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/*
 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 <http://www.gnu.org/licenses/>
 */

/**
 * High-level wallet operations that should be indepentent from the underlying
 * browser extension interface.
 */

/**
 * Imports.
 */
import { CryptoWorkerFactory } from "./crypto/workers/cryptoApi";
import { HttpRequestLibrary } from "./util/http";
import { Database } from "./util/query";

import { Amounts, AmountJson } from "./util/amounts";

import {
  getExchangeWithdrawalInfo,
  getWithdrawalDetailsForUri,
} from "./operations/withdraw";

import {
  preparePayForUri,
  refuseProposal,
  confirmPay,
  processDownloadProposal,
  processPurchasePay,
} from "./operations/pay";

import {
  CoinRecord,
  CurrencyRecord,
  DenominationRecord,
  ExchangeRecord,
  PurchaseRecord,
  ReserveRecord,
  Stores,
  ReserveRecordStatus,
  CoinSourceType,
  RefundState,
} from "./types/dbTypes";
import { CoinDumpJson, WithdrawUriInfoResponse } from "./types/talerTypes";
import {
  BenchmarkResult,
  ConfirmPayResult,
  ReturnCoinsRequest,
  SenderWireInfos,
  TipStatus,
  PreparePayResult,
  AcceptWithdrawalResponse,
  PurchaseDetails,
  RefreshReason,
  ExchangeListItem,
  ExchangesListRespose,
  ManualWithdrawalDetails,
  GetExchangeTosResult,
  AcceptManualWithdrawalResult,
  BalancesResponse,
} from "./types/walletTypes";
import { Logger } from "./util/logging";

import { assertUnreachable } from "./util/assertUnreachable";

import {
  updateExchangeFromUrl,
  getExchangeTrust,
  getExchangePaytoUri,
  acceptExchangeTermsOfService,
} from "./operations/exchanges";
import {
  processReserve,
  createTalerWithdrawReserve,
  forceQueryReserve,
  getFundingPaytoUris,
} from "./operations/reserves";

import { InternalWalletState } from "./operations/state";
import { createReserve } from "./operations/reserves";
import { processRefreshGroup, createRefreshGroup } from "./operations/refresh";
import { processWithdrawGroup } from "./operations/withdraw";
import { getPendingOperations } from "./operations/pending";
import { getBalances } from "./operations/balance";
import { acceptTip, getTipStatus, processTip } from "./operations/tip";
import { TimerGroup } from "./util/timer";
import { AsyncCondition } from "./util/promiseUtils";
import { AsyncOpMemoSingle } from "./util/asyncMemo";
import {
  PendingOperationInfo,
  PendingOperationsResponse,
  PendingOperationType,
} from "./types/pending";
import { WalletNotification, NotificationType } from "./types/notifications";
import { processPurchaseQueryRefund, applyRefund } from "./operations/refund";
import { durationMin, Duration } from "./util/time";
import { processRecoupGroup } from "./operations/recoup";
import { OperationFailedAndReportedError } from "./operations/errors";
import {
  TransactionsRequest,
  TransactionsResponse,
} from "./types/transactions";
import { getTransactions } from "./operations/transactions";

const builtinCurrencies: CurrencyRecord[] = [
  {
    auditors: [
      {
        auditorPub: "BW9DC48PHQY4NH011SHHX36DZZ3Q22Y6X7FZ1VD1CMZ2PTFZ6PN0",
        baseUrl: "https://auditor.demo.taler.net/",
        expirationStamp: new Date(2027, 1).getTime(),
      },
    ],
    exchanges: [],
    fractionalDigits: 2,
    name: "KUDOS",
  },
];

const logger = new Logger("wallet.ts");

