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package runtime
import (
"encoding/hex"
"math/big"
"reflect"
"testing"
"github.com/dexon-foundation/decimal"
"github.com/stretchr/testify/suite"
dexCommon "github.com/dexon-foundation/dexon/common"
"github.com/dexon-foundation/dexon/core/state"
"github.com/dexon-foundation/dexon/core/vm"
"github.com/dexon-foundation/dexon/core/vm/sqlvm/ast"
"github.com/dexon-foundation/dexon/core/vm/sqlvm/common"
dec "github.com/dexon-foundation/dexon/core/vm/sqlvm/common/decimal"
"github.com/dexon-foundation/dexon/core/vm/sqlvm/errors"
"github.com/dexon-foundation/dexon/core/vm/sqlvm/schema"
"github.com/dexon-foundation/dexon/crypto"
"github.com/dexon-foundation/dexon/ethdb"
)
type opLoadSuite struct {
suite.Suite
ctx *common.Context
headHash dexCommon.Hash
address dexCommon.Address
slotHash []dexCommon.Hash
raws []*raw
}
type raw struct {
Raw
slotShift uint8
byteShift uint8
major ast.DataTypeMajor
minor ast.DataTypeMinor
}
func createSchema(storage *common.Storage, raws []*raw) {
storage.Schema = schema.Schema{
schema.Table{
Name: []byte("Table_A"),
},
schema.Table{
Name: []byte("Table_B"),
Columns: make([]schema.Column, len(raws)),
},
schema.Table{
Name: []byte("Table_C"),
},
}
for i := range raws {
storage.Schema[1].Columns[i] = schema.NewColumn(
[]byte{byte(i)},
ast.ComposeDataType(raws[i].major, raws[i].minor),
0, nil, 0,
)
}
storage.Schema.SetupColumnOffset()
}
// setSlotDataInStateDB store data in StateDB, and
// return corresponding slot hash and raw slice.
func setSlotDataInStateDB(head dexCommon.Hash, addr dexCommon.Address,
storage *common.Storage) ([]dexCommon.Hash, []*raw) {
hash := dexCommon.Hash{}
var b []byte
slotHash := []string{
"0123112233445566778800000000000000000000000000000000000000000000",
"48656c6c6f2c20776f726c64210000000000000000000000000000000000001a",
"3132333435363738393000000000000000000000000000000000000000000000",
"53514c564d2069732075736566756c2100000000000000000000000000000020",
"0000000000000000000000000000000000000000000000000000000000000041",
"ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff",
}
uInt256Dt := ast.ComposeDataType(ast.DataTypeMajorUint, ast.DataTypeMinor(31))
raws := []*raw{
{
Raw: Raw{
Value: decimal.New(0x0123, 0),
Bytes: nil,
},
slotShift: 0,
byteShift: 0,
major: ast.DataTypeMajorUint,
minor: ast.DataTypeMinor(1),
},
{
Raw: Raw{
Value: decimal.New(0x1122334455667788, 0),
Bytes: nil,
},
slotShift: 0,
byteShift: 2,
major: ast.DataTypeMajorUint,
minor: ast.DataTypeMinor(7),
},
{
Raw: Raw{
Value: dec.False,
Bytes: nil,
},
slotShift: 0,
byteShift: 10,
major: ast.DataTypeMajorBool,
minor: ast.DataTypeMinor(0),
},
{
Raw: Raw{
Bytes: []byte("Hello, world!"),
},
slotShift: 1,
byteShift: 0,
major: ast.DataTypeMajorDynamicBytes,
minor: ast.DataTypeMinor(0),
},
{
Raw: Raw{
Bytes: hexToBytes(slotHash[2][:20]),
},
slotShift: 2,
byteShift: 0,
major: ast.DataTypeMajorFixedBytes,
minor: ast.DataTypeMinor(9),
},
{
Raw: Raw{
Bytes: []byte("SQLVM is useful!"),
},
slotShift: 3,
byteShift: 0,
major: ast.DataTypeMajorDynamicBytes,
minor: ast.DataTypeMinor(0),
},
{
Raw: Raw{
Bytes: []byte("Hello world. Hello DEXON, SQLVM."),
},
slotShift: 4,
byteShift: 0,
major: ast.DataTypeMajorDynamicBytes,
minor: ast.DataTypeMinor(0),
},
{
Raw: Raw{
Value: hexToDec(slotHash[5], uInt256Dt),
Bytes: nil,
},
slotShift: 5,
byteShift: 0,
major: ast.DataTypeMajorUint,
minor: ast.DataTypeMinor(31),
},
}
// set slot hash
hData := make([]dexCommon.Hash, len(slotHash))
ptr := head
for i, s := range slotHash {
b, _ = hex.DecodeString(s)
hData[i].SetBytes(b)
