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// requires local modules: websock, util
// requires test modules: fake.websocket, assertions
/* jshint expr: true */
var assert = chai.assert;
var expect = chai.expect;
describe('Websock', function() {
"use strict";
describe('Queue methods', function () {
var sock;
var RQ_TEMPLATE = new Uint8Array([0, 1, 2, 3, 4, 5, 6, 7]);
beforeEach(function () {
sock = new Websock();
// skip init
sock._allocate_buffers();
sock._rQ.set(RQ_TEMPLATE);
sock._rQlen = RQ_TEMPLATE.length;
});
describe('rQlen', function () {
it('should return the length of the receive queue', function () {
sock.set_rQi(0);
expect(sock.rQlen()).to.equal(RQ_TEMPLATE.length);
});
it("should return the proper length if we read some from the receive queue", function () {
sock.set_rQi(1);
expect(sock.rQlen()).to.equal(RQ_TEMPLATE.length - 1);
});
});
describe('rQpeek8', function () {
it('should peek at the next byte without poping it off the queue', function () {
var bef_len = sock.rQlen();
var peek = sock.rQpeek8();
expect(sock.rQpeek8()).to.equal(peek);
expect(sock.rQlen()).to.equal(bef_len);
});
});
describe('rQshift8', function () {
it('should pop a single byte from the receive queue', function () {
var peek = sock.rQpeek8();
var bef_len = sock.rQlen();
expect(sock.rQshift8()).to.equal(peek);
expect(sock.rQlen()).to.equal(bef_len - 1);
});
});
describe('rQshift16', function () {
it('should pop two bytes from the receive queue and return a single number', function () {
var bef_len = sock.rQlen();
var expected = (RQ_TEMPLATE[0] << 8) + RQ_TEMPLATE[1];
expect(sock.rQshift16()).to.equal(expected);
expect(sock.rQlen()).to.equal(bef_len - 2);
});
});
describe('rQshift32', function () {
it('should pop four bytes from the receive queue and return a single number', function () {
var bef_len = sock.rQlen();
var expected = (RQ_TEMPLATE[0] << 24) +
(RQ_TEMPLATE[1] << 16) +
(RQ_TEMPLATE[2] << 8) +
RQ_TEMPLATE[3];
expect(sock.rQshift32()).to.equal(expected);
expect(sock.rQlen()).to.equal(bef_len - 4);
});
});
describe('rQshiftStr', function () {
it('should shift the given number of bytes off of the receive queue and return a string', function () {
var bef_len = sock.rQlen();
var bef_rQi = sock.get_rQi();
var shifted = sock.rQshiftStr(3);
expect(shifted).to.be.a('string');
expect(shifted).to.equal(String.fromCharCode.apply(null, Array.prototype.slice.call(new Uint8Array(RQ_TEMPLATE.buffer, bef_rQi, 3))));
expect(sock.rQlen()).to.equal(bef_len - 3);
});
it('should shift the entire rest of the queue off if no length is given', function () {
sock.rQshiftStr();
expect(sock.rQlen()).to.equal(0);
});
});
describe('rQshiftBytes', function () {
it('should shift the given number of bytes of the receive queue and return an array', function () {
var bef_len = sock.rQlen();
var bef_rQi = sock.get_rQi();
var shifted = sock.rQshiftBytes(3);
expect(shifted).to.be.an.instanceof(Uint8Array);
expect(shifted).to.array.equal(new Uint8Array(RQ_TEMPLATE.buffer, bef_rQi, 3));
expect(sock.rQlen()).to.equal(bef_len - 3);
});
it('should shift the entire rest of the queue off if no length is given', function () {
sock.rQshiftBytes();
expect(sock.rQlen()).to.equal(0);
});
});
describe('rQslice', function () {
beforeEach(function () {
sock.set_rQi(0);
});
it('should not modify the receive queue', function () {
var bef_len = sock.rQlen();
sock.rQslice(0, 2);
expect(sock.rQlen()).to.equal(bef_len);
});
it('should return an array containing the given slice of the receive queue', function () {
var sl = sock.rQslice(0, 2);
expect(sl).to.be.an.instanceof(Uint8Array);
expect(sl).to.array.equal(new Uint8Array(RQ_TEMPLATE.buffer, 0, 2));
});
it('should use the rest of the receive queue if no end is given', function () {
var sl = sock.rQslice(1);
expect(sl).to.have.length(RQ_TEMPLATE.length - 1);
