0g-chain/x/swap/testutil/suite.go
Nick DeLuca 70c0cafd64
Update default account to BaseAccount (#1263)
* update default account to use base account, not eth account

* fix: use base account in test

Co-authored-by: karzak <kjydavis3@gmail.com>
2022-06-06 12:04:13 -05:00

293 lines
12 KiB
Go

package testutil
import (
"fmt"
"reflect"
"time"
"github.com/kava-labs/kava/app"
"github.com/kava-labs/kava/x/swap/keeper"
"github.com/kava-labs/kava/x/swap/types"
"github.com/cosmos/cosmos-sdk/simapp"
sdk "github.com/cosmos/cosmos-sdk/types"
authkeeper "github.com/cosmos/cosmos-sdk/x/auth/keeper"
authtypes "github.com/cosmos/cosmos-sdk/x/auth/types"
vestingtypes "github.com/cosmos/cosmos-sdk/x/auth/vesting/types"
BankKeeper "github.com/cosmos/cosmos-sdk/x/bank/keeper"
govtypes "github.com/cosmos/cosmos-sdk/x/gov/types"
"github.com/stretchr/testify/suite"
abci "github.com/tendermint/tendermint/abci/types"
tmproto "github.com/tendermint/tendermint/proto/tendermint/types"
tmtime "github.com/tendermint/tendermint/types/time"
)
var defaultSwapFee = sdk.MustNewDecFromStr("0.003")
// Suite implements a test suite for the swap module integration tests
type Suite struct {
suite.Suite
Keeper keeper.Keeper
App app.TestApp
Ctx sdk.Context
BankKeeper BankKeeper.Keeper
AccountKeeper authkeeper.AccountKeeper
}
// SetupTest instantiates a new app, keepers, and sets suite state
func (suite *Suite) SetupTest() {
tApp := app.NewTestApp()
ctx := tApp.NewContext(true, tmproto.Header{Height: 1, Time: tmtime.Now()})
suite.Ctx = ctx
suite.App = tApp
suite.Keeper = tApp.GetSwapKeeper()
suite.BankKeeper = tApp.GetBankKeeper()
suite.AccountKeeper = tApp.GetAccountKeeper()
}
// GetEvents returns emitted events on the sdk context
func (suite *Suite) GetEvents() sdk.Events {
return suite.Ctx.EventManager().Events()
}
// AddCoinsToModule adds coins to the swap module account
func (suite *Suite) AddCoinsToModule(amount sdk.Coins) {
// Does not use suite.BankKeeper.MintCoins as module account would not have permission to mint
err := simapp.FundModuleAccount(suite.BankKeeper, suite.Ctx, types.ModuleName, amount)
suite.Require().NoError(err)
}
// RemoveCoinsFromModule removes coins to the swap module account
func (suite *Suite) RemoveCoinsFromModule(amount sdk.Coins) {
// Swap module does not have BurnCoins permission so we need to transfer to gov first to burn
err := suite.BankKeeper.SendCoinsFromModuleToModule(suite.Ctx, types.ModuleAccountName, govtypes.ModuleName, amount)
suite.Require().NoError(err)
err = suite.BankKeeper.BurnCoins(suite.Ctx, govtypes.ModuleName, amount)
suite.Require().NoError(err)
}
// // GetAccount gets an existing account
// func (suite *Suite) GetAccount(addr sdk.AccAddress) authexported.Account {
// ak := suite.App.GetAccountKeeper()
// return ak.GetAccount(suite.Ctx, addr)
// }
// CreateAccount creates a new account from the provided balance
func (suite *Suite) CreateAccount(initialBalance sdk.Coins) authtypes.AccountI {
_, addrs := app.GeneratePrivKeyAddressPairs(1)
ak := suite.App.GetAccountKeeper()
acc := ak.NewAccountWithAddress(suite.Ctx, addrs[0])
ak.SetAccount(suite.Ctx, acc)
err := simapp.FundAccount(suite.BankKeeper, suite.Ctx, acc.GetAddress(), initialBalance)
suite.Require().NoError(err)
return acc
}
// NewAccountFromAddr creates a new account from the provided address with the provided balance
func (suite *Suite) NewAccountFromAddr(addr sdk.AccAddress, balance sdk.Coins) authtypes.AccountI {
ak := suite.App.GetAccountKeeper()
acc := ak.NewAccountWithAddress(suite.Ctx, addr)
ak.SetAccount(suite.Ctx, acc)
err := simapp.FundAccount(suite.BankKeeper, suite.Ctx, acc.GetAddress(), balance)
suite.Require().NoError(err)
return acc
}
// CreateVestingAccount creates a new vesting account from the provided balance and vesting balance
func (suite *Suite) CreateVestingAccount(initialBalance sdk.Coins, vestingBalance sdk.Coins) authtypes.AccountI {
acc := suite.CreateAccount(initialBalance)
bacc := acc.(*authtypes.BaseAccount)
periods := vestingtypes.Periods{
vestingtypes.Period{
Length: 31556952,
Amount: vestingBalance,
},
}
vacc := vestingtypes.NewPeriodicVestingAccount(bacc, initialBalance, time.Now().Unix(), periods) // TODO is initialBalance correct for originalVesting?