/**
 * The platform-independent wallet implementation.
 */
export class Wallet {
  private ws: InternalWalletState;
  private timerGroup: TimerGroup = new TimerGroup();
  private latch = new AsyncCondition();
  private stopped = false;
  private memoRunRetryLoop = new AsyncOpMemoSingle<void>();

  get db(): Database {
    return this.ws.db;
  }

  constructor(
    db: Database,
    http: HttpRequestLibrary,
    cryptoWorkerFactory: CryptoWorkerFactory,
  ) {
    this.ws = new InternalWalletState(db, http, cryptoWorkerFactory);
  }

  getExchangePaytoUri(
    exchangeBaseUrl: string,
    supportedTargetTypes: string[],
  ): Promise<string> {
    return getExchangePaytoUri(this.ws, exchangeBaseUrl, supportedTargetTypes);
  }

  async getWithdrawalDetailsForAmount(
    exchangeBaseUrl: string,
    amount: AmountJson,
  ): Promise<ManualWithdrawalDetails> {
    const wi = await getExchangeWithdrawalInfo(
      this.ws,
      exchangeBaseUrl,
      amount,
    );
    const paytoUris = wi.exchangeInfo.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,
    };
  }

  addNotificationListener(f: (n: WalletNotification) => void): void {
    this.ws.addNotificationListener(f);
  }

  /**
   * Execute one operation based on the pending operation info record.
   */
  async processOnePendingOperation(
    pending: PendingOperationInfo,
    forceNow = false,
  ): Promise<void> {
    logger.trace(`running pending ${JSON.stringify(pending, undefined, 2)}`);
    switch (pending.type) {
      case PendingOperationType.Bug:
        // Nothing to do, will just be displayed to the user
        return;
      case PendingOperationType.ExchangeUpdate:
        await updateExchangeFromUrl(this.ws, pending.exchangeBaseUrl, forceNow);
        break;
      case PendingOperationType.Refresh:
        await processRefreshGroup(this.ws, pending.refreshGroupId, forceNow);
        break;
      case PendingOperationType.Reserve:
        await processReserve(this.ws, pending.reservePub, forceNow);
        break;
      case PendingOperationType.Withdraw:
        await processWithdrawGroup(
          this.ws,
          pending.withdrawalGroupId,
          forceNow,
        );
        break;
      case PendingOperationType.ProposalChoice:
        // Nothing to do, user needs to accept/reject
        break;
      case PendingOperationType.ProposalDownload:
        await processDownloadProposal(this.ws, pending.proposalId, forceNow);
        break;
      case PendingOperationType.TipChoice:
        // Nothing to do, user needs to accept/reject
        break;
      case PendingOperationType.TipPickup:
        await processTip(this.ws, pending.tipId, forceNow);
        break;
      case PendingOperationType.Pay:
        await processPurchasePay(this.ws, pending.proposalId, forceNow);
        break;
      case PendingOperationType.RefundQuery:
        await processPurchaseQueryRefund(this.ws, pending.proposalId, forceNow);
        break;
      case PendingOperationType.Recoup:
        await processRecoupGroup(this.ws, pending.recoupGroupId, forceNow);
        break;
      default:
        assertUnreachable(pending);
    }
  }

  /**
   * Process pending operations.
   */
  public async runPending(forceNow = false): Promise<void> {
    const onlyDue = !forceNow;
    const pendingOpsResponse = await this.getPendingOperations({ onlyDue });
    for (const p of pendingOpsResponse.pendingOperations) {
      try {
        await this.processOnePendingOperation(p, forceNow);
      } catch (e) {
        if (e instanceof OperationFailedAndReportedError) {
          console.error(
            "Operation failed:",
            JSON.stringify(e.operationError, undefined, 2),
          );
        } else {
          console.error(e);
        }
      }
    }
  }

  /**
   * Run the wallet until there are no more pending operations that give
   * liveness left.  The wallet will be in a stopped state when this function
   * returns without resolving to an exception.
   */
  public async runUntilDone(): Promise<void> {
    let done = false;
    const p = new Promise((resolve, reject) => {
      // Run this asynchronously
      this.addNotificationListener((n) => {
        if (done) {
          return;
        }
        if (
          n.type === NotificationType.WaitingForRetry &&
          n.numGivingLiveness == 0
        ) {
          done = true;
          logger.trace("no liveness-giving operations left");
          resolve();
        }
      });
      this.runRetryLoop().catch((e) => {
        console.log("exception in wallet retry loop");
        reject(e);
      });
    });
    await p;
  }

