0g-chain/x/bep3/keeper/swap_test.go
Federico Kunze a573625df8
[R4R] bump SDK version to v0.38.3 (#421)
* bump SDK version to v0.38.3

Co-authored-by: Denali Marsh <denali@kava.io>
Co-authored-by: Kevin Davis <kjydavis3@gmail.com>
Co-authored-by: Kevin Davis <karzak@users.noreply.github.com>
Co-authored-by: denalimarsh <denalimarsh@gmail.com>
Co-authored-by: rhuairahrighairigh <ruaridh.odonnell@gmail.com>
2020-04-23 12:35:58 -04:00

700 lines
22 KiB
Go

package keeper_test
import (
"fmt"
"testing"
"time"
"github.com/stretchr/testify/suite"
abci "github.com/tendermint/tendermint/abci/types"
tmbytes "github.com/tendermint/tendermint/libs/bytes"
tmtime "github.com/tendermint/tendermint/types/time"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/kava-labs/kava/app"
"github.com/kava-labs/kava/x/bep3"
"github.com/kava-labs/kava/x/bep3/keeper"
"github.com/kava-labs/kava/x/bep3/types"
)
type AtomicSwapTestSuite struct {
suite.Suite
keeper keeper.Keeper
app app.TestApp
ctx sdk.Context
deputy sdk.AccAddress
addrs []sdk.AccAddress
timestamps []int64
randomNumberHashes []tmbytes.HexBytes
swapIDs []tmbytes.HexBytes
randomNumbers []tmbytes.HexBytes
}
const (
STARING_BNB_BALANCE = int64(1000000000)
BNB_DENOM = "bnb"
)
func (suite *AtomicSwapTestSuite) SetupTest() {
config := sdk.GetConfig()
app.SetBech32AddressPrefixes(config)
// Initialize test app and set context
tApp := app.NewTestApp()
ctx := tApp.NewContext(true, abci.Header{Height: 1, Time: tmtime.Now()})
// Create and load 20 accounts with bnb tokens
coins := []sdk.Coins{}
for i := 0; i < 20; i++ {
coins = append(coins, cs(c(BNB_DENOM, STARING_BNB_BALANCE)))
}
_, addrs := app.GeneratePrivKeyAddressPairs(20)
deputy := addrs[0]
authGS := app.NewAuthGenState(addrs, coins)
// Initialize genesis state
tApp.InitializeFromGenesisStates(authGS, NewBep3GenStateMulti(deputy))
suite.app = tApp
suite.ctx = ctx
suite.deputy = deputy
suite.addrs = addrs
suite.keeper = suite.app.GetBep3Keeper()
suite.GenerateSwapDetails()
}
func (suite *AtomicSwapTestSuite) GenerateSwapDetails() {
var timestamps []int64
var randomNumberHashes []tmbytes.HexBytes
var randomNumbers []tmbytes.HexBytes
for i := 0; i < 10; i++ {
// Set up atomic swap details
timestamp := ts(i)
randomNumber, _ := types.GenerateSecureRandomNumber()
randomNumberHash := types.CalculateRandomHash(randomNumber.Bytes(), timestamp)
timestamps = append(timestamps, timestamp)
randomNumberHashes = append(randomNumberHashes, randomNumberHash)
randomNumbers = append(randomNumbers, randomNumber.Bytes())
}
suite.timestamps = timestamps
suite.randomNumberHashes = randomNumberHashes
suite.randomNumbers = randomNumbers
}
func (suite *AtomicSwapTestSuite) TestCreateAtomicSwap() {
currentTmTime := tmtime.Now()
type args struct {
randomNumberHash []byte
timestamp int64
heightSpan int64
sender sdk.AccAddress
recipient sdk.AccAddress
senderOtherChain string
recipientOtherChain string
coins sdk.Coins
expectedIncome string
crossChain bool
direction types.SwapDirection
}
testCases := []struct {
name string
blockTime time.Time
args args
expectPass bool
shouldBeFound bool
}{
{
"incoming swap",
currentTmTime,
args{
randomNumberHash: suite.randomNumberHashes[0],
timestamp: suite.timestamps[0],
heightSpan: int64(360),
sender: suite.deputy,
recipient: suite.addrs[1],
senderOtherChain: TestSenderOtherChain,
