wallet-core/lib/wallet/wallet.ts
Marcello Stanisci 1349ec561e fixing #4594
2016-07-07 17:59:29 +02:00

1115 lines
32 KiB
TypeScript

/*
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 <http://www.gnu.org/licenses/>
*/
/**
* 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
} from "./types";
import {HttpResponse, RequestException} from "./http";
import {Query} from "./query";
import {Checkable} from "./checkable";
import {canonicalizeBaseUrl} from "./helpers";
import {ReserveCreationInfo, Amounts} from "./types";
import {PreCoin} from "./types";
import {Reserve} 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;
}
interface ConfirmPayRequest {
offer: Offer;
}
interface ExchangeCoins {
[exchangeUrl: string]: CoinWithDenom[];
}
interface CoinPaySig {
coin_sig: string;
coin_pub: string;
ub_sig: string;
denom_pub: string;
f: AmountJson;
}
interface Transaction {
contractHash: string;
contract: Contract;
payReq: any;
merchantSig: string;
}
export interface Badge {
setText(s: string): void;
setColor(c: string): void;
startBusy();
stopBusy();
}
function deepEquals(x, y) {
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<T, U>(xs: T[], f: (x: T) => U[]): U[] {
return xs.reduce((acc: U[], next: T) => [...f(next), ...acc], []);
}
function getTalerStampSec(stamp: string): number {
const m = stamp.match(/\/?Date\(([0-9]*)\)\/?/);
if (!m) {
return null;
}
return parseInt(m[1]);
}
function setTimeout(f, t) {
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<HttpResponse>;
get(url: string|uri.URI): Promise<HttpResponse>;
postJson(url: string|uri.URI, body): Promise<HttpResponse>;
postForm(url: string|uri.URI, form): Promise<HttpResponse>;
}
function copy(o) {
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);
let 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<string> = new Set();
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");
Query(this.db)
.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");
Query(this.db)
.iter("reserves")
.reduce((reserve: any) => {
console.log("resuming reserve", reserve.reserve_pub);
this.processReserve(reserve);
});
Query(this.db)
.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 getPossibleExchangeCoins(paymentAmount: AmountJson,
depositFeeLimit: AmountJson,
allowedExchanges: ExchangeHandle[]): Promise<ExchangeCoins> {
// Mapping from exchange base URL to list of coins together with their
// denomination
let m: ExchangeCoins = {};
let x: number;
function storeExchangeCoin(mc, url) {
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 cd = {
coin: coin,
denom: exchange.active_denoms.find((e) => e.denom_pub === coin.denomPub)
};
if (!cd.denom) {
console.warn("denom not found (database inconsistent)");
return;
}
if (cd.denom.value.currency !== paymentAmount.currency) {
console.warn("same pubkey for different currencies");
return;
}
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 [
Query(this.db)
.iter("exchanges", {indexName: "pubKey", only: info.master_pub})
.indexJoin("coins", "exchangeBaseUrl", (exchange) => exchange.baseUrl)
.reduce((x) => storeExchangeCoin(x, info.url))
];
});
return Promise.all(ps).then(() => {
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];
console.log("trying coins");
console.log(coins);
// 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 recordConfirmPay(offer: Offer,
payCoinInfo: PayCoinInfo,
chosenExchange: string): Promise<void> {
let payReq = {};
payReq["amount"] = offer.contract.amount;
payReq["coins"] = payCoinInfo.map((x) => x.sig);
payReq["H_contract"] = offer.H_contract;
payReq["max_fee"] = offer.contract.max_fee;
payReq["merchant_sig"] = offer.merchant_sig;
payReq["exchange"] = URI(chosenExchange).href();
payReq["refund_deadline"] = offer.contract.refund_deadline;
payReq["timestamp"] = offer.contract.timestamp;
payReq["transaction_id"] = offer.contract.transaction_id;
let t: Transaction = {
contractHash: offer.H_contract,
contract: offer.contract,
payReq: payReq,
merchantSig: offer.merchant_sig,
};
console.log("pay request");
console.dir(payReq);
let historyEntry = {
type: "pay",
timestamp: (new Date).getTime(),
detail: {
merchantName: offer.contract.merchant.name,
amount: offer.contract.amount,
contractHash: offer.H_contract,
fulfillmentUrl: offer.contract.fulfillment_url
}
};
return Query(this.db)
.put("transactions", t)
.put("history", historyEntry)
.putAll("coins", payCoinInfo.map((pci) => pci.updatedCoin))
.finish()
.then(() => {
this.notifier.notify();
});
}
/**
* Add a contract to the wallet and sign coins,
* but do not send them yet.
