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Issue 2782803002: Move tracked prefs into services/preferences/tracked. (Closed)
Patch Set: rebase Created 3 years, 8 months ago
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1 // Copyright 2013 The Chromium Authors. All rights reserved. 1 // Copyright 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be 2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file. 3 // found in the LICENSE file.
4 4
5 #include "components/user_prefs/tracked/pref_hash_store_impl.h" 5 #include "services/preferences/tracked/pref_hash_store_impl.h"
6 6
7 #include <string> 7 #include <string>
8 8
9 #include "base/macros.h" 9 #include "base/macros.h"
10 #include "base/values.h" 10 #include "base/values.h"
11 #include "components/user_prefs/tracked/dictionary_hash_store_contents.h" 11 #include "services/preferences/tracked/dictionary_hash_store_contents.h"
12 #include "components/user_prefs/tracked/hash_store_contents.h" 12 #include "services/preferences/tracked/hash_store_contents.h"
13 #include "components/user_prefs/tracked/pref_hash_store_impl.h" 13 #include "services/preferences/tracked/pref_hash_store_transaction.h"
14 #include "components/user_prefs/tracked/pref_hash_store_transaction.h"
15 #include "testing/gtest/include/gtest/gtest.h" 14 #include "testing/gtest/include/gtest/gtest.h"
16 15
16 using ValueState =
17 prefs::mojom::TrackedPreferenceValidationDelegate::ValueState;
18
17 class PrefHashStoreImplTest : public testing::Test { 19 class PrefHashStoreImplTest : public testing::Test {
18 public: 20 public:
19 PrefHashStoreImplTest() : contents_(&pref_store_contents_) {} 21 PrefHashStoreImplTest() : contents_(&pref_store_contents_) {}
20 22
21 protected: 23 protected:
22 HashStoreContents* GetHashStoreContents() { return &contents_; } 24 HashStoreContents* GetHashStoreContents() { return &contents_; }
23 25
24 private: 26 private:
25 base::DictionaryValue pref_store_contents_; 27 base::DictionaryValue pref_store_contents_;
26 // Must be declared after |pref_store_contents_| as it needs to be outlived 28 // Must be declared after |pref_store_contents_| as it needs to be outlived
(...skipping 46 matching lines...) Expand 10 before | Expand all | Expand 10 after
73 base::Value string_1("string1"); 75 base::Value string_1("string1");
74 base::Value string_2("string2"); 76 base::Value string_2("string2");
75 77
76 { 78 {
77 // 32 NULL bytes is the seed that was used to generate the legacy hash. 79 // 32 NULL bytes is the seed that was used to generate the legacy hash.
78 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 80 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
79 std::unique_ptr<PrefHashStoreTransaction> transaction( 81 std::unique_ptr<PrefHashStoreTransaction> transaction(
80 pref_hash_store.BeginTransaction(GetHashStoreContents())); 82 pref_hash_store.BeginTransaction(GetHashStoreContents()));
81 83
82 // Only NULL should be trusted in the absence of a hash. 84 // Only NULL should be trusted in the absence of a hash.
83 EXPECT_EQ(PrefHashStoreTransaction::UNTRUSTED_UNKNOWN_VALUE, 85 EXPECT_EQ(ValueState::UNTRUSTED_UNKNOWN_VALUE,
84 transaction->CheckValue("path1", &string_1)); 86 transaction->CheckValue("path1", &string_1));
85 EXPECT_EQ(PrefHashStoreTransaction::TRUSTED_NULL_VALUE, 87 EXPECT_EQ(ValueState::TRUSTED_NULL_VALUE,
86 transaction->CheckValue("path1", NULL)); 88 transaction->CheckValue("path1", NULL));
87 89
88 transaction->StoreHash("path1", &string_1); 90 transaction->StoreHash("path1", &string_1);
89 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 91 EXPECT_EQ(ValueState::UNCHANGED,
90 transaction->CheckValue("path1", &string_1)); 92 transaction->CheckValue("path1", &string_1));
91 EXPECT_EQ(PrefHashStoreTransaction::CLEARED, 93 EXPECT_EQ(ValueState::CLEARED, transaction->CheckValue("path1", NULL));
92 transaction->CheckValue("path1", NULL));
93 transaction->StoreHash("path1", NULL); 94 transaction->StoreHash("path1", NULL);
94 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 95 EXPECT_EQ(ValueState::UNCHANGED, transaction->CheckValue("path1", NULL));
95 transaction->CheckValue("path1", NULL)); 96 EXPECT_EQ(ValueState::CHANGED, transaction->CheckValue("path1", &string_2));
96 EXPECT_EQ(PrefHashStoreTransaction::CHANGED,
97 transaction->CheckValue("path1", &string_2));
98 97
99 base::DictionaryValue dict; 98 base::DictionaryValue dict;
100 dict.Set("a", new base::Value("foo")); 99 dict.Set("a", new base::Value("foo"));
101 dict.Set("d", new base::Value("bad")); 100 dict.Set("d", new base::Value("bad"));
102 dict.Set("b", new base::Value("bar")); 101 dict.Set("b", new base::Value("bar"));
103 dict.Set("c", new base::Value("baz")); 102 dict.Set("c", new base::Value("baz"));
104 103
105 transaction->StoreHash("path1", &dict); 104 transaction->StoreHash("path1", &dict);
106 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 105 EXPECT_EQ(ValueState::UNCHANGED, transaction->CheckValue("path1", &dict));
107 transaction->CheckValue("path1", &dict));
108 } 106 }
109 107
110 ASSERT_FALSE(GetHashStoreContents()->GetSuperMac().empty()); 108 ASSERT_FALSE(GetHashStoreContents()->GetSuperMac().empty());
111 109
112 { 110 {
113 // |pref_hash_store2| should trust its initial hashes dictionary and thus 111 // |pref_hash_store2| should trust its initial hashes dictionary and thus
114 // trust new unknown values. 112 // trust new unknown values.
