/*
This file is part of GNU Taler
(C) 2015-2019 GNUnet e.V.
GNU Taler is free software; you can redistribute it and/or modify it under the
terms of the GNU General Public License as published by the Free Software
Foundation; either version 3, or (at your option) any later version.
GNU Taler is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with
GNU Taler; see the file COPYING. If not, see
*/
/**
* High-level wallet operations that should be indepentent from the underlying
* browser extension interface.
*/
/**
* Imports.
*/
import {
BalancesResponse,
codecForAny,
codecForDeleteTransactionRequest,
codecForRetryTransactionRequest,
codecForSetWalletDeviceIdRequest,
durationFromSpec,
durationMin,
getDurationRemaining,
isTimestampExpired,
j2s,
TalerErrorCode,
Timestamp,
timestampMin,
WalletNotification,
} from "@gnu-taler/taler-util";
import {
addBackupProvider,
codecForAddBackupProviderRequest,
codecForRemoveBackupProvider,
codecForRunBackupCycle,
getBackupInfo,
getBackupRecovery,
loadBackupRecovery,
processBackupForProvider,
removeBackupProvider,
runBackupCycle,
} from "./operations/backup/index.js";
import { exportBackup } from "./operations/backup/export.js";
import { getBalances } from "./operations/balance.js";
import {
createDepositGroup,
processDepositGroup,
trackDepositGroup,
} from "./operations/deposits.js";
import {
makeErrorDetails,
OperationFailedAndReportedError,
OperationFailedError,
} from "./errors.js";
import {
acceptExchangeTermsOfService,
getExchangeDetails,
getExchangeTrust,
updateExchangeFromUrl,
} from "./operations/exchanges.js";
import {
confirmPay,
preparePayForUri,
processDownloadProposal,
processPurchasePay,
} from "./operations/pay.js";
import { getPendingOperations } from "./operations/pending.js";
import { createRecoupGroup, processRecoupGroup } from "./operations/recoup.js";
import {
autoRefresh,
createRefreshGroup,
processRefreshGroup,
} from "./operations/refresh.js";
import {
abortFailedPayWithRefund,
applyRefund,
processPurchaseQueryRefund,
} from "./operations/refund.js";
import {
createReserve,
createTalerWithdrawReserve,
getFundingPaytoUris,
processReserve,
} from "./operations/reserves.js";
import {
ExchangeOperations,
InternalWalletState,
NotificationListener,
RecoupOperations,
} from "./common.js";
import {
runIntegrationTest,
testPay,
withdrawTestBalance,
} from "./operations/testing.js";
import { acceptTip, prepareTip, processTip } from "./operations/tip.js";
import {
deleteTransaction,
getTransactions,
retryTransaction,
} from "./operations/transactions.js";
import {
getExchangeWithdrawalInfo,
getWithdrawalDetailsForUri,
processWithdrawGroup,
} from "./operations/withdraw.js";
import {
AuditorTrustRecord,
CoinSourceType,
ReserveRecordStatus,
WalletStoresV1,
} from "./db.js";
import { NotificationType } from "@gnu-taler/taler-util";
import {
PendingTaskInfo,
PendingOperationsResponse,
PendingTaskType,
} from "./pending-types.js";
import { CoinDumpJson } from "@gnu-taler/taler-util";
import { codecForTransactionsRequest } from "@gnu-taler/taler-util";
import {
AcceptManualWithdrawalResult,
AcceptWithdrawalResponse,
codecForAbortPayWithRefundRequest,
codecForAcceptBankIntegratedWithdrawalRequest,
codecForAcceptExchangeTosRequest,
codecForAcceptManualWithdrawalRequet,
codecForAcceptTipRequest,
codecForAddExchangeRequest,
codecForApplyRefundRequest,
codecForConfirmPayRequest,
codecForCreateDepositGroupRequest,
codecForForceRefreshRequest,
codecForGetExchangeTosRequest,