*/
confirmPay(offer: Offer): Promise<any> {
console.log("executing confirmPay");
return Query(this.db)
.get("transactions", offer.H_contract)
.then((transaction) => {
if (transaction) {
// Already payed ...
return {};
}
return Promise.resolve().then(() => {
return this.getPossibleExchangeCoins(offer.contract.amount,
offer.contract.max_fee,
offer.contract.exchanges)
}).then((mcs) => {
if (Object.keys(mcs).length == 0) {
console.log("not confirming payment, insufficient coins");
return {
error: "coins-insufficient",
};
}
let exchangeUrl = Object.keys(mcs)[0];
return this.cryptoApi.signDeposit(offer, mcs[exchangeUrl])
.then((ds) => this.recordConfirmPay(offer,
ds,
exchangeUrl))
.then(() => ({}));
});
});
}
/**
* Add a contract to the wallet and sign coins,
* but do not send them yet.
*/
checkPay(offer: Offer): Promise<any> {
console.log("executing checkPay");
// First check if we already payed for it.
return Query(this.db)
.get("transactions", offer.H_contract)
.then((transaction) => {
if (transaction) {
return {isPayed: true};
}
// If not already payed, check if we could pay for it.
return Promise.resolve().then(() => {
return this.getPossibleExchangeCoins(offer.contract.amount,
offer.contract.max_fee,
offer.contract.exchanges)
}).then((mcs) => {
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.
*/
executePayment(H_contract): Promise<any> {
return Promise.resolve().then(() => {
return Query(this.db)
.get("transactions", H_contract)
.then((t) => {
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 processReserve(reserveRecord): void {
let retryDelayMs = 100;
const opId = "reserve-" + reserveRecord.reserve_pub;
this.startOperation(opId);
this.updateExchangeFromUrl(reserveRecord.exchange_base_url)
.then((exchange) =>
this.updateReserve(reserveRecord.reserve_pub, exchange)
.then((reserve) => this.depleteReserve(reserve,
exchange)))
.then(() => {
this.stopOperation(opId);
let depleted = {
type: "depleted-reserve",
timestamp: (new Date).getTime(),
detail: {
reservePub: reserveRecord.reserve_pub,
}
};
return Query(this.db).put("history", depleted).finish();
})
.catch((e) => {
console.error("Failed to deplete reserve");
console.error(e);
setTimeout(() => this.processReserve(reserveRecord), retryDelayMs);
// exponential backoff truncated at one minute
retryDelayMs = Math.min(retryDelayMs * 2, 1000 * 60);
});
}
private processPreCoin(preCoin, retryDelayMs = 100): void {
this.withdrawExecute(preCoin)
.then((c) => this.storeCoin(c))
.catch((e) => {
console.error("Failed to withdraw coin from precoin, retrying in", retryDelayMs, "ms");
console.error(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.
*/
createReserve(req: CreateReserveRequest): Promise<CreateReserveResponse> {
return this.cryptoApi.createEddsaKeypair().then((keypair) => {
const now = (new Date).getTime();
const canonExchange = canonicalizeBaseUrl(req.exchange);
const 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,
};
const historyEntry = {
type: "create-reserve",
timestamp: now,
detail: {
requestedAmount: req.amount,
reservePub: reserveRecord.reserve_pub,
}
};
return Query(this.db)
.put("reserves", reserveRecord)
.put("history", historyEntry)
.finish()
.then(() => {
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.
