mirror of https://github.com/BTCPrivate/copay.git
417 lines
12 KiB
JavaScript
417 lines
12 KiB
JavaScript
'use strict';
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var chai = chai || require('chai');
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var should = chai.should();
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var expect = chai.expect;
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var sinon = sinon || require('sinon');
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var bitcore = bitcore || require('bitcore');
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var Async = require('../js/models/network/Async');
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describe('Network / Async', function() {
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it('should create an instance', function() {
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var n = new Async();
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should.exist(n);
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});
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describe('#Async constructor', function() {
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it('should call cleanUp', function() {
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var save = Async.prototype.cleanUp;
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Async.prototype.cleanUp = sinon.spy();
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var n = new Async();
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n.cleanUp.calledOnce.should.equal(true);
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Async.prototype.cleanUp = save;
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});
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});
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describe('#cleanUp', function() {
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it('should not set netKey', function() {
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var n = new Async();
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(n.netKey === undefined).should.equal(true);
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});
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it('should set privkey to null', function() {
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var n = new Async();
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n.cleanUp();
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expect(n.privkey).to.equal(null);
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});
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it('should remove handlers', function() {
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var n = new Async();
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var save = Async.prototype.removeAllListeners;
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var spy = Async.prototype.removeAllListeners = sinon.spy();
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n.cleanUp();
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spy.calledOnce.should.equal(true);
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Async.prototype.removeAllListeners = save;
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});
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});
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describe('#send', function() {
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it('should call _sendToOne for a copayer', function(done) {
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var n = new Async();
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n.privkey = bitcore.util.sha256('test');
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var data = new bitcore.Buffer('my data to send');
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var privkeystr = new bitcore.Buffer('test privkey');
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var privkey = bitcore.util.sha256(privkeystr);
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var key = new bitcore.Key();
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key.private = privkey;
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key.regenerateSync();
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var copayerId = key.public.toString('hex');
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n._sendToOne = function(a1, a2, cb) {
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cb();
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};
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var opts = {};
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n.send(copayerId, data, function() {
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done();
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});
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});
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it('should call _sendToOne with encrypted data for a copayer', function(done) {
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var n = new Async();
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n.privkey = bitcore.util.sha256('test');
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var data = new bitcore.Buffer('my data to send');
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var privkeystr = new bitcore.Buffer('test privkey');
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var privkey = bitcore.util.sha256(privkeystr);
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var key = new bitcore.Key();
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key.private = privkey;
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key.regenerateSync();
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var copayerId = key.public.toString('hex');
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n._sendToOne = function(a1, enc, cb) {
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var encPayload = JSON.parse(enc.toString());
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encPayload.sig.length.should.be.greaterThan(0);
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cb();
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};
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var opts = {};
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n.send(copayerId, data, function() {
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done();
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});
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});
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it('should call _sendToOne for a list of copayers', function(done) {
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var n = new Async();
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n.privkey = bitcore.util.sha256('test');
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var data = new bitcore.Buffer('my data to send');
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var privkeystr = new bitcore.Buffer('test privkey');
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var privkey = bitcore.util.sha256(privkeystr);
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var key = new bitcore.Key();
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key.private = privkey;
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key.regenerateSync();
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var copayerIds = [key.public.toString('hex')];
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n._sendToOne = function(a1, a2, cb) {
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cb();
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};
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var opts = {};
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n.send(copayerIds, data, function() {
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done();
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});
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});
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});
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describe('#_onData', function() {
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var privkey1 = bitcore.util.sha256('test privkey 1');
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var privkey2 = bitcore.util.sha256('test privkey 2');
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var privkey3 = bitcore.util.sha256('test privkey 2');
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var key1 = new bitcore.Key();
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key1.private = privkey1;
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key1.regenerateSync();
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var key2 = new bitcore.Key();
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key2.private = privkey2;
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key2.regenerateSync();
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var key3 = new bitcore.Key();
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key3.private = privkey3;
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key3.regenerateSync();
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it('should not reject data sent from a peer with hijacked pubkey', function() {
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var n = new Async();
