package mocknet import ( "fmt" "sort" "sync" ic "github.com/jbenet/go-ipfs/p2p/crypto" host "github.com/jbenet/go-ipfs/p2p/host" bhost "github.com/jbenet/go-ipfs/p2p/host/basic" inet "github.com/jbenet/go-ipfs/p2p/net" peer "github.com/jbenet/go-ipfs/p2p/peer" p2putil "github.com/jbenet/go-ipfs/p2p/test/util" testutil "github.com/jbenet/go-ipfs/util/testutil" ctxgroup "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-ctxgroup" ma "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multiaddr" context "github.com/jbenet/go-ipfs/Godeps/_workspace/src/golang.org/x/net/context" ) // mocknet implements mocknet.Mocknet type mocknet struct { nets map[peer.ID]*peernet hosts map[peer.ID]*bhost.BasicHost // links make it possible to connect two peers. // think of links as the physical medium. // usually only one, but there could be multiple // **links are shared between peers** links map[peer.ID]map[peer.ID]map[*link]struct{} linkDefaults LinkOptions cg ctxgroup.ContextGroup // for Context closing sync.RWMutex } func New(ctx context.Context) Mocknet { return &mocknet{ nets: map[peer.ID]*peernet{}, hosts: map[peer.ID]*bhost.BasicHost{}, links: map[peer.ID]map[peer.ID]map[*link]struct{}{}, cg: ctxgroup.WithContext(ctx), } } func (mn *mocknet) GenPeer() (host.Host, error) { sk, err := p2putil.RandTestBogusPrivateKey() if err != nil { return nil, err } a := testutil.RandLocalTCPAddress() h, err := mn.AddPeer(sk, a) if err != nil { return nil, err } return h, nil } func (mn *mocknet) AddPeer(k ic.PrivKey, a ma.Multiaddr) (host.Host, error) { n, err := newPeernet(mn.cg.Context(), mn, k, a) if err != nil { return nil, err } h := bhost.New(n) log.Debugf("mocknet added listen addr for peer: %s -- %s", n.LocalPeer(), a) mn.cg.AddChild(n.cg) mn.Lock() mn.nets[n.peer] = n mn.hosts[n.peer] = h mn.Unlock() return h, nil } func (mn *mocknet) Peers() []peer.ID { mn.RLock() defer mn.RUnlock() cp := make([]peer.ID, 0, len(mn.nets)) for _, n := range mn.nets { cp = append(cp, n.peer) } sort.Sort(peer.IDSlice(cp)) return cp } func (mn *mocknet) Host(pid peer.ID) host.Host { mn.RLock() host := mn.hosts[pid] mn.RUnlock() return host } func (mn *mocknet) Net(pid peer.ID) inet.Network { mn.RLock() n := mn.nets[pid] mn.RUnlock() return n } func (mn *mocknet) Hosts() []host.Host { mn.RLock() defer mn.RUnlock() cp := make([]host.Host, 0, len(mn.hosts)) for _, h := range mn.hosts { cp = append(cp, h) } sort.Sort(hostSlice(cp)) return cp } func (mn *mocknet) Nets() []inet.Network { mn.RLock() defer mn.RUnlock() cp := make([]inet.Network, 0, len(mn.nets)) for _, n := range mn.nets { cp = append(cp, n) } sort.Sort(netSlice(cp)) return cp } // Links returns a copy of the internal link state map. // (wow, much map. so data structure. how compose. ahhh pointer) func (mn *mocknet) Links() LinkMap { mn.RLock() defer mn.RUnlock() links := map[string]map[string]map[Link]struct{}{} for p1, lm := range mn.links { sp1 := string(p1) links[sp1] = map[string]map[Link]struct{}{} for p2, ls := range lm { sp2 := string(p2) links[sp1][sp2] = map[Link]struct{}{} for l := range ls { links[sp1][sp2][l] = struct{}{} } } } return links } func (mn *mocknet) LinkAll() error { nets := mn.Nets() for _, n1 := range nets { for _, n2 := range nets { if _, err := mn.LinkNets(n1, n2); err != nil { return err } } } return nil } func (mn *mocknet) LinkPeers(p1, p2 peer.ID) (Link, error) { mn.RLock() n1 := mn.nets[p1] n2 := mn.nets[p2] mn.RUnlock() if n1 == nil { return nil, fmt.Errorf("network for p1 not in mocknet") } if n2 == nil { return nil, fmt.Errorf("network for p2 not in mocknet") } return mn.LinkNets(n1, n2) } func (mn *mocknet) validate(n inet.Network) (*peernet, error) { // WARNING: assumes locks acquired nr, ok := n.