recipientOtherChain: TestRecipientOtherChain,
coins: cs(c(BNB_DENOM, 50000)),
expectedIncome: fmt.Sprintf("50000%s", BNB_DENOM),
crossChain: true,
direction: types.Incoming,
},
true,
true,
},
{
"outgoing swap",
currentTmTime,
args{
randomNumberHash: suite.randomNumberHashes[0],
timestamp: suite.timestamps[0],
heightSpan: int64(360),
sender: suite.addrs[1],
recipient: suite.addrs[2],
senderOtherChain: TestSenderOtherChain,
recipientOtherChain: TestRecipientOtherChain,
coins: cs(c(BNB_DENOM, 50000)),
expectedIncome: fmt.Sprintf("50000%s", BNB_DENOM),
crossChain: true,
direction: types.Outgoing,
},
true,
true,
},
{
"unsupported asset",
currentTmTime,
args{
randomNumberHash: suite.randomNumberHashes[1],
timestamp: suite.timestamps[1],
heightSpan: int64(360),
sender: suite.deputy,
recipient: suite.addrs[2],
senderOtherChain: TestSenderOtherChain,
recipientOtherChain: TestRecipientOtherChain,
coins: cs(c("xyz", 50000)),
expectedIncome: "50000xyz",
crossChain: true,
direction: types.Incoming,
},
false,
false,
},
{
"past timestamp",
currentTmTime,
args{
randomNumberHash: suite.randomNumberHashes[2],
timestamp: suite.timestamps[2] - 2000,
heightSpan: int64(360),
sender: suite.deputy,
recipient: suite.addrs[3],
senderOtherChain: TestSenderOtherChain,
recipientOtherChain: TestRecipientOtherChain,
coins: cs(c(BNB_DENOM, 50000)),
expectedIncome: fmt.Sprintf("50000%s", BNB_DENOM),
crossChain: true,
direction: types.Incoming,
},
false,
false,
},
{
"future timestamp",
currentTmTime,
args{
randomNumberHash: suite.randomNumberHashes[3],
timestamp: suite.timestamps[3] + 5000,
heightSpan: int64(360),
sender: suite.deputy,
recipient: suite.addrs[4],
senderOtherChain: TestSenderOtherChain,
recipientOtherChain: TestRecipientOtherChain,
coins: cs(c(BNB_DENOM, 50000)),
expectedIncome: fmt.Sprintf("50000%s", BNB_DENOM),
crossChain: true,
direction: types.Incoming,
},
false,
false,
},
{
"small height span",
currentTmTime,
args{
randomNumberHash: suite.randomNumberHashes[4],
timestamp: suite.timestamps[4],
heightSpan: int64(5),
sender: suite.deputy,
recipient: suite.addrs[5],
senderOtherChain: TestSenderOtherChain,
recipientOtherChain: TestRecipientOtherChain,
coins: cs(c(BNB_DENOM, 50000)),
expectedIncome: fmt.Sprintf("50000%s", BNB_DENOM),
crossChain: true,
direction: types.Incoming,
},
false,
false,
},
{
"big height span",
currentTmTime,
args{
randomNumberHash: suite.randomNumberHashes[5],
timestamp: suite.timestamps[5],
heightSpan: int64(1000000),
sender: suite.deputy,
recipient: suite.addrs[6],
senderOtherChain: TestSenderOtherChain,
recipientOtherChain: TestRecipientOtherChain,
coins: cs(c(BNB_DENOM, 50000)),
expectedIncome: fmt.Sprintf("50000%s", BNB_DENOM),
crossChain: true,
direction: types.Incoming,
},
false,
false,
},
{
"zero amount",
currentTmTime,
args{
randomNumberHash: suite.randomNumberHashes[6],
timestamp: suite.timestamps[6],
heightSpan: int64(360),
sender: suite.deputy,
recipient: suite.addrs[7],
senderOtherChain: TestSenderOtherChain,
recipientOtherChain: TestRecipientOtherChain,
coins: cs(c(BNB_DENOM, 0)),
expectedIncome: fmt.Sprintf("0%s", BNB_DENOM),
crossChain: true,
direction: types.Incoming,
},
false,
false,
},
{
"duplicate swap",
currentTmTime,
args{
randomNumberHash: suite.randomNumberHashes[0],
timestamp: suite.timestamps[0],
