goog.module('proto.im.integration.ByteStringFieldsTest'); goog.setTestOnly(); const ByteString = goog.require('protobuf.ByteString'); const {arrayBufferSlice} = goog.require('protobuf.binary.typedArrays'); const /** !ArrayBuffer */ TEST_BYTES = new Uint8Array([1, 2, 3, 4]).buffer; const /** !ByteString */ TEST_STRING = ByteString.fromArrayBuffer(TEST_BYTES); const /** !ArrayBuffer */ PREFIXED_TEST_BYTES = new Uint8Array([0, 1, 2, 3, 4]).buffer; const /** string */ HALLO_IN_BASE64 = 'aGFsbG8='; const /** string */ HALLO_IN_BASE64_WITH_SPACES = 'a G F s b G 8='; const /** !ArrayBufferView */ BYTES_WITH_HALLO = new Uint8Array([ 'h'.charCodeAt(0), 'a'.charCodeAt(0), 'l'.charCodeAt(0), 'l'.charCodeAt(0), 'o'.charCodeAt(0), ]); describe('ByteString does', () => { it('create bytestring from buffer', () => { const byteString = ByteString.fromArrayBuffer(arrayBufferSlice(TEST_BYTES, 0)); expect(byteString.toArrayBuffer()).toEqual(TEST_BYTES); expect(byteString.toUint8ArrayUnsafe()).toEqual(new Uint8Array(TEST_BYTES)); }); it('create bytestring from ArrayBufferView', () => { const byteString = ByteString.fromArrayBufferView(new Uint8Array(TEST_BYTES)); expect(byteString.toArrayBuffer()).toEqual(TEST_BYTES); expect(byteString.toUint8ArrayUnsafe()).toEqual(new Uint8Array(TEST_BYTES)); }); it('create bytestring from subarray', () => { const byteString = ByteString.fromArrayBufferView( new Uint8Array(TEST_BYTES, /* offset */ 1, /* length */ 2)); const expected = new Uint8Array([2, 3]); expect(new Uint8Array(byteString.toArrayBuffer())).toEqual(expected); expect(byteString.toUint8ArrayUnsafe()).toEqual(expected); }); it('create bytestring from Uint8Array (unsafe)', () => { const array = new Uint8Array(TEST_BYTES); const byteString = ByteString.fromUint8ArrayUnsafe(array); expect(byteString.toArrayBuffer()).toEqual(array.buffer); expect(byteString.toUint8ArrayUnsafe()).toBe(array); }); it('create bytestring from base64 string', () => { const byteString = ByteString.fromBase64String(HALLO_IN_BASE64); expect(byteString.toBase64String()).toEqual(HALLO_IN_BASE64); expect(byteString.toArrayBuffer()).toEqual(BYTES_WITH_HALLO.buffer); expect(byteString.toUint8ArrayUnsafe()).toEqual(BYTES_WITH_HALLO); }); it('preserve immutability if underlying buffer changes: from buffer', () => { const buffer = new ArrayBuffer(4); const array = new Uint8Array(buffer); array[0] = 1; array[1] = 2; array[2] = 3; array[3] = 4; const byteString = ByteString.fromArrayBuffer(buffer); const otherBuffer = byteString.toArrayBuffer(); expect(otherBuffer).not.toBe(buffer); expect(new Uint8Array(otherBuffer)).toEqual(array); // modify the original buffer array[0] = 5; // Are we still returning the original bytes? expect(new Uint8Array(byteString.toArrayBuffer())).toEqual(new Uint8Array([ 1, 2, 3, 4 ])); }); it('preserve immutability if underlying buffer changes: from ArrayBufferView', () => { const buffer = new ArrayBuffer(4); const array = new Uint8Array(buffer); array[0] = 1; array[1] = 2; array[2] = 3; array[3] = 4; const byteString = ByteString.fromArrayBufferView(array); const otherBuffer = byteString.toArrayBuffer(); expect(otherBuffer).not.toBe(buffer); expect(new Uint8Array(otherBuffer)).toEqual(array); // modify the original buffer array[0] = 5; // Are we still returning the original bytes? expect(new Uint8Array(byteString.toArrayBuffer())) .toEqual(new Uint8Array([1, 2, 3, 4])); }); it('mutate if underlying buffer changes: from Uint8Array (unsafe)', () => { const buffer = new ArrayBuffer(4); const array = new Uint8Array(buffer); array[0] = 1; array[1] = 2; array[2] = 3; array[3] = 4; const byteString = ByteString.fromUint8ArrayUnsafe(array); const otherBuffer = byteString.toArrayBuffer(); expect(otherBuffer).not.toBe(buffer); expect(new Uint8Array(otherBuffer)).toEqual(array); // modify the original buffer array[0] = 5; // We are no longer returning the original bytes expect(new Uint8Array(byteString.toArrayBuffer())).toEqual(new Uint8Array([ 5, 2, 3, 4 ])); }); it('preserve immutability for returned buffers: toArrayBuffer', () => { const byteString = ByteString.fromArrayBufferView(new Uint8Array(4)); const buffer1 = byteString.toArrayBuffer(); const buffer2 = byteString.toArrayBuffer(); expect(buffer1).toEqual(buffer2); const array1 = new Uint8Array(buffer1); array1[0] = 1; expect(buffer1).not.toEqual(buffer2); }); it('does not preserve immutability for returned buffers: toUint8ArrayUnsafe', () => { const byteString = ByteString.fromUint8ArrayUnsafe(new Uint8Array(4)); const array1 = byteString.toUint8ArrayUnsafe(); const