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| 1 // Copyright (c) 2011 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 <cmath> |
| 6 #include <vector> |
| 7 #include <gtest/gtest.h> |
| 8 |
| 9 #include "layout.h" |
| 10 #include "ots-memory-stream.h" |
| 11 |
| 12 namespace { |
| 13 |
| 14 const uint32_t kFakeTag = 0x00000000; |
| 15 const size_t kScriptRecordSize = 6; |
| 16 const size_t kLangSysRecordSize = 6; |
| 17 |
| 18 bool BuildFakeScriptListTable(ots::OTSStream *out, const uint16_t script_count, |
| 19 const uint16_t langsys_count, |
| 20 const uint16_t feature_count) { |
| 21 if (!out->WriteU16(script_count)) { |
| 22 return false; |
| 23 } |
| 24 const off_t script_record_end = out->Tell() + |
| 25 kScriptRecordSize * script_count; |
| 26 const size_t script_table_size = 4 + kLangSysRecordSize * langsys_count; |
| 27 for (unsigned i = 0; i < script_count; ++i) { |
| 28 if (!out->WriteU32(kFakeTag) || |
| 29 !out->WriteU16(script_record_end + i * script_table_size)) { |
| 30 return false; |
| 31 } |
| 32 } |
| 33 |
| 34 // Offsets to LangSys tables are measured from the beginning of each |
| 35 // script table. |
| 36 const off_t langsys_record_end = 4 + kLangSysRecordSize * langsys_count; |
| 37 const size_t langsys_table_size = 6 + 2 * feature_count; |
| 38 // Write Fake Script tables. |
| 39 for (unsigned i = 0; i < script_count; ++i) { |
| 40 if (!out->WriteU16(0x0000) || |
| 41 !out->WriteU16(langsys_count)) { |
| 42 return false; |
| 43 } |
| 44 for (unsigned j = 0; j < langsys_count; ++j) { |
| 45 if (!out->WriteU32(kFakeTag) || |
| 46 !out->WriteU16(langsys_record_end + j * langsys_table_size)) { |
| 47 return false; |
| 48 } |
| 49 } |
| 50 } |
| 51 |
| 52 // Write Fake LangSys tables. |
| 53 for (unsigned i = 0; i < langsys_count; ++i) { |
| 54 if (!out->WriteU16(0x0000) || |
| 55 !out->WriteU16(0xFFFF) || |
| 56 !out->WriteU16(feature_count)) { |
| 57 return false; |
| 58 } |
| 59 for (unsigned j = 0; j < feature_count; ++j) { |
| 60 if (!out->WriteU16(j)) { |
| 61 return false; |
| 62 } |
| 63 } |
| 64 } |
| 65 return true; |
| 66 } |
| 67 |
| 68 const size_t kFeatureRecordSize = 6; |
| 69 |
| 70 bool BuildFakeFeatureListTable(ots::OTSStream *out, |
| 71 const uint16_t feature_count, |
| 72 const uint16_t lookup_count) { |
| 73 if (!out->WriteU16(feature_count)) { |
| 74 return false; |
| 75 } |
| 76 const off_t feature_record_end = out->Tell() + |
| 77 kFeatureRecordSize * feature_count; |
| 78 const size_t feature_table_size = 4 + 2 * lookup_count; |
| 79 for (unsigned i = 0; i < feature_count; ++i) { |
| 80 if (!out->WriteU32(kFakeTag) || |
| 81 !out->WriteU16(feature_record_end + i * feature_table_size)) { |
| 82 return false; |
| 83 } |
| 84 } |
| 85 |
| 86 // Write FeatureTable |
| 87 for (unsigned i = 0; i < feature_count; ++i) { |
| 88 if (!out->WriteU16(0x0000) || |
| 89 !out->WriteU16(lookup_count)) { |
| 90 return false; |
| 91 } |
| 92 for (uint16_t j = 0; j < lookup_count; ++j) { |
| 93 if (!out->WriteU16(j)) { |
| 94 return false; |
| 95 } |
| 96 } |
| 97 } |
| 98 return true; |
| 99 } |
| 100 |
| 101 bool BuildFakeLookupListTable(ots::OTSStream *out, const uint16_t lookup_count, |
| 102 const uint16_t subtable_count) { |
| 103 if (!out->WriteU16(lookup_count)) { |
| 104 return false; |