115 PrefHashStoreImpl pref_hash_store2(std::string(32, 0), "device_id", true); 113 PrefHashStoreImpl pref_hash_store2(std::string(32, 0), "device_id", true);
116 std::unique_ptr<PrefHashStoreTransaction> transaction( 114 std::unique_ptr<PrefHashStoreTransaction> transaction(
117 pref_hash_store2.BeginTransaction(GetHashStoreContents())); 115 pref_hash_store2.BeginTransaction(GetHashStoreContents()));
118 EXPECT_EQ(PrefHashStoreTransaction::TRUSTED_UNKNOWN_VALUE, 116 EXPECT_EQ(ValueState::TRUSTED_UNKNOWN_VALUE,
119 transaction->CheckValue("new_path", &string_1)); 117 transaction->CheckValue("new_path", &string_1));
120 EXPECT_EQ(PrefHashStoreTransaction::TRUSTED_UNKNOWN_VALUE, 118 EXPECT_EQ(ValueState::TRUSTED_UNKNOWN_VALUE,
121 transaction->CheckValue("new_path", &string_2)); 119 transaction->CheckValue("new_path", &string_2));
122 EXPECT_EQ(PrefHashStoreTransaction::TRUSTED_NULL_VALUE, 120 EXPECT_EQ(ValueState::TRUSTED_NULL_VALUE,
123 transaction->CheckValue("new_path", NULL)); 121 transaction->CheckValue("new_path", NULL));
124 } 122 }
125 123
126 // Manually corrupt the super MAC. 124 // Manually corrupt the super MAC.
127 GetHashStoreContents()->SetSuperMac(std::string(64, 'A')); 125 GetHashStoreContents()->SetSuperMac(std::string(64, 'A'));
128 126
129 { 127 {
130 // |pref_hash_store3| should no longer trust its initial hashes dictionary 128 // |pref_hash_store3| should no longer trust its initial hashes dictionary
131 // and thus shouldn't trust non-NULL unknown values. 129 // and thus shouldn't trust non-NULL unknown values.
132 PrefHashStoreImpl pref_hash_store3(std::string(32, 0), "device_id", true); 130 PrefHashStoreImpl pref_hash_store3(std::string(32, 0), "device_id", true);
133 std::unique_ptr<PrefHashStoreTransaction> transaction( 131 std::unique_ptr<PrefHashStoreTransaction> transaction(
134 pref_hash_store3.BeginTransaction(GetHashStoreContents())); 132 pref_hash_store3.BeginTransaction(GetHashStoreContents()));
135 EXPECT_EQ(PrefHashStoreTransaction::UNTRUSTED_UNKNOWN_VALUE, 133 EXPECT_EQ(ValueState::UNTRUSTED_UNKNOWN_VALUE,
136 transaction->CheckValue("new_path", &string_1)); 134 transaction->CheckValue("new_path", &string_1));
137 EXPECT_EQ(PrefHashStoreTransaction::UNTRUSTED_UNKNOWN_VALUE, 135 EXPECT_EQ(ValueState::UNTRUSTED_UNKNOWN_VALUE,
138 transaction->CheckValue("new_path", &string_2)); 136 transaction->CheckValue("new_path", &string_2));
139 EXPECT_EQ(PrefHashStoreTransaction::TRUSTED_NULL_VALUE, 137 EXPECT_EQ(ValueState::TRUSTED_NULL_VALUE,
140 transaction->CheckValue("new_path", NULL)); 138 transaction->CheckValue("new_path", NULL));
141 } 139 }
142 } 140 }
143 141
144 TEST_F(PrefHashStoreImplTest, ImportExportOperations) { 142 TEST_F(PrefHashStoreImplTest, ImportExportOperations) {
145 base::Value string_1("string1"); 143 base::Value string_1("string1");
146 base::Value string_2("string2"); 144 base::Value string_2("string2");
147 145
148 // Initial state: no super MAC. 146 // Initial state: no super MAC.
149 { 147 {
150 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 148 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
151 std::unique_ptr<PrefHashStoreTransaction> transaction( 149 std::unique_ptr<PrefHashStoreTransaction> transaction(
152 pref_hash_store.BeginTransaction(GetHashStoreContents())); 150 pref_hash_store.BeginTransaction(GetHashStoreContents()));
153 ASSERT_FALSE(transaction->IsSuperMACValid()); 151 ASSERT_FALSE(transaction->IsSuperMACValid());
154 152
155 ASSERT_FALSE(transaction->HasHash("path1")); 153 ASSERT_FALSE(transaction->HasHash("path1"));
156 154
157 // Storing a hash will stamp the super MAC. 155 // Storing a hash will stamp the super MAC.
