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llvm-mirror/unittests/CodeGen/AsmPrinterDwarfTest.cpp
Igor Kudrin f79eaab45a [unittests][CodeGen] Mark tests that cannot be executed with GTEST_SKIP()
This helps to distinguish such tests from successfully passed ones.

Differential Revision: https://reviews.llvm.org/D102754
2021-05-21 13:39:52 +07:00

431 lines
14 KiB
C++

//===- llvm/unittest/CodeGen/AsmPrinterDwarfTest.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 "TestAsmPrinter.h"
#include "llvm/CodeGen/AsmPrinter.h"
#include "llvm/CodeGen/MachineModuleInfo.h"
#include "llvm/IR/LegacyPassManager.h"
#include "llvm/IR/Module.h"
#include "llvm/IR/PassManager.h"
#include "llvm/MC/MCContext.h"
#include "llvm/MC/MCSectionELF.h"
#include "llvm/Target/TargetMachine.h"
#include "llvm/Testing/Support/Error.h"
using namespace llvm;
using testing::_;
using testing::InSequence;
using testing::SaveArg;
namespace {
class AsmPrinterFixtureBase : public testing::Test {
void setupTestPrinter(const std::string &TripleStr, unsigned DwarfVersion,
dwarf::DwarfFormat DwarfFormat) {
auto ExpectedTestPrinter =
TestAsmPrinter::create(TripleStr, DwarfVersion, DwarfFormat);
ASSERT_THAT_EXPECTED(ExpectedTestPrinter, Succeeded());
TestPrinter = std::move(ExpectedTestPrinter.get());
}
protected:
bool init(const std::string &TripleStr, unsigned DwarfVersion,
dwarf::DwarfFormat DwarfFormat) {
setupTestPrinter(TripleStr, DwarfVersion, DwarfFormat);
return TestPrinter != nullptr;
}
std::unique_ptr<TestAsmPrinter> TestPrinter;
};
class AsmPrinterEmitDwarfSymbolReferenceTest : public AsmPrinterFixtureBase {
protected:
bool init(const std::string &TripleStr, unsigned DwarfVersion,
dwarf::DwarfFormat DwarfFormat) {
if (!AsmPrinterFixtureBase::init(TripleStr, DwarfVersion, DwarfFormat))
return false;
// AsmPrinter::emitDwarfSymbolReference(Label, true) gets the associated
// section from `Label` to find its BeginSymbol.
// Prepare the test symbol `Val` accordingly.
Val = TestPrinter->getCtx().createTempSymbol();
MCSection *Sec =
TestPrinter->getCtx().getELFSection(".tst", ELF::SHT_PROGBITS, 0);
SecBeginSymbol = Sec->getBeginSymbol();
TestPrinter->getMS().SwitchSection(Sec);
Val->setFragment(&Sec->getDummyFragment());
return true;
}
MCSymbol *Val = nullptr;
MCSymbol *SecBeginSymbol = nullptr;
};
TEST_F(AsmPrinterEmitDwarfSymbolReferenceTest, COFF) {
if (!init("x86_64-pc-windows", /*DwarfVersion=*/4, dwarf::DWARF32))
GTEST_SKIP();
EXPECT_CALL(TestPrinter->getMS(), EmitCOFFSecRel32(Val, 0));
TestPrinter->getAP()->emitDwarfSymbolReference(Val, false);
}
TEST_F(AsmPrinterEmitDwarfSymbolReferenceTest, COFFForceOffset) {
if (!init("x86_64-pc-windows", /*DwarfVersion=*/4, dwarf::DWARF32))
GTEST_SKIP();
EXPECT_CALL(TestPrinter->getMS(),
emitAbsoluteSymbolDiff(Val, SecBeginSymbol, 4));
TestPrinter->getAP()->emitDwarfSymbolReference(Val, true);
}
TEST_F(AsmPrinterEmitDwarfSymbolReferenceTest, ELFDWARF32) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF32))
GTEST_SKIP();
const MCExpr *Arg0 = nullptr;
EXPECT_CALL(TestPrinter->getMS(), emitValueImpl(_, 4, _))
.WillOnce(SaveArg<0>(&Arg0));
TestPrinter->getAP()->emitDwarfSymbolReference(Val, false);
const MCSymbolRefExpr *ActualArg0 = dyn_cast_or_null<MCSymbolRefExpr>(Arg0);
ASSERT_NE(ActualArg0, nullptr);
EXPECT_EQ(&(ActualArg0->getSymbol()), Val);
}
TEST_F(AsmPrinterEmitDwarfSymbolReferenceTest, ELFDWARF32ForceOffset) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF32))
GTEST_SKIP();
EXPECT_CALL(TestPrinter->getMS(),
emitAbsoluteSymbolDiff(Val, SecBeginSymbol, 4));
TestPrinter->getAP()->emitDwarfSymbolReference(Val, true);
}
TEST_F(AsmPrinterEmitDwarfSymbolReferenceTest, ELFDWARF64) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF64))
GTEST_SKIP();
const MCExpr *Arg0 = nullptr;
EXPECT_CALL(TestPrinter->getMS(), emitValueImpl(_, 8, _))
.WillOnce(SaveArg<0>(&Arg0));
TestPrinter->getAP()->emitDwarfSymbolReference(Val, false);
const MCSymbolRefExpr *ActualArg0 = dyn_cast_or_null<MCSymbolRefExpr>(Arg0);