expect(sl).to.array.equal(new Uint8Array(RQ_TEMPLATE.buffer, 1));
});
it('should take the current rQi in to account', function () {
sock.set_rQi(1);
expect(sock.rQslice(0, 2)).to.array.equal(new Uint8Array(RQ_TEMPLATE.buffer, 1, 2));
});
});
describe('rQwait', function () {
beforeEach(function () {
sock.set_rQi(0);
});
it('should return true if there are not enough bytes in the receive queue', function () {
expect(sock.rQwait('hi', RQ_TEMPLATE.length + 1)).to.be.true;
});
it('should return false if there are enough bytes in the receive queue', function () {
expect(sock.rQwait('hi', RQ_TEMPLATE.length)).to.be.false;
});
it('should return true and reduce rQi by "goback" if there are not enough bytes', function () {
sock.set_rQi(5);
expect(sock.rQwait('hi', RQ_TEMPLATE.length, 4)).to.be.true;
expect(sock.get_rQi()).to.equal(1);
});
it('should raise an error if we try to go back more than possible', function () {
sock.set_rQi(5);
expect(function () { sock.rQwait('hi', RQ_TEMPLATE.length, 6); }).to.throw(Error);
});
it('should not reduce rQi if there are enough bytes', function () {
sock.set_rQi(5);
sock.rQwait('hi', 1, 6);
expect(sock.get_rQi()).to.equal(5);
});
});
describe('flush', function () {
beforeEach(function () {
sock._websocket = {
send: sinon.spy()
};
});
it('should actually send on the websocket if the websocket does not have too much buffered', function () {
sock.maxBufferedAmount = 10;
sock._websocket.bufferedAmount = 8;
sock._sQ = new Uint8Array([1, 2, 3]);
sock._sQlen = 3;
var encoded = sock._encode_message();
sock.flush();
expect(sock._websocket.send).to.have.been.calledOnce;
expect(sock._websocket.send).to.have.been.calledWith(encoded);
});
it('should return true if the websocket did not have too much buffered', function () {
sock.maxBufferedAmount = 10;
sock._websocket.bufferedAmount = 8;
expect(sock.flush()).to.be.true;
});
it('should not call send if we do not have anything queued up', function () {
sock._sQlen = 0;
sock.maxBufferedAmount = 10;
sock._websocket.bufferedAmount = 8;
sock.flush();
expect(sock._websocket.send).not.to.have.been.called;
});
it('should not send and return false if the websocket has too much buffered', function () {
sock.maxBufferedAmount = 10;
sock._websocket.bufferedAmount = 12;
expect(sock.flush()).to.be.false;
expect(sock._websocket.send).to.not.have.been.called;
});
});
describe('send', function () {
beforeEach(function () {
sock.flush = sinon.spy();
});
it('should add to the send queue', function () {
sock.send([1, 2, 3]);
var sq = sock.get_sQ();
expect(new Uint8Array(sq.buffer, sock._sQlen - 3, 3)).to.array.equal(new Uint8Array([1, 2, 3]));
});
it('should call flush', function () {
sock.send([1, 2, 3]);
expect(sock.flush).to.have.been.calledOnce;
});
});
describe('send_string', function () {
beforeEach(function () {
sock.send = sinon.spy();
});
it('should call send after converting the string to an array', function () {
sock.send_string("\x01\x02\x03");
expect(sock.send).to.have.been.calledWith([1, 2, 3]);
});
});
});
describe('lifecycle methods', function () {
var old_WS;
before(function () {
old_WS = WebSocket;
});
var sock;
beforeEach(function () {
sock = new Websock();
WebSocket = sinon.spy();
WebSocket.OPEN = old_WS.OPEN;
WebSocket.CONNECTING = old_WS.CONNECTING;
WebSocket.CLOSING = old_WS.CLOSING;
WebSocket.CLOSED = old_WS.CLOSED;
WebSocket.prototype.binaryType = 'arraybuffer';
});
describe('opening', function () {
it('should pick the correct protocols if none are given' , function () {
});
it('should open the actual websocket', function () {
sock.open('ws://localhost:8675', 'binary');
expect(WebSocket).to.have.been.calledWith('ws://localhost:8675', 'binary');
});
it('should fail if we specify a protocol besides binary', function () {
expect(function () { sock.open('ws:///', 'base64'); }).to.throw(Error);
});
// it('should initialize the event handlers')?
