/* This file is part of GNU Taler (C) 2019-2021 Taler Systems SA 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 */ /** * Imports. */ import * as LibtoolVersion from "@gnu-taler/taler-util"; import { AmountJson, Amounts, BankWithdrawDetails, codecForTalerConfigResponse, codecForWithdrawOperationStatusResponse, codecForWithdrawResponse, compare, durationFromSpec, ExchangeListItem, getDurationRemaining, getTimestampNow, Logger, NotificationType, parseWithdrawUri, TalerErrorCode, TalerErrorDetails, Timestamp, timestampCmp, timestampSubtractDuraction, WithdrawResponse, URL, WithdrawUriInfoResponse, } from "@gnu-taler/taler-util"; import { CoinRecord, CoinSourceType, CoinStatus, DenominationRecord, DenominationSelectionInfo, DenominationStatus, DenomSelectionState, ExchangeDetailsRecord, ExchangeRecord, PlanchetRecord, } from "../db.js"; import { walletCoreDebugFlags } from "../util/debugFlags.js"; import { readSuccessResponseJsonOrThrow } from "../util/http.js"; import { initRetryInfo, updateRetryInfoTimeout } from "../util/retries.js"; import { guardOperationException, makeErrorDetails, OperationFailedError, } from "../errors.js"; import { InternalWalletState } from "../common.js"; import { WALLET_BANK_INTEGRATION_PROTOCOL_VERSION, WALLET_EXCHANGE_PROTOCOL_VERSION, } from "../versions.js"; /** * Logger for this file. */ const logger = new Logger("withdraw.ts"); /** * Information about what will happen when creating a reserve. * * Sent to the wallet frontend to be rendered and shown to the user. */ interface ExchangeWithdrawDetails { /** * Exchange that the reserve will be created at. */ exchangeInfo: ExchangeRecord; exchangeDetails: ExchangeDetailsRecord; /** * Filtered wire info to send to the bank. */ exchangeWireAccounts: string[]; /** * Selected denominations for withdraw. */ selectedDenoms: DenominationSelectionInfo; /** * Fees for withdraw. */ withdrawFee: AmountJson; /** * Remaining balance that is too small to be withdrawn. */ overhead: AmountJson; /** * Does the wallet know about an auditor for * the exchange that the reserve. */ isAudited: boolean; /** * Did the user already accept the current terms of service for the exchange? */ termsOfServiceAccepted: boolean; /** * The exchange is trusted directly. */ isTrusted: boolean; /** * The earliest deposit expiration of the selected coins. */ earliestDepositExpiration: Timestamp; /** * Number of currently offered denominations. */ numOfferedDenoms: number; /** * Public keys of trusted auditors for the currency we're withdrawing. */ trustedAuditorPubs: string[]; /** * Result of checking the wallet's version * against the exchange's version. * * Older exchanges don't return version information. */ versionMatch: LibtoolVersion.VersionMatchResult | undefined; /** * Libtool-style version string for the exchange or "unknown" * for older exchanges. */ exchangeVersion: string; /** * Libtool-style version string for the wallet. */ walletVersion: string; } /** * Check if a denom is withdrawable based on the expiration time * and revocation state. */ export function isWithdrawableDenom(d: DenominationRecord): boolean { const now = getTimestampNow(); const started = timestampCmp(now, d.stampStart) >= 0; let lastPossibleWithdraw: Timestamp; if (walletCoreDebugFlags.denomselAllowLate) { lastPossibleWithdraw = d.stampExpireWithdraw; } else { lastPossibleWithdraw = timestampSubtractDuraction( d.stampExpireWithdraw, durationFromSpec({ minutes: 5 }), ); } const remaining = getDurationRemaining(lastPossibleWithdraw, now); const stillOkay = remaining.d_ms !