//===- DWARFDebugLineTest.cpp ---------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "DwarfGenerator.h" #include "DwarfUtils.h" #include "llvm/DebugInfo/DWARF/DWARFContext.h" #include "llvm/DebugInfo/DWARF/DWARFDebugLine.h" #include "llvm/Object/ObjectFile.h" #include "llvm/Testing/Support/Error.h" #include "gtest/gtest.h" using namespace llvm; using namespace dwarf; using namespace dwarfgen; using namespace object; using namespace utils; using namespace testing; namespace { struct CommonFixture { CommonFixture() : LineData("", true, 0), Recoverable(Error::success()), RecordRecoverable(std::bind(&CommonFixture::recordRecoverable, this, std::placeholders::_1)), Unrecoverable(Error::success()), RecordUnrecoverable(std::bind(&CommonFixture::recordUnrecoverable, this, std::placeholders::_1)){}; ~CommonFixture() { EXPECT_FALSE(Recoverable); EXPECT_FALSE(Unrecoverable); } bool setupGenerator(uint16_t Version = 4, uint8_t AddrSize = 8) { AddressSize = AddrSize; Triple T = getDefaultTargetTripleForAddrSize(AddressSize == 0 ? 8 : AddressSize); if (!isConfigurationSupported(T)) return false; auto ExpectedGenerator = Generator::create(T, Version); if (ExpectedGenerator) Gen.reset(ExpectedGenerator->release()); return true; } void generate() { Context = createContext(); assert(Context != nullptr && "test state is not valid"); const DWARFObject &Obj = Context->getDWARFObj(); uint8_t TargetAddrSize = AddressSize == 0 ? 8 : AddressSize; LineData = DWARFDataExtractor( Obj, Obj.getLineSection(), getDefaultTargetTripleForAddrSize(TargetAddrSize).isLittleEndian(), AddressSize); } std::unique_ptr createContext() { if (!Gen) return nullptr; StringRef FileBytes = Gen->generate(); MemoryBufferRef FileBuffer(FileBytes, "dwarf"); auto Obj = object::ObjectFile::createObjectFile(FileBuffer); if (Obj) return DWARFContext::create(**Obj); return nullptr; } DWARFDebugLine::SectionParser setupParser() { LineTable < = Gen->addLineTable(DWARF32); LT.addExtendedOpcode(9, DW_LNE_set_address, {{0xadd4e55, LineTable::Quad}}); LT.addStandardOpcode(DW_LNS_copy, {}); LT.addByte(0xaa); LT.addExtendedOpcode(1, DW_LNE_end_sequence, {}); LineTable <2 = Gen->addLineTable(DWARF64); LT2.addExtendedOpcode(9, DW_LNE_set_address, {{0x11223344, LineTable::Quad}}); LT2.addStandardOpcode(DW_LNS_copy, {}); LT2.addByte(0xbb); LT2.addExtendedOpcode(1, DW_LNE_end_sequence, {}); generate(); return DWARFDebugLine::SectionParser(LineData, *Context, CUs, TUs); } void recordRecoverable(Error Err) { Recoverable = joinErrors(std::move(Recoverable), std::move(Err)); } void recordUnrecoverable(Error Err) { Unrecoverable = joinErrors(std::move(Unrecoverable), std::move(Err)); } void checkError(ArrayRef ExpectedMsgs, Error Err) { ASSERT_TRUE(Err.operator bool()); size_t WhichMsg = 0; Error Remaining = handleErrors(std::move(Err), [&](const ErrorInfoBase &Actual) { ASSERT_LT(WhichMsg, ExpectedMsgs.size()); // Use .str(), because googletest doesn't visualise a StringRef // properly. EXPECT_EQ(Actual.message(), ExpectedMsgs[WhichMsg++].str()); }); EXPECT_EQ(WhichMsg, ExpectedMsgs.size()); EXPECT_FALSE(Remaining); } void checkError(StringRef ExpectedMsg, Error Err) { checkError(ArrayRef{ExpectedMsg}, std::move(Err)); } void