158 transaction->StoreHash("path1", &string_1); 156 transaction->StoreHash("path1", &string_1);
159 157
160 ASSERT_TRUE(transaction->HasHash("path1")); 158 ASSERT_TRUE(transaction->HasHash("path1"));
161 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 159 EXPECT_EQ(ValueState::UNCHANGED,
162 transaction->CheckValue("path1", &string_1)); 160 transaction->CheckValue("path1", &string_1));
163 EXPECT_EQ(PrefHashStoreTransaction::CHANGED, 161 EXPECT_EQ(ValueState::CHANGED, transaction->CheckValue("path1", &string_2));
164 transaction->CheckValue("path1", &string_2));
165 } 162 }
166 163
167 // Make a copy of the stored hash for future use. 164 // Make a copy of the stored hash for future use.
168 const base::Value* hash = NULL; 165 const base::Value* hash = NULL;
169 ASSERT_TRUE(GetHashStoreContents()->GetContents()->Get("path1", &hash)); 166 ASSERT_TRUE(GetHashStoreContents()->GetContents()->Get("path1", &hash));
170 std::unique_ptr<base::Value> path_1_string_1_hash_copy(hash->DeepCopy()); 167 std::unique_ptr<base::Value> path_1_string_1_hash_copy(hash->DeepCopy());
171 hash = NULL; 168 hash = NULL;
172 169
173 // Verify that the super MAC was stamped. 170 // Verify that the super MAC was stamped.
174 { 171 {
175 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 172 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
176 std::unique_ptr<PrefHashStoreTransaction> transaction( 173 std::unique_ptr<PrefHashStoreTransaction> transaction(
177 pref_hash_store.BeginTransaction(GetHashStoreContents())); 174 pref_hash_store.BeginTransaction(GetHashStoreContents()));
178 ASSERT_TRUE(transaction->IsSuperMACValid()); 175 ASSERT_TRUE(transaction->IsSuperMACValid());
179 ASSERT_TRUE(transaction->HasHash("path1")); 176 ASSERT_TRUE(transaction->HasHash("path1"));
180 177
181 // Clearing the hash should preserve validity. 178 // Clearing the hash should preserve validity.
182 transaction->ClearHash("path1"); 179 transaction->ClearHash("path1");
183 180
184 // The effects of the clear should be immediately visible. 181 // The effects of the clear should be immediately visible.
185 ASSERT_FALSE(transaction->HasHash("path1")); 182 ASSERT_FALSE(transaction->HasHash("path1"));
186 EXPECT_EQ(PrefHashStoreTransaction::TRUSTED_NULL_VALUE, 183 EXPECT_EQ(ValueState::TRUSTED_NULL_VALUE,
187 transaction->CheckValue("path1", NULL)); 184 transaction->CheckValue("path1", NULL));
188 EXPECT_EQ(PrefHashStoreTransaction::TRUSTED_UNKNOWN_VALUE, 185 EXPECT_EQ(ValueState::TRUSTED_UNKNOWN_VALUE,
189 transaction->CheckValue("path1", &string_1)); 186 transaction->CheckValue("path1", &string_1));
190 } 187 }
191 188
192 // Verify that validity was preserved and that the clear took effect. 189 // Verify that validity was preserved and that the clear took effect.
193 { 190 {
194 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 191 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
195 std::unique_ptr<PrefHashStoreTransaction> transaction( 192 std::unique_ptr<PrefHashStoreTransaction> transaction(
196 pref_hash_store.BeginTransaction(GetHashStoreContents())); 193 pref_hash_store.BeginTransaction(GetHashStoreContents()));
197 ASSERT_TRUE(transaction->IsSuperMACValid()); 194 ASSERT_TRUE(transaction->IsSuperMACValid());
198 ASSERT_FALSE(transaction->HasHash("path1")); 195 ASSERT_FALSE(transaction->HasHash("path1"));
199 } 196 }
200 197
201 // Invalidate the super MAC. 198 // Invalidate the super MAC.
202 GetHashStoreContents()->SetSuperMac(std::string()); 199 GetHashStoreContents()->SetSuperMac(std::string());
203 200
204 { 201 {
205 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 202 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
206 std::unique_ptr<PrefHashStoreTransaction> transaction( 203 std::unique_ptr<PrefHashStoreTransaction> transaction(
207 pref_hash_store.BeginTransaction(GetHashStoreContents())); 204 pref_hash_store.BeginTransaction(GetHashStoreContents()));
208 ASSERT_FALSE(transaction->IsSuperMACValid()); 205 ASSERT_FALSE(transaction->IsSuperMACValid());
209 ASSERT_FALSE(transaction->HasHash("path1")); 206 ASSERT_FALSE(transaction->HasHash("path1"));
210 207
211 // An import should preserve invalidity. 208 // An import should preserve invalidity.
212 transaction->ImportHash("path1", path_1_string_1_hash_copy.get()); 209 transaction->ImportHash("path1", path_1_string_1_hash_copy.get());
213 210
214 ASSERT_TRUE(transaction->HasHash("path1")); 211 ASSERT_TRUE(transaction->HasHash("path1"));
215 212
216 // The imported hash should be usable for validating the original value. 213 // The imported hash should be usable for validating the original value.
217 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 214 EXPECT_EQ(ValueState::UNCHANGED,
218 transaction->CheckValue("path1", &string_1)); 215 transaction->CheckValue("path1", &string_1));
219 } 216 }
220 217
221 // Verify that invalidity was preserved and that the import took effect. 218 // Verify that invalidity was preserved and that the import took effect.