*/
confirmReserve(req: ConfirmReserveRequest): Promise<void> {
const now = (new Date).getTime();
const historyEntry = {
type: "confirm-reserve",
timestamp: now,
detail: {
reservePub: req.reservePub,
}
};
return Query(this.db)
.get("reserves", req.reservePub)
.then((r) => {
r.confirmed = true;
return Query(this.db)
.put("reserves", r)
.put("history", historyEntry)
.finish()
.then(() => {
// Do this in the background
this.processReserve(r);
});
});
}
private withdrawExecute(pc: PreCoin): Promise<Coin> {
return Query(this.db)
.get("reserves", pc.reservePub)
.then((r) => {
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(r.exchange_base_url);
return this.http.postJson(reqUrl, wd);
})
.then(resp => {
if (resp.status != 200) {
throw new RequestException({
hint: "Withdrawal failed",
status: resp.status
});
}
let r = JSON.parse(resp.responseText);
return this.cryptoApi.rsaUnblind(r.ev_sig, pc.blindingKey, pc.denomPub)
.then((denomSig) => {
let coin: Coin = {
coinPub: pc.coinPub,
coinPriv: pc.coinPriv,
denomPub: pc.denomPub,
denomSig: denomSig,
currentAmount: pc.coinValue,
exchangeBaseUrl: pc.exchangeBaseUrl,
};
return coin;
});
});
}
storeCoin(coin: Coin): Promise<void> {
let historyEntry = {
type: "withdraw",
timestamp: (new Date).getTime(),
detail: {
coinPub: coin.coinPub,
}
};
return Query(this.db)
.delete("precoins", coin.coinPub)
.add("coins", coin)
.add("history", historyEntry)
.finish()
.then(() => {
this.notifier.notify();
});
}
/**
* Withdraw one coin of the given denomination from the given reserve.
*/
private withdraw(denom: Denomination, reserve: Reserve): Promise<void> {
console.log("creating pre coin at", new Date());
return this.cryptoApi
.createPreCoin(denom, reserve)
.then((preCoin) => {
return Query(this.db)
.put("precoins", preCoin)
.finish()
.then(() => this.processPreCoin(preCoin));
});
}
/**
* Withdraw coins from a reserve until it is empty.
*/
private depleteReserve(reserve, exchange: IExchangeInfo): Promise<void> {
let denomsAvailable: Denomination[] = copy(exchange.active_denoms);
let denomsForWithdraw = getWithdrawDenomList(reserve.current_amount,
denomsAvailable);
let ps = denomsForWithdraw.map((denom) => {
console.log("withdrawing", JSON.stringify(denom));
// Do the withdraw asynchronously, so crypto is interleaved
// with requests
return this.withdraw(denom, reserve);
});
return Promise.all(ps).then(() => void 0);
}
/**
* Update the information about a reserve that is stored in the wallet
* by quering the reserve's exchange.
*/
private updateReserve(reservePub: string,
exchange: IExchangeInfo): Promise<Reserve> {
return Query(this.db)
.get("reserves", reservePub)
.then((reserve) => {
let reqUrl = URI("reserve/status").absoluteTo(exchange.baseUrl);
reqUrl.query({'reserve_pub': reservePub});
return this.http.get(reqUrl).then(resp => {
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(),
detail: {
reservePub,
oldAmount,
newAmount
}
};
return Query(this.db)
.put("reserves", reserve)
.finish()
.then(() => reserve);
});
});
}
/**
* Get the wire information for the exchange with the given base URL.
*/
getWireInfo(exchangeBaseUrl: string): Promise<WireInfo> {
exchangeBaseUrl = canonicalizeBaseUrl(exchangeBaseUrl);
let reqUrl = URI("wire").absoluteTo(exchangeBaseUrl);
return this.http.get(reqUrl).then((resp: HttpResponse) => {
if (resp.status != 200) {
throw Error("/wire request failed");
}
let wiJson = JSON.parse(resp.responseText);
if (!wiJson) {
throw Error("/wire response malformed")
}
return wiJson;
});
}
getReserveCreationInfo(baseUrl: string,
amount: AmountJson): Promise<ReserveCreationInfo> {
let p = this.updateExchangeFromUrl(baseUrl);
return p.then((exchangeInfo: IExchangeInfo) => {
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);
return this.getWireInfo(baseUrl).then((wireInfo) => {
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.