codecForGetWithdrawalDetailsForAmountRequest,
codecForGetWithdrawalDetailsForUri,
codecForIntegrationTestArgs,
codecForPreparePayRequest,
codecForPrepareTipRequest,
codecForSetCoinSuspendedRequest,
codecForTestPayArgs,
codecForTrackDepositGroupRequest,
codecForWithdrawTestBalance,
CoreApiResponse,
ExchangeListItem,
ExchangesListRespose,
GetExchangeTosResult,
ManualWithdrawalDetails,
RefreshReason,
} from "@gnu-taler/taler-util";
import { AmountJson, Amounts } from "@gnu-taler/taler-util";
import { assertUnreachable } from "./util/assertUnreachable.js";
import { Logger } from "@gnu-taler/taler-util";
import { setWalletDeviceId } from "./operations/backup/state.js";
import { WalletCoreApiClient } from "./wallet-api-types.js";
import { AsyncOpMemoMap, AsyncOpMemoSingle } from "./util/asyncMemo.js";
import { CryptoApi, CryptoWorkerFactory } from "./crypto/workers/cryptoApi.js";
import { TimerGroup } from "./util/timer.js";
import {
AsyncCondition,
OpenedPromise,
openPromise,
} from "./util/promiseUtils.js";
import { DbAccess } from "./util/query.js";
import { HttpRequestLibrary } from "./util/http.js";
const builtinAuditors: AuditorTrustRecord[] = [
{
currency: "KUDOS",
auditorPub: "BW9DC48PHQY4NH011SHHX36DZZ3Q22Y6X7FZ1VD1CMZ2PTFZ6PN0",
auditorBaseUrl: "https://auditor.demo.taler.net/",
uids: ["5P25XF8TVQP9AW6VYGY2KV47WT5Y3ZXFSJAA570GJPX5SVJXKBVG"],
},
];
const logger = new Logger("wallet.ts");
async function getWithdrawalDetailsForAmount(
ws: InternalWalletState,
exchangeBaseUrl: string,
amount: AmountJson,
): Promise {
const wi = await getExchangeWithdrawalInfo(ws, exchangeBaseUrl, amount);
const paytoUris = wi.exchangeDetails.wireInfo.accounts.map(
(x) => x.payto_uri,
);
if (!paytoUris) {
throw Error("exchange is in invalid state");
}
return {
amountRaw: Amounts.stringify(amount),
amountEffective: Amounts.stringify(wi.selectedDenoms.totalCoinValue),
paytoUris,
tosAccepted: wi.termsOfServiceAccepted,
};
}
/**
* Execute one operation based on the pending operation info record.
*/
async function processOnePendingOperation(
ws: InternalWalletState,
pending: PendingTaskInfo,
forceNow = false,
): Promise {
logger.trace(`running pending ${JSON.stringify(pending, undefined, 2)}`);
switch (pending.type) {
case PendingTaskType.ExchangeUpdate:
await updateExchangeFromUrl(ws, pending.exchangeBaseUrl, forceNow);
break;
case PendingTaskType.Refresh:
await processRefreshGroup(ws, pending.refreshGroupId, forceNow);
break;
case PendingTaskType.Reserve:
await processReserve(ws, pending.reservePub, forceNow);
break;
case PendingTaskType.Withdraw:
await processWithdrawGroup(ws, pending.withdrawalGroupId, forceNow);
break;
case PendingTaskType.ProposalDownload:
await processDownloadProposal(ws, pending.proposalId, forceNow);
break;
case PendingTaskType.TipPickup:
await processTip(ws, pending.tipId, forceNow);
break;
case PendingTaskType.Pay:
await processPurchasePay(ws, pending.proposalId, forceNow);
break;
case PendingTaskType.RefundQuery:
await processPurchaseQueryRefund(ws, pending.proposalId, forceNow);
break;
case PendingTaskType.Recoup:
await processRecoupGroup(ws, pending.recoupGroupId, forceNow);
break;
case PendingTaskType.ExchangeCheckRefresh:
await autoRefresh(ws, pending.exchangeBaseUrl);
break;
case PendingTaskType.Deposit:
await processDepositGroup(ws, pending.depositGroupId);
break;
case PendingTaskType.Backup:
await processBackupForProvider(ws, pending.backupProviderBaseUrl);
break;
default:
assertUnreachable(pending);
}
}
/**
* Process pending operations.
