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Test Info:
- This WPT test may be referenced by the following Test IDs:
- /IndexedDB/request-event-ordering.any.html - WPT Dashboard Interop Dashboard
- /IndexedDB/request-event-ordering.any.serviceworker.html - WPT Dashboard Interop Dashboard
- /IndexedDB/request-event-ordering.any.sharedworker.html - WPT Dashboard Interop Dashboard
- /IndexedDB/request-event-ordering.any.worker.html - WPT Dashboard Interop Dashboard
// META: title=IndexedDB: request result events are delivered in order
// META: global=window,worker
// META: script=resources/support-promises.js
// META: script=resources/support.js
// META: timeout=long
'use strict';
// Should be large enough to trigger large value handling in the IndexedDB
// engines that have special code paths for large values.
const wrapThreshold = 128 * 1024;
function populateStore(store) {
store.put({id: 1, key: 'k1', value: largeValue(wrapThreshold, 1)});
store.put({id: 2, key: 'k2', value: ['small-2']});
store.put({id: 3, key: 'k3', value: largeValue(wrapThreshold, 3)});
store.put({id: 4, key: 'k4', value: ['small-4']});
}
// Assigns cursor indexes for operations that require open cursors.
//
// Returns the number of open cursors required to perform all operations.
function assignCursors(operations) {
return cursorCount;
}
// Opens index cursors for operations that require open cursors.
//
// onsuccess is called if all cursors are opened successfully. Otherwise,
// onerror will be called at least once.
function openCursors(testCase, index, operations, onerror, onsuccess) {
let pendingCursors = 0;
for (let operation of operations) {
const opcode = operation[0];
const primaryKey = operation[1];
let request;
switch (opcode) {
case 'continue':
request =
index.openCursor(IDBKeyRange.lowerBound(`k${primaryKey - 1}`));
break;
case 'continue-empty':
// k4 is the last key in the data set, so calling continue() will get
// the cursor past the end of the store.
request = index.openCursor(IDBKeyRange.lowerBound('k4'));
break;
default:
continue;
}
operation[2] = request;
++pendingCursors;
request.onsuccess = testCase.step_func(() => {
--pendingCursors;
if (!pendingCursors)
onsuccess();
});
request.onerror = testCase.step_func(onerror);
}
if (!pendingCursors)
onsuccess();
}
function doOperation(testCase, store, index, operation, requestId, results) {
const opcode = operation[0];
const primaryKey = operation[1];
const cursor = operation[2];
return new Promise((resolve, reject) => {
let request;
switch (opcode) {
case 'add': // Tests returning a primary key.
request =
store.add({key: `k${primaryKey}`, value: [`small-${primaryKey}`]});
break;
case 'put': // Tests returning a primary key.
request =
store.put({key: `k${primaryKey}`, value: [`small-${primaryKey}`]});
break;
case 'put-with-id': // Tests returning success or a primary key.
request = store.put({
key: `k${primaryKey}`,
value: [`small-${primaryKey}`],
id: primaryKey
});
break;
case 'get': // Tests returning a value.
case 'get-empty': // Tests returning undefined.
request = store.get(primaryKey);
break;
case 'getall': // Tests returning an array of values.
request = store.getAll();
break;
case 'error': // Tests returning an error.
request =
store.put({key: `k${primaryKey}`, value: [`small-${primaryKey}`]});
request.onerror = testCase.step_func(event => {
event.preventDefault();
results.push([requestId, request.error]);
resolve();
});
request.onsuccess = testCase.step_func(() => {
reject(new Error('put with duplicate primary key succeded'));
});
break;
case 'continue': // Tests returning a key, primary key, and value.
request = cursor;
cursor.result.continue();
request.onsuccess = testCase.step_func(() => {
const result = request.result;
results.push(
[requestId, result.key, result.primaryKey, result.value]);
resolve();
});
request.onerror = null;
break;
case 'open': // Tests returning a cursor, key, primary key, and value.
request = index.openCursor(IDBKeyRange.lowerBound(`k${primaryKey}`));
request.onsuccess = testCase.step_func(() => {
const result = request.result;
results.push(
[requestId, result.key, result.primaryKey, result.value]);
resolve();
});
break;
case 'continue-empty': // Tests returning a null result.
request = cursor;
cursor.result.continue();
request.onsuccess = testCase.step_func(() => {
results.push([requestId, request.result]);
resolve();
});
request.onerror = null;
break;
case 'open-empty': // Tests returning a null cursor.
request = index.openCursor(IDBKeyRange.lowerBound(`k${primaryKey}`));
request.onsuccess = testCase.step_func(() => {
const result = request.result;
results.push([requestId, request.result]);
resolve();
});
break;
case 'count': // Tests returning a numeric result.
request = index.count();
request.onsuccess = testCase.step_func(() => {
results.push([requestId, request.result]);
resolve();
});
break;
};
if (!request.onsuccess) {
request.onsuccess = testCase.step_func(() => {
results.push([requestId, request.result]);
resolve();
});
}
if (!request.onerror)
request.onerror = testCase.step_func(event => {
event.preventDefault();
reject(request.error);
});
});
}
function checkOperationResult(operation, result, requestId) {
const opcode = operation[0];
const primaryKey = operation[1];
const expectedValue = (primaryKey == 1 || primaryKey == 3) ?