storage.SetState(addr, ptr, hData[i])
ptr = storage.ShiftHashUint64(ptr, uint64(1))
}
// set dynamic bytes data
longDBytesLoc := 6
longRaw := raws[longDBytesLoc]
hash.SetBytes(longRaw.Bytes)
ptr = storage.ShiftHashUint64(head, uint64(longRaw.slotShift))
ptr = crypto.Keccak256Hash(ptr.Bytes())
storage.SetState(addr, ptr, hash)
return hData, raws
}
func hexToDec(s string, dt ast.DataType) decimal.Decimal {
b, _ := hex.DecodeString(s)
d, _ := ast.DecimalDecode(dt, b)
return d
}
func hexToBytes(s string) []byte {
b, _ := hex.DecodeString(s)
return b
}
type decodeTestCase struct {
dt ast.DataType
expectData *Raw
expectSlotHash dexCommon.Hash
shift uint64
inputBytes []byte
dBytes []byte
}
type opLoadTestCase struct {
title string
outputIdx uint
expectedOutput *Operand
expectedErr error
ids []uint64
fields []uint8
tableIdx int8
}
func (s *opLoadSuite) SetupTest() {
s.ctx = &common.Context{}
s.ctx.Storage = s.newStorage()
targetTableRef := schema.TableRef(1)
s.headHash = s.ctx.Storage.GetRowPathHash(targetTableRef, uint64(123456))
s.address = dexCommon.HexToAddress("0x6655")
s.ctx.Storage.CreateAccount(s.address)
s.ctx.Contract = vm.NewContract(vm.AccountRef(s.address),
vm.AccountRef(s.address), new(big.Int), 0)
s.slotHash, s.raws = setSlotDataInStateDB(s.headHash, s.address, s.ctx.Storage)
createSchema(s.ctx.Storage, s.raws)
s.setColData(targetTableRef, 654321)
}
func (s *opLoadSuite) setColData(tableRef schema.TableRef, id uint64) {
h := s.ctx.Storage.GetRowPathHash(tableRef, id)
setSlotDataInStateDB(h, s.address, s.ctx.Storage)
}
func (s *opLoadSuite) getOpLoadTestCases(raws []*raw) []opLoadTestCase {
testCases := []opLoadTestCase{
{
title: "NIL_RESULT",
outputIdx: 0,
expectedOutput: &Operand{Meta: make([]ast.DataType, 0), Data: make([]Tuple, 0)},
expectedErr: nil,
ids: nil,
fields: nil,
tableIdx: 0,
},
{
title: "NOT_EXIST_TABLE",
outputIdx: 0,
expectedOutput: nil,
expectedErr: errors.ErrorCodeIndexOutOfRange,
ids: nil,
fields: nil,
tableIdx: 13,
},
{
title: "OK_CASE",
outputIdx: 0,
expectedOutput: s.getOKCaseOutput(raws),
expectedErr: nil,
ids: []uint64{123456, 654321},
fields: s.getOKCaseFields(raws),
tableIdx: 1,
},
}
return testCases
}
func (s *opLoadSuite) getOKCaseOutput(raws []*raw) *Operand {
rValue := &Operand{}
size := len(raws)
rValue.Meta = make([]ast.DataType, size)
rValue.Data = make([]Tuple, 2)
for j := range rValue.Data {
rValue.Data[j] = make([]*Raw, size)
for i, raw := range raws {
rValue.Meta[i] = ast.ComposeDataType(raw.major, raw.minor)
rValue.Data[j][i] = &raw.Raw
}
}
return rValue
}
func (s *opLoadSuite) getOKCaseFields(raws []*raw) []uint8 {
rValue := make([]uint8, len(raws))
for i := range raws {
rValue[i] = uint8(i)
}
return rValue
}
func (s *opLoadSuite) getDecodeTestCases(headHash dexCommon.Hash,
address dexCommon.Address, storage *common.Storage) []decodeTestCase {
slotHash, raws := setSlotDataInStateDB(headHash, address, storage)
createSchema(storage, raws)
testCases := make([]decodeTestCase, len(raws))
for i := range testCases {
r := raws[i]
testCases[i].dt = ast.ComposeDataType(r.major, r.minor)
testCases[i].shift = uint64(r.slotShift)
testCases[i].expectSlotHash = slotHash[r.slotShift]
testCases[i].expectData = &r.Raw
slot := slotHash[r.slotShift]
start := r.byteShift
end := r.byteShift + testCases[i].dt.Size()
testCases[i].inputBytes = slot.Bytes()[start:end]
}
return testCases
}
func (s *opLoadSuite) newRegisters(tableIdx int8, ids []uint64, fields []uint8) []*Operand {
o := make([]*Operand, 4)
o[1] = newTableNameOperand(tableIdx)
o[2] = newIDsOperand(ids)
o[3] = newFieldsOperand(fields)
return o
}
