package client_test import ( "bytes" "fmt" "math/rand" "net/http" "strings" "sync" "testing" "time" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" abci "github.com/tendermint/tendermint/abci/types" "github.com/tendermint/tendermint/crypto/ed25519" "github.com/tendermint/tendermint/crypto/tmhash" "github.com/tendermint/tendermint/libs/log" tmmath "github.com/tendermint/tendermint/libs/math" mempl "github.com/tendermint/tendermint/mempool" "github.com/tendermint/tendermint/privval" "github.com/tendermint/tendermint/rpc/client" ctypes "github.com/tendermint/tendermint/rpc/core/types" rpcclient "github.com/tendermint/tendermint/rpc/lib/client" rpctest "github.com/tendermint/tendermint/rpc/test" "github.com/tendermint/tendermint/types" ) func getHTTPClient() *client.HTTP { rpcAddr := rpctest.GetConfig().RPC.ListenAddress c, err := client.NewHTTP(rpcAddr, "/websocket") if err != nil { panic(err) } c.SetLogger(log.TestingLogger()) return c } func getLocalClient() *client.Local { return client.NewLocal(node) } // GetClients returns a slice of clients for table-driven tests func GetClients() []client.Client { return []client.Client{ getHTTPClient(), getLocalClient(), } } func TestNilCustomHTTPClient(t *testing.T) { require.Panics(t, func() { _, _ = client.NewHTTPWithClient("http://example.com", "/websocket", nil) }) require.Panics(t, func() { _, _ = rpcclient.NewJSONRPCClientWithHTTPClient("http://example.com", nil) }) } func TestCustomHTTPClient(t *testing.T) { remote := rpctest.GetConfig().RPC.ListenAddress c, err := client.NewHTTPWithClient(remote, "/websocket", http.DefaultClient) require.Nil(t, err) status, err := c.Status() require.NoError(t, err) require.NotNil(t, status) } func TestCorsEnabled(t *testing.T) { origin := rpctest.GetConfig().RPC.CORSAllowedOrigins[0] remote := strings.Replace(rpctest.GetConfig().RPC.ListenAddress, "tcp", "http", -1) req, err := http.NewRequest("GET", remote, nil) require.Nil(t, err, "%+v", err) req.Header.Set("Origin", origin) c := &http.Client{} resp, err := c.Do(req) require.Nil(t, err, "%+v", err) defer resp.Body.Close() assert.Equal(t, resp.Header.Get("Access-Control-Allow-Origin"), origin) } // Make sure status is correct (we connect properly) func TestStatus(t *testing.T) { for i, c := range GetClients() { moniker := rpctest.GetConfig().Moniker status, err := c.Status() require.Nil(t, err, "%d: %+v", i, err) assert.Equal(t, moniker, status.NodeInfo.Moniker) } } // Make sure info is correct (we connect properly) func TestInfo(t *testing.T) { for i, c := range GetClients() { // status, err := c.Status() // require.Nil(t, err, "%+v", err) info, err := c.ABCIInfo() require.Nil(t, err, "%d: %+v", i, err) // TODO: this is not correct - fix merkleeyes! // assert.EqualValues(t, status.SyncInfo.LatestBlockHeight, info.Response.LastBlockHeight) assert.True(t, strings.Contains(info.Response.Data, "size")) } } func TestNetInfo(t *testing.T) { for i, c := range GetClients() { nc, ok := c.(client.NetworkClient) require.True(t, ok, "%d", i) netinfo, err := nc.NetInfo() require.Nil(t, err, "%d: %+v", i, err) assert.True(t, netinfo.Listening) assert.Equal(t, 0, len(netinfo.Peers)) } } func TestDumpConsensusState(t *testing.T) { for i, c := range GetClients() { // FIXME: fix server so it doesn't panic on invalid input nc, ok := c.