/* 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. * @module Wallet * @author Florian Dold */ import { AmountJson, CreateReserveResponse, IExchangeInfo, Denomination, Notifier, WireInfo, RefreshSession, ReserveRecord, CoinPaySig } from "./types"; import {HttpResponse, RequestException} from "./http"; import {QueryRoot} from "./query"; import {Checkable} from "./checkable"; import {canonicalizeBaseUrl} from "./helpers"; import {ReserveCreationInfo, Amounts} from "./types"; import {PreCoin} from "./types"; import {CryptoApi} from "./cryptoApi"; import {Coin} from "./types"; import {PayCoinInfo} from "./types"; import {CheckRepurchaseResult} from "./types"; import {Contract} from "./types"; import {ExchangeHandle} from "./types"; "use strict"; export interface CoinWithDenom { coin: Coin; denom: Denomination; } @Checkable.Class export class KeysJson { @Checkable.List(Checkable.Value(Denomination)) denoms: Denomination[]; @Checkable.String master_public_key: string; @Checkable.Any auditors: any[]; @Checkable.String list_issue_date: string; @Checkable.Any signkeys: any; @Checkable.String eddsa_pub: string; @Checkable.String eddsa_sig: string; static checked: (obj: any) => KeysJson; } @Checkable.Class export class CreateReserveRequest { /** * The initial amount for the reserve. */ @Checkable.Value(AmountJson) amount: AmountJson; /** * Exchange URL where the bank should create the reserve. */ @Checkable.String exchange: string; static checked: (obj: any) => CreateReserveRequest; } @Checkable.Class export class ConfirmReserveRequest { /** * Public key of then reserve that should be marked * as confirmed. */ @Checkable.String reservePub: string; static checked: (obj: any) => ConfirmReserveRequest; } @Checkable.Class export class Offer { @Checkable.Value(Contract) contract: Contract; @Checkable.String merchant_sig: string; @Checkable.String H_contract: string; static checked: (obj: any) => Offer; } export interface HistoryRecord { type: string; timestamp: number; subjectId?: string; detail: any; level: HistoryLevel; } interface ExchangeCoins { [exchangeUrl: string]: CoinWithDenom[]; } interface PayReq { amount: AmountJson; coins: CoinPaySig[]; H_contract: string; max_fee: AmountJson; merchant_sig: string; exchange: string; refund_deadline: string; timestamp: string; transaction_id: number; } interface Transaction { contractHash: string; contract: Contract; payReq: PayReq; merchantSig: string; } export enum HistoryLevel { Trace = 1, Developer = 2, Expert = 3, User = 4, } export interface Badge { setText(s: string): void; setColor(c: string): void; startBusy(): void; stopBusy(): void; } export function canonicalJson(obj: any): string { // Check for cycles, etc. JSON.stringify(obj); if (typeof obj == "string" || typeof obj == "number" || obj === null) { return JSON.stringify(obj) } if (Array.isArray(obj)) { let objs: string[] = obj.map((e) => canonicalJson(e)); return `[${objs.join(',')}]`; } let keys: string[] = []; for (let key in obj) { keys.push(key); } keys.sort(); let s = "{"; for (let i = 0; i < keys.length; i++) { let key = keys[i]; s += JSON.stringify(key) + ":" + canonicalJson(obj[key]); if (i != keys.length - 1) { s += ","; } } return s + "}"; } function deepEquals(x: any, y: any): boolean { if (x === y) { return true; } if (Array.isArray(x) && x.length !== y.length) { return false; } var p = Object.keys(x); return Object.keys(y).every((i) => p.indexOf(i) !== -1) && p.every((i) => deepEquals(x[i], y[i])); } function flatMap(xs: T[], f: (x: T) => U[]): U[] { return xs.reduce((acc: U[], next: T) => [...f(next), ...acc], []); } function getTalerStampSec(stamp: string): number | null { const m = stamp.match(/\/?Date\(([0-9]*)\)\/?