return vacc
}
// CreatePool creates a pool and stores it in state with the provided reserves
func (suite *Suite) CreatePool(reserves sdk.Coins) error {
depositor := suite.CreateAccount(reserves)
pool := types.NewAllowedPool(reserves[0].Denom, reserves[1].Denom)
suite.Require().NoError(pool.Validate())
suite.Keeper.SetParams(suite.Ctx, types.NewParams(types.AllowedPools{pool}, defaultSwapFee))
return suite.Keeper.Deposit(suite.Ctx, depositor.GetAddress(), reserves[0], reserves[1], sdk.MustNewDecFromStr("1"))
}
// AccountBalanceEqual asserts that the coins match the account balance
func (suite *Suite) AccountBalanceEqual(addr sdk.AccAddress, coins sdk.Coins) {
balance := suite.BankKeeper.GetAllBalances(suite.Ctx, addr)
suite.Equal(coins, balance, fmt.Sprintf("expected account balance to equal coins %s, but got %s", coins, balance))
}
// // AccountBalanceDelta asserts that the coins are within delta of the account balance
// func (suite *Suite) AccountBalanceDelta(acc authexported.Account, coins sdk.Coins, delta float64) {
// ak := suite.App.GetAccountKeeper()
// acc = ak.GetAccount(suite.Ctx, acc.GetAddress())
// accCoins := acc.GetCoins()
// allCoins := coins.Add(accCoins...)
// for _, coin := range allCoins {
// suite.InDelta(
// coins.AmountOf(coin.Denom).Int64(),
// accCoins.AmountOf(coin.Denom).Int64(),
// delta,
// fmt.Sprintf("expected module account balance to be in delta %f of coins %s, but got %s", delta, coins, accCoins),
// )
// }
// }
// ModuleAccountBalanceEqual asserts that the swap module account balance matches the provided coins
func (suite *Suite) ModuleAccountBalanceEqual(coins sdk.Coins) {
balance := suite.BankKeeper.GetAllBalances(
suite.Ctx,
suite.AccountKeeper.GetModuleAddress(types.ModuleAccountName),
)
suite.Equal(coins, balance, fmt.Sprintf("expected module account balance to equal coins %s, but got %s", coins, balance))
}
// // ModuleAccountBalanceDelta asserts that the swap module account balance is within acceptable delta of the provided coins
// func (suite *Suite) ModuleAccountBalanceDelta(coins sdk.Coins, delta float64) {
// macc, _ := suite.supplyKeeper.GetModuleAccountAndPermissions(suite.Ctx, types.ModuleName)
// suite.Require().NotNil(macc, "expected module account to be defined")
// allCoins := coins.Add(macc.GetCoins()...)
// for _, coin := range allCoins {
// suite.InDelta(
// coins.AmountOf(coin.Denom).Int64(),
// macc.GetCoins().AmountOf(coin.Denom).Int64(),
// delta,
// fmt.Sprintf("expected module account balance to be in delta %f of coins %s, but got %s", delta, coins, macc.GetCoins()),
// )
// }
// }
// PoolLiquidityEqual asserts that the pool matching the provided coins has those reserves
func (suite *Suite) PoolLiquidityEqual(coins sdk.Coins) {
poolRecord, ok := suite.Keeper.GetPool(suite.Ctx, types.PoolIDFromCoins(coins))
suite.Require().True(ok, "expected pool to exist")
reserves := sdk.NewCoins(poolRecord.ReservesA, poolRecord.ReservesB)
suite.Equal(coins, reserves, fmt.Sprintf("expected pool reserves of %s, got %s", coins, reserves))
}
// PoolDeleted asserts that the pool does not exist
func (suite *Suite) PoolDeleted(denomA, denomB string) {
_, ok := suite.Keeper.GetPool(suite.Ctx, types.PoolID(denomA, denomB))
suite.Require().False(ok, "expected pool to not exist")
}
// // PoolLiquidityDelta asserts that the pool matching the provided coins has those reserves within delta
// func (suite *Suite) PoolLiquidityDelta(coins sdk.Coins, delta float64) {
// poolRecord, ok := suite.Keeper.GetPool(suite.Ctx, types.PoolIDFromCoins(coins))
// suite.Require().True(ok, "expected pool to exist")
// suite.InDelta(
// poolRecord.ReservesA.Amount.Int64(),
// coins.AmountOf(poolRecord.ReservesA.Denom).Int64(),
// delta,
// fmt.Sprintf("expected pool reserves within delta %f of %s, got %s", delta, coins, poolRecord.Reserves()),
// )
// suite.InDelta(
// poolRecord.ReservesB.Amount.Int64(),
// coins.AmountOf(poolRecord.ReservesB.Denom).Int64(),
// delta,
// fmt.Sprintf("expected pool reserves within delta %f of %s, got %s", delta, coins, poolRecord.Reserves()),
// )
// }
// PoolShareTotalEqual asserts the total shares match the stored pool