| 105 } |
| 106 const off_t base_offset_lookup = out->Tell(); |
| 107 if (!out->Pad(2 * lookup_count)) { |
| 108 return false; |
| 109 } |
| 110 |
| 111 std::vector<off_t> offsets_lookup(lookup_count, 0); |
| 112 for (uint16_t i = 0; i < lookup_count; ++i) { |
| 113 offsets_lookup[i] = out->Tell(); |
| 114 if (!out->WriteU16(i + 1) || |
| 115 !out->WriteU16(0) || |
| 116 !out->WriteU16(subtable_count) || |
| 117 !out->Pad(2 * subtable_count) || |
| 118 !out->WriteU16(0)) { |
| 119 return false; |
| 120 } |
| 121 } |
| 122 |
| 123 const off_t offset_lookup_table_end = out->Tell(); |
| 124 // Allocate 256 bytes for each subtable. |
| 125 if (!out->Pad(256 * lookup_count * subtable_count)) { |
| 126 return false; |
| 127 } |
| 128 |
| 129 if (!out->Seek(base_offset_lookup)) { |
| 130 return false; |
| 131 } |
| 132 for (unsigned i = 0; i < lookup_count; ++i) { |
| 133 if (!out->WriteU16(offsets_lookup[i])) { |
| 134 return false; |
| 135 } |
| 136 } |
| 137 |
| 138 for (unsigned i = 0; i < lookup_count; ++i) { |
| 139 if (!out->Seek(offsets_lookup[i] + 6)) { |
| 140 return false; |
| 141 } |
| 142 for (unsigned j = 0; j < subtable_count; ++j) { |
| 143 if (!out->WriteU16(offset_lookup_table_end + |
| 144 256*i*subtable_count + 256*j)) { |
| 145 return false; |
| 146 } |
| 147 } |
| 148 } |
| 149 return true; |
| 150 } |
| 151 |
| 152 bool BuildFakeCoverageFormat1(ots::OTSStream *out, const uint16_t glyph_count) { |
| 153 if (!out->WriteU16(1) || !out->WriteU16(glyph_count)) { |
| 154 return false; |
| 155 } |
| 156 for (uint16_t glyph_id = 1; glyph_id <= glyph_count; ++glyph_id) { |
| 157 if (!out->WriteU16(glyph_id)) { |
| 158 return false; |
| 159 } |
| 160 } |
| 161 return true; |
| 162 } |
| 163 |
| 164 bool BuildFakeCoverageFormat2(ots::OTSStream *out, const uint16_t range_count) { |
| 165 if (!out->WriteU16(2) || !out->WriteU16(range_count)) { |
| 166 return false; |
| 167 } |
| 168 uint16_t glyph_id = 1; |
| 169 uint16_t start_coverage_index = 0; |
| 170 for (unsigned i = 0; i < range_count; ++i) { |
| 171 // Write consecutive ranges in which each range consists of two glyph id. |
| 172 if (!out->WriteU16(glyph_id) || |
| 173 !out->WriteU16(glyph_id + 1) || |
| 174 !out->WriteU16(start_coverage_index)) { |
| 175 return false; |
| 176 } |
| 177 glyph_id += 2; |
| 178 start_coverage_index += 2; |
| 179 } |
| 180 return true; |
| 181 } |
| 182 |
| 183 bool BuildFakeClassDefFormat1(ots::OTSStream *out, const uint16_t glyph_count) { |
| 184 if (!out->WriteU16(1) || |
| 185 !out->WriteU16(1) || |
| 186 !out->WriteU16(glyph_count)) { |
| 187 return false; |
| 188 } |
| 189 for (uint16_t class_value = 1; class_value <= glyph_count; ++class_value) { |
| 190 if (!out->WriteU16(class_value)) { |
| 191 return false; |
| 192 } |
| 193 } |
| 194 return true; |
| 195 } |
| 196 |
| 197 bool BuildFakeClassDefFormat2(ots::OTSStream *out, const uint16_t range_count) { |
| 198 if (!out->WriteU16(2) || !out->WriteU16(range_count)) { |
| 199 return false; |
| 200 } |
| 201 uint16_t glyph_id = 1; |
| 202 for (uint16_t class_value = 1; class_value <= range_count; ++class_value) { |
| 203 // Write consecutive ranges in which each range consists of one glyph id. |
| 204 if (!out->WriteU16(glyph_id) || |
| 205 !out->WriteU16(glyph_id + 1) || |
