/* This file is part of TALER (C) 2015 GNUnet e.V. 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. 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 TALER; see the file COPYING. If not, see */ /** * High-level wallet operations that should be indepentent from the underlying * browser extension interface. */ /** * Imports. */ import {Checkable} from "./checkable"; import {CryptoApi} from "./crypto/cryptoApi"; import { amountToPretty, canonicalJson, canonicalizeBaseUrl, getTalerStampSec, } from "./helpers"; import { HttpRequestLibrary, RequestException, } from "./http"; import * as LibtoolVersion from "./libtoolVersion"; import { AbortTransaction, Index, JoinLeftResult, JoinResult, QueryRoot, Store, } from "./query"; import {TimerGroup} from "./timer"; import { AmountJson, Amounts, Auditor, CheckPayResult, CoinPaySig, CoinRecord, CoinSelectionResult, CoinStatus, CoinWithDenom, ConfirmPayResult, ConfirmReserveRequest, ContractTerms, CreateReserveRequest, CreateReserveResponse, CurrencyRecord, Denomination, DenominationRecord, DenominationStatus, ExchangeHandle, ExchangeRecord, ExchangeWireFeesRecord, HistoryRecord, Notifier, PayCoinInfo, PayReq, PaybackConfirmation, PreCoinRecord, ProposalRecord, PurchaseRecord, QueryPaymentResult, RefreshPreCoinRecord, RefreshSessionRecord, RefundPermission, ReserveCreationInfo, ReserveRecord, ReturnCoinsRequest, SenderWireInfos, TipPlanchetDetail, TipRecord, TipResponse, TipStatus, WalletBalance, WalletBalanceEntry, WireFee, WireInfo, } from "./types"; import URI = require("urijs"); /** * Element of the payback list that the * exchange gives us in /keys. */ @Checkable.Class() export class Payback { /** * The hash of the denomination public key for which the payback is offered. */ @Checkable.String h_denom_pub: string; } /** * Structure that the exchange gives us in /keys. */ @Checkable.Class({extra: true}) export class KeysJson { /** * List of offered denominations. */ @Checkable.List(Checkable.Value(Denomination)) denoms: Denomination[]; /** * The exchange's master public key. */ @Checkable.String master_public_key: string; /** * The list of auditors (partially) auditing the exchange. */ @Checkable.List(Checkable.Value(Auditor)) auditors: Auditor[]; /** * Timestamp when this response was issued. */ @Checkable.String list_issue_date: string; /** * List of paybacks for compromised denominations. */ @Checkable.Optional(Checkable.List(Checkable.Value(Payback))) payback?: Payback[]; /** * Short-lived signing keys used to sign online * responses. */ @Checkable.Any signkeys: any; /** * Protocol version. */ @Checkable.Optional(Checkable.String) version?: string; /** * Verify that a value matches the schema of this class and convert it into a * member. */ static checked: (obj: any) => KeysJson; } /** * Wire fees as anounced by the exchange. */ @Checkable.Class() class WireFeesJson { /** * Cost of a wire transfer. */ @Checkable.Value(AmountJson) wire_fee: AmountJson; /** * Cost of clising a reserve. */ @Checkable.Value(AmountJson) closing_fee: AmountJson; /** * Signature made with the exchange's master key. */ @Checkable.String sig: string; /** * Date from which the fee applies. */ @Checkable.String start_date: string; /** * Data after which the fee doesn't apply anymore. */ @Checkable.String end_date: string; /** * Verify that a value matches the schema of this class and convert it into a * member. */ static checked: (obj: any) => WireFeesJson; } /** * Information about wire transfer methods supported * by the exchange. */ @Checkable.Class({extra: true}) class WireDetailJson { /** * Name of the wire transfer method. */ @Checkable.String type: string; /** * Fees associated with the wire transfer method. */ @Checkable.List(Checkable.Value(WireFeesJson)) fees: WireFeesJson[]; /** * Verify that a value matches the schema of this class and convert it into a * member. */ static checked: (obj: any) => WireDetailJson; } /** * Badge that shows activity for the wallet. */ export interface Badge { /** * Start indicating background activity. */ startBusy(): void; /** * Stop indicating background activity. */ stopBusy(): void; } /** * Nonce record as stored in the wallet's database. */ export interface NonceRecord { priv: string; pub: string; } /** * Configuration key/value entries to configure * the wallet. */ export interface ConfigRecord { key: string; value: any; } /** * Coin that we're depositing ourselves. */ export interface DepositCoin { coinPaySig: CoinPaySig; /** * Undefined if coin not deposited, otherwise signature * from the exchange confirming the deposit. */ depositedSig?: string; } /** * Record stored in the wallet's database when the user sends coins back to * their own bank account. Stores the status of coins that are deposited to * the wallet itself, where the wallet acts as a "merchant" for the customer. */ export interface CoinsReturnRecord { /** * Hash of the contract for sending coins to our own bank account. */ contractTermsHash: string; contractTerms: ContractTerms; /** * Private key where corresponding * public key is used in the contract terms * as merchant pub. */ merchantPriv: string; coins: DepositCoin[]; /** * Exchange base URL to deposit coins at. */ exchange: string; /** * Our own wire information for the deposit. */ wire: any; } /** * Wallet protocol version spoken with the exchange * and merchant. * * Uses libtool's current:revision:age versioning. */ export const WALLET_PROTOCOL_VERSION = "2:0:0"; /** * Current database version, should be incremented * each time we do incompatible schema changes on the database. * In the future we might consider adding migration functions for * each version increment. */ export const WALLET_DB_VERSION = 21; const builtinCurrencies: CurrencyRecord[] = [ { auditors: [ { auditorPub: "BW9DC48PHQY4NH011SHHX36DZZ3Q22Y6X7FZ1VD1CMZ2PTFZ6PN0", baseUrl: "https://auditor.demo.taler.net/", expirationStamp: (new Date(2027, 1)).getTime(), }, ], exchanges: [], fractionalDigits: 2, name: "KUDOS", }, ]; function isWithdrawableDenom(d: DenominationRecord) { const nowSec = (new Date()).getTime() / 1000; const stampWithdrawSec = getTalerStampSec(d.stampExpireWithdraw); if (stampWithdrawSec === null) { return false; } const stampStartSec = getTalerStampSec(d.stampStart); if (stampStartSec === null) { return false; } // Withdraw if still possible to withdraw within a minute if ((stampWithdrawSec + 60 > nowSec) && (nowSec >= stampStartSec)) { return true; } return false; } function strcmp(s1: string, s2: string): number { if (s1 < s2) { return -1; } if (s1 > s2) { return 1; } return 0; } interface SelectPayCoinsResult { cds: CoinWithDenom[]; totalFees: AmountJson; } /** * Get the amount that we lose when refreshing a coin of the given denomination * with a certain amount left. * * If the amount left is zero, then the refresh cost * is also considered to be zero. If a refresh isn't possible (e.g. due to lack of * the right denominations), then the cost is the full amount left. * * Considers refresh fees, withdrawal fees after refresh and amounts too small * to refresh. */ export function getTotalRefreshCost(denoms: DenominationRecord[], refreshedDenom: DenominationRecord, amountLeft: AmountJson): AmountJson { const withdrawAmount = Amounts.sub(amountLeft, refreshedDenom.feeRefresh).amount; const withdrawDenoms = getWithdrawDenomList(withdrawAmount, denoms); const resultingAmount = Amounts.add(Amounts.getZero(withdrawAmount.currency), ...withdrawDenoms.map((d) => d.value)).amount; const totalCost = Amounts.sub(amountLeft, resultingAmount).amount; console.log("total refresh cost for", amountToPretty(amountLeft), "is", amountToPretty(totalCost)); return totalCost; } /** * Select coins for a payment under the merchant's constraints. * * @param denoms all available denoms, used to compute refresh fees */ export function selectPayCoins(denoms: DenominationRecord[], cds: CoinWithDenom[], paymentAmount: AmountJson, depositFeeLimit: AmountJson): SelectPayCoinsResult|undefined { if (cds.length === 0) { return undefined; } // Sort by ascending deposit fee and denomPub if deposit fee is the same // (to guarantee deterministic results) cds.sort((o1, o2) => Amounts.cmp(o1.denom.feeDeposit, o2.denom.feeDeposit) || strcmp(o1.denom.denomPub, o2.denom.denomPub)); const currency = cds[0].denom.value.currency; const cdsResult: CoinWithDenom[] = []; let accDepositFee: AmountJson = Amounts.getZero(currency); let accAmount: AmountJson = Amounts.getZero(currency); for (const {coin, denom} of cds) { if (coin.suspended) { continue; } if (coin.status !