*/
export async function runPending(
ws: InternalWalletState,
forceNow = false,
): Promise {
const pendingOpsResponse = await getPendingOperations(ws);
for (const p of pendingOpsResponse.pendingOperations) {
if (!forceNow && !isTimestampExpired(p.timestampDue)) {
continue;
}
try {
await processOnePendingOperation(ws, p, forceNow);
} catch (e) {
if (e instanceof OperationFailedAndReportedError) {
console.error(
"Operation failed:",
JSON.stringify(e.operationError, undefined, 2),
);
} else {
console.error(e);
}
}
}
}
export interface RetryLoopOpts {
/**
* Stop when the number of retries is exceeded for any pending
* operation.
*/
maxRetries?: number;
/**
* Stop the retry loop when all lifeness-giving pending operations
* are done.
*
* Defaults to false.
*/
stopWhenDone?: boolean;
}
/**
* Main retry loop of the wallet.
*
* Looks up pending operations from the wallet, runs them, repeat.
*/
async function runTaskLoop(
ws: InternalWalletState,
opts: RetryLoopOpts = {},
): Promise {
for (let iteration = 0; !ws.stopped; iteration++) {
const pending = await getPendingOperations(ws);
logger.trace(`pending operations: ${j2s(pending)}`);
let numGivingLiveness = 0;
let numDue = 0;
let minDue: Timestamp = { t_ms: "never" };
for (const p of pending.pendingOperations) {
minDue = timestampMin(minDue, p.timestampDue);
if (isTimestampExpired(p.timestampDue)) {
numDue++;
}
if (p.givesLifeness) {
numGivingLiveness++;
}
const maxRetries = opts.maxRetries;
if (maxRetries && p.retryInfo && p.retryInfo.retryCounter > maxRetries) {
logger.warn(
`stopping, as ${maxRetries} retries are exceeded in an operation of type ${p.type}`,
);
return;
}
}
if (opts.stopWhenDone && numGivingLiveness === 0 && iteration !== 0) {
logger.warn(`stopping, as no pending operations have lifeness`);
return;
}
// Make sure that we run tasks that don't give lifeness at least
// one time.
if (iteration !== 0 && numDue === 0) {
// We've executed pending, due operations at least one.
// Now we don't have any more operations available,
// and need to wait.
// Wait for at most 5 seconds to the next check.
const dt = durationMin(
durationFromSpec({
seconds: 5,
}),
getDurationRemaining(minDue),
);
logger.trace(`waiting for at most ${dt.d_ms} ms`);
const timeout = ws.timerGroup.resolveAfter(dt);
ws.notify({
type: NotificationType.WaitingForRetry,
numGivingLiveness,
numPending: pending.pendingOperations.length,
});
// Wait until either the timeout, or we are notified (via the latch)
// that more work might be available.
await Promise.race([timeout, ws.latch.wait()]);
} else {
logger.trace(
`running ${pending.pendingOperations.length} pending operations`,
);
for (const p of pending.pendingOperations) {
if (!isTimestampExpired(p.timestampDue)) {
continue;
}
try {
await processOnePendingOperation(ws, p);
} catch (e) {
if (e instanceof OperationFailedAndReportedError) {
logger.warn("operation processed resulted in reported error");
} else {
logger.error("Uncaught exception", e);
ws.notify({
type: NotificationType.InternalError,
message: "uncaught exception",
exception: e,
});
}
}
ws.notify({
type: NotificationType.PendingOperationProcessed,
});
}
}
}
logger.trace("exiting wallet retry loop");
}
/**
* Insert the hard-coded defaults for exchanges, coins and
* auditors into the database, unless these defaults have
* already been applied.