checkGetOrParseLineTableEmitsFatalError(StringRef ExpectedMsg, uint64_t Offset = 0) { auto ExpectedLineTable = Line.getOrParseLineTable( LineData, Offset, *Context, nullptr, RecordRecoverable); EXPECT_FALSE(ExpectedLineTable); EXPECT_FALSE(Recoverable); checkError(ExpectedMsg, ExpectedLineTable.takeError()); } void checkGetOrParseLineTableEmitsFatalError(ArrayRef ExpectedMsgs, uint64_t Offset = 0) { auto ExpectedLineTable = Line.getOrParseLineTable( LineData, Offset, *Context, nullptr, RecordRecoverable); EXPECT_FALSE(ExpectedLineTable); EXPECT_FALSE(Recoverable); checkError(ExpectedMsgs, ExpectedLineTable.takeError()); } uint8_t AddressSize; std::unique_ptr Gen; std::unique_ptr Context; DWARFDataExtractor LineData; DWARFDebugLine Line; Error Recoverable; std::function RecordRecoverable; Error Unrecoverable; std::function RecordUnrecoverable; SmallVector, 2> CUs; SmallVector, 2> TUs; }; // Fixtures must derive from "Test", but parameterised fixtures from // "TestWithParam". It does not seem possible to inherit from both, so we share // the common state in a separate class, inherited by the two fixture classes. struct DebugLineBasicFixture : public Test, public CommonFixture {}; struct DebugLineParameterisedFixture : public TestWithParam>, public CommonFixture { void SetUp() { std::tie(Version, Format) = GetParam(); } uint16_t Version; DwarfFormat Format; }; void checkDefaultPrologue(uint16_t Version, DwarfFormat Format, DWARFDebugLine::Prologue Prologue, uint64_t BodyLength) { // Check version specific fields and values. uint64_t UnitLength; uint64_t PrologueLength; switch (Version) { case 4: PrologueLength = 36; UnitLength = PrologueLength + 2; EXPECT_EQ(Prologue.MaxOpsPerInst, 1u); break; case 2: case 3: PrologueLength = 35; UnitLength = PrologueLength + 2; break; case 5: PrologueLength = 39; UnitLength = PrologueLength + 4; EXPECT_EQ(Prologue.getAddressSize(), 8u); EXPECT_EQ(Prologue.SegSelectorSize, 0u); break; default: llvm_unreachable("unsupported DWARF version"); } UnitLength += BodyLength + (Format == DWARF32 ? 4 : 8); EXPECT_EQ(Prologue.TotalLength, UnitLength); EXPECT_EQ(Prologue.PrologueLength, PrologueLength); EXPECT_EQ(Prologue.MinInstLength, 1u); EXPECT_EQ(Prologue.DefaultIsStmt, 1u); EXPECT_EQ(Prologue.LineBase, -5); EXPECT_EQ(Prologue.LineRange, 14u); EXPECT_EQ(Prologue.OpcodeBase, 13u); std::vector ExpectedLengths = {0, 1, 1, 1, 1, 0, 0, 0, 1, 0, 0, 1}; EXPECT_EQ(Prologue.StandardOpcodeLengths, ExpectedLengths); ASSERT_EQ(Prologue.IncludeDirectories.size(), 1u); ASSERT_EQ(Prologue.IncludeDirectories[0].getForm(), DW_FORM_string); EXPECT_STREQ(*Prologue.IncludeDirectories[0].getAsCString(), "a dir"); ASSERT_EQ(Prologue.FileNames.size(), 1u); ASSERT_EQ(Prologue.FileNames[0].Name.getForm(), DW_FORM_string); EXPECT_STREQ(*Prologue.FileNames[0].Name.getAsCString(), "a file"); } TEST_F(DebugLineBasicFixture, GetOrParseLineTableAtInvalidOffset) { if (!setupGenerator()) return; generate(); checkGetOrParseLineTableEmitsFatalError( "offset 0x00000000 is not a valid debug line section offset", 0); // Repeat to show that an error is reported each time. checkGetOrParseLineTableEmitsFatalError( "offset 0x00000000 is not a valid debug line section offset", 