== CoinStatus.Fresh) { continue; } if (Amounts.cmp(denom.feeDeposit, coin.currentAmount) >= 0) { continue; } cdsResult.push({coin, denom}); accDepositFee = Amounts.add(denom.feeDeposit, accDepositFee).amount; let leftAmount = Amounts.sub(coin.currentAmount, Amounts.sub(paymentAmount, accAmount).amount).amount; accAmount = Amounts.add(coin.currentAmount, accAmount).amount; const coversAmount = Amounts.cmp(accAmount, paymentAmount) >= 0; const coversAmountWithFee = Amounts.cmp(accAmount, Amounts.add(paymentAmount, denom.feeDeposit).amount) >= 0; const isBelowFee = Amounts.cmp(accDepositFee, depositFeeLimit) <= 0; console.log("coin selection", { coversAmount, isBelowFee, accDepositFee, accAmount, paymentAmount }); if ((coversAmount && isBelowFee) || coversAmountWithFee) { const depositFeeToCover = Amounts.sub(accDepositFee, depositFeeLimit).amount; leftAmount = Amounts.sub(leftAmount, depositFeeToCover).amount; console.log("deposit fee to cover", amountToPretty(depositFeeToCover)); let totalFees: AmountJson = Amounts.getZero(currency); if (coversAmountWithFee && !isBelowFee) { // these are the fees the customer has to pay // because the merchant doesn't cover them totalFees = Amounts.sub(depositFeeLimit, accDepositFee).amount; } totalFees = Amounts.add(totalFees, getTotalRefreshCost(denoms, denom, leftAmount)).amount; return { cds: cdsResult, totalFees }; } } return undefined; } /** * Get a list of denominations (with repetitions possible) * whose total value is as close as possible to the available * amount, but never larger. */ function getWithdrawDenomList(amountAvailable: AmountJson, denoms: DenominationRecord[]): DenominationRecord[] { let remaining = Amounts.copy(amountAvailable); const ds: DenominationRecord[] = []; denoms = denoms.filter(isWithdrawableDenom); denoms.sort((d1, d2) => Amounts.cmp(d2.value, d1.value)); // This is an arbitrary number of coins // we can withdraw in one go. It's not clear if this limit // is useful ... for (let i = 0; i < 1000; i++) { let found = false; for (const d of denoms) { const cost = Amounts.add(d.value, d.feeWithdraw).amount; if (Amounts.cmp(remaining, cost) < 0) { continue; } found = true; remaining = Amounts.sub(remaining, cost).amount; ds.push(d); break; } if (!found) { break; } } return ds; } /* tslint:disable:completed-docs */ /** * The stores and indices for the wallet database. */ export namespace Stores { class ExchangeStore extends Store { constructor() { super("exchanges", {keyPath: "baseUrl"}); } pubKeyIndex = new Index(this, "pubKeyIndex", "masterPublicKey"); } class NonceStore extends Store { constructor() { super("nonces", {keyPath: "pub"}); } } class CoinsStore extends Store { constructor() { super("coins", {keyPath: "coinPub"}); } exchangeBaseUrlIndex = new Index(this, "exchangeBaseUrl", "exchangeBaseUrl"); denomPubIndex = new Index(this, "denomPubIndex", "denomPub"); } class ProposalsStore extends Store { constructor() { super("proposals", { autoIncrement: true, keyPath: "id", }); } timestampIndex = new Index(this, "timestampIndex", "timestamp"); } class PurchasesStore extends Store { constructor() { super("purchases", {keyPath: "contractTermsHash"}); } fulfillmentUrlIndex = new Index(this, "fulfillmentUrlIndex", "contractTerms.fulfillment_url"); orderIdIndex = new Index(this, "orderIdIndex", "contractTerms.order_id"); timestampIndex = new Index(this, "timestampIndex", "timestamp"); } class DenominationsStore extends Store { constructor() { // cast needed because of bug in type annotations super("denominations", {keyPath: ["exchangeBaseUrl", "denomPub"] as any as IDBKeyPath}); } denomPubHashIndex = new Index(this, "denomPubHashIndex", "denomPubHash"); exchangeBaseUrlIndex = new Index(this, "exchangeBaseUrlIndex", "exchangeBaseUrl"); denomPubIndex = new Index(this, "denomPubIndex", "denomPub"); } class CurrenciesStore extends Store { constructor() { super("currencies", {keyPath: "name"}); } } class ConfigStore extends Store { constructor() { super("config", {keyPath: "key"}); } } class ExchangeWireFeesStore extends Store { constructor() { super("exchangeWireFees", {keyPath: "exchangeBaseUrl"}); } } class ReservesStore extends Store { constructor() { super("reserves", {keyPath: "reserve_pub"}); } timestampCreatedIndex = new Index(this, "timestampCreatedIndex", "created"); timestampConfirmedIndex = new Index(this, "timestampConfirmedIndex", "timestamp_confirmed"); timestampDepletedIndex = new Index(this, "timestampDepletedIndex", "timestamp_depleted"); } class TipsStore extends Store { constructor() { super("tips", {keyPath: ["tipId", "merchantDomain"] as any as IDBKeyPath}); } coinPubIndex = new Index(this, "coinPubIndex", "coinPubs", { multiEntry: true }); } export const coins = new CoinsStore(); export const coinsReturns = new Store("coinsReturns", {keyPath: "contractTermsHash"}); export const config = new ConfigStore(); export const currencies = new CurrenciesStore(); export const denominations = new DenominationsStore(); export const exchangeWireFees = new ExchangeWireFeesStore(); export const exchanges = new ExchangeStore(); export const nonces = new NonceStore(); export const precoins = new Store("precoins", {keyPath: "coinPub"}); export const proposals = new ProposalsStore(); export const refresh = new Store("refresh", {keyPath: "id", autoIncrement: true}); export const reserves = new ReservesStore(); export const purchases = new PurchasesStore(); export const tips = new TipsStore(); } /* tslint:enable:completed-docs */ interface CoinsForPaymentArgs { allowedAuditors: Auditor[]; allowedExchanges: ExchangeHandle[]; depositFeeLimit: AmountJson; paymentAmount: AmountJson; wireFeeAmortization: number; wireFeeLimit: AmountJson; wireFeeTime: number; wireMethod: string; } /** * The platform-independent wallet implementation. */ export class Wallet { /** * IndexedDB database used by the wallet. */ db: IDBDatabase; private http: HttpRequestLibrary; private badge: Badge; private notifier: Notifier; private cryptoApi: CryptoApi; private processPreCoinConcurrent = 0; private processPreCoinThrottle: {[url: string]: number} = {}; private timerGroup: TimerGroup; /** * Set of identifiers for running operations. */ private runningOperations: Set = new Set(); q(): QueryRoot { return new QueryRoot(this.db); } constructor(db: IDBDatabase, http: HttpRequestLibrary, badge: Badge, notifier: Notifier) { this.db = db; this.http = http; this.badge = badge; this.notifier = notifier; this.cryptoApi = new CryptoApi(); this.fillDefaults(); this.resumePendingFromDb(); this.timerGroup = new TimerGroup(); this.timerGroup.every(1000 * 60 * 15, () => this.updateExchanges()); } private async fillDefaults() { const onTrue = (r: QueryRoot) => { console.log("defaults already applied"); }; const onFalse = (r: QueryRoot) => { console.log("applying defaults"); r.put(Stores.config, {key: "currencyDefaultsApplied", value: true}) .putAll(Stores.currencies, builtinCurrencies) .finish(); }; await ( this.q() .iter(Stores.config) .filter((x) => x.key === "currencyDefaultsApplied") .first() .cond((x) => x && x.value, onTrue, onFalse) ); } private startOperation(operationId: string) { this.runningOperations.add(operationId); this.badge.startBusy(); } private stopOperation(operationId: string) { this.runningOperations.delete(operationId); if (this.runningOperations.size === 0) { this.badge.stopBusy(); } } async updateExchanges(): Promise { console.log("updating exchanges"); const exchangesUrls = await this.q() .iter(Stores.exchanges) .map((e) => e.baseUrl) .toArray(); for (const url of exchangesUrls) { this.updateExchangeFromUrl(url) .catch((e) => { console.error("updating exchange failed", e); }); } } /** * Resume various pending operations that are pending * by looking at the database. */ private resumePendingFromDb(): void { console.log("resuming pending operations from db"); this.q() .iter(Stores.reserves) .reduce((reserve) => { console.log("resuming reserve", reserve.reserve_pub); this.processReserve(reserve); }); this.q() .iter(Stores.precoins) .reduce((preCoin) => { console.log("resuming precoin"); this.processPreCoin(preCoin); }); this.q() .iter(Stores.refresh) .reduce((r: RefreshSessionRecord) => { this.continueRefreshSession(r); }); this.q() .iter(Stores.coinsReturns) .reduce((r: CoinsReturnRecord) => { this.depositReturnedCoins(r); }); // FIXME: optimize via index this.q() .iter(Stores.coins) .reduce((c: CoinRecord) => { if (c.status === CoinStatus.Dirty) { console.log("resuming pending refresh for coin", c); this.refresh(c.coinPub); } }); } private async getCoinsForReturn(exchangeBaseUrl: string, amount: AmountJson): Promise { const exchange = await this.q().get(Stores.exchanges, exchangeBaseUrl); if (!exchange) { throw Error(`Exchange ${exchangeBaseUrl} not known to the wallet`); } const coins: CoinRecord[] = await ( this.q() .iterIndex(Stores.coins.exchangeBaseUrlIndex, exchange.baseUrl) .toArray() ); if (!coins || !coins.length) { return []; } const denoms = await this.q().iterIndex(Stores.denominations.exchangeBaseUrlIndex, exchange.baseUrl).toArray(); // Denomination of the first coin, we assume that all other // coins have the same currency const firstDenom = await this.q().get(Stores.denominations, [ exchange.baseUrl, coins[0].denomPub, ]); if (!firstDenom) { throw Error("db inconsistent"); } const currency = firstDenom.value.currency; const cds: CoinWithDenom[] = []; for (const coin of coins) { const denom = await this.q().get(Stores.denominations, [exchange.baseUrl, coin.denomPub]); if (!denom) { throw Error("db inconsistent"); } if (denom.value.currency !== currency) { console.warn(`same pubkey for different currencies at exchange ${exchange.baseUrl}`); continue; } if (coin.suspended) { continue; } if (coin.status !