func newInput(nums []int) []*Operand {
o := make([]*Operand, len(nums))
for i, n := range nums {
o[i] = &Operand{
IsImmediate: false,
RegisterIndex: uint(n),
}
}
return o
}
func newTableNameOperand(tableIdx int8) *Operand {
if tableIdx < 0 {
return nil
}
o := &Operand{
Meta: []ast.DataType{
ast.ComposeDataType(ast.DataTypeMajorUint, 0),
},
Data: []Tuple{
[]*Raw{
{
Value: decimal.New(int64(tableIdx), 0),
},
},
},
}
return o
}
func newIDsOperand(ids []uint64) *Operand {
o := &Operand{
Meta: []ast.DataType{
ast.ComposeDataType(ast.DataTypeMajorUint, 7),
},
}
o.Data = make([]Tuple, len(ids))
for i := range o.Data {
o.Data[i] = make([]*Raw, 1)
o.Data[i][0] = &Raw{
Value: decimal.New(int64(ids[i]), 0),
}
}
return o
}
func newFieldsOperand(fields []uint8) *Operand {
o := &Operand{
Meta: []ast.DataType{
ast.ComposeDataType(ast.DataTypeMajorUint, 0),
},
}
o.Data = make([]Tuple, len(fields))
for i := range o.Data {
o.Data[i] = make([]*Raw, 1)
o.Data[i][0] = &Raw{
Value: decimal.New(int64(fields[i]), 0),
}
}
return o
}
func (s *opLoadSuite) newStorage() *common.Storage {
db := ethdb.NewMemDatabase()
state, _ := state.New(dexCommon.Hash{}, state.NewDatabase(db))
storage := common.NewStorage(state)
return storage
}
func (s *opLoadSuite) TestDecode() {
testCases := s.getDecodeTestCases(s.headHash, s.address, s.ctx.Storage)
for _, tt := range testCases {
M, _ := ast.DecomposeDataType(tt.dt)
slot := s.ctx.Storage.ShiftHashUint64(s.headHash, tt.shift)
slotHash := s.ctx.Storage.GetState(s.address, slot)
s.Require().Equal(tt.expectSlotHash, slotHash)
data, err := decode(s.ctx, tt.dt, slot, tt.inputBytes)
s.Require().Nil(err)
if M == ast.DataTypeMajorDynamicBytes {
s.Require().Equal(tt.expectData.Bytes, data.Bytes)
} else {
s.Require().True(tt.expectData.Value.Equal(data.Value))
}
}
}
func (s *opLoadSuite) TestOpLoad() {
testCases := s.getOpLoadTestCases(s.raws)
for _, t := range testCases {
input := newInput([]int{1, 2, 3})
reg := s.newRegisters(t.tableIdx, t.ids, t.fields)
loadRegister(input, reg)
err := opLoad(s.ctx, input, reg, t.outputIdx)
s.Require().Equalf(t.expectedErr, err, "testcase: [%v]", t.title)
s.Require().Truef(reflect.DeepEqual(t.expectedOutput, reg[t.outputIdx]),
"testcase: [%v], expect: %+v, result: %+v",
t.title, t.expectedOutput, reg[t.outputIdx],
)
}
}
func TestOpLoad(t *testing.T) {
suite.Run(t, new(opLoadSuite))
}
func TestInstructions(t *testing.T) {
suite.Run(t, new(instructionSuite))
}
func makeOperand(im bool, meta []ast.DataType, pTuple []Tuple) (op *Operand) {
op = &Operand{IsImmediate: im, Meta: meta, Data: pTuple}
return
}
func loadRegister(input, registers []*Operand) {
for i, operand := range input {
if operand != nil && !operand.IsImmediate {
input[i] = registers[operand.RegisterIndex]
}
}
}
type opTestcase struct {
Name string
In Instruction
Output *Operand
Err error
}
type instructionSuite struct {
suite.Suite
}
func (s *instructionSuite) run(testcases []opTestcase, opfunc OpFunction) {
for idx, c := range testcases {
registers := make([]*Operand, len(c.In.Input))
for i, j := 0, 0; i < len(c.In.Input); i++ {
if !c.In.Input[i].IsImmediate {
registers[j] = c.In.Input[i]
j++
}
}
err := opfunc(
&common.Context{Opt: common.Option{SafeMath: true}},
c.In.Input, registers, c.In.Output)
s.Require().Equal(
c.Err, err,
"idx: %v, op: %v, case: %v\nerror not equal: %v != %v",
idx, c.In.Op, c.Name, c.Err, err,
)
if c.Err != nil {
continue
}
result := registers[0]
s.Require().True(
c.Output.Equal(result),
"idx: %v, op: %v, case: %v\noutput not equal.\nExpect: %v\nResult: %v\n",
idx, c.In.Op, c.Name, c.Output, result,
)
}
}
|