/); if (!m) { return null; } return parseInt(m[1]); } function setTimeout(f: any, t: number) { return chrome.extension.getBackgroundPage().setTimeout(f, t); } function isWithdrawableDenom(d: Denomination) { const now_sec = (new Date).getTime() / 1000; const stamp_withdraw_sec = getTalerStampSec(d.stamp_expire_withdraw); // Withdraw if still possible to withdraw within a minute if (stamp_withdraw_sec + 60 > now_sec) { return true; } return false; } interface HttpRequestLibrary { req(method: string, url: string | uri.URI, options?: any): Promise; get(url: string | uri.URI): Promise; postJson(url: string | uri.URI, body: any): Promise; postForm(url: string | uri.URI, form: any): Promise; } function copy(o: any) { return JSON.parse(JSON.stringify(o)); } /** * Result of updating exisiting information * about an exchange with a new '/keys' response. */ interface KeyUpdateInfo { updatedExchangeInfo: IExchangeInfo; addedDenominations: Denomination[]; removedDenominations: Denomination[]; } /** * 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: Denomination[]): Denomination[] { let remaining = Amounts.copy(amountAvailable); const ds: Denomination[] = []; 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 (let d of denoms) { let cost = Amounts.add(d.value, d.fee_withdraw).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; } export class Wallet { private db: IDBDatabase; private http: HttpRequestLibrary; private badge: Badge; private notifier: Notifier; public cryptoApi: CryptoApi; /** * 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.resumePendingFromDb(); } 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(); } } updateExchanges(): void { console.log("updating exchanges"); this.q() .iter("exchanges") .reduce((exchange: IExchangeInfo) => { this.updateExchangeFromUrl(exchange.baseUrl) .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("reserves") .reduce((reserve: any) => { console.log("resuming reserve", reserve.reserve_pub); this.processReserve(reserve); }); this.q() .iter("precoins") .reduce((preCoin: any) => { console.log("resuming precoin"); this.processPreCoin(preCoin); }); } /** * Get exchanges and associated coins that are still spendable, * but only if the sum the coins' remaining value exceeds the payment amount. */ private async getPossibleExchangeCoins(paymentAmount: AmountJson, depositFeeLimit: AmountJson, allowedExchanges: ExchangeHandle[]): Promise { // Mapping from exchange base URL to list of coins together with their // denomination let m: ExchangeCoins = {}; let x: number; function storeExchangeCoin(mc: any, url: string) { let exchange: IExchangeInfo = mc[0]; console.log("got coin for exchange", url); let coin: Coin = mc[1]; if (coin.suspended) { console.log("skipping suspended coin", coin.denomPub, "from exchange", exchange.baseUrl); return; } let denom = exchange.active_denoms.find((e) => e.denom_pub === coin.denomPub); if (!denom) { console.warn("denom not found (database inconsistent)"); return; } if (denom.value.currency !== paymentAmount.currency) { console.warn("same pubkey for different currencies"); return; } let cd = {coin, denom}; let x = m[url]; if (!x) { m[url] = [cd]; } else { x.push(cd); } } // Make sure that we don't look up coins // for the same URL twice ... let handledExchanges = new Set(); let ps = flatMap(allowedExchanges, (info: ExchangeHandle) => { if (handledExchanges.has(info.url)) { return []; } handledExchanges.add(info.url); console.log("Checking for merchant's exchange", JSON.stringify(info)); return [ this.q() .iter("exchanges", {indexName: "pubKey", only: info.master_pub}) .indexJoin("coins", "exchangeBaseUrl", (exchange) => exchange.baseUrl) .reduce((x) => storeExchangeCoin(x, info.url)) ]; }); await Promise.all(ps); let ret: ExchangeCoins = {}; if (Object.keys(m).length == 0) { console.log("not suitable exchanges found"); } console.dir(m); // We try to find the first exchange where we have // enough coins to cover the paymentAmount with fees // under depositFeeLimit nextExchange: for (let key in m) { let coins = m[key]; // Sort by ascending deposit fee coins.sort((o1, o2) => Amounts.cmp(o1.denom.fee_deposit, o2.denom.fee_deposit)); let maxFee = Amounts.copy(depositFeeLimit); let minAmount = Amounts.copy(paymentAmount); let accFee = Amounts.copy(coins[0].denom.fee_deposit); let accAmount = Amounts.getZero(coins[0].coin.currentAmount.currency); let usableCoins: CoinWithDenom[] = []; nextCoin: for (let i = 0; i < coins.length; i++) { let coinAmount = Amounts.copy(coins[i].coin.currentAmount); let coinFee = coins[i].denom.fee_deposit; if (Amounts.cmp(coinAmount, coinFee) <= 0) { continue nextCoin; } accFee = Amounts.add(accFee, coinFee).amount; accAmount = Amounts.add(accAmount, coinAmount).amount; if (Amounts.cmp(accFee, maxFee) >= 0) { // FIXME: if the fees are too high, we have // to cover them ourselves .... console.log("too much fees"); continue nextExchange; } usableCoins.push(coins[i]); if (Amounts.cmp(accAmount, minAmount) >= 0) { ret[key] = usableCoins; continue nextExchange; } } } return ret; } /** * Record all information that is necessary to * pay for a contract in the wallet's database. */ private async recordConfirmPay(offer: Offer, payCoinInfo: PayCoinInfo, chosenExchange: string): Promise { let payReq: PayReq = { amount: offer.contract.amount, coins: payCoinInfo.map((x) => x.sig), H_contract: offer.H_contract, max_fee: offer.contract.max_fee, merchant_sig: offer.merchant_sig, exchange: URI(chosenExchange).href(), refund_deadline: offer.contract.refund_deadline, timestamp: offer.contract.timestamp, transaction_id: offer.contract.transaction_id, }; let t: Transaction = { contractHash: offer.H_contract, contract: offer.contract, payReq: payReq, merchantSig: offer.merchant_sig, }; let historyEntry = { type: "pay", timestamp: (new Date).getTime(), subjectId: `contract-${offer.H_contract}`, detail: { merchantName: offer.contract.merchant.name, amount: offer.contract.amount, contractHash: offer.H_contract, fulfillmentUrl: offer.contract.fulfillment_url, } }; await this.q() .put("transactions", t) .put("history", historyEntry) .putAll("coins", payCoinInfo.map((pci) => pci.updatedCoin)) .finish(); this.notifier.notify(); } async putHistory(historyEntry: HistoryRecord): Promise { await this.q().put("history", historyEntry).finish(); this.notifier.notify(); } /** * Add a contract to the wallet and sign coins, * but do not send them yet. */ async confirmPay(offer: Offer): Promise { console.log("executing confirmPay"); let transaction = await this.q().get("transactions", offer.H_contract); if (transaction) { // Already payed ... return {}; } let mcs = await this.getPossibleExchangeCoins(offer.contract.amount, offer.contract.max_fee, offer.contract.exchanges); if (Object.keys(mcs).length == 0) { console.log("not confirming payment, insufficient coins"); return { error: "coins-insufficient", }; } let exchangeUrl = Object.keys(mcs)[0]; let ds = await this.cryptoApi.signDeposit(offer, mcs[exchangeUrl]); await this.recordConfirmPay(offer, ds, exchangeUrl); return {}; } /** * Add a contract to the wallet and sign coins, * but do not send them yet. */ async checkPay(offer: Offer): Promise { // First check if we already payed for it. let transaction = await this.q().get("transactions", offer.H_contract); if (transaction) { return {isPayed: true}; } // If not already payed, check if we could pay for it. let mcs = await this.getPossibleExchangeCoins(offer.contract.amount, offer.contract.max_fee, offer.contract.exchanges); if (Object.keys(mcs).length == 0) { console.log("not confirming payment, insufficient coins"); return { error: "coins-insufficient", }; } return {isPayed: false}; } /** * Retrieve all necessary information for looking up the contract * with the given hash. */ async executePayment(H_contract: string): Promise { let t = await this.q().get("transactions", H_contract); if (!t) { return { success: false, contractFound: false, } } let resp = { success: true, payReq: t.payReq, contract: t.contract, }; return resp; } /** * 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 { let exchange = await this.updateExchangeFromUrl(reserveRecord.exchange_base_url); let reserve = await this.updateReserve(reserveRecord.reserve_pub, exchange); let n = await this.depleteReserve(reserve, exchange); if (n != 0) { let depleted = { type: "depleted-reserve", subjectId: `reserve-progress-${reserveRecord.reserve_pub}`, timestamp: (new Date).getTime(), detail: { exchangeBaseUrl: reserveRecord.exchange_base_url, reservePub: reserveRecord.reserve_pub, requestedAmount: reserveRecord.requested_amount, currentAmount: reserveRecord.current_amount, } }; await this.q().put("history", depleted).finish(); } } catch (e) { // random, exponential backoff truncated at 3 minutes let nextDelay = Math.min(2 * retryDelayMs + retryDelayMs * Math.random(), 3000 * 60); console.warn(`Failed to deplete reserve, trying again in ${retryDelayMs} ms`); setTimeout(() => this.processReserve(reserveRecord, nextDelay), retryDelayMs); } finally { this.stopOperation(opId); } } private async processPreCoin(preCoin: PreCoin, retryDelayMs = 100): Promise { try { const coin = await this.withdrawExecute(preCoin); this.storeCoin(coin); } catch (e) { console.error("Failed to withdraw coin from precoin, retrying in", retryDelayMs, "ms", e); // exponential backoff truncated at one minute let nextRetryDelayMs = Math.min(retryDelayMs * 2, 1000 * 60); setTimeout(() => this.processPreCoin(preCoin, nextRetryDelayMs), retryDelayMs); } } /** * Create a reserve, but do not flag it as confirmed yet. */ async createReserve(req: CreateReserveRequest): Promise { let keypair = await this.cryptoApi.createEddsaKeypair(); const now = (new Date).getTime(); const canonExchange = canonicalizeBaseUrl(req.exchange); const reserveRecord: ReserveRecord = { reserve_pub: keypair.pub, reserve_priv: keypair.priv, exchange_base_url: canonExchange, created: now, last_query: null, current_amount: null, requested_amount: req.amount, confirmed: false, withdrawn_amount: Amounts.getZero(req.amount.currency) }; const historyEntry = { type: "create-reserve", level: HistoryLevel.Expert, timestamp: now, subjectId: `reserve-progress-${reserveRecord.reserve_pub}`, detail: { requestedAmount: req.amount, reservePub: reserveRecord.reserve_pub, } }; await this.q() .put("reserves", reserveRecord) .put("history", historyEntry) .finish(); let 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(); let reserve: ReserveRecord|undefined = await ( this.q().get("reserves", req.reservePub)); if (!reserve) { console.error("Unable to confirm reserve, not found in DB"); return; } const historyEntry = { type: "confirm-reserve", timestamp: now, subjectId: `reserve-progress-${reserve.reserve_pub}`, detail: { exchangeBaseUrl: reserve.exchange_base_url, reservePub: req.reservePub, requestedAmount: reserve.requested_amount, } }; reserve.confirmed = true; await