disable two ClientCertStoreChromeOSTest.* unit_tests on Valgrind bots
[chromium-blink-merge.git] / sync / syncable / parent_child_index_unittest.cc
blob26ccb52148d5ea38e0aa8e7d4ad511855873ee23
1 // Copyright (c) 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "sync/syncable/parent_child_index.h"
7 #include <list>
9 #include "base/stl_util.h"
10 #include "base/strings/string_number_conversions.h"
11 #include "sync/syncable/entry_kernel.h"
12 #include "sync/syncable/syncable_util.h"
13 #include "testing/gtest/include/gtest/gtest.h"
15 namespace syncer {
16 namespace syncable {
18 namespace {
20 static const std::string kCacheGuid = "8HhNIHlEOCGQbIAALr9QEg==";
22 } // namespace
24 class ParentChildIndexTest : public testing::Test {
25 public:
26 void TearDown() override {
27 // To make memory management easier, we take ownership of all EntryKernels
28 // returned by our factory methods and delete them here.
29 STLDeleteElements(&owned_entry_kernels_);
32 // Unfortunately, we can't use the regular Entry factory methods, because the
33 // ParentChildIndex deals in EntryKernels.
35 static syncable::Id GetBookmarkRootId() {
36 return syncable::Id::CreateFromServerId("bookmark_folder");
39 static syncable::Id GetBookmarkId(int n) {
40 return syncable::Id::CreateFromServerId("b" + base::IntToString(n));
43 static syncable::Id GetClientUniqueId(int n) {
44 return syncable::Id::CreateFromServerId("c" + base::IntToString(n));
47 EntryKernel* MakeRoot() {
48 // Mimics the root node.
49 EntryKernel* root = new EntryKernel();
50 root->put(META_HANDLE, 1);
51 root->put(BASE_VERSION, -1);
52 root->put(SERVER_VERSION, 0);
53 root->put(IS_DIR, true);
54 root->put(ID, syncable::Id::GetRoot());
55 root->put(PARENT_ID, syncable::Id::GetRoot());
57 owned_entry_kernels_.push_back(root);
58 return root;
61 EntryKernel* MakeTypeRoot(ModelType model_type, const syncable::Id& id) {
62 // Mimics a server-created bookmark folder.
63 EntryKernel* folder = new EntryKernel;
64 folder->put(META_HANDLE, 1);
65 folder->put(BASE_VERSION, 9);
66 folder->put(SERVER_VERSION, 9);
67 folder->put(IS_DIR, true);
68 folder->put(ID, id);
69 folder->put(PARENT_ID, syncable::Id::GetRoot());
70 folder->put(UNIQUE_SERVER_TAG, ModelTypeToRootTag(model_type));
72 // Ensure that GetModelType() returns a correct value.
73 sync_pb::EntitySpecifics specifics;
74 AddDefaultFieldValue(model_type, &specifics);
75 folder->put(SPECIFICS, specifics);
77 owned_entry_kernels_.push_back(folder);
78 return folder;
81 EntryKernel* MakeBookmarkRoot() {
82 return MakeTypeRoot(BOOKMARKS, GetBookmarkRootId());
85 EntryKernel* MakeBookmark(int n, int pos, bool is_dir) {
86 // Mimics a regular bookmark or folder.