func (suite *Suite) PoolShareTotalEqual(poolID string, totalShares sdk.Int) {
poolRecord, found := suite.Keeper.GetPool(suite.Ctx, poolID)
suite.Require().True(found, fmt.Sprintf("expected pool %s to exist", poolID))
suite.Equal(totalShares, poolRecord.TotalShares, "expected pool total shares to be equal")
}
// PoolDepositorSharesEqual asserts the depositor owns the shares for the provided pool
func (suite *Suite) PoolDepositorSharesEqual(depositor sdk.AccAddress, poolID string, shares sdk.Int) {
shareRecord, found := suite.Keeper.GetDepositorShares(suite.Ctx, depositor, poolID)
suite.Require().True(found, fmt.Sprintf("expected share record to exist for depositor %s and pool %s", depositor.String(), poolID))
suite.Equal(shares, shareRecord.SharesOwned)
}
// PoolReservesEqual assets the stored pool reserves are equal to the provided reserves
func (suite *Suite) PoolReservesEqual(poolID string, reserves sdk.Coins) {
poolRecord, found := suite.Keeper.GetPool(suite.Ctx, poolID)
suite.Require().True(found, fmt.Sprintf("expected pool %s to exist", poolID))
suite.Equal(reserves, poolRecord.Reserves(), "expected pool reserves to be equal")
}
// PoolShareValueEqual asserts that the depositor shares are in state and the value matches the expected coins
func (suite *Suite) PoolShareValueEqual(depositor authtypes.AccountI, pool types.AllowedPool, coins sdk.Coins) {
poolRecord, ok := suite.Keeper.GetPool(suite.Ctx, pool.Name())
suite.Require().True(ok, fmt.Sprintf("expected pool %s to exist", pool.Name()))
shares, ok := suite.Keeper.GetDepositorShares(suite.Ctx, depositor.GetAddress(), poolRecord.PoolID)
suite.Require().True(ok, fmt.Sprintf("expected shares to exist for depositor %s", depositor.GetAddress()))
storedPool, err := types.NewDenominatedPoolWithExistingShares(sdk.NewCoins(poolRecord.ReservesA, poolRecord.ReservesB), poolRecord.TotalShares)
suite.Nil(err)
value := storedPool.ShareValue(shares.SharesOwned)
suite.Equal(coins, value, fmt.Sprintf("expected shares to equal %s, but got %s", coins, value))
}
// // PoolShareValueDelta asserts that the depositor shares are in state and the value is within delta of the expected coins
// func (suite *Suite) PoolShareValueDelta(depositor authexported.Account, pool types.AllowedPool, coins sdk.Coins, delta float64) {
// poolRecord, ok := suite.Keeper.GetPool(suite.Ctx, pool.Name())
// suite.Require().True(ok, fmt.Sprintf("expected pool %s to exist", pool.Name()))
// shares, ok := suite.Keeper.GetDepositorShares(suite.Ctx, depositor.GetAddress(), poolRecord.PoolID)
// suite.Require().True(ok, fmt.Sprintf("expected shares to exist for depositor %s", depositor.GetAddress()))
// storedPool, err := types.NewDenominatedPoolWithExistingShares(sdk.NewCoins(poolRecord.ReservesA, poolRecord.ReservesB), poolRecord.TotalShares)
// suite.Nil(err)
// value := storedPool.ShareValue(shares.SharesOwned)
// for _, coin := range coins {
// suite.InDelta(
// coin.Amount.Int64(),
// value.AmountOf(coin.Denom).Int64(),
// delta,
// fmt.Sprintf("expected shares to be within delta %f of %s, but got %s", delta, coins, value),
// )
// }
// }
// PoolSharesDeleted asserts that the pool shares have been removed
func (suite *Suite) PoolSharesDeleted(depositor sdk.AccAddress, denomA, denomB string) {
_, ok := suite.Keeper.GetDepositorShares(suite.Ctx, depositor, types.PoolID(denomA, denomB))
suite.Require().False(ok, "expected pool shares to not exist")
}
// EventsContains asserts that the expected event is in the provided events
func (suite *Suite) EventsContains(events sdk.Events, expectedEvent sdk.Event) {
foundMatch := false
for _, event := range events {
if event.Type == expectedEvent.Type {
if reflect.DeepEqual(attrsToMap(expectedEvent.Attributes), attrsToMap(event.Attributes)) {
foundMatch = true
}
}
}
suite.True(foundMatch, fmt.Sprintf("event of type %s not found or did not match", expectedEvent.Type))
}
func attrsToMap(attrs []abci.EventAttribute) []sdk.Attribute { // new cosmos changed the event attribute type
out := []sdk.Attribute{}
for _, attr := range attrs {
out = append(out, sdk.NewAttribute(string(attr.Key), string(attr.Value)))
}
return out
}