this.q() .put("reserves", reserve) .put("history", historyEntry) .finish(); this.processReserve(reserve); } private async withdrawExecute(pc: PreCoin): Promise { let reserve = await this.q().get("reserves", pc.reservePub); if (!reserve) { throw Error("db inconsistent"); } let wd: any = {}; wd.denom_pub = pc.denomPub; wd.reserve_pub = pc.reservePub; wd.reserve_sig = pc.withdrawSig; wd.coin_ev = pc.coinEv; let reqUrl = URI("reserve/withdraw").absoluteTo(reserve.exchange_base_url); let resp = await this.http.postJson(reqUrl, wd); if (resp.status != 200) { throw new RequestException({ hint: "Withdrawal failed", status: resp.status }); } let r = JSON.parse(resp.responseText); let denomSig = await this.cryptoApi.rsaUnblind(r.ev_sig, pc.blindingKey, pc.denomPub); let coin: Coin = { coinPub: pc.coinPub, coinPriv: pc.coinPriv, denomPub: pc.denomPub, denomSig: denomSig, currentAmount: pc.coinValue, exchangeBaseUrl: pc.exchangeBaseUrl, dirty: false, transactionPending: false, }; return coin; } async storeCoin(coin: Coin): Promise { let historyEntry: HistoryRecord = { type: "withdraw", timestamp: (new Date).getTime(), level: HistoryLevel.Expert, detail: { coinPub: coin.coinPub, } }; await this.q() .delete("precoins", coin.coinPub) .add("coins", coin) .add("history", historyEntry) .finish(); this.notifier.notify(); } /** * Withdraw one coin of the given denomination from the given reserve. */ private async withdraw(denom: Denomination, reserve: ReserveRecord): Promise { console.log("creating pre coin at", new Date()); let preCoin = await this.cryptoApi .createPreCoin(denom, reserve); await this.q() .put("precoins", preCoin) .finish(); await this.processPreCoin(preCoin); } /** * Withdraw coins from a reserve until it is empty. */ private async depleteReserve(reserve: any, exchange: IExchangeInfo): Promise { let denomsAvailable: Denomination[] = copy(exchange.active_denoms); let denomsForWithdraw = getWithdrawDenomList(reserve.current_amount, denomsAvailable); let ps = denomsForWithdraw.map((denom) => this.withdraw(denom, reserve)); await Promise.all(ps); return ps.length; } /** * Update the information about a reserve that is stored in the wallet * by quering the reserve's exchange. */ private async updateReserve(reservePub: string, exchange: IExchangeInfo): Promise { let reserve = await this.q() .get("reserves", reservePub); if (!reserve) { throw Error("reserve not in db"); } let reqUrl = URI("reserve/status").absoluteTo(exchange.baseUrl); reqUrl.query({'reserve_pub': reservePub}); let resp = await this.http.get(reqUrl); if (resp.status != 200) { throw Error(); } let reserveInfo = JSON.parse(resp.responseText); if (!reserveInfo) { throw Error(); } let oldAmount = reserve.current_amount; let newAmount = reserveInfo.balance; reserve.current_amount = reserveInfo.balance; let historyEntry = { type: "reserve-update", timestamp: (new Date).getTime(), subjectId: `reserve-progress-${reserve.reserve_pub}`, detail: { reservePub, requestedAmount: reserve.requested_amount, oldAmount, newAmount } }; await this.q() .put("reserves", reserve) .finish(); return reserve; } /** * Get the wire information for the exchange with the given base URL. */ async getWireInfo(exchangeBaseUrl: string): Promise { exchangeBaseUrl = canonicalizeBaseUrl(exchangeBaseUrl); let reqUrl = URI("wire").absoluteTo(exchangeBaseUrl); let resp = await this.http.get(reqUrl); if (resp.status != 200) { throw Error("/wire request failed"); } let wiJson = JSON.parse(resp.responseText); if (!wiJson) { throw Error("/wire response malformed") } return wiJson; } async getReserveCreationInfo(baseUrl: string, amount: AmountJson): Promise { let exchangeInfo = await