*/
async function fillDefaults(ws: InternalWalletState): Promise {
await ws.db
.mktx((x) => ({ config: x.config, auditorTrustStore: x.auditorTrust }))
.runReadWrite(async (tx) => {
let applied = false;
await tx.config.iter().forEach((x) => {
if (x.key == "currencyDefaultsApplied" && x.value == true) {
applied = true;
}
});
if (!applied) {
for (const c of builtinAuditors) {
await tx.auditorTrustStore.put(c);
}
}
});
}
/**
* Create a reserve, but do not flag it as confirmed yet.
*
* Adds the corresponding exchange as a trusted exchange if it is neither
* audited nor trusted already.
*/
async function acceptManualWithdrawal(
ws: InternalWalletState,
exchangeBaseUrl: string,
amount: AmountJson,
): Promise {
try {
const resp = await createReserve(ws, {
amount,
exchange: exchangeBaseUrl,
});
const exchangePaytoUris = await ws.db
.mktx((x) => ({
exchanges: x.exchanges,
exchangeDetails: x.exchangeDetails,
reserves: x.reserves,
}))
.runReadWrite((tx) => getFundingPaytoUris(tx, resp.reservePub));
return {
reservePub: resp.reservePub,
exchangePaytoUris,
};
} finally {
ws.latch.trigger();
}
}
async function getExchangeTos(
ws: InternalWalletState,
exchangeBaseUrl: string,
): Promise {
const { exchange, exchangeDetails } = await updateExchangeFromUrl(
ws,
exchangeBaseUrl,
);
const tos = exchangeDetails.termsOfServiceText;
const currentEtag = exchangeDetails.termsOfServiceLastEtag;
if (!tos || !currentEtag) {
throw Error("exchange is in invalid state");
}
return {
acceptedEtag: exchangeDetails.termsOfServiceAcceptedEtag,
currentEtag,
tos,
};
}
async function getExchanges(
ws: InternalWalletState,
): Promise {
const exchanges: ExchangeListItem[] = [];
await ws.db
.mktx((x) => ({
exchanges: x.exchanges,
exchangeDetails: x.exchangeDetails,
}))
.runReadOnly(async (tx) => {
const exchangeRecords = await tx.exchanges.iter().toArray();
for (const r of exchangeRecords) {
const dp = r.detailsPointer;
if (!dp) {
continue;
}
const { currency, masterPublicKey } = dp;
const exchangeDetails = await getExchangeDetails(tx, r.baseUrl);
if (!exchangeDetails) {
continue;
}
exchanges.push({
exchangeBaseUrl: r.baseUrl,
currency,
paytoUris: exchangeDetails.wireInfo.accounts.map((x) => x.payto_uri),
});
}
});
return { exchanges };
}
async function acceptWithdrawal(
ws: InternalWalletState,
talerWithdrawUri: string,
selectedExchange: string,
): Promise {
try {
return createTalerWithdrawReserve(ws, talerWithdrawUri, selectedExchange);
} finally {
ws.latch.trigger();
}
}
/**
* Inform the wallet that the status of a reserve has changed (e.g. due to a
* confirmation from the bank.).
