1 //===- llvm/unittest/DebugInfo/DWARFDebugInfoTest.cpp ---------------------===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 9 #include "DwarfGenerator.h" 10 #include "DwarfUtils.h" 11 #include "llvm/ADT/ArrayRef.h" 12 #include "llvm/ADT/Optional.h" 13 #include "llvm/ADT/SmallString.h" 14 #include "llvm/ADT/StringRef.h" 15 #include "llvm/ADT/Triple.h" 16 #include "llvm/BinaryFormat/Dwarf.h" 17 #include "llvm/CodeGen/AsmPrinter.h" 18 #include "llvm/DebugInfo/DWARF/DWARFCompileUnit.h" 19 #include "llvm/DebugInfo/DWARF/DWARFContext.h" 20 #include "llvm/DebugInfo/DWARF/DWARFDie.h" 21 #include "llvm/DebugInfo/DWARF/DWARFFormValue.h" 22 #include "llvm/DebugInfo/DWARF/DWARFVerifier.h" 23 #include "llvm/MC/MCContext.h" 24 #include "llvm/MC/MCSectionELF.h" 25 #include "llvm/MC/MCStreamer.h" 26 #include "llvm/Object/ObjectFile.h" 27 #include "llvm/ObjectYAML/DWARFEmitter.h" 28 #include "llvm/Support/Error.h" 29 #include "llvm/Support/MemoryBuffer.h" 30 #include "llvm/Support/TargetRegistry.h" 31 #include "llvm/Support/TargetSelect.h" 32 #include "llvm/Testing/Support/Error.h" 33 #include "gtest/gtest.h" 34 #include <string> 35 36 using namespace llvm; 37 using namespace dwarf; 38 using namespace utils; 39 40 namespace { 41 42 template <uint16_t Version, class AddrType, class RefAddrType> 43 void TestAllForms() { 44 Triple Triple = getDefaultTargetTripleForAddrSize(sizeof(AddrType)); 45 if (!isConfigurationSupported(Triple)) 46 return; 47 48 // Test that we can decode all DW_FORM values correctly. 49 const AddrType AddrValue = (AddrType)0x0123456789abcdefULL; 50 const uint8_t BlockData[] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 0}; 51 const uint32_t BlockSize = sizeof(BlockData); 52 const RefAddrType RefAddr = 0x12345678; 53 const uint8_t Data1 = 0x01U; 54 const uint16_t Data2 = 0x2345U; 55 const uint32_t Data4 = 0x6789abcdU; 56 const uint64_t Data8 = 0x0011223344556677ULL; 57 const uint64_t Data8_2 = 0xAABBCCDDEEFF0011ULL; 58 const uint8_t Data16[16] = {1, 2, 3, 4, 5, 6, 7, 8, 59 9, 10, 11, 12, 13, 14, 15, 16}; 60 const int64_t SData = INT64_MIN; 61 const int64_t ICSData = INT64_MAX; // DW_FORM_implicit_const SData 62 const uint64_t UData[] = {UINT64_MAX - 1, UINT64_MAX - 2, UINT64_MAX - 3, 63 UINT64_MAX - 4, UINT64_MAX - 5, UINT64_MAX - 6, 64 UINT64_MAX - 7, UINT64_MAX - 8, UINT64_MAX - 9}; 65 #define UDATA_1 18446744073709551614ULL 66 const uint32_t Dwarf32Values[] = {1, 2, 3, 4, 5, 6, 7, 8}; 67 const char *StringValue = "Hello"; 68 const char *StrpValue = "World"; 69 const char *StrxValue = "Indexed"; 70 const char *Strx1Value = "Indexed1"; 71 const char *Strx2Value = "Indexed2"; 72 const char *Strx3Value = "Indexed3"; 73 const char *Strx4Value = "Indexed4"; 74 75 auto ExpectedDG = dwarfgen::Generator::create(Triple, Version); 76 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 77 dwarfgen::Generator *DG = ExpectedDG.get().get(); 78 dwarfgen::CompileUnit &CU = DG->addCompileUnit(); 79 dwarfgen::DIE CUDie = CU.getUnitDIE(); 80 81 if (Version >= 5) 82 CUDie.addStrOffsetsBaseAttribute(); 83 84 uint16_t Attr = DW_AT_lo_user; 85 86 //---------------------------------------------------------------------- 87 // Test address forms 88 //---------------------------------------------------------------------- 89 const auto Attr_DW_FORM_addr = static_cast<dwarf::Attribute>(Attr++); 90 CUDie.addAttribute(Attr_DW_FORM_addr, DW_FORM_addr, AddrValue); 91 92 //---------------------------------------------------------------------- 93 // Test block forms 94 //---------------------------------------------------------------------- 95 const auto Attr_DW_FORM_block = static_cast<dwarf::Attribute>(Attr++); 96 CUDie.addAttribute(Attr_DW_FORM_block, DW_FORM_block, BlockData, BlockSize); 97 98 const auto Attr_DW_FORM_block1 = static_cast<dwarf::Attribute>(Attr++); 99 CUDie.addAttribute(Attr_DW_FORM_block1, DW_FORM_block1, BlockData, BlockSize); 100 101 const auto Attr_DW_FORM_block2 = static_cast<dwarf::Attribute>(Attr++); 102 CUDie.addAttribute(Attr_DW_FORM_block2, DW_FORM_block2, BlockData, BlockSize); 103 104 const auto Attr_DW_FORM_block4 = static_cast<dwarf::Attribute>(Attr++); 105 CUDie.addAttribute(Attr_DW_FORM_block4, DW_FORM_block4, BlockData, BlockSize); 106 107 // We handle data16 as a block form. 108 const auto Attr_DW_FORM_data16 = static_cast<dwarf::Attribute>(Attr++); 109 if (Version >= 5) 110 CUDie.addAttribute(Attr_DW_FORM_data16, DW_FORM_data16, Data16, 16); 111 112 //---------------------------------------------------------------------- 113 // Test data forms 114 //---------------------------------------------------------------------- 115 const auto Attr_DW_FORM_data1 = static_cast<dwarf::Attribute>(Attr++); 116 CUDie.addAttribute(Attr_DW_FORM_data1, DW_FORM_data1, Data1); 117 118 const auto Attr_DW_FORM_data2 = static_cast<dwarf::Attribute>(Attr++); 119 CUDie.addAttribute(Attr_DW_FORM_data2, DW_FORM_data2, Data2); 120 121 const auto Attr_DW_FORM_data4 = static_cast<dwarf::Attribute>(Attr++); 122 CUDie.addAttribute(Attr_DW_FORM_data4, DW_FORM_data4, Data4); 123 124 const auto Attr_DW_FORM_data8 = static_cast<dwarf::Attribute>(Attr++); 125 CUDie.addAttribute(Attr_DW_FORM_data8, DW_FORM_data8, Data8); 126 127 //---------------------------------------------------------------------- 128 // Test string forms 129 //---------------------------------------------------------------------- 130 const auto Attr_DW_FORM_string = static_cast<dwarf::Attribute>(Attr++); 131 CUDie.addAttribute(Attr_DW_FORM_string, DW_FORM_string, StringValue); 132 133 const auto Attr_DW_FORM_strx = static_cast<dwarf::Attribute>(Attr++); 134 const auto Attr_DW_FORM_strx1 = static_cast<dwarf::Attribute>(Attr++); 135 const auto Attr_DW_FORM_strx2 = static_cast<dwarf::Attribute>(Attr++); 136 const auto Attr_DW_FORM_strx3 = static_cast<dwarf::Attribute>(Attr++); 137 const auto Attr_DW_FORM_strx4 = static_cast<dwarf::Attribute>(Attr++); 138 if (Version >= 5) { 139 CUDie.addAttribute(Attr_DW_FORM_strx, DW_FORM_strx, StrxValue); 140 CUDie.addAttribute(Attr_DW_FORM_strx1, DW_FORM_strx1, Strx1Value); 141 CUDie.addAttribute(Attr_DW_FORM_strx2, DW_FORM_strx2, Strx2Value); 142 CUDie.addAttribute(Attr_DW_FORM_strx3, DW_FORM_strx3, Strx3Value); 143 CUDie.addAttribute(Attr_DW_FORM_strx4, DW_FORM_strx4, Strx4Value); 144 } 145 146 const auto Attr_DW_FORM_strp = static_cast<dwarf::Attribute>(Attr++); 147 CUDie.addAttribute(Attr_DW_FORM_strp, DW_FORM_strp, StrpValue); 148 149 //---------------------------------------------------------------------- 150 // Test reference forms 151 //---------------------------------------------------------------------- 152 const auto Attr_DW_FORM_ref_addr = static_cast<dwarf::Attribute>(Attr++); 153 CUDie.addAttribute(Attr_DW_FORM_ref_addr, DW_FORM_ref_addr, RefAddr); 154 155 const auto Attr_DW_FORM_ref1 = static_cast<dwarf::Attribute>(Attr++); 156 CUDie.addAttribute(Attr_DW_FORM_ref1, DW_FORM_ref1, Data1); 157 158 const auto Attr_DW_FORM_ref2 = static_cast<dwarf::Attribute>(Attr++); 159 CUDie.addAttribute(Attr_DW_FORM_ref2, DW_FORM_ref2, Data2); 160 161 const auto Attr_DW_FORM_ref4 = static_cast<dwarf::Attribute>(Attr++); 162 CUDie.addAttribute(Attr_DW_FORM_ref4, DW_FORM_ref4, Data4); 163 164 const auto Attr_DW_FORM_ref8 = static_cast<dwarf::Attribute>(Attr++); 165 CUDie.addAttribute(Attr_DW_FORM_ref8, DW_FORM_ref8, Data8); 166 167 const auto Attr_DW_FORM_ref_sig8 = static_cast<dwarf::Attribute>(Attr++); 168 if (Version >= 4) 169 CUDie.addAttribute(Attr_DW_FORM_ref_sig8, DW_FORM_ref_sig8, Data8_2); 170 171 const auto Attr_DW_FORM_ref_udata = static_cast<dwarf::Attribute>(Attr++); 172 CUDie.addAttribute(Attr_DW_FORM_ref_udata, DW_FORM_ref_udata, UData[0]); 173 174 //---------------------------------------------------------------------- 175 // Test flag forms 176 //---------------------------------------------------------------------- 177 const auto Attr_DW_FORM_flag_true = static_cast<dwarf::Attribute>(Attr++); 178 CUDie.addAttribute(Attr_DW_FORM_flag_true, DW_FORM_flag, true); 179 180 const auto Attr_DW_FORM_flag_false = static_cast<dwarf::Attribute>(Attr++); 181 CUDie.addAttribute(Attr_DW_FORM_flag_false, DW_FORM_flag, false); 182 183 const auto Attr_DW_FORM_flag_present = static_cast<dwarf::Attribute>(Attr++); 184 if (Version >= 4) 185 CUDie.addAttribute(Attr_DW_FORM_flag_present, DW_FORM_flag_present); 186 187 //---------------------------------------------------------------------- 188 // Test SLEB128 based forms 189 //---------------------------------------------------------------------- 190 const auto Attr_DW_FORM_sdata = static_cast<dwarf::Attribute>(Attr++); 191 CUDie.addAttribute(Attr_DW_FORM_sdata, DW_FORM_sdata, SData); 192 193 const auto Attr_DW_FORM_implicit_const = 194 static_cast<dwarf::Attribute>(Attr++); 195 if (Version >= 5) 196 CUDie.addAttribute(Attr_DW_FORM_implicit_const, DW_FORM_implicit_const, 197 ICSData); 198 199 //---------------------------------------------------------------------- 200 // Test ULEB128 based forms 201 //---------------------------------------------------------------------- 202 const auto Attr_DW_FORM_udata = static_cast<dwarf::Attribute>(Attr++); 203 CUDie.addAttribute(Attr_DW_FORM_udata, DW_FORM_udata, UData[0]); 204 205 //---------------------------------------------------------------------- 206 // Test DWARF32/DWARF64 forms 207 //---------------------------------------------------------------------- 208 const auto Attr_DW_FORM_GNU_ref_alt = static_cast<dwarf::Attribute>(Attr++); 209 CUDie.addAttribute(Attr_DW_FORM_GNU_ref_alt, DW_FORM_GNU_ref_alt, 210 Dwarf32Values[0]); 211 212 const auto Attr_DW_FORM_sec_offset = static_cast<dwarf::Attribute>(Attr++); 213 if (Version >= 4) 214 CUDie.addAttribute(Attr_DW_FORM_sec_offset, DW_FORM_sec_offset, 215 Dwarf32Values[1]); 216 217 //---------------------------------------------------------------------- 218 // Add an address at the end to make sure we can decode this value 219 //---------------------------------------------------------------------- 220 const auto Attr_Last = static_cast<dwarf::Attribute>(Attr++); 221 CUDie.addAttribute(Attr_Last, DW_FORM_addr, AddrValue); 222 223 //---------------------------------------------------------------------- 224 // Generate the DWARF 225 //---------------------------------------------------------------------- 226 StringRef FileBytes = DG->generate(); 227 MemoryBufferRef FileBuffer(FileBytes, "dwarf"); 228 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 229 EXPECT_TRUE((bool)Obj); 230 std::unique_ptr<DWARFContext> DwarfContext = DWARFContext::create(**Obj); 231 uint32_t NumCUs = DwarfContext->getNumCompileUnits(); 232 EXPECT_EQ(NumCUs, 1u); 233 DWARFCompileUnit *U = 234 cast<DWARFCompileUnit>(DwarfContext->getUnitAtIndex(0)); 235 auto DieDG = U->getUnitDIE(false); 236 EXPECT_TRUE(DieDG.isValid()); 237 238 //---------------------------------------------------------------------- 239 // Test address forms 240 //---------------------------------------------------------------------- 241 EXPECT_EQ(AddrValue, toAddress(DieDG.find(Attr_DW_FORM_addr), 0)); 242 243 //---------------------------------------------------------------------- 244 // Test block forms 245 //---------------------------------------------------------------------- 246 Optional<DWARFFormValue> FormValue; 247 ArrayRef<uint8_t> ExtractedBlockData; 248 Optional<ArrayRef<uint8_t>> BlockDataOpt; 249 250 FormValue = DieDG.find(Attr_DW_FORM_block); 251 EXPECT_TRUE((bool)FormValue); 252 BlockDataOpt = FormValue->getAsBlock(); 253 EXPECT_TRUE(BlockDataOpt.hasValue()); 254 ExtractedBlockData = BlockDataOpt.getValue(); 255 EXPECT_EQ(ExtractedBlockData.size(), BlockSize); 256 EXPECT_TRUE(memcmp(ExtractedBlockData.data(), BlockData, BlockSize) == 0); 257 258 FormValue = DieDG.find(Attr_DW_FORM_block1); 259 EXPECT_TRUE((bool)FormValue); 260 BlockDataOpt = FormValue->getAsBlock(); 261 EXPECT_TRUE(BlockDataOpt.hasValue()); 262 ExtractedBlockData = BlockDataOpt.getValue(); 263 EXPECT_EQ(ExtractedBlockData.size(), BlockSize); 264 EXPECT_TRUE(memcmp(ExtractedBlockData.data(), BlockData, BlockSize) == 0); 265 266 FormValue = DieDG.find(Attr_DW_FORM_block2); 267 EXPECT_TRUE((bool)FormValue); 268 BlockDataOpt = FormValue->getAsBlock(); 269 EXPECT_TRUE(BlockDataOpt.hasValue()); 270 ExtractedBlockData = BlockDataOpt.getValue(); 271 EXPECT_EQ(ExtractedBlockData.size(), BlockSize); 272 EXPECT_TRUE(memcmp(ExtractedBlockData.data(), BlockData, BlockSize) == 0); 273 274 FormValue = DieDG.find(Attr_DW_FORM_block4); 275 EXPECT_TRUE((bool)FormValue); 276 BlockDataOpt = FormValue->getAsBlock(); 277 EXPECT_TRUE(BlockDataOpt.hasValue()); 278 ExtractedBlockData = BlockDataOpt.getValue(); 279 EXPECT_EQ(ExtractedBlockData.size(), BlockSize); 280 EXPECT_TRUE(memcmp(ExtractedBlockData.data(), BlockData, BlockSize) == 0); 281 282 // Data16 is handled like a block. 