package rpctest import ( "fmt" "testing" ctypes "github.com/tendermint/tendermint/rpc/core/types" "github.com/tendermint/tendermint/types" ) //-------------------------------------------------------------------------------- // Test the HTTP client //-------------------------------------------------------------------------------- //-------------------------------------------------------------------------------- // status func TestURIStatus(t *testing.T) { tmResult := new(ctypes.TMResult) _, err := clientURI.Call("status", map[string]interface{}{}, tmResult) if err != nil { t.Fatal(err) } testStatus(t, tmResult) } func TestJSONStatus(t *testing.T) { tmResult := new(ctypes.TMResult) _, err := clientJSON.Call("status", []interface{}{}, tmResult) if err != nil { t.Fatal(err) } testStatus(t, tmResult) } func testStatus(t *testing.T, statusI interface{}) { tmRes := statusI.(*ctypes.TMResult) status := (*tmRes).(*ctypes.ResultStatus) if status.NodeInfo.Network != chainID { t.Fatal(fmt.Errorf("ChainID mismatch: got %s expected %s", status.NodeInfo.Network, chainID)) } } // TODO /* func testBroadcastTx(t *testing.T, typ string) { amt := int64(100) toAddr := user[1].Address tx := makeDefaultSendTxSigned(t, typ, toAddr, amt) receipt := broadcastTx(t, typ, tx) if receipt.CreatesContract > 0 { t.Fatal("This tx does not create a contract") } if len(receipt.TxHash) == 0 { t.Fatal("Failed to compute tx hash") } pool := node.MempoolReactor().Mempool txs := pool.GetProposalTxs() if len(txs) != mempoolCount { t.Fatalf("The mem pool has %d txs. Expected %d", len(txs), mempoolCount) } tx2 := txs[mempoolCount-1].(*types.SendTx) n, err := new(int64), new(error) buf1, buf2 := new(bytes.Buffer), new(bytes.Buffer) tx.WriteSignBytes(chainID, buf1, n, err) tx2.WriteSignBytes(chainID, buf2, n, err) if bytes.Compare(buf1.Bytes(), buf2.Bytes()) != 0 { t.Fatal("inconsistent hashes for mempool tx and sent tx") } }*/ //-------------------------------------------------------------------------------- // Test the websocket service var wsTyp = "JSONRPC" // make a simple connection to the server func TestWSConnect(t *testing.T) { wsc := newWSClient(t) wsc.Stop() } // receive a new block message func TestWSNewBlock(t *testing.T) { wsc := newWSClient(t) eid := types.EventStringNewBlock() subscribe(t, wsc, eid) defer func() { unsubscribe(t, wsc, eid) wsc.Stop() }() waitForEvent(t, wsc, eid, true, func() {}, func(eid string, b interface{}) error { fmt.Println("Check:", b) return nil }) } // receive a few new block messages in a row, with increasing height func TestWSBlockchainGrowth(t *testing.T) { if testing.Short() { t.Skip("skipping test in short mode.") } wsc := newWSClient(t) eid := types.EventStringNewBlock() subscribe(t, wsc, eid) defer func() { unsubscribe(t, wsc, eid) wsc.Stop() }() // listen for NewBlock, ensure height increases by 1 var initBlockN int for i := 0; i < 3; i++ { waitForEvent(t, wsc, eid, true, func() {}, func(eid string, eventData interface{}) error { block := eventData.(types.EventDataNewBlock).Block if i == 0 { initBlockN = block.Header.Height } else { if block.Header.Height != initBlockN+i { return fmt.Errorf("Expected block %d, got block %d", initBlockN+i, block.Header.Height) } } return nil }) } } /* TODO: this with dummy app.. func TestWSDoubleFire(t *testing.T) { if testing.Short() { t.Skip("skipping test in short mode.") } con := newWSCon(t) eid := types.EventStringAccInput(user[0].Address) subscribe(t, con, eid) defer func() { unsubscribe(t, con, eid) con.Close() }() amt := int64(100) toAddr := user[1].Address // broadcast the transaction, wait to hear about it waitForEvent(t, con, eid, true, func() { tx := makeDefaultSendTxSigned(t, wsTyp, toAddr, amt) broadcastTx(t, wsTyp, tx) }, func(eid string, b []byte) error { return nil }) // but make sure we don't hear about it twice waitForEvent(t, con, eid, false, func() { }, func(eid string, b []byte) error { return nil }) }*/