87 EntryKernel* bm = new EntryKernel();
88 bm->put(META_HANDLE, n);
89 bm->put(BASE_VERSION, 10);
90 bm->put(SERVER_VERSION, 10);
91 bm->put(IS_DIR, is_dir);
92 bm->put(ID, GetBookmarkId(n));
93 bm->put(PARENT_ID, GetBookmarkRootId());
95 bm->put(UNIQUE_BOOKMARK_TAG,
96 syncable::GenerateSyncableBookmarkHash(kCacheGuid,
97 bm->ref(ID).GetServerId()));
99 UniquePosition unique_pos =
100 UniquePosition::FromInt64(pos, bm->ref(UNIQUE_BOOKMARK_TAG));
101 bm->put(UNIQUE_POSITION, unique_pos);
102 bm->put(SERVER_UNIQUE_POSITION, unique_pos);
104 owned_entry_kernels_.push_back(bm);
105 return bm;
108 EntryKernel* MakeUniqueClientItem(ModelType model_type,
109 int n,
110 const syncable::Id& parent_id) {
111 EntryKernel* item = new EntryKernel();
112 item->put(META_HANDLE, n);
113 item->put(BASE_VERSION, 10);
114 item->put(SERVER_VERSION, 10);
115 item->put(IS_DIR, false);
116 item->put(ID, GetClientUniqueId(n));
117 item->put(UNIQUE_CLIENT_TAG, base::IntToString(n));
119 if (!parent_id.IsNull()) {
120 item->put(PARENT_ID, parent_id);
123 if (model_type != UNSPECIFIED) {
124 // Ensure that GetModelType() returns a correct value.
125 sync_pb::EntitySpecifics specifics;
126 AddDefaultFieldValue(model_type, &specifics);
127 item->put(SPECIFICS, specifics);
130 owned_entry_kernels_.push_back(item);
131 return item;
134 EntryKernel* MakeUniqueClientItem(int n, const syncable::Id& parent_id) {
135 return MakeUniqueClientItem(UNSPECIFIED, n, parent_id);
138 EntryKernel* MakeUniqueClientItem(ModelType model_type, int n) {
139 return MakeUniqueClientItem(model_type, n, Id());
142 const syncable::Id& IndexKnownModelTypeRootId(ModelType model_type) const {
143 return index_.GetModelTypeRootId(model_type);
146 ParentChildIndex index_;
148 private:
149 std::list<EntryKernel*> owned_entry_kernels_;
152 TEST_F(ParentChildIndexTest, TestRootNode) {
153 EntryKernel* root = MakeRoot();
154 EXPECT_FALSE(ParentChildIndex::ShouldInclude(root));
157 TEST_F(ParentChildIndexTest, TestBookmarkRootFolder) {
158 EntryKernel* bm_folder = MakeBookmarkRoot();
159 EXPECT_TRUE(ParentChildIndex::ShouldInclude(bm_folder));
161 index_.Insert(bm_folder);
162 // Since BOOKMARKS is a hierarchical type, its type root folder shouldn't be
163 // tracked by ParentChildIndex.
164 EXPECT_EQ(Id(), IndexKnownModelTypeRootId(BOOKMARKS));
167 // Tests iteration over a set of siblings.
168 TEST_F(ParentChildIndexTest, ChildInsertionAndIteration) {
169 EntryKernel* bm_folder = MakeBookmarkRoot();
170 index_.Insert(bm_folder);
172 // Make some folder and non-folder entries.
173 EntryKernel* b1 = MakeBookmark(1, 1, false);
174 EntryKernel* b2 = MakeBookmark(2, 2, false);
175 EntryKernel* b3 = MakeBookmark(3, 3, true);
176 EntryKernel* b4 = MakeBookmark(4, 4, false);
178 // Insert them out-of-order to test different cases.
179 index_.Insert(b3); // Only child.
180 index_.Insert(b4); // Right-most child.
181 index_.Insert(b1); // Left-most child.
182 index_.Insert(b2); // Between existing items.
184 // Double-check they've been added.
185 EXPECT_TRUE(index_.Contains(b1));
186 EXPECT_TRUE(index_.Contains(b2));
187 EXPECT_TRUE(index_.Contains(b3));
188 EXPECT_TRUE(index_.Contains(b4));
190 // Check the ordering.
191 const OrderedChildSet* children = index_.GetChildren(GetBookmarkRootId());
192 ASSERT_TRUE(children);
193 ASSERT_EQ(children->size(), 4UL);
194 OrderedChildSet::const_iterator it = children->begin();
195 EXPECT_EQ(*it, b1);
196 it++;
197 EXPECT_EQ(*it, b2);
198 it++;
199 EXPECT_EQ(*it, b3);
200 it++;
201 EXPECT_EQ(*it, b4);
202 it++;
203 EXPECT_TRUE(it == children->end());
206 // Tests iteration when hierarchy is involved.