== 0; return started && stillOkay && !d.isRevoked; } /** * Get a list of denominations (with repetitions possible) * whose total value is as close as possible to the available * amount, but never larger. */ export function selectWithdrawalDenominations( amountAvailable: AmountJson, denoms: DenominationRecord[], ): DenominationSelectionInfo { let remaining = Amounts.copy(amountAvailable); const selectedDenoms: { count: number; denom: DenominationRecord; }[] = []; let totalCoinValue = Amounts.getZero(amountAvailable.currency); let totalWithdrawCost = Amounts.getZero(amountAvailable.currency); denoms = denoms.filter(isWithdrawableDenom); denoms.sort((d1, d2) => Amounts.cmp(d2.value, d1.value)); for (const d of denoms) { let count = 0; const cost = Amounts.add(d.value, d.feeWithdraw).amount; for (;;) { if (Amounts.cmp(remaining, cost) < 0) { break; } remaining = Amounts.sub(remaining, cost).amount; count++; } if (count > 0) { totalCoinValue = Amounts.add( totalCoinValue, Amounts.mult(d.value, count).amount, ).amount; totalWithdrawCost = Amounts.add( totalWithdrawCost, Amounts.mult(cost, count).amount, ).amount; selectedDenoms.push({ count, denom: d, }); } if (Amounts.isZero(remaining)) { break; } } return { selectedDenoms, totalCoinValue, totalWithdrawCost, }; } /** * Get information about a withdrawal from * a taler://withdraw URI by asking the bank. */ export async function getBankWithdrawalInfo( ws: InternalWalletState, talerWithdrawUri: string, ): Promise { const uriResult = parseWithdrawUri(talerWithdrawUri); if (!uriResult) { throw Error(`can't parse URL ${talerWithdrawUri}`); } const configReqUrl = new URL("config", uriResult.bankIntegrationApiBaseUrl); const configResp = await ws.http.get(configReqUrl.href); const config = await readSuccessResponseJsonOrThrow( configResp, codecForTalerConfigResponse(), ); const versionRes = compare( WALLET_BANK_INTEGRATION_PROTOCOL_VERSION, config.version, ); if (versionRes?.compatible != true) { const opErr = makeErrorDetails( TalerErrorCode.WALLET_BANK_INTEGRATION_PROTOCOL_VERSION_INCOMPATIBLE, "bank integration protocol version not compatible with wallet", { exchangeProtocolVersion: config.version, walletProtocolVersion: WALLET_BANK_INTEGRATION_PROTOCOL_VERSION, }, ); throw new OperationFailedError(opErr); } const reqUrl = new URL( `withdrawal-operation/${uriResult.withdrawalOperationId}`, uriResult.bankIntegrationApiBaseUrl, ); const resp = await ws.http.get(reqUrl.href); const status = await readSuccessResponseJsonOrThrow( resp, codecForWithdrawOperationStatusResponse(), ); return { amount: Amounts.parseOrThrow(status.amount), confirmTransferUrl: status.confirm_transfer_url, extractedStatusUrl: reqUrl.href, selectionDone: status.selection_done, senderWire: status.sender_wire, suggestedExchange: status.suggested_exchange, transferDone: status.transfer_done, wireTypes: status.wire_types, }; } /** * Return denominations that can potentially used for a withdrawal. */ export async function getCandidateWithdrawalDenoms( ws: InternalWalletState, exchangeBaseUrl: string, ): Promise { return await ws.db .mktx((x) => ({ denominations: x.denominations })) .runReadOnly(async (tx) => { return tx.denominations.indexes.byExchangeBaseUrl .iter(exchangeBaseUrl) .filter((d) => { return ( (d.status === DenominationStatus.Unverified || d.status === DenominationStatus.VerifiedGood) && !d.isRevoked ); }); }); } /** * Generate a planchet for a coin index in a withdrawal group. * Does not actually withdraw the coin yet. * * Split up so that we can parallelize the crypto, but serialize * the exchange requests per reserve. */ async function processPlanchetGenerate( ws: InternalWalletState, withdrawalGroupId: string, coinIdx: number, ): Promise { const withdrawalGroup = await ws.db .mktx((x) => ({ withdrawalGroups: x.withdrawalGroups })) .runReadOnly(async (tx) => { return await tx.withdrawalGroups.get(withdrawalGroupId); }); if (!withdrawalGroup) { return; } let planchet = await ws.db .mktx((x) => ({ planchets: x.planchets, })) .runReadOnly(async (tx) => { return tx.planchets.indexes.byGroupAndIndex.get([ withdrawalGroupId, coinIdx, ]); }); if (!planchet) { let ci = 0; let denomPubHash: string | undefined; for ( let di = 0; di < withdrawalGroup.denomsSel.selectedDenoms.length; di++ ) { const d = withdrawalGroup.denomsSel.selectedDenoms[di]; if (coinIdx >= ci && coinIdx < ci + d.count) { denomPubHash = d.denomPubHash; break; } ci += d.count; } if (!denomPubHash) { throw Error("invariant violated"); } const { denom, reserve } = await ws.db .mktx((x) => ({ reserves: x.reserves, denominations: x.denominations, })) .runReadOnly(async (tx) => { const denom = await tx.denominations.get([ withdrawalGroup.exchangeBaseUrl, denomPubHash!, ]); if (!denom) { throw Error("invariant violated"); } const reserve = await tx.reserves.get(withdrawalGroup.reservePub); if (!reserve) { throw Error("invariant violated"); } return { denom, reserve }; }); const r = await ws.cryptoApi.createPlanchet({ denomPub: denom.denomPub, feeWithdraw: denom.feeWithdraw, reservePriv: reserve.reservePriv, reservePub: reserve.reservePub, value: denom.value, coinIndex: coinIdx, secretSeed: withdrawalGroup.secretSeed, }); const newPlanchet: PlanchetRecord = { blindingKey: r.blindingKey, coinEv: r.coinEv, coinEvHash: r.coinEvHash, coinIdx, coinPriv: r.coinPriv, coinPub: r.coinPub, coinValue: r.coinValue, denomPub: r.denomPub, denomPubHash: r.denomPubHash, isFromTip: false, reservePub: r.reservePub, withdrawalDone: false, withdrawSig: r.withdrawSig, withdrawalGroupId: withdrawalGroupId, lastError: undefined, }; await ws.db .mktx((x) => ({ planchets: x.planchets })) .runReadWrite(async (tx) => { const p = await tx.planchets.indexes.byGroupAndIndex.get([ withdrawalGroupId, coinIdx, ]); if (p) { planchet = p; return; } await tx.planchets.put(newPlanchet); planchet = newPlanchet; }); } } /** * Send the withdrawal request for a generated planchet to the exchange. * * The verification of the response is done asynchronously to enable parallelism. */ async function processPlanchetExchangeRequest( ws: InternalWalletState, withdrawalGroupId: string, coinIdx: number, ): Promise { const d = await ws.db .mktx((x) => ({ withdrawalGroups: x.withdrawalGroups, planchets: x.planchets, exchanges: x.exchanges, denominations: x.denominations, })) .runReadOnly(async (tx) => { const withdrawalGroup = await tx.withdrawalGroups.get(withdrawalGroupId); if (!withdrawalGroup) { return; } let planchet = await tx.planchets.indexes.byGroupAndIndex.get([ withdrawalGroupId, coinIdx, ]); if (!planchet) { return; } if (planchet.withdrawalDone) { logger.warn("processPlanchet: planchet already withdrawn"); return; } const exchange = await tx.exchanges.get(withdrawalGroup.exchangeBaseUrl); if (!exchange) { logger.error("db inconsistent: exchange for planchet not found"); return; } const denom = await tx.denominations.get([ withdrawalGroup.exchangeBaseUrl, planchet.denomPubHash, ]); if (!denom) { console.error("db inconsistent: denom for planchet not found"); return; } logger.trace( `processing planchet #${coinIdx} in withdrawal ${withdrawalGroupId}`, ); const reqBody: any = { denom_pub_hash: planchet.denomPubHash, reserve_pub: planchet.reservePub, reserve_sig: planchet.withdrawSig, coin_ev: planchet.coinEv, }; const reqUrl = new URL( `reserves/${planchet.reservePub}/withdraw`, exchange.baseUrl, ).href; return { reqUrl, reqBody }; }); if (!d) { return; } const { reqUrl, reqBody } = d; try { const resp = await ws.http.postJson(reqUrl, reqBody); const r = await readSuccessResponseJsonOrThrow( resp, codecForWithdrawResponse(), ); return r; } catch (e) { logger.trace("withdrawal request failed", e); logger.trace(e); if (!(e instanceof OperationFailedError)) { throw e; } const errDetails = e.operationError; await ws.db .mktx((x) => ({ planchets: x.planchets })) .runReadWrite(async (tx) => { let planchet = await tx.planchets.indexes.byGroupAndIndex.get([ withdrawalGroupId, coinIdx, ]); if (!planchet) { return; } planchet.lastError = errDetails; await tx.planchets.put(planchet); }); return; } } async function processPlanchetVerifyAndStoreCoin( ws: InternalWalletState, withdrawalGroupId: string, coinIdx: number, resp: WithdrawResponse, ): Promise { const d = await ws.db .mktx((x) => ({ withdrawalGroups: x.withdrawalGroups, planchets: x.planchets, })) .runReadOnly(async (tx) => { const withdrawalGroup = await tx.withdrawalGroups.get(withdrawalGroupId); if (!withdrawalGroup) { return; } let planchet = await tx.planchets.indexes.byGroupAndIndex.get([ withdrawalGroupId, coinIdx, ]); if (!planchet) { return; } if (planchet.withdrawalDone) { logger.warn("processPlanchet: planchet already withdrawn"); return; } return { planchet, exchangeBaseUrl: withdrawalGroup.exchangeBaseUrl }; }); if (!d) { return; } const { planchet, exchangeBaseUrl } = d; const denomSig = await ws.cryptoApi.rsaUnblind( resp.ev_sig, planchet.blindingKey, planchet.denomPub, ); const isValid = await ws.cryptoApi.rsaVerify( planchet.coinPub, denomSig, planchet.denomPub, ); if (!isValid) { await ws.db .mktx((x) => ({ planchets: x.planchets })) .runReadWrite(async (tx) => { let planchet = await tx.planchets.indexes.byGroupAndIndex.get([ withdrawalGroupId, coinIdx, ]); if (!planchet) { return; } planchet.lastError = makeErrorDetails( TalerErrorCode.WALLET_EXCHANGE_COIN_SIGNATURE_INVALID, "invalid signature from the exchange after unblinding", {}, ); await tx.planchets.put(planchet); }); return; } const coin: CoinRecord = { blindingKey: planchet.blindingKey, coinPriv: planchet.coinPriv, coinPub: planchet.coinPub, currentAmount: planchet.coinValue, denomPub: planchet.denomPub, denomPubHash: planchet.denomPubHash, denomSig, coinEvHash: planchet.coinEvHash, exchangeBaseUrl: exchangeBaseUrl, status: CoinStatus.Fresh, coinSource: { type: CoinSourceType.Withdraw, coinIndex: coinIdx, reservePub: planchet.reservePub, withdrawalGroupId: withdrawalGroupId, }, suspended: false, }; const planchetCoinPub = planchet.coinPub; const firstSuccess = await ws.db .mktx((x) => ({ coins: x.coins, withdrawalGroups: x.withdrawalGroups, reserves: x.reserves, planchets: x.planchets, })) .runReadWrite(async (tx) => { const ws = await tx.withdrawalGroups.get(withdrawalGroupId); if (!ws) { return false; } const p = await tx.planchets.get(planchetCoinPub); if (!p || p.withdrawalDone) { return false; } p.withdrawalDone = true; await tx.planchets.put(p); await tx.coins.add(coin); return true; }); if (firstSuccess) { ws.notify({ type: NotificationType.CoinWithdrawn, }); } } export function denomSelectionInfoToState( dsi: DenominationSelectionInfo, ): DenomSelectionState { return { selectedDenoms: dsi.selectedDenoms.map((x) => { return { count: x.count, denomPubHash: x.denom.denomPubHash, }; }), totalCoinValue: dsi.totalCoinValue, totalWithdrawCost: dsi.totalWithdrawCost, }; } /** * Make sure that denominations that currently can be used for withdrawal * are validated, and the result of validation is stored in the database. */ export async function updateWithdrawalDenoms( ws: InternalWalletState, exchangeBaseUrl: string, ): Promise { logger.trace( `updating denominations used for withdrawal for ${exchangeBaseUrl}`, ); const exchangeDetails = await ws.db .mktx((x) => ({ exchanges: x.exchanges, exchangeDetails: x.exchangeDetails, })) .runReadOnly(async (tx) => { return ws.exchangeOps.getExchangeDetails(tx, exchangeBaseUrl); }); if (!exchangeDetails) { logger.error("exchange details not available"); throw Error(`exchange ${exchangeBaseUrl} details not available`); } // First do a pass where the validity of candidate denominations // is checked and the result is stored in the database. logger.trace("getting candidate denominations"); const denominations = await getCandidateWithdrawalDenoms(ws, exchangeBaseUrl); logger.trace(`got ${denominations.length} candidate denominations`); const batchSize = 500; let current = 0; while (current < denominations.length) { const updatedDenominations: DenominationRecord[] = []; // Do a batch of batchSize for (let batchIdx = 0; batchIdx < batchSize; batchIdx++) { current++; if (current >= denominations.length) { break; } const denom = denominations[current]; if (denom.status === DenominationStatus.Unverified) { logger.trace( `Validation denomination (${current + 1}/${ denominations.length }) signature of ${denom.denomPubHash}`, ); const valid = await ws.cryptoApi.isValidDenom( denom, exchangeDetails.masterPublicKey, ); logger.trace(`Done validating ${denom.denomPubHash}`); if (!valid) { logger.warn( `Signature check for denomination h=${denom.denomPubHash} failed`, ); denom.status = DenominationStatus.VerifiedBad; } else { denom.status = DenominationStatus.VerifiedGood; } updatedDenominations.push(denom); } } if (updatedDenominations.length > 0) { logger.trace("writing denomination batch to db"); await ws.db .mktx((x) => ({ denominations: x.denominations })) .runReadWrite(async (tx) => { for (let i = 0; i < updatedDenominations.length; i++) { const denom = updatedDenominations[i]; await tx.denominations.put(denom); } }); logger.trace("done with DB write"); } } } async function incrementWithdrawalRetry( ws: InternalWalletState, withdrawalGroupId: string, err: TalerErrorDetails | undefined, ): Promise { await ws.db .mktx((x) => ({ withdrawalGroups: x.withdrawalGroups })) .runReadWrite(async (tx) => { const wsr = await tx.withdrawalGroups.get(withdrawalGroupId); if (!wsr) { return; } wsr.retryInfo.retryCounter++; updateRetryInfoTimeout(wsr.retryInfo); wsr.lastError = err; await tx.withdrawalGroups.put(wsr); }); if (err) { ws.notify({ type: NotificationType.WithdrawOperationError, error: err }); } } export async function processWithdrawGroup( ws: InternalWalletState, withdrawalGroupId: string, forceNow = false, ): Promise { const onOpErr = (e: TalerErrorDetails): Promise => incrementWithdrawalRetry(ws, withdrawalGroupId, e); await guardOperationException( () => processWithdrawGroupImpl(ws, withdrawalGroupId, forceNow), onOpErr, ); } async function resetWithdrawalGroupRetry( ws: InternalWalletState, withdrawalGroupId: string, ): Promise { await ws.db .mktx((x) => ({ withdrawalGroups: x.withdrawalGroups })) .runReadWrite(async (tx) => { const x = await tx.withdrawalGroups.get(withdrawalGroupId); if (x) { x.retryInfo = initRetryInfo(); await tx.withdrawalGroups.put(x); } }); } async function processWithdrawGroupImpl( ws: InternalWalletState, withdrawalGroupId: string, forceNow: boolean, ): Promise { logger.trace("processing withdraw group", withdrawalGroupId); if (forceNow) { await resetWithdrawalGroupRetry(ws, withdrawalGroupId); } const withdrawalGroup = await ws.db .mktx((x) => ({ withdrawalGroups: x.withdrawalGroups })) .runReadOnly(async (tx) => { return tx.withdrawalGroups.get(withdrawalGroupId); }); if (!withdrawalGroup) { logger.trace("withdraw session doesn't exist"); return; } await ws.exchangeOps.updateExchangeFromUrl( ws, withdrawalGroup.exchangeBaseUrl, ); const numTotalCoins = withdrawalGroup.denomsSel.selectedDenoms .map((x) => x.count) .reduce((a, b) => a + b); let work: Promise[] = []; for (let i = 0; i < numTotalCoins; i++) { work.push(processPlanchetGenerate(ws, withdrawalGroupId, i)); } // Generate coins concurrently (parallelism only happens in the crypto API workers) await Promise.all(work); work = []; for (let coinIdx = 0; coinIdx < numTotalCoins; coinIdx++) { const resp = await processPlanchetExchangeRequest( ws, withdrawalGroupId, coinIdx, ); if (!resp) { continue; } work.push( processPlanchetVerifyAndStoreCoin(ws, withdrawalGroupId, coinIdx, resp), ); } await Promise.all(work); let numFinished = 0; let finishedForFirstTime = false; let errorsPerCoin: Record = {}; await ws.db .mktx((x) => ({ coins: x.coins, withdrawalGroups: x.withdrawalGroups, reserves: x.reserves, planchets: x.planchets, })) .runReadWrite(async (tx) => { const wg = await tx.withdrawalGroups.get(withdrawalGroupId); if (!wg) { return; } await tx.planchets.indexes.byGroup .iter(withdrawalGroupId) .forEach((x) => { if (x.withdrawalDone) { numFinished++; } if (x.lastError) { errorsPerCoin[x.coinIdx] = x.lastError; } }); logger.trace(`now withdrawn ${numFinished} of ${numTotalCoins} coins`); if (wg.timestampFinish === undefined && numFinished === numTotalCoins) { finishedForFirstTime = true; wg.timestampFinish = getTimestampNow(); wg.lastError = undefined; wg.retryInfo = initRetryInfo(); } await tx.withdrawalGroups.put(wg); }); if (numFinished != numTotalCoins) { throw OperationFailedError.fromCode( TalerErrorCode.WALLET_WITHDRAWAL_GROUP_INCOMPLETE, `withdrawal did not finish (${numFinished} / ${numTotalCoins} coins withdrawn)`, { errorsPerCoin, }, ); } if (finishedForFirstTime) { ws.notify({ type: NotificationType.WithdrawGroupFinished, reservePub: withdrawalGroup.reservePub, }); } } export async function getExchangeWithdrawalInfo( ws: InternalWalletState, baseUrl: string, amount: AmountJson, ): Promise { const { exchange, exchangeDetails, } = await ws.exchangeOps.updateExchangeFromUrl(ws, baseUrl); await updateWithdrawalDenoms(ws, baseUrl); const