  /**
   * Run the wallet until there are no more pending operations that give
   * liveness left.  The wallet will be in a stopped state when this function
   * returns without resolving to an exception.
   */
  public async runUntilDoneAndStop(): Promise<void> {
    await this.runUntilDone();
    logger.trace("stopping after liveness-giving operations done");
    this.stop();
  }

  /**
   * Process pending operations and wait for scheduled operations in
   * a loop until the wallet is stopped explicitly.
   */
  public async runRetryLoop(): Promise<void> {
    // Make sure we only run one main loop at a time.
    return this.memoRunRetryLoop.memo(async () => {
      try {
        await this.runRetryLoopImpl();
      } catch (e) {
        console.error("error during retry loop execution", e);
        throw e;
      }
    });
  }

  private async runRetryLoopImpl(): Promise<void> {
    while (!this.stopped) {
      const pending = await this.getPendingOperations({ onlyDue: true });
      if (pending.pendingOperations.length === 0) {
        const allPending = await this.getPendingOperations({ onlyDue: false });
        let numPending = 0;
        let numGivingLiveness = 0;
        for (const p of allPending.pendingOperations) {
          numPending++;
          if (p.givesLifeness) {
            numGivingLiveness++;
          }
        }
        let dt: Duration;
        if (
          allPending.pendingOperations.length === 0 ||
          allPending.nextRetryDelay.d_ms === Number.MAX_SAFE_INTEGER
        ) {
          // Wait for 5 seconds
          dt = { d_ms: 5000 };
        } else {
          dt = durationMin({ d_ms: 5000 }, allPending.nextRetryDelay);
        }
        const timeout = this.timerGroup.resolveAfter(dt);
        this.ws.notify({
          type: NotificationType.WaitingForRetry,
          numGivingLiveness,
          numPending,
        });
        await Promise.race([timeout, this.latch.wait()]);
        console.log("timeout done");
      } else {
        // FIXME: maybe be a bit smarter about executing these
        // operations in parallel?
        for (const p of pending.pendingOperations) {
          try {
            await this.processOnePendingOperation(p);
          } catch (e) {
            if (e instanceof OperationFailedAndReportedError) {
              logger.warn("operation processed resulted in reported error");
            } else {
              console.error("Uncaught exception", e);
              this.ws.notify({
                type: NotificationType.InternalError,
                message: "uncaught exception",
                exception: e,
              });
            }
          }
          this.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 fillDefaults(): Promise<void> {
    await this.db.runWithWriteTransaction(
      [Stores.config, Stores.currencies],
      async (tx) => {
        let applied = false;
        await tx.iter(Stores.config).forEach((x) => {
          if (x.key == "currencyDefaultsApplied" && x.value == true) {
            applied = true;
          }
        });
        if (!applied) {
          for (const c of builtinCurrencies) {
            await tx.put(Stores.currencies, c);
          }
        }
      },
    );
  }

  /**
   * Check if a payment for the given taler://pay/ URI is possible.
   *
   * If the payment is possible, the signature are already generated but not
   * yet send to the merchant.
   */
  async preparePayForUri(talerPayUri: string): Promise<PreparePayResult> {
    return preparePayForUri(this.ws, talerPayUri);
  }

  /**
   * Add a contract to the wallet and sign coins, and send them.
   */
  async confirmPay(
    proposalId: string,
    sessionIdOverride: string | undefined,
  ): Promise<ConfirmPayResult> {
    try {
      return await confirmPay(this.ws, proposalId, sessionIdOverride);
    } finally {
      this.latch.trigger();
    }
  }

  /**
   * First fetch information requred to withdraw from the reserve,
   * then deplete the reserve, withdrawing coins until it is empty.
   *
   * The returned promise resolves once the reserve is set to the
   * state DORMANT.
   */
  async processReserve(reservePub: string): Promise<void> {
    try {
      return await processReserve(this.ws, reservePub);
    } finally {
      this.latch.trigger();
    }
  }