*/
updateExchangeFromUrl(baseUrl): Promise<IExchangeInfo> {
baseUrl = canonicalizeBaseUrl(baseUrl);
let reqUrl = URI("keys").absoluteTo(baseUrl);
return this.http.get(reqUrl).then((resp) => {
if (resp.status != 200) {
throw Error("/keys request failed");
}
let exchangeKeysJson = KeysJson.checked(JSON.parse(resp.responseText));
return this.updateExchangeFromJson(baseUrl, exchangeKeysJson);
});
}
private updateExchangeFromJson(baseUrl: string,
exchangeKeysJson: KeysJson): Promise<IExchangeInfo> {
let updateTimeSec = getTalerStampSec(exchangeKeysJson.list_issue_date);
if (!updateTimeSec) {
throw Error("invalid update time");
}
return Query(this.db).get("exchanges", baseUrl).then((r) => {
let exchangeInfo: IExchangeInfo;
console.dir(r);
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 Promise.resolve(r);
}
exchangeInfo = r;
console.log("updating old exchange");
}
return this.updateExchangeInfo(exchangeInfo, exchangeKeysJson)
.then((updatedExchangeInfo: IExchangeInfo) => {
let q1 = Query(this.db)
.put("exchanges", updatedExchangeInfo)
.finish()
.then(() => updatedExchangeInfo);
let q2 = Query(this.db)
.iter("coins",
{indexName: "exchangeBaseUrl", only: baseUrl})
.reduce((coin: Coin, suspendedCoins: Coin[]) => {
if (!updatedExchangeInfo.active_denoms.find((c) => c.denom_pub == coin.denomPub)) {
return [].concat(suspendedCoins, [coin]);
}
return [].concat(suspendedCoins);
}, [])
.then((suspendedCoins: Coin[]) => {
let q = Query(this.db);
suspendedCoins.map((c) => {
console.log("suspending coin", c);
c.suspended = true;
q.put("coins", c);
});
return q.finish();
});
return Promise.all([q1, q2]).then(() => updatedExchangeInfo);
});
});
}
private updateExchangeInfo(exchangeInfo: IExchangeInfo,
newKeys: KeysJson): Promise<IExchangeInfo> {
if (exchangeInfo.masterPublicKey != newKeys.master_public_key) {
throw Error("public keys do not match");
}
exchangeInfo.active_denoms = [];
let ps = newKeys.denoms.map((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 = Object.assign({}, oldDenom);
let b = 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 Promise.resolve();
}
return this.cryptoApi
.isValidDenom(newDenom, exchangeInfo.masterPublicKey)
.then((valid) => {
if (!valid) {
console.error("invalid denomination",
newDenom,
"with key",
exchangeInfo.masterPublicKey);
// FIXME: report to auditors
}
return this.cryptoApi.hashRsaPub(newDenom.denom_pub);
})
.then((h) => {
exchangeInfo.active_denoms.push(newDenom);
exchangeInfo.all_denoms.push(newDenom);
});
});
return Promise.all(ps).then(() => exchangeInfo);
}
/**
* Retrieve a mapping from currency name to the amount
* that is currenctly available for spending in the wallet.
*/
getBalances(): Promise<any> {
function collectBalances(c: Coin, byCurrency) {
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;
}
return Query(this.db)
.iter("coins")
.reduce(collectBalances, {})
.then(byCurrency => {
return {balances: byCurrency};
});
}
/**
* Retrive the full event history for this wallet.
*/
getHistory(): Promise<any> {
function collect(x, acc) {
acc.push(x);
return acc;
}
return Query(this.db)
.iter("history", {indexName: "timestamp"})
.reduce(collect, [])
.then(acc => ({history: acc}));
}
/**
* Check if there's an equivalent contract we've already purchased.
*/
checkRepurchase(contract: Contract): Promise<CheckRepurchaseResult> {
if (!contract.repurchase_correlation_id) {
console.log("no repurchase: no correlation id");
return Promise.resolve({isRepurchase: false});
}
return Query(this.db)
.getIndexed("transactions",
"repurchase",
[contract.merchant_pub, contract.repurchase_correlation_id])
.then((result: Transaction) => {
console.log("db result", result);
let isRepurchase;
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};
}
});
}
}