*/
export async function handleNotifyReserve(
ws: InternalWalletState,
): Promise {
const reserves = await ws.db
.mktx((x) => ({
reserves: x.reserves,
}))
.runReadOnly(async (tx) => {
return tx.reserves.iter().toArray();
});
for (const r of reserves) {
if (r.reserveStatus === ReserveRecordStatus.WAIT_CONFIRM_BANK) {
try {
processReserve(ws, r.reservePub);
} catch (e) {
console.error(e);
}
}
}
}
async function setCoinSuspended(
ws: InternalWalletState,
coinPub: string,
suspended: boolean,
): Promise {
await ws.db
.mktx((x) => ({
coins: x.coins,
}))
.runReadWrite(async (tx) => {
const c = await tx.coins.get(coinPub);
if (!c) {
logger.warn(`coin ${coinPub} not found, won't suspend`);
return;
}
c.suspended = suspended;
await tx.coins.put(c);
});
}
/**
* Dump the public information of coins we have in an easy-to-process format.
*/
async function dumpCoins(ws: InternalWalletState): Promise {
const coinsJson: CoinDumpJson = { coins: [] };
await ws.db
.mktx((x) => ({
coins: x.coins,
denominations: x.denominations,
withdrawalGroups: x.withdrawalGroups,
}))
.runReadOnly(async (tx) => {
const coins = await tx.coins.iter().toArray();
for (const c of coins) {
const denom = await tx.denominations.get([
c.exchangeBaseUrl,
c.denomPubHash,
]);
if (!denom) {
console.error("no denom session found for coin");
continue;
}
const cs = c.coinSource;
let refreshParentCoinPub: string | undefined;
if (cs.type == CoinSourceType.Refresh) {
refreshParentCoinPub = cs.oldCoinPub;
}
let withdrawalReservePub: string | undefined;
if (cs.type == CoinSourceType.Withdraw) {
const ws = await tx.withdrawalGroups.get(cs.withdrawalGroupId);
if (!ws) {
console.error("no withdrawal session found for coin");
continue;
}
withdrawalReservePub = ws.reservePub;
}
coinsJson.coins.push({
coin_pub: c.coinPub,
denom_pub: c.denomPub,
denom_pub_hash: c.denomPubHash,
denom_value: Amounts.stringify(denom.value),
exchange_base_url: c.exchangeBaseUrl,
refresh_parent_coin_pub: refreshParentCoinPub,
remaining_value: Amounts.stringify(c.currentAmount),
withdrawal_reserve_pub: withdrawalReservePub,
coin_suspended: c.suspended,
});
}
});
return coinsJson;
}
/**
* Get an API client from an internal wallet state object.
*/
export async function getClientFromWalletState(
ws: InternalWalletState,
): Promise {
let id = 0;
const client: WalletCoreApiClient = {
async call(op, payload): Promise {
const res = await handleCoreApiRequest(ws, op, `${id++}`, payload);
switch (res.type) {
case "error":
throw new OperationFailedError(res.error);
case "response":
return res.result;
}
},
};
return client;
}
/**
* Implementation of the "wallet-core" API.
*/
async function dispatchRequestInternal(
ws: InternalWalletState,
operation: string,
payload: unknown,
): Promise> {
if (!ws.initCalled && operation !== "initWallet") {
throw Error(
`wallet must be initialized before running operation ${operation}`,
);
}
switch (operation) {
case "initWallet": {
ws.initCalled = true;
await fillDefaults(ws);
return {};
}
case "withdrawTestkudos": {
await withdrawTestBalance(
ws,
"TESTKUDOS:10",
"https://bank.test.taler.net/",
"https://exchange.test.taler.net/",
);
return {};
}
case "withdrawTestBalance": {
const req = codecForWithdrawTestBalance().decode(payload);
await withdrawTestBalance(
ws,
req.amount,
req.bankBaseUrl,
req.exchangeBaseUrl,
);
return {};
}
case "runIntegrationTest": {
const req = codecForIntegrationTestArgs().decode(payload);
await runIntegrationTest(ws, req);
return {};
}
case "testPay": {
const req = codecForTestPayArgs().decode(payload);
await testPay(ws, req);
return {};
}
case "getTransactions": {
