package bitswap import ( "context" "errors" "sync" bsmsg "github.com/ipfs/go-ipfs/exchange/bitswap/message" bsnet "github.com/ipfs/go-ipfs/exchange/bitswap/network" mockrouting "github.com/ipfs/go-ipfs/routing/mock" delay "github.com/ipfs/go-ipfs/thirdparty/delay" routing "gx/ipfs/QmRijoA6zGS98ELTDbGsLWPZbVotYsGbjp3RbXcKCYBeon/go-libp2p-routing" logging "gx/ipfs/QmSpJByNKFX1sCsHBEp3R73FL4NF6FnQTEGyNAXHm2GS52/go-log" ifconnmgr "gx/ipfs/QmZdqgq4h6AdodSmPwb5FZzhwnmhchu1hhJgv8tnFdod1o/go-libp2p-interface-connmgr" peer "gx/ipfs/Qma7H6RW8wRrfZpNSXwxYGcd1E149s42FpWNpDNieSVrnU/go-libp2p-peer" cid "gx/ipfs/QmcZfnkapfECQGcLZaf9B79NRg7cRa9EnZh4LSbkCzwNvY/go-cid" testutil "gx/ipfs/QmfB65MYJqaKzBiMvW47fquCRhmEeXW6AhrJSGM7TeY5eG/go-testutil" ) var log = logging.Logger("bstestnet") func VirtualNetwork(rs mockrouting.Server, d delay.D) Network { return &network{ clients: make(map[peer.ID]bsnet.Receiver), delay: d, routingserver: rs, conns: make(map[string]struct{}), } } type network struct { mu sync.Mutex clients map[peer.ID]bsnet.Receiver routingserver mockrouting.Server delay delay.D conns map[string]struct{} } func (n *network) Adapter(p testutil.Identity) bsnet.BitSwapNetwork { n.mu.Lock() defer n.mu.Unlock() client := &networkClient{ local: p.ID(), network: n, routing: n.routingserver.Client(p), } n.clients[p.ID()] = client return client } func (n *network) HasPeer(p peer.ID) bool { n.mu.Lock() defer n.mu.Unlock() _, found := n.clients[p] return found } // TODO should this be completely asynchronous? // TODO what does the network layer do with errors received from services? func (n *network) SendMessage( ctx context.Context, from peer.ID, to peer.ID, message bsmsg.BitSwapMessage) error { n.mu.Lock() defer n.mu.Unlock() receiver, ok := n.clients[to] if !ok { return errors.New("Cannot locate peer on network") } // nb: terminate the context since the context wouldn't actually be passed // over the network in a real scenario go n.deliver(receiver, from, message) return nil } func (n *network) deliver( r bsnet.Receiver, from peer.ID, message bsmsg.BitSwapMessage) error { if message == nil || from == "" { return errors.New("Invalid input") } n.delay.Wait() r.ReceiveMessage(context.TODO(), from, message) return nil } type networkClient struct { local peer.ID bsnet.Receiver network *network routing routing.IpfsRouting } func (nc *networkClient) SendMessage( ctx context.Context, to peer.ID, message bsmsg.BitSwapMessage) error { return nc.network.SendMessage(ctx, nc.local, to, message) } // FindProvidersAsync returns a channel of providers for the given key func (nc *networkClient) FindProvidersAsync(ctx context.Context, k *cid.Cid, max int) <-chan peer.ID { // NB: this function duplicates the PeerInfo -> ID transformation in the // bitswap network adapter. Not to worry. This network client will be // deprecated once the ipfsnet.Mock is added. The code below is only // temporary. out := make(chan peer.ID) go func() { defer close(out) providers := nc.routing.FindProvidersAsync(ctx, k, max) for info := range providers { select { case <-ctx.Done(): case out <- info.ID: } } }() return out } func (nc *networkClient) ConnectionManager() ifconnmgr.ConnManager { return &ifconnmgr.NullConnMgr{} } type messagePasser struct { net *network target peer.ID local peer.ID ctx context.Context } func (mp *messagePasser) SendMsg(ctx context.Context, m bsmsg.BitSwapMessage) error { return mp.net.SendMessage(ctx, mp.local, mp.target, m) } func (mp *messagePasser) Close() error { return nil } func (mp *messagePasser) Reset() error { return nil } func (n *networkClient) NewMessageSender(ctx context.Context, p peer.ID) (bsnet.MessageSender, error) { return &messagePasser{ net: n.network, target: p, local: n.local, ctx: ctx, }, nil } // Provide provides the key to the network func (nc *networkClient) Provide(ctx context.Context, k *cid.Cid) error { return nc.routing.Provide(ctx, k, true) } func (nc *networkClient) SetDelegate(r bsnet.Receiver) { nc.Receiver = r } func (nc *networkClient) ConnectTo(_ context.Context, p peer.ID) error { nc.network.mu.Lock() otherClient, ok := nc.network.clients[p] if !ok { nc.network.mu.Unlock() return errors.New("no such peer in network") } tag := tagForPeers(nc.local, p) if _, ok := nc.network.conns[tag]; ok { nc.network.mu.Unlock() log.Warning("ALREADY CONNECTED TO PEER (is this a reconnect? test lib needs fixing)") return nil } nc.network.conns[tag] = struct{}{} nc.network.mu.Unlock() // TODO: add handling for disconnects otherClient.PeerConnected(nc.local) nc.Receiver.PeerConnected(p) return nil } func tagForPeers(a, b peer.ID) string { if a < b { return string(a + b) } return string(b + a) }