283 if (Version >= 5) { 284 FormValue = DieDG.find(Attr_DW_FORM_data16); 285 EXPECT_TRUE((bool)FormValue); 286 BlockDataOpt = FormValue->getAsBlock(); 287 EXPECT_TRUE(BlockDataOpt.hasValue()); 288 ExtractedBlockData = BlockDataOpt.getValue(); 289 EXPECT_EQ(ExtractedBlockData.size(), 16u); 290 EXPECT_TRUE(memcmp(ExtractedBlockData.data(), Data16, 16) == 0); 291 } 292 293 //---------------------------------------------------------------------- 294 // Test data forms 295 //---------------------------------------------------------------------- 296 EXPECT_EQ(Data1, toUnsigned(DieDG.find(Attr_DW_FORM_data1), 0)); 297 EXPECT_EQ(Data2, toUnsigned(DieDG.find(Attr_DW_FORM_data2), 0)); 298 EXPECT_EQ(Data4, toUnsigned(DieDG.find(Attr_DW_FORM_data4), 0)); 299 EXPECT_EQ(Data8, toUnsigned(DieDG.find(Attr_DW_FORM_data8), 0)); 300 301 //---------------------------------------------------------------------- 302 // Test string forms 303 //---------------------------------------------------------------------- 304 auto ExtractedStringValue = toString(DieDG.find(Attr_DW_FORM_string)); 305 EXPECT_TRUE((bool)ExtractedStringValue); 306 EXPECT_STREQ(StringValue, *ExtractedStringValue); 307 308 if (Version >= 5) { 309 auto ExtractedStrxValue = toString(DieDG.find(Attr_DW_FORM_strx)); 310 EXPECT_TRUE((bool)ExtractedStrxValue); 311 EXPECT_STREQ(StrxValue, *ExtractedStrxValue); 312 313 auto ExtractedStrx1Value = toString(DieDG.find(Attr_DW_FORM_strx1)); 314 EXPECT_TRUE((bool)ExtractedStrx1Value); 315 EXPECT_STREQ(Strx1Value, *ExtractedStrx1Value); 316 317 auto ExtractedStrx2Value = toString(DieDG.find(Attr_DW_FORM_strx2)); 318 EXPECT_TRUE((bool)ExtractedStrx2Value); 319 EXPECT_STREQ(Strx2Value, *ExtractedStrx2Value); 320 321 auto ExtractedStrx3Value = toString(DieDG.find(Attr_DW_FORM_strx3)); 322 EXPECT_TRUE((bool)ExtractedStrx3Value); 323 EXPECT_STREQ(Strx3Value, *ExtractedStrx3Value); 324 325 auto ExtractedStrx4Value = toString(DieDG.find(Attr_DW_FORM_strx4)); 326 EXPECT_TRUE((bool)ExtractedStrx4Value); 327 EXPECT_STREQ(Strx4Value, *ExtractedStrx4Value); 328 } 329 330 auto ExtractedStrpValue = toString(DieDG.find(Attr_DW_FORM_strp)); 331 EXPECT_TRUE((bool)ExtractedStrpValue); 332 EXPECT_STREQ(StrpValue, *ExtractedStrpValue); 333 334 //---------------------------------------------------------------------- 335 // Test reference forms 336 //---------------------------------------------------------------------- 337 EXPECT_EQ(RefAddr, toReference(DieDG.find(Attr_DW_FORM_ref_addr), 0)); 338 EXPECT_EQ(Data1, toReference(DieDG.find(Attr_DW_FORM_ref1), 0)); 339 EXPECT_EQ(Data2, toReference(DieDG.find(Attr_DW_FORM_ref2), 0)); 340 EXPECT_EQ(Data4, toReference(DieDG.find(Attr_DW_FORM_ref4), 0)); 341 EXPECT_EQ(Data8, toReference(DieDG.find(Attr_DW_FORM_ref8), 0)); 342 if (Version >= 4) { 343 EXPECT_EQ(Data8_2, toReference(DieDG.find(Attr_DW_FORM_ref_sig8), 0)); 344 } 345 EXPECT_EQ(UData[0], toReference(DieDG.find(Attr_DW_FORM_ref_udata), 0)); 346 347 //---------------------------------------------------------------------- 348 // Test flag forms 349 //---------------------------------------------------------------------- 350 EXPECT_EQ(1ULL, toUnsigned(DieDG.find(Attr_DW_FORM_flag_true), 0)); 351 EXPECT_EQ(0ULL, toUnsigned(DieDG.find(Attr_DW_FORM_flag_false), 1)); 352 if (Version >= 4) { 353 EXPECT_EQ(1ULL, toUnsigned(DieDG.find(Attr_DW_FORM_flag_present), 0)); 354 } 355 356 //---------------------------------------------------------------------- 357 // Test SLEB128 based forms 358 //---------------------------------------------------------------------- 359 EXPECT_EQ(SData, toSigned(DieDG.find(Attr_DW_FORM_sdata), 0)); 360 if (Version >= 5) { 361 EXPECT_EQ(ICSData, toSigned(DieDG.find(Attr_DW_FORM_implicit_const), 0)); 362 } 363 364 //---------------------------------------------------------------------- 365 // Test ULEB128 based forms 366 //---------------------------------------------------------------------- 367 EXPECT_EQ(UData[0], toUnsigned(DieDG.find(Attr_DW_FORM_udata), 0)); 368 369 //---------------------------------------------------------------------- 370 // Test DWARF32/DWARF64 forms 371 //---------------------------------------------------------------------- 372 EXPECT_EQ(Dwarf32Values[0], 373 toReference(DieDG.find(Attr_DW_FORM_GNU_ref_alt), 0)); 374 if (Version >= 4) { 375 EXPECT_EQ(Dwarf32Values[1], 376 toSectionOffset(DieDG.find(Attr_DW_FORM_sec_offset), 0)); 377 } 378 379 //---------------------------------------------------------------------- 380 // Add an address at the end to make sure we can decode this value 381 //---------------------------------------------------------------------- 382 EXPECT_EQ(AddrValue, toAddress(DieDG.find(Attr_Last), 0)); 383 } 384 385 TEST(DWARFDebugInfo, TestDWARF32Version2Addr4AllForms) { 386 // Test that we can decode all forms for DWARF32, version 2, with 4 byte 387 // addresses. 388 typedef uint32_t AddrType; 389 // DW_FORM_ref_addr are the same as the address type in DWARF32 version 2. 390 typedef AddrType RefAddrType; 391 TestAllForms<2, AddrType, RefAddrType>(); 392 } 393 394 TEST(DWARFDebugInfo, TestDWARF32Version2Addr8AllForms) { 395 // Test that we can decode all forms for DWARF32, version 2, with 4 byte 396 // addresses. 397 typedef uint64_t AddrType; 398 // DW_FORM_ref_addr are the same as the address type in DWARF32 version 2. 399 typedef AddrType RefAddrType; 400 TestAllForms<2, AddrType, RefAddrType>(); 401 } 402 403 TEST(DWARFDebugInfo, TestDWARF32Version3Addr4AllForms) { 404 // Test that we can decode all forms for DWARF32, version 3, with 4 byte 405 // addresses. 406 typedef uint32_t AddrType; 407 // DW_FORM_ref_addr are 4 bytes in DWARF32 for version 3 and later. 408 typedef uint32_t RefAddrType; 409 TestAllForms<3, AddrType, RefAddrType>(); 410 } 411 412 TEST(DWARFDebugInfo, TestDWARF32Version3Addr8AllForms) { 413 // Test that we can decode all forms for DWARF32, version 3, with 8 byte 414 // addresses. 415 typedef uint64_t AddrType; 416 // DW_FORM_ref_addr are 4 bytes in DWARF32 for version 3 and later 417 typedef uint32_t RefAddrType; 418 TestAllForms<3, AddrType, RefAddrType>(); 419 } 420 421 TEST(DWARFDebugInfo, TestDWARF32Version4Addr4AllForms) { 422 // Test that we can decode all forms for DWARF32, version 4, with 4 byte 423 // addresses. 424 typedef uint32_t AddrType; 425 // DW_FORM_ref_addr are 4 bytes in DWARF32 for version 3 and later 426 typedef uint32_t RefAddrType; 427 TestAllForms<4, AddrType, RefAddrType>(); 428 } 429 430 TEST(DWARFDebugInfo, TestDWARF32Version4Addr8AllForms) { 431 // Test that we can decode all forms for DWARF32, version 4, with 8 byte 432 // addresses. 433 typedef uint64_t AddrType; 434 // DW_FORM_ref_addr are 4 bytes in DWARF32 for version 3 and later 435 typedef uint32_t RefAddrType; 436 TestAllForms<4, AddrType, RefAddrType>(); 437 } 438 439 TEST(DWARFDebugInfo, TestDWARF32Version5Addr4AllForms) { 440 // Test that we can decode all forms for DWARF32, version 5, with 4 byte 441 // addresses. 442 typedef uint32_t AddrType; 443 // DW_FORM_ref_addr are 4 bytes in DWARF32 for version 3 and later 444 typedef uint32_t RefAddrType; 445 TestAllForms<5, AddrType, RefAddrType>(); 446 } 447 448 TEST(DWARFDebugInfo, TestDWARF32Version5Addr8AllForms) { 449 // Test that we can decode all forms for DWARF32, version 5, with 8 byte 450 // addresses. 451 typedef uint64_t AddrType; 452 // DW_FORM_ref_addr are 4 bytes in DWARF32 for version 3 and later 453 typedef uint32_t RefAddrType; 454 TestAllForms<5, AddrType, RefAddrType>(); 455 } 456 457 template <uint16_t Version, class AddrType> void TestChildren() { 458 Triple Triple = getDefaultTargetTripleForAddrSize(sizeof(AddrType)); 459 if (!isConfigurationSupported(Triple)) 460 return; 461 462 // Test that we can decode DW_FORM_ref_addr values correctly in DWARF 2 with 463 // 4 byte addresses. DW_FORM_ref_addr values should be 4 bytes when using 464 // 8 byte addresses. 465 466 auto ExpectedDG = dwarfgen::Generator::create(Triple, Version); 467 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 468 dwarfgen::Generator *DG = ExpectedDG.get().get(); 469 dwarfgen::CompileUnit &CU = DG->addCompileUnit(); 470 dwarfgen::DIE CUDie = CU.getUnitDIE(); 471 472 CUDie.addAttribute(DW_AT_name, DW_FORM_strp, "/tmp/main.c"); 473 CUDie.addAttribute(DW_AT_language, DW_FORM_data2, DW_LANG_C); 474 475 dwarfgen::DIE SubprogramDie = CUDie.addChild(DW_TAG_subprogram); 476 SubprogramDie.addAttribute(DW_AT_name, DW_FORM_strp, "main"); 477 SubprogramDie.addAttribute(DW_AT_low_pc, DW_FORM_addr, 0x1000U); 478 SubprogramDie.addAttribute(DW_AT_high_pc, DW_FORM_addr, 0x2000U); 479 480 dwarfgen::DIE IntDie = CUDie.addChild(DW_TAG_base_type); 481 IntDie.addAttribute(DW_AT_name, DW_FORM_strp, "int"); 482 IntDie.addAttribute(DW_AT_encoding, DW_FORM_data1, DW_ATE_signed); 483 IntDie.addAttribute(DW_AT_byte_size, DW_FORM_data1, 4); 484 485 dwarfgen::DIE ArgcDie = SubprogramDie.addChild(DW_TAG_formal_parameter); 486 ArgcDie.addAttribute(DW_AT_name, DW_FORM_strp, "argc"); 487 // ArgcDie.addAttribute(DW_AT_type, DW_FORM_ref4, IntDie); 488 ArgcDie.addAttribute(DW_AT_type, DW_FORM_ref_addr, IntDie); 489 490 StringRef FileBytes = DG->generate(); 491 MemoryBufferRef FileBuffer(FileBytes, "dwarf"); 492 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 493 EXPECT_TRUE((bool)Obj); 494 std::unique_ptr<DWARFContext> DwarfContext = DWARFContext::create(**Obj); 495 496 // Verify the number of compile units is correct. 497 uint32_t NumCUs = DwarfContext->getNumCompileUnits(); 498 EXPECT_EQ(NumCUs, 1u); 499 DWARFCompileUnit *U = 500 cast<DWARFCompileUnit>(DwarfContext->getUnitAtIndex(0)); 501 502 // Get the compile unit DIE is valid. 503 auto DieDG = U->getUnitDIE(false); 504 EXPECT_TRUE(DieDG.isValid()); 505 506 // Verify the first child of the compile unit DIE is our subprogram. 507 auto SubprogramDieDG = DieDG.getFirstChild(); 508 EXPECT_TRUE(SubprogramDieDG.isValid()); 509 EXPECT_EQ(SubprogramDieDG.getTag(), DW_TAG_subprogram); 510 511 // Verify the first child of the subprogram is our formal parameter. 512 auto ArgcDieDG = SubprogramDieDG.getFirstChild(); 513 EXPECT_TRUE(ArgcDieDG.isValid()); 514 EXPECT_EQ(ArgcDieDG.getTag(), DW_TAG_formal_parameter); 515 516 // Verify our formal parameter has a NULL tag sibling. 517 auto NullDieDG = ArgcDieDG.getSibling(); 518 EXPECT_TRUE(NullDieDG.isValid()); 519 if (NullDieDG) { 520 EXPECT_EQ(NullDieDG.getTag(), DW_TAG_null); 521 EXPECT_TRUE(!NullDieDG.getSibling().isValid()); 522 EXPECT_TRUE(!NullDieDG.getFirstChild().isValid()); 523 } 524 525 // Verify the sibling of our subprogram is our integer base type. 526 auto IntDieDG = SubprogramDieDG.getSibling(); 527 EXPECT_TRUE(IntDieDG.isValid()); 528 EXPECT_EQ(IntDieDG.getTag(), DW_TAG_base_type); 529 530 // Verify the sibling of our subprogram is our integer base is a NULL tag. 531 NullDieDG = IntDieDG.getSibling(); 532 EXPECT_TRUE(NullDieDG.isValid()); 533 if (NullDieDG) { 534 EXPECT_EQ(NullDieDG.getTag(), DW_TAG_null); 535 EXPECT_TRUE(!NullDieDG.getSibling().isValid()); 536 EXPECT_TRUE(!NullDieDG.getFirstChild().isValid()); 537 } 538 539 // Verify the previous sibling of our subprogram is our integer base type. 540 IntDieDG = NullDieDG.getPreviousSibling(); 541 EXPECT_TRUE(IntDieDG.isValid()); 542 EXPECT_EQ(IntDieDG.getTag(), DW_TAG_base_type); 543 } 544 545 TEST(DWARFDebugInfo, TestDWARF32Version2Addr4Children) { 546 // Test that we can decode all forms for DWARF32, version 2, with 4 byte 547 // addresses. 548 typedef uint32_t AddrType; 549 TestChildren<2, AddrType>(); 550 } 551 552 TEST(DWARFDebugInfo, TestDWARF32Version2Addr8Children) { 553 // Test that we can decode all forms for DWARF32, version 2, with 8 byte 554 // addresses. 555 typedef uint64_t AddrType; 556 TestChildren<2, AddrType>(); 557 } 558 559 TEST(DWARFDebugInfo, TestDWARF32Version3Addr4Children) { 560 // Test that we can decode all forms for DWARF32, version 3, with 4 byte 561 // addresses. 562 typedef uint32_t AddrType; 563 TestChildren<3, AddrType>(); 564 } 565 566 TEST(DWARFDebugInfo, TestDWARF32Version3Addr8Children) { 567 // Test that we can decode all forms for DWARF32, version 3, with 8 byte 568 // addresses. 569 typedef uint64_t AddrType; 570 TestChildren<3, AddrType>(); 571 } 572 573 TEST(DWARFDebugInfo, TestDWARF32Version4Addr4Children) { 574 // Test that we can decode all forms for DWARF32, version 4, with 4 byte 575 // addresses. 576 typedef uint32_t AddrType; 577 TestChildren<4, AddrType>(); 578 } 579 580 TEST(DWARFDebugInfo, TestDWARF32Version4Addr8Children) { 581 // Test that we can decode all forms for DWARF32, version 4, with 8 byte 582 // addresses. 583 typedef uint64_t AddrType; 584 TestChildren<4, AddrType>(); 585 } 586 587 template <uint16_t Version, class AddrType> void TestReferences() { 588 Triple Triple = getDefaultTargetTripleForAddrSize(sizeof(AddrType)); 589 if (!isConfigurationSupported(Triple)) 590 return; 591 592 // Test that we can decode DW_FORM_refXXX values correctly in DWARF. 593 auto ExpectedDG = dwarfgen::Generator::create(Triple, Version); 594 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 595 dwarfgen::Generator *DG = ExpectedDG.get().get(); 596 dwarfgen::CompileUnit &CU1 = DG->addCompileUnit(); 597 dwarfgen::CompileUnit &CU2 = DG->addCompileUnit(); 598 599 dwarfgen::DIE CU1Die = CU1.getUnitDIE(); 600 CU1Die.addAttribute(DW_AT_name, DW_FORM_strp, "/tmp/main.c"); 601 CU1Die.addAttribute(DW_AT_language, DW_FORM_data2, DW_LANG_C); 602 603 dwarfgen::DIE CU1TypeDie = CU1Die.addChild(DW_TAG_base_type); 604 CU1TypeDie.addAttribute(DW_AT_name, DW_FORM_strp, "int"); 605 CU1TypeDie.addAttribute(DW_AT_encoding, DW_FORM_data1, DW_ATE_signed); 606 CU1TypeDie.addAttribute(DW_AT_byte_size, DW_FORM_data1, 4); 607 608 dwarfgen::DIE CU1Ref1Die = CU1Die.addChild(DW_TAG_variable); 609 CU1Ref1Die.addAttribute(DW_AT_name, DW_FORM_strp, "CU1Ref1"); 610 CU1Ref1Die.addAttribute(DW_AT_type, DW_FORM_ref1, CU1TypeDie); 611 612 dwarfgen::DIE CU1Ref2Die = CU1Die.addChild(DW_TAG_variable); 613 CU1Ref2Die.addAttribute(DW_AT_name, DW_FORM_strp, "CU1Ref2"); 614 CU1Ref2Die.addAttribute(DW_AT_type, DW_FORM_ref2, CU1TypeDie); 615 616 dwarfgen::DIE CU1Ref4Die = CU1Die.addChild(DW_TAG_variable); 617 CU1Ref4Die.addAttribute(DW_AT_name, DW_FORM_strp, "CU1Ref4"); 618 CU1Ref4Die.addAttribute(DW_AT_type, DW_FORM_ref4, CU1TypeDie); 619 620 dwarfgen::DIE CU1Ref8Die = CU1Die.addChild(DW_TAG_variable); 621 CU1Ref8Die.addAttribute(DW_AT_name, DW_FORM_strp, "CU1Ref8"); 622 CU1Ref8Die.addAttribute(DW_AT_type, DW_FORM_ref8, CU1TypeDie); 623 624 dwarfgen::DIE CU1RefAddrDie = CU1Die.addChild(DW_TAG_variable); 625 CU1RefAddrDie.addAttribute(DW_AT_name, DW_FORM_strp, "CU1RefAddr"); 626 CU1RefAddrDie.addAttribute(DW_AT_type, DW_FORM_ref_addr, CU1TypeDie); 627 628 dwarfgen::DIE CU2Die = CU2.getUnitDIE(); 629 CU2Die.addAttribute(DW_AT_name, DW_FORM_strp, "/tmp/foo.c"); 630 CU2Die.addAttribute(DW_AT_language, DW_FORM_data2, DW_LANG_C); 631 632 dwarfgen::DIE CU2TypeDie = CU2Die.addChild(DW_TAG_base_type); 633 CU2TypeDie.addAttribute(DW_AT_name, DW_FORM_strp, "float"); 634 CU2TypeDie.addAttribute(DW_AT_encoding, DW_FORM_data1, DW_ATE_float); 635 CU2TypeDie.addAttribute(DW_AT_byte_size, DW_FORM_data1, 4); 636 637 dwarfgen::DIE CU2Ref1Die = CU2Die.addChild(DW_TAG_variable); 638 CU2Ref1Die.addAttribute(DW_AT_name, DW_FORM_strp, "CU2Ref1"); 639 CU2Ref1Die.addAttribute(DW_AT_type, DW_FORM_ref1, CU2TypeDie); 640 641 dwarfgen::DIE CU2Ref2Die = CU2Die.addChild(DW_TAG_variable); 642 CU2Ref2Die.addAttribute(DW_AT_name, DW_FORM_strp, "CU2Ref2"); 643 CU2Ref2Die.addAttribute(DW_AT_type, DW_FORM_ref2, CU2TypeDie); 644 645 dwarfgen::DIE CU2Ref4Die = CU2Die.addChild(DW_TAG_variable); 646 CU2Ref4Die.addAttribute(DW_AT_name, DW_FORM_strp, "CU2Ref4"); 647 CU2Ref4Die.addAttribute(DW_AT_type, DW_FORM_ref4, CU2TypeDie); 648 649 dwarfgen::DIE CU2Ref8Die = CU2Die.addChild(DW_TAG_variable); 650 CU2Ref8Die.addAttribute(DW_AT_name, DW_FORM_strp, "CU2Ref8"); 651 CU2Ref8Die.addAttribute(DW_AT_type, DW_FORM_ref8, CU2TypeDie); 652 653 dwarfgen::DIE CU2RefAddrDie = CU2Die.addChild(DW_TAG_variable); 654 CU2RefAddrDie.addAttribute(DW_AT_name, DW_FORM_strp, "CU2RefAddr"); 655 CU2RefAddrDie.addAttribute(DW_AT_type, DW_FORM_ref_addr, CU2TypeDie); 656 657 // Refer to a type in CU1 from CU2 658 dwarfgen::DIE CU2ToCU1RefAddrDie = CU2Die.addChild(DW_TAG_variable); 659 CU2ToCU1RefAddrDie.addAttribute(DW_AT_name, DW_FORM_strp, "CU2ToCU1RefAddr"); 660 CU2ToCU1RefAddrDie.addAttribute(DW_AT_type, DW_FORM_ref_addr, CU1TypeDie); 661 662 // Refer to a type in CU2 from CU1 663 dwarfgen::DIE CU1ToCU2RefAddrDie = CU1Die.addChild(DW_TAG_variable); 664 CU1ToCU2RefAddrDie.addAttribute(DW_AT_name, DW_FORM_strp, "CU1ToCU2RefAddr"); 665 CU1ToCU2RefAddrDie.addAttribute(DW_AT_type, DW_FORM_ref_addr, CU2TypeDie); 666 667 StringRef FileBytes = DG->generate(); 668 MemoryBufferRef FileBuffer(FileBytes, "dwarf"); 669 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 670 EXPECT_TRUE((bool)Obj); 671 std::unique_ptr<DWARFContext> DwarfContext = DWARFContext::create(**Obj); 672 673 // Verify the number of compile units is correct. 