(client.NetworkClient) require.True(t, ok, "%d", i) cons, err := nc.DumpConsensusState() require.Nil(t, err, "%d: %+v", i, err) assert.NotEmpty(t, cons.RoundState) assert.Empty(t, cons.Peers) } } func TestConsensusState(t *testing.T) { for i, c := range GetClients() { // FIXME: fix server so it doesn't panic on invalid input nc, ok := c.(client.NetworkClient) require.True(t, ok, "%d", i) cons, err := nc.ConsensusState() require.Nil(t, err, "%d: %+v", i, err) assert.NotEmpty(t, cons.RoundState) } } func TestHealth(t *testing.T) { for i, c := range GetClients() { nc, ok := c.(client.NetworkClient) require.True(t, ok, "%d", i) _, err := nc.Health() require.Nil(t, err, "%d: %+v", i, err) } } func TestGenesisAndValidators(t *testing.T) { for i, c := range GetClients() { // make sure this is the right genesis file gen, err := c.Genesis() require.Nil(t, err, "%d: %+v", i, err) // get the genesis validator require.Equal(t, 1, len(gen.Genesis.Validators)) gval := gen.Genesis.Validators[0] // get the current validators vals, err := c.Validators(nil, 0, 0) require.Nil(t, err, "%d: %+v", i, err) require.Equal(t, 1, len(vals.Validators)) val := vals.Validators[0] // make sure the current set is also the genesis set assert.Equal(t, gval.Power, val.VotingPower) assert.Equal(t, gval.PubKey, val.PubKey) } } func TestABCIQuery(t *testing.T) { for i, c := range GetClients() { // write something k, v, tx := MakeTxKV() bres, err := c.BroadcastTxCommit(tx) require.Nil(t, err, "%d: %+v", i, err) apph := bres.Height + 1 // this is where the tx will be applied to the state // wait before querying client.WaitForHeight(c, apph, nil) res, err := c.ABCIQuery("/key", k) qres := res.Response if assert.Nil(t, err) && assert.True(t, qres.IsOK()) { assert.EqualValues(t, v, qres.Value) } } } // Make some app checks func TestAppCalls(t *testing.T) { assert, require := assert.New(t), require.New(t) for i, c := range GetClients() { // get an offset of height to avoid racing and guessing s, err := c.Status() require.Nil(err, "%d: %+v", i, err) // sh is start height or status height sh := s.SyncInfo.LatestBlockHeight // look for the future h := sh + 2 _, err = c.Block(&h) assert.NotNil(err) // no block yet // write something k, v, tx := MakeTxKV() bres, err := c.BroadcastTxCommit(tx) require.Nil(err, "%d: %+v", i, err) require.True(bres.DeliverTx.IsOK()) txh := bres.Height apph := txh + 1 // this is where the tx will be applied to the state // wait before querying if err := client.WaitForHeight(c, apph, nil); err != nil { t.Error(err) } _qres, err := c.ABCIQueryWithOptions("/key", k, client.ABCIQueryOptions{Prove: false}) qres := _qres.Response if assert.Nil(err) && assert.True(qres.IsOK()) { assert.Equal(k, qres.Key) assert.EqualValues(v, qres.Value) } // make sure we can lookup the tx with proof ptx, err := c.Tx(bres.Hash, true) require.Nil(err, "%d: %+v", i, err) assert.EqualValues(txh, ptx.Height) assert.EqualValues(tx, ptx.Tx) // and we can even check the block is added block, err := c.Block(&apph) require.Nil(err, "%d: %+v", i, err) appHash := block.Block.Header.AppHash assert.True(len(appHash) > 0) assert.EqualValues(apph, block.Block.Header.Height) // now check the results blockResults, err := c.BlockResults(&txh) require.Nil(err, "%d: %+v", i, err) assert.Equal(txh, blockResults.Height) if assert.Equal(1, len(blockResults.TxsResults)) { // check success code