1 // Copyright (c) 2012 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. 4 5 #include "chrome/browser/safe_browsing/prefix_set.h" 6 7 #include <algorithm> 8 #include <iterator> 9 #include <set> 10 #include <string> 11 12 #include "base/file_util.h" 13 #include "base/files/scoped_file.h" 14 #include "base/files/scoped_temp_dir.h" 15 #include "base/logging.h" 16 #include "base/md5.h" 17 #include "base/memory/scoped_ptr.h" 18 #include "base/path_service.h" 19 #include "base/rand_util.h" 20 #include "base/strings/string_number_conversions.h" 21 #include "base/strings/string_util.h" 22 #include "chrome/common/chrome_paths.h" 23 #include "testing/gtest/include/gtest/gtest.h" 24 #include "testing/platform_test.h" 25 26 namespace { 27 28 const SBPrefix kHighBitClear = 1000u * 1000u * 1000u; 29 const SBPrefix kHighBitSet = 3u * 1000u * 1000u * 1000u; 30 31 } // namespace 32 33 namespace safe_browsing { 34 35 class PrefixSetTest : public PlatformTest { 36 protected: 37 // Constants for the v1 format. 38 static const size_t kMagicOffset = 0 * sizeof(uint32); 39 static const size_t kVersionOffset = 1 * sizeof(uint32); 40 static const size_t kIndexSizeOffset = 2 * sizeof(uint32); 41 static const size_t kDeltasSizeOffset = 3 * sizeof(uint32); 42 static const size_t kFullHashesSizeOffset = 4 * sizeof(uint32); 43 static const size_t kPayloadOffset = 5 * sizeof(uint32); 44 45 // Generate a set of random prefixes to share between tests. For 46 // most tests this generation was a large fraction of the test time. 47 // 48 // The set should contain sparse areas where adjacent items are more 49 // than 2^16 apart, and dense areas where adjacent items are less 50 // than 2^16 apart. 51 static void SetUpTestCase() { 52 // Distribute clusters of prefixes. 53 for (size_t i = 0; i < 250; ++i) { 54 // Unsigned for overflow characteristics. 55 const uint32 base = static_cast<uint32>(base::RandUint64()); 56 for (size_t j = 0; j < 10; ++j) { 57 const uint32 delta = static_cast<uint32>(base::RandUint64() & 0xFFFF); 58 const SBPrefix prefix = static_cast<SBPrefix>(base + delta); 59 shared_prefixes_.push_back(prefix); 60 } 61 } 62 63 // Lay down a sparsely-distributed layer. 64 const size_t count = shared_prefixes_.size(); 65 for (size_t i = 0; i < count; ++i) { 66 const SBPrefix prefix = static_cast<SBPrefix>(base::RandUint64()); 67 shared_prefixes_.push_back(prefix); 68 } 69 70 // Sort for use with PrefixSet constructor. 71 std::sort(shared_prefixes_.begin(), shared_prefixes_.end()); 72 } 73 74 // Check that all elements of |prefixes| are in |prefix_set|, and 75 // that nearby elements are not (for lack of a more sensible set of 76 // items to check for absence). 77 static void CheckPrefixes(const PrefixSet& prefix_set, 78 const std::vector<SBPrefix> &prefixes) { 79 // The set can generate the prefixes it believes it has, so that's 80 // a good starting point. 81 std::set<SBPrefix> check(prefixes.begin(), prefixes.end()); 82 std::vector<SBPrefix> prefixes_copy; 83 prefix_set.GetPrefixes(&prefixes_copy); 84 EXPECT_EQ(prefixes_copy.size(), check.size()); 85 EXPECT_TRUE(std::equal(check.begin(), check.end(), prefixes_copy.begin())); 86 87 for (size_t i = 0; i < prefixes.size(); ++i) { 88 EXPECT_TRUE(prefix_set.PrefixExists(prefixes[i])); 89 90 const SBPrefix left_sibling = prefixes[i] - 1; 91 if (check.count(left_sibling) == 0) 92 EXPECT_FALSE(prefix_set.PrefixExists(left_sibling)); 93 94 const SBPrefix right_sibling = prefixes[i] + 1; 95 if (check.count(right_sibling) == 0) 96 EXPECT_FALSE(prefix_set.PrefixExists(right_sibling)); 97 } 98 } 99 100 // Generate a |PrefixSet| file from |shared_prefixes_|, store it in 101 // a temporary file, and return the filename in |filenamep|. 