this.updateExchangeFromUrl(baseUrl); let selectedDenoms = getWithdrawDenomList(amount, exchangeInfo.active_denoms); let acc = Amounts.getZero(amount.currency); for (let d of selectedDenoms) { acc = Amounts.add(acc, d.fee_withdraw).amount; } let actualCoinCost = selectedDenoms .map((d: Denomination) => Amounts.add(d.value, d.fee_withdraw).amount) .reduce((a, b) => Amounts.add(a, b).amount); let wireInfo = await this.getWireInfo(baseUrl); let ret: ReserveCreationInfo = { exchangeInfo, selectedDenoms, wireInfo, withdrawFee: acc, overhead: Amounts.sub(amount, actualCoinCost).amount, }; 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); let reqUrl = URI("keys").absoluteTo(baseUrl); let resp = await this.http.get(reqUrl); if (resp.status != 200) { throw Error("/keys request failed"); } let exchangeKeysJson = KeysJson.checked(JSON.parse(resp.responseText)); return this.updateExchangeFromJson(baseUrl, exchangeKeysJson); } private async suspendCoins(exchangeInfo: IExchangeInfo): Promise { let suspendedCoins = await ( this.q() .iter("coins", {indexName: "exchangeBaseUrl", only: exchangeInfo.baseUrl}) .reduce((coin: Coin, suspendedCoins: Coin[]) => { if (!exchangeInfo.active_denoms.find((c) => c.denom_pub == coin.denomPub)) { return Array.prototype.concat(suspendedCoins, [coin]); } return Array.prototype.concat(suspendedCoins); }, [])); let q = this.q(); suspendedCoins.map((c) => { console.log("suspending coin", c); c.suspended = true; q.put("coins", c); }); await q.finish(); } private async updateExchangeFromJson(baseUrl: string, exchangeKeysJson: KeysJson): Promise { const updateTimeSec = getTalerStampSec(exchangeKeysJson.list_issue_date); if (updateTimeSec === null) { throw Error("invalid update time"); } let r = await this.q().get("exchanges", baseUrl); let exchangeInfo: IExchangeInfo; if (!r) { exchangeInfo = { baseUrl, all_denoms: [], active_denoms: [], last_update_time: updateTimeSec, masterPublicKey: exchangeKeysJson.master_public_key, }; console.log("making fresh exchange"); } else { if (updateTimeSec < r.last_update_time) { console.log("outdated /keys, not updating"); return r } exchangeInfo = r; console.log("updating old exchange"); } let updatedExchangeInfo = await this.updateExchangeInfo(exchangeInfo, exchangeKeysJson); await this.suspendCoins(updatedExchangeInfo); await this.q() .put("exchanges", updatedExchangeInfo) .finish(); return updatedExchangeInfo; } private async updateExchangeInfo(exchangeInfo: IExchangeInfo, newKeys: KeysJson): Promise { if (exchangeInfo.masterPublicKey != newKeys.master_public_key) { throw Error("public keys do not match"); } exchangeInfo.active_denoms = []; let denomsToCheck = newKeys.denoms.filter((newDenom) => { // did we find the new denom in the list of all (old) denoms? let found = false; for (let oldDenom of exchangeInfo.all_denoms) { if (oldDenom.denom_pub === newDenom.denom_pub) { let a: any = Object.assign({}, oldDenom); let b: any = Object.assign({}, newDenom); // pub hash is only there for convenience in the wallet delete a["pub_hash"]; delete b["pub_hash"]; if (!deepEquals(a, b)) { console.error("denomination parameters were modified, old/new:"); console.dir(a); console.dir(b); // FIXME: report to auditors } found = true; break; } } if (found) { exchangeInfo.active_denoms.push(newDenom); // No need to check signatures return false; } return true; }); let ps = denomsToCheck.map(async(denom) => { let valid = await this.cryptoApi .isValidDenom(denom, exchangeInfo.masterPublicKey); if (!valid) { console.error("invalid denomination", denom, "with key", exchangeInfo.masterPublicKey); // FIXME: report to auditors } exchangeInfo.active_denoms.push(denom); exchangeInfo.all_denoms.push(denom); }); await