0); // Show that an error is reported for later offsets too. checkGetOrParseLineTableEmitsFatalError( "offset 0x00000001 is not a valid debug line section offset", 1); } TEST_F(DebugLineBasicFixture, GetOrParseLineTableAtInvalidOffsetAfterData) { if (!setupGenerator()) return; LineTable < = Gen->addLineTable(); LT.setCustomPrologue({{0, LineTable::Byte}}); generate(); checkGetOrParseLineTableEmitsFatalError( "offset 0x00000001 is not a valid debug line section offset", 1); } TEST_P(DebugLineParameterisedFixture, GetOrParseLineTableValidTable) { if (!setupGenerator(Version)) return; SCOPED_TRACE("Checking Version " + std::to_string(Version) + ", Format " + (Format == DWARF64 ? "DWARF64" : "DWARF32")); LineTable < = Gen->addLineTable(Format); LT.addExtendedOpcode(9, DW_LNE_set_address, {{0xadd4e55, LineTable::Quad}}); LT.addStandardOpcode(DW_LNS_copy, {}); LT.addByte(0xaa); LT.addExtendedOpcode(1, DW_LNE_end_sequence, {}); LineTable <2 = Gen->addLineTable(Format); LT2.addExtendedOpcode(9, DW_LNE_set_address, {{0x11223344, LineTable::Quad}}); LT2.addStandardOpcode(DW_LNS_copy, {}); LT2.addByte(0xbb); LT2.addExtendedOpcode(1, DW_LNE_end_sequence, {}); LT2.addExtendedOpcode(9, DW_LNE_set_address, {{0x55667788, LineTable::Quad}}); LT2.addStandardOpcode(DW_LNS_copy, {}); LT2.addByte(0xcc); LT2.addExtendedOpcode(1, DW_LNE_end_sequence, {}); generate(); auto ExpectedLineTable = Line.getOrParseLineTable(LineData, 0, *Context, nullptr, RecordRecoverable); ASSERT_TRUE(ExpectedLineTable.operator bool()); EXPECT_FALSE(Recoverable); const DWARFDebugLine::LineTable *Expected = *ExpectedLineTable; checkDefaultPrologue(Version, Format, Expected->Prologue, 16); EXPECT_EQ(Expected->Sequences.size(), 1u); uint64_t SecondOffset = Expected->Prologue.sizeofTotalLength() + Expected->Prologue.TotalLength; Recoverable = Error::success(); auto ExpectedLineTable2 = Line.getOrParseLineTable( LineData, SecondOffset, *Context, nullptr, RecordRecoverable); ASSERT_TRUE(ExpectedLineTable2.operator bool()); EXPECT_FALSE(Recoverable); const DWARFDebugLine::LineTable *Expected2 = *ExpectedLineTable2; checkDefaultPrologue(Version, Format, Expected2->Prologue, 32); EXPECT_EQ(Expected2->Sequences.size(), 2u); EXPECT_NE(Expected, Expected2); // Check that if the same offset is requested, the exact same pointer is // returned. Recoverable = Error::success(); auto ExpectedLineTable3 = Line.getOrParseLineTable( LineData, 0, *Context, nullptr, RecordRecoverable); ASSERT_TRUE(ExpectedLineTable3.operator bool()); EXPECT_FALSE(Recoverable); EXPECT_EQ(Expected, *ExpectedLineTable3); Recoverable = Error::success(); auto ExpectedLineTable4 = Line.getOrParseLineTable( LineData, SecondOffset, *Context, nullptr, RecordRecoverable); ASSERT_TRUE(ExpectedLineTable4.operator bool()); EXPECT_FALSE(Recoverable); EXPECT_EQ(Expected2, *ExpectedLineTable4); // TODO: Add tests that show that the body of the programs have been read // correctly. } TEST_F(DebugLineBasicFixture, ErrorForReservedLength) { if (!setupGenerator()) return; LineTable < = Gen->addLineTable(); LT.setCustomPrologue({{0xfffffff0, LineTable::Long}}); generate(); checkGetOrParseLineTableEmitsFatalError( "parsing line table prologue at offset 0x00000000 