102 // Returns |true| on success. 103 bool GetPrefixSetFile(base::FilePath* filenamep) { 104 if (!temp_dir_.IsValid() && !temp_dir_.CreateUniqueTempDir()) 105 return false; 106 107 base::FilePath filename = temp_dir_.path().AppendASCII("PrefixSetTest"); 108 109 PrefixSetBuilder builder(shared_prefixes_); 110 if (!builder.GetPrefixSetNoHashes()->WriteFile(filename)) 111 return false; 112 113 *filenamep = filename; 114 return true; 115 } 116 117 // Helper function to read the uint32 value at |offset|, increment it 118 // by |inc|, and write it back in place. |fp| should be opened in 119 // r+ mode. 120 static void IncrementIntAt(FILE* fp, long offset, int inc) { 121 uint32 value = 0; 122 123 ASSERT_NE(-1, fseek(fp, offset, SEEK_SET)); 124 ASSERT_EQ(1U, fread(&value, sizeof(value), 1, fp)); 125 126 value += inc; 127 128 ASSERT_NE(-1, fseek(fp, offset, SEEK_SET)); 129 ASSERT_EQ(1U, fwrite(&value, sizeof(value), 1, fp)); 130 } 131 132 // Helper function to re-generated |fp|'s checksum to be correct for 133 // the file's contents. |fp| should be opened in r+ mode. 134 static void CleanChecksum(FILE* fp) { 135 base::MD5Context context; 136 base::MD5Init(&context); 137 138 ASSERT_NE(-1, fseek(fp, 0, SEEK_END)); 139 long file_size = ftell(fp); 140 141 using base::MD5Digest; 142 size_t payload_size = static_cast<size_t>(file_size) - sizeof(MD5Digest); 143 size_t digested_size = 0; 144 ASSERT_NE(-1, fseek(fp, 0, SEEK_SET)); 145 while (digested_size < payload_size) { 146 char buf[1024]; 147 size_t nitems = std::min(payload_size - digested_size, sizeof(buf)); 148 ASSERT_EQ(nitems, fread(buf, 1, nitems, fp)); 149 base::MD5Update(&context, base::StringPiece(buf, nitems)); 150 digested_size += nitems; 151 } 152 ASSERT_EQ(digested_size, payload_size); 153 ASSERT_EQ(static_cast<long>(digested_size), ftell(fp)); 154 155 base::MD5Digest new_digest; 156 base::MD5Final(&new_digest, &context); 157 ASSERT_NE(-1, fseek(fp, digested_size, SEEK_SET)); 158 ASSERT_EQ(1U, fwrite(&new_digest, sizeof(new_digest), 1, fp)); 159 ASSERT_EQ(file_size, ftell(fp)); 160 } 161 162 // Open |filename| and increment the uint32 at |offset| by |inc|. 163 // Then re-generate the checksum to account for the new contents. 164 void ModifyAndCleanChecksum(const base::FilePath& filename, long offset, 165 int inc) { 166 int64 size_64; 167 ASSERT_TRUE(base::GetFileSize(filename, &size_64)); 168 169 base::ScopedFILE file(base::OpenFile(filename, "r+b")); 170 IncrementIntAt(file.get(), offset, inc); 171 CleanChecksum(file.get()); 172 file.reset(); 173 174 int64 new_size_64; 175 ASSERT_TRUE(base::GetFileSize(filename, &new_size_64)); 176 ASSERT_EQ(new_size_64, size_64); 177 } 178 179 // Fill |prefixes| with values read from a reference file. The reference file 180 // was generated from a specific |shared_prefixes_|. 