  /**
   * 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 acceptManualWithdrawal(
    exchangeBaseUrl: string,
    amount: AmountJson,
  ): Promise<AcceptManualWithdrawalResult> {
    try {
      const resp = await createReserve(this.ws, {
        amount,
        exchange: exchangeBaseUrl,
      });
      const exchangePaytoUris = await this.db.runWithReadTransaction(
        [Stores.exchanges, Stores.reserves],
        (tx) => getFundingPaytoUris(tx, resp.reservePub),
      );
      return {
        reservePub: resp.reservePub,
        exchangePaytoUris,
      };
    } finally {
      this.latch.trigger();
    }
  }

  /**
   * Check if and how an exchange is trusted and/or audited.
   */
  async getExchangeTrust(
    exchangeInfo: ExchangeRecord,
  ): Promise<{ isTrusted: boolean; isAudited: boolean }> {
    return getExchangeTrust(this.ws, exchangeInfo);
  }

  async getWithdrawalDetailsForUri(talerWithdrawUri: string): Promise<WithdrawUriInfoResponse> {
    return getWithdrawalDetailsForUri(this.ws, talerWithdrawUri);
  }

  /**
   * Update or add exchange DB entry by fetching the /keys and /wire information.
   * Optionally link the reserve entry to the new or existing
   * exchange entry in then DB.
   */
  async updateExchangeFromUrl(
    baseUrl: string,
    force = false,
  ): Promise<ExchangeRecord> {
    try {
      return updateExchangeFromUrl(this.ws, baseUrl, force);
    } finally {
      this.latch.trigger();
    }
  }

  async getExchangeTos(exchangeBaseUrl: string): Promise<GetExchangeTosResult> {
    const exchange = await this.updateExchangeFromUrl(exchangeBaseUrl);
    const tos = exchange.termsOfServiceText;
    const currentEtag = exchange.termsOfServiceLastEtag;
    if (!tos || !currentEtag) {
      throw Error("exchange is in invalid state");
    }
    return {
      acceptedEtag: exchange.termsOfServiceAcceptedEtag,
      currentEtag,
      tos,
    };
  }

  /**
   * Get detailed balance information, sliced by exchange and by currency.
   */
  async getBalances(): Promise<BalancesResponse> {
    return this.ws.memoGetBalance.memo(() => getBalances(this.ws));
  }

  async refresh(oldCoinPub: string): Promise<void> {
    try {
      const refreshGroupId = await this.db.runWithWriteTransaction(
        [Stores.refreshGroups],
        async (tx) => {
          return await createRefreshGroup(
            this.ws,
            tx,
            [{ coinPub: oldCoinPub }],
            RefreshReason.Manual,
          );
        },
      );
      await processRefreshGroup(this.ws, refreshGroupId.refreshGroupId);
    } catch (e) {
      this.latch.trigger();
    }
  }

  async findExchange(
    exchangeBaseUrl: string,
  ): Promise<ExchangeRecord | undefined> {
    return await this.db.get(Stores.exchanges, exchangeBaseUrl);
  }

  async getPendingOperations({ onlyDue = false } = {}): Promise<
    PendingOperationsResponse
  > {
    return this.ws.memoGetPending.memo(() =>
      getPendingOperations(this.ws, { onlyDue }),
    );
  }

  async acceptExchangeTermsOfService(
    exchangeBaseUrl: string,
    etag: string | undefined,
  ): Promise<void> {
    return acceptExchangeTermsOfService(this.ws, exchangeBaseUrl, etag);
  }

  async getDenoms(exchangeUrl: string): Promise<DenominationRecord[]> {
    const denoms = await this.db
      .iterIndex(Stores.denominations.exchangeBaseUrlIndex, exchangeUrl)
      .toArray();
    return denoms;
  }

