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package blockchain
import (
"net"
"testing"
cmn "github.com/tendermint/tmlibs/common"
dbm "github.com/tendermint/tmlibs/db"
"github.com/tendermint/tmlibs/log"
cfg "github.com/tendermint/tendermint/config"
"github.com/tendermint/tendermint/p2p"
"github.com/tendermint/tendermint/proxy"
sm "github.com/tendermint/tendermint/state"
"github.com/tendermint/tendermint/types"
)
func makeStateAndBlockStore(logger log.Logger) (sm.State, *BlockStore) {
config := cfg.ResetTestRoot("blockchain_reactor_test")
// blockDB := dbm.NewDebugDB("blockDB", dbm.NewMemDB())
// stateDB := dbm.NewDebugDB("stateDB", dbm.NewMemDB())
blockDB := dbm.NewMemDB()
stateDB := dbm.NewMemDB()
blockStore := NewBlockStore(blockDB)
state, err := sm.LoadStateFromDBOrGenesisFile(stateDB, config.GenesisFile())
if err != nil {
panic(cmn.ErrorWrap(err, "error constructing state from genesis file"))
}
return state, blockStore
}
func newBlockchainReactor(logger log.Logger, maxBlockHeight int64) *BlockchainReactor {
state, blockStore := makeStateAndBlockStore(logger)
// Make the blockchainReactor itself
fastSync := true
var nilApp proxy.AppConnConsensus
blockExec := sm.NewBlockExecutor(dbm.NewMemDB(), log.TestingLogger(), nilApp,
sm.MockMempool{}, sm.MockEvidencePool{})
bcReactor := NewBlockchainReactor(state.Copy(), blockExec, blockStore, fastSync)
bcReactor.SetLogger(logger.With("module", "blockchain"))
// Next: we need to set a switch in order for peers to be added in
bcReactor.Switch = p2p.NewSwitch(cfg.DefaultP2PConfig())
// Lastly: let's add some blocks in
for blockHeight := int64(1); blockHeight <= maxBlockHeight; blockHeight++ {
firstBlock := makeBlock(blockHeight, state)
secondBlock := makeBlock(blockHeight+1, state)
firstParts := firstBlock.MakePartSet(state.ConsensusParams.BlockGossip.BlockPartSizeBytes)
blockStore.SaveBlock(firstBlock, firstParts, secondBlock.LastCommit)
}
return bcReactor
}
func TestNoBlockResponse(t *testing.T) {
maxBlockHeight := int64(20)
bcr := newBlockchainReactor(log.TestingLogger(), maxBlockHeight)
bcr.Start()
defer bcr.Stop()
// Add some peers in
peer := newbcrTestPeer(p2p.ID(cmn.RandStr(12)))
bcr.AddPeer(peer)
chID := byte(0x01)
tests := []struct {
height int64
existent bool
}{
{maxBlockHeight + 2, false},
{10, true},
{1, true},
{100, false},
}
// receive a request message from peer,
// wait for our response to be received on the peer
for _, tt := range tests {
reqBlockMsg := &bcBlockRequestMessage{tt.height}
reqBlockBytes := cdc.MustMarshalBinaryBare(reqBlockMsg)
bcr.Receive(chID, peer, reqBlockBytes)
msg := peer.lastBlockchainMessage()
if tt.existent {
if blockMsg, ok := msg.(*bcBlockResponseMessage); !ok {
t.Fatalf("Expected to receive a block response for height %d", tt.height)
} else if blockMsg.Block.Height != tt.height {
t.Fatalf("Expected response to be for height %d, got %d", tt.height, blockMsg.Block.Height)
}
} else {
if noBlockMsg, ok := msg.(*bcNoBlockResponseMessage); !ok {
t.Fatalf("Expected to receive a no block response for height %d", tt.height)
} else if noBlockMsg.Height != tt.height {
t.Fatalf("Expected response to be for height %d, got %d", tt.height, noBlockMsg.Height)
}
}
}
}
/*
// NOTE: This is too hard to test without
// an easy way to add test peer to switch
// or without significant refactoring of the module.
// Alternatively we could actually dial a TCP conn but
// that seems extreme.
func TestBadBlockStopsPeer(t *testing.T) {
maxBlockHeight := int64(20)
bcr := newBlockchainReactor(log.TestingLogger(), maxBlockHeight)
bcr.Start()
defer bcr.Stop()
// Add some peers in
peer := newbcrTestPeer(p2p.ID(cmn.RandStr(12)))
// XXX: This doesn't add the peer to anything,
// so it's hard to check that it's later removed
bcr.AddPeer(peer)
assert.True(t, bcr.Switch.Peers().Size() > 0)
// send a bad block from the peer
// default blocks already dont have commits, so should fail
block := bcr.store.LoadBlock(3)
msg := &bcBlockResponseMessage{Block: block}
peer.Send(BlockchainChannel, struct{ BlockchainMessage }{msg})
ticker := time.NewTicker(time.Millisecond * 10)
timer := time.NewTimer(time.Second * 2)
LOOP:
for {
select {
case <-ticker.C:
if bcr.Switch.Peers().Size() == 0 {
break LOOP
}
case <-timer.C:
t.Fatal("Timed out waiting to disconnect peer")
}
}
}
*/
//----------------------------------------------
// utility funcs
func makeTxs(height int64) (txs []types.Tx) {
for i := 0; i < 10; i++ {
txs = append(txs, types.Tx([]byte{byte(height), byte(i)}))
}
return txs
}
func makeBlock(height int64, state sm.State) *types.Block {
block, _ := state.MakeBlock(height, makeTxs(height), new(types.Commit))
return block
}
// The Test peer
type bcrTestPeer struct {
cmn.BaseService
id p2p.ID
ch chan interface{}
}
var _ p2p.Peer = (*bcrTestPeer)(nil)
func newbcrTestPeer(id p2p.ID) *bcrTestPeer {
bcr := &bcrTestPeer{
id: id,
ch: make(chan interface{}, 2),
}
bcr.BaseService = *cmn.NewBaseService(nil, "bcrTestPeer", bcr)
return bcr
}
func (tp *bcrTestPeer) lastBlockchainMessage() interface{} { return <-tp.ch }
func (tp *bcrTestPeer) TrySend(chID byte, msgBytes []byte) bool {
var msg BlockchainMessage
err := cdc.UnmarshalBinaryBare(msgBytes, &msg)
if err != nil {
panic(cmn.ErrorWrap(err, "Error while trying to parse a BlockchainMessage"))
}
if _, ok := msg.(*bcStatusResponseMessage); ok {
// Discard status response messages since they skew our results
// We only want to deal with:
// + bcBlockResponseMessage
// + bcNoBlockResponseMessage
} else {
tp.ch <- msg
}
return true
}
func (tp *bcrTestPeer) Send(chID byte, msgBytes []byte) bool { return tp.TrySend(chID, msgBytes) }
func (tp *bcrTestPeer) NodeInfo() p2p.NodeInfo { return p2p.NodeInfo{} }
func (tp *bcrTestPeer) Status() p2p.ConnectionStatus { return p2p.ConnectionStatus{} }
func (tp *bcrTestPeer) ID() p2p.ID { return tp.id }
func (tp *bcrTestPeer) IsOutbound() bool { return false }
func (tp *bcrTestPeer) IsPersistent() bool { return true }
func (tp *bcrTestPeer) Get(s string) interface{} { return s }
func (tp *bcrTestPeer) Set(string, interface{}) {}
func (tp *bcrTestPeer) RemoteIP() net.IP { return []byte{127, 0, 0, 1} }