package types import ( "bytes" "testing" "github.com/stretchr/testify/assert" cmn "github.com/tendermint/tendermint/libs/common" ctest "github.com/tendermint/tendermint/libs/test" ) func makeTxs(cnt, size int) Txs { txs := make(Txs, cnt) for i := 0; i < cnt; i++ { txs[i] = cmn.RandBytes(size) } return txs } func randInt(low, high int) int { off := cmn.RandInt() % (high - low) return low + off } func TestTxIndex(t *testing.T) { for i := 0; i < 20; i++ { txs := makeTxs(15, 60) for j := 0; j < len(txs); j++ { tx := txs[j] idx := txs.Index(tx) assert.Equal(t, j, idx) } assert.Equal(t, -1, txs.Index(nil)) assert.Equal(t, -1, txs.Index(Tx("foodnwkf"))) } } func TestTxIndexByHash(t *testing.T) { for i := 0; i < 20; i++ { txs := makeTxs(15, 60) for j := 0; j < len(txs); j++ { tx := txs[j] idx := txs.IndexByHash(tx.Hash()) assert.Equal(t, j, idx) } assert.Equal(t, -1, txs.IndexByHash(nil)) assert.Equal(t, -1, txs.IndexByHash(Tx("foodnwkf").Hash())) } } func TestValidTxProof(t *testing.T) { cases := []struct { txs Txs }{ {Txs{{1, 4, 34, 87, 163, 1}}}, {Txs{{5, 56, 165, 2}, {4, 77}}}, {Txs{Tx("foo"), Tx("bar"), Tx("baz")}}, {makeTxs(20, 5)}, {makeTxs(7, 81)}, {makeTxs(61, 15)}, } for h, tc := range cases { txs := tc.txs root := txs.Hash() // make sure valid proof for every tx for i := range txs { leaf := txs[i] leafHash := leaf.Hash() proof := txs.Proof(i) assert.Equal(t, i, proof.Proof.Index, "%d: %d", h, i) assert.Equal(t, len(txs), proof.Proof.Total, "%d: %d", h, i) assert.EqualValues(t, root, proof.RootHash, "%d: %d", h, i) assert.EqualValues(t, leaf, proof.Data, "%d: %d", h, i) assert.EqualValues(t, leafHash, proof.LeafHash(), "%d: %d", h, i) assert.Nil(t, proof.Validate(root), "%d: %d", h, i) assert.NotNil(t, proof.Validate([]byte("foobar")), "%d: %d", h, i) // read-write must also work var p2 TxProof bin, err := cdc.MarshalBinaryLengthPrefixed(proof) assert.Nil(t, err) err = cdc.UnmarshalBinaryLengthPrefixed(bin, &p2) if assert.Nil(t, err, "%d: %d: %+v", h, i, err) { assert.Nil(t, p2.Validate(root), "%d: %d", h, i) } } } } func TestTxProofUnchangable(t *testing.T) { // run the other test a bunch... for i := 0; i < 40; i++ { testTxProofUnchangable(t) } } func TestComputeTxsOverhead(t *testing.T) { cases := []struct { txs Txs wantOverhead int }{ {Txs{[]byte{6, 6, 6, 6, 6, 6}}, 2}, // one 21 Mb transaction: {Txs{make([]byte, 22020096)}, 5}, // two 21Mb/2 sized transactions: {Txs{make([]byte, 11010048), make([]byte, 11010048)}, 10}, {Txs{[]byte{1, 2, 3}, []byte{1, 2, 3}, []byte{4, 5, 6}}, 6}, {Txs{[]byte{100, 5, 64}, []byte{42, 116, 118}, []byte{6, 6, 6}, []byte{6, 6, 6}}, 8}, } for _, tc := range cases { totalBytes := int64(0) totalOverhead := int64(0) for _, tx := range tc.txs { aminoOverhead := ComputeAminoOverhead(tx, 1) totalOverhead += aminoOverhead totalBytes += aminoOverhead + int64(len(tx)) } bz, err := cdc.MarshalBinaryBare(tc.txs) assert.EqualValues(t, tc.wantOverhead, totalOverhead) assert.NoError(t, err) assert.EqualValues(t, len(bz), totalBytes) } } func TestComputeAminoOverhead(t *testing.T) { cases := []struct { tx Tx fieldNum int want int }{ {[]byte{6, 6, 6}, 1, 2}, {[]byte{6, 6, 6}, 16, 3}, {[]byte{6, 6, 6}, 32, 3}, {[]byte{6, 6, 6}, 64, 3}, {[]byte{6, 6, 6}, 512, 3}, {[]byte{6, 6, 6}, 1024, 3}, {[]byte{6, 6, 6}, 2048, 4}, {make([]byte, 64), 1, 2}, {make([]byte, 65), 1, 2}, {make([]byte, 127), 1, 2}, {make([]byte, 128), 1, 3}, {make([]byte, 256), 1, 3}, {make([]byte, 512), 1, 3}, {make([]byte, 1024), 1, 3}, {make([]byte, 128), 16, 4}, } for _, tc := range cases { got := ComputeAminoOverhead(tc.tx, tc.fieldNum) assert.EqualValues(t, tc.want, got) } } func testTxProofUnchangable(t *testing.T) { // make some proof txs := makeTxs(randInt(2, 100), randInt(16, 128)) root := txs.Hash() i := randInt(0, len(txs)-1) proof := txs.Proof(i) // make sure it is valid to start with assert.Nil(t, proof.Validate(root)) bin, err := cdc.MarshalBinaryLengthPrefixed(proof) assert.Nil(t, err) // try mutating the data and make sure nothing breaks for j := 0; j < 500; j++ { bad := ctest.MutateByteSlice(bin) if !bytes.Equal(bad, bin) { assertBadProof(t, root, bad, proof) } } } // This makes sure that the proof doesn't deserialize into something valid. func assertBadProof(t *testing.T, root []byte, bad []byte, good TxProof) { var proof TxProof err := cdc.UnmarshalBinaryLengthPrefixed(bad, &proof) if err == nil { err = proof.Validate(root) if err == nil { // XXX Fix simple merkle proofs so the following is *not* OK. // This can happen if we have a slightly different total (where the // path ends up the same). If it is something else, we have a real // problem. assert.NotEqual(t, proof.Proof.Total, good.Proof.Total, "bad: %#v\ngood: %#v", proof, good) } } }