GT2/GT2-iOS/node_modules/stream-parser/test/writable.js

236 lines
5.5 KiB
JavaScript

/**
* Module dependencies.
*/
var Parser = require('../');
var assert = require('assert');
var inherits = require('util').inherits;
var Writable = require('stream').Writable;
// for node v0.6.x-v0.8.x support
if (!Writable) Writable = require('readable-stream/writable');
describe('Writable streams', function () {
var val = 1337;
var buf = new Buffer(4);
buf.writeUInt32LE(val, 0);
it('should have the `_bytes()` function', function () {
var w = new Writable();
Parser(w);
assert.equal('function', typeof w._bytes);
});
it('should have the `_skipBytes()` function', function () {
var w = new Writable();
Parser(w);
assert.equal('function', typeof w._skipBytes);
});
it('should *not* have the `_passthrough()` function', function () {
var w = new Writable();
Parser(w);
assert.notEqual('function', typeof w._passthrough);
});
it('should read 4 bytes in one chunk', function (done) {
var w = new Writable();
Parser(w);
// read 4 bytes
w._bytes(4, function (chunk) {
assert.equal(chunk.length, buf.length);
assert.equal(val, chunk.readUInt32LE(0));
done();
});
w.end(buf);
});
it('should read 4 bytes in multiple chunks', function (done) {
var w = new Writable();
Parser(w);
// read 4 bytes
w._bytes(4, function (chunk) {
assert.equal(chunk.length, buf.length);
assert.equal(val, chunk.readUInt32LE(0));
done();
});
for (var i = 0; i < buf.length; i++) {
w.write(new Buffer([ buf[i] ]));
}
w.end();
});
it('should read 1 byte, 2 bytes, then 3 bytes', function (done) {
var w = new Writable();
Parser(w);
// read 1 byte
w._bytes(1, readone);
function readone (chunk) {
assert.equal(1, chunk.length);
assert.equal(0, chunk[0]);
w._bytes(2, readtwo);
}
function readtwo (chunk) {
assert.equal(2, chunk.length);
assert.equal(0, chunk[0]);
assert.equal(1, chunk[1]);
w._bytes(3, readthree);
}
function readthree (chunk) {
assert.equal(3, chunk.length);
assert.equal(0, chunk[0]);
assert.equal(1, chunk[1]);
assert.equal(2, chunk[2]);
done();
}
w.end(new Buffer([ 0, 0, 1, 0, 1, 2 ]));
});
it('should work when mixing in to a subclass\' `prototype`', function (done) {
function MyWritable () {
Writable.call(this);
this._bytes(2, this.onbytes);
}
inherits(MyWritable, Writable);
// mixin to the `prototype`
Parser(MyWritable.prototype);
var count = 2;
MyWritable.prototype.onbytes = function (buf) {
assert.equal(2, buf.length);
assert.equal(0, buf[0]);
assert.equal(1, buf[1]);
--count;
if (!count) done();
};
var a = new MyWritable();
var b = new MyWritable();
// interleave write()s
a.write(new Buffer([ 0 ]));
b.write(new Buffer([ 0 ]));
a.write(new Buffer([ 1 ]));
b.write(new Buffer([ 1 ]));
a.end();
b.end();
});
it('should *not* allow you to buffer Infinity bytes', function () {
// buffering to Infinity would just be silly...
var w = new Writable();
Parser(w);
assert.throws(function () {
w._bytes(Infinity);
});
});
it('should skip 3 bytes then buffer 3 bytes', function (done) {
var w = new Writable();
Parser(w);
w._skipBytes(3, function () {
assert.equal(arguments.length, 0);
w._bytes(3, function (data) {
assert.equal(arguments.length, 1);
assert.equal(data.toString('ascii'), 'lo\n');
done();
});
});
w.end('hello\n');
});
describe('async', function () {
it('should accept a callback function for `_bytes()`', function (done) {
var w = new Writable();
var data = 'test';
Parser(w);
w._bytes(data.length, function (chunk, fn) {
setTimeout(fn, 25);
});
w.on('finish', function () {
done();
});
w.end(data);
});
it('should emit an "error" event when data is written with no parsing function', function (done) {
var w = new Writable();
Parser(w);
w.once('error', function (err) {
assert(err);
done();
});
w.write('a');
});
});
describe('FrameParser', function () {
function FrameParser () {
Writable.call(this);
this._bytes(1, this.onsize);
}
inherits(FrameParser, Writable);
// mixin to the `prototype`
Parser(FrameParser.prototype);
FrameParser.prototype.onsize = function (buf) {
var size = buf.readUInt8(0);
this._bytes(size, this.onframe);
};
FrameParser.prototype.onframe = function (buf) {
this.emit('frame', buf.toString());
// begin parsing the next "frame"
this._bytes(1, this.onsize);
};
it('should emit 1 "frame" event', function (done) {
var p = new FrameParser();
var s = 'a string';
p.on('frame', function (frame) {
assert.equal(s, frame);
done();
});
p.write(new Buffer([ s.length ]));
p.write(new Buffer(s));
p.end();
});
it('should emit 2 "frame" events', function (done) {
var p = new FrameParser();
var s = 'a string';
var s2 = 'done';
var count = 0;
p.on('frame', function (frame) {
count++;
if (s2 == frame) {
assert.equal(2, count);
done();
}
});
p.write(new Buffer([ s.length ]));
p.write(new Buffer(s));
p.write(new Buffer([ s2.length ]));
p.write(new Buffer(s2));
p.end();
});
});
});