674 uint32_t NumCUs = DwarfContext->getNumCompileUnits(); 675 EXPECT_EQ(NumCUs, 2u); 676 DWARFCompileUnit *U1 = 677 cast<DWARFCompileUnit>(DwarfContext->getUnitAtIndex(0)); 678 DWARFCompileUnit *U2 = 679 cast<DWARFCompileUnit>(DwarfContext->getUnitAtIndex(1)); 680 681 // Get the compile unit DIE is valid. 682 auto Unit1DieDG = U1->getUnitDIE(false); 683 EXPECT_TRUE(Unit1DieDG.isValid()); 684 685 auto Unit2DieDG = U2->getUnitDIE(false); 686 EXPECT_TRUE(Unit2DieDG.isValid()); 687 688 // Verify the first child of the compile unit 1 DIE is our int base type. 689 auto CU1TypeDieDG = Unit1DieDG.getFirstChild(); 690 EXPECT_TRUE(CU1TypeDieDG.isValid()); 691 EXPECT_EQ(CU1TypeDieDG.getTag(), DW_TAG_base_type); 692 EXPECT_EQ(DW_ATE_signed, toUnsigned(CU1TypeDieDG.find(DW_AT_encoding), 0)); 693 694 // Verify the first child of the compile unit 2 DIE is our float base type. 695 auto CU2TypeDieDG = Unit2DieDG.getFirstChild(); 696 EXPECT_TRUE(CU2TypeDieDG.isValid()); 697 EXPECT_EQ(CU2TypeDieDG.getTag(), DW_TAG_base_type); 698 EXPECT_EQ(DW_ATE_float, toUnsigned(CU2TypeDieDG.find(DW_AT_encoding), 0)); 699 700 // Verify the sibling of the base type DIE is our Ref1 DIE and that its 701 // DW_AT_type points to our base type DIE. 702 auto CU1Ref1DieDG = CU1TypeDieDG.getSibling(); 703 EXPECT_TRUE(CU1Ref1DieDG.isValid()); 704 EXPECT_EQ(CU1Ref1DieDG.getTag(), DW_TAG_variable); 705 EXPECT_EQ(CU1TypeDieDG.getOffset(), 706 toReference(CU1Ref1DieDG.find(DW_AT_type), -1ULL)); 707 // Verify the sibling is our Ref2 DIE and that its DW_AT_type points to our 708 // base type DIE in CU1. 709 auto CU1Ref2DieDG = CU1Ref1DieDG.getSibling(); 710 EXPECT_TRUE(CU1Ref2DieDG.isValid()); 711 EXPECT_EQ(CU1Ref2DieDG.getTag(), DW_TAG_variable); 712 EXPECT_EQ(CU1TypeDieDG.getOffset(), 713 toReference(CU1Ref2DieDG.find(DW_AT_type), -1ULL)); 714 715 // Verify the sibling is our Ref4 DIE and that its DW_AT_type points to our 716 // base type DIE in CU1. 717 auto CU1Ref4DieDG = CU1Ref2DieDG.getSibling(); 718 EXPECT_TRUE(CU1Ref4DieDG.isValid()); 719 EXPECT_EQ(CU1Ref4DieDG.getTag(), DW_TAG_variable); 720 EXPECT_EQ(CU1TypeDieDG.getOffset(), 721 toReference(CU1Ref4DieDG.find(DW_AT_type), -1ULL)); 722 723 // Verify the sibling is our Ref8 DIE and that its DW_AT_type points to our 724 // base type DIE in CU1. 725 auto CU1Ref8DieDG = CU1Ref4DieDG.getSibling(); 726 EXPECT_TRUE(CU1Ref8DieDG.isValid()); 727 EXPECT_EQ(CU1Ref8DieDG.getTag(), DW_TAG_variable); 728 EXPECT_EQ(CU1TypeDieDG.getOffset(), 729 toReference(CU1Ref8DieDG.find(DW_AT_type), -1ULL)); 730 731 // Verify the sibling is our RefAddr DIE and that its DW_AT_type points to our 732 // base type DIE in CU1. 733 auto CU1RefAddrDieDG = CU1Ref8DieDG.getSibling(); 734 EXPECT_TRUE(CU1RefAddrDieDG.isValid()); 735 EXPECT_EQ(CU1RefAddrDieDG.getTag(), DW_TAG_variable); 736 EXPECT_EQ(CU1TypeDieDG.getOffset(), 737 toReference(CU1RefAddrDieDG.find(DW_AT_type), -1ULL)); 738 739 // Verify the sibling of the Ref4 DIE is our RefAddr DIE and that its 740 // DW_AT_type points to our base type DIE. 741 auto CU1ToCU2RefAddrDieDG = CU1RefAddrDieDG.getSibling(); 742 EXPECT_TRUE(CU1ToCU2RefAddrDieDG.isValid()); 743 EXPECT_EQ(CU1ToCU2RefAddrDieDG.getTag(), DW_TAG_variable); 744 EXPECT_EQ(CU2TypeDieDG.getOffset(), 745 toReference(CU1ToCU2RefAddrDieDG.find(DW_AT_type), -1ULL)); 746 747 // Verify the sibling of the base type DIE is our Ref1 DIE and that its 748 // DW_AT_type points to our base type DIE. 749 auto CU2Ref1DieDG = CU2TypeDieDG.getSibling(); 750 EXPECT_TRUE(CU2Ref1DieDG.isValid()); 751 EXPECT_EQ(CU2Ref1DieDG.getTag(), DW_TAG_variable); 752 EXPECT_EQ(CU2TypeDieDG.getOffset(), 753 toReference(CU2Ref1DieDG.find(DW_AT_type), -1ULL)); 754 // Verify the sibling is our Ref2 DIE and that its DW_AT_type points to our 755 // base type DIE in CU2. 756 auto CU2Ref2DieDG = CU2Ref1DieDG.getSibling(); 757 EXPECT_TRUE(CU2Ref2DieDG.isValid()); 758 EXPECT_EQ(CU2Ref2DieDG.getTag(), DW_TAG_variable); 759 EXPECT_EQ(CU2TypeDieDG.getOffset(), 760 toReference(CU2Ref2DieDG.find(DW_AT_type), -1ULL)); 761 762 // Verify the sibling is our Ref4 DIE and that its DW_AT_type points to our 763 // base type DIE in CU2. 764 auto CU2Ref4DieDG = CU2Ref2DieDG.getSibling(); 765 EXPECT_TRUE(CU2Ref4DieDG.isValid()); 766 EXPECT_EQ(CU2Ref4DieDG.getTag(), DW_TAG_variable); 767 EXPECT_EQ(CU2TypeDieDG.getOffset(), 768 toReference(CU2Ref4DieDG.find(DW_AT_type), -1ULL)); 769 770 // Verify the sibling is our Ref8 DIE and that its DW_AT_type points to our 771 // base type DIE in CU2. 772 auto CU2Ref8DieDG = CU2Ref4DieDG.getSibling(); 773 EXPECT_TRUE(CU2Ref8DieDG.isValid()); 774 EXPECT_EQ(CU2Ref8DieDG.getTag(), DW_TAG_variable); 775 EXPECT_EQ(CU2TypeDieDG.getOffset(), 776 toReference(CU2Ref8DieDG.find(DW_AT_type), -1ULL)); 777 778 // Verify the sibling is our RefAddr DIE and that its DW_AT_type points to our 779 // base type DIE in CU2. 780 auto CU2RefAddrDieDG = CU2Ref8DieDG.getSibling(); 781 EXPECT_TRUE(CU2RefAddrDieDG.isValid()); 782 EXPECT_EQ(CU2RefAddrDieDG.getTag(), DW_TAG_variable); 783 EXPECT_EQ(CU2TypeDieDG.getOffset(), 784 toReference(CU2RefAddrDieDG.find(DW_AT_type), -1ULL)); 785 786 // Verify the sibling of the Ref4 DIE is our RefAddr DIE and that its 787 // DW_AT_type points to our base type DIE. 788 auto CU2ToCU1RefAddrDieDG = CU2RefAddrDieDG.getSibling(); 789 EXPECT_TRUE(CU2ToCU1RefAddrDieDG.isValid()); 790 EXPECT_EQ(CU2ToCU1RefAddrDieDG.getTag(), DW_TAG_variable); 791 EXPECT_EQ(CU1TypeDieDG.getOffset(), 792 toReference(CU2ToCU1RefAddrDieDG.find(DW_AT_type), -1ULL)); 793 } 794 795 TEST(DWARFDebugInfo, TestDWARF32Version2Addr4References) { 796 // Test that we can decode all forms for DWARF32, version 2, with 4 byte 797 // addresses. 798 typedef uint32_t AddrType; 799 TestReferences<2, AddrType>(); 800 } 801 802 TEST(DWARFDebugInfo, TestDWARF32Version2Addr8References) { 803 // Test that we can decode all forms for DWARF32, version 2, with 8 byte 804 // addresses. 805 typedef uint64_t AddrType; 806 TestReferences<2, AddrType>(); 807 } 808 809 TEST(DWARFDebugInfo, TestDWARF32Version3Addr4References) { 810 // Test that we can decode all forms for DWARF32, version 3, with 4 byte 811 // addresses. 812 typedef uint32_t AddrType; 813 TestReferences<3, AddrType>(); 814 } 815 816 TEST(DWARFDebugInfo, TestDWARF32Version3Addr8References) { 817 // Test that we can decode all forms for DWARF32, version 3, with 8 byte 818 // addresses. 819 typedef uint64_t AddrType; 820 TestReferences<3, AddrType>(); 821 } 822 823 TEST(DWARFDebugInfo, TestDWARF32Version4Addr4References) { 824 // Test that we can decode all forms for DWARF32, version 4, with 4 byte 825 // addresses. 826 typedef uint32_t AddrType; 827 TestReferences<4, AddrType>(); 828 } 829 830 TEST(DWARFDebugInfo, TestDWARF32Version4Addr8References) { 831 // Test that we can decode all forms for DWARF32, version 4, with 8 byte 832 // addresses. 833 typedef uint64_t AddrType; 834 TestReferences<4, AddrType>(); 835 } 836 837 template <uint16_t Version, class AddrType> void TestAddresses() { 838 Triple Triple = getDefaultTargetTripleForAddrSize(sizeof(AddrType)); 839 if (!isConfigurationSupported(Triple)) 840 return; 841 842 // Test the DWARF APIs related to accessing the DW_AT_low_pc and 843 // DW_AT_high_pc. 844 const bool SupportsHighPCAsOffset = Version >= 4; 845 auto ExpectedDG = dwarfgen::Generator::create(Triple, Version); 846 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 847 dwarfgen::Generator *DG = ExpectedDG.get().get(); 848 dwarfgen::CompileUnit &CU = DG->addCompileUnit(); 849 dwarfgen::DIE CUDie = CU.getUnitDIE(); 850 851 CUDie.addAttribute(DW_AT_name, DW_FORM_strp, "/tmp/main.c"); 852 CUDie.addAttribute(DW_AT_language, DW_FORM_data2, DW_LANG_C); 853 854 // Create a subprogram DIE with no low or high PC. 855 dwarfgen::DIE SubprogramNoPC = CUDie.addChild(DW_TAG_subprogram); 856 SubprogramNoPC.addAttribute(DW_AT_name, DW_FORM_strp, "no_pc"); 857 858 // Create a subprogram DIE with a low PC only. 859 dwarfgen::DIE SubprogramLowPC = CUDie.addChild(DW_TAG_subprogram); 860 SubprogramLowPC.addAttribute(DW_AT_name, DW_FORM_strp, "low_pc"); 861 const uint64_t ActualLowPC = 0x1000; 862 const uint64_t ActualHighPC = 0x2000; 863 const uint64_t ActualHighPCOffset = ActualHighPC - ActualLowPC; 864 SubprogramLowPC.addAttribute(DW_AT_low_pc, DW_FORM_addr, ActualLowPC); 865 866 // Create a subprogram DIE with a low and high PC. 867 dwarfgen::DIE SubprogramLowHighPC = CUDie.addChild(DW_TAG_subprogram); 868 SubprogramLowHighPC.addAttribute(DW_AT_name, DW_FORM_strp, "low_high_pc"); 869 SubprogramLowHighPC.addAttribute(DW_AT_low_pc, DW_FORM_addr, ActualLowPC); 870 // Encode the high PC as an offset from the low PC if supported. 871 if (SupportsHighPCAsOffset) 872 SubprogramLowHighPC.addAttribute(DW_AT_high_pc, DW_FORM_data4, 873 ActualHighPCOffset); 874 else 875 SubprogramLowHighPC.addAttribute(DW_AT_high_pc, DW_FORM_addr, ActualHighPC); 876 877 StringRef FileBytes = DG->generate(); 878 MemoryBufferRef FileBuffer(FileBytes, "dwarf"); 879 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 880 EXPECT_TRUE((bool)Obj); 881 std::unique_ptr<DWARFContext> DwarfContext = DWARFContext::create(**Obj); 882 883 // Verify the number of compile units is correct. 884 uint32_t NumCUs = DwarfContext->getNumCompileUnits(); 885 EXPECT_EQ(NumCUs, 1u); 886 DWARFCompileUnit *U = 887 cast<DWARFCompileUnit>(DwarfContext->getUnitAtIndex(0)); 888 889 // Get the compile unit DIE is valid. 890 auto DieDG = U->getUnitDIE(false); 891 EXPECT_TRUE(DieDG.isValid()); 892 893 uint64_t LowPC, HighPC, SectionIndex; 894 Optional<uint64_t> OptU64; 895 // Verify the that our subprogram with no PC value fails appropriately when 896 // asked for any PC values. 897 auto SubprogramDieNoPC = DieDG.getFirstChild(); 898 EXPECT_TRUE(SubprogramDieNoPC.isValid()); 899 EXPECT_EQ(SubprogramDieNoPC.getTag(), DW_TAG_subprogram); 900 OptU64 = toAddress(SubprogramDieNoPC.find(DW_AT_low_pc)); 901 EXPECT_FALSE((bool)OptU64); 902 OptU64 = toAddress(SubprogramDieNoPC.find(DW_AT_high_pc)); 903 EXPECT_FALSE((bool)OptU64); 904 EXPECT_FALSE(SubprogramDieNoPC.getLowAndHighPC(LowPC, HighPC, SectionIndex)); 905 OptU64 = toAddress(SubprogramDieNoPC.find(DW_AT_high_pc)); 906 EXPECT_FALSE((bool)OptU64); 907 OptU64 = toUnsigned(SubprogramDieNoPC.find(DW_AT_high_pc)); 908 EXPECT_FALSE((bool)OptU64); 909 OptU64 = SubprogramDieNoPC.getHighPC(ActualLowPC); 910 EXPECT_FALSE((bool)OptU64); 911 EXPECT_FALSE(SubprogramDieNoPC.getLowAndHighPC(LowPC, HighPC, SectionIndex)); 912 913 // Verify the that our subprogram with only a low PC value succeeds when 914 // we ask for the Low PC, but fails appropriately when asked for the high PC 915 // or both low and high PC values. 916 auto SubprogramDieLowPC = SubprogramDieNoPC.getSibling(); 917 EXPECT_TRUE(SubprogramDieLowPC.isValid()); 918 EXPECT_EQ(SubprogramDieLowPC.getTag(), DW_TAG_subprogram); 919 OptU64 = toAddress(SubprogramDieLowPC.find(DW_AT_low_pc)); 920 EXPECT_TRUE((bool)OptU64); 921 EXPECT_EQ(OptU64.getValue(), ActualLowPC); 922 OptU64 = toAddress(SubprogramDieLowPC.find(DW_AT_high_pc)); 923 EXPECT_FALSE((bool)OptU64); 924 OptU64 = toUnsigned(SubprogramDieLowPC.find(DW_AT_high_pc)); 925 EXPECT_FALSE((bool)OptU64); 926 OptU64 = SubprogramDieLowPC.getHighPC(ActualLowPC); 927 EXPECT_FALSE((bool)OptU64); 928 EXPECT_FALSE(SubprogramDieLowPC.getLowAndHighPC(LowPC, HighPC, SectionIndex)); 929 930 // Verify the that our subprogram with only a low PC value succeeds when 931 // we ask for the Low PC, but fails appropriately when asked for the high PC 932 // or both low and high PC values. 933 auto SubprogramDieLowHighPC = SubprogramDieLowPC.getSibling(); 934 EXPECT_TRUE(SubprogramDieLowHighPC.isValid()); 935 EXPECT_EQ(SubprogramDieLowHighPC.getTag(), DW_TAG_subprogram); 936 OptU64 = toAddress(SubprogramDieLowHighPC.find(DW_AT_low_pc)); 937 EXPECT_TRUE((bool)OptU64); 938 EXPECT_EQ(OptU64.getValue(), ActualLowPC); 939 // Get the high PC as an address. This should succeed if the high PC was 940 // encoded as an address and fail if the high PC was encoded as an offset. 941 OptU64 = toAddress(SubprogramDieLowHighPC.find(DW_AT_high_pc)); 942 if (SupportsHighPCAsOffset) { 943 EXPECT_FALSE((bool)OptU64); 944 } else { 945 EXPECT_TRUE((bool)OptU64); 946 EXPECT_EQ(OptU64.getValue(), ActualHighPC); 947 } 948 // Get the high PC as an unsigned constant. This should succeed if the high PC 949 // was encoded as an offset and fail if the high PC was encoded as an address. 950 OptU64 = toUnsigned(SubprogramDieLowHighPC.find(DW_AT_high_pc)); 951 if (SupportsHighPCAsOffset) { 952 EXPECT_TRUE((bool)OptU64); 953 EXPECT_EQ(OptU64.getValue(), ActualHighPCOffset); 954 } else { 955 EXPECT_FALSE((bool)OptU64); 956 } 957 958 OptU64 = SubprogramDieLowHighPC.getHighPC(ActualLowPC); 959 EXPECT_TRUE((bool)OptU64); 960 EXPECT_EQ(OptU64.getValue(), ActualHighPC); 961 962 EXPECT_TRUE(SubprogramDieLowHighPC.getLowAndHighPC(LowPC, HighPC, SectionIndex)); 963 EXPECT_EQ(LowPC, ActualLowPC); 964 EXPECT_EQ(HighPC, ActualHighPC); 965 } 966 967 TEST(DWARFDebugInfo, TestDWARF32Version2Addr4Addresses) { 968 // Test that we can decode address values in DWARF32, version 2, with 4 byte 969 // addresses. 970 typedef uint32_t AddrType; 971 TestAddresses<2, AddrType>(); 972 } 973 974 TEST(DWARFDebugInfo, TestDWARF32Version2Addr8Addresses) { 975 // Test that we can decode address values in DWARF32, version 2, with 8 byte 976 // addresses. 