207 TEST_F(ParentChildIndexTest, ChildInsertionAndIterationWithHierarchy) {
208 EntryKernel* bm_folder = MakeBookmarkRoot();
209 index_.Insert(bm_folder);
211 // Just below the root, we have folders f1 and f2.
212 EntryKernel* f1 = MakeBookmark(1, 1, false);
213 EntryKernel* f2 = MakeBookmark(2, 2, false);
214 EntryKernel* f3 = MakeBookmark(3, 3, false);
216 // Under folder f1, we have two bookmarks.
217 EntryKernel* f1_b1 = MakeBookmark(101, 1, false);
218 f1_b1->put(PARENT_ID, GetBookmarkId(1));
219 EntryKernel* f1_b2 = MakeBookmark(102, 2, false);
220 f1_b2->put(PARENT_ID, GetBookmarkId(1));
222 // Under folder f2, there is one bookmark.
223 EntryKernel* f2_b1 = MakeBookmark(201, 1, false);
224 f2_b1->put(PARENT_ID, GetBookmarkId(2));
226 // Under folder f3, there is nothing.
228 // Insert in a strange order, because we can.
229 index_.Insert(f1_b2);
230 index_.Insert(f2);
231 index_.Insert(f2_b1);
232 index_.Insert(f1);
233 index_.Insert(f1_b1);
234 index_.Insert(f3);
236 OrderedChildSet::const_iterator it;
238 // Iterate over children of the bookmark root.
239 const OrderedChildSet* top_children = index_.GetChildren(GetBookmarkRootId());
240 ASSERT_TRUE(top_children);
241 ASSERT_EQ(top_children->size(), 3UL);
242 it = top_children->begin();
243 EXPECT_EQ(*it, f1);
244 it++;
245 EXPECT_EQ(*it, f2);
246 it++;
247 EXPECT_EQ(*it, f3);
248 it++;
249 EXPECT_TRUE(it == top_children->end());
251 // Iterate over children of the first folder.
252 const OrderedChildSet* f1_children = index_.GetChildren(GetBookmarkId(1));
253 ASSERT_TRUE(f1_children);
254 ASSERT_EQ(f1_children->size(), 2UL);
255 it = f1_children->begin();
256 EXPECT_EQ(*it, f1_b1);
257 it++;
258 EXPECT_EQ(*it, f1_b2);
259 it++;
260 EXPECT_TRUE(it == f1_children->end());
262 // Iterate over children of the second folder.
263 const OrderedChildSet* f2_children = index_.GetChildren(GetBookmarkId(2));
264 ASSERT_TRUE(f2_children);
265 ASSERT_EQ(f2_children->size(), 1UL);
266 it = f2_children->begin();
267 EXPECT_EQ(*it, f2_b1);
268 it++;
269 EXPECT_TRUE(it == f2_children->end());
271 // Check for children of the third folder.
272 const OrderedChildSet* f3_children = index_.GetChildren(GetBookmarkId(3));
273 EXPECT_FALSE(f3_children);
276 // Tests removing items.
277 TEST_F(ParentChildIndexTest, RemoveWithHierarchy) {
278 EntryKernel* bm_folder = MakeBookmarkRoot();
279 index_.Insert(bm_folder);
281 // Just below the root, we have folders f1 and f2.
282 EntryKernel* f1 = MakeBookmark(1, 1, false);
283 EntryKernel* f2 = MakeBookmark(2, 2, false);
284 EntryKernel* f3 = MakeBookmark(3, 3, false);
286 // Under folder f1, we have two bookmarks.
287 EntryKernel* f1_b1 = MakeBookmark(101, 1, false);
288 f1_b1->put(PARENT_ID, GetBookmarkId(1));
289 EntryKernel* f1_b2 = MakeBookmark(102, 2, false);
290 f1_b2->put(PARENT_ID, GetBookmarkId(1));
292 // Under folder f2, there is one bookmark.