(*peernet) if !ok { return nil, fmt.Errorf("Network not supported (use mock package nets only)") } if _, found := mn.nets[nr.peer]; !found { return nil, fmt.Errorf("Network not on mocknet. is it from another mocknet?") } return nr, nil } func (mn *mocknet) LinkNets(n1, n2 inet.Network) (Link, error) { mn.RLock() n1r, err1 := mn.validate(n1) n2r, err2 := mn.validate(n2) ld := mn.linkDefaults mn.RUnlock() if err1 != nil { return nil, err1 } if err2 != nil { return nil, err2 } l := newLink(mn, ld) l.nets = append(l.nets, n1r, n2r) mn.addLink(l) return l, nil } func (mn *mocknet) Unlink(l2 Link) error { l, ok := l2.(*link) if !ok { return fmt.Errorf("only links from mocknet are supported") } mn.removeLink(l) return nil } func (mn *mocknet) UnlinkPeers(p1, p2 peer.ID) error { ls := mn.LinksBetweenPeers(p1, p2) if ls == nil { return fmt.Errorf("no link between p1 and p2") } for _, l := range ls { if err := mn.Unlink(l); err != nil { return err } } return nil } func (mn *mocknet) UnlinkNets(n1, n2 inet.Network) error { return mn.UnlinkPeers(n1.LocalPeer(), n2.LocalPeer()) } // get from the links map. and lazily contruct. func (mn *mocknet) linksMapGet(p1, p2 peer.ID) *map[*link]struct{} { l1, found := mn.links[p1] if !found { mn.links[p1] = map[peer.ID]map[*link]struct{}{} l1 = mn.links[p1] // so we make sure it's there. } l2, found := l1[p2] if !found { m := map[*link]struct{}{} l1[p2] = m l2 = l1[p2] } return &l2 } func (mn *mocknet) addLink(l *link) { mn.Lock() defer mn.Unlock() n1, n2 := l.nets[0], l.nets[1] (*mn.linksMapGet(n1.peer, n2.peer))[l] = struct{}{} (*mn.linksMapGet(n2.peer, n1.peer))[l] = struct{}{} } func (mn *mocknet) removeLink(l *link) { mn.Lock() defer mn.Unlock() n1, n2 := l.nets[0], l.nets[1] delete(*mn.linksMapGet(n1.peer, n2.peer), l) delete(*mn.linksMapGet(n2.peer, n1.peer), l) } func (mn *mocknet) ConnectAll() error { nets := mn.Nets() for _, n1 := range nets { for _, n2 := range nets { if n1 == n2 { continue } if _, err := mn.ConnectNets(n1, n2); err != nil { return err } } } return nil } func (mn *mocknet) ConnectPeers(a, b peer.ID) (inet.Conn, error) { return mn.Net(a).DialPeer(mn.cg.Context(), b) } func (mn *mocknet) ConnectNets(a, b inet.Network) (inet.Conn, error) { return a.DialPeer(mn.cg.Context(), b.LocalPeer()) } func (mn *mocknet) DisconnectPeers(p1, p2 peer.ID) error { return mn.Net(p1).ClosePeer(p2) } func (mn *mocknet) DisconnectNets(n1, n2 inet.Network) error { return n1.ClosePeer(n2.LocalPeer()) } func (mn *mocknet) LinksBetweenPeers(p1, p2 peer.ID) []Link { mn.RLock() defer mn.RUnlock() ls2 := *mn.linksMapGet(p1, p2) cp := make([]Link, 0, len(ls2)) for l := range ls2 { cp = append(cp, l) } return cp } func (mn *mocknet) LinksBetweenNets(n1, n2 inet.Network) []Link { return mn.LinksBetweenPeers(n1.LocalPeer(), n2.LocalPeer()) } func (mn *mocknet) SetLinkDefaults(o LinkOptions) { mn.Lock() mn.linkDefaults = o mn.Unlock() } func (mn *mocknet) LinkDefaults() LinkOptions { mn.RLock() defer mn.RUnlock() return mn.linkDefaults } // netSlice for sorting by peer type netSlice []inet.Network func (es netSlice) Len() int { return len(es) } func (es netSlice) Swap(i, j int) { es[i], es[j] = es[j], es[i] } func (es netSlice) Less(i, j int) bool { return string(es[i].LocalPeer()) < string(es[j].LocalPeer()) } // hostSlice for sorting by peer type hostSlice []host.Host func (es hostSlice) Len() int { return len(es) } func (es hostSlice) Swap(i, j int) { es[i], es[j] = es[j], es[i] } func (es hostSlice) Less(i, j int) bool { return string(es[i].ID()) < string(es[j].ID()) }