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n.privkey = key2.private.toString('hex');
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var message = {
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type: 'hello',
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copayerId: key1.public.toString('hex')
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};
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var messagestr = JSON.stringify(message);
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var messagebuf = new Buffer(messagestr);
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var encoded = n._encode(key2.public, key1, messagebuf);
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var encodedstr = JSON.stringify(encoded);
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var encodeduint = new Buffer(encodedstr);
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var isInbound = true;
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var peerId = new bitcore.SIN(key1.public);
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n._deletePeer = sinon.spy();
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n._onData(encodeduint, isInbound, peerId);
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n._deletePeer.calledOnce.should.equal(false);
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});
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it('should reject data sent from a peer with hijacked pubkey', function() {
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var n = new Async();
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n.privkey = key2.private.toString('hex');
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var message = {
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type: 'hello',
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copayerId: key3.public.toString('hex') //MITM pubkey 3
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};
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var messagestr = JSON.stringify(message);
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var messagebuf = new Buffer(messagestr);
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var encoded = n._encode(key2.public, key1, messagebuf);
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var encodedstr = JSON.stringify(encoded);
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var encodeduint = new Buffer(encodedstr);
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var isInbound = true;
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var peerId = new bitcore.SIN(key1.public);
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n._deletePeer = sinon.spy();
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n._onData(encodeduint, isInbound, peerId);
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n._deletePeer.calledOnce.should.equal(true);
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n._deletePeer.getCall(0).args[0].should.equal(peerId);
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n._deletePeer.getCall(0).args[1].should.equal('incorrect pubkey for peerId');
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});
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it('should not reject data sent from a peer with no previously set nonce but who is setting one now', function() {
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var n = new Async();
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n.privkey = key2.private.toString('hex');
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//n.networkNonces = {};
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//n.networkNonces[(new bitcore.SIN(key1.public)).toString()] = new Buffer('0000000000000001', 'hex'); //previously used nonce
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var message = {
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type: 'hello',
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copayerId: key1.public.toString('hex')
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};
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var messagestr = JSON.stringify(message);
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var messagebuf = new Buffer(messagestr);
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var opts = {
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nonce: new Buffer('0000000000000001', 'hex')
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}; //message send with new nonce
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var encoded = n._encode(key2.public, key1, messagebuf, opts);
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var encodedstr = JSON.stringify(encoded);
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var encodeduint = new Buffer(encodedstr);
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var isInbound = true;
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var peerId = new bitcore.SIN(key1.public);
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n._deletePeer = sinon.spy();
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n._onData(encodeduint, isInbound, peerId);
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n._deletePeer.calledOnce.should.equal(false);
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n.getHexNonces()[(new bitcore.SIN(key1.public)).toString()].toString('hex').should.equal('0000000000000001');
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});
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it('should not reject data sent from a peer with a really big new nonce', function() {
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var n = new Async();
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n.privkey = key2.private.toString('hex');
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n.networkNonces = {};
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n.networkNonces[(new bitcore.SIN(key1.public)).toString()] = new Buffer('5000000000000001', 'hex'); //previously used nonce
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var message = {
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type: 'hello',
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copayerId: key1.public.toString('hex')
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};
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var messagestr = JSON.stringify(message);
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var messagebuf = new Buffer(messagestr);
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var opts = {
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nonce: new Buffer('5000000000000002', 'hex')
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}; //message send with new nonce
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var encoded = n._encode(key2.public, key1, messagebuf, opts);
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var encodedstr = JSON.stringify(encoded);
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var encodeduint = new Buffer(encodedstr);
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var isInbound = true;
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var peerId = new bitcore.SIN(key1.public);
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n._deletePeer = sinon.spy();
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n._onData(encodeduint, isInbound, peerId);
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n._deletePeer.calledOnce.should.equal(false);
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});
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it('should not reject data sent from a peer with a really big new nonce', function() {
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var n = new Async();
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n.privkey = key2.private.toString('hex');
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n.networkNonces = {};
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n.networkNonces[(new bitcore.SIN(key1.public)).toString()] = new Buffer('5000000000000001', 'hex'); //previously used nonce
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var message = {
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type: 'hello',
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copayerId: key1.public.toString('hex')
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};
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var messagestr = JSON.stringify(message);
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var messagebuf = new Buffer(messagestr);
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var opts = {
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nonce: new Buffer('5000000000000002', 'hex')
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}; //message send with new nonce
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var encoded = n._encode(key2.public, key1, messagebuf, opts);
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var encodedstr = JSON.stringify(encoded);
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var encodeduint = new Buffer(encodedstr);
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var isInbound = true;
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var peerId = new bitcore.SIN(key1.public);
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n._deletePeer = sinon.spy();