181 bool ReadReferencePrefixes(std::vector<SBPrefix>* prefixes) { 182 const char kRefname[] = "PrefixSetRef"; 183 base::FilePath ref_path; 184 if (!PathService::Get(chrome::DIR_TEST_DATA, &ref_path)) 185 return false; 186 ref_path = ref_path.AppendASCII("SafeBrowsing"); 187 ref_path = ref_path.AppendASCII(kRefname); 188 189 base::ScopedFILE file(base::OpenFile(ref_path, "r")); 190 if (!file.get()) 191 return false; 192 char buf[1024]; 193 while (fgets(buf, sizeof(buf), file.get())) { 194 std::string trimmed; 195 if (base::TRIM_TRAILING != 196 base::TrimWhitespace(buf, base::TRIM_ALL, &trimmed)) 197 return false; 198 unsigned prefix; 199 if (!base::StringToUint(trimmed, &prefix)) 200 return false; 201 prefixes->push_back(prefix); 202 } 203 return true; 204 } 205 206 // Tests should not modify this shared resource. 207 static std::vector<SBPrefix> shared_prefixes_; 208 209 base::ScopedTempDir temp_dir_; 210 }; 211 212 std::vector<SBPrefix> PrefixSetTest::shared_prefixes_; 213 214 // Test that a small sparse random input works. 215 TEST_F(PrefixSetTest, Baseline) { 216 PrefixSetBuilder builder(shared_prefixes_); 217 CheckPrefixes(*builder.GetPrefixSetNoHashes(), shared_prefixes_); 218 } 219 220 // Test that the empty set doesn't appear to have anything in it. 221 TEST_F(PrefixSetTest, Empty) { 222 const std::vector<SBPrefix> empty; 223 PrefixSetBuilder builder(empty); 224 scoped_ptr<PrefixSet> prefix_set = builder.GetPrefixSetNoHashes(); 225 for (size_t i = 0; i < shared_prefixes_.size(); ++i) { 226 EXPECT_FALSE(prefix_set->PrefixExists(shared_prefixes_[i])); 227 } 228 } 229 230 // Single-element set should work fine. 231 TEST_F(PrefixSetTest, OneElement) { 232 const std::vector<SBPrefix> prefixes(100, 0u); 233 PrefixSetBuilder builder(prefixes); 234 scoped_ptr<PrefixSet> prefix_set = builder.GetPrefixSetNoHashes(); 235 EXPECT_FALSE(prefix_set->PrefixExists(static_cast<SBPrefix>(-1))); 236 EXPECT_TRUE(prefix_set->PrefixExists(prefixes[0])); 237 EXPECT_FALSE(prefix_set->PrefixExists(1u)); 238 239 // Check that |GetPrefixes()| returns the same set of prefixes as 240 // was passed in. 241 std::vector<SBPrefix> prefixes_copy; 242 prefix_set->GetPrefixes(&prefixes_copy); 243 EXPECT_EQ(1U, prefixes_copy.size()); 244 EXPECT_EQ(prefixes[0], prefixes_copy[0]); 245 } 246 247 // Edges of the 32-bit integer range. 248 TEST_F(PrefixSetTest, IntMinMax) { 249 std::vector<SBPrefix> prefixes; 250 251 // Using bit patterns rather than portable constants because this 252 // really is testing how the entire 32-bit integer range is handled. 253 prefixes.push_back(0x00000000); 254 prefixes.push_back(0x0000FFFF); 255 prefixes.push_back(0x7FFF0000); 256 prefixes.push_back(0x7FFFFFFF); 257 prefixes.push_back(0x80000000); 258 prefixes.push_back(0x8000FFFF); 259 prefixes.push_back(0xFFFF0000); 260 prefixes.push_back(0xFFFFFFFF); 261 262 std::sort(prefixes.begin(), prefixes.end()); 263 PrefixSetBuilder builder(prefixes); 264 scoped_ptr<PrefixSet> prefix_set = builder.GetPrefixSetNoHashes(); 265 266 // Check that |GetPrefixes()| returns the same set of prefixes as 267 // was passed in. 268 std::vector<SBPrefix> prefixes_copy; 269 prefix_set->GetPrefixes(&prefixes_copy); 270 ASSERT_EQ(prefixes_copy.size(), prefixes.size()); 271 EXPECT_TRUE(std::equal(prefixes.begin(), prefixes.end(), 272 prefixes_copy.begin())); 273 } 274 275 // A range with only large deltas. 