package message import ( "bytes" "testing" blocks "github.com/jbenet/go-ipfs/blocks" pb "github.com/jbenet/go-ipfs/exchange/bitswap/message/internal/pb" peer "github.com/jbenet/go-ipfs/peer" u "github.com/jbenet/go-ipfs/util" ) func TestAppendWanted(t *testing.T) { const str = "foo" m := New() m.AppendWanted(u.Key(str)) if !contains(m.ToProto().GetWantlist(), str) { t.Fail() } } func TestNewMessageFromProto(t *testing.T) { const str = "a_key" protoMessage := new(pb.Message) protoMessage.Wantlist = []string{string(str)} if !contains(protoMessage.Wantlist, str) { t.Fail() } m := newMessageFromProto(*protoMessage) if !contains(m.ToProto().GetWantlist(), str) { t.Fail() } } func TestAppendBlock(t *testing.T) { strs := make([]string, 2) strs = append(strs, "Celeritas") strs = append(strs, "Incendia") m := New() for _, str := range strs { block := blocks.NewBlock([]byte(str)) m.AppendBlock(*block) } // assert strings are in proto message for _, blockbytes := range m.ToProto().GetBlocks() { s := bytes.NewBuffer(blockbytes).String() if !contains(strs, s) { t.Fail() } } } func TestWantlist(t *testing.T) { keystrs := []string{"foo", "bar", "baz", "bat"} m := New() for _, s := range keystrs { m.AppendWanted(u.Key(s)) } exported := m.Wantlist() for _, k := range exported { present := false for _, s := range keystrs { if s == string(k) { present = true } } if !present { t.Logf("%v isn't in original list", string(k)) t.Fail() } } } func TestCopyProtoByValue(t *testing.T) { const str = "foo" m := New() protoBeforeAppend := m.ToProto() m.AppendWanted(u.Key(str)) if contains(protoBeforeAppend.GetWantlist(), str) { t.Fail() } } func TestToNetMethodSetsPeer(t *testing.T) { m := New() p := peer.WithIDString("X") netmsg, err := m.ToNet(p) if err != nil { t.Fatal(err) } if !(netmsg.Peer().Key() == p.Key()) { t.Fatal("Peer key is different") } } func TestToNetFromNetPreservesWantList(t *testing.T) { original := New() original.AppendWanted(u.Key("M")) original.AppendWanted(u.Key("B")) original.AppendWanted(u.Key("D")) original.AppendWanted(u.Key("T")) original.AppendWanted(u.Key("F")) p := peer.WithIDString("X") netmsg, err := original.ToNet(p) if err != nil { t.Fatal(err) } copied, err := FromNet(netmsg) if err != nil { t.Fatal(err) } keys := make(map[u.Key]bool) for _, k := range copied.Wantlist() { keys[k] = true } for _, k := range original.Wantlist() { if _, ok := keys[k]; !ok { t.Fatalf("Key Missing: \"%v\"", k) } } } func TestToAndFromNetMessage(t *testing.T) { original := New() original.AppendBlock(*blocks.NewBlock([]byte("W"))) original.AppendBlock(*blocks.NewBlock([]byte("E"))) original.AppendBlock(*blocks.NewBlock([]byte("F"))) original.AppendBlock(*blocks.NewBlock([]byte("M"))) p := peer.WithIDString("X") netmsg, err := original.ToNet(p) if err != nil { t.Fatal(err) } m2, err := FromNet(netmsg) if err != nil { t.Fatal(err) } keys := make(map[u.Key]bool) for _, b := range m2.Blocks() { keys[b.Key()] = true } for _, b := range original.Blocks() { if _, ok := keys[b.Key()]; !ok { t.Fail() } } } func contains(s []string, x string) bool { for _, a := range s { if a == x { return true } } return false }