| 206 !out->WriteU16(class_value)) { |
| 207 return false; |
| 208 } |
| 209 glyph_id += 2; |
| 210 } |
| 211 return true; |
| 212 } |
| 213 |
| 214 bool BuildFakeDeviceTable(ots::OTSStream *out, const uint16_t start_size, |
| 215 const uint16_t end_size, const uint16_t format) { |
| 216 if (!out->WriteU16(start_size) || |
| 217 !out->WriteU16(end_size) || |
| 218 !out->WriteU16(format)) { |
| 219 return false; |
| 220 } |
| 221 |
| 222 const unsigned num_values = std::abs(end_size - start_size) + 1; |
| 223 const unsigned num_bits = (1 << format) * num_values; |
| 224 const unsigned num_units = (num_bits - 1) / 16 + 1; |
| 225 if (!out->Pad(num_units * 2)) { |
| 226 return false; |
| 227 } |
| 228 return true; |
| 229 } |
| 230 |
| 231 class TestStream : public ots::MemoryStream { |
| 232 public: |
| 233 TestStream() |
| 234 : ots::MemoryStream(data_, sizeof(data_)), size_(0) { |
| 235 std::memset(reinterpret_cast<char*>(data_), 0, sizeof(data_)); |
| 236 } |
| 237 |
| 238 uint8_t* data() { return data_; } |
| 239 size_t size() const { return size_; } |
| 240 |
| 241 virtual bool WriteRaw(const void *d, size_t length) { |
| 242 if (Tell() + length > size_) { |
| 243 size_ = Tell() + length; |
| 244 } |
| 245 return ots::MemoryStream::WriteRaw(d, length); |
| 246 } |
| 247 |
| 248 private: |
| 249 size_t size_; |
| 250 uint8_t data_[4096]; |
| 251 }; |
| 252 |
| 253 class TableTest : public ::testing::Test { |
| 254 protected: |
| 255 |
| 256 virtual void SetUp() { |
| 257 file = new ots::OpenTypeFile(); |
| 258 file->context = new ots::OTSContext(); |
| 259 } |
| 260 |
| 261 TestStream out; |
| 262 ots::OpenTypeFile *file; |
| 263 }; |
| 264 |
| 265 class ScriptListTableTest : public TableTest { }; |
| 266 class DeviceTableTest : public TableTest { }; |
| 267 class CoverageTableTest : public TableTest { }; |
| 268 class CoverageFormat1Test : public TableTest { }; |
| 269 class CoverageFormat2Test : public TableTest { }; |
| 270 class ClassDefTableTest : public TableTest { }; |
| 271 class ClassDefFormat1Test : public TableTest { }; |
| 272 class ClassDefFormat2Test : public TableTest { }; |
| 273 class LookupSubtableParserTest : public TableTest { }; |
| 274 |
| 275 class FeatureListTableTest : public TableTest { |
| 276 protected: |
| 277 |
| 278 virtual void SetUp() { |
| 279 num_features = 0; |
| 280 } |
| 281 |
| 282 uint16_t num_features; |
| 283 }; |
| 284 |
| 285 bool fakeTypeParserReturnsTrue(const ots::OpenTypeFile*, const uint8_t *, |
| 286 const size_t) { |
| 287 return true; |
| 288 } |
| 289 |
| 290 bool fakeTypeParserReturnsFalse(const ots::OpenTypeFile*, const uint8_t *, |
| 291 const size_t) { |
| 292 return false; |
| 293 } |
| 294 |
| 295 const ots::LookupSubtableParser::TypeParser TypeParsersReturnTrue[] = { |
| 296 {1, fakeTypeParserReturnsTrue}, |
| 297 {2, fakeTypeParserReturnsTrue}, |
| 298 {3, fakeTypeParserReturnsTrue}, |
| 299 {4, fakeTypeParserReturnsTrue}, |
| 300 {5, fakeTypeParserReturnsTrue} |
| 301 }; |
| 302 |
| 303 // Fake lookup subtable parser which always returns true. |
| 304 const ots::LookupSubtableParser FakeLookupParserReturnsTrue = { |
| 305 5, 5, TypeParsersReturnTrue, |
| 306 }; |
| 307 |
| 308 const ots::LookupSubtableParser::TypeParser TypeParsersReturnFalse[] = { |