293 EntryKernel* f2_b1 = MakeBookmark(201, 1, false);
294 f2_b1->put(PARENT_ID, GetBookmarkId(2));
296 // Under folder f3, there is nothing.
298 // Insert in any order.
299 index_.Insert(f2_b1);
300 index_.Insert(f3);
301 index_.Insert(f1_b2);
302 index_.Insert(f1);
303 index_.Insert(f2);
304 index_.Insert(f1_b1);
306 // Check that all are in the index.
307 EXPECT_TRUE(index_.Contains(f1));
308 EXPECT_TRUE(index_.Contains(f2));
309 EXPECT_TRUE(index_.Contains(f3));
310 EXPECT_TRUE(index_.Contains(f1_b1));
311 EXPECT_TRUE(index_.Contains(f1_b2));
312 EXPECT_TRUE(index_.Contains(f2_b1));
314 // Remove them all in any order.
315 index_.Remove(f3);
316 EXPECT_FALSE(index_.Contains(f3));
317 index_.Remove(f1_b2);
318 EXPECT_FALSE(index_.Contains(f1_b2));
319 index_.Remove(f2_b1);
320 EXPECT_FALSE(index_.Contains(f2_b1));
321 index_.Remove(f1);
322 EXPECT_FALSE(index_.Contains(f1));
323 index_.Remove(f2);
324 EXPECT_FALSE(index_.Contains(f2));
325 index_.Remove(f1_b1);
326 EXPECT_FALSE(index_.Contains(f1_b1));
329 // Test that involves two non-ordered items.
330 TEST_F(ParentChildIndexTest, UnorderedChildren) {
331 // Make two unique client tag items under the root node.
332 EntryKernel* u1 = MakeUniqueClientItem(1, syncable::Id::GetRoot());
333 EntryKernel* u2 = MakeUniqueClientItem(2, syncable::Id::GetRoot());
335 EXPECT_FALSE(u1->ShouldMaintainPosition());
336 EXPECT_FALSE(u2->ShouldMaintainPosition());
338 index_.Insert(u1);
339 index_.Insert(u2);
341 const OrderedChildSet* children = index_.GetChildren(syncable::Id::GetRoot());
342 EXPECT_EQ(children->count(u1), 1UL);
343 EXPECT_EQ(children->count(u2), 1UL);
344 EXPECT_EQ(children->size(), 2UL);
347 // Test ordered and non-ordered entries under the same parent.
348 // TODO(rlarocque): We should not need to support this.
349 TEST_F(ParentChildIndexTest, OrderedAndUnorderedChildren) {
350 EntryKernel* bm_folder = MakeBookmarkRoot();
351 index_.Insert(bm_folder);
353 EntryKernel* b1 = MakeBookmark(1, 1, false);
354 EntryKernel* b2 = MakeBookmark(2, 2, false);
355 EntryKernel* u1 = MakeUniqueClientItem(1, GetBookmarkRootId());
357 index_.Insert(b1);
358 index_.Insert(u1);
359 index_.Insert(b2);
361 const OrderedChildSet* children = index_.GetChildren(GetBookmarkRootId());
362 ASSERT_TRUE(children);
363 EXPECT_EQ(3UL, children->size());
365 // Ensure that the non-positionable item is moved to the far right.