assert.EqualValues(0, blockResults.TxsResults[0].Code) } // check blockchain info, now that we know there is info info, err := c.BlockchainInfo(apph, apph) require.Nil(err, "%d: %+v", i, err) assert.True(info.LastHeight >= apph) if assert.Equal(1, len(info.BlockMetas)) { lastMeta := info.BlockMetas[0] assert.EqualValues(apph, lastMeta.Header.Height) blockData := block.Block assert.Equal(blockData.Header.AppHash, lastMeta.Header.AppHash) assert.Equal(block.BlockID, lastMeta.BlockID) } // and get the corresponding commit with the same apphash commit, err := c.Commit(&apph) require.Nil(err, "%d: %+v", i, err) cappHash := commit.Header.AppHash assert.Equal(appHash, cappHash) assert.NotNil(commit.Commit) // compare the commits (note Commit(2) has commit from Block(3)) h = apph - 1 commit2, err := c.Commit(&h) require.Nil(err, "%d: %+v", i, err) assert.Equal(block.Block.LastCommit, commit2.Commit) // and we got a proof that works! _pres, err := c.ABCIQueryWithOptions("/key", k, client.ABCIQueryOptions{Prove: true}) pres := _pres.Response assert.Nil(err) assert.True(pres.IsOK()) // XXX Test proof } } func TestBroadcastTxSync(t *testing.T) { require := require.New(t) // TODO (melekes): use mempool which is set on RPC rather than getting it from node mempool := node.Mempool() initMempoolSize := mempool.Size() for i, c := range GetClients() { _, _, tx := MakeTxKV() bres, err := c.BroadcastTxSync(tx) require.Nil(err, "%d: %+v", i, err) require.Equal(bres.Code, abci.CodeTypeOK) // FIXME require.Equal(initMempoolSize+1, mempool.Size()) txs := mempool.ReapMaxTxs(len(tx)) require.EqualValues(tx, txs[0]) mempool.Flush() } } func TestBroadcastTxCommit(t *testing.T) { require := require.New(t) mempool := node.Mempool() for i, c := range GetClients() { _, _, tx := MakeTxKV() bres, err := c.BroadcastTxCommit(tx) require.Nil(err, "%d: %+v", i, err) require.True(bres.CheckTx.IsOK()) require.True(bres.DeliverTx.IsOK()) require.Equal(0, mempool.Size()) } } func TestUnconfirmedTxs(t *testing.T) { _, _, tx := MakeTxKV() mempool := node.Mempool() _ = mempool.CheckTx(tx, nil, mempl.TxInfo{}) for i, c := range GetClients() { mc, ok := c.(client.MempoolClient) require.True(t, ok, "%d", i) res, err := mc.UnconfirmedTxs(1) require.Nil(t, err, "%d: %+v", i, err) assert.Equal(t, 1, res.Count) assert.Equal(t, 1, res.Total) assert.Equal(t, mempool.TxsBytes(), res.TotalBytes) assert.Exactly(t, types.Txs{tx}, types.Txs(res.Txs)) } mempool.Flush() } func TestNumUnconfirmedTxs(t *testing.T) { _, _, tx := MakeTxKV() mempool := node.Mempool() _ = mempool.CheckTx(tx, nil, mempl.TxInfo{}) mempoolSize := mempool.Size() for i, c := range GetClients() { mc, ok := c.(client.MempoolClient) require.True(t, ok, "%d", i) res, err := mc.NumUnconfirmedTxs() require.Nil(t, err, "%d: %+v", i, err) assert.Equal(t, mempoolSize, res.Count) assert.Equal(t, mempoolSize, res.Total) assert.Equal(t, mempool.TxsBytes(), res.TotalBytes) } mempool.Flush() } func TestTx(t *testing.T) { // first we broadcast a tx c := getHTTPClient() _, _, tx := MakeTxKV() bres, err := c.BroadcastTxCommit(tx) require.Nil(t, err, "%+v", err) txHeight := bres.Height txHash := bres.Hash anotherTxHash := types.Tx("a different tx").Hash() cases := []struct { valid bool prove bool hash []byte }{ // only valid if correct hash provided {true, false, txHash}, {true, true, txHash}, {false, false, anotherTxHash}, {false, true, anotherTxHash}, {false, false, nil}, {false, true, nil}, } for