| 309 {1, fakeTypeParserReturnsFalse} |
| 310 }; |
| 311 |
| 312 // Fake lookup subtable parser which always returns false. |
| 313 const ots::LookupSubtableParser FakeLookupParserReturnsFalse = { |
| 314 1, 1, TypeParsersReturnFalse |
| 315 }; |
| 316 |
| 317 class LookupListTableTest : public TableTest { |
| 318 protected: |
| 319 |
| 320 virtual void SetUp() { |
| 321 num_lookups = 0; |
| 322 } |
| 323 |
| 324 bool Parse() { |
| 325 return ots::ParseLookupListTable(file, out.data(), out.size(), |
| 326 &FakeLookupParserReturnsTrue, |
| 327 &num_lookups); |
| 328 } |
| 329 |
| 330 uint16_t num_lookups; |
| 331 }; |
| 332 |
| 333 } // namespace |
| 334 |
| 335 TEST_F(ScriptListTableTest, TestSuccess) { |
| 336 BuildFakeScriptListTable(&out, 1, 1, 1); |
| 337 EXPECT_TRUE(ots::ParseScriptListTable(file, out.data(), out.size(), 1)); |
| 338 } |
| 339 |
| 340 TEST_F(ScriptListTableTest, TestBadScriptCount) { |
| 341 BuildFakeScriptListTable(&out, 1, 1, 1); |
| 342 // Set too large script count. |
| 343 out.Seek(0); |
| 344 out.WriteU16(2); |
| 345 EXPECT_FALSE(ots::ParseScriptListTable(file, out.data(), out.size(), 1)); |
| 346 } |
| 347 |
| 348 TEST_F(ScriptListTableTest, TestScriptRecordOffsetUnderflow) { |
| 349 BuildFakeScriptListTable(&out, 1, 1, 1); |
| 350 // Set bad offset to ScriptRecord[0]. |
| 351 out.Seek(6); |
| 352 out.WriteU16(0); |
| 353 EXPECT_FALSE(ots::ParseScriptListTable(file, out.data(), out.size(), 1)); |
| 354 } |
| 355 |
| 356 TEST_F(ScriptListTableTest, TestScriptRecordOffsetOverflow) { |
| 357 BuildFakeScriptListTable(&out, 1, 1, 1); |
| 358 // Set bad offset to ScriptRecord[0]. |
| 359 out.Seek(6); |
| 360 out.WriteU16(out.size()); |
| 361 EXPECT_FALSE(ots::ParseScriptListTable(file, out.data(), out.size(), 1)); |
| 362 } |
| 363 |
| 364 TEST_F(ScriptListTableTest, TestBadLangSysCount) { |
| 365 BuildFakeScriptListTable(&out, 1, 1, 1); |
| 366 // Set too large langsys count. |
| 367 out.Seek(10); |
| 368 out.WriteU16(2); |
| 369 EXPECT_FALSE(ots::ParseScriptListTable(file, out.data(), out.size(), 1)); |
| 370 } |
| 371 |
| 372 TEST_F(ScriptListTableTest, TestLangSysRecordOffsetUnderflow) { |
| 373 BuildFakeScriptListTable(&out, 1, 1, 1); |
| 374 // Set bad offset to LangSysRecord[0]. |
| 375 out.Seek(16); |
| 376 out.WriteU16(0); |
| 377 EXPECT_FALSE(ots::ParseScriptListTable(file, out.data(), out.size(), 1)); |
| 378 } |
| 379 |
| 380 TEST_F(ScriptListTableTest, TestLangSysRecordOffsetOverflow) { |
| 381 BuildFakeScriptListTable(&out, 1, 1, 1); |
| 382 // Set bad offset to LangSysRecord[0]. |
| 383 out.Seek(16); |
| 384 out.WriteU16(out.size()); |
| 385 EXPECT_FALSE(ots::ParseScriptListTable(file, out.data(), out.size(), 1)); |
| 386 } |
| 387 |
| 388 TEST_F(ScriptListTableTest, TestBadReqFeatureIndex) { |
| 389 BuildFakeScriptListTable(&out, 1, 1, 1); |
| 390 // Set too large feature index to ReqFeatureIndex of LangSysTable[0]. |
| 391 out.Seek(20); |
| 392 out.WriteU16(2); |
| 393 EXPECT_FALSE(ots::ParseScriptListTable(file, out.data(), out.size(), 1)); |
| 394 } |
| 395 |
| 396 TEST_F(ScriptListTableTest, TestBadFeatureCount) { |
| 397 BuildFakeScriptListTable(&out, 1, 1, 1); |
| 398 // Set too large feature count to LangSysTable[0]. |
| 399 out.Seek(22); |
| 400 out.WriteU16(2); |
