iw6-mod/deps/protobuf/js/experimental/runtime/kernel/indexer_test.js
2024-02-27 01:34:37 -05:00

335 lines
13 KiB
JavaScript

/**
* @fileoverview Tests for indexer.js.
*/
goog.module('protobuf.binary.IndexerTest');
goog.setTestOnly();
// Note to the reader:
// Since the index behavior changes with the checking level some of the tests
// in this file have to know which checking level is enabled to make correct
// assertions.
// Test are run in all checking levels.
const BinaryStorage = goog.require('protobuf.runtime.BinaryStorage');
const BufferDecoder = goog.require('protobuf.binary.BufferDecoder');
const WireType = goog.require('protobuf.binary.WireType');
const {CHECK_CRITICAL_STATE} = goog.require('protobuf.internal.checks');
const {Field, IndexEntry} = goog.require('protobuf.binary.field');
const {buildIndex} = goog.require('protobuf.binary.indexer');
const {createBufferDecoder} = goog.require('protobuf.binary.bufferDecoderHelper');
/**
* Returns the number of fields stored.
*
* @param {!BinaryStorage} storage
* @return {number}
*/
function getStorageSize(storage) {
let size = 0;
storage.forEach(() => void size++);
return size;
}
/**
* @type {number}
*/
const PIVOT = 1;
/**
* Asserts a single IndexEntry at a given field number.
* @param {!BinaryStorage} storage
* @param {number} fieldNumber
* @param {...!IndexEntry} expectedEntries
*/
function assertStorageEntries(storage, fieldNumber, ...expectedEntries) {
expect(getStorageSize(storage)).toBe(1);
const entryArray = storage.get(fieldNumber).getIndexArray();
expect(entryArray).not.toBeUndefined();
expect(entryArray.length).toBe(expectedEntries.length);
for (let i = 0; i < entryArray.length; i++) {
const storageEntry = entryArray[i];
const expectedEntry = expectedEntries[i];
expect(storageEntry).toBe(expectedEntry);
}
}
describe('Indexer does', () => {
it('return empty storage for empty array', () => {
const storage = buildIndex(createBufferDecoder(), PIVOT);
expect(storage).not.toBeNull();
expect(getStorageSize(storage)).toBe(0);
});
it('throw for null array', () => {
expect(
() => buildIndex(
/** @type {!BufferDecoder} */ (/** @type {*} */ (null)), PIVOT))
.toThrow();
});
it('fail for invalid wire type (6)', () => {
expect(() => buildIndex(createBufferDecoder(0x0E, 0x01), PIVOT))
.toThrowError('Unexpected wire type: 6');
});
it('fail for invalid wire type (7)', () => {
expect(() => buildIndex(createBufferDecoder(0x0F, 0x01), PIVOT))
.toThrowError('Unexpected wire type: 7');
});
it('index varint', () => {
const data = createBufferDecoder(0x08, 0x01, 0x08, 0x01);
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.VARINT, /* startIndex= */ 1),
Field.encodeIndexEntry(WireType.VARINT, /* startIndex= */ 3));
});
it('index varint with two bytes field number', () => {
const data = createBufferDecoder(0xF8, 0x01, 0x01);
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 31,
Field.encodeIndexEntry(WireType.VARINT, /* startIndex= */ 2));
});
it('fail for varints that are longer than 10 bytes', () => {
const data = createBufferDecoder(
0x08, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x00);
if (CHECK_CRITICAL_STATE) {
expect(() => buildIndex(data, PIVOT))
.toThrowError('Index out of bounds: index: 12 size: 11');
} else {
// Note in unchecked mode we produce invalid output for invalid inputs.
// This test just documents our behavior in those cases.
// These values might change at any point and are not considered
// what the implementation should be doing here.
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.VARINT, /* startIndex= */ 1));
}
});
it('fail for varints with no data', () => {
const data = createBufferDecoder(0x08);
expect(() => buildIndex(data, PIVOT)).toThrow();
});
it('index fixed64', () => {
const data = createBufferDecoder(
/* first= */ 0x09, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08,
/* second= */ 0x09, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08);
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.FIXED64, /* startIndex= */ 1),
Field.encodeIndexEntry(WireType.FIXED64, /* startIndex= */ 10));
});
it('fail for fixed64 data missing in input', () => {
const data =
createBufferDecoder(0x09, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07);
if (CHECK_CRITICAL_STATE) {
expect(() => buildIndex(data, PIVOT))
.toThrowError('Index out of bounds: index: 9 size: 8');
} else {
// Note in unchecked mode we produce invalid output for invalid inputs.
// This test just documents our behavior in those cases.
// These values might change at any point and are not considered
// what the implementation should be doing here.
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.FIXED64, /* startIndex= */ 1));
}
});
it('fail for fixed64 tag that has no data after it', () => {
if (CHECK_CRITICAL_STATE) {
const data = createBufferDecoder(0x09);
expect(() => buildIndex(data, PIVOT))
.toThrowError('Index out of bounds: index: 9 size: 1');
} else {
// Note in unchecked mode we produce invalid output for invalid inputs.
// This test just documents our behavior in those cases.