const req = codecForTransactionsRequest().decode(payload);
return await getTransactions(ws, req);
}
case "addExchange": {
const req = codecForAddExchangeRequest().decode(payload);
await updateExchangeFromUrl(ws, req.exchangeBaseUrl, req.forceUpdate);
return {};
}
case "listExchanges": {
return await getExchanges(ws);
}
case "getWithdrawalDetailsForUri": {
const req = codecForGetWithdrawalDetailsForUri().decode(payload);
return await getWithdrawalDetailsForUri(ws, req.talerWithdrawUri);
}
case "acceptManualWithdrawal": {
const req = codecForAcceptManualWithdrawalRequet().decode(payload);
const res = await acceptManualWithdrawal(
ws,
req.exchangeBaseUrl,
Amounts.parseOrThrow(req.amount),
);
return res;
}
case "getWithdrawalDetailsForAmount": {
const req = codecForGetWithdrawalDetailsForAmountRequest().decode(
payload,
);
return await getWithdrawalDetailsForAmount(
ws,
req.exchangeBaseUrl,
Amounts.parseOrThrow(req.amount),
);
}
case "getBalances": {
return await getBalances(ws);
}
case "getPendingOperations": {
return await getPendingOperations(ws);
}
case "setExchangeTosAccepted": {
const req = codecForAcceptExchangeTosRequest().decode(payload);
await acceptExchangeTermsOfService(ws, req.exchangeBaseUrl, req.etag);
return {};
}
case "applyRefund": {
const req = codecForApplyRefundRequest().decode(payload);
return await applyRefund(ws, req.talerRefundUri);
}
case "acceptBankIntegratedWithdrawal": {
const req = codecForAcceptBankIntegratedWithdrawalRequest().decode(
payload,
);
return await acceptWithdrawal(
ws,
req.talerWithdrawUri,
req.exchangeBaseUrl,
);
}
case "getExchangeTos": {
const req = codecForGetExchangeTosRequest().decode(payload);
return getExchangeTos(ws, req.exchangeBaseUrl);
}
case "retryPendingNow": {
await runPending(ws, true);
return {};
}
// FIXME: Deprecate one of the aliases!
case "preparePayForUri":
case "preparePay": {
const req = codecForPreparePayRequest().decode(payload);
return await preparePayForUri(ws, req.talerPayUri);
}
case "confirmPay": {
const req = codecForConfirmPayRequest().decode(payload);
return await confirmPay(ws, req.proposalId, req.sessionId);
}
case "abortFailedPayWithRefund": {
const req = codecForAbortPayWithRefundRequest().decode(payload);
await abortFailedPayWithRefund(ws, req.proposalId);
return {};
}
case "dumpCoins": {
return await dumpCoins(ws);
}
case "setCoinSuspended": {
const req = codecForSetCoinSuspendedRequest().decode(payload);
await setCoinSuspended(ws, req.coinPub, req.suspended);
return {};
}
case "forceRefresh": {
const req = codecForForceRefreshRequest().decode(payload);
const coinPubs = req.coinPubList.map((x) => ({ coinPub: x }));
const refreshGroupId = await ws.db
.mktx((x) => ({
refreshGroups: x.refreshGroups,
denominations: x.denominations,
coins: x.coins,
}))
.runReadWrite(async (tx) => {
return await createRefreshGroup(
ws,
tx,
coinPubs,
RefreshReason.Manual,
);
});
processRefreshGroup(ws, refreshGroupId.refreshGroupId, true).catch(
(x) => {
logger.error(x);
},
);
return {
refreshGroupId,
};
}
case "prepareTip": {
const req = codecForPrepareTipRequest().decode(payload);
return await prepareTip(ws, req.talerTipUri);
}
case "acceptTip": {
const req = codecForAcceptTipRequest().decode(payload);
await acceptTip(ws, req.walletTipId);
return {};
}
case "exportBackupPlain": {
return exportBackup(ws);
}
case "addBackupProvider": {
const req = codecForAddBackupProviderRequest().decode(payload);
await addBackupProvider(ws, req);
return {};
}
case "runBackupCycle": {
const req = codecForRunBackupCycle().decode(payload);
await runBackupCycle(ws, req);
return {};