| 401 EXPECT_FALSE(ots::ParseScriptListTable(file, out.data(), out.size(), 1)); |
| 402 } |
| 403 |
| 404 TEST_F(ScriptListTableTest, TestBadFeatureIndex) { |
| 405 BuildFakeScriptListTable(&out, 1, 1, 1); |
| 406 // Set too large feature index to ReatureIndex[0] of LangSysTable[0]. |
| 407 out.Seek(24); |
| 408 out.WriteU16(2); |
| 409 EXPECT_FALSE(ots::ParseScriptListTable(file, out.data(), out.size(), 1)); |
| 410 } |
| 411 |
| 412 TEST_F(FeatureListTableTest, TestSuccess) { |
| 413 BuildFakeFeatureListTable(&out, 1, 1); |
| 414 EXPECT_TRUE(ots::ParseFeatureListTable(file, out.data(), out.size(), 1, |
| 415 &num_features)); |
| 416 EXPECT_EQ(num_features, 1); |
| 417 } |
| 418 |
| 419 TEST_F(FeatureListTableTest, TestSuccess2) { |
| 420 BuildFakeFeatureListTable(&out, 5, 1); |
| 421 EXPECT_TRUE(ots::ParseFeatureListTable(file, out.data(), out.size(), 1, |
| 422 &num_features)); |
| 423 EXPECT_EQ(num_features, 5); |
| 424 } |
| 425 |
| 426 TEST_F(FeatureListTableTest, TestBadFeatureCount) { |
| 427 BuildFakeFeatureListTable(&out, 1, 1); |
| 428 // Set too large feature count. |
| 429 out.Seek(0); |
| 430 out.WriteU16(2); |
| 431 EXPECT_FALSE(ots::ParseFeatureListTable(file, out.data(), out.size(), 1, |
| 432 &num_features)); |
| 433 } |
| 434 |
| 435 TEST_F(FeatureListTableTest, TestOffsetFeatureUnderflow) { |
| 436 BuildFakeFeatureListTable(&out, 1, 1); |
| 437 // Set bad offset to FeatureRecord[0]. |
| 438 out.Seek(6); |
| 439 out.WriteU16(0); |
| 440 EXPECT_FALSE(ots::ParseFeatureListTable(file, out.data(), out.size(), 1, |
| 441 &num_features)); |
| 442 } |
| 443 |
| 444 TEST_F(FeatureListTableTest, TestOffsetFeatureOverflow) { |
| 445 BuildFakeFeatureListTable(&out, 1, 1); |
| 446 // Set bad offset to FeatureRecord[0]. |
| 447 out.Seek(6); |
| 448 out.WriteU16(out.size()); |
| 449 EXPECT_FALSE(ots::ParseFeatureListTable(file, out.data(), out.size(), 1, |
| 450 &num_features)); |
| 451 } |
| 452 |
| 453 TEST_F(FeatureListTableTest, TestBadLookupCount) { |
| 454 BuildFakeFeatureListTable(&out, 1, 1); |
| 455 // Set too large lookup count to FeatureTable[0]. |
| 456 out.Seek(10); |
| 457 out.WriteU16(2); |
| 458 EXPECT_FALSE(ots::ParseFeatureListTable(file, out.data(), out.size(), 1, |
| 459 &num_features)); |
| 460 } |
| 461 |
| 462 TEST_F(LookupListTableTest, TestSuccess) { |
| 463 BuildFakeLookupListTable(&out, 1, 1); |
| 464 EXPECT_TRUE(Parse()); |
| 465 EXPECT_EQ(num_lookups, 1); |
| 466 } |
| 467 |
| 468 TEST_F(LookupListTableTest, TestSuccess2) { |
| 469 BuildFakeLookupListTable(&out, 5, 1); |
| 470 EXPECT_TRUE(Parse()); |
| 471 EXPECT_EQ(num_lookups, 5); |
| 472 } |
| 473 |
| 474 TEST_F(LookupListTableTest, TestOffsetLookupTableUnderflow) { |
| 475 BuildFakeLookupListTable(&out, 1, 1); |
| 476 // Set bad offset to Lookup[0]. |
| 477 out.Seek(2); |
| 478 out.WriteU16(0); |
| 479 EXPECT_FALSE(Parse()); |
| 480 } |
| 481 |
| 482 TEST_F(LookupListTableTest, TestOffsetLookupTableOverflow) { |
| 483 BuildFakeLookupListTable(&out, 1, 1); |
| 484 // Set bad offset to Lookup[0]. |
| 485 out.Seek(2); |
| 486 out.WriteU16(out.size()); |
| 487 EXPECT_FALSE(Parse()); |
| 488 } |
| 489 |
| 490 TEST_F(LookupListTableTest, TestOffsetSubtableUnderflow) { |
| 491 BuildFakeLookupListTable(&out, 1, 1); |
| 492 // Set bad offset to SubTable[0] of LookupTable[0]. |
