package api import ( "fmt" "testing" "github.com/hermeznetwork/hermez-node/apitypes" "github.com/hermeznetwork/hermez-node/common" "github.com/hermeznetwork/hermez-node/db/historydb" "github.com/mitchellh/copystructure" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) type testCVP struct { Root string Siblings []string OldKey string OldValue string IsOld0 bool Key string Value string Fnc int } type testExit struct { ItemID uint64 `json:"itemId"` BatchNum common.BatchNum `json:"batchNum"` AccountIdx string `json:"accountIndex"` BJJ apitypes.HezBJJ `json:"bjj"` EthAddr apitypes.HezEthAddr `json:"hezEthereumAddress"` MerkleProof testCVP `json:"merkleProof"` Balance string `json:"balance"` InstantWithdrawn *int64 `json:"instantWithdrawn"` DelayedWithdrawRequest *int64 `json:"delayedWithdrawRequest"` DelayedWithdrawn *int64 `json:"delayedWithdrawn"` Token historydb.TokenWithUSD `json:"token"` } type testExitsResponse struct { Exits []testExit `json:"exits"` PendingItems uint64 `json:"pendingItems"` } func (t testExitsResponse) GetPending() (pendingItems, lastItemID uint64) { pendingItems = t.PendingItems lastItemID = t.Exits[len(t.Exits)-1].ItemID return pendingItems, lastItemID } func (t testExitsResponse) New() Pendinger { return &testExitsResponse{} } func (t *testExitsResponse) Len() int { return len(t.Exits) } func genTestExits( commonExits []common.ExitInfo, tokens []historydb.TokenWithUSD, accs []common.Account, ) []testExit { allExits := []testExit{} for _, exit := range commonExits { token := getTokenByIdx(exit.AccountIdx, tokens, accs) siblings := []string{} for i := 0; i < len(exit.MerkleProof.Siblings); i++ { siblings = append(siblings, exit.MerkleProof.Siblings[i].String()) } acc := getAccountByIdx(exit.AccountIdx, accs) allExits = append(allExits, testExit{ BatchNum: exit.BatchNum, AccountIdx: idxToHez(exit.AccountIdx, token.Symbol), BJJ: apitypes.NewHezBJJ(acc.PublicKey), EthAddr: apitypes.NewHezEthAddr(acc.EthAddr), MerkleProof: testCVP{ Root: exit.MerkleProof.Root.String(), Siblings: siblings, OldKey: exit.MerkleProof.OldKey.String(), OldValue: exit.MerkleProof.OldValue.String(), IsOld0: exit.MerkleProof.IsOld0, Key: exit.MerkleProof.Key.String(), Value: exit.MerkleProof.Value.String(), Fnc: exit.MerkleProof.Fnc, }, Balance: exit.Balance.String(), InstantWithdrawn: exit.InstantWithdrawn, DelayedWithdrawRequest: exit.DelayedWithdrawRequest, DelayedWithdrawn: exit.DelayedWithdrawn, Token: token, }) } return allExits } func TestGetExits(t *testing.T) { endpoint := apiURL + "exits" fetchedExits := []testExit{} appendIter := func(intr interface{}) { for i := 0; i < len(intr.(*testExitsResponse).Exits); i++ { tmp, err := copystructure.Copy(intr.(*testExitsResponse).Exits[i]) if err != nil { panic(err) } fetchedExits = append(fetchedExits, tmp.(testExit)) } } // Get all (no filters) limit := 8 path := fmt.Sprintf("%s?limit=%d", endpoint, limit) err := doGoodReqPaginated(path, historydb.OrderAsc, &testExitsResponse{}, appendIter) assert.NoError(t, err) assertExitAPIs(t, tc.exits, fetchedExits) // Get by ethAddr fetchedExits = []testExit{} limit = 7 var account testAccount for _, tx := range tc.txs { found := false if tx.Type == common.TxTypeExit { for i := 0; i < len(tc.accounts); i++ { if tx.FromIdx != nil && string(tc.accounts[i].Idx) == *tx.FromIdx { account = tc.accounts[i] break } } } if found { break } } path = fmt.Sprintf( "%s?hezEthereumAddress=%s&limit=%d", endpoint, account.EthAddr, limit, ) err = doGoodReqPaginated(path, historydb.OrderAsc, &testExitsResponse{}, appendIter) assert.NoError(t, err) var accountExits []testExit for i := range tc.exits { for _, acc := range tc.accounts { if string(acc.Idx) == tc.exits[i].AccountIdx { if acc.EthAddr == account.EthAddr { accountExits = append(accountExits, tc.exits[i]) } } } } assertExitAPIs(t, accountExits, fetchedExits) // Get by bjj fetchedExits = []testExit{} limit = 6 path = fmt.Sprintf( "%s?BJJ=%s&limit=%d", endpoint, account.PublicKey, limit, ) err = doGoodReqPaginated(path, historydb.OrderAsc, &testExitsResponse{}, appendIter) assert.NoError(t, err) assertExitAPIs(t, accountExits, fetchedExits) // Get by tokenID fetchedExits = []testExit{} limit = 5 tokenID := tc.exits[0].Token.TokenID path = fmt.Sprintf( "%s?tokenId=%d&limit=%d", endpoint, tokenID, limit, ) err = doGoodReqPaginated(path, historydb.OrderAsc, &testExitsResponse{}, appendIter) assert.NoError(t, err) tokenIDExits := []testExit{} for i := 0; i < len(tc.exits); i++ { if tc.exits[i].Token.TokenID == tokenID { tokenIDExits = append(tokenIDExits, tc.exits[i]) } } assertExitAPIs(t, tokenIDExits, fetchedExits) // idx fetchedExits = []testExit{} limit = 4 idx := tc.exits[0].AccountIdx path = fmt.Sprintf( "%s?accountIndex=%s&limit=%d", endpoint, idx, limit, ) err = doGoodReqPaginated(path, historydb.OrderAsc, &testExitsResponse{}, appendIter) assert.NoError(t, err) idxExits := []testExit{} for i := 0; i < len(tc.exits); i++ { if tc.exits[i].AccountIdx[6:] == idx[6:] { idxExits = append(idxExits, tc.exits[i]) } } assertExitAPIs(t, idxExits, fetchedExits) // batchNum fetchedExits = []testExit{} limit = 3 batchNum := tc.exits[0].BatchNum path = fmt.Sprintf( "%s?batchNum=%d&limit=%d", endpoint, batchNum, limit, ) err = doGoodReqPaginated(path, historydb.OrderAsc, &testExitsResponse{}, appendIter) assert.NoError(t, err) batchNumExits := []testExit{} for i := 0; i < len(tc.exits); i++ { if tc.exits[i].BatchNum == batchNum { batchNumExits = append(batchNumExits, tc.exits[i]) } } assertExitAPIs(t, batchNumExits, fetchedExits) // OnlyPendingWithdraws fetchedExits = []testExit{} limit = 7 path = fmt.Sprintf( "%s?&onlyPendingWithdraws=%t&limit=%d", endpoint, true, limit, ) err = doGoodReqPaginated(path, historydb.OrderAsc, &testExitsResponse{}, appendIter) assert.NoError(t, err) pendingExits := []testExit{} for i := 0; i < len(tc.exits); i++ { if tc.exits[i].InstantWithdrawn == nil && tc.exits[i].DelayedWithdrawn == nil { pendingExits = append(pendingExits, tc.exits[i]) } } assertExitAPIs(t, pendingExits, fetchedExits) // Multiple filters fetchedExits = []testExit{} limit = 1 path = fmt.Sprintf( "%s?batchNum=%d&tokeId=%d&limit=%d", endpoint, batchNum, tokenID, limit, ) err = doGoodReqPaginated(path, historydb.OrderAsc, &testExitsResponse{}, appendIter) assert.NoError(t, err) mixedExits := []testExit{} flipedExits := []testExit{} for i := 0; i < len(tc.exits); i++ { if tc.exits[i].BatchNum == batchNum && tc.exits[i].Token.TokenID == tokenID { mixedExits = append(mixedExits, tc.exits[i]) } flipedExits = append(flipedExits, tc.exits[len(tc.exits)-1-i]) } assertExitAPIs(t, mixedExits, fetchedExits) // All, in reverse order fetchedExits = []testExit{} limit = 5 path = fmt.Sprintf("%s?limit=%d", endpoint, limit) err = doGoodReqPaginated(path, historydb.OrderDesc, &testExitsResponse{}, appendIter) assert.NoError(t, err) assertExitAPIs(t, flipedExits, fetchedExits) // 400 path = fmt.Sprintf( "%s?accountIndex=%s&hezEthereumAddress=%s", endpoint, idx, account.EthAddr, ) err = doBadReq("GET", path, nil, 400) assert.NoError(t, err) path = fmt.Sprintf("%s?tokenId=X", endpoint) err = doBadReq("GET", path, nil, 400) assert.NoError(t, err) // 404 path = fmt.Sprintf("%s?batchNum=999999", endpoint) err = doBadReq("GET", path, nil, 404) assert.NoError(t, err) path = fmt.Sprintf("%s?fromItem=1000999999", endpoint) err = doBadReq("GET", path, nil, 404) assert.NoError(t, err) } func TestGetExit(t *testing.T) { // Get all txs by their ID endpoint := apiURL + "exits/" fetchedExits := []testExit{} for _, exit := range tc.exits { fetchedExit := testExit{} assert.NoError( t, doGoodReq( "GET", fmt.Sprintf("%s%d/%s", endpoint, exit.BatchNum, exit.AccountIdx), nil, &fetchedExit, ), ) fetchedExits = append(fetchedExits, fetchedExit) } assertExitAPIs(t, tc.exits, fetchedExits) // 400 err := doBadReq("GET", endpoint+"1/haz:BOOM:1", nil, 400) assert.NoError(t, err) err = doBadReq("GET", endpoint+"-1/hez:BOOM:1", nil, 400) assert.NoError(t, err) // 404 err = doBadReq("GET", endpoint+"494/hez:XXX:1", nil, 404) assert.NoError(t, err) } func assertExitAPIs(t *testing.T, expected, actual []testExit) { require.Equal(t, len(expected), len(actual)) for i := 0; i < len(actual); i++ { //nolint len(actual) won't change within the loop actual[i].ItemID = 0 actual[i].Token.ItemID = 0 if expected[i].Token.USDUpdate == nil { assert.Equal(t, expected[i].Token.USDUpdate, actual[i].Token.USDUpdate) } else { assert.Equal(t, expected[i].Token.USDUpdate.Unix(), actual[i].Token.USDUpdate.Unix()) expected[i].Token.USDUpdate = actual[i].Token.USDUpdate } assert.Equal(t, expected[i], actual[i]) } }