}
case "removeBackupProvider": {
const req = codecForRemoveBackupProvider().decode(payload);
await removeBackupProvider(ws, req);
return {};
}
case "exportBackupRecovery": {
const resp = await getBackupRecovery(ws);
return resp;
}
case "importBackupRecovery": {
const req = codecForAny().decode(payload);
await loadBackupRecovery(ws, req);
return {};
}
case "getBackupInfo": {
const resp = await getBackupInfo(ws);
return resp;
}
case "createDepositGroup": {
const req = codecForCreateDepositGroupRequest().decode(payload);
return await createDepositGroup(ws, req);
}
case "trackDepositGroup": {
const req = codecForTrackDepositGroupRequest().decode(payload);
return trackDepositGroup(ws, req);
}
case "deleteTransaction": {
const req = codecForDeleteTransactionRequest().decode(payload);
await deleteTransaction(ws, req.transactionId);
return {};
}
case "retryTransaction": {
const req = codecForRetryTransactionRequest().decode(payload);
await retryTransaction(ws, req.transactionId);
return {};
}
case "setWalletDeviceId": {
const req = codecForSetWalletDeviceIdRequest().decode(payload);
await setWalletDeviceId(ws, req.walletDeviceId);
return {};
}
case "listCurrencies": {
return await ws.db
.mktx((x) => ({
auditorTrust: x.auditorTrust,
exchangeTrust: x.exchangeTrust,
}))
.runReadOnly(async (tx) => {
const trustedAuditors = await tx.auditorTrust.iter().toArray();
const trustedExchanges = await tx.exchangeTrust.iter().toArray();
return {
trustedAuditors: trustedAuditors.map((x) => ({
currency: x.currency,
auditorBaseUrl: x.auditorBaseUrl,
auditorPub: x.auditorPub,
})),
trustedExchanges: trustedExchanges.map((x) => ({
currency: x.currency,
exchangeBaseUrl: x.exchangeBaseUrl,
exchangeMasterPub: x.exchangeMasterPub,
})),
};
});
}
}
throw OperationFailedError.fromCode(
TalerErrorCode.WALLET_CORE_API_OPERATION_UNKNOWN,
"unknown operation",
{
operation,
},
);
}
/**
* Handle a request to the wallet-core API.
*/
export async function handleCoreApiRequest(
ws: InternalWalletState,
operation: string,
id: string,
payload: unknown,
): Promise {
try {
const result = await dispatchRequestInternal(ws, operation, payload);
return {
type: "response",
operation,
id,
result,
};
} catch (e) {
if (
e instanceof OperationFailedError ||
e instanceof OperationFailedAndReportedError
) {
return {
type: "error",
operation,
id,
error: e.operationError,
};
} else {
return {
type: "error",
operation,
id,
error: makeErrorDetails(
TalerErrorCode.WALLET_UNEXPECTED_EXCEPTION,
`unexpected exception: ${e}`,
{},
),
};
}
}
}
/**
* Public handle to a running wallet.
*/
export class Wallet {
private ws: InternalWalletState;
private _client: WalletCoreApiClient;
private constructor(
db: DbAccess,
http: HttpRequestLibrary,
cryptoWorkerFactory: CryptoWorkerFactory,
) {
this.ws = new InternalWalletStateImpl(db, http, cryptoWorkerFactory);
}
get client() {
return this._client;
}
static async create(
db: DbAccess,
http: HttpRequestLibrary,
cryptoWorkerFactory: CryptoWorkerFactory,
): Promise {
const w = new Wallet(db, http, cryptoWorkerFactory);
w._client = await getClientFromWalletState(w.ws);
return w;
}
addNotificationListener(f: (n: WalletNotification) => void): void {
return this.ws.addNotificationListener(f);
}
stop(): void {
this.ws.stop();
}
runPending(forceNow: boolean = false) {
return runPending(this.ws, forceNow);
}
runTaskLoop(opts?: RetryLoopOpts) {
return runTaskLoop(this.ws, opts);
}
handleCoreApiRequest(
operation: string,
id: string,
payload: unknown,
): Promise {
return handleCoreApiRequest(this.ws, operation, id, payload);
}
}
/**
* Internal state of the wallet.