| 493 out.Seek(10); |
| 494 out.WriteU16(0); |
| 495 EXPECT_FALSE(Parse()); |
| 496 } |
| 497 |
| 498 TEST_F(LookupListTableTest, TestOffsetSubtableOverflow) { |
| 499 BuildFakeLookupListTable(&out, 1, 1); |
| 500 // Set bad offset to SubTable[0] of LookupTable[0]. |
| 501 out.Seek(10); |
| 502 out.WriteU16(out.size()); |
| 503 EXPECT_FALSE(Parse()); |
| 504 } |
| 505 |
| 506 TEST_F(LookupListTableTest, TesBadLookupCount) { |
| 507 BuildFakeLookupListTable(&out, 1, 1); |
| 508 // Set too large lookup count of LookupTable[0]. |
| 509 out.Seek(0); |
| 510 out.WriteU16(2); |
| 511 EXPECT_FALSE(Parse()); |
| 512 } |
| 513 |
| 514 TEST_F(LookupListTableTest, TesBadLookupType) { |
| 515 BuildFakeLookupListTable(&out, 1, 1); |
| 516 // Set too large lookup type of LookupTable[0]. |
| 517 out.Seek(4); |
| 518 out.WriteU16(6); |
| 519 EXPECT_FALSE(Parse()); |
| 520 } |
| 521 |
| 522 TEST_F(LookupListTableTest, TesBadLookupFlag) { |
| 523 BuildFakeLookupListTable(&out, 1, 1); |
| 524 // Set IgnoreBaseGlyphs(0x0002) to the lookup flag of LookupTable[0]. |
| 525 out.Seek(6); |
| 526 out.WriteU16(0x0002); |
| 527 EXPECT_FALSE(Parse()); |
| 528 } |
| 529 |
| 530 TEST_F(LookupListTableTest, TesBadSubtableCount) { |
| 531 BuildFakeLookupListTable(&out, 1, 1); |
| 532 // Set too large sutable count of LookupTable[0]. |
| 533 out.Seek(8); |
| 534 out.WriteU16(2); |
| 535 EXPECT_FALSE(Parse()); |
| 536 } |
| 537 |
| 538 TEST_F(CoverageTableTest, TestSuccessFormat1) { |
| 539 BuildFakeCoverageFormat1(&out, 1); |
| 540 EXPECT_TRUE(ots::ParseCoverageTable(file, out.data(), out.size(), 1)); |
| 541 } |
| 542 |
| 543 TEST_F(CoverageTableTest, TestSuccessFormat2) { |
| 544 BuildFakeCoverageFormat2(&out, 1); |
| 545 EXPECT_TRUE(ots::ParseCoverageTable(file, out.data(), out.size(), 1)); |
| 546 } |
| 547 |
| 548 TEST_F(CoverageTableTest, TestBadFormat) { |
| 549 BuildFakeCoverageFormat1(&out, 1); |
| 550 // Set bad format. |
| 551 out.Seek(0); |
| 552 out.WriteU16(3); |
| 553 EXPECT_FALSE(ots::ParseCoverageTable(file, out.data(), out.size(), 1)); |
| 554 } |
| 555 |
| 556 TEST_F(CoverageFormat1Test, TestBadGlyphCount) { |
| 557 BuildFakeCoverageFormat1(&out, 1); |
| 558 // Set too large glyph count. |
| 559 out.Seek(2); |
| 560 out.WriteU16(2); |
| 561 EXPECT_FALSE(ots::ParseCoverageTable(file, out.data(), out.size(), 1)); |
| 562 } |
| 563 |
| 564 TEST_F(CoverageFormat1Test, TestBadGlyphId) { |
| 565 BuildFakeCoverageFormat1(&out, 1); |
| 566 // Set too large glyph id. |
| 567 out.Seek(4); |
| 568 out.WriteU16(2); |
| 569 EXPECT_FALSE(ots::ParseCoverageTable(file, out.data(), out.size(), 1)); |
| 570 } |
| 571 |
| 572 TEST_F(CoverageFormat2Test, TestBadRangeCount) { |
| 573 BuildFakeCoverageFormat2(&out, 1); |
| 574 // Set too large range count. |
| 575 out.Seek(2); |
| 576 out.WriteU16(2); |
| 577 EXPECT_FALSE(ots::ParseCoverageTable(file, out.data(), out.size(), 1)); |
| 578 } |
| 579 |
| 580 TEST_F(CoverageFormat2Test, TestBadRange) { |
| 581 BuildFakeCoverageFormat2(&out, 1); |
| 582 // Set reverse order glyph id to start/end fields. |
| 583 out.Seek(4); |
| 584 out.WriteU16(2); |
| 585 out.WriteU16(1); |
| 586 EXPECT_FALSE(ots::ParseCoverageTable(file, out.data(), out.size(), 1)); |
| 587 } |
| 588 |
| 589 TEST_F(CoverageFormat2Test, TestRangeOverlap) { |
