// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. /** * @fileoverview Test cases for jspb's binary protocol buffer writer. In * practice BinaryWriter is used to drive the Decoder and Reader test cases, * so only writer-specific tests are here. * * Test suite is written using Jasmine -- see http://jasmine.github.io/ * * @author aappleby@google.com (Austin Appleby) */ goog.require('goog.crypt'); goog.require('goog.testing.asserts'); goog.require('jspb.BinaryConstants'); goog.require('jspb.BinaryReader'); goog.require('jspb.BinaryWriter'); goog.require('jspb.utils'); /** * @param {function()} func This function should throw an error when run. */ function assertFails(func) { assertThrows(func); } describe('binaryWriterTest', function() { /** * Verifies that misuse of the writer class triggers assertions. */ it('testWriteErrors', function() { // Submessages with invalid field indices should assert. var writer = new jspb.BinaryWriter(); var dummyMessage = /** @type {!jspb.BinaryMessage} */({}); assertFails(function() { writer.writeMessage(-1, dummyMessage, goog.nullFunction); }); // Writing invalid field indices should assert. writer = new jspb.BinaryWriter(); assertFails(function() {writer.writeUint64(-1, 1);}); // Writing out-of-range field values should assert. writer = new jspb.BinaryWriter(); assertFails(function() {writer.writeInt32(1, -Infinity);}); assertFails(function() {writer.writeInt32(1, Infinity);}); assertFails(function() {writer.writeInt64(1, -Infinity);}); assertFails(function() {writer.writeInt64(1, Infinity);}); assertFails(function() {writer.writeUint32(1, -1);}); assertFails(function() {writer.writeUint32(1, Infinity);}); assertFails(function() {writer.writeUint64(1, -1);}); assertFails(function() {writer.writeUint64(1, Infinity);}); assertFails(function() {writer.writeSint32(1, -Infinity);}); assertFails(function() {writer.writeSint32(1, Infinity);}); assertFails(function() {writer.writeSint64(1, -Infinity);}); assertFails(function() {writer.writeSint64(1, Infinity);}); assertFails(function() {writer.writeFixed32(1, -1);}); assertFails(function() {writer.writeFixed32(1, Infinity);}); assertFails(function() {writer.writeFixed64(1, -1);}); assertFails(function() {writer.writeFixed64(1, Infinity);}); assertFails(function() {writer.writeSfixed32(1, -Infinity);}); assertFails(function() {writer.writeSfixed32(1, Infinity);}); assertFails(function() {writer.writeSfixed64(1, -Infinity);}); assertFails(function() {writer.writeSfixed64(1, Infinity);}); }); /** * Basic test of retrieving the result as a Uint8Array buffer */ it('testGetResultBuffer', function() { var expected = '0864120b48656c6c6f20776f726c641a0301020320c801'; var writer = new jspb.BinaryWriter(); writer.writeUint32(1, 100); writer.writeString(2, 'Hello world'); writer.writeBytes(3, new Uint8Array([1, 2, 3])); writer.writeUint32(4, 200); var buffer = writer.getResultBuffer(); assertEquals(expected, goog.crypt.byteArrayToHex(buffer)); }); /** * Tests websafe encodings for base64 strings. */ it('testWebSafeOption', function() { var writer = new jspb.BinaryWriter(); writer.writeBytes(1, new Uint8Array([127])); assertEquals('CgF/', writer.getResultBase64String()); assertEquals( 'CgF/', writer.getResultBase64String(goog.crypt.base64.Alphabet.DEFAULT)); assertEquals( 'CgF_', writer.getResultBase64String( goog.crypt.base64.Alphabet.WEBSAFE_NO_PADDING)); }); it('writes