977 typedef uint64_t AddrType; 978 TestAddresses<2, AddrType>(); 979 } 980 981 TEST(DWARFDebugInfo, TestDWARF32Version3Addr4Addresses) { 982 // Test that we can decode address values in DWARF32, version 3, with 4 byte 983 // addresses. 984 typedef uint32_t AddrType; 985 TestAddresses<3, AddrType>(); 986 } 987 988 TEST(DWARFDebugInfo, TestDWARF32Version3Addr8Addresses) { 989 // Test that we can decode address values in DWARF32, version 3, with 8 byte 990 // addresses. 991 typedef uint64_t AddrType; 992 TestAddresses<3, AddrType>(); 993 } 994 995 TEST(DWARFDebugInfo, TestDWARF32Version4Addr4Addresses) { 996 // Test that we can decode address values in DWARF32, version 4, with 4 byte 997 // addresses. 998 typedef uint32_t AddrType; 999 TestAddresses<4, AddrType>(); 1000 } 1001 1002 TEST(DWARFDebugInfo, TestDWARF32Version4Addr8Addresses) { 1003 // Test that we can decode address values in DWARF32, version 4, with 8 byte 1004 // addresses. 1005 typedef uint64_t AddrType; 1006 TestAddresses<4, AddrType>(); 1007 } 1008 1009 TEST(DWARFDebugInfo, TestStringOffsets) { 1010 Triple Triple = getNormalizedDefaultTargetTriple(); 1011 if (!isConfigurationSupported(Triple)) 1012 return; 1013 1014 const char *String1 = "Hello"; 1015 const char *String2 = "World"; 1016 1017 auto ExpectedDG = dwarfgen::Generator::create(Triple, 5); 1018 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 1019 dwarfgen::Generator *DG = ExpectedDG.get().get(); 1020 dwarfgen::CompileUnit &CU = DG->addCompileUnit(); 1021 dwarfgen::DIE CUDie = CU.getUnitDIE(); 1022 1023 CUDie.addStrOffsetsBaseAttribute(); 1024 1025 uint16_t Attr = DW_AT_lo_user; 1026 1027 // Create our strings. First we create a non-indexed reference to String1, 1028 // followed by an indexed String2. Finally, we add an indexed reference to 1029 // String1. 1030 const auto Attr1 = static_cast<dwarf::Attribute>(Attr++); 1031 CUDie.addAttribute(Attr1, DW_FORM_strp, String1); 1032 1033 const auto Attr2 = static_cast<dwarf::Attribute>(Attr++); 1034 CUDie.addAttribute(Attr2, DW_FORM_strx, String2); 1035 1036 const auto Attr3 = static_cast<dwarf::Attribute>(Attr++); 1037 CUDie.addAttribute(Attr3, DW_FORM_strx, String1); 1038 1039 // Generate the DWARF 1040 StringRef FileBytes = DG->generate(); 1041 MemoryBufferRef FileBuffer(FileBytes, "dwarf"); 1042 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 1043 ASSERT_TRUE((bool)Obj); 1044 std::unique_ptr<DWARFContext> DwarfContext = DWARFContext::create(**Obj); 1045 uint32_t NumCUs = DwarfContext->getNumCompileUnits(); 1046 ASSERT_EQ(NumCUs, 1u); 1047 DWARFUnit *U = DwarfContext->getUnitAtIndex(0); 1048 auto DieDG = U->getUnitDIE(false); 1049 ASSERT_TRUE(DieDG.isValid()); 1050 1051 // Now make sure the string offsets came out properly. Attr2 should have index 1052 // 0 (because it was the first indexed string) even though the string itself 1053 // was added eariler. 1054 auto Extracted1 = toString(DieDG.find(Attr1)); 1055 ASSERT_TRUE((bool)Extracted1); 1056 EXPECT_STREQ(String1, *Extracted1); 1057 1058 Optional<DWARFFormValue> Form2 = DieDG.find(Attr2); 1059 ASSERT_TRUE((bool)Form2); 1060 EXPECT_EQ(0u, Form2->getRawUValue()); 1061 auto Extracted2 = toString(Form2); 1062 ASSERT_TRUE((bool)Extracted2); 1063 EXPECT_STREQ(String2, *Extracted2); 1064 1065 Optional<DWARFFormValue> Form3 = DieDG.find(Attr3); 1066 ASSERT_TRUE((bool)Form3); 1067 EXPECT_EQ(1u, Form3->getRawUValue()); 1068 auto Extracted3 = toString(Form3); 1069 ASSERT_TRUE((bool)Extracted3); 1070 EXPECT_STREQ(String1, *Extracted3); 1071 } 1072 1073 TEST(DWARFDebugInfo, TestEmptyStringOffsets) { 1074 Triple Triple = getNormalizedDefaultTargetTriple(); 1075 if (!isConfigurationSupported(Triple)) 1076 return; 1077 1078 const char *String1 = "Hello"; 1079 1080 auto ExpectedDG = dwarfgen::Generator::create(Triple, 5); 1081 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 1082 dwarfgen::Generator *DG = ExpectedDG.get().get(); 1083 dwarfgen::CompileUnit &CU = DG->addCompileUnit(); 1084 dwarfgen::DIE CUDie = CU.getUnitDIE(); 1085 1086 uint16_t Attr = DW_AT_lo_user; 1087 1088 // We shall insert only one string. It will be referenced directly. 1089 const auto Attr1 = static_cast<dwarf::Attribute>(Attr++); 1090 CUDie.addAttribute(Attr1, DW_FORM_strp, String1); 1091 1092 // Generate the DWARF 1093 StringRef FileBytes = DG->generate(); 1094 MemoryBufferRef FileBuffer(FileBytes, "dwarf"); 1095 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 1096 ASSERT_TRUE((bool)Obj); 1097 std::unique_ptr<DWARFContext> DwarfContext = DWARFContext::create(**Obj); 1098 EXPECT_TRUE( 1099 DwarfContext->getDWARFObj().getStrOffsetsSection().Data.empty()); 1100 } 1101 1102 TEST(DWARFDebugInfo, TestRelations) { 1103 Triple Triple = getNormalizedDefaultTargetTriple(); 1104 if (!isConfigurationSupported(Triple)) 1105 return; 1106 1107 // Test the DWARF APIs related to accessing the DW_AT_low_pc and 1108 // DW_AT_high_pc. 1109 uint16_t Version = 4; 1110 auto ExpectedDG = dwarfgen::Generator::create(Triple, Version); 1111 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 1112 dwarfgen::Generator *DG = ExpectedDG.get().get(); 1113 dwarfgen::CompileUnit &CU = DG->addCompileUnit(); 1114 1115 enum class Tag: uint16_t { 1116 A = dwarf::DW_TAG_lo_user, 1117 B, 1118 C, 1119 C1, 1120 C2, 1121 D, 1122 D1 1123 }; 1124 1125 // Scope to allow us to re-use the same DIE names 1126 { 1127 // Create DWARF tree that looks like: 1128 // 1129 // CU 1130 // A 1131 // B 1132 // C 1133 // C1 1134 // C2 1135 // D 1136 // D1 1137 dwarfgen::DIE CUDie = CU.getUnitDIE(); 1138 dwarfgen::DIE A = CUDie.addChild((dwarf::Tag)Tag::A); 1139 A.addChild((dwarf::Tag)Tag::B); 1140 dwarfgen::DIE C = A.addChild((dwarf::Tag)Tag::C); 1141 dwarfgen::DIE D = A.addChild((dwarf::Tag)Tag::D); 1142 C.addChild((dwarf::Tag)Tag::C1); 1143 C.addChild((dwarf::Tag)Tag::C2); 1144 D.addChild((dwarf::Tag)Tag::D1); 1145 } 1146 1147 MemoryBufferRef FileBuffer(DG->generate(), "dwarf"); 1148 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 1149 EXPECT_TRUE((bool)Obj); 1150 std::unique_ptr<DWARFContext> DwarfContext = DWARFContext::create(**Obj); 1151 1152 // Verify the number of compile units is correct. 1153 uint32_t NumCUs = DwarfContext->getNumCompileUnits(); 1154 EXPECT_EQ(NumCUs, 1u); 1155 DWARFCompileUnit *U = 1156 cast<DWARFCompileUnit>(DwarfContext->getUnitAtIndex(0)); 1157 1158 // Get the compile unit DIE is valid. 1159 auto CUDie = U->getUnitDIE(false); 1160 EXPECT_TRUE(CUDie.isValid()); 1161 1162 // The compile unit doesn't have a parent or a sibling. 1163 auto ParentDie = CUDie.getParent(); 1164 EXPECT_FALSE(ParentDie.isValid()); 1165 auto SiblingDie = CUDie.getSibling(); 1166 EXPECT_FALSE(SiblingDie.isValid()); 1167 1168 // Get the children of the compile unit 1169 auto A = CUDie.getFirstChild(); 1170 auto B = A.getFirstChild(); 1171 auto C = B.getSibling(); 1172 auto D = C.getSibling(); 1173 auto Null = D.getSibling(); 1174 1175 // Verify NULL Die is NULL and has no children or siblings 1176 EXPECT_TRUE(Null.isNULL()); 1177 EXPECT_FALSE(Null.getSibling().isValid()); 1178 EXPECT_FALSE(Null.getFirstChild().isValid()); 1179 1180 // Verify all children of the compile unit DIE are correct. 1181 EXPECT_EQ(A.getTag(), (dwarf::Tag)Tag::A); 1182 EXPECT_EQ(B.getTag(), (dwarf::Tag)Tag::B); 1183 EXPECT_EQ(C.getTag(), (dwarf::Tag)Tag::C); 1184 EXPECT_EQ(D.getTag(), (dwarf::Tag)Tag::D); 1185 1186 // Verify who has children 1187 EXPECT_TRUE(A.hasChildren()); 1188 EXPECT_FALSE(B.hasChildren()); 1189 EXPECT_TRUE(C.hasChildren()); 1190 EXPECT_TRUE(D.hasChildren()); 1191 1192 // Make sure the parent of all the children of the compile unit are the 1193 // compile unit. 1194 EXPECT_EQ(A.getParent(), CUDie); 1195 1196 // Make sure the parent of all the children of A are the A. 1197 // B is the first child in A, so we need to verify we can get the previous 1198 // DIE as the parent. 1199 EXPECT_EQ(B.getParent(), A); 1200 // C is the second child in A, so we need to make sure we can backup across 1201 // other DIE (B) at the same level to get the correct parent. 1202 EXPECT_EQ(C.getParent(), A); 1203 // D is the third child of A. We need to verify we can backup across other DIE 1204 // (B and C) including DIE that have children (D) to get the correct parent. 1205 EXPECT_EQ(D.getParent(), A); 1206 1207 // Verify that a DIE with no children returns an invalid DWARFDie. 1208 EXPECT_FALSE(B.getFirstChild().isValid()); 1209 1210 // Verify the children of the B DIE 1211 auto C1 = C.getFirstChild(); 1212 auto C2 = C1.getSibling(); 1213 EXPECT_TRUE(C2.getSibling().isNULL()); 1214 1215 // Verify all children of the B DIE correctly valid or invalid. 1216 EXPECT_EQ(C1.getTag(), (dwarf::Tag)Tag::C1); 1217 EXPECT_EQ(C2.getTag(), (dwarf::Tag)Tag::C2); 1218 1219 // Make sure the parent of all the children of the B are the B. 1220 EXPECT_EQ(C1.getParent(), C); 1221 EXPECT_EQ(C2.getParent(), C); 1222 1223 // Make sure iterators work as expected. 1224 EXPECT_THAT(std::vector<DWARFDie>(A.begin(), A.end()), 1225 testing::ElementsAre(B, C, D)); 1226 EXPECT_THAT(std::vector<DWARFDie>(A.rbegin(), A.rend()), 1227 testing::ElementsAre(D, C, B)); 1228 1229 // Make sure conversion from reverse iterator works as expected. 1230 EXPECT_EQ(A.rbegin().base(), A.end()); 1231 EXPECT_EQ(A.rend().base(), A.begin()); 1232 1233 // Make sure iterator is bidirectional. 1234 { 1235 auto Begin = A.begin(); 1236 auto End = A.end(); 1237 auto It = A.begin(); 1238 1239 EXPECT_EQ(It, Begin); 1240 EXPECT_EQ(*It, B); 1241 ++It; 1242 EXPECT_EQ(*It, C); 1243 ++It; 1244 EXPECT_EQ(*It, D); 1245 ++It; 1246 EXPECT_EQ(It, End); 1247 --It; 1248 EXPECT_EQ(*It, D); 1249 --It; 1250 EXPECT_EQ(*It, C); 1251 --It; 1252 EXPECT_EQ(*It, B); 1253 EXPECT_EQ(It, Begin); 1254 } 1255 1256 // Make sure reverse iterator is bidirectional. 1257 { 1258 auto Begin = A.rbegin(); 1259 auto End = A.rend(); 1260 auto It = A.rbegin(); 1261 1262 EXPECT_EQ(It, Begin); 1263 EXPECT_EQ(*It, D); 1264 ++It; 1265 EXPECT_EQ(*It, C); 1266 ++It; 1267 EXPECT_EQ(*It, B); 1268 ++It; 1269 EXPECT_EQ(It, End); 1270 --It; 1271 EXPECT_EQ(*It, B); 1272 --It; 1273 EXPECT_EQ(*It, C); 1274 --It; 1275 EXPECT_EQ(*It, D); 1276 EXPECT_EQ(It, Begin); 1277 } 1278 } 1279 1280 TEST(DWARFDebugInfo, TestDWARFDie) { 1281 // Make sure a default constructed DWARFDie doesn't have any parent, sibling 1282 // or child; 1283 DWARFDie DefaultDie; 1284 EXPECT_FALSE(DefaultDie.getParent().isValid()); 1285 EXPECT_FALSE(DefaultDie.getFirstChild().isValid()); 1286 EXPECT_FALSE(DefaultDie.getSibling().isValid()); 1287 } 1288 1289 TEST(DWARFDebugInfo, TestChildIterators) { 1290 Triple Triple = getNormalizedDefaultTargetTriple(); 1291 if (!isConfigurationSupported(Triple)) 1292 return; 1293 1294 // Test the DWARF APIs related to iterating across the children of a DIE using 1295 // the DWARFDie::iterator class. 1296 uint16_t Version = 4; 1297 auto ExpectedDG = dwarfgen::Generator::create(Triple, Version); 1298 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 1299 dwarfgen::Generator *DG = ExpectedDG.get().get(); 1300 dwarfgen::CompileUnit &CU = DG->addCompileUnit(); 1301 1302 enum class Tag: uint16_t { 1303 A = dwarf::DW_TAG_lo_user, 1304 B, 1305 }; 1306 1307 // Scope to allow us to re-use the same DIE names 1308 { 1309 // Create DWARF tree that looks like: 1310 // 1311 // CU 1312 // A 1313 // B 1314 auto CUDie = CU.getUnitDIE(); 1315 CUDie.addChild((dwarf::Tag)Tag::A); 1316 CUDie.addChild((dwarf::Tag)Tag::B); 1317 } 1318 1319 MemoryBufferRef FileBuffer(DG->generate(), "dwarf"); 1320 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 1321 EXPECT_TRUE((bool)Obj); 1322 std::unique_ptr<DWARFContext> DwarfContext = DWARFContext::create(**Obj); 1323 1324 // Verify the number of compile units is correct. 1325 uint32_t NumCUs = DwarfContext->getNumCompileUnits(); 1326 EXPECT_EQ(NumCUs, 1u); 1327 DWARFCompileUnit *U = 1328 cast<DWARFCompileUnit>(DwarfContext->getUnitAtIndex(0)); 1329 1330 // Get the compile unit DIE is valid. 1331 auto CUDie = U->getUnitDIE(false); 1332 EXPECT_TRUE(CUDie.isValid()); 1333 uint32_t Index; 1334 DWARFDie A; 1335 DWARFDie B; 1336 1337 // Verify the compile unit DIE's children. 1338 Index = 0; 1339 for (auto Die : CUDie.children()) { 1340 switch (Index++) { 1341 case 0: A = Die; break; 1342 case 1: B = Die; break; 1343 } 1344 } 1345 1346 EXPECT_EQ(A.getTag(), (dwarf::Tag)Tag::A); 1347 EXPECT_EQ(B.getTag(), (dwarf::Tag)Tag::B); 1348 1349 // Verify that A has no children by verifying that the begin and end contain 1350 // invalid DIEs and also that the iterators are equal. 1351 EXPECT_EQ(A.begin(), A.end()); 1352 } 1353 1354 TEST(DWARFDebugInfo, TestChildIteratorsOnInvalidDie) { 1355 // Verify that an invalid DIE has no children. 1356 DWARFDie Invalid; 1357 auto begin = Invalid.begin(); 1358 auto end = Invalid.end(); 1359 EXPECT_FALSE(begin->isValid()); 1360 EXPECT_FALSE(end->isValid()); 1361 EXPECT_EQ(begin, end); 1362 } 1363 1364 TEST(DWARFDebugInfo, TestEmptyChildren) { 1365 const char *yamldata = "debug_abbrev:\n" 1366 " - Code: 0x00000001\n" 1367 " Tag: DW_TAG_compile_unit\n" 1368 " Children: DW_CHILDREN_yes\n" 1369 " Attributes:\n" 1370 "debug_info:\n" 1371 " - Length:\n" 1372 " TotalLength: 0\n" 1373 " Version: 4\n" 1374 " AbbrOffset: 0\n" 1375 " AddrSize: 8\n" 1376 " Entries:\n" 1377 " - AbbrCode: 0x00000001\n" 1378 " Values:\n" 1379 " - AbbrCode: 0x00000000\n" 1380 " Values:\n"; 1381 1382 auto ErrOrSections = DWARFYAML::EmitDebugSections(StringRef(yamldata), true); 1383 ASSERT_TRUE((bool)ErrOrSections); 1384 std::unique_ptr<DWARFContext> DwarfContext = 1385 DWARFContext::create(*ErrOrSections, 8); 1386 1387 // Verify the number of compile units is correct. 1388 uint32_t NumCUs = DwarfContext->getNumCompileUnits(); 1389 EXPECT_EQ(NumCUs, 1u); 1390 DWARFCompileUnit *U = 1391 cast<DWARFCompileUnit>(DwarfContext->getUnitAtIndex(0)); 1392 1393 // Get the compile unit DIE is valid. 1394 auto CUDie = U->getUnitDIE(false); 1395 EXPECT_TRUE(CUDie.isValid()); 1396 1397 // Verify that the CU Die that says it has children, but doesn't, actually 1398 // has begin and end iterators that are equal. We want to make sure we don't 1399 // see the Null DIEs during iteration. 1400 EXPECT_EQ(CUDie.begin(), CUDie.end()); 1401 } 1402 1403 TEST(DWARFDebugInfo, TestAttributeIterators) { 1404 Triple Triple = getNormalizedDefaultTargetTriple(); 1405 if (!isConfigurationSupported(Triple)) 1406 return; 1407 1408 // Test the DWARF APIs related to iterating across all attribute values in a 1409 // a DWARFDie. 