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n._onData(encodeduint, isInbound, peerId);
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n._deletePeer.calledOnce.should.equal(false);
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});
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it('should reject data sent from a peer with an outdated nonce', function() {
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var n = new Async();
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n.privkey = key2.private.toString('hex');
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n.networkNonces = {};
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n.networkNonces[(new bitcore.SIN(key1.public)).toString()] = new Buffer('0000000000000002', 'hex'); //previously used nonce
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var message = {
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type: 'hello',
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copayerId: key1.public.toString('hex')
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};
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var messagestr = JSON.stringify(message);
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var messagebuf = new Buffer(messagestr);
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var opts = {
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nonce: new Buffer('0000000000000001', 'hex')
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}; //message send with old nonce
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var encoded = n._encode(key2.public, key1, messagebuf, opts);
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var encodedstr = JSON.stringify(encoded);
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var encodeduint = new Buffer(encodedstr);
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var isInbound = true;
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var peerId = new bitcore.SIN(key1.public);
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n._deletePeer = sinon.spy();
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n._onData(encodeduint, isInbound, peerId);
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n._deletePeer.calledOnce.should.equal(true);
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});
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it('should reject data sent from a peer with a really big outdated nonce', function() {
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var n = new Async();
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n.privkey = key2.private.toString('hex');
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n.networkNonces = {};
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n.networkNonces[(new bitcore.SIN(key1.public)).toString()] = new Buffer('5000000000000002', 'hex'); //previously used nonce
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var message = {
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type: 'hello',
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copayerId: key1.public.toString('hex')
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};
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var messagestr = JSON.stringify(message);
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var messagebuf = new Buffer(messagestr);
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var opts = {
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nonce: new Buffer('5000000000000001', 'hex')
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}; //message send with old nonce
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var encoded = n._encode(key2.public, key1, messagebuf, opts);
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var encodedstr = JSON.stringify(encoded);
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var encodeduint = new Buffer(encodedstr);
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var isInbound = true;
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var peerId = new bitcore.SIN(key1.public);
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n._deletePeer = sinon.spy();
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n._onData(encodeduint, isInbound, peerId);
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n._deletePeer.calledOnce.should.equal(true);
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});
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});
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describe('#setHexNonce', function() {
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it('should set a nonce from a hex value', function() {
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var hex = '0000000000000000';
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var n = new Async();
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n.setHexNonce(hex);
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n.getHexNonce().should.equal(hex);
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n.networkNonce.toString('hex').should.equal(hex);
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});
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});
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describe('#setHexNonces', function() {
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it('should set a nonce from a hex value', function() {
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var hex = '0000000000000000';
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var n = new Async();
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n.setHexNonces({
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fakeid: hex
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});
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n.getHexNonces().fakeid.should.equal(hex);
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});
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});
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describe('#getHexNonce', function() {
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it('should get a nonce hex value', function() {
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var hex = '0000000000000000';
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var n = new Async();
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n.setHexNonce(hex);
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n.getHexNonce().should.equal(hex);
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});
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});
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describe('#getHexNonces', function() {
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it('should get a nonce from a hex value', function() {
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var hex = '0000000000000000';
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var n = new Async();
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n.setHexNonces({
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fakeid: hex
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});
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n.getHexNonces().fakeid.should.equal(hex);
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});
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});
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describe('#iterateNonce', function() {
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it('should set a nonce not already set', function() {
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var n = new Async();
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n.iterateNonce();
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n.networkNonce.slice(4, 8).toString('hex').should.equal('00000001');
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n.networkNonce.slice(0, 4).toString('hex').should.not.equal('00000000');
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});
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it('called twice should increment', function() {
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var n = new Async();
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n.iterateNonce();
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n.networkNonce.slice(4, 8).toString('hex').should.equal('00000001');
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n.iterateNonce();
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n.networkNonce.slice(4, 8).toString('hex').should.equal('00000002');
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});
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it('should set the first byte to the most significant "now" digit', function() {
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var n = new Async();
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n.iterateNonce();
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var buf = new Buffer(4);
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buf.writeUInt32BE(Math.floor(Date.now() / 1000), 0);
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n.networkNonce[0].should.equal(buf[0]);
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});
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});
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});
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