/*
This file is part of TALER
(C) 2016 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
*/
/**
* API to access the Taler crypto worker thread.
* @author Florian Dold
*/
/**
* Imports.
*/
import { AmountJson } from "../amounts";
import {
CoinRecord,
DenominationRecord,
PreCoinRecord,
RefreshSessionRecord,
ReserveRecord,
TipPlanchet,
WireFee,
} from "../dbTypes";
import {
ContractTerms,
PaybackRequest,
} from "../talerTypes";
import {
CoinWithDenom,
PayCoinInfo,
} from "../walletTypes";
import * as timer from "../timer";
import { startWorker } from "./startWorker";
/**
* State of a crypto worker.
*/
interface WorkerState {
/**
* The actual worker thread.
*/
w: Worker|null;
/**
* Work we're currently executing or null if not busy.
*/
currentWorkItem: WorkItem|null;
/**
* Timer to terminate the worker if it's not busy enough.
*/
terminationTimerHandle: timer.TimerHandle|null;
}
interface WorkItem {
operation: string;
args: any[];
resolve: any;
reject: any;
/**
* Serial id to identify a matching response.
*/
rpcId: number;
/**
* Time when the work was submitted to a (non-busy) worker thread.
*/
startTime: number;
}
/**
* Number of different priorities. Each priority p
* must be 0 <= p < NUM_PRIO.
*/
const NUM_PRIO = 5;
/**
* Crypto API that interfaces manages a background crypto thread
* for the execution of expensive operations.
*/
export class CryptoApi {
private nextRpcId: number = 1;
private workers: WorkerState[];
private workQueues: WorkItem[][];
/**
* Number of busy workers.
*/
private numBusy: number = 0;
/**
* Start a worker (if not started) and set as busy.
*/
wake(ws: WorkerState, work: WorkItem): void {
if (ws.currentWorkItem !== null) {
throw Error("assertion failed");
}
ws.currentWorkItem = work;
this.numBusy++;
if (!ws.w) {
const w = startWorker();
w.onmessage = (m: MessageEvent) => this.handleWorkerMessage(ws, m);
w.onerror = (e: ErrorEvent) => this.handleWorkerError(ws, e);
ws.w = w;
}
const msg: any = {
args: work.args,
id: work.rpcId,
operation: work.operation,
};
this.resetWorkerTimeout(ws);
work.startTime = timer.performanceNow();
ws.w!.postMessage(msg);
}
resetWorkerTimeout(ws: WorkerState) {
if (ws.terminationTimerHandle !== null) {
ws.terminationTimerHandle.clear();
ws.terminationTimerHandle = null;
}
const destroy = () => {
// terminate worker if it's idle
if (ws.w && ws.currentWorkItem === null) {
ws.w!.terminate();
ws.w = null;
}
};
ws.terminationTimerHandle = timer.after(20 * 1000, destroy);
}
handleWorkerError(ws: WorkerState, e: ErrorEvent) {
if (ws.currentWorkItem) {
console.error(`error in worker during ${ws.currentWorkItem!.operation}`,
e);
} else {
console.error("error in worker", e);
}
console.error(e.message);
try {
ws.w!.terminate();
ws.w = null;
} catch (e) {
console.error(e);
}
if (ws.currentWorkItem !== null) {
ws.currentWorkItem.reject(e);
ws.currentWorkItem = null;
this.numBusy--;
}
this.findWork(ws);
}
findWork(ws: WorkerState) {
// try to find more work for this worker
for (let i = 0; i < NUM_PRIO; i++) {
const q = this.workQueues[NUM_PRIO - i - 1];
if (q.length !== 0) {
const work: WorkItem = q.shift()!;
this.wake(ws, work);
return;
}
}
}
handleWorkerMessage(ws: WorkerState, msg: MessageEvent) {
const id = msg.data.id;
if (typeof id !== "number") {
console.error("rpc id must be number");
return;
}
const currentWorkItem = ws.currentWorkItem;
ws.currentWorkItem = null;
this.numBusy--;
this.findWork(ws);
if (!currentWorkItem) {
console.error("unsolicited response from worker");
return;
}
if (id !== currentWorkItem.rpcId) {
console.error(`RPC with id ${id} has no registry entry`);
return;
}
console.log(`rpc ${currentWorkItem.operation} took ${timer.performanceNow() - currentWorkItem.startTime}ms`);
currentWorkItem.resolve(msg.data.result);
}
constructor() {
let concurrency = 2;
try {
// only works in the browser
// tslint:disable-next-line:no-string-literal
concurrency = (navigator as any)["hardwareConcurrency"];
concurrency = Math.max(1, Math.ceil(concurrency / 2));
} catch (e) {
// ignore
}
this.workers = new Array(concurrency);
for (let i = 0; i < this.workers.length; i++) {
this.workers[i] = {
currentWorkItem: null,
terminationTimerHandle: null,
w: null,
};
}
this.workQueues = [];
for (let i = 0; i < NUM_PRIO; i++) {
this.workQueues.push([]);
}
}
private doRpc(operation: string, priority: number,
...args: any[]): Promise {
const p: Promise = new Promise((resolve, reject) => {
const rpcId = this.nextRpcId++;
const workItem: WorkItem = {operation, args, resolve, reject, rpcId, startTime: 0};
if (this.numBusy === this.workers.length) {
const q = this.workQueues[priority];
if (!q) {
throw Error("assertion failed");
}
this.workQueues[priority].push(workItem);
return;
}
for (const ws of this.workers) {
if (ws.currentWorkItem !== null) {
continue;
}
this.wake(ws, workItem);
return;
}
throw Error("assertion failed");
});
return p.then((r: T) => {
return r;
});
}
createPreCoin(denom: DenominationRecord, reserve: ReserveRecord): Promise {
return this.doRpc("createPreCoin", 1, denom, reserve);
}
createTipPlanchet(denom: DenominationRecord): Promise {
return this.doRpc("createTipPlanchet", 1, denom);
}
hashString(str: string): Promise {
return this.doRpc("hashString", 1, str);
}
hashDenomPub(denomPub: string): Promise {
return this.doRpc("hashDenomPub", 1, denomPub);
}
isValidDenom(denom: DenominationRecord,
masterPub: string): Promise {
return this.doRpc("isValidDenom", 2, denom, masterPub);
}
isValidWireFee(type: string, wf: WireFee, masterPub: string): Promise {
return this.doRpc("isValidWireFee", 2, type, wf, masterPub);
}
isValidPaymentSignature(sig: string, contractHash: string, merchantPub: string): Promise {
return this.doRpc("isValidPaymentSignature", 1, sig, contractHash, merchantPub);
}
signDeposit(contractTerms: ContractTerms,
cds: CoinWithDenom[],
totalAmount: AmountJson): Promise {
return this.doRpc("signDeposit", 3, contractTerms, cds, totalAmount);
}
createEddsaKeypair(): Promise<{priv: string, pub: string}> {
return this.doRpc<{priv: string, pub: string}>("createEddsaKeypair", 1);
}
rsaUnblind(sig: string, bk: string, pk: string): Promise {
return this.doRpc("rsaUnblind", 4, sig, bk, pk);
}
createPaybackRequest(coin: CoinRecord): Promise {
return this.doRpc("createPaybackRequest", 1, coin);
}
createRefreshSession(exchangeBaseUrl: string,
kappa: number,
meltCoin: CoinRecord,
newCoinDenoms: DenominationRecord[],
meltFee: AmountJson): Promise {
return this.doRpc("createRefreshSession",
4,
exchangeBaseUrl,
kappa,
meltCoin,
newCoinDenoms,
meltFee);
}
}