1410 uint16_t Version = 4; 1411 auto ExpectedDG = dwarfgen::Generator::create(Triple, Version); 1412 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 1413 dwarfgen::Generator *DG = ExpectedDG.get().get(); 1414 dwarfgen::CompileUnit &CU = DG->addCompileUnit(); 1415 const uint64_t CULowPC = 0x1000; 1416 StringRef CUPath("/tmp/main.c"); 1417 1418 // Scope to allow us to re-use the same DIE names 1419 { 1420 auto CUDie = CU.getUnitDIE(); 1421 // Encode an attribute value before an attribute with no data. 1422 CUDie.addAttribute(DW_AT_name, DW_FORM_strp, CUPath.data()); 1423 // Encode an attribute value with no data in .debug_info/types to ensure 1424 // the iteration works correctly. 1425 CUDie.addAttribute(DW_AT_declaration, DW_FORM_flag_present); 1426 // Encode an attribute value after an attribute with no data. 1427 CUDie.addAttribute(DW_AT_low_pc, DW_FORM_addr, CULowPC); 1428 } 1429 1430 MemoryBufferRef FileBuffer(DG->generate(), "dwarf"); 1431 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 1432 EXPECT_TRUE((bool)Obj); 1433 std::unique_ptr<DWARFContext> DwarfContext = DWARFContext::create(**Obj); 1434 1435 // Verify the number of compile units is correct. 1436 uint32_t NumCUs = DwarfContext->getNumCompileUnits(); 1437 EXPECT_EQ(NumCUs, 1u); 1438 DWARFCompileUnit *U = 1439 cast<DWARFCompileUnit>(DwarfContext->getUnitAtIndex(0)); 1440 1441 // Get the compile unit DIE is valid. 1442 auto CUDie = U->getUnitDIE(false); 1443 EXPECT_TRUE(CUDie.isValid()); 1444 1445 auto R = CUDie.attributes(); 1446 auto I = R.begin(); 1447 auto E = R.end(); 1448 1449 ASSERT_NE(E, I); 1450 EXPECT_EQ(I->Attr, DW_AT_name); 1451 auto ActualCUPath = I->Value.getAsCString(); 1452 EXPECT_EQ(CUPath, *ActualCUPath); 1453 1454 ASSERT_NE(E, ++I); 1455 EXPECT_EQ(I->Attr, DW_AT_declaration); 1456 EXPECT_EQ(1ull, *I->Value.getAsUnsignedConstant()); 1457 1458 ASSERT_NE(E, ++I); 1459 EXPECT_EQ(I->Attr, DW_AT_low_pc); 1460 EXPECT_EQ(CULowPC, *I->Value.getAsAddress()); 1461 1462 EXPECT_EQ(E, ++I); 1463 } 1464 1465 TEST(DWARFDebugInfo, TestFindRecurse) { 1466 Triple Triple = getNormalizedDefaultTargetTriple(); 1467 if (!isConfigurationSupported(Triple)) 1468 return; 1469 1470 uint16_t Version = 4; 1471 auto ExpectedDG = dwarfgen::Generator::create(Triple, Version); 1472 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 1473 dwarfgen::Generator *DG = ExpectedDG.get().get(); 1474 dwarfgen::CompileUnit &CU = DG->addCompileUnit(); 1475 1476 StringRef SpecDieName = "spec"; 1477 StringRef SpecLinkageName = "spec_linkage"; 1478 StringRef AbsDieName = "abs"; 1479 // Scope to allow us to re-use the same DIE names 1480 { 1481 auto CUDie = CU.getUnitDIE(); 1482 auto FuncSpecDie = CUDie.addChild(DW_TAG_subprogram); 1483 auto FuncAbsDie = CUDie.addChild(DW_TAG_subprogram); 1484 // Put the linkage name in a second abstract origin DIE to ensure we 1485 // recurse through more than just one DIE when looking for attributes. 1486 auto FuncAbsDie2 = CUDie.addChild(DW_TAG_subprogram); 1487 auto FuncDie = CUDie.addChild(DW_TAG_subprogram); 1488 auto VarAbsDie = CUDie.addChild(DW_TAG_variable); 1489 auto VarDie = CUDie.addChild(DW_TAG_variable); 1490 FuncSpecDie.addAttribute(DW_AT_name, DW_FORM_strp, SpecDieName); 1491 FuncAbsDie2.addAttribute(DW_AT_linkage_name, DW_FORM_strp, SpecLinkageName); 1492 FuncAbsDie.addAttribute(DW_AT_specification, DW_FORM_ref4, FuncSpecDie); 1493 FuncAbsDie.addAttribute(DW_AT_abstract_origin, DW_FORM_ref4, FuncAbsDie2); 1494 FuncDie.addAttribute(DW_AT_abstract_origin, DW_FORM_ref4, FuncAbsDie); 1495 VarAbsDie.addAttribute(DW_AT_name, DW_FORM_strp, AbsDieName); 1496 VarDie.addAttribute(DW_AT_abstract_origin, DW_FORM_ref4, VarAbsDie); 1497 } 1498 1499 MemoryBufferRef FileBuffer(DG->generate(), "dwarf"); 1500 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 1501 EXPECT_TRUE((bool)Obj); 1502 std::unique_ptr<DWARFContext> DwarfContext = DWARFContext::create(**Obj); 1503 1504 // Verify the number of compile units is correct. 1505 uint32_t NumCUs = DwarfContext->getNumCompileUnits(); 1506 EXPECT_EQ(NumCUs, 1u); 1507 DWARFCompileUnit *U = 1508 cast<DWARFCompileUnit>(DwarfContext->getUnitAtIndex(0)); 1509 1510 // Get the compile unit DIE is valid. 1511 auto CUDie = U->getUnitDIE(false); 1512 EXPECT_TRUE(CUDie.isValid()); 1513 1514 auto FuncSpecDie = CUDie.getFirstChild(); 1515 auto FuncAbsDie = FuncSpecDie.getSibling(); 1516 auto FuncAbsDie2 = FuncAbsDie.getSibling(); 1517 auto FuncDie = FuncAbsDie2.getSibling(); 1518 auto VarAbsDie = FuncDie.getSibling(); 1519 auto VarDie = VarAbsDie.getSibling(); 1520 1521 // Make sure we can't extract the name from the specification die when using 1522 // DWARFDie::find() since it won't check the DW_AT_specification DIE. 1523 EXPECT_FALSE(FuncDie.find(DW_AT_name)); 1524 1525 // Make sure we can extract the name from the specification die when using 1526 // DWARFDie::findRecursively() since it should recurse through the 1527 // DW_AT_specification DIE. 1528 auto NameOpt = FuncDie.findRecursively(DW_AT_name); 1529 EXPECT_TRUE(NameOpt); 1530 // Test the dwarf::toString() helper function. 1531 auto StringOpt = toString(NameOpt); 1532 EXPECT_TRUE(StringOpt); 1533 EXPECT_EQ(SpecDieName, StringOpt.getValueOr(nullptr)); 1534 // Test the dwarf::toString() helper function with a default value specified. 1535 EXPECT_EQ(SpecDieName, toString(NameOpt, nullptr)); 1536 1537 auto LinkageNameOpt = FuncDie.findRecursively(DW_AT_linkage_name); 1538 EXPECT_EQ(SpecLinkageName, toString(LinkageNameOpt).getValueOr(nullptr)); 1539 1540 // Make sure we can't extract the name from the abstract origin die when using 1541 // DWARFDie::find() since it won't check the DW_AT_abstract_origin DIE. 1542 EXPECT_FALSE(VarDie.find(DW_AT_name)); 1543 1544 // Make sure we can extract the name from the abstract origin die when using 1545 // DWARFDie::findRecursively() since it should recurse through the 1546 // DW_AT_abstract_origin DIE. 1547 NameOpt = VarDie.findRecursively(DW_AT_name); 1548 EXPECT_TRUE(NameOpt); 1549 // Test the dwarf::toString() helper function. 1550 StringOpt = toString(NameOpt); 1551 EXPECT_TRUE(StringOpt); 1552 EXPECT_EQ(AbsDieName, StringOpt.getValueOr(nullptr)); 1553 } 1554 1555 TEST(DWARFDebugInfo, TestDwarfToFunctions) { 1556 // Test all of the dwarf::toXXX functions that take a 1557 // Optional<DWARFFormValue> and extract the values from it. 1558 uint64_t InvalidU64 = 0xBADBADBADBADBADB; 1559 int64_t InvalidS64 = 0xBADBADBADBADBADB; 1560 1561 // First test that we don't get valid values back when using an optional with 1562 // no value. 1563 Optional<DWARFFormValue> FormValOpt1 = DWARFFormValue(); 1564 EXPECT_FALSE(toString(FormValOpt1).hasValue()); 1565 EXPECT_FALSE(toUnsigned(FormValOpt1).hasValue()); 1566 EXPECT_FALSE(toReference(FormValOpt1).hasValue()); 1567 EXPECT_FALSE(toSigned(FormValOpt1).hasValue()); 1568 EXPECT_FALSE(toAddress(FormValOpt1).hasValue()); 1569 EXPECT_FALSE(toSectionOffset(FormValOpt1).hasValue()); 1570 EXPECT_FALSE(toBlock(FormValOpt1).hasValue()); 1571 EXPECT_EQ(nullptr, toString(FormValOpt1, nullptr)); 1572 EXPECT_EQ(InvalidU64, toUnsigned(FormValOpt1, InvalidU64)); 1573 EXPECT_EQ(InvalidU64, toReference(FormValOpt1, InvalidU64)); 1574 EXPECT_EQ(InvalidU64, toAddress(FormValOpt1, InvalidU64)); 1575 EXPECT_EQ(InvalidU64, toSectionOffset(FormValOpt1, InvalidU64)); 1576 EXPECT_EQ(InvalidS64, toSigned(FormValOpt1, InvalidS64)); 1577 1578 // Test successful and unsuccessful address decoding. 1579 uint64_t Address = 0x100000000ULL; 1580 Optional<DWARFFormValue> FormValOpt2 = 1581 DWARFFormValue::createFromUValue(DW_FORM_addr, Address); 1582 1583 EXPECT_FALSE(toString(FormValOpt2).hasValue()); 1584 EXPECT_FALSE(toUnsigned(FormValOpt2).hasValue()); 1585 EXPECT_FALSE(toReference(FormValOpt2).hasValue()); 1586 EXPECT_FALSE(toSigned(FormValOpt2).hasValue()); 1587 EXPECT_TRUE(toAddress(FormValOpt2).hasValue()); 1588 EXPECT_FALSE(toSectionOffset(FormValOpt2).hasValue()); 1589 EXPECT_FALSE(toBlock(FormValOpt2).hasValue()); 1590 EXPECT_EQ(nullptr, toString(FormValOpt2, nullptr)); 1591 EXPECT_EQ(InvalidU64, toUnsigned(FormValOpt2, InvalidU64)); 1592 EXPECT_EQ(InvalidU64, toReference(FormValOpt2, InvalidU64)); 1593 EXPECT_EQ(Address, toAddress(FormValOpt2, InvalidU64)); 1594 EXPECT_EQ(InvalidU64, toSectionOffset(FormValOpt2, InvalidU64)); 1595 EXPECT_EQ(InvalidS64, toSigned(FormValOpt2, InvalidU64)); 1596 1597 // Test successful and unsuccessful unsigned constant decoding. 1598 uint64_t UData8 = 0x1020304050607080ULL; 1599 Optional<DWARFFormValue> FormValOpt3 = 1600 DWARFFormValue::createFromUValue(DW_FORM_udata, UData8); 1601 1602 EXPECT_FALSE(toString(FormValOpt3).hasValue()); 1603 EXPECT_TRUE(toUnsigned(FormValOpt3).hasValue()); 1604 EXPECT_FALSE(toReference(FormValOpt3).hasValue()); 1605 EXPECT_TRUE(toSigned(FormValOpt3).hasValue()); 1606 EXPECT_FALSE(toAddress(FormValOpt3).hasValue()); 1607 EXPECT_FALSE(toSectionOffset(FormValOpt3).hasValue()); 1608 EXPECT_FALSE(toBlock(FormValOpt3).hasValue()); 1609 EXPECT_EQ(nullptr, toString(FormValOpt3, nullptr)); 1610 EXPECT_EQ(UData8, toUnsigned(FormValOpt3, InvalidU64)); 1611 EXPECT_EQ(InvalidU64, toReference(FormValOpt3, InvalidU64)); 1612 EXPECT_EQ(InvalidU64, toAddress(FormValOpt3, InvalidU64)); 1613 EXPECT_EQ(InvalidU64, toSectionOffset(FormValOpt3, InvalidU64)); 1614 EXPECT_EQ((int64_t)UData8, toSigned(FormValOpt3, InvalidU64)); 1615 1616 // Test successful and unsuccessful reference decoding. 1617 uint32_t RefData = 0x11223344U; 1618 Optional<DWARFFormValue> FormValOpt4 = 1619 DWARFFormValue::createFromUValue(DW_FORM_ref_addr, RefData); 1620 1621 EXPECT_FALSE(toString(FormValOpt4).hasValue()); 1622 EXPECT_FALSE(toUnsigned(FormValOpt4).hasValue()); 1623 EXPECT_TRUE(toReference(FormValOpt4).hasValue()); 1624 EXPECT_FALSE(toSigned(FormValOpt4).hasValue()); 1625 EXPECT_FALSE(toAddress(FormValOpt4).hasValue()); 1626 EXPECT_FALSE(toSectionOffset(FormValOpt4).hasValue()); 1627 EXPECT_FALSE(toBlock(FormValOpt4).hasValue()); 1628 EXPECT_EQ(nullptr, toString(FormValOpt4, nullptr)); 1629 EXPECT_EQ(InvalidU64, toUnsigned(FormValOpt4, InvalidU64)); 1630 EXPECT_EQ(RefData, toReference(FormValOpt4, InvalidU64)); 1631 EXPECT_EQ(InvalidU64, toAddress(FormValOpt4, InvalidU64)); 1632 EXPECT_EQ(InvalidU64, toSectionOffset(FormValOpt4, InvalidU64)); 1633 EXPECT_EQ(InvalidS64, toSigned(FormValOpt4, InvalidU64)); 1634 1635 // Test successful and unsuccessful signed constant decoding. 1636 int64_t SData8 = 0x1020304050607080ULL; 1637 Optional<DWARFFormValue> FormValOpt5 = 1638 DWARFFormValue::createFromSValue(DW_FORM_udata, SData8); 1639 1640 EXPECT_FALSE(toString(FormValOpt5).hasValue()); 1641 EXPECT_TRUE(toUnsigned(FormValOpt5).hasValue()); 1642 EXPECT_FALSE(toReference(FormValOpt5).hasValue()); 1643 EXPECT_TRUE(toSigned(FormValOpt5).hasValue()); 1644 EXPECT_FALSE(toAddress(FormValOpt5).hasValue()); 1645 EXPECT_FALSE(toSectionOffset(FormValOpt5).hasValue()); 1646 EXPECT_FALSE(toBlock(FormValOpt5).hasValue()); 1647 EXPECT_EQ(nullptr, toString(FormValOpt5, nullptr)); 1648 EXPECT_EQ((uint64_t)SData8, toUnsigned(FormValOpt5, InvalidU64)); 1649 EXPECT_EQ(InvalidU64, toReference(FormValOpt5, InvalidU64)); 1650 EXPECT_EQ(InvalidU64, toAddress(FormValOpt5, InvalidU64)); 1651 EXPECT_EQ(InvalidU64, toSectionOffset(FormValOpt5, InvalidU64)); 1652 EXPECT_EQ(SData8, toSigned(FormValOpt5, InvalidU64)); 1653 1654 // Test successful and unsuccessful block decoding. 1655 uint8_t Data[] = { 2, 3, 4 }; 1656 ArrayRef<uint8_t> Array(Data); 1657 Optional<DWARFFormValue> FormValOpt6 = 1658 DWARFFormValue::createFromBlockValue(DW_FORM_block1, Array); 1659 1660 EXPECT_FALSE(toString(FormValOpt6).hasValue()); 1661 EXPECT_FALSE(toUnsigned(FormValOpt6).hasValue()); 1662 EXPECT_FALSE(toReference(FormValOpt6).hasValue()); 1663 EXPECT_FALSE(toSigned(FormValOpt6).hasValue()); 1664 EXPECT_FALSE(toAddress(FormValOpt6).hasValue()); 1665 EXPECT_FALSE(toSectionOffset(FormValOpt6).hasValue()); 1666 auto BlockOpt = toBlock(FormValOpt6); 1667 EXPECT_TRUE(BlockOpt.hasValue()); 1668 EXPECT_EQ(*BlockOpt, Array); 1669 EXPECT_EQ(nullptr, toString(FormValOpt6, nullptr)); 1670 EXPECT_EQ(InvalidU64, toUnsigned(FormValOpt6, InvalidU64)); 1671 EXPECT_EQ(InvalidU64, toReference(FormValOpt6, InvalidU64)); 1672 EXPECT_EQ(InvalidU64, toAddress(FormValOpt6, InvalidU64)); 1673 EXPECT_EQ(InvalidU64, toSectionOffset(FormValOpt6, InvalidU64)); 1674 EXPECT_EQ(InvalidS64, toSigned(FormValOpt6, InvalidU64)); 1675 1676 // Test 1677 } 1678 1679 TEST(DWARFDebugInfo, TestFindAttrs) { 1680 Triple Triple = getNormalizedDefaultTargetTriple(); 1681 if (!isConfigurationSupported(Triple)) 1682 return; 1683 1684 // Test the DWARFDie::find() and DWARFDie::findRecursively() that take an 1685 // ArrayRef<dwarf::Attribute> value to make sure they work correctly. 1686 uint16_t Version = 4; 1687 auto ExpectedDG = dwarfgen::Generator::create(Triple, Version); 1688 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 1689 dwarfgen::Generator *DG = ExpectedDG.get().get(); 1690 dwarfgen::CompileUnit &CU = DG->addCompileUnit(); 1691 1692 StringRef DieMangled("_Z3fooi"); 1693 // Scope to allow us to re-use the same DIE names 1694 { 1695 auto CUDie = CU.getUnitDIE(); 1696 auto FuncSpecDie = CUDie.addChild(DW_TAG_subprogram); 1697 auto FuncDie = CUDie.addChild(DW_TAG_subprogram); 1698 FuncSpecDie.addAttribute(DW_AT_MIPS_linkage_name, DW_FORM_strp, DieMangled); 1699 FuncDie.addAttribute(DW_AT_specification, DW_FORM_ref4, FuncSpecDie); 1700 } 1701 1702 MemoryBufferRef FileBuffer(DG->generate(), "dwarf"); 1703 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 1704 EXPECT_TRUE((bool)Obj); 1705 std::unique_ptr<DWARFContext> DwarfContext = DWARFContext::create(**Obj); 1706 1707 // Verify the number of compile units is correct. 1708 uint32_t NumCUs = DwarfContext->getNumCompileUnits(); 1709 EXPECT_EQ(NumCUs, 1u); 1710 DWARFCompileUnit *U = 1711 cast<DWARFCompileUnit>(DwarfContext->getUnitAtIndex(0)); 1712 1713 // Get the compile unit DIE is valid. 1714 auto CUDie = U->getUnitDIE(false); 1715 EXPECT_TRUE(CUDie.isValid()); 1716 1717 auto FuncSpecDie = CUDie.getFirstChild(); 1718 auto FuncDie = FuncSpecDie.getSibling(); 1719 1720 // Make sure that passing in an empty attribute list behave correctly. 1721 EXPECT_FALSE(FuncDie.find(ArrayRef<dwarf::Attribute>()).hasValue()); 1722 1723 // Make sure that passing in a list of attribute that are not contained 1724 // in the DIE returns nothing. 