heightSpan: int64(360),
sender: suite.deputy,
recipient: suite.addrs[1],
senderOtherChain: TestSenderOtherChain,
recipientOtherChain: TestRecipientOtherChain,
coins: cs(c(BNB_DENOM, 50000)),
expectedIncome: "50000bnb",
crossChain: true,
direction: types.Incoming,
},
false,
true,
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
// Increment current asset supply to support outgoing swaps
if tc.args.direction == types.Outgoing {
err := suite.keeper.IncrementCurrentAssetSupply(suite.ctx, tc.args.coins[0])
suite.Nil(err)
}
// Load asset denom (required for zero coins test case)
var swapAssetDenom string
if len(tc.args.coins) == 1 {
swapAssetDenom = tc.args.coins[0].Denom
} else {
swapAssetDenom = BNB_DENOM
}
// Load sender's account prior to swap creation
ak := suite.app.GetAccountKeeper()
senderAccPre := ak.GetAccount(suite.ctx, tc.args.sender)
senderBalancePre := senderAccPre.GetCoins().AmountOf(swapAssetDenom)
assetSupplyPre, _ := suite.keeper.GetAssetSupply(suite.ctx, []byte(swapAssetDenom))
// Create atomic swap
err := suite.keeper.CreateAtomicSwap(suite.ctx, tc.args.randomNumberHash, tc.args.timestamp,
tc.args.heightSpan, tc.args.sender, tc.args.recipient, tc.args.senderOtherChain,
tc.args.recipientOtherChain, tc.args.coins, tc.args.expectedIncome, tc.args.crossChain)
// Load sender's account after swap creation
senderAccPost := ak.GetAccount(suite.ctx, tc.args.sender)
senderBalancePost := senderAccPost.GetCoins().AmountOf(swapAssetDenom)
assetSupplyPost, _ := suite.keeper.GetAssetSupply(suite.ctx, []byte(swapAssetDenom))
// Load expected swap ID
expectedSwapID := types.CalculateSwapID(tc.args.randomNumberHash, tc.args.sender, tc.args.senderOtherChain)
if tc.expectPass {
suite.NoError(err)
// Check coins moved
suite.Equal(senderBalancePre.Sub(tc.args.coins[0].Amount), senderBalancePost)
// Check incoming/outgoing asset supply increased
switch tc.args.direction {
case types.Incoming:
suite.Equal(assetSupplyPre.IncomingSupply.Add(tc.args.coins[0]), assetSupplyPost.IncomingSupply)
case types.Outgoing:
suite.Equal(assetSupplyPre.OutgoingSupply.Add(tc.args.coins[0]), assetSupplyPost.OutgoingSupply)
default:
suite.Fail("should not have invalid direction")
}
// Check swap in store
actualSwap, found := suite.keeper.GetAtomicSwap(suite.ctx, expectedSwapID)
suite.True(found)
suite.NotNil(actualSwap)
// Confirm swap contents
expectedSwap := types.Swap(
types.AtomicSwap{
Amount: tc.args.coins,
RandomNumberHash: tc.args.randomNumberHash,
ExpireHeight: suite.ctx.BlockHeight() + tc.args.heightSpan,
Timestamp: tc.args.timestamp,
Sender: tc.args.sender,
Recipient: tc.args.recipient,
SenderOtherChain: tc.args.senderOtherChain,
RecipientOtherChain: tc.args.recipientOtherChain,
ClosedBlock: 0,
Status: types.Open,
CrossChain: tc.args.crossChain,
Direction: tc.args.direction,
})
suite.Equal(expectedSwap, actualSwap)
} else {
suite.Error(err)
// Check coins not moved
suite.Equal(senderBalancePre, senderBalancePost)
// Check incoming/outgoing asset supply not increased
switch tc.args.direction {
case types.Incoming:
suite.Equal(assetSupplyPre.IncomingSupply, assetSupplyPost.IncomingSupply)
case types.Outgoing:
suite.Equal(assetSupplyPre.OutgoingSupply, assetSupplyPost.OutgoingSupply)
default:
suite.Fail("should not have invalid direction")
}
// Check if swap found in store