276 TEST_F(PrefixSetTest, AllBig) { 277 std::vector<SBPrefix> prefixes; 278 279 const unsigned kDelta = 10 * 1000 * 1000; 280 for (SBPrefix prefix = kHighBitSet; 281 prefix < kHighBitClear; prefix += kDelta) { 282 prefixes.push_back(prefix); 283 } 284 285 std::sort(prefixes.begin(), prefixes.end()); 286 PrefixSetBuilder builder(prefixes); 287 scoped_ptr<PrefixSet> prefix_set = builder.GetPrefixSetNoHashes(); 288 289 // Check that |GetPrefixes()| returns the same set of prefixes as 290 // was passed in. 291 std::vector<SBPrefix> prefixes_copy; 292 prefix_set->GetPrefixes(&prefixes_copy); 293 prefixes.erase(std::unique(prefixes.begin(), prefixes.end()), prefixes.end()); 294 EXPECT_EQ(prefixes_copy.size(), prefixes.size()); 295 EXPECT_TRUE(std::equal(prefixes.begin(), prefixes.end(), 296 prefixes_copy.begin())); 297 } 298 299 // Use artificial inputs to test various edge cases in PrefixExists(). Items 300 // before the lowest item aren't present. Items after the largest item aren't 301 // present. Create a sequence of items with deltas above and below 2^16, and 302 // make sure they're all present. Create a very long sequence with deltas below 303 // 2^16 to test crossing |kMaxRun|. 304 TEST_F(PrefixSetTest, EdgeCases) { 305 std::vector<SBPrefix> prefixes; 306 307 // Put in a high-bit prefix. 308 SBPrefix prefix = kHighBitSet; 309 prefixes.push_back(prefix); 310 311 // Add a sequence with very large deltas. 312 unsigned delta = 100 * 1000 * 1000; 313 for (int i = 0; i < 10; ++i) { 314 prefix += delta; 315 prefixes.push_back(prefix); 316 } 317 318 // Add a sequence with deltas that start out smaller than the 319 // maximum delta, and end up larger. Also include some duplicates. 320 delta = 256 * 256 - 100; 321 for (int i = 0; i < 200; ++i) { 322 prefix += delta; 323 prefixes.push_back(prefix); 324 prefixes.push_back(prefix); 325 delta++; 326 } 327 328 // Add a long sequence with deltas smaller than the maximum delta, 329 // so a new index item will be injected. 330 delta = 256 * 256 - 1; 331 prefix = kHighBitClear - delta * 1000; 332 prefixes.push_back(prefix); 333 for (int i = 0; i < 1000; ++i) { 334 prefix += delta; 335 prefixes.push_back(prefix); 336 delta--; 337 } 338 339 std::sort(prefixes.begin(), prefixes.end()); 340 PrefixSetBuilder builder(prefixes); 341 scoped_ptr<PrefixSet> prefix_set = builder.GetPrefixSetNoHashes(); 342 343 // Check that |GetPrefixes()| returns the same set of prefixes as 344 // was passed in. 345 std::vector<SBPrefix> prefixes_copy; 346 prefix_set->GetPrefixes(&prefixes_copy); 347 prefixes.erase(std::unique(prefixes.begin(), prefixes.end()), prefixes.end()); 348 EXPECT_EQ(prefixes_copy.size(), prefixes.size()); 349 EXPECT_TRUE(std::equal(prefixes.begin(), prefixes.end(), 350 prefixes_copy.begin())); 351 352 // Items before and after the set are not present, and don't crash. 353 EXPECT_FALSE(prefix_set->PrefixExists(kHighBitSet - 100)); 354 EXPECT_FALSE(prefix_set->PrefixExists(kHighBitClear + 100)); 355 356 // Check that the set correctly flags all of the inputs, and also 357 // check items just above and below the inputs to make sure they 358 // aren't present. 359 for (size_t i = 0; i < prefixes.size(); ++i) { 360 EXPECT_TRUE(prefix_set->PrefixExists(prefixes[i])); 361 362 EXPECT_FALSE(prefix_set->PrefixExists(prefixes[i] - 1)); 363 EXPECT_FALSE(prefix_set->PrefixExists(prefixes[i] + 1)); 364 } 365 } 366 367 // Test writing a prefix set to disk and reading it back in. 368 TEST_F(PrefixSetTest, ReadWrite) { 369 base::FilePath filename; 370 371 // Write the sample prefix set out, read it back in, and check all 372 // the prefixes. Leaves the path in |filename|. 