1725 EXPECT_FALSE(FuncDie.find({DW_AT_low_pc, DW_AT_entry_pc}).hasValue()); 1726 1727 const dwarf::Attribute Attrs[] = {DW_AT_linkage_name, 1728 DW_AT_MIPS_linkage_name}; 1729 1730 // Make sure we can't extract the linkage name attributes when using 1731 // DWARFDie::find() since it won't check the DW_AT_specification DIE. 1732 EXPECT_FALSE(FuncDie.find(Attrs).hasValue()); 1733 1734 // Make sure we can extract the name from the specification die when using 1735 // DWARFDie::findRecursively() since it should recurse through the 1736 // DW_AT_specification DIE. 1737 auto NameOpt = FuncDie.findRecursively(Attrs); 1738 EXPECT_TRUE(NameOpt.hasValue()); 1739 EXPECT_EQ(DieMangled, toString(NameOpt, "")); 1740 } 1741 1742 TEST(DWARFDebugInfo, TestImplicitConstAbbrevs) { 1743 Triple Triple = getNormalizedDefaultTargetTriple(); 1744 if (!isConfigurationSupported(Triple)) 1745 return; 1746 1747 uint16_t Version = 5; 1748 auto ExpectedDG = dwarfgen::Generator::create(Triple, Version); 1749 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 1750 dwarfgen::Generator *DG = ExpectedDG.get().get(); 1751 dwarfgen::CompileUnit &CU = DG->addCompileUnit(); 1752 dwarfgen::DIE CUDie = CU.getUnitDIE(); 1753 const dwarf::Attribute Attr = DW_AT_lo_user; 1754 const int64_t Val1 = 42; 1755 const int64_t Val2 = 43; 1756 1757 auto FirstVal1DIE = CUDie.addChild(DW_TAG_class_type); 1758 FirstVal1DIE.addAttribute(Attr, DW_FORM_implicit_const, Val1); 1759 1760 auto SecondVal1DIE = CUDie.addChild(DW_TAG_class_type); 1761 SecondVal1DIE.addAttribute(Attr, DW_FORM_implicit_const, Val1); 1762 1763 auto Val2DIE = CUDie.addChild(DW_TAG_class_type); 1764 Val2DIE.addAttribute(Attr, DW_FORM_implicit_const, Val2); 1765 1766 MemoryBufferRef FileBuffer(DG->generate(), "dwarf"); 1767 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 1768 EXPECT_TRUE((bool)Obj); 1769 std::unique_ptr<DWARFContext> DwarfContext = DWARFContext::create(**Obj); 1770 DWARFCompileUnit *U = 1771 cast<DWARFCompileUnit>(DwarfContext->getUnitAtIndex(0)); 1772 EXPECT_TRUE((bool)U); 1773 1774 const auto *Abbrevs = U->getAbbreviations(); 1775 EXPECT_TRUE((bool)Abbrevs); 1776 1777 // Let's find implicit_const abbrevs and verify, 1778 // that there are exactly two of them and both of them 1779 // can be dumped correctly. 1780 typedef decltype(Abbrevs->begin()) AbbrevIt; 1781 AbbrevIt Val1Abbrev = Abbrevs->end(); 1782 AbbrevIt Val2Abbrev = Abbrevs->end(); 1783 for(auto it = Abbrevs->begin(); it != Abbrevs->end(); ++it) { 1784 if (it->getNumAttributes() == 0) 1785 continue; // root abbrev for DW_TAG_compile_unit 1786 1787 auto A = it->getAttrByIndex(0); 1788 EXPECT_EQ(A, Attr); 1789 1790 auto FormValue = it->getAttributeValue(/* offset */ 0, A, *U); 1791 EXPECT_TRUE((bool)FormValue); 1792 EXPECT_EQ(FormValue->getForm(), dwarf::DW_FORM_implicit_const); 1793 1794 const auto V = FormValue->getAsSignedConstant(); 1795 EXPECT_TRUE((bool)V); 1796 1797 auto VerifyAbbrevDump = [&V](AbbrevIt it) { 1798 std::string S; 1799 llvm::raw_string_ostream OS(S); 1800 it->dump(OS); 1801 auto FormPos = OS.str().find("DW_FORM_implicit_const"); 1802 EXPECT_NE(FormPos, std::string::npos); 1803 auto ValPos = S.find_first_of("-0123456789", FormPos); 1804 EXPECT_NE(ValPos, std::string::npos); 1805 int64_t Val = std::atoll(S.substr(ValPos).c_str()); 1806 EXPECT_EQ(Val, *V); 1807 }; 1808 1809 switch(*V) { 1810 case Val1: 1811 EXPECT_EQ(Val1Abbrev, Abbrevs->end()); 1812 Val1Abbrev = it; 1813 VerifyAbbrevDump(it); 1814 break; 1815 case Val2: 1816 EXPECT_EQ(Val2Abbrev, Abbrevs->end()); 1817 Val2Abbrev = it; 1818 VerifyAbbrevDump(it); 1819 break; 1820 default: 1821 FAIL() << "Unexpected attribute value: " << *V; 1822 } 1823 } 1824 1825 // Now let's make sure that two Val1-DIEs refer to the same abbrev, 1826 // and Val2-DIE refers to another one. 1827 auto DieDG = U->getUnitDIE(false); 1828 auto it = DieDG.begin(); 1829 std::multimap<int64_t, decltype(it->getAbbreviationDeclarationPtr())> DIEs; 1830 const DWARFAbbreviationDeclaration *AbbrevPtrVal1 = nullptr; 1831 const DWARFAbbreviationDeclaration *AbbrevPtrVal2 = nullptr; 1832 for (; it != DieDG.end(); ++it) { 1833 const auto *AbbrevPtr = it->getAbbreviationDeclarationPtr(); 1834 EXPECT_TRUE((bool)AbbrevPtr); 1835 auto FormValue = it->find(Attr); 1836 EXPECT_TRUE((bool)FormValue); 1837 const auto V = FormValue->getAsSignedConstant(); 1838 EXPECT_TRUE((bool)V); 1839 switch(*V) { 1840 case Val1: 1841 AbbrevPtrVal1 = AbbrevPtr; 1842 break; 1843 case Val2: 1844 AbbrevPtrVal2 = AbbrevPtr; 1845 break; 1846 default: 1847 FAIL() << "Unexpected attribute value: " << *V; 1848 } 1849 DIEs.insert(std::make_pair(*V, AbbrevPtr)); 1850 } 1851 EXPECT_EQ(DIEs.count(Val1), 2u); 1852 EXPECT_EQ(DIEs.count(Val2), 1u); 1853 auto Val1Range = DIEs.equal_range(Val1); 1854 for (auto it = Val1Range.first; it != Val1Range.second; ++it) 1855 EXPECT_EQ(it->second, AbbrevPtrVal1); 1856 EXPECT_EQ(DIEs.find(Val2)->second, AbbrevPtrVal2); 1857 } 1858 1859 void VerifyWarning(DWARFContext &DwarfContext, StringRef Error) { 1860 SmallString<1024> Str; 1861 raw_svector_ostream Strm(Str); 1862 EXPECT_TRUE(DwarfContext.verify(Strm)); 1863 EXPECT_TRUE(Str.str().contains(Error)); 1864 } 1865 1866 void VerifyError(DWARFContext &DwarfContext, StringRef Error) { 1867 SmallString<1024> Str; 1868 raw_svector_ostream Strm(Str); 1869 EXPECT_FALSE(DwarfContext.verify(Strm)); 1870 EXPECT_TRUE(Str.str().contains(Error)); 1871 } 1872 1873 void VerifySuccess(DWARFContext &DwarfContext) { 1874 SmallString<1024> Str; 1875 raw_svector_ostream Strm(Str); 1876 EXPECT_TRUE(DwarfContext.verify(Strm)); 1877 } 1878 1879 TEST(DWARFDebugInfo, TestDwarfVerifyInvalidCURef) { 1880 // Create a single compile unit with a single function that has a DW_AT_type 1881 // that is CU relative. The CU offset is not valid because it is larger than 1882 // the compile unit itself. 1883 1884 const char *yamldata = R"( 1885 debug_str: 1886 - '' 1887 - /tmp/main.c 1888 - main 1889 debug_abbrev: 1890 - Code: 0x00000001 1891 Tag: DW_TAG_compile_unit 1892 Children: DW_CHILDREN_yes 1893 Attributes: 1894 - Attribute: DW_AT_name 1895 Form: DW_FORM_strp 1896 - Code: 0x00000002 1897 Tag: DW_TAG_subprogram 1898 Children: DW_CHILDREN_no 1899 Attributes: 1900 - Attribute: DW_AT_name 1901 Form: DW_FORM_strp 1902 - Attribute: DW_AT_type 1903 Form: DW_FORM_ref4 1904 debug_info: 1905 - Length: 1906 TotalLength: 22 1907 Version: 4 1908 AbbrOffset: 0 1909 AddrSize: 8 1910 Entries: 1911 - AbbrCode: 0x00000001 1912 Values: 1913 - Value: 0x0000000000000001 1914 - AbbrCode: 0x00000002 1915 Values: 1916 - Value: 0x000000000000000D 1917 - Value: 0x0000000000001234 1918 - AbbrCode: 0x00000000 1919 Values: 1920 )"; 1921 auto ErrOrSections = DWARFYAML::EmitDebugSections(StringRef(yamldata)); 1922 ASSERT_TRUE((bool)ErrOrSections); 1923 std::unique_ptr<DWARFContext> DwarfContext = 1924 DWARFContext::create(*ErrOrSections, 8); 1925 VerifyError(*DwarfContext, "error: DW_FORM_ref4 CU offset 0x00001234 is " 1926 "invalid (must be less than CU size of " 1927 "0x0000001a):"); 1928 } 1929 1930 TEST(DWARFDebugInfo, TestDwarfVerifyInvalidRefAddr) { 1931 // Create a single compile unit with a single function that has an invalid 1932 // DW_AT_type with an invalid .debug_info offset in its DW_FORM_ref_addr. 1933 const char *yamldata = R"( 1934 debug_str: 1935 - '' 1936 - /tmp/main.c 1937 - main 1938 debug_abbrev: 1939 - Code: 0x00000001 1940 Tag: DW_TAG_compile_unit 1941 Children: DW_CHILDREN_yes 1942 Attributes: 1943 - Attribute: DW_AT_name 1944 Form: DW_FORM_strp 1945 - Code: 0x00000002 1946 Tag: DW_TAG_subprogram 1947 Children: DW_CHILDREN_no 1948 Attributes: 1949 - Attribute: DW_AT_name 1950 Form: DW_FORM_strp 1951 - Attribute: DW_AT_type 1952 Form: DW_FORM_ref_addr 1953 debug_info: 1954 - Length: 1955 TotalLength: 22 1956 Version: 4 1957 AbbrOffset: 0 1958 AddrSize: 8 1959 Entries: 1960 - AbbrCode: 0x00000001 1961 Values: 1962 - Value: 0x0000000000000001 1963 - AbbrCode: 0x00000002 1964 Values: 1965 - Value: 0x000000000000000D 1966 - Value: 0x0000000000001234 1967 - AbbrCode: 0x00000000 1968 Values: 1969 )"; 1970 auto ErrOrSections = DWARFYAML::EmitDebugSections(StringRef(yamldata)); 1971 ASSERT_TRUE((bool)ErrOrSections); 1972 std::unique_ptr<DWARFContext> DwarfContext = 1973 DWARFContext::create(*ErrOrSections, 8); 1974 VerifyError(*DwarfContext, 1975 "error: DW_FORM_ref_addr offset beyond .debug_info bounds:"); 1976 } 1977 1978 TEST(DWARFDebugInfo, TestDwarfVerifyInvalidRanges) { 1979 // Create a single compile unit with a DW_AT_ranges whose section offset 1980 // isn't valid. 1981 const char *yamldata = R"( 1982 debug_str: 1983 - '' 1984 - /tmp/main.c 1985 debug_abbrev: 1986 - Code: 0x00000001 1987 Tag: DW_TAG_compile_unit 1988 Children: DW_CHILDREN_no 1989 Attributes: 1990 - Attribute: DW_AT_name 1991 Form: DW_FORM_strp 1992 - Attribute: DW_AT_ranges 1993 Form: DW_FORM_sec_offset 1994 debug_info: 1995 - Length: 1996 TotalLength: 16 1997 Version: 4 1998 AbbrOffset: 0 1999 AddrSize: 8 2000 Entries: 2001 - AbbrCode: 0x00000001 2002 Values: 2003 - Value: 0x0000000000000001 2004 - Value: 0x0000000000001000 2005 2006 )"; 2007 auto ErrOrSections = DWARFYAML::EmitDebugSections(StringRef(yamldata)); 2008 ASSERT_TRUE((bool)ErrOrSections); 2009 std::unique_ptr<DWARFContext> DwarfContext = 2010 DWARFContext::create(*ErrOrSections, 8); 2011 VerifyError(*DwarfContext, 2012 "error: DW_AT_ranges offset is beyond .debug_ranges bounds:"); 2013 } 2014 2015 TEST(DWARFDebugInfo, TestDwarfVerifyInvalidStmtList) { 2016 // Create a single compile unit with a DW_AT_stmt_list whose section offset 2017 // isn't valid. 2018 const char *yamldata = R"( 2019 debug_str: 2020 - '' 2021 - /tmp/main.c 2022 debug_abbrev: 2023 - Code: 0x00000001 2024 Tag: DW_TAG_compile_unit 2025 Children: DW_CHILDREN_no 2026 Attributes: 2027 - Attribute: DW_AT_name 2028 Form: DW_FORM_strp 2029 - Attribute: DW_AT_stmt_list 2030 Form: DW_FORM_sec_offset 2031 debug_info: 2032 - Length: 2033 TotalLength: 16 2034 Version: 4 2035 AbbrOffset: 0 2036 AddrSize: 8 2037 Entries: 2038 - AbbrCode: 0x00000001 2039 Values: 2040 - Value: 0x0000000000000001 2041 - Value: 0x0000000000001000 2042 2043 )"; 2044 auto ErrOrSections = DWARFYAML::EmitDebugSections(StringRef(yamldata)); 2045 ASSERT_TRUE((bool)ErrOrSections); 2046 std::unique_ptr<DWARFContext> DwarfContext = 2047 DWARFContext::create(*ErrOrSections, 8); 2048 VerifyError( 2049 *DwarfContext, 2050 "error: DW_AT_stmt_list offset is beyond .debug_line bounds: 0x00001000"); 2051 } 2052 2053 TEST(DWARFDebugInfo, TestDwarfVerifyInvalidStrp) { 2054 // Create a single compile unit with a single function that has an invalid 2055 // DW_FORM_strp for the DW_AT_name. 2056 const char *yamldata = R"( 2057 debug_str: 2058 - '' 2059 debug_abbrev: 2060 - Code: 0x00000001 2061 Tag: DW_TAG_compile_unit 2062 Children: DW_CHILDREN_no 2063 Attributes: 2064 - Attribute: DW_AT_name 2065 Form: DW_FORM_strp 2066 debug_info: 2067 - Length: 2068 TotalLength: 12 2069 Version: 4 2070 AbbrOffset: 0 2071 AddrSize: 8 2072 Entries: 2073 - AbbrCode: 0x00000001 2074 Values: 2075 - Value: 0x0000000000001234 2076 )"; 2077 auto ErrOrSections = DWARFYAML::EmitDebugSections(StringRef(yamldata)); 2078 ASSERT_TRUE((bool)ErrOrSections); 2079 std::unique_ptr<DWARFContext> DwarfContext = 2080 DWARFContext::create(*ErrOrSections, 8); 2081 VerifyError(*DwarfContext, 2082 "error: DW_FORM_strp offset beyond .debug_str bounds:"); 2083 } 2084 2085 TEST(DWARFDebugInfo, TestDwarfVerifyInvalidRefAddrBetween) { 2086 // Create a single compile unit with a single function that has a DW_AT_type 2087 // with a valid .debug_info offset, but the offset is between two DIEs. 2088 const char *yamldata = R"( 2089 debug_str: 2090 - '' 2091 - /tmp/main.c 2092 - main 2093 debug_abbrev: 2094 - Code: 0x00000001 2095 Tag: DW_TAG_compile_unit 2096 Children: DW_CHILDREN_yes 2097 Attributes: 2098 - Attribute: DW_AT_name 2099 Form: DW_FORM_strp 2100 - Code: 0x00000002 2101 Tag: DW_TAG_subprogram 2102 Children: DW_CHILDREN_no 2103 Attributes: 2104 - Attribute: DW_AT_name 2105 Form: DW_FORM_strp 2106 - Attribute: DW_AT_type 2107 Form: DW_FORM_ref_addr 2108 debug_info: 2109 - Length: 2110 TotalLength: 22 2111 Version: 4 2112 AbbrOffset: 0 2113 AddrSize: 8 2114 Entries: 2115 - AbbrCode: 0x00000001 2116 Values: 2117 - Value: 0x0000000000000001 2118 - AbbrCode: 0x00000002 2119 Values: 2120 - Value: 0x000000000000000D 2121 - Value: 0x0000000000000011 2122 - AbbrCode: 0x00000000 2123 Values: 2124 )"; 2125 auto ErrOrSections = DWARFYAML::EmitDebugSections(StringRef(yamldata)); 2126 ASSERT_TRUE((bool)ErrOrSections); 2127 std::unique_ptr<DWARFContext> DwarfContext = 2128 DWARFContext::create(*ErrOrSections, 8); 2129 VerifyError( 2130 *DwarfContext, 2131 "error: invalid DIE reference 0x00000011. Offset is in between DIEs:"); 2132 } 2133 2134 TEST(DWARFDebugInfo, TestDwarfVerifyInvalidLineSequence) { 2135 // Create a single compile unit whose line table has a sequence in it where 2136 // the address decreases. 2137 StringRef yamldata = R"( 2138 debug_str: 2139 - '' 2140 - /tmp/main.c 2141 debug_abbrev: 2142 - Code: 0x00000001 2143 Tag: DW_TAG_compile_unit 2144 Children: DW_CHILDREN_no 2145 Attributes: 2146 - Attribute: DW_AT_name 2147 Form: DW_FORM_strp 2148 - Attribute: DW_AT_stmt_list 2149 Form: DW_FORM_sec_offset 2150 debug_info: 2151 - Length: 2152 TotalLength: 16 2153 Version: 4 2154 AbbrOffset: 0 2155 AddrSize: 8 2156 Entries: 2157 - AbbrCode: 0x00000001 2158 Values: 2159 - Value: 0x0000000000000001 2160 - Value: 0x0000000000000000 2161 debug_line: 2162 - Length: 2163 TotalLength: 68 2164 Version: 2 2165 PrologueLength: 34 2166 MinInstLength: 1 2167 DefaultIsStmt: 1 2168 LineBase: 251 2169 LineRange: 14 2170 OpcodeBase: 13 2171 StandardOpcodeLengths: [ 0, 1, 1, 1, 1, 0, 0, 0, 1, 0, 0, 1 ] 2172 IncludeDirs: 2173 - /tmp 2174 Files: 2175 - Name: main.c 2176 DirIdx: 1 2177 ModTime: 0 2178 Length: 0 2179 Opcodes: 2180 - Opcode: DW_LNS_extended_op 2181 ExtLen: 9 2182 SubOpcode: DW_LNE_set_address 2183 Data: 4112 2184 - Opcode: DW_LNS_advance_line 2185 SData: 9 2186 Data: 4112 2187 - Opcode: DW_LNS_copy 2188 Data: 4112 2189 - Opcode: DW_LNS_advance_pc 2190 Data: 18446744073709551600 2191 - Opcode: DW_LNS_extended_op 2192 ExtLen: 1 2193 SubOpcode: DW_LNE_end_sequence 2194 Data: 18446744073709551600 2195 )"; 2196 auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata); 2197 ASSERT_TRUE((bool)ErrOrSections); 2198 std::unique_ptr<DWARFContext> DwarfContext = 2199 DWARFContext::create(*ErrOrSections, 8); 2200 VerifyError(*DwarfContext, "error: .debug_line[0x00000000] row[1] decreases " 2201 "in address from previous row:"); 2202 } 2203 2204 TEST(DWARFDebugInfo, TestDwarfVerifyInvalidLineFileIndex) { 2205 // Create a single compile unit whose line table has a line table row with 2206 // an invalid file index. 