_, found := suite.keeper.GetAtomicSwap(suite.ctx, expectedSwapID)
if !tc.shouldBeFound {
suite.False(found)
} else {
suite.True(found)
}
}
})
}
}
func (suite *AtomicSwapTestSuite) TestClaimAtomicSwap() {
suite.SetupTest()
invalidRandomNumber, _ := types.GenerateSecureRandomNumber()
type args struct {
swapID []byte
randomNumber []byte
direction types.SwapDirection
}
testCases := []struct {
name string
claimCtx sdk.Context
args args
expectPass bool
}{
{
"normal incoming swap",
suite.ctx,
args{
swapID: []byte{},
randomNumber: []byte{},
direction: types.Incoming,
},
true,
},
{
"normal outgoing swap",
suite.ctx,
args{
swapID: []byte{},
randomNumber: []byte{},
direction: types.Outgoing,
},
true,
},
{
"invalid random number",
suite.ctx,
args{
swapID: []byte{},
randomNumber: invalidRandomNumber.Bytes(),
direction: types.Incoming,
},
false,
},
{
"wrong swap ID",
suite.ctx,
args{
swapID: types.CalculateSwapID(suite.randomNumberHashes[3], suite.addrs[6], TestRecipientOtherChain),
randomNumber: []byte{},
direction: types.Outgoing,
},
false,
},
{
"past expiration",
suite.ctx.WithBlockHeight(suite.ctx.BlockHeight() + 2000),
args{
swapID: []byte{},
randomNumber: []byte{},
direction: types.Incoming,
},
false,
},
}
for i, tc := range testCases {
suite.GenerateSwapDetails()
suite.Run(tc.name, func() {
expectedRecipient := suite.addrs[5]
expectedClaimAmount := cs(c(BNB_DENOM, 50000))
sender := suite.deputy
// Set sender to other and increment current asset supply for outgoing swap
if tc.args.direction == types.Outgoing {
sender = suite.addrs[6]
err := suite.keeper.IncrementCurrentAssetSupply(suite.ctx, expectedClaimAmount[0])
suite.Nil(err)
}
// Create atomic swap
err := suite.keeper.CreateAtomicSwap(suite.ctx, suite.randomNumberHashes[i], suite.timestamps[i],
int64(360), sender, expectedRecipient, TestSenderOtherChain, TestRecipientOtherChain,
expectedClaimAmount, expectedClaimAmount.String(), true)
suite.NoError(err)
realSwapID := types.CalculateSwapID(suite.randomNumberHashes[i], sender, TestSenderOtherChain)
// If args contains an invalid swap ID claim attempt will use it instead of the real swap ID
var claimSwapID []byte
if len(tc.args.swapID) == 0 {
claimSwapID = realSwapID
} else {
claimSwapID = tc.args.swapID
}
// If args contains an invalid random number claim attempt will use it instead of the real random number
var claimRandomNumber []byte
if len(tc.args.randomNumber) == 0 {
claimRandomNumber = suite.randomNumbers[i]
} else {
claimRandomNumber = tc.args.randomNumber
}
// Run the beginblocker before attempting claim
bep3.BeginBlocker(tc.claimCtx, suite.keeper)
// Load expected recipient's account prior to claim attempt
ak := suite.app.GetAccountKeeper()
expectedRecipientAccPre := ak.GetAccount(tc.claimCtx, expectedRecipient)
expectedRecipientBalancePre := expectedRecipientAccPre.GetCoins().AmountOf(expectedClaimAmount[0].Denom)
// Load asset supplies prior to claim attempt
assetSupplyPre, _ := suite.keeper.GetAssetSupply(tc.claimCtx, []byte(expectedClaimAmount[0].Denom))
// Attempt to claim atomic swap
err = suite.keeper.ClaimAtomicSwap(tc.claimCtx, expectedRecipient, claimSwapID, claimRandomNumber)
// Load expected recipient's account after the claim attempt
expectedRecipientAccPost := ak.GetAccount(tc.claimCtx, expectedRecipient)