366 OrderedChildSet::const_iterator it = children->begin();
367 EXPECT_EQ(*it, b1);
368 it++;
369 EXPECT_EQ(*it, b2);
370 it++;
371 EXPECT_EQ(*it, u1);
372 it++;
373 EXPECT_TRUE(it == children->end());
376 TEST_F(ParentChildIndexTest, NodesWithImplicitParentId) {
377 syncable::Id type_root_id = syncable::Id::CreateFromServerId("type_root");
378 EntryKernel* type_root = MakeTypeRoot(PREFERENCES, type_root_id);
379 index_.Insert(type_root);
380 EXPECT_EQ(type_root_id, IndexKnownModelTypeRootId(PREFERENCES));
382 // Create entries without parent ID
383 EntryKernel* p1 = MakeUniqueClientItem(PREFERENCES, 1);
384 EntryKernel* p2 = MakeUniqueClientItem(PREFERENCES, 2);
386 index_.Insert(p1);
387 index_.Insert(p2);
389 EXPECT_TRUE(index_.Contains(p1));
390 EXPECT_TRUE(index_.Contains(p2));
392 // Items should appear under the type root
393 const OrderedChildSet* children = index_.GetChildren(type_root);
394 ASSERT_TRUE(children);
395 EXPECT_EQ(2UL, children->size());
397 EXPECT_EQ(2UL, index_.GetSiblings(p1)->size());
398 EXPECT_EQ(2UL, index_.GetSiblings(p2)->size());
400 index_.Remove(p1);
402 EXPECT_FALSE(index_.Contains(p1));
403 EXPECT_TRUE(index_.Contains(p2));
404 children = index_.GetChildren(type_root_id);
405 ASSERT_TRUE(children);
406 EXPECT_EQ(1UL, children->size());
408 index_.Remove(p2);
410 EXPECT_FALSE(index_.Contains(p2));
411 children = index_.GetChildren(type_root);
412 ASSERT_EQ(nullptr, children);
415 // Test that the removal isn't sensitive to the order (PurgeEntriesWithTypeIn
416 // removes items in arbitrary order).
417 TEST_F(ParentChildIndexTest, RemoveOutOfOrder) {
418 // Insert a type root and two items (with implicit parent ID).
419 syncable::Id type_root_id = syncable::Id::CreateFromServerId("type_root");
420 EntryKernel* type_root = MakeTypeRoot(PREFERENCES, type_root_id);
421 index_.Insert(type_root);
422 EntryKernel* p1 = MakeUniqueClientItem(PREFERENCES, 1);
423 EntryKernel* p2 = MakeUniqueClientItem(PREFERENCES, 2);
424 index_.Insert(p1);
425 index_.Insert(p2);
427 // Two items expected under the type root.
428 const OrderedChildSet* children = index_.GetChildren(type_root);
429 ASSERT_TRUE(children);
430 EXPECT_EQ(2UL, children->size());
432 // Remove all 3 items in arbitrary order.
433 index_.Remove(p2);
434 index_.Remove(type_root);
435 index_.Remove(p1);
437 EXPECT_EQ(nullptr, index_.GetChildren(type_root));
439 // Add a new root and another two items again.
440 type_root = MakeTypeRoot(PREFERENCES, type_root_id);
441 index_.Insert(type_root);
443 index_.Insert(MakeUniqueClientItem(PREFERENCES, 3));
444 index_.Insert(MakeUniqueClientItem(PREFERENCES, 4));
446 children = index_.GetChildren(type_root);
447 ASSERT_TRUE(children);
448 // Should have 2 items. If the out of order removal cleared the implicit
449 // parent folder ID prematurely, the collection would have 3 items including
450 // p1.
451 EXPECT_EQ(2UL, children->size());
454 // Test that the insert isn't sensitive to the order (Loading entries from
455 // Sync DB is done in arbitrary order).
456 TEST_F(ParentChildIndexTest, InsertOutOfOrder) {
457 // Insert two Preferences entries with implicit parent first
458 index_.Insert(MakeUniqueClientItem(PREFERENCES, 1));
459 index_.Insert(MakeUniqueClientItem(PREFERENCES, 2));
461 // Then insert the Preferences type root
462 syncable::Id type_root_id = syncable::Id::CreateFromServerId("type_root");
463 index_.Insert(MakeTypeRoot(PREFERENCES, type_root_id));
465 // The index should still be able to associate Preferences entries
466 // with the root.
467 const OrderedChildSet* children = index_.GetChildren(type_root_id);
468 ASSERT_TRUE(children);
469 EXPECT_EQ(2UL, children->size());
472 } // namespace syncable
473 } // namespace syncer