2207 StringRef yamldata = R"( 2208 debug_str: 2209 - '' 2210 - /tmp/main.c 2211 debug_abbrev: 2212 - Code: 0x00000001 2213 Tag: DW_TAG_compile_unit 2214 Children: DW_CHILDREN_no 2215 Attributes: 2216 - Attribute: DW_AT_name 2217 Form: DW_FORM_strp 2218 - Attribute: DW_AT_stmt_list 2219 Form: DW_FORM_sec_offset 2220 debug_info: 2221 - Length: 2222 TotalLength: 16 2223 Version: 4 2224 AbbrOffset: 0 2225 AddrSize: 8 2226 Entries: 2227 - AbbrCode: 0x00000001 2228 Values: 2229 - Value: 0x0000000000000001 2230 - Value: 0x0000000000000000 2231 debug_line: 2232 - Length: 2233 TotalLength: 61 2234 Version: 2 2235 PrologueLength: 34 2236 MinInstLength: 1 2237 DefaultIsStmt: 1 2238 LineBase: 251 2239 LineRange: 14 2240 OpcodeBase: 13 2241 StandardOpcodeLengths: [ 0, 1, 1, 1, 1, 0, 0, 0, 1, 0, 0, 1 ] 2242 IncludeDirs: 2243 - /tmp 2244 Files: 2245 - Name: main.c 2246 DirIdx: 1 2247 ModTime: 0 2248 Length: 0 2249 Opcodes: 2250 - Opcode: DW_LNS_extended_op 2251 ExtLen: 9 2252 SubOpcode: DW_LNE_set_address 2253 Data: 4096 2254 - Opcode: DW_LNS_advance_line 2255 SData: 9 2256 Data: 4096 2257 - Opcode: DW_LNS_copy 2258 Data: 4096 2259 - Opcode: DW_LNS_advance_pc 2260 Data: 16 2261 - Opcode: DW_LNS_set_file 2262 Data: 5 2263 - Opcode: DW_LNS_extended_op 2264 ExtLen: 1 2265 SubOpcode: DW_LNE_end_sequence 2266 Data: 5 2267 )"; 2268 auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata); 2269 ASSERT_TRUE((bool)ErrOrSections); 2270 std::unique_ptr<DWARFContext> DwarfContext = 2271 DWARFContext::create(*ErrOrSections, 8); 2272 VerifyError(*DwarfContext, "error: .debug_line[0x00000000][1] has invalid " 2273 "file index 5 (valid values are [1,1]):"); 2274 } 2275 2276 TEST(DWARFDebugInfo, TestDwarfVerifyInvalidLineTablePorlogueDirIndex) { 2277 // Create a single compile unit whose line table has a prologue with an 2278 // invalid dir index. 2279 StringRef yamldata = R"( 2280 debug_str: 2281 - '' 2282 - /tmp/main.c 2283 debug_abbrev: 2284 - Code: 0x00000001 2285 Tag: DW_TAG_compile_unit 2286 Children: DW_CHILDREN_no 2287 Attributes: 2288 - Attribute: DW_AT_name 2289 Form: DW_FORM_strp 2290 - Attribute: DW_AT_stmt_list 2291 Form: DW_FORM_sec_offset 2292 debug_info: 2293 - Length: 2294 TotalLength: 16 2295 Version: 4 2296 AbbrOffset: 0 2297 AddrSize: 8 2298 Entries: 2299 - AbbrCode: 0x00000001 2300 Values: 2301 - Value: 0x0000000000000001 2302 - Value: 0x0000000000000000 2303 debug_line: 2304 - Length: 2305 TotalLength: 61 2306 Version: 2 2307 PrologueLength: 34 2308 MinInstLength: 1 2309 DefaultIsStmt: 1 2310 LineBase: 251 2311 LineRange: 14 2312 OpcodeBase: 13 2313 StandardOpcodeLengths: [ 0, 1, 1, 1, 1, 0, 0, 0, 1, 0, 0, 1 ] 2314 IncludeDirs: 2315 - /tmp 2316 Files: 2317 - Name: main.c 2318 DirIdx: 2 2319 ModTime: 0 2320 Length: 0 2321 Opcodes: 2322 - Opcode: DW_LNS_extended_op 2323 ExtLen: 9 2324 SubOpcode: DW_LNE_set_address 2325 Data: 4096 2326 - Opcode: DW_LNS_advance_line 2327 SData: 9 2328 Data: 4096 2329 - Opcode: DW_LNS_copy 2330 Data: 4096 2331 - Opcode: DW_LNS_advance_pc 2332 Data: 16 2333 - Opcode: DW_LNS_set_file 2334 Data: 1 2335 - Opcode: DW_LNS_extended_op 2336 ExtLen: 1 2337 SubOpcode: DW_LNE_end_sequence 2338 Data: 1 2339 )"; 2340 auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata); 2341 ASSERT_TRUE((bool)ErrOrSections); 2342 std::unique_ptr<DWARFContext> DwarfContext = 2343 DWARFContext::create(*ErrOrSections, 8); 2344 VerifyError(*DwarfContext, 2345 "error: .debug_line[0x00000000].prologue." 2346 "file_names[1].dir_idx contains an invalid index: 2"); 2347 } 2348 2349 TEST(DWARFDebugInfo, TestDwarfVerifyDuplicateFileWarning) { 2350 // Create a single compile unit whose line table has a prologue with an 2351 // invalid dir index. 2352 StringRef yamldata = R"( 2353 debug_str: 2354 - '' 2355 - /tmp/main.c 2356 debug_abbrev: 2357 - Code: 0x00000001 2358 Tag: DW_TAG_compile_unit 2359 Children: DW_CHILDREN_no 2360 Attributes: 2361 - Attribute: DW_AT_name 2362 Form: DW_FORM_strp 2363 - Attribute: DW_AT_stmt_list 2364 Form: DW_FORM_sec_offset 2365 debug_info: 2366 - Length: 2367 TotalLength: 16 2368 Version: 4 2369 AbbrOffset: 0 2370 AddrSize: 8 2371 Entries: 2372 - AbbrCode: 0x00000001 2373 Values: 2374 - Value: 0x0000000000000001 2375 - Value: 0x0000000000000000 2376 debug_line: 2377 - Length: 2378 TotalLength: 71 2379 Version: 2 2380 PrologueLength: 44 2381 MinInstLength: 1 2382 DefaultIsStmt: 1 2383 LineBase: 251 2384 LineRange: 14 2385 OpcodeBase: 13 2386 StandardOpcodeLengths: [ 0, 1, 1, 1, 1, 0, 0, 0, 1, 0, 0, 1 ] 2387 IncludeDirs: 2388 - /tmp 2389 Files: 2390 - Name: main.c 2391 DirIdx: 1 2392 ModTime: 0 2393 Length: 0 2394 - Name: main.c 2395 DirIdx: 1 2396 ModTime: 0 2397 Length: 0 2398 Opcodes: 2399 - Opcode: DW_LNS_extended_op 2400 ExtLen: 9 2401 SubOpcode: DW_LNE_set_address 2402 Data: 4096 2403 - Opcode: DW_LNS_advance_line 2404 SData: 9 2405 Data: 4096 2406 - Opcode: DW_LNS_copy 2407 Data: 4096 2408 - Opcode: DW_LNS_advance_pc 2409 Data: 16 2410 - Opcode: DW_LNS_set_file 2411 Data: 1 2412 - Opcode: DW_LNS_extended_op 2413 ExtLen: 1 2414 SubOpcode: DW_LNE_end_sequence 2415 Data: 2 2416 )"; 2417 auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata); 2418 ASSERT_TRUE((bool)ErrOrSections); 2419 std::unique_ptr<DWARFContext> DwarfContext = 2420 DWARFContext::create(*ErrOrSections, 8); 2421 VerifyWarning(*DwarfContext, 2422 "warning: .debug_line[0x00000000].prologue.file_names[2] is " 2423 "a duplicate of file_names[1]"); 2424 } 2425 2426 TEST(DWARFDebugInfo, TestDwarfVerifyCUDontShareLineTable) { 2427 // Create a two compile units where both compile units share the same 2428 // DW_AT_stmt_list value and verify we report the error correctly. 2429 StringRef yamldata = R"( 2430 debug_str: 2431 - '' 2432 - /tmp/main.c 2433 - /tmp/foo.c 2434 debug_abbrev: 2435 - Code: 0x00000001 2436 Tag: DW_TAG_compile_unit 2437 Children: DW_CHILDREN_no 2438 Attributes: 2439 - Attribute: DW_AT_name 2440 Form: DW_FORM_strp 2441 - Attribute: DW_AT_stmt_list 2442 Form: DW_FORM_sec_offset 2443 debug_info: 2444 - Length: 2445 TotalLength: 16 2446 Version: 4 2447 AbbrOffset: 0 2448 AddrSize: 8 2449 Entries: 2450 - AbbrCode: 0x00000001 2451 Values: 2452 - Value: 0x0000000000000001 2453 - Value: 0x0000000000000000 2454 - Length: 2455 TotalLength: 16 2456 Version: 4 2457 AbbrOffset: 0 2458 AddrSize: 8 2459 Entries: 2460 - AbbrCode: 0x00000001 2461 Values: 2462 - Value: 0x000000000000000D 2463 - Value: 0x0000000000000000 2464 debug_line: 2465 - Length: 2466 TotalLength: 60 2467 Version: 2 2468 PrologueLength: 34 2469 MinInstLength: 1 2470 DefaultIsStmt: 1 2471 LineBase: 251 2472 LineRange: 14 2473 OpcodeBase: 13 2474 StandardOpcodeLengths: [ 0, 1, 1, 1, 1, 0, 0, 0, 1, 0, 0, 1 ] 2475 IncludeDirs: 2476 - /tmp 2477 Files: 2478 - Name: main.c 2479 DirIdx: 1 2480 ModTime: 0 2481 Length: 0 2482 Opcodes: 2483 - Opcode: DW_LNS_extended_op 2484 ExtLen: 9 2485 SubOpcode: DW_LNE_set_address 2486 Data: 4096 2487 - Opcode: DW_LNS_advance_line 2488 SData: 9 2489 Data: 4096 2490 - Opcode: DW_LNS_copy 2491 Data: 4096 2492 - Opcode: DW_LNS_advance_pc 2493 Data: 256 2494 - Opcode: DW_LNS_extended_op 2495 ExtLen: 1 2496 SubOpcode: DW_LNE_end_sequence 2497 Data: 256 2498 )"; 2499 auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata); 2500 ASSERT_TRUE((bool)ErrOrSections); 2501 std::unique_ptr<DWARFContext> DwarfContext = 2502 DWARFContext::create(*ErrOrSections, 8); 2503 VerifyError(*DwarfContext, 2504 "error: two compile unit DIEs, 0x0000000b and " 2505 "0x0000001f, have the same DW_AT_stmt_list section " 2506 "offset:"); 2507 } 2508 2509 TEST(DWARFDebugInfo, TestErrorReportingPolicy) { 2510 Triple Triple("x86_64-pc-linux"); 2511 if (!isConfigurationSupported(Triple)) 2512 return; 2513 2514 auto ExpectedDG = dwarfgen::Generator::create(Triple, 4 /*DwarfVersion*/); 2515 ASSERT_THAT_EXPECTED(ExpectedDG, Succeeded()); 2516 dwarfgen::Generator *DG = ExpectedDG.get().get(); 2517 AsmPrinter *AP = DG->getAsmPrinter(); 2518 MCContext *MC = DG->getMCContext(); 2519 2520 // Emit two compressed sections with broken headers. 2521 AP->OutStreamer->SwitchSection( 2522 MC->getELFSection(".zdebug_foo", 0 /*Type*/, 0 /*Flags*/)); 2523 AP->OutStreamer->EmitBytes("0"); 2524 AP->OutStreamer->SwitchSection( 2525 MC->getELFSection(".zdebug_bar", 0 /*Type*/, 0 /*Flags*/)); 2526 AP->OutStreamer->EmitBytes("0"); 2527 2528 MemoryBufferRef FileBuffer(DG->generate(), "dwarf"); 2529 auto Obj = object::ObjectFile::createObjectFile(FileBuffer); 2530 EXPECT_TRUE((bool)Obj); 2531 2532 // Case 1: error handler handles all errors. That allows 2533 // DWARFContext to parse whole file and find both two errors we know about. 2534 int Errors = 0; 2535 std::unique_ptr<DWARFContext> Ctx1 = 2536 DWARFContext::create(**Obj, nullptr, [&](Error E) { 2537 ++Errors; 2538 consumeError(std::move(E)); 2539 return ErrorPolicy::Continue; 2540 }); 2541 EXPECT_TRUE(Errors == 2); 2542 2543 // Case 2: error handler stops parsing of object after first error. 2544 Errors = 0; 2545 std::unique_ptr<DWARFContext> Ctx2 = 2546 DWARFContext::create(**Obj, nullptr, [&](Error E) { 2547 ++Errors; 2548 consumeError(std::move(E)); 2549 return ErrorPolicy::Halt; 2550 }); 2551 EXPECT_TRUE(Errors == 1); 2552 } 2553 2554 TEST(DWARFDebugInfo, TestDwarfVerifyCURangesIncomplete) { 2555 // Create a single compile unit with a single function. The compile 2556 // unit has a DW_AT_ranges attribute that doesn't fully contain the 2557 // address range of the function. The verification should fail due to 2558 // the CU ranges not containing all of the address ranges of all of the 2559 // functions. 2560 StringRef yamldata = R"( 2561 debug_str: 2562 - '' 2563 - /tmp/main.c 2564 debug_abbrev: 2565 - Code: 0x00000001 2566 Tag: DW_TAG_compile_unit 2567 Children: DW_CHILDREN_yes 2568 Attributes: 2569 - Attribute: DW_AT_low_pc 2570 Form: DW_FORM_addr 2571 - Attribute: DW_AT_high_pc 2572 Form: DW_FORM_addr 2573 - Attribute: DW_AT_name 2574 Form: DW_FORM_strp 2575 - Code: 0x00000002 2576 Tag: DW_TAG_subprogram 2577 Children: DW_CHILDREN_no 2578 Attributes: 2579 - Attribute: DW_AT_low_pc 2580 Form: DW_FORM_addr 2581 - Attribute: DW_AT_high_pc 2582 Form: DW_FORM_addr 2583 debug_info: 2584 - Length: 2585 TotalLength: 46 2586 Version: 4 2587 AbbrOffset: 0 2588 AddrSize: 8 2589 Entries: 2590 - AbbrCode: 0x00000001 2591 Values: 2592 - Value: 0x0000000000001000 2593 - Value: 0x0000000000001500 2594 - Value: 0x0000000000000001 2595 - AbbrCode: 0x00000002 2596 Values: 2597 - Value: 0x0000000000001000 2598 - Value: 0x0000000000002000 2599 - AbbrCode: 0x00000000 2600 Values: 2601 )"; 2602 auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata); 2603 ASSERT_TRUE((bool)ErrOrSections); 2604 std::unique_ptr<DWARFContext> DwarfContext = 2605 DWARFContext::create(*ErrOrSections, 8); 2606 VerifyError(*DwarfContext, "error: DIE address ranges are not " 2607 "contained in its parent's ranges:"); 2608 } 2609 2610 TEST(DWARFDebugInfo, TestDwarfVerifyLexicalBlockRanges) { 2611 // Create a single compile unit with a single function that has a lexical 2612 // block whose address range is not contained in the function address range. 2613 StringRef yamldata = R"( 2614 debug_str: 2615 - '' 2616 - /tmp/main.c 2617 - main 2618 debug_abbrev: 2619 - Code: 0x00000001 2620 Tag: DW_TAG_compile_unit 2621 Children: DW_CHILDREN_yes 2622 Attributes: 2623 - Attribute: DW_AT_name 2624 Form: DW_FORM_strp 2625 - Code: 0x00000002 2626 Tag: DW_TAG_subprogram 2627 Children: DW_CHILDREN_yes 2628 Attributes: 2629 - Attribute: DW_AT_name 2630 Form: DW_FORM_strp 2631 - Attribute: DW_AT_low_pc 2632 Form: DW_FORM_addr 2633 - Attribute: DW_AT_high_pc 2634 Form: DW_FORM_addr 2635 - Code: 0x00000003 2636 Tag: DW_TAG_lexical_block 2637 Children: DW_CHILDREN_no 2638 Attributes: 2639 - Attribute: DW_AT_low_pc 2640 Form: DW_FORM_addr 2641 - Attribute: DW_AT_high_pc 2642 Form: DW_FORM_addr 2643 debug_info: 2644 - Length: 2645 TotalLength: 52 2646 Version: 4 2647 AbbrOffset: 0 2648 AddrSize: 8 2649 Entries: 2650 - AbbrCode: 0x00000001 2651 Values: 2652 - Value: 0x0000000000000001 2653 - AbbrCode: 0x00000002 2654 Values: 2655 - Value: 0x000000000000000D 2656 - Value: 0x0000000000001000 2657 - Value: 0x0000000000002000 2658 - AbbrCode: 0x00000003 2659 Values: 2660 - Value: 0x0000000000001000 2661 - Value: 0x0000000000002001 2662 - AbbrCode: 0x00000000 2663 Values: 2664 - AbbrCode: 0x00000000 2665 Values: 2666 )"; 2667 auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata); 2668 ASSERT_TRUE((bool)ErrOrSections); 2669 std::unique_ptr<DWARFContext> DwarfContext = 2670 DWARFContext::create(*ErrOrSections, 8); 2671 VerifyError(*DwarfContext, "error: DIE address ranges are not " 2672 "contained in its parent's ranges:"); 2673 } 2674 2675 TEST(DWARFDebugInfo, TestDwarfVerifyOverlappingFunctionRanges) { 2676 // Create a single compile unit with a two functions that have overlapping 2677 // address ranges. 2678 StringRef yamldata = R"( 2679 debug_str: 2680 - '' 2681 - /tmp/main.c 2682 - main 2683 - foo 2684 debug_abbrev: 2685 - Code: 0x00000001 2686 Tag: DW_TAG_compile_unit 2687 Children: DW_CHILDREN_yes 2688 Attributes: 2689 - Attribute: DW_AT_name 2690 Form: DW_FORM_strp 2691 - Code: 0x00000002 2692 Tag: DW_TAG_subprogram 2693 Children: DW_CHILDREN_no 2694 Attributes: 2695 - Attribute: DW_AT_name 2696 Form: DW_FORM_strp 2697 - Attribute: DW_AT_low_pc 2698 Form: DW_FORM_addr 2699 - Attribute: DW_AT_high_pc 2700 Form: DW_FORM_addr 2701 debug_info: 2702 - Length: 2703 TotalLength: 55 2704 Version: 4 2705 AbbrOffset: 0 2706 AddrSize: 8 2707 Entries: 2708 - AbbrCode: 0x00000001 2709 Values: 2710 - Value: 0x0000000000000001 2711 - AbbrCode: 0x00000002 2712 Values: 2713 - Value: 0x000000000000000D 2714 - Value: 0x0000000000001000 2715 - Value: 0x0000000000002000 2716 - AbbrCode: 0x00000002 2717 Values: 2718 - Value: 0x0000000000000012 2719 - Value: 0x0000000000001FFF 2720 - Value: 0x0000000000002000 2721 - AbbrCode: 0x00000000 2722 Values: 2723 )"; 2724 auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata); 2725 ASSERT_TRUE((bool)ErrOrSections); 2726 std::unique_ptr<DWARFContext> DwarfContext = 2727 DWARFContext::create(*ErrOrSections, 8); 2728 VerifyError(*DwarfContext, "error: DIEs have overlapping address ranges:"); 2729 } 2730 2731 TEST(DWARFDebugInfo, TestDwarfVerifyOverlappingLexicalBlockRanges) { 2732 // Create a single compile unit with a one function that has two lexical 2733 // blocks with overlapping address ranges. 