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'use strict';

const assert = require('assert');

const extension = require('../lib/extension');

const PerMessageDeflate = require('../lib/permessage-deflate');

const Sender = require('../lib/sender');

const { EMPTY_BUFFER } = require('../lib/constants');

class MockSocket {

  constructor({ write } = {}) {

    this.readable = true;

    this.writable = true;

    if (write) this.write = write;

  cork() {}

  write() {}

  uncork() {}

describe('Sender', () => {

  describe('.frame', () => {

    it('does not mutate the input buffer if data is `readOnly`', () => {

      const buf = Buffer.from([1, 2, 3, 4, 5]);

      Sender.frame(buf, {

        readOnly: true,

        rsv1: false,

        mask: true,

        opcode: 2,

        fin: true

});

      assert.ok(buf.equals(Buffer.from([1, 2, 3, 4, 5])));

});

    it('honors the `rsv1` option', () => {

      const list = Sender.frame(EMPTY_BUFFER, {

        readOnly: false,

        mask: false,

        rsv1: true,

        opcode: 1,

        fin: true

});

      assert.strictEqual(list[0][0] & 0x40, 0x40);

});

    it('accepts a string as first argument', () => {

      const list = Sender.frame('€', {

        readOnly: false,

        rsv1: false,

        mask: false,

        opcode: 1,

        fin: true

});

      assert.deepStrictEqual(list[0], Buffer.from('8103', 'hex'));

      assert.deepStrictEqual(list[1], Buffer.from('e282ac', 'hex'));

});

});

  describe('#send', () => {

    it('compresses data if compress option is enabled', (done) => {

      const chunks = [];

      const perMessageDeflate = new PerMessageDeflate();

      const mockSocket = new MockSocket({

        write: (chunk) => {

          chunks.push(chunk);

          if (chunks.length !== 6) return;

          assert.strictEqual(chunks[0].length, 2);

          assert.strictEqual(chunks[0][0] & 0x40, 0x40);

          assert.strictEqual(chunks[2].length, 2);

          assert.strictEqual(chunks[2][0] & 0x40, 0x40);

          assert.strictEqual(chunks[4].length, 2);

          assert.strictEqual(chunks[4][0] & 0x40, 0x40);

          done();

});

      const sender = new Sender(mockSocket, {

        'permessage-deflate': perMessageDeflate

});

      perMessageDeflate.accept([{}]);

      const options = { compress: true, fin: true };

      const array = new Uint8Array([0x68, 0x69]);

      sender.send(array.buffer, options);

      sender.send(array, options);

      sender.send('hi', options);

});

    describe('when context takeover is disabled', () => {

      it('honors the compression threshold', (done) => {

        const chunks = [];

        const perMessageDeflate = new PerMessageDeflate();

        const mockSocket = new MockSocket({

          write: (chunk) => {

            chunks.push(chunk);

            if (chunks.length !== 2) return;

            assert.strictEqual(chunks[0].length, 2);

            assert.notStrictEqual(chunk[0][0] & 0x40, 0x40);

            assert.strictEqual(chunks[1], 'hi');

            done();

});

        const sender = new Sender(mockSocket, {

          'permessage-deflate': perMessageDeflate

});

        const extensions = extension.parse(

          'permessage-deflate; client_no_context_takeover'

);

        perMessageDeflate.accept(extensions['permessage-deflate']);

        sender.send('hi', { compress: true, fin: true });

});

      it('compresses all fragments of a fragmented message', (done) => {

        const chunks = [];

        const perMessageDeflate = new PerMessageDeflate({ threshold: 3 });

        const mockSocket = new MockSocket({

          write: (chunk) => {

            chunks.push(chunk);

            if (chunks.length !== 4) return;

            assert.strictEqual(chunks[0].length, 2);

            assert.strictEqual(chunks[0][0] & 0x40, 0x40);

            assert.strictEqual(chunks[1].length, 9);

            assert.strictEqual(chunks[2].length, 2);

            assert.strictEqual(chunks[2][0] & 0x40, 0x00);

            assert.strictEqual(chunks[3].length, 4);

            done();

});

        const sender = new Sender(mockSocket, {

          'permessage-deflate': perMessageDeflate

});

        const extensions = extension.parse(

          'permessage-deflate; client_no_context_takeover'

);

        perMessageDeflate.accept(extensions['permessage-deflate']);

        sender.send('123', { compress: true, fin: false });

        sender.send('12', { compress: true, fin: true });

});

      it('does not compress any fragments of a fragmented message', (done) => {

        const chunks = [];

        const perMessageDeflate = new PerMessageDeflate({ threshold: 3 });

        const mockSocket = new MockSocket({

          write: (chunk) => {

            chunks.push(chunk);

            if (chunks.length !== 4) return;

            assert.strictEqual(chunks[0].length, 2);

            assert.strictEqual(chunks[0][0] & 0x40, 0x00);

            assert.strictEqual(chunks[1].length, 2);

            assert.strictEqual(chunks[2].length, 2);

            assert.strictEqual(chunks[2][0] & 0x40, 0x00);

            assert.strictEqual(chunks[3].length, 3);

            done();

});

        const sender = new Sender(mockSocket, {

          'permessage-deflate': perMessageDeflate

});

        const extensions = extension.parse(

          'permessage-deflate; client_no_context_takeover'