373 { 374 ASSERT_TRUE(GetPrefixSetFile(&filename)); 375 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 376 ASSERT_TRUE(prefix_set.get()); 377 CheckPrefixes(*prefix_set, shared_prefixes_); 378 } 379 380 // Test writing and reading a very sparse set containing no deltas. 381 { 382 std::vector<SBPrefix> prefixes; 383 prefixes.push_back(kHighBitClear); 384 prefixes.push_back(kHighBitSet); 385 386 PrefixSetBuilder builder(prefixes); 387 ASSERT_TRUE(builder.GetPrefixSetNoHashes()->WriteFile(filename)); 388 389 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 390 ASSERT_TRUE(prefix_set.get()); 391 CheckPrefixes(*prefix_set, prefixes); 392 } 393 394 // Test writing and reading an empty set. 395 { 396 std::vector<SBPrefix> prefixes; 397 PrefixSetBuilder builder(prefixes); 398 ASSERT_TRUE(builder.GetPrefixSetNoHashes()->WriteFile(filename)); 399 400 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 401 ASSERT_TRUE(prefix_set.get()); 402 CheckPrefixes(*prefix_set, prefixes); 403 } 404 405 // Test that full hashes are persisted. 406 { 407 std::vector<SBFullHash> hashes; 408 hashes.push_back(SBFullHashForString("one")); 409 hashes.push_back(SBFullHashForString("two")); 410 hashes.push_back(SBFullHashForString("three")); 411 412 std::vector<SBPrefix> prefixes(shared_prefixes_); 413 414 // Remove any collisions from the prefixes. 415 for (size_t i = 0; i < hashes.size(); ++i) { 416 std::vector<SBPrefix>::iterator iter = 417 std::lower_bound(prefixes.begin(), prefixes.end(), hashes[i].prefix); 418 if (iter != prefixes.end() && *iter == hashes[i].prefix) 419 prefixes.erase(iter); 420 } 421 422 PrefixSetBuilder builder(prefixes); 423 ASSERT_TRUE(builder.GetPrefixSet(hashes)->WriteFile(filename)); 424 425 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 426 ASSERT_TRUE(prefix_set.get()); 427 CheckPrefixes(*prefix_set, prefixes); 428 429 EXPECT_TRUE(prefix_set->Exists(hashes[0])); 430 EXPECT_TRUE(prefix_set->Exists(hashes[1])); 431 EXPECT_TRUE(prefix_set->Exists(hashes[2])); 432 EXPECT_FALSE(prefix_set->PrefixExists(hashes[0].prefix)); 433 EXPECT_FALSE(prefix_set->PrefixExists(hashes[1].prefix)); 434 EXPECT_FALSE(prefix_set->PrefixExists(hashes[2].prefix)); 435 } 436 } 437 438 // Check that |CleanChecksum()| makes an acceptable checksum. 439 TEST_F(PrefixSetTest, CorruptionHelpers) { 440 base::FilePath filename; 441 ASSERT_TRUE(GetPrefixSetFile(&filename)); 442 443 // This will modify data in |index_|, which will fail the digest check. 444 base::ScopedFILE file(base::OpenFile(filename, "r+b")); 445 IncrementIntAt(file.get(), kPayloadOffset, 1); 446 file.reset(); 447 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 448 ASSERT_FALSE(prefix_set.get()); 449 450 // Fix up the checksum and it will read successfully (though the 451 // data will be wrong). 452 file.reset(base::OpenFile(filename, "r+b")); 453 CleanChecksum(file.get()); 454 file.reset(); 455 prefix_set = PrefixSet::LoadFile(filename); 456 ASSERT_TRUE(prefix_set.get()); 457 } 458 459 // Bad magic is caught by the sanity check. 460 TEST_F(PrefixSetTest, CorruptionMagic) { 461 base::FilePath filename; 462 ASSERT_TRUE(GetPrefixSetFile(&filename)); 463 464 ASSERT_NO_FATAL_FAILURE( 465 ModifyAndCleanChecksum(filename, kMagicOffset, 1)); 466 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 467 ASSERT_FALSE(prefix_set.get()); 468 } 469 470 // Bad version is caught by the sanity check. 