== CoinStatus.Fresh) { continue; } cds.push({coin, denom}); } console.log("coin return: selecting from possible coins", { cds, amount } ); const res = selectPayCoins(denoms, cds, amount, amount); if (res) { return res.cds; } return undefined; } /** * Get exchanges and associated coins that are still spendable, * but only if the sum the coins' remaining value exceeds the payment amount. */ private async getCoinsForPayment(args: CoinsForPaymentArgs): Promise { const { allowedAuditors, allowedExchanges, depositFeeLimit, paymentAmount, wireFeeAmortization, wireFeeLimit, wireFeeTime, wireMethod, } = args; let remainingAmount = paymentAmount; const exchanges = await this.q().iter(Stores.exchanges).toArray(); for (const exchange of exchanges) { let isOkay: boolean = false; // is the exchange explicitly allowed? for (const allowedExchange of allowedExchanges) { if (allowedExchange.master_pub === exchange.masterPublicKey) { isOkay = true; break; } } // is the exchange allowed because of one of its auditors? if (!isOkay) { for (const allowedAuditor of allowedAuditors) { for (const auditor of exchange.auditors) { if (auditor.auditor_pub === allowedAuditor.auditor_pub) { isOkay = true; break; } } if (isOkay) { break; } } } if (!isOkay) { continue; } const coins: CoinRecord[] = await this.q() .iterIndex(Stores.coins.exchangeBaseUrlIndex, exchange.baseUrl) .toArray(); const denoms = await this.q().iterIndex(Stores.denominations.exchangeBaseUrlIndex, exchange.baseUrl).toArray(); if (!coins || coins.length === 0) { continue; } // Denomination of the first coin, we assume that all other // coins have the same currency const firstDenom = await this.q().get(Stores.denominations, [ exchange.baseUrl, coins[0].denomPub, ]); if (!firstDenom) { throw Error("db inconsistent"); } const currency = firstDenom.value.currency; const cds: CoinWithDenom[] = []; for (const coin of coins) { const denom = await this.q().get(Stores.denominations, [exchange.baseUrl, coin.denomPub]); if (!denom) { throw Error("db inconsistent"); } if (denom.value.currency !== currency) { console.warn(`same pubkey for different currencies at exchange ${exchange.baseUrl}`); continue; } if (coin.suspended) { continue; } if (coin.status !== CoinStatus.Fresh) { continue; } cds.push({coin, denom}); } const fees = await this.q().get(Stores.exchangeWireFees, exchange.baseUrl); if (!fees) { console.error("no fees found for exchange", exchange); continue; } let totalFees = Amounts.getZero(currency); let wireFee: AmountJson|undefined; for (const fee of (fees.feesForType[wireMethod] || [])) { if (fee.startStamp >= wireFeeTime && fee.endStamp <= wireFeeTime) { wireFee = fee.wireFee; break; } } if (wireFee) { const amortizedWireFee = Amounts.divide(wireFee, wireFeeAmortization); if (Amounts.cmp(wireFeeLimit, amortizedWireFee) < 0) { totalFees = Amounts.add(amortizedWireFee, totalFees).amount; remainingAmount = Amounts.add(amortizedWireFee, remainingAmount).amount; } } const res = selectPayCoins(denoms, cds, remainingAmount, depositFeeLimit); if (res) { totalFees = Amounts.add(totalFees, res.totalFees).amount; return { cds: res.cds, exchangeUrl: exchange.baseUrl, totalFees, }; } } return undefined; } /** * Record all information that is necessary to * pay for a proposal in the wallet's database. */ private async recordConfirmPay(proposal: ProposalRecord, payCoinInfo: PayCoinInfo, chosenExchange: string): Promise { const payReq: PayReq = { coins: payCoinInfo.map((x) => x.sig), exchange: chosenExchange, merchant_pub: proposal.contractTerms.merchant_pub, order_id: proposal.contractTerms.order_id, }; const t: PurchaseRecord = { contractTerms: proposal.contractTerms, contractTermsHash: proposal.contractTermsHash, finished: false, merchantSig: proposal.merchantSig, payReq, refundsDone: {}, refundsPending: {}, timestamp: (new Date()).getTime(), timestamp_refund: 0, }; await this.q() .put(Stores.purchases, t) .putAll(Stores.coins, payCoinInfo.map((pci) => pci.updatedCoin)) .finish(); this.notifier.notify(); } /** * Save a proposal in the database and return an id for it to * retrieve it later. */ async saveProposal(proposal: ProposalRecord): Promise { const id = await this.q().putWithResult(Stores.proposals, proposal); this.notifier.notify(); if (typeof id !== "number") { throw Error("db schema wrong"); } return id; } /** * Add a contract to the wallet and sign coins, * but do not send them yet. */ async confirmPay(proposalId: number): Promise { console.log("executing confirmPay"); const proposal: ProposalRecord|undefined = await this.q().get(Stores.proposals, proposalId); if (!proposal) { throw Error(`proposal with id ${proposalId} not found`); } const purchase = await this.q().get(Stores.purchases, proposal.contractTermsHash); if (purchase) { // Already payed ... return "paid"; } const res = await this.getCoinsForPayment({ allowedAuditors: proposal.contractTerms.auditors, allowedExchanges: proposal.contractTerms.exchanges, depositFeeLimit: proposal.contractTerms.max_fee, paymentAmount: proposal.contractTerms.amount, wireFeeAmortization: proposal.contractTerms.wire_fee_amortization || 1, wireFeeLimit: proposal.contractTerms.max_wire_fee || Amounts.getZero(proposal.contractTerms.amount.currency), wireFeeTime: getTalerStampSec(proposal.contractTerms.timestamp) || 0, wireMethod: proposal.contractTerms.wire_method, }); console.log("max_fee", proposal.contractTerms.max_fee); console.log("coin selection result", res); if (!res) { console.log("not confirming payment, insufficient coins"); return "insufficient-balance"; } const {exchangeUrl, cds} = res; const ds = await this.cryptoApi.signDeposit(proposal.contractTerms, cds); await this.recordConfirmPay(proposal, ds, exchangeUrl); return "paid"; } /** * Check if payment for an offer is possible, or if the offer has already * been payed for. */ async checkPay(proposalId: number): Promise { const proposal = await this.q().get(Stores.proposals, proposalId); if (!proposal) { throw Error(`proposal with id ${proposalId} not found`); } // First check if we already payed for it. const purchase = await this.q().get(Stores.purchases, proposal.contractTermsHash); if (purchase) { return { status: "paid" }; } // If not already payed, check if we could pay for it. const res = await this.getCoinsForPayment({ allowedAuditors: proposal.contractTerms.auditors, allowedExchanges: proposal.contractTerms.exchanges, depositFeeLimit: proposal.contractTerms.max_fee, paymentAmount: proposal.contractTerms.amount, wireFeeAmortization: proposal.contractTerms.wire_fee_amortization || 1, wireFeeLimit: proposal.contractTerms.max_wire_fee || Amounts.getZero(proposal.contractTerms.amount.currency), wireFeeTime: getTalerStampSec(proposal.contractTerms.timestamp) || 0, wireMethod: proposal.contractTerms.wire_method, }); if (!res) { console.log("not confirming payment, insufficient coins"); return { status: "insufficient-balance" }; } return { status: "payment-possible", coinSelection: res }; } /** * Retrieve information required to pay for a contract, where the * contract is identified via the fulfillment url. */ async queryPayment(url: string): Promise { console.log("query for payment", url); const t = await this.q().getIndexed(Stores.purchases.fulfillmentUrlIndex, url); if (!t) { console.log("query for payment failed"); return { found: false, }; } console.log("query for payment succeeded:", t); return { contractTerms: t.contractTerms, contractTermsHash: t.contractTermsHash, found: true, payReq: t.payReq, }; } /** * First fetch information requred to withdraw from the reserve, * then deplete the reserve, withdrawing coins until it is empty. */ private async processReserve(reserveRecord: ReserveRecord, retryDelayMs: number = 250): Promise { const opId = "reserve-" + reserveRecord.reserve_pub; this.startOperation(opId); try { const reserve = await this.updateReserve(reserveRecord.reserve_pub); await this.depleteReserve(reserve); } catch (e) { // random, exponential backoff truncated at 3 minutes const nextDelay = Math.min(2 * retryDelayMs + retryDelayMs * Math.random(), 3000 * 60); console.warn(`Failed to deplete reserve, trying again in ${retryDelayMs} ms`); this.timerGroup.after(retryDelayMs, () => this.processReserve(reserveRecord, nextDelay)); } finally { this.stopOperation(opId); } } /** * Given a planchet, withdraw a coin from the exchange. */ private async processPreCoin(preCoin: PreCoinRecord, retryDelayMs = 200): Promise { // Throttle concurrent executions of this function, so we don't withdraw too many coins at once. if (this.processPreCoinConcurrent >= 4 || this.processPreCoinThrottle[preCoin.exchangeBaseUrl]) { console.log("delaying processPreCoin"); this.timerGroup.after(retryDelayMs, () => this.processPreCoin(preCoin, Math.min(retryDelayMs * 2, 5 * 60 * 1000))); return; } console.log("executing processPreCoin", preCoin); this.processPreCoinConcurrent++; try { const exchange = await this.q().get(Stores.exchanges, preCoin.exchangeBaseUrl); if (!exchange) { console.error("db inconsistent: exchange for precoin not found"); return; } const denom = await this.q().get(Stores.denominations, [preCoin.exchangeBaseUrl, preCoin.denomPub]); if (!denom) { console.error("db inconsistent: denom for precoin not found"); return; } const coin = await this.withdrawExecute(preCoin); console.log("processPreCoin: got coin", coin); const mutateReserve = (r: ReserveRecord) => { console.log(`before committing coin: current ${amountToPretty(r.current_amount!)}, precoin: ${amountToPretty( r.precoin_amount)})}`); const x = Amounts.sub(r.precoin_amount, preCoin.coinValue, denom.feeWithdraw); if (x.saturated) { console.error("database inconsistent"); throw AbortTransaction; } r.precoin_amount = x.amount; return r; }; await this.q() .mutate(Stores.reserves, preCoin.reservePub, mutateReserve) .delete(Stores.precoins, coin.coinPub) .add(Stores.coins, coin) .finish(); if (coin.status === CoinStatus.TainedByTip) { let tip = await this.q().getIndexed(Stores.tips.coinPubIndex, coin.coinPub); if (!tip) { throw Error(`inconsistent DB: tip for coin pub ${coin.coinPub} not found.