import { SagaIterator, delay } from 'redux-saga'; import { select, put, call, take, race, fork, cancel, takeEvery } from 'redux-saga/effects'; import { getOrigin, getPaymentAddress } from 'selectors/swap'; import { setUnitMeta, setCurrentTo, setCurrentValue, TypeKeys as TransactionTK, reset } from 'actions/transaction'; import { TypeKeys as WalletTK, setTokenBalancePending } from 'actions/wallet'; import { AppState } from 'reducers'; import { showNotification } from 'actions/notifications'; import { isSupportedUnit, isNetworkUnit } from 'selectors/config'; import { showLiteSend, configureLiteSend } from 'actions/swap'; import { TypeKeys as SwapTK } from 'actions/swap/constants'; import { isUnlocked, isEtherBalancePending } from 'selectors/wallet'; type SwapState = AppState['swap']; export function* configureLiteSendSaga(): SagaIterator { const { amount, label }: SwapState['origin'] = yield select(getOrigin); const paymentAddress: SwapState['paymentAddress'] = yield call(fetchPaymentAddress); if (!paymentAddress) { yield put(showNotification('danger', 'Could not fetch payment address')); return yield put(showLiteSend(false)); } const supportedUnit: boolean = yield select(isSupportedUnit, label); if (!supportedUnit) { return yield put(showLiteSend(false)); } const unlocked: boolean = yield select(isUnlocked); yield put(showLiteSend(true)); // wait for wallet to be unlocked to continue if (!unlocked) { yield take(WalletTK.WALLET_SET); } const isNetwrkUnit = yield select(isNetworkUnit, label); //if it's a token, manually scan for that tokens balance and wait for it to resolve if (!isNetwrkUnit) { yield put(setTokenBalancePending({ tokenSymbol: label })); yield take([ WalletTK.WALLET_SET_TOKEN_BALANCE_FULFILLED, WalletTK.WALLET_SET_TOKEN_BALANCE_REJECTED ]); } else { const etherBalanceResolving: boolean = yield select(isEtherBalancePending); if (etherBalanceResolving) { yield take([WalletTK.WALLET_SET_BALANCE_FULFILLED, WalletTK.WALLET_SET_BALANCE_REJECTED]); } } yield put(setUnitMeta(label)); yield put(setCurrentValue(amount.toString())); yield put(setCurrentTo(paymentAddress)); } export function* handleConfigureLiteSend(): SagaIterator { while (true) { const liteSendProc = yield fork(configureLiteSendSaga); const result = yield race({ transactionReset: take(TransactionTK.RESET), userNavigatedAway: take(WalletTK.WALLET_RESET), bityPollingFinished: take(SwapTK.SWAP_STOP_POLL_BITY_ORDER_STATUS), shapeshiftPollingFinished: take(SwapTK.SWAP_STOP_POLL_SHAPESHIFT_ORDER_STATUS) }); //if polling is finished we should clear state and hide this tab if (result.bityPollingFinished || result.shapeshiftPollingFinished) { //clear transaction state and cancel saga yield cancel(liteSendProc); yield put(showLiteSend(false)); return yield put(reset()); } if (result.transactionReset) { yield cancel(liteSendProc); } // if wallet reset is called, that means the user navigated away from the page, so we cancel everything if (result.userNavigatedAway) { yield cancel(liteSendProc); yield put(showLiteSend(false)); return yield put(configureLiteSend()); } // else the user just swapped to a new wallet, and we'll race against liteSend again to re-apply // the same transaction parameters again } } export function* fetchPaymentAddress(): SagaIterator { const MAX_RETRIES = 5; let currentTry = 0; while (currentTry <= MAX_RETRIES) { yield call(delay, 500); const paymentAddress: SwapState['paymentAddress'] = yield select(getPaymentAddress); if (paymentAddress) { return paymentAddress; } currentTry++; } yield put(showNotification('danger', 'Payment address not found')); return false; } export default function* swapLiteSend(): SagaIterator { yield takeEvery(SwapTK.SWAP_CONFIGURE_LITE_SEND, handleConfigureLiteSend); }