unsupported reserved " "unit length found of value 0xfffffff0"); } TEST_F(DebugLineBasicFixture, ErrorForLowVersion) { if (!setupGenerator()) return; LineTable < = Gen->addLineTable(); LT.setCustomPrologue( {{LineTable::Half, LineTable::Long}, {1, LineTable::Half}}); generate(); checkGetOrParseLineTableEmitsFatalError( "parsing line table prologue at offset " "0x00000000 found unsupported version " "0x01"); } TEST_F(DebugLineBasicFixture, ErrorForInvalidV5IncludeDirTable) { if (!setupGenerator(5)) return; LineTable < = Gen->addLineTable(); LT.setCustomPrologue({ {19, LineTable::Long}, // unit length {5, LineTable::Half}, // version {8, LineTable::Byte}, // addr size {0, LineTable::Byte}, // segment selector size {11, LineTable::Long}, // prologue length {1, LineTable::Byte}, // min instruction length {1, LineTable::Byte}, // max ops per instruction {1, LineTable::Byte}, // default is_stmt {0, LineTable::Byte}, // line base {14, LineTable::Byte}, // line range {2, LineTable::Byte}, // opcode base (small to reduce the amount of // setup required). {0, LineTable::Byte}, // standard opcode lengths {0, LineTable::Byte}, // directory entry format count (should not be // zero). {0, LineTable::ULEB}, // directories count {0, LineTable::Byte}, // file name entry format count {0, LineTable::ULEB} // file name entry count }); generate(); checkGetOrParseLineTableEmitsFatalError( {"parsing line table prologue at 0x00000000 found an invalid directory " "or file table description at 0x00000014", "failed to parse entry content descriptions because no path was found"}); } TEST_P(DebugLineParameterisedFixture, ErrorForTooLargePrologueLength) { if (!setupGenerator(Version)) return; SCOPED_TRACE("Checking Version " + std::to_string(Version) + ", Format " + (Format == DWARF64 ? "DWARF64" : "DWARF32")); LineTable < = Gen->addLineTable(Format); DWARFDebugLine::Prologue Prologue = LT.createBasicPrologue(); ++Prologue.PrologueLength; LT.setPrologue(Prologue); generate(); uint64_t ExpectedEnd = Prologue.TotalLength + 1 + Prologue.sizeofTotalLength(); checkGetOrParseLineTableEmitsFatalError( (Twine("parsing line table prologue at 0x00000000 should have ended at " "0x000000") + Twine::utohexstr(ExpectedEnd) + " but it ended at 0x000000" + Twine::utohexstr(ExpectedEnd - 1)) .str()); } TEST_P(DebugLineParameterisedFixture, ErrorForTooShortPrologueLength) { if (!setupGenerator(Version)) return; SCOPED_TRACE("Checking Version " + std::to_string(Version) + ", Format " + (Format == DWARF64 ? "DWARF64" : "DWARF32")); LineTable < = Gen->addLineTable(Format); DWARFDebugLine::Prologue Prologue = LT.createBasicPrologue(); // FIXME: Ideally, we'd test for 1 less than expected, but the code does not // currently fail if missing only the terminator of a v2-4 file table. if (Version < 5) Prologue.PrologueLength -= 2; else Prologue.PrologueLength -= 1; LT.setPrologue(Prologue); generate(); uint64_t ExpectedEnd = Prologue.TotalLength - 1 + Prologue.sizeofTotalLength(); if (Version < 5) --ExpectedEnd; checkGetOrParseLineTableEmitsFatalError( (Twine("parsing line table prologue at 0x00000000 should have ended at " "0x000000") + Twine::utohexstr(ExpectedEnd) + " but it ended at 0x000000" + Twine::utohexstr(ExpectedEnd + 1)) .str()); } INSTANTIATE_TEST_CASE_P( LineTableTestParams, DebugLineParameterisedFixture, Values(std::make_pair( 2, DWARF32), // Test lower-bound of v2-3 fields and DWARF32. std::make_pair(3, DWARF32), // Test upper-bound of v2-3 fields. std::make_pair(4, DWARF64), // Test v4 fields and DWARF64. std::make_pair(5, DWARF32), std::make_pair(5, DWARF64)), ); TEST_F(DebugLineBasicFixture, ErrorForInvalidExtendedOpcodeLength) { if (!setupGenerator()) return; LineTable < = Gen->addLineTable(); // The Length should be 1 for an end sequence opcode. LT.addExtendedOpcode(2, DW_LNE_end_sequence, {}); generate(); checkGetOrParseLineTableEmitsFatalError( "unexpected line op length at offset " "0x00000030 expected 0x02 found 0x01"); } TEST_F(DebugLineBasicFixture, ErrorForUnitLengthTooLarge) { if (!setupGenerator()) return; LineTable &Padding = Gen->addLineTable(); // Add some padding to show that a non-zero offset is handled correctly. Padding.setCustomPrologue({{0, LineTable::Byte}}); LineTable < = Gen->addLineTable(); LT.addStandardOpcode(DW_LNS_copy, {}); LT.addStandardOpcode(DW_LNS_const_add_pc, {}); LT.addExtendedOpcode(1, DW_LNE_end_sequence, {}); DWARFDebugLine::Prologue Prologue = LT.createBasicPrologue(); // Set the total length to 1 higher than the actual length. The program body // has size 5. Prologue.TotalLength += 6; LT.setPrologue(Prologue); generate(); auto ExpectedLineTable = Line.getOrParseLineTable(LineData, 1, *Context, nullptr, RecordRecoverable); checkError("line table program with offset 0x00000001 has length 0x00000034 " "but only 0x00000033 bytes are available", std::move(Recoverable)); ASSERT_THAT_EXPECTED(ExpectedLineTable, Succeeded()); EXPECT_EQ((*ExpectedLineTable)->Rows.size(), 2u); EXPECT_EQ((*ExpectedLineTable)->Sequences.size(), 1u); } TEST_F(DebugLineBasicFixture, ErrorForMismatchedAddressSize) { if (!setupGenerator(4, 8)) return; LineTable < = Gen->addLineTable(); // The line data extractor expects size 8 (Quad) addresses. uint64_t Addr1 = 0x11223344; LT.addExtendedOpcode(5, DW_LNE_set_address, {{Addr1, LineTable::Long}}); LT.addStandardOpcode(DW_LNS_copy, {}); // Show that the expected address size is unchanged, so later valid lines // don't cause a problem. uint64_t Addr2 = 0x1122334455667788; LT.addExtendedOpcode(9, DW_LNE_set_address, {{Addr2, LineTable::Quad}}); LT.addExtendedOpcode(1, DW_LNE_end_sequence, {}); generate(); auto ExpectedLineTable = Line.getOrParseLineTable(LineData, 0, *Context, nullptr, RecordRecoverable); checkError( "mismatching address size at offset 0x00000030 expected 0x08 found 0x04", std::move(Recoverable)); ASSERT_THAT_EXPECTED(ExpectedLineTable, Succeeded()); ASSERT_EQ((*ExpectedLineTable)->Rows.size(), 2u); EXPECT_EQ((*ExpectedLineTable)->Sequences.size(), 1u); EXPECT_EQ((*ExpectedLineTable)->Rows[0].Address.Address, Addr1); EXPECT_EQ((*ExpectedLineTable)->Rows[1].Address.Address, Addr2); } TEST_F(DebugLineBasicFixture, ErrorForMismatchedAddressSizeUnsetInitialAddress) { if (!setupGenerator(4, 0)) return; LineTable < = Gen->addLineTable(); uint64_t Addr1 = 0x11223344; LT.addExtendedOpcode(5, DW_LNE_set_address, {{Addr1, LineTable::Long}}); LT.addStandardOpcode(DW_LNS_copy, {}); uint64_t