222 { 219 {
223 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 220 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
224 std::unique_ptr<PrefHashStoreTransaction> transaction( 221 std::unique_ptr<PrefHashStoreTransaction> transaction(
225 pref_hash_store.BeginTransaction(GetHashStoreContents())); 222 pref_hash_store.BeginTransaction(GetHashStoreContents()));
226 ASSERT_FALSE(transaction->IsSuperMACValid()); 223 ASSERT_FALSE(transaction->IsSuperMACValid());
227 ASSERT_TRUE(transaction->HasHash("path1")); 224 ASSERT_TRUE(transaction->HasHash("path1"));
228 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 225 EXPECT_EQ(ValueState::UNCHANGED,
229 transaction->CheckValue("path1", &string_1)); 226 transaction->CheckValue("path1", &string_1));
230 227
231 // After clearing the hash, non-null values are UNTRUSTED_UNKNOWN. 228 // After clearing the hash, non-null values are UNTRUSTED_UNKNOWN.
232 transaction->ClearHash("path1"); 229 transaction->ClearHash("path1");
233 230
234 EXPECT_EQ(PrefHashStoreTransaction::TRUSTED_NULL_VALUE, 231 EXPECT_EQ(ValueState::TRUSTED_NULL_VALUE,
235 transaction->CheckValue("path1", NULL)); 232 transaction->CheckValue("path1", NULL));
236 EXPECT_EQ(PrefHashStoreTransaction::UNTRUSTED_UNKNOWN_VALUE, 233 EXPECT_EQ(ValueState::UNTRUSTED_UNKNOWN_VALUE,
237 transaction->CheckValue("path1", &string_1)); 234 transaction->CheckValue("path1", &string_1));
238 } 235 }
239 236
240 { 237 {
241 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 238 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
242 std::unique_ptr<PrefHashStoreTransaction> transaction( 239 std::unique_ptr<PrefHashStoreTransaction> transaction(
243 pref_hash_store.BeginTransaction(GetHashStoreContents())); 240 pref_hash_store.BeginTransaction(GetHashStoreContents()));
244 ASSERT_FALSE(transaction->IsSuperMACValid()); 241 ASSERT_FALSE(transaction->IsSuperMACValid());
245 242
246 // Test StampSuperMac. 243 // Test StampSuperMac.
247 transaction->StampSuperMac(); 244 transaction->StampSuperMac();
248 } 245 }
249 246
250 // Verify that the store is now valid. 247 // Verify that the store is now valid.
251 { 248 {
252 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 249 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
253 std::unique_ptr<PrefHashStoreTransaction> transaction( 250 std::unique_ptr<PrefHashStoreTransaction> transaction(
254 pref_hash_store.BeginTransaction(GetHashStoreContents())); 251 pref_hash_store.BeginTransaction(GetHashStoreContents()));
255 ASSERT_TRUE(transaction->IsSuperMACValid()); 252 ASSERT_TRUE(transaction->IsSuperMACValid());
256 253
257 // Store the hash of a different value to test an "over-import". 254 // Store the hash of a different value to test an "over-import".
258 transaction->StoreHash("path1", &string_2); 255 transaction->StoreHash("path1", &string_2);
259 EXPECT_EQ(PrefHashStoreTransaction::CHANGED, 256 EXPECT_EQ(ValueState::CHANGED, transaction->CheckValue("path1", &string_1));
260 transaction->CheckValue("path1", &string_1)); 257 EXPECT_EQ(ValueState::UNCHANGED,
261 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED,
262 transaction->CheckValue("path1", &string_2)); 258 transaction->CheckValue("path1", &string_2));
263 } 259 }
264 260
265 { 261 {
266 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 262 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
267 std::unique_ptr<PrefHashStoreTransaction> transaction( 263 std::unique_ptr<PrefHashStoreTransaction> transaction(
268 pref_hash_store.BeginTransaction(GetHashStoreContents())); 264 pref_hash_store.BeginTransaction(GetHashStoreContents()));
269 ASSERT_TRUE(transaction->IsSuperMACValid()); 265 ASSERT_TRUE(transaction->IsSuperMACValid());
270 266
271 // "Over-import". An import should preserve validity. 267 // "Over-import". An import should preserve validity.
272 transaction->ImportHash("path1", path_1_string_1_hash_copy.get()); 268 transaction->ImportHash("path1", path_1_string_1_hash_copy.get());
273 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 269 EXPECT_EQ(ValueState::UNCHANGED,
274 transaction->CheckValue("path1", &string_1)); 270 transaction->CheckValue("path1", &string_1));
275 EXPECT_EQ(PrefHashStoreTransaction::CHANGED, 271 EXPECT_EQ(ValueState::CHANGED, transaction->CheckValue("path1", &string_2));
276 transaction->CheckValue("path1", &string_2));
277 } 272 }
278 273
279 // Verify that validity was preserved and the "over-import" took effect. 274 // Verify that validity was preserved and the "over-import" took effect.
280 { 275 {
281 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 276 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
282 std::unique_ptr<PrefHashStoreTransaction> transaction( 277 std::unique_ptr<PrefHashStoreTransaction> transaction(
283 pref_hash_store.BeginTransaction(GetHashStoreContents())); 278 pref_hash_store.BeginTransaction(GetHashStoreContents()));
284 ASSERT_TRUE(transaction->IsSuperMACValid()); 279 ASSERT_TRUE(transaction->IsSuperMACValid());
285 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 280 EXPECT_EQ(ValueState::UNCHANGED,
286 transaction->CheckValue("path1", &string_1)); 281 transaction->CheckValue("path1", &string_1));
287 EXPECT_EQ(PrefHashStoreTransaction::CHANGED, 282 EXPECT_EQ(ValueState::CHANGED, transaction->CheckValue("path1", &string_2));
288 transaction->CheckValue("path1", &string_2));
289 } 283 }
290 } 284 }
291 285
292 TEST_F(PrefHashStoreImplTest, SuperMACDisabled) { 286 TEST_F(PrefHashStoreImplTest, SuperMACDisabled) {
293 base::Value string_1("string1"); 287 base::Value string_1("string1");
294 base::Value string_2("string2"); 288 base::Value string_2("string2");
295 289
296 { 290 {
297 // Pass |use_super_mac| => false. 291 // Pass |use_super_mac| => false.