*
* This ties together all the operation implementations.
*/
class InternalWalletStateImpl implements InternalWalletState {
memoProcessReserve: AsyncOpMemoMap = new AsyncOpMemoMap();
memoMakePlanchet: AsyncOpMemoMap = new AsyncOpMemoMap();
memoGetPending: AsyncOpMemoSingle = new AsyncOpMemoSingle();
memoGetBalance: AsyncOpMemoSingle = new AsyncOpMemoSingle();
memoProcessRefresh: AsyncOpMemoMap = new AsyncOpMemoMap();
memoProcessRecoup: AsyncOpMemoMap = new AsyncOpMemoMap();
memoProcessDeposit: AsyncOpMemoMap = new AsyncOpMemoMap();
cryptoApi: CryptoApi;
timerGroup: TimerGroup = new TimerGroup();
latch = new AsyncCondition();
stopped = false;
listeners: NotificationListener[] = [];
initCalled: boolean = false;
exchangeOps: ExchangeOperations = {
getExchangeDetails,
getExchangeTrust,
updateExchangeFromUrl,
};
recoupOps: RecoupOperations = {
createRecoupGroup: createRecoupGroup,
processRecoupGroup: processRecoupGroup,
};
/**
* Promises that are waiting for a particular resource.
*/
private resourceWaiters: Record[]> = {};
/**
* Resources that are currently locked.
*/
private resourceLocks: Set = new Set();
constructor(
// FIXME: Make this a getter and make
// the actual value nullable.
// Check if we are in a DB migration / garbage collection
// and throw an error in that case.
public db: DbAccess,
public http: HttpRequestLibrary,
cryptoWorkerFactory: CryptoWorkerFactory,
) {
this.cryptoApi = new CryptoApi(cryptoWorkerFactory);
}
notify(n: WalletNotification): void {
logger.trace("Notification", n);
for (const l of this.listeners) {
const nc = JSON.parse(JSON.stringify(n));
setTimeout(() => {
l(nc);
}, 0);
}
}
addNotificationListener(f: (n: WalletNotification) => void): void {
this.listeners.push(f);
}
/**
* Stop ongoing processing.
*/
stop(): void {
this.stopped = true;
this.timerGroup.stopCurrentAndFutureTimers();
this.cryptoApi.stop();
}
async runUntilDone(
req: {
maxRetries?: number;
} = {},
): Promise {
await runTaskLoop(this, { ...req, stopWhenDone: true });
}
/**
* Run an async function after acquiring a list of locks, identified
* by string tokens.
*/
async runSequentialized(tokens: string[], f: () => Promise) {
// Make sure locks are always acquired in the same order
tokens = [...tokens].sort();
for (const token of tokens) {
if (this.resourceLocks.has(token)) {
const p = openPromise();
let waitList = this.resourceWaiters[token];
if (!waitList) {
waitList = this.resourceWaiters[token] = [];
}
waitList.push(p);
await p.promise;
}
this.resourceLocks.add(token);
}
try {
logger.trace(`begin exclusive execution on ${JSON.stringify(tokens)}`);
const result = await f();
logger.trace(`end exclusive execution on ${JSON.stringify(tokens)}`);
return result;
} finally {
for (const token of tokens) {
this.resourceLocks.delete(token);
let waiter = (this.resourceWaiters[token] ?? []).shift();
if (waiter) {
waiter.resolve();
}
}
}
}
}