expectedRecipientBalancePost := expectedRecipientAccPost.GetCoins().AmountOf(expectedClaimAmount[0].Denom)
// Load asset supplies after the claim attempt
assetSupplyPost, _ := suite.keeper.GetAssetSupply(tc.claimCtx, []byte(expectedClaimAmount[0].Denom))
if tc.expectPass {
suite.NoError(err)
// Check coins moved
suite.Equal(expectedRecipientBalancePre.Add(expectedClaimAmount[0].Amount), expectedRecipientBalancePost)
// Check asset supply changes
switch tc.args.direction {
case types.Incoming:
// Check incoming supply decreased
suite.True(assetSupplyPre.IncomingSupply.Amount.Sub(expectedClaimAmount[0].Amount).Equal(assetSupplyPost.IncomingSupply.Amount))
// Check current supply increased
suite.Equal(assetSupplyPre.CurrentSupply.Add(expectedClaimAmount[0]), assetSupplyPost.CurrentSupply)
// Check outgoing supply not changed
suite.Equal(assetSupplyPre.OutgoingSupply, assetSupplyPost.OutgoingSupply)
case types.Outgoing:
// Check incoming supply not changed
suite.Equal(assetSupplyPre.IncomingSupply, assetSupplyPost.IncomingSupply)
// Check current supply decreased
suite.Equal(assetSupplyPre.CurrentSupply.Sub(expectedClaimAmount[0]), assetSupplyPost.CurrentSupply)
// Check outgoing supply decreased
suite.True(assetSupplyPre.OutgoingSupply.Sub(expectedClaimAmount[0]).IsEqual(assetSupplyPost.OutgoingSupply))
default:
suite.Fail("should not have invalid direction")
}
} else {
suite.Error(err)
// Check coins not moved
suite.Equal(expectedRecipientBalancePre, expectedRecipientBalancePost)
// Check asset supply has not changed
switch tc.args.direction {
case types.Incoming:
suite.Equal(assetSupplyPre.IncomingSupply, assetSupplyPost.IncomingSupply)
suite.Equal(assetSupplyPre.CurrentSupply, assetSupplyPost.CurrentSupply)
suite.Equal(assetSupplyPre.OutgoingSupply, assetSupplyPost.OutgoingSupply)
case types.Outgoing:
suite.Equal(assetSupplyPre.IncomingSupply, assetSupplyPost.IncomingSupply)
suite.Equal(assetSupplyPre.CurrentSupply, assetSupplyPost.CurrentSupply)
suite.Equal(assetSupplyPre.OutgoingSupply, assetSupplyPost.OutgoingSupply)
default:
suite.Fail("should not have invalid direction")
}
}
})
}
}
func (suite *AtomicSwapTestSuite) TestRefundAtomicSwap() {
suite.SetupTest()
type args struct {
swapID []byte
direction types.SwapDirection
}
testCases := []struct {
name string
refundCtx sdk.Context
args args
expectPass bool
}{
{
"normal incoming swap",
suite.ctx.WithBlockHeight(suite.ctx.BlockHeight() + 400),
args{
swapID: []byte{},
direction: types.Incoming,
},
true,
},
{
"normal outgoing swap",
suite.ctx.WithBlockHeight(suite.ctx.BlockHeight() + 400),
args{
swapID: []byte{},
direction: types.Outgoing,
},
true,
},
{
"before expiration",
suite.ctx,
args{
swapID: []byte{},
direction: types.Incoming,
},
false,
},
{
"wrong swapID",
suite.ctx,
args{
swapID: types.CalculateSwapID(suite.randomNumberHashes[6], suite.addrs[1], TestRecipientOtherChain),
direction: types.Incoming,
},
false,
},
}
for i, tc := range testCases {
suite.GenerateSwapDetails()
suite.Run(tc.name, func() {
// Create atomic swap
expectedRefundAmount := cs(c(BNB_DENOM, 50000))
sender := suite.deputy
// Set sender to other and increment current asset supply for outgoing swap
if tc.args.direction == types.Outgoing {
sender = suite.addrs[6]
err := suite.keeper.IncrementCurrentAssetSupply(suite.ctx, expectedRefundAmount[0])
suite.Nil(err)
}