298 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", false); 292 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", false);
299 std::unique_ptr<PrefHashStoreTransaction> transaction( 293 std::unique_ptr<PrefHashStoreTransaction> transaction(
300 pref_hash_store.BeginTransaction(GetHashStoreContents())); 294 pref_hash_store.BeginTransaction(GetHashStoreContents()));
301 295
302 transaction->StoreHash("path1", &string_2); 296 transaction->StoreHash("path1", &string_2);
303 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 297 EXPECT_EQ(ValueState::UNCHANGED,
304 transaction->CheckValue("path1", &string_2)); 298 transaction->CheckValue("path1", &string_2));
305 } 299 }
306 300
307 ASSERT_TRUE(GetHashStoreContents()->GetSuperMac().empty()); 301 ASSERT_TRUE(GetHashStoreContents()->GetSuperMac().empty());
308 302
309 { 303 {
310 PrefHashStoreImpl pref_hash_store2(std::string(32, 0), "device_id", false); 304 PrefHashStoreImpl pref_hash_store2(std::string(32, 0), "device_id", false);
311 std::unique_ptr<PrefHashStoreTransaction> transaction( 305 std::unique_ptr<PrefHashStoreTransaction> transaction(
312 pref_hash_store2.BeginTransaction(GetHashStoreContents())); 306 pref_hash_store2.BeginTransaction(GetHashStoreContents()));
313 EXPECT_EQ(PrefHashStoreTransaction::UNTRUSTED_UNKNOWN_VALUE, 307 EXPECT_EQ(ValueState::UNTRUSTED_UNKNOWN_VALUE,
314 transaction->CheckValue("new_path", &string_1)); 308 transaction->CheckValue("new_path", &string_1));
315 } 309 }
316 } 310 }
317 311
318 TEST_F(PrefHashStoreImplTest, SplitHashStoreAndCheck) { 312 TEST_F(PrefHashStoreImplTest, SplitHashStoreAndCheck) {
319 base::DictionaryValue dict; 313 base::DictionaryValue dict;
320 dict.Set("a", new base::Value("to be replaced")); 314 dict.Set("a", new base::Value("to be replaced"));
321 dict.Set("b", new base::Value("same")); 315 dict.Set("b", new base::Value("same"));
322 dict.Set("o", new base::Value("old")); 316 dict.Set("o", new base::Value("old"));
323 317
324 base::DictionaryValue modified_dict; 318 base::DictionaryValue modified_dict;
325 modified_dict.Set("a", new base::Value("replaced")); 319 modified_dict.Set("a", new base::Value("replaced"));
326 modified_dict.Set("b", new base::Value("same")); 320 modified_dict.Set("b", new base::Value("same"));
327 modified_dict.Set("c", new base::Value("new")); 321 modified_dict.Set("c", new base::Value("new"));
328 322
329 base::DictionaryValue empty_dict; 323 base::DictionaryValue empty_dict;
330 324
331 std::vector<std::string> invalid_keys; 325 std::vector<std::string> invalid_keys;
332 326
333 { 327 {
334 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 328 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
335 std::unique_ptr<PrefHashStoreTransaction> transaction( 329 std::unique_ptr<PrefHashStoreTransaction> transaction(
336 pref_hash_store.BeginTransaction(GetHashStoreContents())); 330 pref_hash_store.BeginTransaction(GetHashStoreContents()));
337 331
338 // No hashes stored yet and hashes dictionary is empty (and thus not 332 // No hashes stored yet and hashes dictionary is empty (and thus not
339 // trusted). 333 // trusted).
340 EXPECT_EQ(PrefHashStoreTransaction::UNTRUSTED_UNKNOWN_VALUE, 334 EXPECT_EQ(ValueState::UNTRUSTED_UNKNOWN_VALUE,
341 transaction->CheckSplitValue("path1", &dict, &invalid_keys)); 335 transaction->CheckSplitValue("path1", &dict, &invalid_keys));
342 EXPECT_TRUE(invalid_keys.empty()); 336 EXPECT_TRUE(invalid_keys.empty());
343 337
344 transaction->StoreSplitHash("path1", &dict); 338 transaction->StoreSplitHash("path1", &dict);
345 339
346 // Verify match post storage. 340 // Verify match post storage.
347 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 341 EXPECT_EQ(ValueState::UNCHANGED,
348 transaction->CheckSplitValue("path1", &dict, &invalid_keys)); 342 transaction->CheckSplitValue("path1", &dict, &invalid_keys));
349 EXPECT_TRUE(invalid_keys.empty()); 343 EXPECT_TRUE(invalid_keys.empty());
350 344
351 // Verify new path is still unknown. 345 // Verify new path is still unknown.