| 590 BuildFakeCoverageFormat2(&out, 2); |
| 591 // Set overlapping glyph id to an end field. |
| 592 out.Seek(12); |
| 593 out.WriteU16(1); |
| 594 EXPECT_FALSE(ots::ParseCoverageTable(file, out.data(), out.size(), 2)); |
| 595 } |
| 596 |
| 597 TEST_F(CoverageFormat2Test, TestRangeOverlap2) { |
| 598 BuildFakeCoverageFormat2(&out, 2); |
| 599 // Set overlapping range. |
| 600 out.Seek(10); |
| 601 out.WriteU16(1); |
| 602 out.WriteU16(2); |
| 603 EXPECT_FALSE(ots::ParseCoverageTable(file, out.data(), out.size(), 2)); |
| 604 } |
| 605 |
| 606 TEST_F(ClassDefTableTest, TestSuccessFormat1) { |
| 607 BuildFakeClassDefFormat1(&out, 1); |
| 608 EXPECT_TRUE(ots::ParseClassDefTable(file, out.data(), out.size(), 1, 1)); |
| 609 } |
| 610 |
| 611 TEST_F(ClassDefTableTest, TestSuccessFormat2) { |
| 612 BuildFakeClassDefFormat2(&out, 1); |
| 613 EXPECT_TRUE(ots::ParseClassDefTable(file, out.data(), out.size(), 1, 1)); |
| 614 } |
| 615 |
| 616 TEST_F(ClassDefTableTest, TestBadFormat) { |
| 617 BuildFakeClassDefFormat1(&out, 1); |
| 618 // Set bad format. |
| 619 out.Seek(0); |
| 620 out.WriteU16(3); |
| 621 EXPECT_FALSE(ots::ParseClassDefTable(file, out.data(), out.size(), 1, 1)); |
| 622 } |
| 623 |
| 624 TEST_F(ClassDefFormat1Test, TestBadStartGlyph) { |
| 625 BuildFakeClassDefFormat1(&out, 1); |
| 626 // Set too large start glyph id. |
| 627 out.Seek(2); |
| 628 out.WriteU16(2); |
| 629 EXPECT_FALSE(ots::ParseClassDefTable(file, out.data(), out.size(), 1, 1)); |
| 630 } |
| 631 |
| 632 TEST_F(ClassDefFormat1Test, TestBadGlyphCount) { |
| 633 BuildFakeClassDefFormat1(&out, 1); |
| 634 // Set too large glyph count. |
| 635 out.Seek(4); |
| 636 out.WriteU16(2); |
| 637 EXPECT_FALSE(ots::ParseClassDefTable(file, out.data(), out.size(), 1, 1)); |
| 638 } |
| 639 |
| 640 TEST_F(ClassDefFormat1Test, TestBadClassValue) { |
| 641 BuildFakeClassDefFormat1(&out, 1); |
| 642 // Set too large class value. |
| 643 out.Seek(6); |
| 644 out.WriteU16(2); |
| 645 EXPECT_FALSE(ots::ParseClassDefTable(file, out.data(), out.size(), 1, 1)); |
| 646 } |
| 647 |
| 648 TEST_F(ClassDefFormat2Test, TestBadRangeCount) { |
| 649 BuildFakeClassDefFormat2(&out, 1); |
| 650 // Set too large range count. |
| 651 out.Seek(2); |
| 652 out.WriteU16(2); |
| 653 EXPECT_FALSE(ots::ParseClassDefTable(file, out.data(), out.size(), 1, 1)); |
| 654 } |
| 655 |
| 656 TEST_F(ClassDefFormat2Test, TestRangeOverlap) { |
| 657 BuildFakeClassDefFormat2(&out, 2); |
| 658 // Set overlapping glyph id to an end field. |
| 659 out.Seek(12); |
| 660 out.WriteU16(1); |
| 661 EXPECT_FALSE(ots::ParseClassDefTable(file, out.data(), out.size(), 1, 1)); |
| 662 } |
| 663 |
| 664 TEST_F(ClassDefFormat2Test, TestRangeOverlap2) { |
| 665 BuildFakeClassDefFormat2(&out, 2); |
| 666 // Set overlapping range. |
| 667 out.Seek(10); |
| 668 out.WriteU16(1); |
| 669 out.WriteU16(2); |
| 670 EXPECT_FALSE(ots::ParseClassDefTable(file, out.data(), out.size(), 1, 1)); |
| 671 } |
| 672 |
| 673 TEST_F(DeviceTableTest, TestDeltaFormat1Success) { |
| 674 BuildFakeDeviceTable(&out, 1, 8, 1); |
| 675 EXPECT_TRUE(ots::ParseDeviceTable(file, out.data(), out.size())); |
| 676 } |
| 677 |
| 678 TEST_F(DeviceTableTest, TestDeltaFormat1Success2) { |
| 679 BuildFakeDeviceTable(&out, 1, 9, 1); |