denoms = await getCandidateWithdrawalDenoms(ws, baseUrl); const selectedDenoms = selectWithdrawalDenominations(amount, denoms); const exchangeWireAccounts: string[] = []; for (const account of exchangeDetails.wireInfo.accounts) { exchangeWireAccounts.push(account.payto_uri); } const { isTrusted, isAudited } = await ws.exchangeOps.getExchangeTrust( ws, exchange, ); let earliestDepositExpiration = selectedDenoms.selectedDenoms[0].denom.stampExpireDeposit; for (let i = 1; i < selectedDenoms.selectedDenoms.length; i++) { const expireDeposit = selectedDenoms.selectedDenoms[i].denom.stampExpireDeposit; if (expireDeposit.t_ms < earliestDepositExpiration.t_ms) { earliestDepositExpiration = expireDeposit; } } const possibleDenoms = await ws.db .mktx((x) => ({ denominations: x.denominations })) .runReadOnly(async (tx) => { return tx.denominations.indexes.byExchangeBaseUrl .iter() .filter((d) => d.isOffered); }); let versionMatch; if (exchangeDetails.protocolVersion) { versionMatch = LibtoolVersion.compare( WALLET_EXCHANGE_PROTOCOL_VERSION, exchangeDetails.protocolVersion, ); if ( versionMatch && !versionMatch.compatible && versionMatch.currentCmp === -1 ) { console.warn( `wallet's support for exchange protocol version ${WALLET_EXCHANGE_PROTOCOL_VERSION} might be outdated ` + `(exchange has ${exchangeDetails.protocolVersion}), checking for updates`, ); } } let tosAccepted = false; if (exchangeDetails.termsOfServiceLastEtag) { if ( exchangeDetails.termsOfServiceAcceptedEtag === exchangeDetails.termsOfServiceLastEtag ) { tosAccepted = true; } } const withdrawFee = Amounts.sub( selectedDenoms.totalWithdrawCost, selectedDenoms.totalCoinValue, ).amount; const ret: ExchangeWithdrawDetails = { earliestDepositExpiration, exchangeInfo: exchange, exchangeDetails, exchangeWireAccounts, exchangeVersion: exchangeDetails.protocolVersion || "unknown", isAudited, isTrusted, numOfferedDenoms: possibleDenoms.length, overhead: Amounts.sub(amount, selectedDenoms.totalWithdrawCost).amount, selectedDenoms, // FIXME: delete this field / replace by something we can display to the user trustedAuditorPubs: [], versionMatch, walletVersion: WALLET_EXCHANGE_PROTOCOL_VERSION, withdrawFee, termsOfServiceAccepted: tosAccepted, }; return ret; } export async function getWithdrawalDetailsForUri( ws: InternalWalletState, talerWithdrawUri: string, ): Promise { logger.trace(`getting withdrawal details for URI ${talerWithdrawUri}`); const info = await getBankWithdrawalInfo(ws, talerWithdrawUri); logger.trace(`got bank info`); if (info.suggestedExchange) { // FIXME: right now the exchange gets permanently added, // we might want to only temporarily add it. try { await ws.exchangeOps.updateExchangeFromUrl(ws, info.suggestedExchange); } catch (e) { // We still continued if it failed, as other exchanges might be available. // We don't want to fail if the bank-suggested exchange is broken/offline. logger.trace( `querying bank-suggested exchange (${info.suggestedExchange}) failed`, ); } } 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 details = await ws.exchangeOps.getExchangeDetails(tx, r.baseUrl); if (details) { exchanges.push({ exchangeBaseUrl: details.exchangeBaseUrl, currency: details.currency, paytoUris: details.wireInfo.accounts.map((x) => x.payto_uri), }); } } }); return { amount: Amounts.stringify(info.amount), defaultExchangeBaseUrl: info.suggestedExchange, possibleExchanges: exchanges, }; }