352 EXPECT_EQ(PrefHashStoreTransaction::UNTRUSTED_UNKNOWN_VALUE, 346 EXPECT_EQ(ValueState::UNTRUSTED_UNKNOWN_VALUE,
353 transaction->CheckSplitValue("path2", &dict, &invalid_keys)); 347 transaction->CheckSplitValue("path2", &dict, &invalid_keys));
354 EXPECT_TRUE(invalid_keys.empty()); 348 EXPECT_TRUE(invalid_keys.empty());
355 349
356 // Verify NULL or empty dicts are declared as having been cleared. 350 // Verify NULL or empty dicts are declared as having been cleared.
357 EXPECT_EQ(PrefHashStoreTransaction::CLEARED, 351 EXPECT_EQ(ValueState::CLEARED,
358 transaction->CheckSplitValue("path1", NULL, &invalid_keys)); 352 transaction->CheckSplitValue("path1", NULL, &invalid_keys));
359 EXPECT_TRUE(invalid_keys.empty()); 353 EXPECT_TRUE(invalid_keys.empty());
360 EXPECT_EQ( 354 EXPECT_EQ(ValueState::CLEARED, transaction->CheckSplitValue(
361 PrefHashStoreTransaction::CLEARED, 355 "path1", &empty_dict, &invalid_keys));
362 transaction->CheckSplitValue("path1", &empty_dict, &invalid_keys));
363 EXPECT_TRUE(invalid_keys.empty()); 356 EXPECT_TRUE(invalid_keys.empty());
364 357
365 // Verify changes are properly detected. 358 // Verify changes are properly detected.
366 EXPECT_EQ( 359 EXPECT_EQ(ValueState::CHANGED, transaction->CheckSplitValue(
367 PrefHashStoreTransaction::CHANGED, 360 "path1", &modified_dict, &invalid_keys));
368 transaction->CheckSplitValue("path1", &modified_dict, &invalid_keys));
369 std::vector<std::string> expected_invalid_keys1; 361 std::vector<std::string> expected_invalid_keys1;
370 expected_invalid_keys1.push_back("a"); 362 expected_invalid_keys1.push_back("a");
371 expected_invalid_keys1.push_back("c"); 363 expected_invalid_keys1.push_back("c");
372 expected_invalid_keys1.push_back("o"); 364 expected_invalid_keys1.push_back("o");
373 EXPECT_EQ(expected_invalid_keys1, invalid_keys); 365 EXPECT_EQ(expected_invalid_keys1, invalid_keys);
374 invalid_keys.clear(); 366 invalid_keys.clear();
375 367
376 // Verify |dict| still matches post check. 368 // Verify |dict| still matches post check.
377 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 369 EXPECT_EQ(ValueState::UNCHANGED,
378 transaction->CheckSplitValue("path1", &dict, &invalid_keys)); 370 transaction->CheckSplitValue("path1", &dict, &invalid_keys));
379 EXPECT_TRUE(invalid_keys.empty()); 371 EXPECT_TRUE(invalid_keys.empty());
380 372
381 // Store hash for |modified_dict|. 373 // Store hash for |modified_dict|.
382 transaction->StoreSplitHash("path1", &modified_dict); 374 transaction->StoreSplitHash("path1", &modified_dict);
383 375
384 // Verify |modified_dict| is now the one that verifies correctly. 376 // Verify |modified_dict| is now the one that verifies correctly.
385 EXPECT_EQ( 377 EXPECT_EQ(
386 PrefHashStoreTransaction::UNCHANGED, 378 ValueState::UNCHANGED,
387 transaction->CheckSplitValue("path1", &modified_dict, &invalid_keys)); 379 transaction->CheckSplitValue("path1", &modified_dict, &invalid_keys));
388 EXPECT_TRUE(invalid_keys.empty()); 380 EXPECT_TRUE(invalid_keys.empty());
389 381
390 // Verify old dict no longer matches. 382 // Verify old dict no longer matches.
391 EXPECT_EQ(PrefHashStoreTransaction::CHANGED, 383 EXPECT_EQ(ValueState::CHANGED,
392 transaction->CheckSplitValue("path1", &dict, &invalid_keys)); 384 transaction->CheckSplitValue("path1", &dict, &invalid_keys));
393 std::vector<std::string> expected_invalid_keys2; 385 std::vector<std::string> expected_invalid_keys2;
394 expected_invalid_keys2.push_back("a"); 386 expected_invalid_keys2.push_back("a");
395 expected_invalid_keys2.push_back("o"); 387 expected_invalid_keys2.push_back("o");
396 expected_invalid_keys2.push_back("c"); 388 expected_invalid_keys2.push_back("c");
397 EXPECT_EQ(expected_invalid_keys2, invalid_keys); 389 EXPECT_EQ(expected_invalid_keys2, invalid_keys);
398 invalid_keys.clear(); 390 invalid_keys.clear();
399 } 391 }
400 392
401 { 393 {
402 // |pref_hash_store2| should trust its initial hashes dictionary and thus 394 // |pref_hash_store2| should trust its initial hashes dictionary and thus
403 // trust new unknown values. 395 // trust new unknown values.
404 PrefHashStoreImpl pref_hash_store2(std::string(32, 0), "device_id", true); 396 PrefHashStoreImpl pref_hash_store2(std::string(32, 0), "device_id", true);
405 std::unique_ptr<PrefHashStoreTransaction> transaction( 397 std::unique_ptr<PrefHashStoreTransaction> transaction(
406 pref_hash_store2.BeginTransaction(GetHashStoreContents())); 398 pref_hash_store2.BeginTransaction(GetHashStoreContents()));
407 EXPECT_EQ(PrefHashStoreTransaction::TRUSTED_UNKNOWN_VALUE, 399 EXPECT_EQ(ValueState::TRUSTED_UNKNOWN_VALUE,
408 transaction->CheckSplitValue("new_path", &dict, &invalid_keys)); 400 transaction->CheckSplitValue("new_path", &dict, &invalid_keys));
409 EXPECT_TRUE(invalid_keys.empty()); 401 EXPECT_TRUE(invalid_keys.empty());
410 } 402 }
411 403
412 // Manually corrupt the super MAC. 404 // Manually corrupt the super MAC.