Addr2 = 0x1122334455667788; LT.addExtendedOpcode(9, DW_LNE_set_address, {{Addr2, LineTable::Quad}}); LT.addExtendedOpcode(1, DW_LNE_end_sequence, {}); generate(); auto ExpectedLineTable = Line.getOrParseLineTable(LineData, 0, *Context, nullptr, RecordRecoverable); checkError( "mismatching address size at offset 0x00000038 expected 0x04 found 0x08", std::move(Recoverable)); ASSERT_THAT_EXPECTED(ExpectedLineTable, Succeeded()); ASSERT_EQ((*ExpectedLineTable)->Rows.size(), 2u); EXPECT_EQ((*ExpectedLineTable)->Sequences.size(), 1u); EXPECT_EQ((*ExpectedLineTable)->Rows[0].Address.Address, Addr1); EXPECT_EQ((*ExpectedLineTable)->Rows[1].Address.Address, Addr2); } TEST_F(DebugLineBasicFixture, CallbackUsedForUnterminatedSequence) { if (!setupGenerator()) return; LineTable < = Gen->addLineTable(); LT.addExtendedOpcode(9, DW_LNE_set_address, {{0x1122334455667788, LineTable::Quad}}); LT.addStandardOpcode(DW_LNS_copy, {}); LT.addByte(0xaa); LT.addExtendedOpcode(1, DW_LNE_end_sequence, {}); LT.addExtendedOpcode(9, DW_LNE_set_address, {{0x99aabbccddeeff00, LineTable::Quad}}); LT.addStandardOpcode(DW_LNS_copy, {}); LT.addByte(0xbb); LT.addByte(0xcc); generate(); auto ExpectedLineTable = Line.getOrParseLineTable(LineData, 0, *Context, nullptr, RecordRecoverable); checkError("last sequence in debug line table at offset 0x00000000 is not " "terminated", std::move(Recoverable)); ASSERT_TRUE(ExpectedLineTable.operator bool()); EXPECT_EQ((*ExpectedLineTable)->Rows.size(), 6u); // The unterminated sequence is not added to the sequence list. EXPECT_EQ((*ExpectedLineTable)->Sequences.size(), 1u); } TEST_F(DebugLineBasicFixture, ParserParsesCorrectly) { if (!setupGenerator()) return; DWARFDebugLine::SectionParser Parser = setupParser(); EXPECT_EQ(Parser.getOffset(), 0u); ASSERT_FALSE(Parser.done()); DWARFDebugLine::LineTable Parsed = Parser.parseNext(RecordRecoverable, RecordUnrecoverable); checkDefaultPrologue(4, DWARF32, Parsed.Prologue, 16); EXPECT_EQ(Parsed.Sequences.size(), 1u); EXPECT_EQ(Parser.getOffset(), 62u); ASSERT_FALSE(Parser.done()); DWARFDebugLine::LineTable Parsed2 = Parser.parseNext(RecordRecoverable, RecordUnrecoverable); checkDefaultPrologue(4, DWARF64, Parsed2.Prologue, 16); EXPECT_EQ(Parsed2.Sequences.size(), 1u); EXPECT_EQ(Parser.getOffset(), 136u); EXPECT_TRUE(Parser.done()); EXPECT_FALSE(Recoverable); EXPECT_FALSE(Unrecoverable); } TEST_F(DebugLineBasicFixture, ParserSkipsCorrectly) { if (!setupGenerator()) return; DWARFDebugLine::SectionParser Parser = setupParser(); EXPECT_EQ(Parser.getOffset(), 0u); ASSERT_FALSE(Parser.done()); Parser.skip(RecordUnrecoverable); EXPECT_EQ(Parser.getOffset(), 62u); ASSERT_FALSE(Parser.done()); Parser.skip(RecordUnrecoverable); EXPECT_EQ(Parser.getOffset(), 136u); EXPECT_TRUE(Parser.done()); EXPECT_FALSE(Unrecoverable); } TEST_F(DebugLineBasicFixture, ParserAlwaysDoneForEmptySection) { if (!setupGenerator()) return; generate(); DWARFDebugLine::SectionParser Parser(LineData, *Context, CUs, TUs); EXPECT_TRUE(Parser.done()); } TEST_F(DebugLineBasicFixture, ParserMovesToEndForBadLengthWhenParsing) { if (!setupGenerator()) return; LineTable < = Gen->addLineTable(); LT.setCustomPrologue({{0xfffffff0, LineTable::Long}}); Gen->addLineTable(); generate(); DWARFDebugLine::SectionParser