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package proxy
import (
"fmt"
"os"
"testing"
"time"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"github.com/tendermint/tendermint/abci/example/kvstore"
"github.com/tendermint/tendermint/crypto/merkle"
"github.com/tendermint/tendermint/lite"
certclient "github.com/tendermint/tendermint/lite/client"
nm "github.com/tendermint/tendermint/node"
"github.com/tendermint/tendermint/rpc/client"
rpctest "github.com/tendermint/tendermint/rpc/test"
"github.com/tendermint/tendermint/types"
)
var node *nm.Node
var chainID = "tendermint_test" // TODO use from config.
//nolint:unused
var waitForEventTimeout = 5 * time.Second
// TODO fix tests!!
func TestMain(m *testing.M) {
app := kvstore.NewKVStoreApplication()
node = rpctest.StartTendermint(app)
code := m.Run()
node.Stop()
node.Wait()
os.Exit(code)
}
func kvstoreTx(k, v []byte) []byte {
return []byte(fmt.Sprintf("%s=%s", k, v))
}
// TODO: enable it after general proof format has been adapted
// in abci/examples/kvstore.go
//nolint:unused,deadcode
func _TestAppProofs(t *testing.T) {
assert, require := assert.New(t), require.New(t)
prt := defaultProofRuntime()
cl := client.NewLocal(node)
client.WaitForHeight(cl, 1, nil)
// This sets up our trust on the node based on some past point.
source := certclient.NewProvider(chainID, cl)
seed, err := source.LatestFullCommit(chainID, 1, 1)
require.NoError(err, "%#v", err)
cert := lite.NewBaseVerifier(chainID, seed.Height(), seed.Validators)
// Wait for tx confirmation.
done := make(chan int64)
go func() {
evtTyp := types.EventTx
_, err = client.WaitForOneEvent(cl, evtTyp, waitForEventTimeout)
require.Nil(err, "%#v", err)
close(done)
}()
// Submit a transaction.
k := []byte("my-key")
v := []byte("my-value")
tx := kvstoreTx(k, v)
br, err := cl.BroadcastTxCommit(tx)
require.NoError(err, "%#v", err)
require.EqualValues(0, br.CheckTx.Code, "%#v", br.CheckTx)
require.EqualValues(0, br.DeliverTx.Code)
brh := br.Height
// Fetch latest after tx commit.
<-done
latest, err := source.LatestFullCommit(chainID, 1, 1<<63-1)
require.NoError(err, "%#v", err)
rootHash := latest.SignedHeader.AppHash
if rootHash == nil {
// Fetch one block later, AppHash hasn't been committed yet.
// TODO find a way to avoid doing this.
client.WaitForHeight(cl, latest.SignedHeader.Height+1, nil)
latest, err = source.LatestFullCommit(chainID, latest.SignedHeader.Height+1, 1<<63-1)
require.NoError(err, "%#v", err)
rootHash = latest.SignedHeader.AppHash
}
require.NotNil(rootHash)
// verify a query before the tx block has no data (and valid non-exist proof)
bs, height, proof, err := GetWithProof(prt, k, brh-1, cl, cert)
require.NoError(err, "%#v", err)
// require.NotNil(proof)
// TODO: Ensure that *some* keys will be there, ensuring that proof is nil,
// (currently there's a race condition)
// and ensure that proof proves absence of k.
require.Nil(bs)
// but given that block it is good
bs, height, proof, err = GetWithProof(prt, k, brh, cl, cert)
require.NoError(err, "%#v", err)
require.NotNil(proof)
require.Equal(height, brh)
assert.EqualValues(v, bs)
err = prt.VerifyValue(proof, rootHash, string(k), bs) // XXX key encoding
assert.NoError(err, "%#v", err)
// Test non-existing key.
missing := []byte("my-missing-key")
bs, _, proof, err = GetWithProof(prt, missing, 0, cl, cert)
require.NoError(err)
require.Nil(bs)
require.NotNil(proof)
err = prt.VerifyAbsence(proof, rootHash, string(missing)) // XXX VerifyAbsence(), keyencoding
assert.NoError(err, "%#v", err)
err = prt.VerifyAbsence(proof, rootHash, string(k)) // XXX VerifyAbsence(), keyencoding
assert.Error(err, "%#v", err)
}
func TestTxProofs(t *testing.T) {
assert, require := assert.New(t), require.New(t)
cl := client.NewLocal(node)
client.WaitForHeight(cl, 1, nil)
tx := kvstoreTx([]byte("key-a"), []byte("value-a"))
br, err := cl.BroadcastTxCommit(tx)
require.NoError(err, "%#v", err)
require.EqualValues(0, br.CheckTx.Code, "%#v", br.CheckTx)
require.EqualValues(0, br.DeliverTx.Code)
brh := br.Height
source := certclient.NewProvider(chainID, cl)
seed, err := source.LatestFullCommit(chainID, brh-2, brh-2)
require.NoError(err, "%#v", err)
cert := lite.NewBaseVerifier(chainID, seed.Height(), seed.Validators)
// First let's make sure a bogus transaction hash returns a valid non-existence proof.
key := types.Tx([]byte("bogus")).Hash()
res, err := cl.Tx(key, true)
require.NotNil(err)
require.Contains(err.Error(), "not found")
// Now let's check with the real tx root hash.
key = types.Tx(tx).Hash()
res, err = cl.Tx(key, true)
require.NoError(err, "%#v", err)
require.NotNil(res)
keyHash := merkle.SimpleHashFromByteSlices([][]byte{key})
err = res.Proof.Validate(keyHash)
assert.NoError(err, "%#v", err)
commit, err := GetCertifiedCommit(br.Height, cl, cert)
require.Nil(err, "%#v", err)
require.Equal(res.Proof.RootHash, commit.Header.DataHash)
}