);

        perMessageDeflate.accept(extensions['permessage-deflate']);

        sender.send('12', { compress: true, fin: false });

        sender.send('123', { compress: true, fin: true });

});

      it('compresses empty buffer as first fragment', (done) => {

        const chunks = [];

        const perMessageDeflate = new PerMessageDeflate({ threshold: 0 });

        const mockSocket = new MockSocket({

          write: (chunk) => {

            chunks.push(chunk);

            if (chunks.length !== 4) return;

            assert.strictEqual(chunks[0].length, 2);

            assert.strictEqual(chunks[0][0] & 0x40, 0x40);

            assert.strictEqual(chunks[1].length, 5);

            assert.strictEqual(chunks[2].length, 2);

            assert.strictEqual(chunks[2][0] & 0x40, 0x00);

            assert.strictEqual(chunks[3].length, 6);

            done();

});

        const sender = new Sender(mockSocket, {

          'permessage-deflate': perMessageDeflate

});

        const extensions = extension.parse(

          'permessage-deflate; client_no_context_takeover'

);

        perMessageDeflate.accept(extensions['permessage-deflate']);

        sender.send(Buffer.alloc(0), { compress: true, fin: false });

        sender.send('data', { compress: true, fin: true });

});

      it('compresses empty buffer as last fragment', (done) => {

        const chunks = [];

        const perMessageDeflate = new PerMessageDeflate({ threshold: 0 });

        const mockSocket = new MockSocket({

          write: (chunk) => {

            chunks.push(chunk);

            if (chunks.length !== 4) return;

            assert.strictEqual(chunks[0].length, 2);

            assert.strictEqual(chunks[0][0] & 0x40, 0x40);

            assert.strictEqual(chunks[1].length, 10);

            assert.strictEqual(chunks[2].length, 2);

            assert.strictEqual(chunks[2][0] & 0x40, 0x00);

            assert.strictEqual(chunks[3].length, 1);

            done();

});

        const sender = new Sender(mockSocket, {

          'permessage-deflate': perMessageDeflate

});

        const extensions = extension.parse(

          'permessage-deflate; client_no_context_takeover'

);

        perMessageDeflate.accept(extensions['permessage-deflate']);

        sender.send('data', { compress: true, fin: false });

        sender.send(Buffer.alloc(0), { compress: true, fin: true });

});

});

});

  describe('#ping', () => {

    it('works with multiple types of data', (done) => {

      const perMessageDeflate = new PerMessageDeflate();

      let count = 0;

      const mockSocket = new MockSocket({

        write: (data) => {

          if (++count < 3) return;

          if (count % 2) {

            assert.ok(data.equals(Buffer.from([0x89, 0x02])));

          } else if (count < 8) {

            assert.ok(data.equals(Buffer.from([0x68, 0x69])));

          } else {

            assert.strictEqual(data, 'hi');

            done();

});

      const sender = new Sender(mockSocket, {

        'permessage-deflate': perMessageDeflate

});

      perMessageDeflate.accept([{}]);

      const array = new Uint8Array([0x68, 0x69]);

      sender.send('foo', { compress: true, fin: true });

      sender.ping(array.buffer, false);

      sender.ping(array, false);

      sender.ping('hi', false);

});

});

  describe('#pong', () => {

    it('works with multiple types of data', (done) => {

      const perMessageDeflate = new PerMessageDeflate();

      let count = 0;

      const mockSocket = new MockSocket({

        write: (data) => {

          if (++count < 3) return;

          if (count % 2) {

            assert.ok(data.equals(Buffer.from([0x8a, 0x02])));

          } else if (count < 8) {

            assert.ok(data.equals(Buffer.from([0x68, 0x69])));

          } else {

            assert.strictEqual(data, 'hi');

            done();

});

      const sender = new Sender(mockSocket, {

        'permessage-deflate': perMessageDeflate

});

      perMessageDeflate.accept([{}]);

      const array = new Uint8Array([0x68, 0x69]);

      sender.send('foo', { compress: true, fin: true });

      sender.pong(array.buffer, false);

      sender.pong(array, false);

      sender.pong('hi', false);

});

});

  describe('#close', () => {

    it('throws an error if the first argument is invalid', () => {

      const mockSocket = new MockSocket();

      const sender = new Sender(mockSocket);

      assert.throws(

        () => sender.close('error'),

        /^TypeError: First argument must be a valid error code number$/

);

      assert.throws(

        () => sender.close(1004),

        /^TypeError: First argument must be a valid error code number$/

);

});

    it('throws an error if the message is greater than 123 bytes', () => {

      const mockSocket = new MockSocket();

      const sender = new Sender(mockSocket);

      assert.throws(

        () => sender.close(1000, 'a'.repeat(124)),

        /^RangeError: The message must not be greater than 123 bytes$/

);

});

    it('should consume all data before closing', (done) => {

      const perMessageDeflate = new PerMessageDeflate();

      let count = 0;

      const mockSocket = new MockSocket({

        write: (data, cb) => {

          count++;

          if (cb) cb();

});

      const sender = new Sender(mockSocket, {

        'permessage-deflate': perMessageDeflate

});

      perMessageDeflate.accept([{}]);

      sender.send('foo', { compress: true, fin: true });

      sender.send('bar', { compress: true, fin: true });

      sender.send('baz', { compress: true, fin: true });

      sender.close(1000, undefined, false, () => {

        assert.strictEqual(count, 8);

        done();

});

});

});

});