`); } if (tip.accepted) { console.log("untainting already accepted tip"); // Transactionally set coin to fresh. const mutateCoin = (c: CoinRecord) => { if (c.status === CoinStatus.TainedByTip) { c.status = CoinStatus.Fresh; } return c; } await this.q().mutate(Stores.coins, coin.coinPub, mutateCoin) } } this.notifier.notify(); } catch (e) { console.error("Failed to withdraw coin from precoin, retrying in", retryDelayMs, "ms", e); // exponential backoff truncated at one minute const nextRetryDelayMs = Math.min(retryDelayMs * 2, 5 * 60 * 1000); this.timerGroup.after(retryDelayMs, () => this.processPreCoin(preCoin, nextRetryDelayMs)); const currentThrottle = this.processPreCoinThrottle[preCoin.exchangeBaseUrl] || 0; this.processPreCoinThrottle[preCoin.exchangeBaseUrl] = currentThrottle + 1; this.timerGroup.after(retryDelayMs, () => {this.processPreCoinThrottle[preCoin.exchangeBaseUrl]--; }); } finally { this.processPreCoinConcurrent--; } } /** * 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 createReserve(req: CreateReserveRequest): Promise { const keypair = await this.cryptoApi.createEddsaKeypair(); const now = (new Date()).getTime(); const canonExchange = canonicalizeBaseUrl(req.exchange); const reserveRecord: ReserveRecord = { created: now, current_amount: null, exchange_base_url: canonExchange, hasPayback: false, precoin_amount: Amounts.getZero(req.amount.currency), requested_amount: req.amount, reserve_priv: keypair.priv, reserve_pub: keypair.pub, senderWire: req.senderWire, timestamp_confirmed: 0, timestamp_depleted: 0, }; const exchangeInfo = await this.updateExchangeFromUrl(req.exchange); const {isAudited, isTrusted} = await this.getExchangeTrust(exchangeInfo); let currencyRecord = await this.q().get(Stores.currencies, exchangeInfo.currency); if (!currencyRecord) { currencyRecord = { auditors: [], exchanges: [], fractionalDigits: 2, name: exchangeInfo.currency, }; } if (!isAudited && !isTrusted) { currencyRecord.exchanges.push({baseUrl: req.exchange, exchangePub: exchangeInfo.masterPublicKey}); } await this.q() .put(Stores.currencies, currencyRecord) .put(Stores.reserves, reserveRecord) .finish(); const r: CreateReserveResponse = { exchange: canonExchange, reservePub: keypair.pub, }; return r; } /** * Mark an existing reserve as confirmed. The wallet will start trying * to withdraw from that reserve. This may not immediately succeed, * since the exchange might not know about the reserve yet, even though the * bank confirmed its creation. * * A confirmed reserve should be shown to the user in the UI, while * an unconfirmed reserve should be hidden. */ async confirmReserve(req: ConfirmReserveRequest): Promise { const now = (new Date()).getTime(); const reserve: ReserveRecord|undefined = await ( this.q().get(Stores.reserves, req.reservePub)); if (!reserve) { console.error("Unable to confirm reserve, not found in DB"); return; } console.log("reserve confirmed"); reserve.timestamp_confirmed = now; await this.q() .put(Stores.reserves, reserve) .finish(); this.notifier.notify(); this.processReserve(reserve); } private async withdrawExecute(pc: PreCoinRecord): Promise { const wd: any = {}; wd.denom_pub = pc.denomPub; wd.reserve_pub = pc.reservePub; wd.reserve_sig = pc.withdrawSig; wd.coin_ev = pc.coinEv; const reqUrl = (new URI("reserve/withdraw")).absoluteTo(pc.exchangeBaseUrl); const resp = await this.http.postJson(reqUrl.href(), wd); if (resp.status !== 200) { throw new RequestException({ hint: "Withdrawal failed", status: resp.status, }); } const r = JSON.parse(resp.responseText); const denomSig = await this.cryptoApi.rsaUnblind(r.ev_sig, pc.blindingKey, pc.denomPub); const coin: CoinRecord = { blindingKey: pc.blindingKey, coinPriv: pc.coinPriv, coinPub: pc.coinPub, currentAmount: pc.coinValue, denomPub: pc.denomPub, denomSig, exchangeBaseUrl: pc.exchangeBaseUrl, reservePub: pc.reservePub, status: pc.isFromTip ? CoinStatus.TainedByTip : CoinStatus.Fresh, }; return coin; } /** * Withdraw coins from a reserve until it is empty. * * When finished, marks the reserve as depleted by setting * the depleted timestamp. */ private async depleteReserve(reserve: ReserveRecord): Promise { console.log("depleting reserve"); if (!reserve.current_amount) { throw Error("can't withdraw when amount is unknown"); } const withdrawAmount = reserve.current_amount; if (!withdrawAmount) { throw Error("can't withdraw when amount is unknown"); } const denomsForWithdraw = await this.getVerifiedWithdrawDenomList(reserve.exchange_base_url, withdrawAmount); const smallestAmount = await this.getVerifiedSmallestWithdrawAmount(reserve.exchange_base_url); console.log(`withdrawing ${denomsForWithdraw.length} coins`); const ps = denomsForWithdraw.map(async(denom) => { function mutateReserve(r: ReserveRecord): ReserveRecord { const currentAmount = r.current_amount; if (!currentAmount) { throw Error("can't withdraw when amount is unknown"); } r.precoin_amount = Amounts.add(r.precoin_amount, denom.value, denom.feeWithdraw).amount; const result = Amounts.sub(currentAmount, denom.value, denom.feeWithdraw); if (result.saturated) { console.error("can't create precoin, saturated"); throw AbortTransaction; } r.current_amount = result.amount; // Reserve is depleted if the amount left is too small to withdraw if (Amounts.cmp(r.current_amount, smallestAmount) < 0) { r.timestamp_depleted = (new Date()).getTime(); } console.log(`after creating precoin: current ${amountToPretty(r.current_amount)}, precoin: ${amountToPretty( r.precoin_amount)})}`); return r; } const preCoin = await this.cryptoApi .createPreCoin(denom, reserve); await this.q() .put(Stores.precoins, preCoin) .mutate(Stores.reserves, reserve.reserve_pub, mutateReserve); await this.processPreCoin(preCoin); }); await Promise.all(ps); } /** * Update the information about a reserve that is stored in the wallet * by quering the reserve's exchange. */ private async updateReserve(reservePub: string): Promise { const reserve = await this.q() .get(Stores.reserves, reservePub); if (!reserve) { throw Error("reserve not in db"); } const reqUrl = new URI("reserve/status").absoluteTo(reserve.exchange_base_url); reqUrl.query({reserve_pub: reservePub}); const resp = await this.http.get(reqUrl.href()); if (resp.status !== 200) { throw Error(); } const reserveInfo = JSON.parse(resp.responseText); if (!reserveInfo) { throw Error(); } reserve.current_amount = reserveInfo.balance; await this.q() .put(Stores.reserves, reserve) .finish(); this.notifier.notify(); return reserve; } /** * Get the wire information for the exchange with the given base URL. */ async getWireInfo(exchangeBaseUrl: string): Promise { exchangeBaseUrl = canonicalizeBaseUrl(exchangeBaseUrl); const reqUrl = new URI("wire").absoluteTo(exchangeBaseUrl); const resp = await this.http.get(reqUrl.href()); if (resp.status !== 200) { throw Error("/wire request failed"); } const wiJson = JSON.parse(resp.responseText); if (!wiJson) { throw Error("/wire response malformed"); } return wiJson; } async getPossibleDenoms(exchangeBaseUrl: string) { return ( this.q().iterIndex(Stores.denominations.exchangeBaseUrlIndex, exchangeBaseUrl) .filter((d) => d.status === DenominationStatus.Unverified || d.status === DenominationStatus.VerifiedGood) .toArray() ); } /** * Compute the smallest withdrawable amount possible, based on verified denominations. * * Writes to the DB in order to record the result from verifying * denominations. */ async getVerifiedSmallestWithdrawAmount(exchangeBaseUrl: string): Promise { const exchange = await this.q().get(Stores.exchanges, exchangeBaseUrl); if (!exchange) { throw Error(`exchange ${exchangeBaseUrl} not found`); } const possibleDenoms = await ( this.q().iterIndex(Stores.denominations.exchangeBaseUrlIndex, exchange.baseUrl) .filter((d) => d.status === DenominationStatus.Unverified || d.status === DenominationStatus.VerifiedGood) .toArray() ); possibleDenoms.sort((d1, d2) => { const a1 = Amounts.add(d1.feeWithdraw, d1.value).amount; const a2 = Amounts.add(d2.feeWithdraw, d2.value).amount; return Amounts.cmp(a1, a2); }); for (const denom of possibleDenoms) { if (denom.status === DenominationStatus.VerifiedGood) { return Amounts.add(denom.feeWithdraw, denom.value).amount; } console.log(`verifying denom ${denom.denomPub.substr(0, 15)}`); const valid = await this.cryptoApi.isValidDenom(denom, exchange.masterPublicKey); if (!valid) { denom.status = DenominationStatus.VerifiedBad; } else { denom.status = DenominationStatus.VerifiedGood; } await this.q().put(Stores.denominations, denom).finish(); if (valid) { return Amounts.add(denom.feeWithdraw, denom.value).amount; } } return Amounts.getZero(exchange.currency); } /** * Get a list of denominations to withdraw from the given exchange for the * given amount, making sure that all denominations' signatures are verified. * * Writes to the DB in order to record the result from verifying * denominations. */ async getVerifiedWithdrawDenomList(exchangeBaseUrl: string, amount: AmountJson): Promise { const exchange = await this.q().get(Stores.exchanges, exchangeBaseUrl); if (!exchange) { throw Error(`exchange ${exchangeBaseUrl} not found`); } const possibleDenoms = await ( this.q().iterIndex(Stores.denominations.exchangeBaseUrlIndex, exchange.baseUrl) .filter((d) => d.status === DenominationStatus.Unverified || d.status === DenominationStatus.VerifiedGood) .toArray() ); let allValid = false; let currentPossibleDenoms = possibleDenoms; let selectedDenoms: DenominationRecord[]; do { allValid = true; const nextPossibleDenoms = []; selectedDenoms = getWithdrawDenomList(amount, possibleDenoms); for (const denom of selectedDenoms || []) { if (denom.status === DenominationStatus.Unverified) { console.log(`verifying denom ${denom.denomPub.substr(0, 15)}`); const valid = await this.cryptoApi.isValidDenom(denom, exchange.masterPublicKey); if (!valid) { denom.status = DenominationStatus.VerifiedBad; allValid = false; } else { denom.status = DenominationStatus.VerifiedGood; nextPossibleDenoms.push(denom); } await this.q().put(Stores.denominations, denom).finish(); } else { nextPossibleDenoms.push(denom); } } currentPossibleDenoms = nextPossibleDenoms; } while (selectedDenoms.length > 0 && !allValid); return selectedDenoms; } /** * Check if and how an exchange is trusted and/or audited. */ async getExchangeTrust(exchangeInfo: ExchangeRecord): Promise<{isTrusted: boolean, isAudited: boolean}> { let isTrusted = false; let isAudited = false; const currencyRecord = await this.q().get(Stores.currencies, exchangeInfo.currency); if (currencyRecord) { for (const trustedExchange of currencyRecord.exchanges) { if (trustedExchange.exchangePub === exchangeInfo.masterPublicKey) { isTrusted = true; break; } } for (const trustedAuditor of currencyRecord.auditors) { for (const exchangeAuditor of exchangeInfo.auditors) { if (trustedAuditor.auditorPub === exchangeAuditor.auditor_pub) { isAudited = true; break; } } } } return {isTrusted, isAudited}; } async getReserveCreationInfo(baseUrl: string, amount: AmountJson): Promise { const exchangeInfo = await this.updateExchangeFromUrl(baseUrl); const selectedDenoms = await this.getVerifiedWithdrawDenomList(baseUrl, amount); let acc = Amounts.getZero(amount.currency); for (const d of selectedDenoms) { acc = Amounts.add(acc, d.feeWithdraw).amount; } const actualCoinCost = selectedDenoms .map((d: DenominationRecord) => Amounts.add(d.value, d.feeWithdraw).amount) .reduce((a, b) => Amounts.add(a, b).amount); const wireInfo = await this.getWireInfo(baseUrl); const wireFees = await this.q().get(Stores.exchangeWireFees, baseUrl); if (!wireFees) { // should never happen unless DB is inconsistent throw Error(`no wire fees found for exchange ${baseUrl}`); } const {isTrusted, isAudited} = await this.getExchangeTrust(exchangeInfo); let earliestDepositExpiration = Infinity; for (const denom of selectedDenoms) { const expireDeposit = getTalerStampSec(denom.stampExpireDeposit)!; if (expireDeposit < earliestDepositExpiration) { earliestDepositExpiration = expireDeposit; } } const possibleDenoms = await ( this.q().iterIndex(Stores.denominations.exchangeBaseUrlIndex, baseUrl) .filter((d) => d.isOffered) .toArray() ) || []; const trustedAuditorPubs = []; const currencyRecord = await this.q().get(Stores.currencies, amount.currency); if (currencyRecord) { trustedAuditorPubs.push(...currencyRecord.auditors.map((a) => a.auditorPub)); } let versionMatch; if (exchangeInfo.protocolVersion) { versionMatch = LibtoolVersion.compare(WALLET_PROTOCOL_VERSION, exchangeInfo.protocolVersion); if (versionMatch && !versionMatch.compatible && versionMatch.currentCmp === -1) { console.log("wallet version might be outdated, checking for updates"); chrome.runtime.requestUpdateCheck((status, details) => { console.log("update check status:", status); }); } } const ret: ReserveCreationInfo = { earliestDepositExpiration, exchangeInfo, isAudited, isTrusted, numOfferedDenoms: possibleDenoms.length, overhead: Amounts.sub(amount, actualCoinCost).amount, selectedDenoms, trustedAuditorPubs, versionMatch, wireFees, wireInfo, withdrawFee: acc, exchangeVersion: exchangeInfo.protocolVersion || "unknown", walletVersion: WALLET_PROTOCOL_VERSION, }; return ret; } /** * Update or add exchange DB entry by fetching the /keys information. * Optionally link the reserve entry to the new or existing * exchange entry in then DB. */ async updateExchangeFromUrl(baseUrl: string): Promise { baseUrl = canonicalizeBaseUrl(baseUrl); const keysUrl = new URI("keys").absoluteTo(baseUrl); const wireUrl = new URI("wire").absoluteTo(baseUrl); const keysResp = await this.http.get(keysUrl.href()); if (keysResp.status !== 200) { throw Error("/keys request failed"); } const wireResp = await this.http.get(wireUrl.href()); if (wireResp.status !== 200) { throw Error("/wire request failed"); } const exchangeKeysJson = KeysJson.checked(JSON.parse(keysResp.responseText)); const wireRespJson = JSON.parse(wireResp.responseText); if (typeof wireRespJson !== "object") { throw Error("/wire response is not an object"); } console.log("exchange wire", wireRespJson); const wireMethodDetails: WireDetailJson[] = []; for (const methodName in wireRespJson) { wireMethodDetails.push(WireDetailJson.checked(wireRespJson[methodName])); } return this.updateExchangeFromJson(baseUrl, exchangeKeysJson, wireMethodDetails); } private async suspendCoins(exchangeInfo: ExchangeRecord): Promise { const resultSuspendedCoins = await ( this.q() .iterIndex(Stores.coins.exchangeBaseUrlIndex, exchangeInfo.baseUrl) .indexJoinLeft(Stores.denominations.exchangeBaseUrlIndex, (e) => e.exchangeBaseUrl) .reduce((cd: JoinLeftResult, suspendedCoins: CoinRecord[]) => { if ((!cd.right) || (!cd.right.isOffered)) { return Array.prototype.concat(suspendedCoins, [cd.left]); } return Array.prototype.concat(suspendedCoins); }, [])); const q = this.q(); resultSuspendedCoins.map((c) => { console.log("suspending coin", c); c.suspended = true; q.put(Stores.coins, c); this.notifier.notify(); }); await q.finish(); } private async updateExchangeFromJson(baseUrl: string, exchangeKeysJson: KeysJson, wireMethodDetails: WireDetailJson[]): Promise { // FIXME: all this should probably be commited atomically const updateTimeSec = getTalerStampSec(exchangeKeysJson.list_issue_date); if (updateTimeSec === null) { throw Error("invalid update time"); } if (exchangeKeysJson.denoms.length === 0) { throw Error("exchange doesn't offer any denominations"); } const r = await this.q().get(Stores.exchanges, baseUrl); let exchangeInfo: ExchangeRecord; if (!r) { exchangeInfo = { auditors: exchangeKeysJson.auditors, baseUrl, currency: exchangeKeysJson.denoms[0].value.currency, lastUpdateTime: updateTimeSec, masterPublicKey: exchangeKeysJson.master_public_key, }; console.log("making fresh exchange"); } else { if (updateTimeSec < r.lastUpdateTime) { console.log("outdated /keys, not updating"); return r; } exchangeInfo = r; exchangeInfo.lastUpdateTime = updateTimeSec; console.log("updating old exchange"); } const updatedExchangeInfo = await this.updateExchangeInfo(exchangeInfo, exchangeKeysJson); await this.suspendCoins(updatedExchangeInfo); updatedExchangeInfo.protocolVersion = exchangeKeysJson.version; await this.q() .put(Stores.exchanges, updatedExchangeInfo) .finish(); let oldWireFees = await this.q().get(Stores.exchangeWireFees, baseUrl); if (!oldWireFees) { oldWireFees = { exchangeBaseUrl: baseUrl, feesForType: {}, }; } for (const detail of wireMethodDetails) { let latestFeeStamp = 0; const fees = oldWireFees.feesForType[detail.type] || []; oldWireFees.feesForType[detail.type] = fees; for (const oldFee of fees) { if (oldFee.endStamp > latestFeeStamp) { latestFeeStamp = oldFee.endStamp; } } for (const fee of detail.fees) { const start = getTalerStampSec(fee.start_date); if (start === null) { console.error("invalid start stamp in fee", fee); continue; } if (start < latestFeeStamp) { continue; } const end = getTalerStampSec(fee.end_date); if (end === null) { console.error("invalid end stamp in fee", fee); continue; } const wf: WireFee = { closingFee: fee.closing_fee, endStamp: end, sig: fee.sig, startStamp: start, wireFee: fee.wire_fee, }; const valid: boolean = await this.cryptoApi.isValidWireFee(detail.type, wf, exchangeInfo.masterPublicKey); if (!valid) { console.error("fee signature invalid", fee); throw Error("fee signature invalid"); } fees.push(wf); } } await this.q().put(Stores.exchangeWireFees, oldWireFees); if (exchangeKeysJson.payback) { for (const payback of exchangeKeysJson.payback) { const denom = await this.q().getIndexed(Stores.denominations.denomPubHashIndex, payback.h_denom_pub); if (!denom) { continue; } console.log(`cashing back denom`, denom); const coins = await this.q().iterIndex(Stores.coins.denomPubIndex, denom.denomPub).toArray(); for (const coin of coins) { this.payback(coin.coinPub); } } } return updatedExchangeInfo; } private async updateExchangeInfo(exchangeInfo: ExchangeRecord, newKeys: KeysJson): Promise { if (exchangeInfo.masterPublicKey !== newKeys.master_public_key) { throw Error("public keys do not match"); } const existingDenoms: {[denomPub: string]: DenominationRecord} = await ( this.q().iterIndex(Stores.denominations.exchangeBaseUrlIndex, exchangeInfo.baseUrl) .reduce((x: DenominationRecord, acc: typeof existingDenoms) => (acc[x.denomPub] = x, acc), {}) ); const newDenoms: typeof existingDenoms = {}; const newAndUnseenDenoms: typeof existingDenoms = {}; for (const d of newKeys.denoms) { const dr = await this.denominationRecordFromKeys(exchangeInfo.baseUrl, d); if (!(d.denom_pub in existingDenoms)) { newAndUnseenDenoms[dr.denomPub] = dr; } newDenoms[dr.denomPub] = dr; } for (const oldDenomPub in existingDenoms) { if (!