0g-chain/kava/app/app_test.go
rhuairahrighairigh ab8528e85f add kava app
2018-05-25 14:46:33 +01:00

462 lines
11 KiB
Go

package app
import (
"encoding/json"
"fmt"
"os"
"testing"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"github.com/cosmos/cosmos-sdk/examples/basecoin/types"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/cosmos/cosmos-sdk/x/auth"
"github.com/cosmos/cosmos-sdk/x/bank"
"github.com/cosmos/cosmos-sdk/x/ibc"
abci "github.com/tendermint/abci/types"
crypto "github.com/tendermint/go-crypto"
dbm "github.com/tendermint/tmlibs/db"
"github.com/tendermint/tmlibs/log"
)
// Construct some global addrs and txs for tests.
var (
chainID = "" // TODO
accName = "foobart"
priv1 = crypto.GenPrivKeyEd25519()
addr1 = priv1.PubKey().Address()
priv2 = crypto.GenPrivKeyEd25519()
addr2 = priv2.PubKey().Address()
addr3 = crypto.GenPrivKeyEd25519().PubKey().Address()
priv4 = crypto.GenPrivKeyEd25519()
addr4 = priv4.PubKey().Address()
coins = sdk.Coins{{"foocoin", 10}}
halfCoins = sdk.Coins{{"foocoin", 5}}
manyCoins = sdk.Coins{{"foocoin", 1}, {"barcoin", 1}}
fee = sdk.StdFee{
sdk.Coins{{"foocoin", 0}},
0,
}
sendMsg1 = bank.MsgSend{
Inputs: []bank.Input{bank.NewInput(addr1, coins)},
Outputs: []bank.Output{bank.NewOutput(addr2, coins)},
}
sendMsg2 = bank.MsgSend{
Inputs: []bank.Input{bank.NewInput(addr1, coins)},
Outputs: []bank.Output{
bank.NewOutput(addr2, halfCoins),
bank.NewOutput(addr3, halfCoins),
},
}
sendMsg3 = bank.MsgSend{
Inputs: []bank.Input{
bank.NewInput(addr1, coins),
bank.NewInput(addr4, coins),
},
Outputs: []bank.Output{
bank.NewOutput(addr2, coins),
bank.NewOutput(addr3, coins),
},
}
sendMsg4 = bank.MsgSend{
Inputs: []bank.Input{
bank.NewInput(addr2, coins),
},
Outputs: []bank.Output{
bank.NewOutput(addr1, coins),
},
}
sendMsg5 = bank.MsgSend{
Inputs: []bank.Input{
bank.NewInput(addr1, manyCoins),
},
Outputs: []bank.Output{
bank.NewOutput(addr2, manyCoins),
},
}
)
func loggerAndDB() (log.Logger, dbm.DB) {
logger := log.NewTMLogger(log.NewSyncWriter(os.Stdout)).With("module", "sdk/app")
db := dbm.NewMemDB()
return logger, db
}
func newBasecoinApp() *BasecoinApp {
logger, db := loggerAndDB()
return NewBasecoinApp(logger, db)
}
func setGenesisAccounts(bapp *BasecoinApp, accs ...auth.BaseAccount) error {
genaccs := make([]*types.GenesisAccount, len(accs))
for i, acc := range accs {
genaccs[i] = types.NewGenesisAccount(&types.AppAccount{acc, accName})
}
genesisState := types.GenesisState{
Accounts: genaccs,
}
stateBytes, err := json.MarshalIndent(genesisState, "", "\t")
if err != nil {
return err
}
// Initialize the chain
vals := []abci.Validator{}
bapp.InitChain(abci.RequestInitChain{vals, stateBytes})
bapp.Commit()
return nil
}
//_______________________________________________________________________
func TestMsgs(t *testing.T) {
bapp := newBasecoinApp()
msgs := []struct {
msg sdk.Msg
}{
{sendMsg1},
}
for i, m := range msgs {
// Run a CheckDeliver
SignCheckDeliver(t, bapp, m.msg, []int64{int64(i)}, false, priv1)
}
}
func TestSortGenesis(t *testing.T) {
logger, db := loggerAndDB()
bapp := NewBasecoinApp(logger, db)
// Note the order: the coins are unsorted!
