRequests <- req: return promise, nil case <-ctx.Done(): return nil, ctx.Err() } } // HasBlock announces the existance of a block to this bitswap service. The // service will potentially notify its peers. func (bs *Bitswap) HasBlock(ctx context.Context, blk *blocks.Block) error { log.Event(ctx, "hasBlock", blk) select { case <-bs.process.Closing(): return errors.New("bitswap is closed") default: } if err := bs.blockstore.Put(blk); err != nil { return err } bs.wantlist.Remove(blk.Key()) bs.notifications.Publish(blk) select { case bs.newBlocks <- blk: case <-ctx.Done(): return ctx.Err() } return nil } func (bs *Bitswap) sendWantlistMsgToPeers(ctx context.Context, m bsmsg.BitSwapMessage, peers <-chan peer.ID) error { set := pset.New() wg := sync.WaitGroup{} for peerToQuery := range peers { if !set.TryAdd(peerToQuery) { //Do once per peer continue } wg.Add(1) go func(p peer.ID) { defer wg.Done() if err := bs.send(ctx, p, m); err != nil { log.Debug(err) // TODO remove if too verbose } }(peerToQuery) } wg.Wait() return nil } func (bs *Bitswap) sendWantlistToPeers(ctx context.Context, peers <-chan peer.ID) error { message := bsmsg.New() message.SetFull(true) for _, wanted := range bs.wantlist.Entries() { message.AddEntry(wanted.Key, wanted.Priority) } return bs.sendWantlistMsgToPeers(ctx, message, peers) } func (bs *Bitswap) sendWantlistToProviders(ctx context.Context, entries []wantlist.Entry) { ctx, cancel := context.WithCancel(ctx) defer cancel() // prepare a channel to hand off to sendWantlistToPeers sendToPeers := make(chan peer.ID) // Get providers for all entries in wantlist (could take a while) wg := sync.WaitGroup{} for _, e := range entries { wg.Add(1) go func(k u.Key) { defer wg.Done() child, _ := context.WithTimeout(ctx, providerRequestTimeout) providers := bs.network.FindProvidersAsync(child, k, maxProvidersPerRequest) for prov := range providers { sendToPeers <- prov } }(e.Key) } go func() { wg.Wait() // make sure all our children do finish. close(sendToPeers) }() err := bs.sendWantlistToPeers(ctx, sendToPeers) if err != nil { log.Debugf("sendWantlistToPeers error: %s", err) } } // TODO(brian): handle errors func (bs *Bitswap) ReceiveMessage(ctx context.Context, p peer.ID, incoming bsmsg.BitSwapMessage) ( peer.ID, bsmsg.BitSwapMessage) { defer log.EventBegin(ctx, "receiveMessage", p, incoming).Done() if p == "" { log.Debug("Received message from nil peer!") // TODO propagate the error upward return "", nil } if incoming == nil { log.Debug("Got nil bitswap message!") // TODO propagate the error upward return "", nil } // This call records changes to wantlists, blocks received, // and number of bytes transfered. bs.engine.MessageReceived(p, incoming) // TODO: this is bad, and could be easily abused. // Should only track *useful* messages in ledger for _, block := range incoming.Blocks() { hasBlockCtx, _ := context.WithTimeout(ctx, hasBlockTimeout) if err := bs.HasBlock(hasBlockCtx, block); err != nil { log.Debug(err) } } var keys []u.Key for _, block := range incoming.Blocks() { keys = append(keys, block.Key()) } bs.cancelBlocks(ctx, keys) // TODO: consider changing this function to not return anything return "", nil } // Connected/Disconnected warns bitswap about peer connections func (bs *Bitswap) PeerConnected(p peer.ID) { // TODO: add to clientWorker?? peers := make(chan peer.ID, 1) peers <- p close(peers) err := bs.sendWantlistToPeers(context.TODO(), peers) if err != nil { log.Debugf("error sending wantlist: %s", err) } } // Connected/Disconnected warns bitswap about peer connections func (bs *Bitswap) PeerDisconnected(p peer.ID) { bs.engine.PeerDisconnected(p) } func (bs *Bitswap) cancelBlocks(ctx context.Context, bkeys []u.Key) { if len(bkeys) < 1 { return } message := bsmsg.New() message.SetFull(false) for _, k := range bkeys { message.Cancel(k) } for _, p := range bs.engine.Peers() { err := bs.send(ctx, p, message) if err != nil { log.Debugf("Error sending message: %s", err) } } } func (bs *Bitswap) wantNewBlocks(ctx context.Context, bkeys []u.Key) { if len(bkeys) < 1 { return } message := bsmsg.New() message.SetFull(false) for i, k := range bkeys { message.AddEntry(k, kMaxPriority-i) } wg := sync.WaitGroup{} for _, p := range bs.engine.Peers() { wg.Add(1) go func(p peer.ID) { defer wg.Done() err := bs.send(ctx, p, message) if err != nil { log.Debugf("Error sending message: %s", err) } }(p) } wg.Wait() } func (bs *Bitswap) ReceiveError(err error) { log.Debugf("Bitswap ReceiveError: %s", err) // TODO log the network error // TODO bubble the network error up to the parent context/error logger } // send strives to ensure that accounting is always performed when a message is // sent func (bs *Bitswap) send(ctx context.Context, p peer.ID, m bsmsg.BitSwapMessage) error { defer log.EventBegin(ctx, "sendMessage", p, m).Done() if err := bs.network.SendMessage(ctx, p, m); err != nil { return errors.Wrap(err) } return bs.engine.MessageSent(p, m) } func (bs *Bitswap) Close() error { return bs.process.Close() } func (bs *Bitswap) GetWantlist() []u.Key { var out []u.Key for _, e := range bs.wantlist.Entries() { out = append(out, e.Key) } return out }