(oldDenomPub in newDenoms)) { const d = existingDenoms[oldDenomPub]; d.isOffered = false; } } await this.q() .putAll(Stores.denominations, Object.keys(newAndUnseenDenoms).map((d) => newAndUnseenDenoms[d])) .putAll(Stores.denominations, Object.keys(existingDenoms).map((d) => existingDenoms[d])) .finish(); return exchangeInfo; } /** * Get detailed balance information, sliced by exchange and by currency. */ async getBalances(): Promise { /** * Add amount to a balance field, both for * the slicing by exchange and currency. */ function addTo(balance: WalletBalance, field: keyof WalletBalanceEntry, amount: AmountJson, exchange: string): void { const z = Amounts.getZero(amount.currency); const balanceIdentity = {available: z, paybackAmount: z, pendingIncoming: z, pendingPayment: z}; let entryCurr = balance.byCurrency[amount.currency]; if (!entryCurr) { balance.byCurrency[amount.currency] = entryCurr = { ...balanceIdentity }; } let entryEx = balance.byExchange[exchange]; if (!entryEx) { balance.byExchange[exchange] = entryEx = { ...balanceIdentity }; } entryCurr[field] = Amounts.add(entryCurr[field], amount).amount; entryEx[field] = Amounts.add(entryEx[field], amount).amount; } function collectBalances(c: CoinRecord, balance: WalletBalance) { if (c.suspended) { return balance; } if (c.status === CoinStatus.Fresh) { addTo(balance, "available", c.currentAmount, c.exchangeBaseUrl); return balance; } if (c.status === CoinStatus.Dirty) { addTo(balance, "pendingIncoming", c.currentAmount, c.exchangeBaseUrl); return balance; } return balance; } function collectPendingWithdraw(r: ReserveRecord, balance: WalletBalance) { if (!r.timestamp_confirmed) { return balance; } let amount = r.current_amount; if (!amount) { amount = r.requested_amount; } amount = Amounts.add(amount, r.precoin_amount).amount; if (Amounts.cmp(smallestWithdraw[r.exchange_base_url], amount) < 0) { addTo(balance, "pendingIncoming", amount, r.exchange_base_url); } return balance; } function collectPaybacks(r: ReserveRecord, balance: WalletBalance) { if (!r.hasPayback) { return balance; } if (Amounts.cmp(smallestWithdraw[r.exchange_base_url], r.current_amount!) < 0) { addTo(balance, "paybackAmount", r.current_amount!, r.exchange_base_url); } return balance; } function collectPendingRefresh(r: RefreshSessionRecord, balance: WalletBalance) { // Don't count finished refreshes, since the refresh already resulted // in coins being added to the wallet. if (r.finished) { return balance; } addTo(balance, "pendingIncoming", r.valueOutput, r.exchangeBaseUrl); return balance; } function collectPayments(t: PurchaseRecord, balance: WalletBalance) { if (t.finished) { return balance; } addTo(balance, "pendingIncoming", t.contractTerms.amount, t.payReq.exchange); return balance; } function collectSmallestWithdraw(e: JoinResult, sw: any) { let min = sw[e.left.baseUrl]; const v = Amounts.add(e.right.value, e.right.feeWithdraw).amount; if (!min) { min = v; } else if (Amounts.cmp(v, min) < 0) { min = v; } sw[e.left.baseUrl] = min; return sw; } const balanceStore = { byCurrency: {}, byExchange: {}, }; // Mapping from exchange pub to smallest // possible amount we can withdraw let smallestWithdraw: {[baseUrl: string]: AmountJson} = {}; smallestWithdraw = await (this.q() .iter(Stores.exchanges) .indexJoin(Stores.denominations.exchangeBaseUrlIndex, (x) => x.baseUrl) .reduce(collectSmallestWithdraw, {})); const tx = this.q(); tx.iter(Stores.coins) .reduce(collectBalances, balanceStore); tx.iter(Stores.refresh) .reduce(collectPendingRefresh, balanceStore); tx.iter(Stores.reserves) .reduce(collectPendingWithdraw, balanceStore); tx.iter(Stores.reserves) .reduce(collectPaybacks, balanceStore); tx.iter(Stores.purchases) .reduce(collectPayments, balanceStore); await tx.finish(); return balanceStore; } async createRefreshSession(oldCoinPub: string): Promise { const coin = await this.q().get(Stores.coins, oldCoinPub); if (!coin) { throw Error("coin not found"); } if (coin.currentAmount.value === 0 && coin.currentAmount.fraction === 0) { return undefined; } const exchange = await this.updateExchangeFromUrl(coin.exchangeBaseUrl); if (!exchange) { throw Error("db inconsistent"); } const oldDenom = await this.q().get(Stores.denominations, [exchange.baseUrl, coin.denomPub]); if (!oldDenom) { throw Error("db inconsistent"); } const availableDenoms: DenominationRecord[] = await ( this.q() .iterIndex(Stores.denominations.exchangeBaseUrlIndex, exchange.baseUrl) .toArray() ); const availableAmount = Amounts.sub(coin.currentAmount, oldDenom.feeRefresh).amount; const newCoinDenoms = getWithdrawDenomList(availableAmount, availableDenoms); console.log("refreshing coin", coin); console.log("refreshing into", newCoinDenoms); if (newCoinDenoms.length === 0) { console.log(`not refreshing, available amount ${amountToPretty(availableAmount)} too small`); coin.status = CoinStatus.Useless; await this.q().put(Stores.coins, coin); this.notifier.notify(); return undefined; } const refreshSession: RefreshSessionRecord = await ( this.cryptoApi.createRefreshSession(exchange.baseUrl, 3, coin, newCoinDenoms, oldDenom.feeRefresh)); function mutateCoin(c: CoinRecord): CoinRecord { const r = Amounts.sub(c.currentAmount, refreshSession.valueWithFee); if (r.saturated) { // Something else must have written the coin value throw AbortTransaction; } c.currentAmount = r.amount; c.status = CoinStatus.Refreshed; return c; } // Store refresh session and subtract refreshed amount from // coin in the same transaction. const query = this.q(); query.put(Stores.refresh, refreshSession, "refreshKey") .mutate(Stores.coins, coin.coinPub, mutateCoin); await query.finish(); this.notifier.notify(); const key = query.key("refreshKey"); if (!key || typeof key !== "number") { throw Error("insert failed"); } refreshSession.id = key; return refreshSession; } async refresh(oldCoinPub: string): Promise { const oldRefreshSessions = await this.q().iter(Stores.refresh).toArray(); for (const session of oldRefreshSessions) { console.log("got old session for", oldCoinPub, session); this.continueRefreshSession(session); } const coin = await this.q().get(Stores.coins, oldCoinPub); if (!coin) { console.warn("can't refresh, coin not in database"); return; } if (coin.status === CoinStatus.Useless || coin.status === CoinStatus.Fresh) { return; } const refreshSession = await this.createRefreshSession(oldCoinPub); if (!refreshSession) { // refreshing not necessary console.log("not refreshing", oldCoinPub); return; } this.continueRefreshSession(refreshSession); } async continueRefreshSession(refreshSession: RefreshSessionRecord) { if (refreshSession.finished) { return; } if (typeof refreshSession.norevealIndex !== "number") { await this.refreshMelt(refreshSession); const r = await this.q().get(Stores.refresh, refreshSession.id); if (!r) { throw Error("refresh session does not exist anymore"); } refreshSession = r; } await this.refreshReveal(refreshSession); } async refreshMelt(refreshSession: RefreshSessionRecord): Promise { if (refreshSession.norevealIndex !== undefined) { console.error("won't melt again"); return; } const coin = await this.q().get(Stores.coins, refreshSession.meltCoinPub); if (!coin) { console.error("can't melt coin, it does not exist"); return; } const reqUrl = new URI("refresh/melt").absoluteTo(refreshSession.exchangeBaseUrl); const meltReq = { coin_pub: coin.coinPub, confirm_sig: refreshSession.confirmSig, denom_pub: coin.denomPub, denom_sig: coin.denomSig, rc: refreshSession.hash, value_with_fee: refreshSession.valueWithFee, }; console.log("melt request:", meltReq); const resp = await this.http.postJson(reqUrl.href(), meltReq); console.log("melt response:", resp.responseText); if (resp.status !== 200) { console.error(resp.responseText); throw Error("refresh failed"); } const respJson = JSON.parse(resp.responseText); if (!respJson) { throw Error("exchange responded with garbage"); } const norevealIndex = respJson.noreveal_index; if (typeof norevealIndex !== "number") { throw Error("invalid response"); } refreshSession.norevealIndex = norevealIndex; await this.q().put(Stores.refresh, refreshSession).finish(); this.notifier.notify(); } async refreshReveal(refreshSession: RefreshSessionRecord): Promise { const norevealIndex = refreshSession.norevealIndex; if (norevealIndex === undefined) { throw Error("can't reveal without melting first"); } const privs = Array.from(refreshSession.transferPrivs); privs.splice(norevealIndex, 1); const preCoins = refreshSession.preCoinsForGammas[norevealIndex]; if (!preCoins) { throw Error("refresh index error"); } const evs = preCoins.map((x: RefreshPreCoinRecord) => x.coinEv); const req = { coin_evs: evs, new_denoms_h: refreshSession.newDenomHashes, rc: refreshSession.hash, transfer_privs: privs, transfer_pub: refreshSession.transferPubs[norevealIndex], }; const reqUrl = new URI("refresh/reveal") .absoluteTo(refreshSession.exchangeBaseUrl); console.log("reveal request:", req); const resp = await this.http.postJson(reqUrl.href(), req); console.log("session:", refreshSession); console.log("reveal response:", resp); if (resp.status !== 200) { console.log("error: /refresh/reveal returned status " + resp.status); return; } const respJson = JSON.parse(resp.responseText); if (!respJson.ev_sigs || !Array.isArray(respJson.ev_sigs)) { console.log("/refresh/reveal did not contain ev_sigs"); } const exchange = await this.q().get(Stores.exchanges, refreshSession.exchangeBaseUrl); if (!exchange) { console.error(`exchange ${refreshSession.exchangeBaseUrl} not found`); return; } const coins: CoinRecord[] = []; for (let i = 0; i < respJson.ev_sigs.length; i++) { const denom = await ( this.q() .get(Stores.denominations, [ refreshSession.exchangeBaseUrl, refreshSession.newDenoms[i], ])); if (!denom) { console.error("denom not found"); continue; } const pc = refreshSession.preCoinsForGammas[refreshSession.norevealIndex!][i]; const denomSig = await this.cryptoApi.rsaUnblind(respJson.ev_sigs[i].ev_sig, pc.blindingKey, denom.denomPub); const coin: CoinRecord = { blindingKey: pc.blindingKey, coinPriv: pc.privateKey, coinPub: pc.publicKey, currentAmount: denom.value, denomPub: denom.denomPub, denomSig, exchangeBaseUrl: refreshSession.exchangeBaseUrl, reservePub: undefined, status: CoinStatus.Fresh, }; coins.push(coin); } refreshSession.finished = true; await this.q() .putAll(Stores.coins, coins) .put(Stores.refresh, refreshSession) .finish(); this.notifier.notify(); } /** * Retrive the full event history for this wallet. */ async getHistory(): Promise<{history: HistoryRecord[]}> { const history: HistoryRecord[] = []; // FIXME: do pagination instead of generating the full history const proposals = await