  /**
   * Get all exchanges known to the exchange.
   *
   * @deprecated Use getExchanges instead
   */
  async getExchangeRecords(): Promise<ExchangeRecord[]> {
    return await this.db.iter(Stores.exchanges).toArray();
  }

  async getExchanges(): Promise<ExchangesListRespose> {
    const exchanges: (ExchangeListItem | undefined)[] = await this.db
      .iter(Stores.exchanges)
      .map((x) => {
        const details = x.details;
        if (!details) {
          return undefined;
        }
        if (!x.addComplete) {
          return undefined;
        }
        if (!x.wireInfo) {
          return undefined;
        }
        return {
          exchangeBaseUrl: x.baseUrl,
          currency: details.currency,
          paytoUris: x.wireInfo.accounts.map((x) => x.payto_uri),
        };
      });
    return {
      exchanges: exchanges.filter((x) => !!x) as ExchangeListItem[],
    };
  }

  async getCurrencies(): Promise<CurrencyRecord[]> {
    return await this.db.iter(Stores.currencies).toArray();
  }

  async updateCurrency(currencyRecord: CurrencyRecord): Promise<void> {
    logger.trace("updating currency to", currencyRecord);
    await this.db.put(Stores.currencies, currencyRecord);
  }

  async getReserves(exchangeBaseUrl?: string): Promise<ReserveRecord[]> {
    if (exchangeBaseUrl) {
      return await this.db
        .iter(Stores.reserves)
        .filter((r) => r.exchangeBaseUrl === exchangeBaseUrl);
    } else {
      return await this.db.iter(Stores.reserves).toArray();
    }
  }

  async getCoinsForExchange(exchangeBaseUrl: string): Promise<CoinRecord[]> {
    return await this.db
      .iter(Stores.coins)
      .filter((c) => c.exchangeBaseUrl === exchangeBaseUrl);
  }

  async getCoins(): Promise<CoinRecord[]> {
    return await this.db.iter(Stores.coins).toArray();
  }

  /**
   * Stop ongoing processing.
   */
  stop(): void {
    this.stopped = true;
    this.timerGroup.stopCurrentAndFutureTimers();
    this.ws.cryptoApi.stop();
  }

  async getSenderWireInfos(): Promise<SenderWireInfos> {
    const m: { [url: string]: Set<string> } = {};

    await this.db.iter(Stores.exchanges).forEach((x) => {
      const wi = x.wireInfo;
      if (!wi) {
        return;
      }
      const s = (m[x.baseUrl] = m[x.baseUrl] || new Set());
      Object.keys(wi.feesForType).map((k) => s.add(k));
    });

    const exchangeWireTypes: { [url: string]: string[] } = {};
    Object.keys(m).map((e) => {
      exchangeWireTypes[e] = Array.from(m[e]);
    });

    const senderWiresSet: Set<string> = new Set();
    await this.db.iter(Stores.senderWires).forEach((x) => {
      senderWiresSet.add(x.paytoUri);
    });

    const senderWires: string[] = Array.from(senderWiresSet);

    return {
      exchangeWireTypes,
      senderWires,
    };
  }

  /**
   * Trigger paying coins back into the user's account.
   */
  async returnCoins(req: ReturnCoinsRequest): Promise<void> {
    throw Error("not implemented");
  }

  /**
   * Accept a refund, return the contract hash for the contract
   * that was involved in the refund.
   */
  async applyRefund(
    talerRefundUri: string,
  ): Promise<{ contractTermsHash: string; proposalId: string }> {
    return applyRefund(this.ws, talerRefundUri);
  }

  async getPurchase(
    contractTermsHash: string,
  ): Promise<PurchaseRecord | undefined> {
    return this.db.get(Stores.purchases, contractTermsHash);
  }

  async acceptTip(talerTipUri: string): Promise<void> {
    try {
      return acceptTip(this.ws, talerTipUri);
    } catch (e) {
      this.latch.trigger();
    }
  }

  async getTipStatus(talerTipUri: string): Promise<TipStatus> {
    return getTipStatus(this.ws, talerTipUri);
  }

  async abortFailedPayment(contractTermsHash: string): Promise<void> {
    throw Error("not implemented");
  }

  /**
   * Inform the wallet that the status of a reserve has changed (e.g. due to a
   * confirmation from the bank.).
   */
  public async handleNotifyReserve(): Promise<void> {
    const reserves = await this.db.iter(Stores.reserves).toArray();
    for (const r of reserves) {
      if (r.reserveStatus === ReserveRecordStatus.WAIT_CONFIRM_BANK) {
        try {
          this.processReserve(r.reservePub);
        } catch (e) {
          console.error(e);
        }
      }
    }
  }