coinDenom1, coinDenom2 := "foocoin", "barcoin"
genState := fmt.Sprintf(`{
"accounts": [{
"address": "%s",
"coins": [
{
"denom": "%s",
"amount": 10
},
{
"denom": "%s",
"amount": 20
}
]
}]
}`, addr1.String(), coinDenom1, coinDenom2)
// Initialize the chain
vals := []abci.Validator{}
bapp.InitChain(abci.RequestInitChain{vals, []byte(genState)})
bapp.Commit()
// Unsorted coins means invalid
err := sendMsg5.ValidateBasic()
require.Equal(t, sdk.CodeInvalidCoins, err.Code(), err.ABCILog())
// Sort coins, should be valid
sendMsg5.Inputs[0].Coins.Sort()
sendMsg5.Outputs[0].Coins.Sort()
err = sendMsg5.ValidateBasic()
require.Nil(t, err)
// Ensure we can send
SignCheckDeliver(t, bapp, sendMsg5, []int64{0}, true, priv1)
}
func TestGenesis(t *testing.T) {
logger, db := loggerAndDB()
bapp := NewBasecoinApp(logger, db)
// Construct some genesis bytes to reflect basecoin/types/AppAccount
pk := crypto.GenPrivKeyEd25519().PubKey()
addr := pk.Address()
coins, err := sdk.ParseCoins("77foocoin,99barcoin")
require.Nil(t, err)
baseAcc := auth.BaseAccount{
Address: addr,
Coins: coins,
}
acc := &types.AppAccount{baseAcc, "foobart"}
err = setGenesisAccounts(bapp, baseAcc)
assert.Nil(t, err)
// A checkTx context
ctx := bapp.BaseApp.NewContext(true, abci.Header{})
res1 := bapp.accountMapper.GetAccount(ctx, baseAcc.Address)
assert.Equal(t, acc, res1)
// reload app and ensure the account is still there
bapp = NewBasecoinApp(logger, db)
ctx = bapp.BaseApp.NewContext(true, abci.Header{})
res1 = bapp.accountMapper.GetAccount(ctx, baseAcc.Address)
assert.Equal(t, acc, res1)
}
func TestMsgSendWithAccounts(t *testing.T) {
bapp := newBasecoinApp()
// Construct some genesis bytes to reflect basecoin/types/AppAccount
// Give 77 foocoin to the first key
coins, err := sdk.ParseCoins("77foocoin")
require.Nil(t, err)
baseAcc := auth.BaseAccount{
Address: addr1,
Coins: coins,
}
// Construct genesis state
err = setGenesisAccounts(bapp, baseAcc)
assert.Nil(t, err)
// A checkTx context (true)
ctxCheck := bapp.BaseApp.NewContext(true, abci.Header{})
res1 := bapp.accountMapper.GetAccount(ctxCheck, addr1)
assert.Equal(t, baseAcc, res1.(*types.AppAccount).BaseAccount)
// Run a CheckDeliver
SignCheckDeliver(t, bapp, sendMsg1, []int64{0}, true, priv1)
// Check balances
CheckBalance(t, bapp, addr1, "67foocoin")
CheckBalance(t, bapp, addr2, "10foocoin")
// Delivering again should cause replay error
SignCheckDeliver(t, bapp, sendMsg1, []int64{0}, false, priv1)
// bumping the txnonce number without resigning should be an auth error
tx := genTx(sendMsg1, []int64{0}, priv1)
tx.Signatures[0].Sequence = 1
res := bapp.Deliver(tx)
assert.Equal(t, sdk.ToABCICode(sdk.CodespaceRoot, sdk.CodeUnauthorized), res.Code, res.Log)
// resigning the tx with the bumped sequence should work
SignCheckDeliver(t, bapp, sendMsg1, []int64{1}, true, priv1)
}
func TestMsgSendMultipleOut(t *testing.T) {
bapp := newBasecoinApp()
genCoins, err := sdk.ParseCoins("42foocoin")
require.Nil(t, err)
acc1 := auth.BaseAccount{
Address: addr1,
Coins: genCoins,
}
acc2 := auth.BaseAccount{
Address: addr2,
Coins: genCoins,
}
err = setGenesisAccounts(bapp, acc1, acc2)
assert.Nil(t, err)
// Simulate a Block
SignCheckDeliver(t, bapp, sendMsg2, []int64{0}, true, priv1)
// Check balances
CheckBalance(t, bapp, addr1, "32foocoin")
CheckBalance(t, bapp, addr2, "47foocoin")
CheckBalance(t, bapp, addr3, "5foocoin")
}
func TestSengMsgMultipleInOut(t *testing.T) {
bapp := newBasecoinApp()
genCoins, err := sdk.ParseCoins("42foocoin")
require.Nil(t, err)
acc1 := auth.BaseAccount{
Address: addr1,
Coins: genCoins,
}
acc2 := auth.BaseAccount{
Address: addr2,
Coins: genCoins,
}
acc4 := auth.BaseAccount{
Address: addr4,
Coins: genCoins,
}
err = setGenesisAccounts(bapp, acc1, acc2, acc4)
assert.Nil(t, err)
// CheckDeliver
SignCheckDeliver(t, bapp, sendMsg3, []int64{0, 0}, true, priv1, priv4)