| 680 EXPECT_TRUE(ots::ParseDeviceTable(file, out.data(), out.size())); |
| 681 } |
| 682 |
| 683 TEST_F(DeviceTableTest, TestDeltaFormat1Fail) { |
| 684 // Pass shorter length than expected. |
| 685 BuildFakeDeviceTable(&out, 1, 8, 1); |
| 686 EXPECT_FALSE(ots::ParseDeviceTable(file, out.data(), out.size() - 1)); |
| 687 } |
| 688 |
| 689 TEST_F(DeviceTableTest, TestDeltaFormat1Fail2) { |
| 690 // Pass shorter length than expected. |
| 691 BuildFakeDeviceTable(&out, 1, 9, 1); |
| 692 EXPECT_FALSE(ots::ParseDeviceTable(file, out.data(), out.size() - 1)); |
| 693 } |
| 694 |
| 695 TEST_F(DeviceTableTest, TestDeltaFormat2Success) { |
| 696 BuildFakeDeviceTable(&out, 1, 1, 2); |
| 697 EXPECT_TRUE(ots::ParseDeviceTable(file, out.data(), out.size())); |
| 698 } |
| 699 |
| 700 TEST_F(DeviceTableTest, TestDeltaFormat2Success2) { |
| 701 BuildFakeDeviceTable(&out, 1, 8, 2); |
| 702 EXPECT_TRUE(ots::ParseDeviceTable(file, out.data(), out.size())); |
| 703 } |
| 704 |
| 705 TEST_F(DeviceTableTest, TestDeltaFormat2Fail) { |
| 706 // Pass shorter length than expected. |
| 707 BuildFakeDeviceTable(&out, 1, 8, 2); |
| 708 EXPECT_FALSE(ots::ParseDeviceTable(file, out.data(), out.size() - 1)); |
| 709 } |
| 710 |
| 711 TEST_F(DeviceTableTest, TestDeltaFormat2Fail2) { |
| 712 // Pass shorter length than expected. |
| 713 BuildFakeDeviceTable(&out, 1, 9, 2); |
| 714 EXPECT_FALSE(ots::ParseDeviceTable(file, out.data(), out.size() - 1)); |
| 715 } |
| 716 |
| 717 TEST_F(DeviceTableTest, TestDeltaFormat3Success) { |
| 718 BuildFakeDeviceTable(&out, 1, 1, 3); |
| 719 EXPECT_TRUE(ots::ParseDeviceTable(file, out.data(), out.size())); |
| 720 } |
| 721 |
| 722 TEST_F(DeviceTableTest, TestDeltaFormat3Success2) { |
| 723 BuildFakeDeviceTable(&out, 1, 8, 3); |
| 724 EXPECT_TRUE(ots::ParseDeviceTable(file, out.data(), out.size())); |
| 725 } |
| 726 |
| 727 TEST_F(DeviceTableTest, TestDeltaFormat3Fail) { |
| 728 // Pass shorter length than expected. |
| 729 BuildFakeDeviceTable(&out, 1, 8, 3); |
| 730 EXPECT_FALSE(ots::ParseDeviceTable(file, out.data(), out.size() - 1)); |
| 731 } |
| 732 |
| 733 TEST_F(DeviceTableTest, TestDeltaFormat3Fail2) { |
| 734 // Pass shorter length than expected. |
| 735 BuildFakeDeviceTable(&out, 1, 9, 3); |
| 736 EXPECT_FALSE(ots::ParseDeviceTable(file, out.data(), out.size() - 1)); |
| 737 } |
| 738 |
| 739 TEST_F(LookupSubtableParserTest, TestSuccess) { |
| 740 { |
| 741 EXPECT_TRUE(FakeLookupParserReturnsTrue.Parse(file, 0, 0, 1)); |
| 742 } |
| 743 { |
| 744 EXPECT_TRUE(FakeLookupParserReturnsTrue.Parse(file, 0, 0, 5)); |
| 745 } |
| 746 } |
| 747 |
| 748 TEST_F(LookupSubtableParserTest, TestFail) { |
| 749 { |
| 750 // Pass bad lookup type which less than the smallest type. |
| 751 EXPECT_FALSE(FakeLookupParserReturnsTrue.Parse(file, 0, 0, 0)); |
| 752 } |
| 753 { |
| 754 // Pass bad lookup type which greater than the maximum type. |
| 755 EXPECT_FALSE(FakeLookupParserReturnsTrue.Parse(file, 0, 0, 6)); |
| 756 } |
| 757 { |
| 758 // Check the type parser failure. |
| 759 EXPECT_FALSE(FakeLookupParserReturnsFalse.Parse(file, 0, 0, 1)); |
| 760 } |
| 761 } |
| OLD | NEW |
|---|
Chromium Code Reviews
Issue 658573004:
Updating to new OTS repo from https://github.com/khaledhosny/ots.git (Closed)
Base URL: https://chromium.googlesource.com/external/ots@master