Promise.all(ps); return exchangeInfo; } /** * Retrieve a mapping from currency name to the amount * that is currenctly available for spending in the wallet. */ async getBalances(): Promise { function collectBalances(c: Coin, byCurrency: any) { if (c.suspended) { return byCurrency; } let acc: AmountJson = byCurrency[c.currentAmount.currency]; if (!acc) { acc = Amounts.getZero(c.currentAmount.currency); } byCurrency[c.currentAmount.currency] = Amounts.add(c.currentAmount, acc).amount; return byCurrency; } let byCurrency = await ( this.q() .iter("coins") .reduce(collectBalances, {})); return {balances: byCurrency}; } async refresh(oldCoinPub: string): Promise { // FIXME: this is not running in a transaction. let coin = await this.q().get("coins", oldCoinPub); if (!coin) { console.error("coin not found"); return; } let exchange = await this.q().get("exchanges", coin.exchangeBaseUrl); if (!exchange) { throw Error("db inconsistent"); } let oldDenom = exchange.all_denoms.find((d) => d.denom_pub == coin!.denomPub); if (!oldDenom) { throw Error("db inconsistent"); } let availableDenoms: Denomination[] = exchange.active_denoms; let availableAmount = Amounts.sub(coin.currentAmount, oldDenom.fee_refresh).amount; let newCoinDenoms = getWithdrawDenomList(availableAmount, availableDenoms); console.log("refreshing into", newCoinDenoms); if (newCoinDenoms.length == 0) { console.log("not refreshing, value too small"); return; } let refreshSession: RefreshSession = await ( this.cryptoApi.createRefreshSession(exchange.baseUrl, 3, coin, newCoinDenoms, oldDenom.fee_refresh)); coin.currentAmount = Amounts.sub(coin.currentAmount, refreshSession.valueWithFee).amount; // FIXME: we should check whether the amount still matches! await this.q() .put("refresh", refreshSession) .put("coins", coin) .finish(); await this.refreshMelt(refreshSession); let r = await this.q().get("refresh", oldCoinPub); if (!r) { throw Error("refresh session does not exist anymore"); } await this.refreshReveal(r); } async refreshMelt(refreshSession: RefreshSession): Promise { if (refreshSession.norevealIndex != undefined) { console.error("won't melt again"); return; } let coin = await this.q().get("coins", refreshSession.meltCoinPub); if (!coin) { console.error("can't melt coin, it does not exist"); return; } let reqUrl = URI("refresh/melt").absoluteTo(refreshSession.exchangeBaseUrl); let meltCoin = { coin_pub: coin.coinPub, denom_pub: coin.denomPub, denom_sig: coin.denomSig, confirm_sig: refreshSession.confirmSig, value_with_fee: refreshSession.valueWithFee, }; let coinEvs = refreshSession.preCoinsForGammas.map((x) => x.map((y) => y.coinEv)); let req = { "new_denoms": refreshSession.newDenoms, "melt_coin": meltCoin, "transfer_pubs": refreshSession.transferPubs, "coin_evs": coinEvs, }; console.log("melt request:", req); let resp = await this.http.postJson(reqUrl, req); console.log("melt request:", req); console.log("melt response:", resp.responseText); if (resp.status != 200) { console.error(resp.responseText); throw Error("refresh failed"); } let respJson = JSON.parse(resp.responseText); if (!respJson) { throw Error("exchange responded with garbage"); } let norevealIndex = respJson.noreveal_index; if (typeof norevealIndex != "number") { throw Error("invalid response"); } refreshSession.norevealIndex = norevealIndex; await this.q().put("refresh", refreshSession).finish(); } async refreshReveal(refreshSession: RefreshSession): Promise { let norevealIndex = refreshSession.norevealIndex; if (norevealIndex == undefined) { throw Error("can't reveal without melting first"); } let privs = Array.from(refreshSession.transferPrivs); privs.splice(norevealIndex, 1); let req = { "session_hash": refreshSession.hash, "transfer_privs": privs, }; let reqUrl = URI("refresh/reveal") .absoluteTo(refreshSession.exchangeBaseUrl); console.log("reveal request:", req); let resp = await this.http.postJson(reqUrl, req); console.log("session:", refreshSession); console.log("reveal response:", resp); if (resp.status != 200) { console.log("error: /refresh/reveal returned status " + resp.status); return; } let respJson = JSON.parse(resp.responseText); if (!respJson.ev_sigs || !Array.isArray(respJson.ev_sigs)) { console.log("/refresh/reveal did not contain ev_sigs"); } let exchange = await this.q().get("exchanges", refreshSession.exchangeBaseUrl); if (!exchange) { console.error(`exchange ${refreshSession.exchangeBaseUrl} not found`); return; } for (let i = 0; i < respJson.ev_sigs.length; i++) { let denom = exchange.all_denoms.find((d) => d.denom_pub == refreshSession.newDenoms[i]); if (!denom) { console.error("denom not found"); continue; } let pc = refreshSession.preCoinsForGammas[refreshSession.norevealIndex!][i]; let denomSig = await this.cryptoApi.rsaUnblind(respJson.ev_sigs[i].ev_sig, pc.blindingKey, denom.denom_pub); let coin: Coin = { coinPub: pc.publicKey, coinPriv: pc.privateKey, denomPub: denom.denom_pub, denomSig: denomSig, currentAmount: denom.value, exchangeBaseUrl: refreshSession.exchangeBaseUrl, dirty: false, transactionPending: false, }; await this.q().put("coins", coin).finish(); } } /** * Retrive the full event history for this wallet. */ async getHistory(): Promise { function collect(x: any, acc: any) { acc.push(x); return acc; } let history = await ( this.q() .iter("history", {indexName: "timestamp"}) .reduce(collect, [])); return {history}; } async getExchanges(): Promise { return this.q() .iter("exchanges") .flatMap((e) => [e]) .toArray(); } async getReserves(exchangeBaseUrl: string): Promise { return this.q() .iter("reserves") .filter((r: ReserveRecord) => r.exchange_base_url === exchangeBaseUrl) .toArray(); } async getCoins(exchangeBaseUrl: string): Promise { return this.q() .iter("coins") .filter((c: Coin) => c.exchangeBaseUrl === exchangeBaseUrl) .toArray(); } async getPreCoins(exchangeBaseUrl: string): Promise { return this.q() .iter("precoins") .filter((c: PreCoin) => c.exchangeBaseUrl === exchangeBaseUrl) .toArray(); } async hashContract(contract: any): Promise { return this.cryptoApi.hashString(canonicalJson(contract)); } /** * Check if there's an equivalent contract we've already purchased. */ async checkRepurchase(contract: Contract): Promise { if (!contract.repurchase_correlation_id) { console.log("no repurchase: no correlation id"); return {isRepurchase: false}; } let result: Transaction = await ( this.q() .getIndexed("transactions", "repurchase", [ contract.merchant_pub, contract.repurchase_correlation_id ])); if (result) { console.assert(result.contract.repurchase_correlation_id == contract.repurchase_correlation_id); return { isRepurchase: true, existingContractHash: result.contractHash, existingFulfillmentUrl: result.contract.fulfillment_url, }; } else { return {isRepurchase: false}; } } async paymentSucceeded(contractHash: string): Promise { const doPaymentSucceeded = async () => { let t = await this.q().get("transactions", contractHash); if (!t) { console.error("contract not found"); return; } for (let pc of t.payReq.coins) { let c = await this.q().get("coins", pc.coin_pub); if (!c) { console.error("coin not found"); return; } c.transactionPending = false; await this.q().put("coins", c).finish(); } for (let c of t.payReq.coins) { this.refresh(c.coin_pub); } }; doPaymentSucceeded(); return; } }