});
describe('closing', function () {
beforeEach(function () {
sock.open('ws://');
sock._websocket.close = sinon.spy();
});
it('should close the actual websocket if it is open', function () {
sock._websocket.readyState = WebSocket.OPEN;
sock.close();
expect(sock._websocket.close).to.have.been.calledOnce;
});
it('should close the actual websocket if it is connecting', function () {
sock._websocket.readyState = WebSocket.CONNECTING;
sock.close();
expect(sock._websocket.close).to.have.been.calledOnce;
});
it('should not try to close the actual websocket if closing', function () {
sock._websocket.readyState = WebSocket.CLOSING;
sock.close();
expect(sock._websocket.close).not.to.have.been.called;
});
it('should not try to close the actual websocket if closed', function () {
sock._websocket.readyState = WebSocket.CLOSED;
sock.close();
expect(sock._websocket.close).not.to.have.been.called;
});
it('should reset onmessage to not call _recv_message', function () {
sinon.spy(sock, '_recv_message');
sock.close();
sock._websocket.onmessage(null);
try {
expect(sock._recv_message).not.to.have.been.called;
} finally {
sock._recv_message.restore();
}
});
});
describe('event handlers', function () {
beforeEach(function () {
sock._recv_message = sinon.spy();
sock.on('open', sinon.spy());
sock.on('close', sinon.spy());
sock.on('error', sinon.spy());
sock.open('ws://');
});
it('should call _recv_message on a message', function () {
sock._websocket.onmessage(null);
expect(sock._recv_message).to.have.been.calledOnce;
});
it('should fail if a protocol besides binary is requested', function () {
sock._websocket.protocol = 'base64';
expect(sock._websocket.onopen).to.throw(Error);
});
it('should assume binary if no protocol was available on opening', function () {
sock._websocket.protocol = null;
sock._websocket.onopen();
expect(sock._mode).to.equal('binary');
});
it('should call the open event handler on opening', function () {
sock._websocket.onopen();
expect(sock._eventHandlers.open).to.have.been.calledOnce;
});
it('should call the close event handler on closing', function () {
sock._websocket.onclose();
expect(sock._eventHandlers.close).to.have.been.calledOnce;
});
it('should call the error event handler on error', function () {
sock._websocket.onerror();
expect(sock._eventHandlers.error).to.have.been.calledOnce;
});
});
after(function () {
WebSocket = old_WS;
});
});
describe('WebSocket Receiving', function () {
var sock;
beforeEach(function () {
sock = new Websock();
sock._allocate_buffers();
});
it('should support adding binary Uint8Array data to the receive queue', function () {
var msg = { data: new Uint8Array([1, 2, 3]) };
sock._mode = 'binary';
sock._recv_message(msg);
expect(sock.rQshiftStr(3)).to.equal('\x01\x02\x03');
});
it('should call the message event handler if present', function () {
sock._eventHandlers.message = sinon.spy();
var msg = { data: new Uint8Array([1, 2, 3]).buffer };
sock._mode = 'binary';
sock._recv_message(msg);
expect(sock._eventHandlers.message).to.have.been.calledOnce;
});
it('should not call the message event handler if there is nothing in the receive queue', function () {
sock._eventHandlers.message = sinon.spy();
var msg = { data: new Uint8Array([]).buffer };
sock._mode = 'binary';
sock._recv_message(msg);
expect(sock._eventHandlers.message).not.to.have.been.called;
});
it('should compact the receive queue', function () {
// NB(sross): while this is an internal implementation detail, it's important to
// test, otherwise the receive queue could become very large very quickly
sock._rQ = new Uint8Array([0, 1, 2, 3, 4, 5, 0, 0, 0, 0]);
sock._rQlen = 6;
sock.set_rQi(6);
sock._rQmax = 3;
var msg = { data: new Uint8Array([1, 2, 3]).buffer };
sock._mode = 'binary';
sock._recv_message(msg);
expect(sock._rQlen).to.equal(3);
expect(sock.get_rQi()).to.equal(0);
});
it('should call the error event handler on an exception', function () {
sock._eventHandlers.error = sinon.spy();
sock._eventHandlers.message = sinon.stub().throws();
var msg = { data: new Uint8Array([1, 2, 3]).buffer };
sock._mode = 'binary';
sock._recv_message(msg);
expect(sock._eventHandlers.error).to.have.been.calledOnce;
});
});
describe('Data encoding', function () {
before(function () { FakeWebSocket.replace(); });
after(function () { FakeWebSocket.restore(); });
describe('as binary data', function () {
var sock;
beforeEach(function () {
sock = new Websock();
sock.open('ws://', 'binary');
sock._websocket._open();
});
it('should only send the send queue up to the send queue length', function () {
sock._sQ = new Uint8Array([1, 2, 3, 4, 5]);
sock._sQlen = 3;
var res = sock._encode_message();
expect(res).to.array.equal(new Uint8Array([1, 2, 3]));
});
it('should properly pass the encoded data off to the actual WebSocket', function () {
sock.send([1, 2, 3]);
expect(sock._websocket._get_sent_data()).to.array.equal(new Uint8Array([1, 2, 3]));
});
});
});
});
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