this.q().iter(Stores.proposals).toArray(); for (const p of proposals) { history.push({ detail: { contractTermsHash: p.contractTermsHash, merchantName: p.contractTerms.merchant.name, }, timestamp: p.timestamp, type: "offer-contract", }); } const purchases = await this.q().iter(Stores.purchases).toArray(); for (const p of purchases) { history.push({ detail: { amount: p.contractTerms.amount, contractTermsHash: p.contractTermsHash, fulfillmentUrl: p.contractTerms.fulfillment_url, merchantName: p.contractTerms.merchant.name, }, timestamp: p.timestamp, type: "pay", }); if (p.timestamp_refund) { const amountsPending = Object.keys(p.refundsPending).map((x) => p.refundsPending[x].refund_amount); const amountsDone = Object.keys(p.refundsDone).map((x) => p.refundsDone[x].refund_amount); const amounts: AmountJson[] = amountsPending.concat(amountsDone); const amount = Amounts.add(Amounts.getZero(p.contractTerms.amount.currency), ...amounts).amount; history.push({ detail: { contractTermsHash: p.contractTermsHash, fulfillmentUrl: p.contractTerms.fulfillment_url, merchantName: p.contractTerms.merchant.name, refundAmount: amount, }, timestamp: p.timestamp_refund, type: "refund", }); } } const reserves: ReserveRecord[] = await this.q().iter(Stores.reserves).toArray(); for (const r of reserves) { history.push({ detail: { exchangeBaseUrl: r.exchange_base_url, requestedAmount: r.requested_amount, reservePub: r.reserve_pub, }, timestamp: r.created, type: "create-reserve", }); if (r.timestamp_depleted) { history.push({ detail: { exchangeBaseUrl: r.exchange_base_url, requestedAmount: r.requested_amount, reservePub: r.reserve_pub, }, timestamp: r.timestamp_depleted, type: "depleted-reserve", }); } } history.sort((h1, h2) => Math.sign(h1.timestamp - h2.timestamp)); return {history}; } async getDenoms(exchangeUrl: string): Promise { const denoms = await this.q().iterIndex(Stores.denominations.exchangeBaseUrlIndex, exchangeUrl).toArray(); return denoms; } async getProposal(proposalId: number): Promise { const proposal = await this.q().get(Stores.proposals, proposalId); return proposal; } async getExchanges(): Promise { return this.q() .iter(Stores.exchanges) .toArray(); } async getCurrencies(): Promise { return this.q() .iter(Stores.currencies) .toArray(); } async updateCurrency(currencyRecord: CurrencyRecord): Promise { console.log("updating currency to", currencyRecord); await this.q() .put(Stores.currencies, currencyRecord) .finish(); this.notifier.notify(); } async getReserves(exchangeBaseUrl: string): Promise { return this.q() .iter(Stores.reserves) .filter((r: ReserveRecord) => r.exchange_base_url === exchangeBaseUrl) .toArray(); } async getCoins(exchangeBaseUrl: string): Promise { return this.q() .iter(Stores.coins) .filter((c: CoinRecord) => c.exchangeBaseUrl === exchangeBaseUrl) .toArray(); } async getPreCoins(exchangeBaseUrl: string): Promise { return this.q() .iter(Stores.precoins) .filter((c: PreCoinRecord) => c.exchangeBaseUrl === exchangeBaseUrl) .toArray(); } async hashContract(contract: ContractTerms): Promise { return this.cryptoApi.hashString(canonicalJson(contract)); } /** * Generate a nonce in form of an EdDSA public key. * Store the private key in our DB, so we can prove ownership. */ async generateNonce(): Promise { const {priv, pub} = await this.cryptoApi.createEddsaKeypair(); await this.q() .put(Stores.nonces, {priv, pub}) .finish(); return pub; } async getCurrencyRecord(currency: string): Promise { return this.q().get(Stores.currencies, currency); } async paymentSucceeded(contractTermsHash: string, merchantSig: string): Promise { const doPaymentSucceeded = async() => { const t = await this.q().get(Stores.purchases, contractTermsHash); if (!t) { console.error("contract not found"); return; } const merchantPub = t.contractTerms.merchant_pub; const valid = this.cryptoApi.isValidPaymentSignature(merchantSig, contractTermsHash, merchantPub); if (!valid) { console.error("merchant payment signature invalid"); // FIXME: properly display error return; } t.finished = true; const modifiedCoins: CoinRecord[] = []; for (const pc of t.payReq.coins) { const c = await this.q().get(Stores.coins, pc.coin_pub); if (!c) { console.error("coin not found"); return; } c.status = CoinStatus.Dirty; modifiedCoins.push(c); } await this.q() .putAll(Stores.coins, modifiedCoins) .put(Stores.purchases, t) .finish(); for (const c of t.payReq.coins) { this.refresh(c.coin_pub); } }; doPaymentSucceeded(); return; } async payback(coinPub: string): Promise { let coin = await this.q().get(Stores.coins, coinPub); if (!coin) { throw Error(`Coin ${coinPub} not found, can't request payback`); } const reservePub = coin.reservePub; if (!reservePub) { throw Error(`Can't request payback for a refreshed coin`); } const reserve = await this.q().get(Stores.reserves, reservePub); if (!reserve) { throw Error(`Reserve of coin ${coinPub} not found`); } switch (coin.status) { case CoinStatus.Refreshed: throw Error(`Can't do payback for coin ${coinPub} since it's refreshed`); case CoinStatus.PaybackDone: console.log(`Coin ${coinPub} already payed back`); return; } coin.status = CoinStatus.PaybackPending; // Even if we didn't get the payback yet, we suspend withdrawal, since // technically we might update reserve status before we get the response // from the reserve for the payback request. reserve.hasPayback = true; await this.q().put(Stores.coins, coin).put(Stores.reserves, reserve); this.notifier.notify(); const paybackRequest = await this.cryptoApi.createPaybackRequest(coin); const reqUrl = new URI("payback").absoluteTo(coin.exchangeBaseUrl); const resp = await this.http.postJson(reqUrl.href(), paybackRequest); if (resp.status !== 200) { throw Error(); } const paybackConfirmation = PaybackConfirmation.checked(JSON.parse(resp.responseText)); if (paybackConfirmation.reserve_pub !== coin.reservePub) { throw Error(`Coin's reserve doesn't match reserve on payback`); } coin = await this.q().get(Stores.coins, coinPub); if (!coin) { throw Error(`Coin ${coinPub} not found, can't confirm payback`); } coin.status = CoinStatus.PaybackDone; await this.q().put(Stores.coins, coin); this.notifier.notify(); await this.updateReserve(reservePub!); } async denominationRecordFromKeys(exchangeBaseUrl: string, denomIn: Denomination): Promise { const denomPubHash = await this.cryptoApi.hashDenomPub(denomIn.denom_pub); const d: DenominationRecord = { denomPub: denomIn.denom_pub, denomPubHash, exchangeBaseUrl, feeDeposit: denomIn.fee_deposit, feeRefresh: denomIn.fee_refresh, feeRefund: denomIn.fee_refund, feeWithdraw: denomIn.fee_withdraw, isOffered: true, masterSig: denomIn.master_sig, stampExpireDeposit: denomIn.stamp_expire_deposit, stampExpireLegal: denomIn.stamp_expire_legal, stampExpireWithdraw: denomIn.stamp_expire_withdraw, stampStart: denomIn.stamp_start, status: DenominationStatus.Unverified, value: denomIn.value, }; return d; } async withdrawPaybackReserve(reservePub: string): Promise { const reserve = await this.q().get(Stores.reserves, reservePub); if (!reserve) { throw Error(`Reserve ${reservePub} does not exist`); } reserve.hasPayback = false; await this.q().put(Stores.reserves, reserve); this.depleteReserve(reserve); } async getPaybackReserves(): Promise { return await this.q().iter(Stores.reserves).filter((r) => r.hasPayback).toArray(); } /** * Stop ongoing processing. */ stop() { this.timerGroup.stopCurrentAndFutureTimers(); } async getSenderWireInfos(): Promise { const m: { [url: string]: Set } = {}; await this.q().iter(Stores.exchangeWireFees).map((x) => { const s = m[x.exchangeBaseUrl] = m[x.exchangeBaseUrl] || new Set(); Object.keys(x.feesForType).map((k) => s.add(k)); }).run(); console.log(m); const exchangeWireTypes: { [url: string]: string[] } = {}; Object.keys(m).map((e) => { exchangeWireTypes[e] = Array.from(m[e]); }); const senderWiresSet = new Set(); await this.q().iter(Stores.reserves).map((x) => { if (x.senderWire) { senderWiresSet.add(canonicalJson(x.senderWire)); } }).run(); const senderWires = Array.from(senderWiresSet).map((x) => JSON.parse(x)); return { exchangeWireTypes, senderWires, }; } /** * Trigger paying coins back into the user's account. */ async returnCoins(req: ReturnCoinsRequest): Promise { console.log("got returnCoins request", req); const wireType = (req.senderWire as any).type; console.log("wireType", wireType); if (!wireType || typeof wireType !