413 GetHashStoreContents()->SetSuperMac(std::string(64, 'A')); 405 GetHashStoreContents()->SetSuperMac(std::string(64, 'A'));
414 406
415 { 407 {
416 // |pref_hash_store3| should no longer trust its initial hashes dictionary 408 // |pref_hash_store3| should no longer trust its initial hashes dictionary
417 // and thus shouldn't trust unknown values. 409 // and thus shouldn't trust unknown values.
418 PrefHashStoreImpl pref_hash_store3(std::string(32, 0), "device_id", true); 410 PrefHashStoreImpl pref_hash_store3(std::string(32, 0), "device_id", true);
419 std::unique_ptr<PrefHashStoreTransaction> transaction( 411 std::unique_ptr<PrefHashStoreTransaction> transaction(
420 pref_hash_store3.BeginTransaction(GetHashStoreContents())); 412 pref_hash_store3.BeginTransaction(GetHashStoreContents()));
421 EXPECT_EQ(PrefHashStoreTransaction::UNTRUSTED_UNKNOWN_VALUE, 413 EXPECT_EQ(ValueState::UNTRUSTED_UNKNOWN_VALUE,
422 transaction->CheckSplitValue("new_path", &dict, &invalid_keys)); 414 transaction->CheckSplitValue("new_path", &dict, &invalid_keys));
423 EXPECT_TRUE(invalid_keys.empty()); 415 EXPECT_TRUE(invalid_keys.empty());
424 } 416 }
425 } 417 }
426 418
427 TEST_F(PrefHashStoreImplTest, EmptyAndNULLSplitDict) { 419 TEST_F(PrefHashStoreImplTest, EmptyAndNULLSplitDict) {
428 base::DictionaryValue empty_dict; 420 base::DictionaryValue empty_dict;
429 421
430 std::vector<std::string> invalid_keys; 422 std::vector<std::string> invalid_keys;
431 423
432 { 424 {
433 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 425 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
434 std::unique_ptr<PrefHashStoreTransaction> transaction( 426 std::unique_ptr<PrefHashStoreTransaction> transaction(
435 pref_hash_store.BeginTransaction(GetHashStoreContents())); 427 pref_hash_store.BeginTransaction(GetHashStoreContents()));
436 428
437 // Store hashes for a random dict to be overwritten below. 429 // Store hashes for a random dict to be overwritten below.
438 base::DictionaryValue initial_dict; 430 base::DictionaryValue initial_dict;
439 initial_dict.Set("a", new base::Value("foo")); 431 initial_dict.Set("a", new base::Value("foo"));
440 transaction->StoreSplitHash("path1", &initial_dict); 432 transaction->StoreSplitHash("path1", &initial_dict);
441 433
442 // Verify stored empty dictionary matches NULL and empty dictionary back. 434 // Verify stored empty dictionary matches NULL and empty dictionary back.
443 transaction->StoreSplitHash("path1", &empty_dict); 435 transaction->StoreSplitHash("path1", &empty_dict);
444 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 436 EXPECT_EQ(ValueState::UNCHANGED,
445 transaction->CheckSplitValue("path1", NULL, &invalid_keys)); 437 transaction->CheckSplitValue("path1", NULL, &invalid_keys));
446 EXPECT_TRUE(invalid_keys.empty()); 438 EXPECT_TRUE(invalid_keys.empty());
447 EXPECT_EQ( 439 EXPECT_EQ(ValueState::UNCHANGED, transaction->CheckSplitValue(
448 PrefHashStoreTransaction::UNCHANGED, 440 "path1", &empty_dict, &invalid_keys));
449 transaction->CheckSplitValue("path1", &empty_dict, &invalid_keys));
450 EXPECT_TRUE(invalid_keys.empty()); 441 EXPECT_TRUE(invalid_keys.empty());
451 442
452 // Same when storing NULL directly. 443 // Same when storing NULL directly.
453 transaction->StoreSplitHash("path1", NULL); 444 transaction->StoreSplitHash("path1", NULL);
454 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 445 EXPECT_EQ(ValueState::UNCHANGED,
455 transaction->CheckSplitValue("path1", NULL, &invalid_keys)); 446 transaction->CheckSplitValue("path1", NULL, &invalid_keys));
456 EXPECT_TRUE(invalid_keys.empty()); 447 EXPECT_TRUE(invalid_keys.empty());
457 EXPECT_EQ( 448 EXPECT_EQ(ValueState::UNCHANGED, transaction->CheckSplitValue(
458 PrefHashStoreTransaction::UNCHANGED, 449 "path1", &empty_dict, &invalid_keys));
459 transaction->CheckSplitValue("path1", &empty_dict, &invalid_keys));
460 EXPECT_TRUE(invalid_keys.empty()); 450 EXPECT_TRUE(invalid_keys.empty());
461 } 451 }
462 452
463 { 453 {
464 // |pref_hash_store2| should trust its initial hashes dictionary (and thus 454 // |pref_hash_store2| should trust its initial hashes dictionary (and thus
465 // trust new unknown values) even though the last action done was to clear 455 // trust new unknown values) even though the last action done was to clear
466 // the hashes for path1 by setting its value to NULL (this is a regression 456 // the hashes for path1 by setting its value to NULL (this is a regression
467 // test ensuring that the internal action of clearing some hashes does 457 // test ensuring that the internal action of clearing some hashes does
468 // update the stored hash of hashes). 458 // update the stored hash of hashes).