split 64 fields', function() { var writer = new jspb.BinaryWriter(); writer.writeSplitVarint64(1, 0x1, 0x2); writer.writeSplitVarint64(1, 0xFFFFFFFF, 0xFFFFFFFF); writer.writeSplitFixed64(2, 0x1, 0x2); writer.writeSplitFixed64(2, 0xFFFFFFF0, 0xFFFFFFFF); function lo(i) { return i + 1; } function hi(i) { return i + 2; } writer.writeRepeatedSplitVarint64(3, [0, 1, 2], lo, hi); writer.writeRepeatedSplitFixed64(4, [0, 1, 2], lo, hi); writer.writePackedSplitVarint64(5, [0, 1, 2], lo, hi); writer.writePackedSplitFixed64(6, [0, 1, 2], lo, hi); function bitsAsArray(lowBits, highBits) { return [lowBits >>> 0, highBits >>> 0]; } var reader = jspb.BinaryReader.alloc(writer.getResultBuffer()); reader.nextField(); expect(reader.getFieldNumber()).toEqual(1); expect(reader.readSplitVarint64(bitsAsArray)).toEqual([0x1, 0x2]); reader.nextField(); expect(reader.getFieldNumber()).toEqual(1); expect(reader.readSplitVarint64(bitsAsArray)).toEqual([ 0xFFFFFFFF, 0xFFFFFFFF ]); reader.nextField(); expect(reader.getFieldNumber()).toEqual(2); expect(reader.readSplitFixed64(bitsAsArray)).toEqual([0x1, 0x2]); reader.nextField(); expect(reader.getFieldNumber()).toEqual(2); expect(reader.readSplitFixed64(bitsAsArray)).toEqual([ 0xFFFFFFF0, 0xFFFFFFFF ]); for (let i = 0; i < 3; i++) { reader.nextField(); expect(reader.getFieldNumber()).toEqual(3); expect(reader.readSplitVarint64(bitsAsArray)).toEqual([i + 1, i + 2]); } for (let i = 0; i < 3; i++) { reader.nextField(); expect(reader.getFieldNumber()).toEqual(4); expect(reader.readSplitFixed64(bitsAsArray)).toEqual([i + 1, i + 2]); } reader.nextField(); expect(reader.getFieldNumber()).toEqual(5); expect(reader.readPackedInt64String()).toEqual([ String(2 * 2 ** 32 + 1), String(3 * 2 ** 32 + 2), String(4 * 2 ** 32 + 3), ]); reader.nextField(); expect(reader.getFieldNumber()).toEqual(6); expect(reader.readPackedFixed64String()).toEqual([ String(2 * 2 ** 32 + 1), String(3 * 2 ** 32 + 2), String(4 * 2 ** 32 + 3), ]); }); it('writes zigzag 64 fields', function() { // Test cases directly from the protobuf dev guide. // https://engdoc.corp.google.com/eng/howto/protocolbuffers/developerguide/encoding.shtml?cl=head#types var testCases = [ {original: '0', zigzag: '0'}, {original: '-1', zigzag: '1'}, {original: '1', zigzag: '2'}, {original: '-2', zigzag: '3'}, {original: '2147483647', zigzag: '4294967294'}, {original: '-2147483648', zigzag: '4294967295'}, // 64-bit extremes, not in dev guide. {original: '9223372036854775807', zigzag: '18446744073709551614'}, {original: '-9223372036854775808', zigzag: '18446744073709551615'}, ]; function decimalToLowBits(v) { jspb.utils.splitDecimalString(v); return jspb.utils.split64Low >>> 0; } function decimalToHighBits(v) { jspb.utils.splitDecimalString(v); return jspb.utils.split64High >>> 0; } var writer = new jspb.BinaryWriter(); testCases.forEach(function(c) { writer.writeSint64String(1, c.original); writer.writeSintHash64(1, jspb.utils.decimalStringToHash64(c.original)); jspb.utils.splitDecimalString(c.original); writer.writeSplitZigzagVarint64( 1, jspb.utils.split64Low, jspb.utils.split64High); }); writer.writeRepeatedSint64String(2, testCases.map(function(c) { return c.original; })); writer.writeRepeatedSintHash64(3, testCases.map(function(c) { return