i, c := range GetClients() { for j, tc := range cases { t.Logf("client %d, case %d", i, j) // now we query for the tx. // since there's only one tx, we know index=0. ptx, err := c.Tx(tc.hash, tc.prove) if !tc.valid { require.NotNil(t, err) } else { require.Nil(t, err, "%+v", err) assert.EqualValues(t, txHeight, ptx.Height) assert.EqualValues(t, tx, ptx.Tx) assert.Zero(t, ptx.Index) assert.True(t, ptx.TxResult.IsOK()) assert.EqualValues(t, txHash, ptx.Hash) // time to verify the proof proof := ptx.Proof if tc.prove && assert.EqualValues(t, tx, proof.Data) { assert.NoError(t, proof.Proof.Verify(proof.RootHash, txHash)) } } } } } func TestTxSearch(t *testing.T) { // first we broadcast a tx c := getHTTPClient() _, _, tx := MakeTxKV() bres, err := c.BroadcastTxCommit(tx) require.Nil(t, err) txHeight := bres.Height txHash := bres.Hash anotherTxHash := types.Tx("a different tx").Hash() for i, c := range GetClients() { t.Logf("client %d", i) // now we query for the tx. // since there's only one tx, we know index=0. result, err := c.TxSearch(fmt.Sprintf("tx.hash='%v'", txHash), true, 1, 30, "asc") require.Nil(t, err) require.Len(t, result.Txs, 1) ptx := result.Txs[0] assert.EqualValues(t, txHeight, ptx.Height) assert.EqualValues(t, tx, ptx.Tx) assert.Zero(t, ptx.Index) assert.True(t, ptx.TxResult.IsOK()) assert.EqualValues(t, txHash, ptx.Hash) // time to verify the proof proof := ptx.Proof if assert.EqualValues(t, tx, proof.Data) { assert.NoError(t, proof.Proof.Verify(proof.RootHash, txHash)) } // query by height result, err = c.TxSearch(fmt.Sprintf("tx.height=%d", txHeight), true, 1, 30, "asc") require.Nil(t, err) require.Len(t, result.Txs, 1) // query for non existing tx result, err = c.TxSearch(fmt.Sprintf("tx.hash='%X'", anotherTxHash), false, 1, 30, "asc") require.Nil(t, err) require.Len(t, result.Txs, 0) // query using a compositeKey (see kvstore application) result, err = c.TxSearch("app.creator='Cosmoshi Netowoko'", false, 1, 30, "asc") require.Nil(t, err) if len(result.Txs) == 0 { t.Fatal("expected a lot of transactions") } // query using a compositeKey (see kvstore application) and height result, err = c.TxSearch("app.creator='Cosmoshi Netowoko' AND tx.height<10000", true, 1, 30, "asc") require.Nil(t, err) if len(result.Txs) == 0 { t.Fatal("expected a lot of transactions") } // query a non existing tx with page 1 and txsPerPage 1 result, err = c.TxSearch("app.creator='Cosmoshi Neetowoko'", true, 1, 1, "asc") require.Nil(t, err) require.Len(t, result.Txs, 0) // broadcast another transaction to make sure we have at least two. _, _, tx2 := MakeTxKV() _, err = c.BroadcastTxCommit(tx2) require.Nil(t, err) // chech sorting result, err = c.TxSearch(fmt.Sprintf("tx.height >= 1"), false, 1, 30, "asc") require.Nil(t, err) for k := 0; k < len(result.Txs)-1; k++ { require.LessOrEqual(t, result.Txs[k].Height, result.Txs[k+1].Height) require.LessOrEqual(t, result.Txs[k].Index, result.Txs[k+1].Index) } result, err = c.TxSearch(fmt.Sprintf("tx.height >= 1"), false, 1, 30, "desc") require.Nil(t, err) for k := 0; k < len(result.Txs)-1; k++ { require.GreaterOrEqual(t, result.Txs[k].Height, result.Txs[k+1].Height) require.GreaterOrEqual(t, result.Txs[k].Index, result.Txs[k+1].Index) } } } func deepcpVote(vote *types.Vote) (res *types.Vote) { res = &types.Vote{ ValidatorAddress: make([]byte, len(vote.ValidatorAddress)), ValidatorIndex: vote.ValidatorIndex, Height: vote.Height, Round: vote.Round, Type: vote.Type, Timestamp: vote.Timestamp, BlockID: types.BlockID{ Hash: make([]byte, len(vote.BlockID.Hash)), PartsHeader: vote.BlockID.PartsHeader, }, Signature: make([]byte, len(vote.Signature)), } copy(res.ValidatorAddress, vote.ValidatorAddress) copy(res.BlockID.Hash, vote.BlockID.Hash) copy(res.Signature, vote.Signature) return } func newEvidence( t *testing.T, val *privval.FilePV, vote *types.Vote, vote2 *types.Vote, chainID string, ) types.DuplicateVoteEvidence { var err error deepcpVote2 := deepcpVote(vote2) deepcpVote2.Signature, err = val.Key.PrivKey.Sign(deepcpVote2.SignBytes(chainID)) require.NoError(t, err) return *types.NewDuplicateVoteEvidence(val.Key.PubKey, vote, deepcpVote2) } func makeEvidences( t *testing.T, val *privval.FilePV, chainID string, ) (ev types.DuplicateVoteEvidence, fakes []types.DuplicateVoteEvidence) { vote := &types.Vote{ ValidatorAddress: val.Key.Address, ValidatorIndex: 0, Height: 1, Round: 0, Type: types.PrevoteType, Timestamp: time.Now().UTC(), BlockID: types.BlockID{ Hash: tmhash.Sum([]byte("blockhash")), PartsHeader: types.PartSetHeader{ Total: 1000, Hash: tmhash.Sum([]byte("partset")), }, }, } var err error vote.Signature, err = val.Key.PrivKey.Sign(vote.SignBytes(chainID)) require.NoError(t, err) vote2 := deepcpVote(vote) vote2.BlockID.Hash = tmhash.Sum([]byte("blockhash2")) ev = newEvidence(t, val, vote, vote2, chainID) fakes = make([]types.DuplicateVoteEvidence, 42) // different address vote2 = deepcpVote(vote) for i := 0; i < 10; i++ { rand.Read(vote2.ValidatorAddress) // nolint: gosec fakes[i] = newEvidence(t, val, vote, vote2, chainID) } // different index vote2 = deepcpVote(vote) for i := 10; i < 20; i++ { vote2.ValidatorIndex = rand.Int()%100 + 1 // nolint: gosec fakes[i] = newEvidence(t, val, vote, vote2, chainID) } // different height vote2 = deepcpVote(vote) for i := 20; i < 30; i++ { vote2.Height = rand.Int63()%1000 + 100 // nolint: gosec fakes[i] = newEvidence(t, val, vote, vote2, chainID) } // different round vote2 = deepcpVote(vote) for i := 30; i < 40; i++ { vote2.Round = rand.Int()%10 + 1 // nolint: gosec fakes[i] = newEvidence(t, val, vote, vote2, chainID) } // different type vote2 = deepcpVote(vote) vote2.Type = types.PrecommitType fakes[40] = newEvidence(t, val, vote, vote2, chainID) // exactly same vote vote2 = deepcpVote(vote) fakes[41] = newEvidence(t, val, vote, vote2, chainID) return ev, fakes } func TestBroadcastEvidenceDuplicateVote(t *testing.T) { config := rpctest.GetConfig() chainID := config.ChainID() pvKeyFile := config.PrivValidatorKeyFile() pvKeyStateFile := config.PrivValidatorStateFile() pv := privval.LoadOrGenFilePV(pvKeyFile, pvKeyStateFile) ev, fakes := makeEvidences(t, pv, chainID) t.Logf("evidence %v", ev) for i, c := range GetClients() { t.Logf("client %d", i) result, err := c.BroadcastEvidence(&ev) require.Nil(t, err) require.Equal(t, ev.Hash(), result.Hash, "Invalid response, result %+v", result) status, err := c.Status() require.NoError(t, err) client.WaitForHeight(c, status.SyncInfo.LatestBlockHeight+2, nil) ed25519pub := ev.PubKey.