  /**
   * Remove unreferenced / expired data from the wallet's database
   * based on the current system time.
   */
  async collectGarbage(): Promise<void> {
    // FIXME(#5845)
    // We currently do not garbage-collect the wallet database.  This might change
    // after the feature has been properly re-designed, and we have come up with a
    // strategy to test it.
  }

  async acceptWithdrawal(
    talerWithdrawUri: string,
    selectedExchange: string,
  ): Promise<AcceptWithdrawalResponse> {
    try {
      return createTalerWithdrawReserve(
        this.ws,
        talerWithdrawUri,
        selectedExchange,
      );
    } finally {
      this.latch.trigger();
    }
  }

  async updateReserve(reservePub: string): Promise<ReserveRecord | undefined> {
    await forceQueryReserve(this.ws, reservePub);
    return await this.ws.db.get(Stores.reserves, reservePub);
  }

  async getReserve(reservePub: string): Promise<ReserveRecord | undefined> {
    return await this.ws.db.get(Stores.reserves, reservePub);
  }

  async refuseProposal(proposalId: string): Promise<void> {
    return refuseProposal(this.ws, proposalId);
  }

  async getPurchaseDetails(proposalId: string): Promise<PurchaseDetails> {
    const purchase = await this.db.get(Stores.purchases, proposalId);
    if (!purchase) {
      throw Error("unknown purchase");
    }
    const refundsDoneAmounts = Object.values(purchase.refunds)
      .filter((x) => x.type === RefundState.Applied)
      .map((x) => x.refundAmount);

    const refundsPendingAmounts = Object.values(purchase.refunds)
      .filter((x) => x.type === RefundState.Pending)
      .map((x) => x.refundAmount);
    const totalRefundAmount = Amounts.sum([
      ...refundsDoneAmounts,
      ...refundsPendingAmounts,
    ]).amount;
    const refundsDoneFees = Object.values(purchase.refunds)
      .filter((x) => x.type === RefundState.Applied)
      .map((x) => x.refundFee);
    const refundsPendingFees = Object.values(purchase.refunds)
      .filter((x) => x.type === RefundState.Pending)
      .map((x) => x.refundFee);
    const totalRefundFees = Amounts.sum([
      ...refundsDoneFees,
      ...refundsPendingFees,
    ]).amount;
    const totalFees = totalRefundFees;
    return {
      contractTerms: JSON.parse(purchase.contractTermsRaw),
      hasRefund: purchase.timestampLastRefundStatus !== undefined,
      totalRefundAmount: totalRefundAmount,
      totalRefundAndRefreshFees: totalFees,
    };
  }

  benchmarkCrypto(repetitions: number): Promise<BenchmarkResult> {
    return this.ws.cryptoApi.benchmark(repetitions);
  }

  async setCoinSuspended(coinPub: string, suspended: boolean): Promise<void> {
    await this.db.runWithWriteTransaction([Stores.coins], async (tx) => {
      const c = await tx.get(Stores.coins, coinPub);
      if (!c) {
        logger.warn(`coin ${coinPub} not found, won't suspend`);
        return;
      }
      c.suspended = suspended;
      await tx.put(Stores.coins, c);
    });
  }

  /**
   * Dump the public information of coins we have in an easy-to-process format.
   */
  async dumpCoins(): Promise<CoinDumpJson> {
    const coins = await this.db.iter(Stores.coins).toArray();
    const coinsJson: CoinDumpJson = { coins: [] };
    for (const c of coins) {
      const denom = await this.db.get(Stores.denominations, [
        c.exchangeBaseUrl,
        c.denomPub,
      ]);
      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 this.db.get(
          Stores.withdrawalGroups,
          cs.withdrawalGroupId,
        );
        if (!ws) {
          console.error("no withdrawal session found for coin");
          continue;
        }
        if (ws.source.type == "reserve") {
          withdrawalReservePub = ws.source.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;
  }

  async getTransactions(
    request: TransactionsRequest,
  ): Promise<TransactionsResponse> {
    return getTransactions(this.ws, request);
  }
}