jspb.utils.decimalStringToHash64(c.original); })); writer.writeRepeatedSplitZigzagVarint64( 4, testCases.map(function(c) { return c.original; }), decimalToLowBits, decimalToHighBits); writer.writePackedSint64String(5, testCases.map(function(c) { return c.original; })); writer.writePackedSintHash64(6, testCases.map(function(c) { return jspb.utils.decimalStringToHash64(c.original); })); writer.writePackedSplitZigzagVarint64( 7, testCases.map(function(c) { return c.original; }), decimalToLowBits, decimalToHighBits); // Verify by reading the stream as normal int64 fields and checking with // the canonical zigzag encoding of each value. var reader = jspb.BinaryReader.alloc(writer.getResultBuffer()); testCases.forEach(function(c) { reader.nextField(); expect(reader.getFieldNumber()).toEqual(1); expect(reader.readUint64String()).toEqual(c.zigzag); reader.nextField(); expect(reader.getFieldNumber()).toEqual(1); expect(reader.readUint64String()).toEqual(c.zigzag); reader.nextField(); expect(reader.getFieldNumber()).toEqual(1); expect(reader.readUint64String()).toEqual(c.zigzag); }); testCases.forEach(function(c) { reader.nextField(); expect(reader.getFieldNumber()).toEqual(2); expect(reader.readUint64String()).toEqual(c.zigzag); }); testCases.forEach(function(c) { reader.nextField(); expect(reader.getFieldNumber()).toEqual(3); expect(reader.readUint64String()).toEqual(c.zigzag); }); testCases.forEach(function(c) { reader.nextField(); expect(reader.getFieldNumber()).toEqual(4); expect(reader.readUint64String()).toEqual(c.zigzag); }); reader.nextField(); expect(reader.getFieldNumber()).toEqual(5); expect(reader.readPackedUint64String()).toEqual(testCases.map(function(c) { return c.zigzag; })); reader.nextField(); expect(reader.getFieldNumber()).toEqual(6); expect(reader.readPackedUint64String()).toEqual(testCases.map(function(c) { return c.zigzag; })); reader.nextField(); expect(reader.getFieldNumber()).toEqual(7); expect(reader.readPackedUint64String()).toEqual(testCases.map(function(c) { return c.zigzag; })); }); it('writes float32 fields', function() { var testCases = [ 0, 1, -1, jspb.BinaryConstants.FLOAT32_MIN, -jspb.BinaryConstants.FLOAT32_MIN, jspb.BinaryConstants.FLOAT32_MAX, -jspb.BinaryConstants.FLOAT32_MAX, 3.1415927410125732, Infinity, -Infinity, NaN ]; var writer = new jspb.BinaryWriter(); testCases.forEach(function(f) { writer.writeFloat(1, f); }); var reader = jspb.BinaryReader.alloc(writer.getResultBuffer()); testCases.forEach(function(f) { reader.nextField(); expect(reader.getFieldNumber()).toEqual(1); if (isNaN(f)) { expect(isNaN(reader.readFloat())).toEqual(true); } else { expect(reader.readFloat()).toEqual(f); } }); }); it('writes double fields', function() { var testCases = [ 0, 1, -1, Number.MAX_SAFE_INTEGER, Number.MIN_SAFE_INTEGER, Number.MAX_VALUE, Number.MIN_VALUE, jspb.BinaryConstants.FLOAT32_MIN, -jspb.BinaryConstants.FLOAT32_MIN, jspb.BinaryConstants.FLOAT32_MAX, -jspb.BinaryConstants.FLOAT32_MAX, Math.PI, Infinity, -Infinity, NaN ]; var writer = new jspb.BinaryWriter(); testCases.forEach(function(f) { writer.writeDouble(1, f); }); var reader = jspb.BinaryReader.alloc(writer.getResultBuffer()); testCases.forEach(function(f) { reader.nextField(); expect(reader.getFieldNumber()).toEqual(1); if (isNaN(f)) { expect(isNaN(reader.readDouble())).toEqual(true); } else { expect(reader.readDouble()).toEqual(f); } }); }); });