471 TEST_F(PrefixSetTest, CorruptionVersion) { 472 base::FilePath filename; 473 ASSERT_TRUE(GetPrefixSetFile(&filename)); 474 475 ASSERT_NO_FATAL_FAILURE( 476 ModifyAndCleanChecksum(filename, kVersionOffset, 10)); 477 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 478 ASSERT_FALSE(prefix_set.get()); 479 } 480 481 // Bad |index_| size is caught by the sanity check. 482 TEST_F(PrefixSetTest, CorruptionIndexSize) { 483 base::FilePath filename; 484 ASSERT_TRUE(GetPrefixSetFile(&filename)); 485 486 ASSERT_NO_FATAL_FAILURE( 487 ModifyAndCleanChecksum(filename, kIndexSizeOffset, 1)); 488 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 489 ASSERT_FALSE(prefix_set.get()); 490 } 491 492 // Bad |deltas_| size is caught by the sanity check. 493 TEST_F(PrefixSetTest, CorruptionDeltasSize) { 494 base::FilePath filename; 495 ASSERT_TRUE(GetPrefixSetFile(&filename)); 496 497 ASSERT_NO_FATAL_FAILURE( 498 ModifyAndCleanChecksum(filename, kDeltasSizeOffset, 1)); 499 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 500 ASSERT_FALSE(prefix_set.get()); 501 } 502 503 // Bad |full_hashes_| size is caught by the sanity check. 504 TEST_F(PrefixSetTest, CorruptionFullHashesSize) { 505 base::FilePath filename; 506 ASSERT_TRUE(GetPrefixSetFile(&filename)); 507 508 ASSERT_NO_FATAL_FAILURE( 509 ModifyAndCleanChecksum(filename, kFullHashesSizeOffset, 1)); 510 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 511 ASSERT_FALSE(prefix_set.get()); 512 } 513 514 // Test that the digest catches corruption in the middle of the file 515 // (in the payload between the header and the digest). 516 TEST_F(PrefixSetTest, CorruptionPayload) { 517 base::FilePath filename; 518 ASSERT_TRUE(GetPrefixSetFile(&filename)); 519 520 base::ScopedFILE file(base::OpenFile(filename, "r+b")); 521 ASSERT_NO_FATAL_FAILURE(IncrementIntAt(file.get(), 666, 1)); 522 file.reset(); 523 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 524 ASSERT_FALSE(prefix_set.get()); 525 } 526 527 // Test corruption in the digest itself. 528 TEST_F(PrefixSetTest, CorruptionDigest) { 529 base::FilePath filename; 530 ASSERT_TRUE(GetPrefixSetFile(&filename)); 531 532 int64 size_64; 533 ASSERT_TRUE(base::GetFileSize(filename, &size_64)); 534 base::ScopedFILE file(base::OpenFile(filename, "r+b")); 535 long digest_offset = static_cast<long>(size_64 - sizeof(base::MD5Digest)); 536 ASSERT_NO_FATAL_FAILURE(IncrementIntAt(file.get(), digest_offset, 1)); 537 file.reset(); 538 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 539 ASSERT_FALSE(prefix_set.get()); 540 } 541 542 // Test excess data after the digest (fails the size test). 543 TEST_F(PrefixSetTest, CorruptionExcess) { 544 base::FilePath filename; 545 ASSERT_TRUE(GetPrefixSetFile(&filename)); 546 547 // Add some junk to the trunk. 548 base::ScopedFILE file(base::OpenFile(filename, "ab")); 549 const char buf[] = "im in ur base, killing ur d00dz."; 550 ASSERT_EQ(strlen(buf), fwrite(buf, 1, strlen(buf), file.get())); 551 file.reset(); 552 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 553 ASSERT_FALSE(prefix_set.get()); 554 } 555 556 // Test that files which had 64-bit size_t are discarded. 557 TEST_F(PrefixSetTest, SizeTRecovery) { 558 base::FilePath filename; 559 ASSERT_TRUE(GetPrefixSetFile(&filename)); 560 561 // Open the file for rewrite. 