// Check balances
CheckBalance(t, bapp, addr1, "32foocoin")
CheckBalance(t, bapp, addr4, "32foocoin")
CheckBalance(t, bapp, addr2, "52foocoin")
CheckBalance(t, bapp, addr3, "10foocoin")
}
func TestMsgSendDependent(t *testing.T) {
bapp := newBasecoinApp()
genCoins, err := sdk.ParseCoins("42foocoin")
require.Nil(t, err)
acc1 := auth.BaseAccount{
Address: addr1,
Coins: genCoins,
}
err = setGenesisAccounts(bapp, acc1)
assert.Nil(t, err)
// CheckDeliver
SignCheckDeliver(t, bapp, sendMsg1, []int64{0}, true, priv1)
// Check balances
CheckBalance(t, bapp, addr1, "32foocoin")
CheckBalance(t, bapp, addr2, "10foocoin")
// Simulate a Block
SignCheckDeliver(t, bapp, sendMsg4, []int64{0}, true, priv2)
// Check balances
CheckBalance(t, bapp, addr1, "42foocoin")
}
func TestMsgQuiz(t *testing.T) {
bapp := newBasecoinApp()
// Construct genesis state
// Construct some genesis bytes to reflect basecoin/types/AppAccount
baseAcc := auth.BaseAccount{
Address: addr1,
Coins: nil,
}
acc1 := &types.AppAccount{baseAcc, "foobart"}
// Construct genesis state
genesisState := map[string]interface{}{
"accounts": []*types.GenesisAccount{
types.NewGenesisAccount(acc1),
},
}
stateBytes, err := json.MarshalIndent(genesisState, "", "\t")
require.Nil(t, err)
// Initialize the chain (nil)
vals := []abci.Validator{}
bapp.InitChain(abci.RequestInitChain{vals, stateBytes})
bapp.Commit()
// A checkTx context (true)
ctxCheck := bapp.BaseApp.NewContext(true, abci.Header{})
res1 := bapp.accountMapper.GetAccount(ctxCheck, addr1)
assert.Equal(t, acc1, res1)
}
func TestIBCMsgs(t *testing.T) {
bapp := newBasecoinApp()
sourceChain := "source-chain"
destChain := "dest-chain"
baseAcc := auth.BaseAccount{
Address: addr1,
Coins: coins,
}
acc1 := &types.AppAccount{baseAcc, "foobart"}
err := setGenesisAccounts(bapp, baseAcc)
assert.Nil(t, err)
// A checkTx context (true)
ctxCheck := bapp.BaseApp.NewContext(true, abci.Header{})
res1 := bapp.accountMapper.GetAccount(ctxCheck, addr1)
assert.Equal(t, acc1, res1)
packet := ibc.IBCPacket{
SrcAddr: addr1,
DestAddr: addr1,
Coins: coins,
SrcChain: sourceChain,
DestChain: destChain,
}
transferMsg := ibc.IBCTransferMsg{
IBCPacket: packet,
}
receiveMsg := ibc.IBCReceiveMsg{
IBCPacket: packet,
Relayer: addr1,
Sequence: 0,
}
SignCheckDeliver(t, bapp, transferMsg, []int64{0}, true, priv1)
CheckBalance(t, bapp, addr1, "")
SignCheckDeliver(t, bapp, transferMsg, []int64{1}, false, priv1)
SignCheckDeliver(t, bapp, receiveMsg, []int64{2}, true, priv1)
CheckBalance(t, bapp, addr1, "10foocoin")
SignCheckDeliver(t, bapp, receiveMsg, []int64{3}, false, priv1)
}
func genTx(msg sdk.Msg, seq []int64, priv ...crypto.PrivKeyEd25519) sdk.StdTx {
sigs := make([]sdk.StdSignature, len(priv))
for i, p := range priv {
sigs[i] = sdk.StdSignature{
PubKey: p.PubKey(),
Signature: p.Sign(sdk.StdSignBytes(chainID, seq, fee, msg)),
Sequence: seq[i],
}
}
return sdk.NewStdTx(msg, fee, sigs)
}
func SignCheckDeliver(t *testing.T, bapp *BasecoinApp, msg sdk.Msg, seq []int64, expPass bool, priv ...crypto.PrivKeyEd25519) {
// Sign the tx
tx := genTx(msg, seq, priv...)
// Run a Check
res := bapp.Check(tx)
if expPass {
require.Equal(t, sdk.ABCICodeOK, res.Code, res.Log)
} else {
require.NotEqual(t, sdk.ABCICodeOK, res.Code, res.Log)
}
// Simulate a Block
bapp.BeginBlock(abci.RequestBeginBlock{})
res = bapp.Deliver(tx)
if expPass {
require.Equal(t, sdk.ABCICodeOK, res.Code, res.Log)
} else {
require.NotEqual(t, sdk.ABCICodeOK, res.Code, res.Log)
}
bapp.EndBlock(abci.RequestEndBlock{})
//bapp.Commit()
}
func CheckBalance(t *testing.T, bapp *BasecoinApp, addr sdk.Address, balExpected string) {
ctxDeliver := bapp.BaseApp.NewContext(false, abci.Header{})
res2 := bapp.accountMapper.GetAccount(ctxDeliver, addr)
assert.Equal(t, balExpected, fmt.Sprintf("%v", res2.GetCoins()))
}