err := suite.keeper.CreateAtomicSwap(suite.ctx, suite.randomNumberHashes[i], suite.timestamps[i],
int64(360), sender, suite.addrs[8], TestSenderOtherChain, TestRecipientOtherChain,
expectedRefundAmount, expectedRefundAmount.String(), true)
suite.NoError(err)
realSwapID := types.CalculateSwapID(suite.randomNumberHashes[i], sender, TestSenderOtherChain)
// If args contains an invalid swap ID refund attempt will use it instead of the real swap ID
var refundSwapID []byte
if len(tc.args.swapID) == 0 {
refundSwapID = realSwapID
} else {
refundSwapID = tc.args.swapID
}
// Run the beginblocker before attempting refund
bep3.BeginBlocker(tc.refundCtx, suite.keeper)
// Load sender's account prior to swap refund
ak := suite.app.GetAccountKeeper()
originalSenderAccPre := ak.GetAccount(tc.refundCtx, sender)
originalSenderBalancePre := originalSenderAccPre.GetCoins().AmountOf(expectedRefundAmount[0].Denom)
// Load asset supply prior to swap refund
assetSupplyPre, _ := suite.keeper.GetAssetSupply(tc.refundCtx, []byte(expectedRefundAmount[0].Denom))
// Attempt to refund atomic swap
err = suite.keeper.RefundAtomicSwap(tc.refundCtx, sender, refundSwapID)
// Load sender's account after refund
originalSenderAccPost := ak.GetAccount(tc.refundCtx, sender)
originalSenderBalancePost := originalSenderAccPost.GetCoins().AmountOf(expectedRefundAmount[0].Denom)
// Load asset supply after to swap refund
assetSupplyPost, _ := suite.keeper.GetAssetSupply(tc.refundCtx, []byte(expectedRefundAmount[0].Denom))
if tc.expectPass {
suite.NoError(err)
// Check coins moved
suite.Equal(originalSenderBalancePre.Add(expectedRefundAmount[0].Amount), originalSenderBalancePost)
// Check asset supply changes
switch tc.args.direction {
case types.Incoming:
// Check incoming supply decreased
suite.True(assetSupplyPre.IncomingSupply.Sub(expectedRefundAmount[0]).IsEqual(assetSupplyPost.IncomingSupply))
// Check current, outgoing supply not changed
suite.Equal(assetSupplyPre.CurrentSupply, assetSupplyPost.CurrentSupply)
suite.Equal(assetSupplyPre.OutgoingSupply, assetSupplyPost.OutgoingSupply)
case types.Outgoing:
// Check incoming, current supply not changed
suite.Equal(assetSupplyPre.IncomingSupply, assetSupplyPost.IncomingSupply)
suite.Equal(assetSupplyPre.CurrentSupply, assetSupplyPost.CurrentSupply)
// Check outgoing supply decreased
suite.True(assetSupplyPre.OutgoingSupply.Sub(expectedRefundAmount[0]).IsEqual(assetSupplyPost.OutgoingSupply))
default:
suite.Fail("should not have invalid direction")
}
} else {
suite.Error(err)
// Check coins not moved
suite.Equal(originalSenderBalancePre, originalSenderBalancePost)
// Check asset supply has not changed
switch tc.args.direction {
case types.Incoming:
suite.Equal(assetSupplyPre.IncomingSupply, assetSupplyPost.IncomingSupply)
suite.Equal(assetSupplyPre.CurrentSupply, assetSupplyPost.CurrentSupply)
suite.Equal(assetSupplyPre.OutgoingSupply, assetSupplyPost.OutgoingSupply)
case types.Outgoing:
suite.Equal(assetSupplyPre.IncomingSupply, assetSupplyPost.IncomingSupply)
suite.Equal(assetSupplyPre.CurrentSupply, assetSupplyPost.CurrentSupply)
suite.Equal(assetSupplyPre.OutgoingSupply, assetSupplyPost.OutgoingSupply)
default:
suite.Fail("should not have invalid direction")
}
}
})
}
}
func TestAtomicSwapTestSuite(t *testing.T) {
suite.Run(t, new(AtomicSwapTestSuite))
}