2734 StringRef yamldata = R"( 2735 debug_str: 2736 - '' 2737 - /tmp/main.c 2738 - main 2739 debug_abbrev: 2740 - Code: 0x00000001 2741 Tag: DW_TAG_compile_unit 2742 Children: DW_CHILDREN_yes 2743 Attributes: 2744 - Attribute: DW_AT_low_pc 2745 Form: DW_FORM_addr 2746 - Attribute: DW_AT_high_pc 2747 Form: DW_FORM_addr 2748 - Attribute: DW_AT_name 2749 Form: DW_FORM_strp 2750 - Code: 0x00000002 2751 Tag: DW_TAG_subprogram 2752 Children: DW_CHILDREN_yes 2753 Attributes: 2754 - Attribute: DW_AT_name 2755 Form: DW_FORM_strp 2756 - Attribute: DW_AT_low_pc 2757 Form: DW_FORM_addr 2758 - Attribute: DW_AT_high_pc 2759 Form: DW_FORM_addr 2760 - Code: 0x00000003 2761 Tag: DW_TAG_lexical_block 2762 Children: DW_CHILDREN_no 2763 Attributes: 2764 - Attribute: DW_AT_low_pc 2765 Form: DW_FORM_addr 2766 - Attribute: DW_AT_high_pc 2767 Form: DW_FORM_addr 2768 debug_info: 2769 - Length: 2770 TotalLength: 85 2771 Version: 4 2772 AbbrOffset: 0 2773 AddrSize: 8 2774 Entries: 2775 - AbbrCode: 0x00000001 2776 Values: 2777 - Value: 0x0000000000001000 2778 - Value: 0x0000000000002000 2779 - Value: 0x0000000000000001 2780 - AbbrCode: 0x00000002 2781 Values: 2782 - Value: 0x000000000000000D 2783 - Value: 0x0000000000001000 2784 - Value: 0x0000000000002000 2785 - AbbrCode: 0x00000003 2786 Values: 2787 - Value: 0x0000000000001100 2788 - Value: 0x0000000000001300 2789 - AbbrCode: 0x00000003 2790 Values: 2791 - Value: 0x00000000000012FF 2792 - Value: 0x0000000000001300 2793 - AbbrCode: 0x00000000 2794 Values: 2795 - AbbrCode: 0x00000000 2796 Values: 2797 )"; 2798 auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata); 2799 ASSERT_TRUE((bool)ErrOrSections); 2800 std::unique_ptr<DWARFContext> DwarfContext = 2801 DWARFContext::create(*ErrOrSections, 8); 2802 VerifyError(*DwarfContext, "error: DIEs have overlapping address ranges:"); 2803 } 2804 2805 TEST(DWARFDebugInfo, TestDwarfVerifyInvalidDIERange) { 2806 // Create a single compile unit with a single function that has an invalid 2807 // address range where the high PC is smaller than the low PC. 2808 StringRef yamldata = R"( 2809 debug_str: 2810 - '' 2811 - /tmp/main.c 2812 - main 2813 debug_abbrev: 2814 - Code: 0x00000001 2815 Tag: DW_TAG_compile_unit 2816 Children: DW_CHILDREN_yes 2817 Attributes: 2818 - Attribute: DW_AT_name 2819 Form: DW_FORM_strp 2820 - Code: 0x00000002 2821 Tag: DW_TAG_subprogram 2822 Children: DW_CHILDREN_no 2823 Attributes: 2824 - Attribute: DW_AT_name 2825 Form: DW_FORM_strp 2826 - Attribute: DW_AT_low_pc 2827 Form: DW_FORM_addr 2828 - Attribute: DW_AT_high_pc 2829 Form: DW_FORM_addr 2830 debug_info: 2831 - Length: 2832 TotalLength: 34 2833 Version: 4 2834 AbbrOffset: 0 2835 AddrSize: 8 2836 Entries: 2837 - AbbrCode: 0x00000001 2838 Values: 2839 - Value: 0x0000000000000001 2840 - AbbrCode: 0x00000002 2841 Values: 2842 - Value: 0x000000000000000D 2843 - Value: 0x0000000000001000 2844 - Value: 0x0000000000000900 2845 - AbbrCode: 0x00000000 2846 Values: 2847 )"; 2848 auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata); 2849 ASSERT_TRUE((bool)ErrOrSections); 2850 std::unique_ptr<DWARFContext> DwarfContext = 2851 DWARFContext::create(*ErrOrSections, 8); 2852 VerifyError(*DwarfContext, "error: Invalid address range"); 2853 } 2854 2855 TEST(DWARFDebugInfo, TestDwarfVerifyElidedDoesntFail) { 2856 // Create a single compile unit with two functions: one that has a valid range 2857 // and one whose low and high PC are the same. When the low and high PC are 2858 // the same, this indicates the function was dead code stripped. We want to 2859 // ensure that verification succeeds. 2860 StringRef yamldata = R"( 2861 debug_str: 2862 - '' 2863 - /tmp/main.c 2864 - main 2865 - elided 2866 debug_abbrev: 2867 - Code: 0x00000001 2868 Tag: DW_TAG_compile_unit 2869 Children: DW_CHILDREN_yes 2870 Attributes: 2871 - Attribute: DW_AT_low_pc 2872 Form: DW_FORM_addr 2873 - Attribute: DW_AT_high_pc 2874 Form: DW_FORM_addr 2875 - Attribute: DW_AT_name 2876 Form: DW_FORM_strp 2877 - Code: 0x00000002 2878 Tag: DW_TAG_subprogram 2879 Children: DW_CHILDREN_no 2880 Attributes: 2881 - Attribute: DW_AT_name 2882 Form: DW_FORM_strp 2883 - Attribute: DW_AT_low_pc 2884 Form: DW_FORM_addr 2885 - Attribute: DW_AT_high_pc 2886 Form: DW_FORM_addr 2887 debug_info: 2888 - Length: 2889 TotalLength: 71 2890 Version: 4 2891 AbbrOffset: 0 2892 AddrSize: 8 2893 Entries: 2894 - AbbrCode: 0x00000001 2895 Values: 2896 - Value: 0x0000000000001000 2897 - Value: 0x0000000000002000 2898 - Value: 0x0000000000000001 2899 - AbbrCode: 0x00000002 2900 Values: 2901 - Value: 0x000000000000000D 2902 - Value: 0x0000000000001000 2903 - Value: 0x0000000000002000 2904 - AbbrCode: 0x00000002 2905 Values: 2906 - Value: 0x0000000000000012 2907 - Value: 0x0000000000002000 2908 - Value: 0x0000000000002000 2909 - AbbrCode: 0x00000000 2910 Values: 2911 )"; 2912 auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata); 2913 ASSERT_TRUE((bool)ErrOrSections); 2914 std::unique_ptr<DWARFContext> DwarfContext = 2915 DWARFContext::create(*ErrOrSections, 8); 2916 VerifySuccess(*DwarfContext); 2917 } 2918 2919 TEST(DWARFDebugInfo, TestDwarfVerifyNestedFunctions) { 2920 // Create a single compile unit with a nested function which is not contained 2921 // in its parent. Although LLVM doesn't generate this, it is valid accoridng 2922 // to the DWARF standard. 2923 StringRef yamldata = R"( 2924 debug_str: 2925 - '' 2926 - /tmp/main.c 2927 - main 2928 - nested 2929 debug_abbrev: 2930 - Code: 0x00000001 2931 Tag: DW_TAG_compile_unit 2932 Children: DW_CHILDREN_yes 2933 Attributes: 2934 - Attribute: DW_AT_low_pc 2935 Form: DW_FORM_addr 2936 - Attribute: DW_AT_high_pc 2937 Form: DW_FORM_addr 2938 - Attribute: DW_AT_name 2939 Form: DW_FORM_strp 2940 - Code: 0x00000002 2941 Tag: DW_TAG_subprogram 2942 Children: DW_CHILDREN_yes 2943 Attributes: 2944 - Attribute: DW_AT_name 2945 Form: DW_FORM_strp 2946 - Attribute: DW_AT_low_pc 2947 Form: DW_FORM_addr 2948 - Attribute: DW_AT_high_pc 2949 Form: DW_FORM_addr 2950 debug_info: 2951 - Length: 2952 TotalLength: 73 2953 Version: 4 2954 AbbrOffset: 0 2955 AddrSize: 8 2956 Entries: 2957 - AbbrCode: 0x00000001 2958 Values: 2959 - Value: 0x0000000000001000 2960 - Value: 0x0000000000002000 2961 - Value: 0x0000000000000001 2962 - AbbrCode: 0x00000002 2963 Values: 2964 - Value: 0x000000000000000D 2965 - Value: 0x0000000000001000 2966 - Value: 0x0000000000001500 2967 - AbbrCode: 0x00000002 2968 Values: 2969 - Value: 0x0000000000000012 2970 - Value: 0x0000000000001500 2971 - Value: 0x0000000000002000 2972 - AbbrCode: 0x00000000 2973 Values: 2974 - AbbrCode: 0x00000000 2975 Values: 2976 - AbbrCode: 0x00000000 2977 Values: 2978 )"; 2979 auto ErrOrSections = DWARFYAML::EmitDebugSections(yamldata); 2980 ASSERT_TRUE((bool)ErrOrSections); 2981 std::unique_ptr<DWARFContext> DwarfContext = 2982 DWARFContext::create(*ErrOrSections, 8); 2983 VerifySuccess(*DwarfContext); 2984 } 2985 2986 TEST(DWARFDebugInfo, TestDWARFDieRangeInfoContains) { 2987 DWARFVerifier::DieRangeInfo Empty; 2988 ASSERT_TRUE(Empty.contains(Empty)); 2989 2990 DWARFVerifier::DieRangeInfo Ranges( 2991 {{0x10, 0x20}, {0x30, 0x40}, {0x40, 0x50}}); 2992 2993 ASSERT_TRUE(Ranges.contains(Empty)); 2994 ASSERT_FALSE(Ranges.contains({{{0x0f, 0x10}}})); 2995 ASSERT_FALSE(Ranges.contains({{{0x0f, 0x20}}})); 2996 ASSERT_FALSE(Ranges.contains({{{0x0f, 0x21}}})); 2997 2998 // Test ranges that start at R's start address 2999 ASSERT_TRUE(Ranges.contains({{{0x10, 0x10}}})); 3000 ASSERT_TRUE(Ranges.contains({{{0x10, 0x11}}})); 3001 ASSERT_TRUE(Ranges.contains({{{0x10, 0x20}}})); 3002 ASSERT_FALSE(Ranges.contains({{{0x10, 0x21}}})); 3003 3004 ASSERT_TRUE(Ranges.contains({{{0x11, 0x12}}})); 3005 3006 // Test ranges that start at last bytes of Range 3007 ASSERT_TRUE(Ranges.contains({{{0x1f, 0x20}}})); 3008 ASSERT_FALSE(Ranges.contains({{{0x1f, 0x21}}})); 3009 3010 // Test ranges that start after Range 3011 ASSERT_TRUE(Ranges.contains({{{0x20, 0x20}}})); 3012 ASSERT_FALSE(Ranges.contains({{{0x20, 0x21}}})); 3013 3014 ASSERT_TRUE(Ranges.contains({{{0x31, 0x32}}})); 3015 ASSERT_TRUE(Ranges.contains({{{0x3f, 0x40}}})); 3016 ASSERT_TRUE(Ranges.contains({{{0x10, 0x20}, {0x30, 0x40}}})); 3017 ASSERT_TRUE(Ranges.contains({{{0x11, 0x12}, {0x31, 0x32}}})); 3018 ASSERT_TRUE(Ranges.contains( 3019 {{{0x11, 0x12}, {0x12, 0x13}, {0x31, 0x32}, {0x32, 0x33}}})); 3020 ASSERT_FALSE(Ranges.contains({{{0x11, 0x12}, 3021 {0x12, 0x13}, 3022 {0x20, 0x21}, 3023 {0x31, 0x32}, 3024 {0x32, 0x33}}})); 3025 ASSERT_FALSE(Ranges.contains( 3026 {{{0x11, 0x12}, {0x12, 0x13}, {0x31, 0x32}, {0x32, 0x51}}})); 3027 ASSERT_TRUE(Ranges.contains({{{0x11, 0x12}, {0x30, 0x50}}})); 3028 ASSERT_FALSE(Ranges.contains({{{0x30, 0x51}}})); 3029 ASSERT_FALSE(Ranges.contains({{{0x50, 0x51}}})); 3030 } 3031 3032 namespace { 3033 3034 void AssertRangesIntersect(const DWARFAddressRange &LHS, 3035 const DWARFAddressRange &RHS) { 3036 ASSERT_TRUE(LHS.intersects(RHS)); 3037 ASSERT_TRUE(RHS.intersects(LHS)); 3038 } 3039 void AssertRangesDontIntersect(const DWARFAddressRange &LHS, 3040 const DWARFAddressRange &RHS) { 3041 ASSERT_FALSE(LHS.intersects(RHS)); 3042 ASSERT_FALSE(RHS.intersects(LHS)); 3043 } 3044 3045 void AssertRangesIntersect(const DWARFVerifier::DieRangeInfo &LHS, 3046 const DWARFAddressRangesVector &Ranges) { 3047 DWARFVerifier::DieRangeInfo RHS(Ranges); 3048 ASSERT_TRUE(LHS.intersects(RHS)); 3049 ASSERT_TRUE(RHS.intersects(LHS)); 3050 } 3051 3052 void AssertRangesDontIntersect(const DWARFVerifier::DieRangeInfo &LHS, 3053 const DWARFAddressRangesVector &Ranges) { 3054 DWARFVerifier::DieRangeInfo RHS(Ranges); 3055 ASSERT_FALSE(LHS.intersects(RHS)); 3056 ASSERT_FALSE(RHS.intersects(LHS)); 3057 } 3058 3059 } // namespace 3060 TEST(DWARFDebugInfo, TestDwarfRangesIntersect) { 3061 DWARFAddressRange R(0x10, 0x20); 3062 3063 //---------------------------------------------------------------------- 3064 // Test ranges that start before R... 3065 //---------------------------------------------------------------------- 3066 // Other range ends before start of R 3067 AssertRangesDontIntersect(R, {0x00, 0x10}); 3068 // Other range end address is start of a R 3069 AssertRangesIntersect(R, {0x00, 0x11}); 3070 // Other range end address is in R 3071 AssertRangesIntersect(R, {0x00, 0x15}); 3072 // Other range end address is at and of R 3073 AssertRangesIntersect(R, {0x00, 0x20}); 3074 // Other range end address is past end of R 3075 AssertRangesIntersect(R, {0x00, 0x40}); 3076 3077 //---------------------------------------------------------------------- 3078 // Test ranges that start at R's start address 3079 //---------------------------------------------------------------------- 3080 // Ensure empty ranges doesn't match 3081 AssertRangesDontIntersect(R, {0x10, 0x10}); 3082 // 1 byte of Range 3083 AssertRangesIntersect(R, {0x10, 0x11}); 3084 // same as Range 3085 AssertRangesIntersect(R, {0x10, 0x20}); 3086 // 1 byte past Range 3087 AssertRangesIntersect(R, {0x10, 0x21}); 3088 3089 //---------------------------------------------------------------------- 3090 // Test ranges that start inside Range 3091 //---------------------------------------------------------------------- 3092 // empty in range 3093 AssertRangesDontIntersect(R, {0x11, 0x11}); 3094 // all in Range 3095 AssertRangesIntersect(R, {0x11, 0x1f}); 3096 // ends at end of Range 3097 AssertRangesIntersect(R, {0x11, 0x20}); 3098 // ends past Range 3099 AssertRangesIntersect(R, {0x11, 0x21}); 3100 3101 //---------------------------------------------------------------------- 3102 // Test ranges that start at last bytes of Range 3103 //---------------------------------------------------------------------- 3104 // ends at end of Range 3105 AssertRangesIntersect(R, {0x1f, 0x20}); 3106 // ends past Range 3107 AssertRangesIntersect(R, {0x1f, 0x21}); 3108 3109 //---------------------------------------------------------------------- 3110 // Test ranges that start after Range 3111 //---------------------------------------------------------------------- 3112 // empty just past in Range 3113 AssertRangesDontIntersect(R, {0x20, 0x20}); 3114 // valid past Range 3115 AssertRangesDontIntersect(R, {0x20, 0x21}); 3116 } 3117 3118 TEST(DWARFDebugInfo, TestDWARFDieRangeInfoIntersects) { 3119 3120 DWARFVerifier::DieRangeInfo Ranges({{0x10, 0x20}, {0x30, 0x40}}); 3121 3122 // Test empty range 3123 AssertRangesDontIntersect(Ranges, {}); 3124 // Test range that appears before all ranges in Ranges 3125 AssertRangesDontIntersect(Ranges, {{0x00, 0x10}}); 3126 // Test range that appears between ranges in Ranges 3127 AssertRangesDontIntersect(Ranges, {{0x20, 0x30}}); 3128 // Test range that appears after ranges in Ranges 3129 AssertRangesDontIntersect(Ranges, {{0x40, 0x50}}); 3130 3131 // Test range that start before first range 3132 AssertRangesIntersect(Ranges, {{0x00, 0x11}}); 3133 // Test range that start at first range 3134 AssertRangesIntersect(Ranges, {{0x10, 0x11}}); 3135 // Test range that start in first range 3136 AssertRangesIntersect(Ranges, {{0x11, 0x12}}); 3137 // Test range that start at end of first range 3138 AssertRangesIntersect(Ranges, {{0x1f, 0x20}}); 3139 // Test range that starts at end of first range 3140 AssertRangesDontIntersect(Ranges, {{0x20, 0x21}}); 3141 // Test range that starts at end of first range 3142 AssertRangesIntersect(Ranges, {{0x20, 0x31}}); 3143 3144 // Test range that start before second range and ends before second 3145 AssertRangesDontIntersect(Ranges, {{0x2f, 0x30}}); 3146 // Test range that start before second range and ends in second 3147 AssertRangesIntersect(Ranges, {{0x2f, 0x31}}); 3148 // Test range that start at second range 3149 AssertRangesIntersect(Ranges, {{0x30, 0x31}}); 3150 // Test range that start in second range 3151 AssertRangesIntersect(Ranges, {{0x31, 0x32}}); 3152 // Test range that start at end of second range 3153 AssertRangesIntersect(Ranges, {{0x3f, 0x40}}); 3154 // Test range that starts at end of second range 3155 AssertRangesDontIntersect(Ranges, {{0x40, 0x41}}); 3156 3157 AssertRangesDontIntersect(Ranges, {{0x20, 0x21}, {0x2f, 0x30}}); 3158 AssertRangesIntersect(Ranges, {{0x20, 0x21}, {0x2f, 0x31}}); 3159 } 3160 3161 } // end anonymous namespace 3162