== "string") { console.error(`wire type must be a non-empty string, not ${wireType}`); return; } const stampSecNow = Math.floor((new Date()).getTime() / 1000); const exchange = await this.q().get(Stores.exchanges, req.exchange); if (!exchange) { console.error(`Exchange ${req.exchange} not known to the wallet`); return; } console.log("selecting coins for return:", req); const cds = await this.getCoinsForReturn(req.exchange, req.amount); console.log(cds); if (!cds) { throw Error("coin return impossible, can't select coins"); } const { priv, pub } = await this.cryptoApi.createEddsaKeypair(); const wireHash = await this.cryptoApi.hashString(canonicalJson(req.senderWire)); const contractTerms: ContractTerms = { H_wire: wireHash, amount: req.amount, auditors: [], exchanges: [ { master_pub: exchange.masterPublicKey, url: exchange.baseUrl } ], extra: {}, fulfillment_url: "", locations: [], max_fee: req.amount, merchant: {}, merchant_pub: pub, order_id: "none", pay_deadline: `/Date(${stampSecNow + 60 * 5})/`, pay_url: "", products: [], refund_deadline: `/Date(${stampSecNow + 60 * 5})/`, timestamp: `/Date(${stampSecNow})/`, wire_method: wireType, }; const contractTermsHash = await this.cryptoApi.hashString(canonicalJson(contractTerms)); const payCoinInfo = await this.cryptoApi.signDeposit(contractTerms, cds); console.log("pci", payCoinInfo); const coins = payCoinInfo.map((pci) => ({ coinPaySig: pci.sig })); const coinsReturnRecord: CoinsReturnRecord = { coins, contractTerms, contractTermsHash, exchange: exchange.baseUrl, merchantPriv: priv, wire: req.senderWire, }; await this.q() .put(Stores.coinsReturns, coinsReturnRecord) .putAll(Stores.coins, payCoinInfo.map((pci) => pci.updatedCoin)) .finish(); this.notifier.notify(); this.depositReturnedCoins(coinsReturnRecord); } async depositReturnedCoins(coinsReturnRecord: CoinsReturnRecord): Promise { for (const c of coinsReturnRecord.coins) { if (c.depositedSig) { continue; } const req = { H_wire: coinsReturnRecord.contractTerms.H_wire, coin_pub: c.coinPaySig.coin_pub, coin_sig: c.coinPaySig.coin_sig, denom_pub: c.coinPaySig.denom_pub, f: c.coinPaySig.f, h_contract_terms: coinsReturnRecord.contractTermsHash, merchant_pub: coinsReturnRecord.contractTerms.merchant_pub, pay_deadline: coinsReturnRecord.contractTerms.pay_deadline, refund_deadline: coinsReturnRecord.contractTerms.refund_deadline, timestamp: coinsReturnRecord.contractTerms.timestamp, ub_sig: c.coinPaySig.ub_sig, wire: coinsReturnRecord.wire, wire_transfer_deadline: coinsReturnRecord.contractTerms.pay_deadline, }; console.log("req", req); const reqUrl = (new URI("deposit")).absoluteTo(coinsReturnRecord.exchange); const resp = await this.http.postJson(reqUrl.href(), req); if (resp.status !== 200) { console.error("deposit failed due to status code", resp); continue; } const respJson = JSON.parse(resp.responseText); if (respJson.status !== "DEPOSIT_OK") { console.error("deposit failed", resp); continue; } if (!respJson.sig) { console.error("invalid 'sig' field", resp); continue; } // FIXME: verify signature // For every successful deposit, we replace the old record with an updated one const currentCrr = await this.q().get(Stores.coinsReturns, coinsReturnRecord.contractTermsHash); if (!currentCrr) { console.error("database inconsistent"); continue; } for (const nc of currentCrr.coins) { if (nc.coinPaySig.coin_pub === c.coinPaySig.coin_pub) { nc.depositedSig = respJson.sig; } } await this.q().put(Stores.coinsReturns, currentCrr); this.notifier.notify(); } } async acceptRefund(refundPermissions: RefundPermission[]): Promise { if (!refundPermissions.length) { console.warn("got empty refund list"); return; } const hc = refundPermissions[0].h_contract_terms; if (!hc) { throw Error("h_contract_terms missing in refund permission"); } const m = refundPermissions[0].merchant_pub; if (!hc) { throw Error("merchant_pub missing in refund permission"); } for (const perm of refundPermissions) { if (perm.h_contract_terms !== hc) { throw Error("h_contract_terms different in refund permission"); } if (perm.merchant_pub !== m) { throw Error("merchant_pub different in refund permission"); } } /** * Add refund to purchase if not already added. */ function f(t: PurchaseRecord|undefined): PurchaseRecord|undefined { if (!t) { console.error("purchase not found, not adding refunds"); return; } t.timestamp_refund = (new Date()).getTime(); for (const perm of refundPermissions) { if (!t.refundsPending[perm.merchant_sig] && !t.refundsDone[perm.merchant_sig]) { t.refundsPending[perm.merchant_sig] = perm; } } return t; } // Add the refund permissions to the purchase within a DB transaction await this.q().mutate(Stores.purchases, hc, f).finish(); this.notifier.notify(); // Start submitting it but don't wait for it here. this.submitRefunds(hc); } async submitRefunds(contractTermsHash: string): Promise { const purchase = await this.q().get(Stores.purchases, contractTermsHash); if (!purchase) { console.error("not submitting refunds, contract terms not found:", contractTermsHash); return; } const pendingKeys = Object.keys(purchase.refundsPending); if (pendingKeys.length === 0) { return; } for (const pk of pendingKeys) { const perm = purchase.refundsPending[pk]; console.log("sending refund permission", perm); const reqUrl = (new URI("refund")).absoluteTo(purchase.payReq.exchange); const resp = await this.http.postJson(reqUrl.href(), perm); if (resp.status !== 200) { console.error("refund failed", resp); continue; } // Transactionally mark successful refunds as done const transformPurchase = (t: PurchaseRecord|undefined): PurchaseRecord|undefined => { if (!t) { console.warn("purchase not found, not updating refund"); return; } if (t.refundsPending[pk]) { t.refundsDone[pk] = t.refundsPending[pk]; delete t.refundsPending[pk]; } return t; }; const transformCoin = (c: CoinRecord|undefined): CoinRecord|undefined => { if (!c) { console.warn("coin not found, can't apply refund"); return; } c.status = CoinStatus.Dirty; c.currentAmount = Amounts.add(c.currentAmount, perm.refund_amount).amount; c.currentAmount = Amounts.sub(c.currentAmount, perm.refund_fee).amount; return c; }; await this.q() .mutate(Stores.purchases, contractTermsHash, transformPurchase) .mutate(Stores.coins, perm.coin_pub, transformCoin) .finish(); this.refresh(perm.coin_pub); } this.notifier.notify(); } async getPurchase(contractTermsHash: string): Promise { return this.q().get(Stores.purchases, contractTermsHash); } async getFullRefundFees(refundPermissions: RefundPermission[]): Promise { if (refundPermissions.length === 0) { throw Error("no refunds given"); } const coin0 = await this.q().get(Stores.coins, refundPermissions[0].coin_pub); if (!coin0) { throw Error("coin not found"); } let feeAcc = Amounts.getZero(refundPermissions[0].refund_amount.currency); const denoms = await this.q().iterIndex(Stores.denominations.exchangeBaseUrlIndex, coin0.exchangeBaseUrl).toArray(); for (const rp of refundPermissions) { const coin = await this.q().get(Stores.coins, rp.coin_pub); if (!coin) { throw Error("coin not found"); } const denom = await this.q().get(Stores.denominations, [coin0.exchangeBaseUrl, coin.denomPub]); if (!denom) { throw Error(`denom not found (${coin.denomPub})`); } // FIXME: this assumes that the refund already happened. // When it hasn't, the refresh cost is inaccurate. To fix this, // we need introduce a flag to tell if a coin was refunded or // refreshed normally (and what about incremental refunds?) const refreshCost = getTotalRefreshCost(denoms, denom, Amounts.sub(rp.refund_amount, rp.refund_fee).amount); feeAcc = Amounts.add(feeAcc, refreshCost, rp.refund_fee).amount; } return feeAcc; } /** * Get planchets for a tip. Creates new planchets if they don't exist already * for this tip. The tip is uniquely identified by the merchant's domain and the tip id. */ async getTipPlanchets(merchantDomain: string, tipId: string, amount: AmountJson, deadline: number, exchangeUrl: string): Promise { let tipRecord = await this.q().get(Stores.tips, [tipId, merchantDomain]); if (!tipRecord) { await this.updateExchangeFromUrl(exchangeUrl); const denomsForWithdraw = await this.getVerifiedWithdrawDenomList(exchangeUrl, amount); const planchets = await Promise.all(denomsForWithdraw.map(d => this.cryptoApi.createTipPlanchet(d))); const coinPubs: string[] = planchets.map(x => x.coinPub); tipRecord = { accepted: false, amount, coinPubs, deadline, exchangeUrl, merchantDomain, planchets, tipId, }; await this.q().put(Stores.tips, tipRecord).finish(); } // Planchets in the form that the merchant expects const planchetDetail: TipPlanchetDetail[]= tipRecord.planchets.map((p) => ({ denom_pub_hash: p.denomPubHash, coin_ev: p.coinEv, })); return planchetDetail; } /** * Accept a merchant's response to a tip pickup and start withdrawing the coins. * These coins will not appear in the wallet yet. */ async processTipResponse(merchantDomain: string, tipId: string, response: TipResponse): Promise { let tipRecord = await this.q().get(Stores.tips, [tipId, merchantDomain]); if (!tipRecord) { throw Error("tip not found"); } console.log("processing tip response", response); if (response.reserve_sigs.length !== tipRecord.planchets.length) { throw Error("number of tip responses does not match requested planchets"); } for (let i = 0; i < tipRecord.planchets.length; i++) { let planchet = tipRecord.planchets[i]; let preCoin = { coinPub: planchet.coinPub, coinPriv: planchet.coinPriv, coinEv: planchet.coinEv, coinValue: planchet.coinValue, reservePub: response.reserve_pub, denomPub: planchet.denomPub, blindingKey: planchet.blindingKey, withdrawSig: response.reserve_sigs[i].reserve_sig, exchangeBaseUrl: tipRecord.exchangeUrl, isFromTip: true, }; await this.q().put(Stores.precoins, preCoin); this.processPreCoin(preCoin); } } /** * Start using the coins from a tip. */ async acceptTip(merchantDomain: string, tipId: string): Promise { const tipRecord = await this.q().get(Stores.tips, [tipId, merchantDomain]); if (!tipRecord) { throw Error("tip not found"); } tipRecord.accepted = true; // Create one transactional query, within this transaction // both the tip will be marked as accepted and coins // already withdrawn will be untainted. const q = this.q(); q.put(Stores.tips, tipRecord); const updateCoin = (c: CoinRecord) => { if (c.status === CoinStatus.TainedByTip) { c.status = CoinStatus.Fresh; } return c; }; for (const coinPub of tipRecord.coinPubs) { q.mutate(Stores.coins, coinPub, updateCoin); } await q.finish(); this.notifier.notify(); } async getTipStatus(merchantDomain: string, tipId: string): Promise { const tipRecord = await this.q().get(Stores.tips, [tipId, merchantDomain]); if (!tipRecord) { throw Error("tip not found"); } const rci = await this.getReserveCreationInfo(tipRecord.exchangeUrl, tipRecord.amount); const tipStatus: TipStatus = { rci, tip: tipRecord, }; return tipStatus; } }