562 base::ScopedFILE file(base::OpenFile(filename, "r+b")); 563 564 // Leave existing magic and version. 565 ASSERT_NE(-1, fseek(file.get(), sizeof(uint32) * 2, SEEK_SET)); 566 567 // Indicate two index values and two deltas. 568 uint32 val = 2; 569 ASSERT_EQ(sizeof(val), fwrite(&val, 1, sizeof(val), file.get())); 570 ASSERT_EQ(sizeof(val), fwrite(&val, 1, sizeof(val), file.get())); 571 572 // Write two index values with 64-bit "size_t". 573 std::pair<SBPrefix, uint64> item; 574 memset(&item, 0, sizeof(item)); // Includes any padding. 575 item.first = 17; 576 item.second = 0; 577 ASSERT_EQ(sizeof(item), fwrite(&item, 1, sizeof(item), file.get())); 578 item.first = 100042; 579 item.second = 1; 580 ASSERT_EQ(sizeof(item), fwrite(&item, 1, sizeof(item), file.get())); 581 582 // Write two delta values. 583 uint16 delta = 23; 584 ASSERT_EQ(sizeof(delta), fwrite(&delta, 1, sizeof(delta), file.get())); 585 ASSERT_EQ(sizeof(delta), fwrite(&delta, 1, sizeof(delta), file.get())); 586 587 // Leave space for the digest at the end, and regenerate it. 588 base::MD5Digest dummy = { { 0 } }; 589 ASSERT_EQ(sizeof(dummy), fwrite(&dummy, 1, sizeof(dummy), file.get())); 590 ASSERT_TRUE(base::TruncateFile(file.get())); 591 CleanChecksum(file.get()); 592 file.reset(); // Flush updates. 593 594 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(filename); 595 ASSERT_FALSE(prefix_set.get()); 596 } 597 598 // Test Exists() against full hashes passed to builder. 599 TEST_F(PrefixSetTest, FullHashBuild) { 600 const SBFullHash kHash1 = SBFullHashForString("one"); 601 const SBFullHash kHash2 = SBFullHashForString("two"); 602 const SBFullHash kHash3 = SBFullHashForString("three"); 603 const SBFullHash kHash4 = SBFullHashForString("four"); 604 const SBFullHash kHash5 = SBFullHashForString("five"); 605 const SBFullHash kHash6 = SBFullHashForString("six"); 606 607 std::vector<SBPrefix> prefixes; 608 prefixes.push_back(kHash1.prefix); 609 prefixes.push_back(kHash2.prefix); 610 std::sort(prefixes.begin(), prefixes.end()); 611 612 std::vector<SBFullHash> hashes; 613 hashes.push_back(kHash4); 614 hashes.push_back(kHash5); 615 616 PrefixSetBuilder builder(prefixes); 617 scoped_ptr<PrefixSet> prefix_set = builder.GetPrefixSet(hashes); 618 619 EXPECT_TRUE(prefix_set->Exists(kHash1)); 620 EXPECT_TRUE(prefix_set->Exists(kHash2)); 621 EXPECT_FALSE(prefix_set->Exists(kHash3)); 622 EXPECT_TRUE(prefix_set->Exists(kHash4)); 623 EXPECT_TRUE(prefix_set->Exists(kHash5)); 624 EXPECT_FALSE(prefix_set->Exists(kHash6)); 625 626 EXPECT_TRUE(prefix_set->PrefixExists(kHash1.prefix)); 627 EXPECT_TRUE(prefix_set->PrefixExists(kHash2.prefix)); 628 EXPECT_FALSE(prefix_set->PrefixExists(kHash3.prefix)); 629 EXPECT_FALSE(prefix_set->PrefixExists(kHash4.prefix)); 630 EXPECT_FALSE(prefix_set->PrefixExists(kHash5.prefix)); 631 EXPECT_FALSE(prefix_set->PrefixExists(kHash6.prefix)); 632 } 633 634 // Test that a version 1 file is discarded on read. 635 TEST_F(PrefixSetTest, ReadSigned) { 636 base::FilePath filename; 637 ASSERT_TRUE(GetPrefixSetFile(&filename)); 638 639 // Open the file for rewrite. 640 base::ScopedFILE file(base::OpenFile(filename, "r+b")); 641 642 // Leave existing magic. 643 ASSERT_NE(-1, fseek(file.get(), sizeof(uint32), SEEK_SET)); 644 645 // Version 1. 