largeValue(wrapThreshold, primaryKey) :
[`small-${primaryKey}`];
const requestIndex = result[0];
assert_equals(
requestIndex, requestId, 'result event order should match request order');
switch (opcode) {
case 'put':
case 'put-with-id':
case 'add':
assert_equals(
result[1], primaryKey,
`${opcode} result should be the new object's primary key`);
break;
case 'get':
assert_equals(
result[1].id, primaryKey,
'get result should match put value (primary key)');
assert_equals(
result[1].key, `k${primaryKey}`,
'get result should match put value (key)');
assert_equals(
result[1].value.join(','), expectedValue.join(','),
'get result should match put value (nested value)');
break;
case 'getall':
assert_equals(
result[1].length, primaryKey,
'getAll should return all the objects in the store');
for (let i = 0; i < primaryKey; ++i) {
const object = result[1][i];
assert_equals(
object.id, i + 1,
`getAll result ${i + 1} should match put value (primary key)`);
assert_equals(
object.key, `k${i + 1}`,
`get result ${i + 1} should match put value (key)`);
const expectedValue = (i == 0 || i == 2) ?
largeValue(wrapThreshold, i + 1) :
[`small-${i + 1}`];
assert_equals(
object.value.join(','), object.value.join(','),
`get result ${i + 1} should match put value (nested value)`);
}
break;
case 'get-empty':
assert_equals(
result[1], undefined, 'get-empty result should be undefined');
break;
case 'error':
assert_equals(
result[1].name, 'ConstraintError',
'incorrect error from put with duplicate primary key');
break;
case 'continue':
case 'open':
assert_equals(
result[1], `k${primaryKey}`,
`${opcode} key should match the key in the put value`);
assert_equals(
result[2], primaryKey,
`${opcode} primary key should match the put value's primary key`);
assert_equals(
result[3].id, primaryKey,
`${opcode} value should match put value (primary key)`);
assert_equals(
result[3].key, `k${primaryKey}`,
`${opcode} value should match put value (key)`);
assert_equals(
result[3].value.join(','), expectedValue.join(','),
`${opcode} value should match put value (nested value)`);
break;
case 'continue-empty':
case 'open-empty':
assert_equals(result[1], null, `${opcode} result should be null`);
break;
}
}
function eventsTest(label, operations) {
promise_test(testCase => {
return createDatabase(
testCase,
(database, transaction) => {
const store = database.createObjectStore(
'test-store', {autoIncrement: true, keyPath: 'id'});
store.createIndex('test-index', 'key', {unique: true});
populateStore(store);
})
.then(database => {
const transaction = database.transaction(['test-store'], 'readwrite');
const store = transaction.objectStore('test-store');
const index = store.index('test-index');
return new Promise((resolve, reject) => {
openCursors(testCase, index, operations, reject, () => {
const results = [];
const promises = [];
for (let i = 0; i < operations.length; ++i) {
const promise = doOperation(
testCase, store, index, operations[i], i, results);
promises.push(promise);
};
resolve(Promise.all(promises).then(() => results));
});
});
})
.then(results => {
assert_equals(
results.length, operations.length,
'Promise.all should resolve after all sub-promises resolve');
for (let i = 0; i < operations.length; ++i)
checkOperationResult(operations[i], results[i], i);
});
}, label);
}
eventsTest('small values', [
['get', 2], ['count', 4], ['continue-empty', null],
['get-empty', 5], ['add', 5], ['open', 2],
['continue', 2], ['get', 4], ['get-empty', 6],
['count', 5], ['put-with-id', 5], ['put', 6],
['error', 3], ['continue', 4], ['count', 6],
['get-empty', 7], ['open', 4], ['open-empty', 7],
['add', 7],
]);
eventsTest('large values', [
['open', 1],
['get', 1],
['getall', 4],
['get', 3],
['continue', 3],
['open', 3],
]);
eventsTest('large value followed by small values', [
['get', 1],
['getall', 4],
['open', 2],
['continue-empty', null],
['get', 2],
['get-empty', 5],
['count', 4],
['continue-empty', null],
['open-empty', 5],
['add', 5],
['error', 1],
['continue', 2],
['get-empty', 6],
['put-with-id', 5],
['put', 6],
]);
eventsTest('large values mixed with small values', [
['get', 1],
['get', 2],
['get-empty', 5],
['count', 4],
['continue-empty', null],
['open', 1],
['continue', 2],
['open-empty', 5],
['getall', 4],
['open', 2],
['continue-empty', null],
['add', 5],
['get', 3],
['count', 5],
['get-empty', 6],
['put-with-id', 5],
['getall', 5],
['continue', 3],
['open-empty', 6],
['put', 6],
['error', 1],
['continue', 2],
['open', 4],
['get-empty', 7],
['count', 6],
['continue', 3],
['add', 7],
['getall', 7],
['error', 3],
['count', 7],
]);