array2 = byteString.toUint8ArrayUnsafe(); expect(array1).toEqual(array2); array1[0] = 1; expect(array1).toEqual(array2); }); it('throws when created with null ArrayBufferView', () => { expect( () => ByteString.fromArrayBufferView( /** @type {!ArrayBufferView} */ (/** @type{*} */ (null)))) .toThrow(); }); it('throws when created with null buffer', () => { expect( () => ByteString.fromBase64String( /** @type {string} */ (/** @type{*} */ (null)))) .toThrow(); }); it('convert base64 to ArrayBuffer', () => { const other = ByteString.fromBase64String(HALLO_IN_BASE64); expect(BYTES_WITH_HALLO).toEqual(new Uint8Array(other.toArrayBuffer())); }); it('convert base64 with spaces to ArrayBuffer', () => { const other = ByteString.fromBase64String(HALLO_IN_BASE64_WITH_SPACES); expect(new Uint8Array(other.toArrayBuffer())).toEqual(BYTES_WITH_HALLO); }); it('convert bytes to base64', () => { const other = ByteString.fromArrayBufferView(BYTES_WITH_HALLO); expect(HALLO_IN_BASE64).toEqual(other.toBase64String()); }); it('equal empty bytetring', () => { const empty = ByteString.fromArrayBuffer(new ArrayBuffer(0)); expect(ByteString.EMPTY.equals(empty)).toEqual(true); }); it('equal empty bytestring constructed from ArrayBufferView', () => { const empty = ByteString.fromArrayBufferView(new Uint8Array(0)); expect(ByteString.EMPTY.equals(empty)).toEqual(true); }); it('equal empty bytestring constructed from Uint8Array (unsafe)', () => { const empty = ByteString.fromUint8ArrayUnsafe(new Uint8Array(0)); expect(ByteString.EMPTY.equals(empty)).toEqual(true); }); it('equal empty bytestring constructed from base64', () => { const empty = ByteString.fromBase64String(''); expect(ByteString.EMPTY.equals(empty)).toEqual(true); }); it('equal other instance', () => { const other = ByteString.fromArrayBuffer(arrayBufferSlice(TEST_BYTES, 0)); expect(TEST_STRING.equals(other)).toEqual(true); }); it('not equal different instance', () => { const other = ByteString.fromArrayBuffer(new Uint8Array([1, 2, 3, 4, 5]).buffer); expect(TEST_STRING.equals(other)).toEqual(false); }); it('equal other instance constructed from ArrayBufferView', () => { const other = ByteString.fromArrayBufferView(new Uint8Array(PREFIXED_TEST_BYTES, 1)); expect(TEST_STRING.equals(other)).toEqual(true); }); it('not equal different instance constructed from ArrayBufferView', () => { const other = ByteString.fromArrayBufferView(new Uint8Array([1, 2, 3, 4, 5])); expect(TEST_STRING.equals(other)).toEqual(false); }); it('equal other instance constructed from Uint8Array (unsafe)', () => { const other = ByteString.fromUint8ArrayUnsafe(new Uint8Array(PREFIXED_TEST_BYTES, 1)); expect(TEST_STRING.equals(other)).toEqual(true); }); it('not equal different instance constructed from Uint8Array (unsafe)', () => { const other = ByteString.fromUint8ArrayUnsafe(new Uint8Array([1, 2, 3, 4, 5])); expect(TEST_STRING.equals(other)).toEqual(false); }); it('have same hashcode for empty bytes', () => { const empty = ByteString.fromArrayBuffer(new ArrayBuffer(0)); expect(ByteString.EMPTY.hashCode()).toEqual(empty.hashCode()); }); it('have same hashcode for test bytes', () => { const other = ByteString.fromArrayBuffer(arrayBufferSlice(TEST_BYTES, 0)); expect(TEST_STRING.hashCode()).toEqual(other.hashCode()); }); it('have same hashcode for test bytes', () => { const other = ByteString.fromArrayBufferView( new Uint8Array(arrayBufferSlice(TEST_BYTES, 0))); expect(TEST_STRING.hashCode()).toEqual(other.hashCode()); }); it('have same hashcode for different instance constructed with base64', () => { const other = ByteString.fromBase64String(HALLO_IN_BASE64); expect(ByteString.fromArrayBufferView(BYTES_WITH_HALLO).hashCode()) .toEqual(other.hashCode()); }); it('preserves the length of a Uint8Array', () => { const original = new Uint8Array([105, 183, 51, 251, 253, 118, 247]); const afterByteString = new Uint8Array( ByteString.fromArrayBufferView(original).toArrayBuffer()); expect(afterByteString).toEqual(original); }); it('preserves the length of a base64 value', () => { const expected = new Uint8Array([105, 183, 51, 251, 253, 118, 247]); const afterByteString = new Uint8Array( ByteString.fromBase64String('abcz+/129w').toArrayBuffer()); expect(afterByteString).toEqual(expected); }); it('preserves the length of a base64 value with padding', () => { const expected = new Uint8Array([105, 183, 51, 251, 253, 118, 247]); const afterByteString = new Uint8Array( ByteString.fromBase64String('abcz+/129w==').toArrayBuffer()); expect(afterByteString).toEqual(expected); }); });