469 PrefHashStoreImpl pref_hash_store2(std::string(32, 0), "device_id", true); 459 PrefHashStoreImpl pref_hash_store2(std::string(32, 0), "device_id", true);
470 std::unique_ptr<PrefHashStoreTransaction> transaction( 460 std::unique_ptr<PrefHashStoreTransaction> transaction(
471 pref_hash_store2.BeginTransaction(GetHashStoreContents())); 461 pref_hash_store2.BeginTransaction(GetHashStoreContents()));
472 462
473 base::DictionaryValue tested_dict; 463 base::DictionaryValue tested_dict;
474 tested_dict.Set("a", new base::Value("foo")); 464 tested_dict.Set("a", new base::Value("foo"));
475 tested_dict.Set("b", new base::Value("bar")); 465 tested_dict.Set("b", new base::Value("bar"));
476 EXPECT_EQ( 466 EXPECT_EQ(
477 PrefHashStoreTransaction::TRUSTED_UNKNOWN_VALUE, 467 ValueState::TRUSTED_UNKNOWN_VALUE,
478 transaction->CheckSplitValue("new_path", &tested_dict, &invalid_keys)); 468 transaction->CheckSplitValue("new_path", &tested_dict, &invalid_keys));
479 EXPECT_TRUE(invalid_keys.empty()); 469 EXPECT_TRUE(invalid_keys.empty());
480 } 470 }
481 } 471 }
482 472
483 // Test that the PrefHashStore returns TRUSTED_UNKNOWN_VALUE when checking for 473 // Test that the PrefHashStore returns TRUSTED_UNKNOWN_VALUE when checking for
484 // a split preference even if there is an existing atomic preference's hash 474 // a split preference even if there is an existing atomic preference's hash
485 // stored. There is no point providing a migration path for preferences 475 // stored. There is no point providing a migration path for preferences
486 // switching strategies after their initial release as split preferences are 476 // switching strategies after their initial release as split preferences are
487 // turned into split preferences specifically because the atomic hash isn't 477 // turned into split preferences specifically because the atomic hash isn't
488 // considered useful. 478 // considered useful.
489 TEST_F(PrefHashStoreImplTest, TrustedUnknownSplitValueFromExistingAtomic) { 479 TEST_F(PrefHashStoreImplTest, TrustedUnknownSplitValueFromExistingAtomic) {
490 base::Value string("string1"); 480 base::Value string("string1");
491 481
492 base::DictionaryValue dict; 482 base::DictionaryValue dict;
493 dict.Set("a", new base::Value("foo")); 483 dict.Set("a", new base::Value("foo"));
494 dict.Set("d", new base::Value("bad")); 484 dict.Set("d", new base::Value("bad"));
495 dict.Set("b", new base::Value("bar")); 485 dict.Set("b", new base::Value("bar"));
496 dict.Set("c", new base::Value("baz")); 486 dict.Set("c", new base::Value("baz"));
497 487
498 { 488 {
499 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true); 489 PrefHashStoreImpl pref_hash_store(std::string(32, 0), "device_id", true);
500 std::unique_ptr<PrefHashStoreTransaction> transaction( 490 std::unique_ptr<PrefHashStoreTransaction> transaction(
501 pref_hash_store.BeginTransaction(GetHashStoreContents())); 491 pref_hash_store.BeginTransaction(GetHashStoreContents()));
502 492
503 transaction->StoreHash("path1", &string); 493 transaction->StoreHash("path1", &string);
504 EXPECT_EQ(PrefHashStoreTransaction::UNCHANGED, 494 EXPECT_EQ(ValueState::UNCHANGED, transaction->CheckValue("path1", &string));
505 transaction->CheckValue("path1", &string));
506 } 495 }
507 496
508 { 497 {
509 // Load a new |pref_hash_store2| in which the hashes dictionary is trusted. 498 // Load a new |pref_hash_store2| in which the hashes dictionary is trusted.
510 PrefHashStoreImpl pref_hash_store2(std::string(32, 0), "device_id", true); 499 PrefHashStoreImpl pref_hash_store2(std::string(32, 0), "device_id", true);
511 std::unique_ptr<PrefHashStoreTransaction> transaction( 500 std::unique_ptr<PrefHashStoreTransaction> transaction(
512 pref_hash_store2.BeginTransaction(GetHashStoreContents())); 501 pref_hash_store2.BeginTransaction(GetHashStoreContents()));
513 std::vector<std::string> invalid_keys; 502 std::vector<std::string> invalid_keys;
514 EXPECT_EQ(PrefHashStoreTransaction::TRUSTED_UNKNOWN_VALUE, 503 EXPECT_EQ(ValueState::TRUSTED_UNKNOWN_VALUE,
515 transaction->CheckSplitValue("path1", &dict, &invalid_keys)); 504 transaction->CheckSplitValue("path1", &dict, &invalid_keys));
516 EXPECT_TRUE(invalid_keys.empty()); 505 EXPECT_TRUE(invalid_keys.empty());
517 } 506 }
518 } 507 }
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