Parser(LineData, *Context, CUs, TUs); Parser.parseNext(RecordRecoverable, RecordUnrecoverable); EXPECT_EQ(Parser.getOffset(), 4u); EXPECT_TRUE(Parser.done()); EXPECT_FALSE(Recoverable); checkError("parsing line table prologue at offset 0x00000000 unsupported " "reserved unit length found of value 0xfffffff0", std::move(Unrecoverable)); } TEST_F(DebugLineBasicFixture, ParserMovesToEndForBadLengthWhenSkipping) { if (!setupGenerator()) return; LineTable < = Gen->addLineTable(); LT.setCustomPrologue({{0xfffffff0, LineTable::Long}}); Gen->addLineTable(); generate(); DWARFDebugLine::SectionParser Parser(LineData, *Context, CUs, TUs); Parser.skip(RecordUnrecoverable); EXPECT_EQ(Parser.getOffset(), 4u); EXPECT_TRUE(Parser.done()); checkError("parsing line table prologue at offset 0x00000000 unsupported " "reserved unit length found of value 0xfffffff0", std::move(Unrecoverable)); } TEST_F(DebugLineBasicFixture, ParserReportsFirstErrorInEachTableWhenParsing) { if (!setupGenerator()) return; LineTable < = Gen->addLineTable(DWARF32); LT.setCustomPrologue({{2, LineTable::Long}, {0, LineTable::Half}}); LineTable <2 = Gen->addLineTable(DWARF32); LT2.setCustomPrologue({{2, LineTable::Long}, {1, LineTable::Half}}); generate(); DWARFDebugLine::SectionParser Parser(LineData, *Context, CUs, TUs); Parser.parseNext(RecordRecoverable, RecordUnrecoverable); ASSERT_FALSE(Parser.done()); Parser.parseNext(RecordRecoverable, RecordUnrecoverable); EXPECT_TRUE(Parser.done()); EXPECT_FALSE(Recoverable); checkError({"parsing line table prologue at offset 0x00000000 found " "unsupported version 0x00", "parsing line table prologue at offset 0x00000006 found " "unsupported version 0x01"}, std::move(Unrecoverable)); } TEST_F(DebugLineBasicFixture, ParserReportsNonPrologueProblemsWhenParsing) { if (!setupGenerator()) return; LineTable < = Gen->addLineTable(DWARF32); LT.addExtendedOpcode(0x42, DW_LNE_end_sequence, {}); LineTable <2 = Gen->addLineTable(DWARF32); LT2.addExtendedOpcode(9, DW_LNE_set_address, {{0x1234567890abcdef, LineTable::Quad}}); LT2.addStandardOpcode(DW_LNS_copy, {}); LT2.addByte(0xbb); generate(); DWARFDebugLine::SectionParser Parser(LineData, *Context, CUs, TUs); Parser.parseNext(RecordRecoverable, RecordUnrecoverable); EXPECT_FALSE(Recoverable); ASSERT_FALSE(Parser.done()); checkError( "unexpected line op length at offset 0x00000030 expected 0x42 found 0x01", std::move(Unrecoverable)); // Reset the error state so that it does not confuse the next set of checks. Unrecoverable = Error::success(); Parser.parseNext(RecordRecoverable, RecordUnrecoverable); EXPECT_TRUE(Parser.done()); checkError("last sequence in debug line table at offset 0x00000031 is not " "terminated", std::move(Recoverable)); EXPECT_FALSE(Unrecoverable); } TEST_F(DebugLineBasicFixture, ParserReportsPrologueErrorsInEachTableWhenSkipping) { if (!setupGenerator()) return; LineTable < = Gen->addLineTable(DWARF32); LT.setCustomPrologue({{2, LineTable::Long}, {0, LineTable::Half}}); LineTable <2 = Gen->addLineTable(DWARF32); LT2.setCustomPrologue({{2, LineTable::Long}, {1, LineTable::Half}}); generate(); DWARFDebugLine::SectionParser