zolfa
/
tendermint


								package state


								import (

									"bytes"

									"fmt"

									"path"

									"testing"


									"github.com/tendermint/tendermint/config/tendermint_test"

									//	. "github.com/tendermint/go-common"

									cfg "github.com/tendermint/go-config"

									"github.com/tendermint/go-crypto"

									dbm "github.com/tendermint/go-db"

									"github.com/tendermint/tendermint/proxy"

									"github.com/tendermint/tendermint/types"

									"github.com/tendermint/tmsp/example/dummy"

								)


								var (

									privKey      = crypto.GenPrivKeyEd25519FromSecret([]byte("handshake_test"))

									chainID      = "handshake_chain"

									nBlocks      = 5

									mempool      = MockMempool{}

									testPartSize = 65536

								)


								//---------------------------------------

								// Test block execution


								func TestExecBlock(t *testing.T) {

									// TODO

								}


								//---------------------------------------

								// Test handshake/replay


								// Sync from scratch

								func TestHandshakeReplayAll(t *testing.T) {

									testHandshakeReplay(t, 0)

								}


								// Sync many, not from scratch

								func TestHandshakeReplaySome(t *testing.T) {

									testHandshakeReplay(t, 1)

								}


								// Sync from lagging by one

								func TestHandshakeReplayOne(t *testing.T) {

									testHandshakeReplay(t, nBlocks-1)

								}


								// Sync from caught up

								func TestHandshakeReplayNone(t *testing.T) {

									testHandshakeReplay(t, nBlocks)

								}


								// Make some blocks. Start a fresh app and apply n blocks. Then restart the app and sync it up with the remaining blocks

								func testHandshakeReplay(t *testing.T, n int) {

									config := tendermint_test.ResetConfig("proxy_test_")


									state, store := stateAndStore(config)

									clientCreator := proxy.NewLocalClientCreator(dummy.NewPersistentDummyApplication(path.Join(config.GetString("db_dir"), "1")))

									clientCreator2 := proxy.NewLocalClientCreator(dummy.NewPersistentDummyApplication(path.Join(config.GetString("db_dir"), "2")))

									proxyApp := proxy.NewAppConns(config, clientCreator, NewHandshaker(config, state, store))

									if _, err := proxyApp.Start(); err != nil {

										t.Fatalf("Error starting proxy app connections: %v", err)

									}

									chain := makeBlockchain(t, proxyApp, state)

									store.chain = chain //

									latestAppHash := state.AppHash

									proxyApp.Stop()


									if n > 0 {

										// start a new app without handshake, play n blocks

										proxyApp = proxy.NewAppConns(config, clientCreator2, nil)

										if _, err := proxyApp.Start(); err != nil {

											t.Fatalf("Error starting proxy app connections: %v", err)

										}

										state2, _ := stateAndStore(config)

										for i := 0; i < n; i++ {

											block := chain[i]

											err := state2.ApplyBlock(nil, proxyApp.Consensus(), block, block.MakePartSet(testPartSize).Header(), mempool)

											if err != nil {

												t.Fatal(err)

											}

										}

										proxyApp.Stop()

									}


									// now start it with the handshake

									handshaker := NewHandshaker(config, state, store)

									proxyApp = proxy.NewAppConns(config, clientCreator2, handshaker)

									if _, err := proxyApp.Start(); err != nil {

										t.Fatalf("Error starting proxy app connections: %v", err)

									}


									// get the latest app hash from the app

									r, _, blockInfo, _ := proxyApp.Query().InfoSync()

									if r.IsErr() {

										t.Fatal(r)

									}


									// the app hash should be synced up

									if !bytes.Equal(latestAppHash, blockInfo.AppHash) {

										t.Fatalf("Expected app hashes to match after handshake/replay. got %X, expected %X", blockInfo.AppHash, latestAppHash)

									}


									if handshaker.nBlocks != nBlocks-n {

										t.Fatalf("Expected handshake to sync %d blocks, got %d", nBlocks-n, handshaker.nBlocks)

									}


								}


								//--------------------------

								// utils for making blocks


								// make some bogus txs

								func txsFunc(blockNum int) (txs []types.Tx) {

									for i := 0; i < 10; i++ {

										txs = append(txs, types.Tx([]byte{byte(blockNum), byte(i)}))

									}

									return txs

								}


								// sign a commit vote

								func signCommit(height, round int, hash []byte, header types.PartSetHeader) *types.Vote {

									vote := &types.Vote{

										ValidatorIndex:   0,

										ValidatorAddress: privKey.PubKey().Address(),

										Height:           height,

										Round:            round,

										Type:             types.VoteTypePrecommit,

										BlockID:          types.BlockID{hash, header},

									}


									sig := privKey.Sign(types.SignBytes(chainID, vote))

									vote.Signature = sig

									return vote

								}


								// make a blockchain with one validator

								func makeBlockchain(t *testing.T, proxyApp proxy.AppConns, state *State) (blockchain []*types.Block) {


									prevHash := state.LastBlockID.Hash

									lastCommit := new(types.Commit)

									prevParts := types.PartSetHeader{}

									valHash := state.Validators.Hash()

									prevBlockID := types.BlockID{prevHash, prevParts}


									for i := 1; i < nBlocks+1; i++ {

										block, parts := types.MakeBlock(i, chainID, txsFunc(i), lastCommit,

											prevBlockID, valHash, state.AppHash, testPartSize)

										fmt.Println(i)

										fmt.Println(prevBlockID)

										fmt.Println(block.LastBlockID)

										err := state.ApplyBlock(nil, proxyApp.Consensus(), block, block.MakePartSet(testPartSize).Header(), mempool)

										if err != nil {

											t.Fatal(i, err)

										}


										voteSet := types.NewVoteSet(chainID, i, 0, types.VoteTypePrecommit, state.Validators)

										vote := signCommit(i, 0, block.Hash(), parts.Header())

										_, err = voteSet.AddVote(vote)

										if err != nil {

											t.Fatal(err)

										}


										blockchain = append(blockchain, block)

										prevHash = block.Hash()

										prevParts = parts.Header()

										lastCommit = voteSet.MakeCommit()

										prevBlockID = types.BlockID{prevHash, prevParts}

									}

									return blockchain

								}


								// fresh state and mock store

								func stateAndStore(config cfg.Config) (*State, *mockBlockStore) {

									stateDB := dbm.NewMemDB()

									return MakeGenesisState(stateDB, &types.GenesisDoc{

										ChainID: chainID,

										Validators: []types.GenesisValidator{

											types.GenesisValidator{privKey.PubKey(), 10000, "test"},

										},

										AppHash: nil,

									}), NewMockBlockStore(config, nil)

								}


								//----------------------------------

								// mock block store


								type mockBlockStore struct {

									config cfg.Config

									chain  []*types.Block

								}


								func NewMockBlockStore(config cfg.Config, chain []*types.Block) *mockBlockStore {

									return &mockBlockStore{config, chain}

								}


								func (bs *mockBlockStore) Height() int                       { return len(bs.chain) }

								func (bs *mockBlockStore) LoadBlock(height int) *types.Block { return bs.chain[height-1] }

								func (bs *mockBlockStore) LoadBlockMeta(height int) *types.BlockMeta {

									block := bs.chain[height-1]

									return &types.BlockMeta{

										Hash:        block.Hash(),

										Header:      block.Header,

										PartsHeader: block.MakePartSet(bs.config.GetInt("block_part_size")).Header(),

									}

								}