package block import ( "encoding/base64" "encoding/hex" "errors" "strings" "testing" "github.com/nspcc-dev/neo-go/internal/testserdes" "github.com/nspcc-dev/neo-go/pkg/config/netmode" "github.com/nspcc-dev/neo-go/pkg/core/transaction" "github.com/nspcc-dev/neo-go/pkg/crypto/hash" "github.com/nspcc-dev/neo-go/pkg/encoding/address" "github.com/nspcc-dev/neo-go/pkg/io" "github.com/nspcc-dev/neo-go/pkg/vm/opcode" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) func trim0x(value interface{}) string { s := value.(string) return strings.TrimPrefix(s, "0x") } // Test blocks are blocks from testnet with their corresponding index. func TestDecodeBlock1(t *testing.T) { data, err := getBlockData(1) require.NoError(t, err) b, err := hex.DecodeString(data["raw"].(string)) require.NoError(t, err) block := New(netmode.TestNet, false) assert.NoError(t, testserdes.DecodeBinary(b, block)) assert.Equal(t, uint32(data["index"].(float64)), block.Index) assert.Equal(t, uint32(data["version"].(float64)), block.Version) assert.Equal(t, trim0x(data["hash"]), block.Hash().StringLE()) assert.Equal(t, trim0x(data["previousblockhash"]), block.PrevHash.StringLE()) assert.Equal(t, trim0x(data["merkleroot"]), block.MerkleRoot.StringLE()) assert.Equal(t, trim0x(data["nextconsensus"]), address.Uint160ToString(block.NextConsensus)) scripts := data["witnesses"].([]interface{}) script := scripts[0].(map[string]interface{}) assert.Equal(t, script["invocation"].(string), base64.StdEncoding.EncodeToString(block.Script.InvocationScript)) assert.Equal(t, script["verification"].(string), base64.StdEncoding.EncodeToString(block.Script.VerificationScript)) tx := data["tx"].([]interface{}) tx0 := tx[0].(map[string]interface{}) assert.Equal(t, len(tx), len(block.Transactions)) assert.Equal(t, len(tx0["attributes"].([]interface{})), len(block.Transactions[0].Attributes)) } func TestTrimmedBlock(t *testing.T) { block := getDecodedBlock(t, 1) b, err := block.Trim() require.NoError(t, err) trimmedBlock, err := NewBlockFromTrimmedBytes(netmode.TestNet, false, b) require.NoError(t, err) assert.True(t, trimmedBlock.Trimmed) assert.Equal(t, block.Version, trimmedBlock.Version) assert.Equal(t, block.PrevHash, trimmedBlock.PrevHash) assert.Equal(t, block.MerkleRoot, trimmedBlock.MerkleRoot) assert.Equal(t, block.Timestamp, trimmedBlock.Timestamp) assert.Equal(t, block.Index, trimmedBlock.Index) require.NoError(t, trimmedBlock.ConsensusData.createHash()) assert.Equal(t, block.ConsensusData, trimmedBlock.ConsensusData) assert.Equal(t, block.NextConsensus, trimmedBlock.NextConsensus) assert.Equal(t, block.Script, trimmedBlock.Script) assert.Equal(t, len(block.Transactions), len(trimmedBlock.Transactions)) for i := 0; i < len(block.Transactions); i++ { assert.Equal(t, block.Transactions[i].Hash(), trimmedBlock.Transactions[i].Hash()) assert.True(t, trimmedBlock.Transactions[i].Trimmed) } } func newDumbBlock() *Block { return &Block{ Base: Base{ Version: 0, PrevHash: hash.Sha256([]byte("a")), MerkleRoot: hash.Sha256([]byte("b")), Timestamp: 100500, Index: 1, NextConsensus: hash.Hash160([]byte("a")), Script: transaction.Witness{ VerificationScript: []byte{0x51}, // PUSH1 InvocationScript: []byte{0x61}, // NOP }, }, ConsensusData: ConsensusData{ PrimaryIndex: 0, Nonce: 1111, }, Transactions: []*transaction.Transaction{ transaction.New(netmode.UnitTestNet, []byte{byte(opcode.PUSH1)}, 0), }, } } func TestHashBlockEqualsHashHeader(t *testing.T) { block := newDumbBlock() assert.Equal(t, block.Hash(), block.Header().Hash()) } func TestBinBlockDecodeEncode(t *testing.T) { // block taken from testnet: 256 rawblock := "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" rawblockBytes, _ := base64.StdEncoding.DecodeString(rawblock) b := New(netmode.TestNet, false) assert.NoError(t, testserdes.DecodeBinary(rawblockBytes, b)) expected := map[string]bool{ // 1 trans "affad44bb6acacabc058db0bf1e12ab1239ae5e04007b4d4a2ea0cda868e284a": false, } var hashes []string for _, tx := range b.Transactions { hashes = append(hashes, tx.Hash().StringLE()) } assert.Equal(t, len(expected), len(hashes)) // changes value in map to true, if hash found for _, hash := range hashes { expected[hash] = true } // iterate map; all vlaues should be true val := true for _, v := range expected { if v == false { val = false } } assert.Equal(t, true, val) data, err := testserdes.EncodeBinary(b) assert.NoError(t, err) assert.Equal(t, rawblock, base64.StdEncoding.EncodeToString(data)) // update hidden hash value. _ = b.ConsensusData.Hash() testserdes.MarshalUnmarshalJSON(t, b, New(netmode.TestNet, false)) } func TestBlockSizeCalculation(t *testing.T) { // block taken from testnet at height 256: 51ee44e12cdc1d3041a50d352063127fa65d86670686f14cc08f01b3cee7de17 // The Size in golang is given by counting the number of bytes of an object. (len(Bytes)) // its implementation is different from the corresponding C# and python implementations. But the result should // should be the same.In this test we provide more details then necessary because in case of failure we can easily debug the // root cause of the size calculation missmatch. rawBlock := "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" rawBlockBytes, _ := base64.StdEncoding.DecodeString(rawBlock) b := New(netmode.TestNet, false) assert.NoError(t, testserdes.DecodeBinary(rawBlockBytes, b)) expected := []struct { ID string Size int Version int SignersLen int AttributesLen int WitnessesLen int }{ // 1 trans {ID: "affad44bb6acacabc058db0bf1e12ab1239ae5e04007b4d4a2ea0cda868e284a", Size: 864, Version: 0, SignersLen: 2, AttributesLen: 0, WitnessesLen: 2}, } for i, tx := range b.Transactions { txID := tx.Hash() assert.Equal(t, expected[i].ID, txID.StringLE()) assert.Equal(t, expected[i].Size, io.GetVarSize(tx)) assert.Equal(t, expected[i].Version, int(tx.Version)) assert.Equal(t, expected[i].SignersLen, len(tx.Signers)) assert.Equal(t, expected[i].AttributesLen, len(tx.Attributes)) assert.Equal(t, expected[i].WitnessesLen, len(tx.Scripts)) } assert.Equal(t, len(expected), len(b.Transactions)) // Block specific tests assert.Equal(t, 0, int(b.Version)) assert.Equal(t, "fd2b68ac95461aa8ecd9ce7817bc0dea12985fc5ca52cfb5c39426e4071c1952", b.PrevHash.StringLE()) assert.Equal(t, "0a4ce89ab8b057ff5f3b421f5c85d3a90db9e613c020b9916096fb5282f719a9", b.MerkleRoot.StringLE()) assert.Equal(t, 1612366104874, int(b.Timestamp)) assert.Equal(t, 256, int(b.Index)) nextConsensus := address.Uint160ToString(b.NextConsensus) assert.Equal(t, "NgPkjjLTNcQad99iRYeXRUuowE4gxLAnDL", nextConsensus) assert.Equal(t, "DEAZyIVwKWzpgvm8bSzWuVF1awS0QBguORR682YoVfkJ05KGG7pz9OsLBZ9/F1BHO7TCIcEcc8Sr9AcqbonrSRoCDEDhhZnqTUi8tXYbrTBrVj8i9Yxl8NraAMID4DJryWdD6u42OzAHr0of27qc5nojujhLffBfljuBSyQpyeQcUOpyDEAZr7sLz6n4TgNApkwATGXiP/DZ8AummAGDtznrW6Y8XWHngB7F0j3NKvUQ7lyRt11rT+zNjz5R5vIbBrs8C2ktDEDgNW0xGP/OB8CRHXX/l/+0tPO3drkyCddpG9PKCgyd4oEhQu8cwbSv4Q0V1Y0dZcJBoxUB5Qus/U+Xli7jb6OJDEADaXZxdEb56jlYhF4oM8I8KnthEzGw1Q7pfeI97fehTm78ZOJXWIxESThZzI3D2ndVz0Rcdr5MeA/espG6J2ao", base64.StdEncoding.EncodeToString(b.Script.InvocationScript)) assert.Equal(t, "FQwhAwCbdUDhDyVi5f2PrJ6uwlFmpYsm5BI0j/WoaSe/rCKiDCEDAgXpzvrqWh38WAryDI1aokaLsBSPGl5GBfxiLIDmBLoMIQIUuvDO6jpm8X5+HoOeol/YvtbNgua7bmglAYkGX0T/AQwhAj6bMuqJuU0GbmSbEk/VDjlu6RNp6OKmrhsRwXDQIiVtDCEDQI3NQWOW9keDrFh+oeFZPFfZ/qiAyKahkg6SollHeAYMIQKng0vpsy4pgdFXy1u9OstCz9EepcOxAiTXpE6YxZEPGwwhAroscPWZbzV6QxmHBYWfriz+oT4RcpYoAHcrPViKnUq9FwtBE43vrw==", base64.StdEncoding.EncodeToString(b.Script.VerificationScript)) assert.Equal(t, "51ee44e12cdc1d3041a50d352063127fa65d86670686f14cc08f01b3cee7de17", b.Hash().StringLE()) benc, err := testserdes.EncodeBinary(b) assert.NoError(t, err) // test size of the block assert.Equal(t, 1564, len(benc)) assert.Equal(t, rawBlock, base64.StdEncoding.EncodeToString(benc)) } func TestBlockCompare(t *testing.T) { b1 := Block{Base: Base{Index: 1}} b2 := Block{Base: Base{Index: 2}} b3 := Block{Base: Base{Index: 3}} assert.Equal(t, 1, b2.Compare(&b1)) assert.Equal(t, 0, b2.Compare(&b2)) assert.Equal(t, -1, b2.Compare(&b3)) } func TestBlockEncodeDecode(t *testing.T) { t.Run("positive", func(t *testing.T) { b := newDumbBlock() b.Transactions = []*transaction.Transaction{} _ = b.Hash() testserdes.EncodeDecodeBinary(t, b, new(Block)) }) t.Run("bad contents count", func(t *testing.T) { b := newDumbBlock() b.Transactions = make([]*transaction.Transaction, MaxContentsPerBlock) for i := range b.Transactions { b.Transactions[i] = &transaction.Transaction{ Script: []byte("my_pretty_script"), } } _ = b.Hash() data, err := testserdes.EncodeBinary(b) require.NoError(t, err) require.True(t, errors.Is(testserdes.DecodeBinary(data, new(Block)), ErrMaxContentsPerBlock)) }) }