646 uint32 version = 1; 647 ASSERT_EQ(sizeof(version), fwrite(&version, 1, sizeof(version), file.get())); 648 649 // Indicate two index values and two deltas. 650 uint32 val = 2; 651 ASSERT_EQ(sizeof(val), fwrite(&val, 1, sizeof(val), file.get())); 652 ASSERT_EQ(sizeof(val), fwrite(&val, 1, sizeof(val), file.get())); 653 654 std::pair<int32, uint32> item; 655 memset(&item, 0, sizeof(item)); // Includes any padding. 656 item.first = -1000; 657 item.second = 0; 658 ASSERT_EQ(sizeof(item), fwrite(&item, 1, sizeof(item), file.get())); 659 item.first = 1000; 660 item.second = 1; 661 ASSERT_EQ(sizeof(item), fwrite(&item, 1, sizeof(item), file.get())); 662 663 // Write two delta values. 664 uint16 delta = 23; 665 ASSERT_EQ(sizeof(delta), fwrite(&delta, 1, sizeof(delta), file.get())); 666 ASSERT_EQ(sizeof(delta), fwrite(&delta, 1, sizeof(delta), file.get())); 667 668 // Leave space for the digest at the end, and regenerate it. 669 base::MD5Digest dummy = { { 0 } }; 670 ASSERT_EQ(sizeof(dummy), fwrite(&dummy, 1, sizeof(dummy), file.get())); 671 ASSERT_TRUE(base::TruncateFile(file.get())); 672 CleanChecksum(file.get()); 673 file.reset(); // Flush updates. 674 675 scoped_ptr<safe_browsing::PrefixSet> 676 prefix_set(safe_browsing::PrefixSet::LoadFile(filename)); 677 ASSERT_FALSE(prefix_set.get()); 678 } 679 680 // Test that a golden v2 file can be read by the current code. All platforms 681 // generating v2 files are little-endian, so there is no point to testing this 682 // transition if/when a big-endian port is added. 683 #if defined(ARCH_CPU_LITTLE_ENDIAN) 684 TEST_F(PrefixSetTest, Version2) { 685 std::vector<SBPrefix> ref_prefixes; 686 ASSERT_TRUE(ReadReferencePrefixes(&ref_prefixes)); 687 688 const char kBasename[] = "PrefixSetVersion2"; 689 base::FilePath golden_path; 690 ASSERT_TRUE(PathService::Get(chrome::DIR_TEST_DATA, &golden_path)); 691 golden_path = golden_path.AppendASCII("SafeBrowsing"); 692 golden_path = golden_path.AppendASCII(kBasename); 693 694 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(golden_path); 695 ASSERT_TRUE(prefix_set.get()); 696 CheckPrefixes(*prefix_set, ref_prefixes); 697 } 698 #endif 699 700 // Test that a golden v3 file can be read by the current code. All platforms 701 // generating v3 files are little-endian, so there is no point to testing this 702 // transition if/when a big-endian port is added. 703 #if defined(ARCH_CPU_LITTLE_ENDIAN) 704 TEST_F(PrefixSetTest, Version3) { 705 std::vector<SBPrefix> ref_prefixes; 706 ASSERT_TRUE(ReadReferencePrefixes(&ref_prefixes)); 707 708 const char kBasename[] = "PrefixSetVersion3"; 709 base::FilePath golden_path; 710 ASSERT_TRUE(PathService::Get(chrome::DIR_TEST_DATA, &golden_path)); 711 golden_path = golden_path.AppendASCII("SafeBrowsing"); 712 golden_path = golden_path.AppendASCII(kBasename); 713 714 scoped_ptr<PrefixSet> prefix_set = PrefixSet::LoadFile(golden_path); 715 ASSERT_TRUE(prefix_set.get()); 716 CheckPrefixes(*prefix_set, ref_prefixes); 717 718 const SBFullHash kHash1 = SBFullHashForString("www.evil.com/malware.html"); 719 const SBFullHash kHash2 = SBFullHashForString("www.evil.com/phishing.html"); 720 721 EXPECT_TRUE(prefix_set->Exists(kHash1)); 722 EXPECT_TRUE(prefix_set->Exists(kHash2)); 723 EXPECT_FALSE(prefix_set->PrefixExists(kHash1.prefix)); 724 EXPECT_FALSE(prefix_set->PrefixExists(kHash2.prefix)); 725 } 726 #endif 727 728 } // namespace safe_browsing 729