(ed25519.PubKeyEd25519) rawpub := ed25519pub[:] result2, err := c.ABCIQuery("/val", rawpub) require.Nil(t, err, "Error querying evidence, err %v", err) qres := result2.Response require.True(t, qres.IsOK(), "Response not OK") var v abci.ValidatorUpdate err = abci.ReadMessage(bytes.NewReader(qres.Value), &v) require.NoError(t, err, "Error reading query result, value %v", qres.Value) require.EqualValues(t, rawpub, v.PubKey.Data, "Stored PubKey not equal with expected, value %v", string(qres.Value)) require.Equal(t, int64(9), v.Power, "Stored Power not equal with expected, value %v", string(qres.Value)) for _, fake := range fakes { _, err := c.BroadcastEvidence(&types.DuplicateVoteEvidence{ PubKey: fake.PubKey, VoteA: fake.VoteA, VoteB: fake.VoteB}) require.Error(t, err, "Broadcasting fake evidence succeed: %s", fake.String()) } } } func TestBatchedJSONRPCCalls(t *testing.T) { c := getHTTPClient() testBatchedJSONRPCCalls(t, c) } func testBatchedJSONRPCCalls(t *testing.T, c *client.HTTP) { k1, v1, tx1 := MakeTxKV() k2, v2, tx2 := MakeTxKV() batch := c.NewBatch() r1, err := batch.BroadcastTxCommit(tx1) require.NoError(t, err) r2, err := batch.BroadcastTxCommit(tx2) require.NoError(t, err) require.Equal(t, 2, batch.Count()) bresults, err := batch.Send() require.NoError(t, err) require.Len(t, bresults, 2) require.Equal(t, 0, batch.Count()) bresult1, ok := bresults[0].(*ctypes.ResultBroadcastTxCommit) require.True(t, ok) require.Equal(t, *bresult1, *r1) bresult2, ok := bresults[1].(*ctypes.ResultBroadcastTxCommit) require.True(t, ok) require.Equal(t, *bresult2, *r2) apph := tmmath.MaxInt64(bresult1.Height, bresult2.Height) + 1 client.WaitForHeight(c, apph, nil) q1, err := batch.ABCIQuery("/key", k1) require.NoError(t, err) q2, err := batch.ABCIQuery("/key", k2) require.NoError(t, err) require.Equal(t, 2, batch.Count()) qresults, err := batch.Send() require.NoError(t, err) require.Len(t, qresults, 2) require.Equal(t, 0, batch.Count()) qresult1, ok := qresults[0].(*ctypes.ResultABCIQuery) require.True(t, ok) require.Equal(t, *qresult1, *q1) qresult2, ok := qresults[1].(*ctypes.ResultABCIQuery) require.True(t, ok) require.Equal(t, *qresult2, *q2) require.Equal(t, qresult1.Response.Key, k1) require.Equal(t, qresult2.Response.Key, k2) require.Equal(t, qresult1.Response.Value, v1) require.Equal(t, qresult2.Response.Value, v2) } func TestBatchedJSONRPCCallsCancellation(t *testing.T) { c := getHTTPClient() _, _, tx1 := MakeTxKV() _, _, tx2 := MakeTxKV() batch := c.NewBatch() _, err := batch.BroadcastTxCommit(tx1) require.NoError(t, err) _, err = batch.BroadcastTxCommit(tx2) require.NoError(t, err) // we should have 2 requests waiting require.Equal(t, 2, batch.Count()) // we want to make sure we cleared 2 pending requests require.Equal(t, 2, batch.Clear()) // now there should be no batched requests require.Equal(t, 0, batch.Count()) } func TestSendingEmptyJSONRPCRequestBatch(t *testing.T) { c := getHTTPClient() batch := c.NewBatch() _, err := batch.Send() require.Error(t, err, "sending an empty batch of JSON RPC requests should result in an error") } func TestClearingEmptyJSONRPCRequestBatch(t *testing.T) { c := getHTTPClient() batch := c.NewBatch() require.Zero(t, batch.Clear(), "clearing an empty batch of JSON RPC requests should result in a 0 result") } func TestConcurrentJSONRPCBatching(t *testing.T) { var wg sync.WaitGroup c := getHTTPClient() for i := 0; i < 50; i++ { wg.Add(1) go func() { defer wg.Done() testBatchedJSONRPCCalls(t, c) }() } wg.Wait() }