Parser(LineData, *Context, CUs, TUs); Parser.skip(RecordUnrecoverable); ASSERT_FALSE(Parser.done()); Parser.skip(RecordUnrecoverable); EXPECT_TRUE(Parser.done()); checkError({"parsing line table prologue at offset 0x00000000 found " "unsupported version 0x00", "parsing line table prologue at offset 0x00000006 found " "unsupported version 0x01"}, std::move(Unrecoverable)); } TEST_F(DebugLineBasicFixture, ParserIgnoresNonPrologueErrorsWhenSkipping) { if (!setupGenerator()) return; LineTable < = Gen->addLineTable(DWARF32); LT.addExtendedOpcode(42, DW_LNE_end_sequence, {}); generate(); DWARFDebugLine::SectionParser Parser(LineData, *Context, CUs, TUs); Parser.skip(RecordUnrecoverable); EXPECT_TRUE(Parser.done()); EXPECT_FALSE(Unrecoverable); } TEST_F(DebugLineBasicFixture, ParserPrintsStandardOpcodesWhenRequested) { if (!setupGenerator()) return; using ValLen = dwarfgen::LineTable::ValueAndLength; LineTable < = Gen->addLineTable(DWARF32); LT.addStandardOpcode(DW_LNS_copy, {}); LT.addStandardOpcode(DW_LNS_advance_pc, {ValLen{11, LineTable::ULEB}}); LT.addStandardOpcode(DW_LNS_advance_line, {ValLen{22, LineTable::SLEB}}); LT.addStandardOpcode(DW_LNS_set_file, {ValLen{33, LineTable::ULEB}}); LT.addStandardOpcode(DW_LNS_set_column, {ValLen{44, LineTable::ULEB}}); LT.addStandardOpcode(DW_LNS_negate_stmt, {}); LT.addStandardOpcode(DW_LNS_set_basic_block, {}); LT.addStandardOpcode(DW_LNS_const_add_pc, {}); LT.addStandardOpcode(DW_LNS_fixed_advance_pc, {ValLen{55, LineTable::Half}}); LT.addStandardOpcode(DW_LNS_set_prologue_end, {}); LT.addStandardOpcode(DW_LNS_set_epilogue_begin, {}); LT.addStandardOpcode(DW_LNS_set_isa, {ValLen{66, LineTable::ULEB}}); LT.addExtendedOpcode(1, DW_LNE_end_sequence, {}); generate(); DWARFDebugLine::SectionParser Parser(LineData, *Context, CUs, TUs); std::string Output; raw_string_ostream OS(Output); Parser.parseNext(RecordRecoverable, RecordUnrecoverable, &OS); OS.flush(); EXPECT_FALSE(Recoverable); EXPECT_FALSE(Unrecoverable); auto InOutput = [&Output](char const *Str) { return Output.find(Str) != std::string::npos; }; EXPECT_TRUE(InOutput("0x0000002e: 01 DW_LNS_copy\n")) << Output; EXPECT_TRUE(InOutput("0x0000002f: 02 DW_LNS_advance_pc (11)\n")) << Output; // FIXME: The value printed after DW_LNS_advance_line is currently the result // of the advance, but it should be the value being advanced by. See // https://bugs.llvm.org/show_bug.cgi?id=44261 for details. EXPECT_TRUE(InOutput("0x00000031: 03 DW_LNS_advance_line (23)\n")) << Output; EXPECT_TRUE(InOutput("0x00000033: 04 DW_LNS_set_file (33)\n")) << Output; EXPECT_TRUE(InOutput("0x00000035: 05 DW_LNS_set_column (44)\n")) << Output; EXPECT_TRUE(InOutput("0x00000037: 06 DW_LNS_negate_stmt\n")) << Output; EXPECT_TRUE(InOutput("0x00000038: 07 DW_LNS_set_basic_block\n")) << Output; EXPECT_TRUE( InOutput("0x00000039: 08 DW_LNS_const_add_pc (0x0000000000000011)\n")) << Output; EXPECT_TRUE(InOutput("0x0000003a: 09 DW_LNS_fixed_advance_pc (0x0037)\n")) << Output; EXPECT_TRUE(InOutput("0x0000003d: 0a DW_LNS_set_prologue_end\n")) << Output; EXPECT_TRUE(InOutput("0x0000003e: 0b DW_LNS_set_epilogue_begin\n")) << Output; EXPECT_TRUE(InOutput("0x0000003f: 0c DW_LNS_set_isa (66)\n")) << Output; } } // end anonymous namespace