// These values might change at any point and are not considered
// what the implementation should be doing here.
const data = createBufferDecoder(0x09);
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.FIXED64, /* startIndex= */ 1));
}
});
it('index delimited', () => {
const data = createBufferDecoder(
/* first= */ 0x0A, 0x02, 0x00, 0x01, /* second= */ 0x0A, 0x02, 0x00,
0x01);
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.DELIMITED, /* startIndex= */ 1),
Field.encodeIndexEntry(WireType.DELIMITED, /* startIndex= */ 5));
});
it('fail for length deliimted field data missing in input', () => {
const data = createBufferDecoder(0x0A, 0x04, 0x00, 0x01);
if (CHECK_CRITICAL_STATE) {
expect(() => buildIndex(data, PIVOT))
.toThrowError('Index out of bounds: index: 6 size: 4');
} else {
// Note in unchecked mode we produce invalid output for invalid inputs.
// This test just documents our behavior in those cases.
// These values might change at any point and are not considered
// what the implementation should be doing here.
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.DELIMITED, /* startIndex= */ 1));
}
});
it('fail for delimited tag that has no data after it', () => {
const data = createBufferDecoder(0x0A);
expect(() => buildIndex(data, PIVOT)).toThrow();
});
it('index fixed32', () => {
const data = createBufferDecoder(
/* first= */ 0x0D, 0x01, 0x02, 0x03, 0x04, /* second= */ 0x0D, 0x01,
0x02, 0x03, 0x04);
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.FIXED32, /* startIndex= */ 1),
Field.encodeIndexEntry(WireType.FIXED32, /* startIndex= */ 6));
});
it('fail for fixed32 data missing in input', () => {
const data = createBufferDecoder(0x0D, 0x01, 0x02, 0x03);
if (CHECK_CRITICAL_STATE) {
expect(() => buildIndex(data, PIVOT))
.toThrowError('Index out of bounds: index: 5 size: 4');
} else {
// Note in unchecked mode we produce invalid output for invalid inputs.
// This test just documents our behavior in those cases.
// These values might change at any point and are not considered
// what the implementation should be doing here.
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.FIXED32, /* startIndex= */ 1));
}
});
it('fail for fixed32 tag that has no data after it', () => {
if (CHECK_CRITICAL_STATE) {
const data = createBufferDecoder(0x0D);
expect(() => buildIndex(data, PIVOT))
.toThrowError('Index out of bounds: index: 5 size: 1');
} else {
// Note in unchecked mode we produce invalid output for invalid inputs.
// This test just documents our behavior in those cases.
// These values might change at any point and are not considered
// what the implementation should be doing here.
const data = createBufferDecoder(0x0D);
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.FIXED32, /* startIndex= */ 1));
}
});
it('index group', () => {
const data = createBufferDecoder(
/* first= */ 0x0B, 0x08, 0x01, 0x0C, /* second= */ 0x0B, 0x08, 0x01,
0x0C);
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.START_GROUP, /* startIndex= */ 1),
Field.encodeIndexEntry(WireType.START_GROUP, /* startIndex= */ 5));
});
it('index group and skips inner group', () => {
const data =
createBufferDecoder(0x0B, 0x0B, 0x08, 0x01, 0x0C, 0x08, 0x01, 0x0C);
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.START_GROUP, /* startIndex= */ 1));
});
it('fail on unmatched stop group', () => {
const data = createBufferDecoder(0x0C, 0x01);
expect(() => buildIndex(data, PIVOT))
.toThrowError('Unexpected wire type: 4');
});
it('fail for groups without matching stop group', () => {
const data = createBufferDecoder(0x0B, 0x08, 0x01, 0x1C);
if (CHECK_CRITICAL_STATE) {
expect(() => buildIndex(data, PIVOT))
.toThrowError('Expected stop group for fieldnumber 1 not found.');
} else {
// Note in unchecked mode we produce invalid output for invalid inputs.
// This test just documents our behavior in those cases.
// These values might change at any point and are not considered
// what the implementation should be doing here.
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.START_GROUP, /* startIndex= */ 1));
}
});
it('fail for groups without stop group', () => {
const data = createBufferDecoder(0x0B, 0x08, 0x01);
if (CHECK_CRITICAL_STATE) {
expect(() => buildIndex(data, PIVOT)).toThrowError('No end group found.');
} else {
// Note in unchecked mode we produce invalid output for invalid inputs.
// This test just documents our behavior in those cases.
// These values might change at any point and are not considered
// what the implementation should be doing here.
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.START_GROUP, /* startIndex= */ 1));
}
});
it('fail for group tag that has no data after it', () => {
const data = createBufferDecoder(0x0B);
if (CHECK_CRITICAL_STATE) {
expect(() => buildIndex(data, PIVOT)).toThrowError('No end group found.');
} else {
// Note in unchecked mode we produce invalid output for invalid inputs.
// This test just documents our behavior in those cases.
// These values might change at any point and are not considered
// what the implementation should be doing here.
const storage = buildIndex(data, PIVOT);
assertStorageEntries(
storage, /* fieldNumber= */ 1,
Field.encodeIndexEntry(WireType.START_GROUP, /* startIndex= */ 1));
}
});
it('index too large tag', () => {
const data = createBufferDecoder(0xF8, 0xFF, 0xFF, 0xFF, 0xFF);
expect(() => buildIndex(data, PIVOT)).toThrow();
});
it('fail for varint tag that has no data after it', () => {
const data = createBufferDecoder(0x08);
expect(() => buildIndex(data, PIVOT)).toThrow();
});
});