ASSERT_NE(ActualArg0, nullptr);
EXPECT_EQ(&(ActualArg0->getSymbol()), Val);
}
TEST_F(AsmPrinterEmitDwarfSymbolReferenceTest, ELFDWARF64ForceOffset) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF64))
GTEST_SKIP();
EXPECT_CALL(TestPrinter->getMS(),
emitAbsoluteSymbolDiff(Val, SecBeginSymbol, 8));
TestPrinter->getAP()->emitDwarfSymbolReference(Val, true);
}
class AsmPrinterEmitDwarfStringOffsetTest : public AsmPrinterFixtureBase {
protected:
bool init(const std::string &TripleStr, unsigned DwarfVersion,
dwarf::DwarfFormat DwarfFormat) {
if (!AsmPrinterFixtureBase::init(TripleStr, DwarfVersion, DwarfFormat))
return false;
Val.Index = DwarfStringPoolEntry::NotIndexed;
Val.Symbol = TestPrinter->getCtx().createTempSymbol();
Val.Offset = 42;
return true;
}
DwarfStringPoolEntry Val;
};
TEST_F(AsmPrinterEmitDwarfStringOffsetTest, DWARF32) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF32))
GTEST_SKIP();
const MCExpr *Arg0 = nullptr;
EXPECT_CALL(TestPrinter->getMS(), emitValueImpl(_, 4, _))
.WillOnce(SaveArg<0>(&Arg0));
TestPrinter->getAP()->emitDwarfStringOffset(Val);
const MCSymbolRefExpr *ActualArg0 = dyn_cast_or_null<MCSymbolRefExpr>(Arg0);
ASSERT_NE(ActualArg0, nullptr);
EXPECT_EQ(&(ActualArg0->getSymbol()), Val.Symbol);
}
TEST_F(AsmPrinterEmitDwarfStringOffsetTest,
DWARF32NoRelocationsAcrossSections) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF32))
GTEST_SKIP();
TestPrinter->setDwarfUsesRelocationsAcrossSections(false);
EXPECT_CALL(TestPrinter->getMS(), emitIntValue(Val.Offset, 4));
TestPrinter->getAP()->emitDwarfStringOffset(Val);
}
TEST_F(AsmPrinterEmitDwarfStringOffsetTest, DWARF64) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF64))
GTEST_SKIP();
const MCExpr *Arg0 = nullptr;
EXPECT_CALL(TestPrinter->getMS(), emitValueImpl(_, 8, _))
.WillOnce(SaveArg<0>(&Arg0));
TestPrinter->getAP()->emitDwarfStringOffset(Val);
const MCSymbolRefExpr *ActualArg0 = dyn_cast_or_null<MCSymbolRefExpr>(Arg0);
ASSERT_NE(ActualArg0, nullptr);
EXPECT_EQ(&(ActualArg0->getSymbol()), Val.Symbol);
}
TEST_F(AsmPrinterEmitDwarfStringOffsetTest,
DWARF64NoRelocationsAcrossSections) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF64))
GTEST_SKIP();
TestPrinter->setDwarfUsesRelocationsAcrossSections(false);
EXPECT_CALL(TestPrinter->getMS(), emitIntValue(Val.Offset, 8));
TestPrinter->getAP()->emitDwarfStringOffset(Val);
}
class AsmPrinterEmitDwarfOffsetTest : public AsmPrinterFixtureBase {
protected:
bool init(const std::string &TripleStr, unsigned DwarfVersion,
dwarf::DwarfFormat DwarfFormat) {
if (!AsmPrinterFixtureBase::init(TripleStr, DwarfVersion, DwarfFormat))
return false;
Label = TestPrinter->getCtx().createTempSymbol();
return true;
}
MCSymbol *Label = nullptr;
uint64_t Offset = 42;
};
TEST_F(AsmPrinterEmitDwarfOffsetTest, DWARF32) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF32))
GTEST_SKIP();
const MCExpr *Arg0 = nullptr;
EXPECT_CALL(TestPrinter->getMS(), emitValueImpl(_, 4, _))
.WillOnce(SaveArg<0>(&Arg0));
TestPrinter->getAP()->emitDwarfOffset(Label, Offset);
const MCBinaryExpr *ActualArg0 = dyn_cast_or_null<MCBinaryExpr>(Arg0);
ASSERT_NE(ActualArg0, nullptr);
EXPECT_EQ(ActualArg0->getOpcode(), MCBinaryExpr::Add);
const MCSymbolRefExpr *ActualLHS =
dyn_cast_or_null<MCSymbolRefExpr>(ActualArg0->getLHS());
ASSERT_NE(ActualLHS, nullptr);
EXPECT_EQ(&(ActualLHS->getSymbol()), Label);
const MCConstantExpr *ActualRHS =
dyn_cast_or_null<MCConstantExpr>(ActualArg0->getRHS());
ASSERT_NE(ActualRHS, nullptr);
EXPECT_EQ(static_cast<uint64_t>(ActualRHS->getValue()), Offset);
}
TEST_F(AsmPrinterEmitDwarfOffsetTest, DWARF64) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF64))
GTEST_SKIP();
const MCExpr *Arg0 = nullptr;
EXPECT_CALL(TestPrinter->getMS(), emitValueImpl(_, 8, _))
.WillOnce(SaveArg<0>(&Arg0));
TestPrinter->getAP()->emitDwarfOffset(Label, Offset);
const MCBinaryExpr *ActualArg0 = dyn_cast_or_null<MCBinaryExpr>(Arg0);
ASSERT_NE(ActualArg0, nullptr);
EXPECT_EQ(ActualArg0->getOpcode(), MCBinaryExpr::Add);
const MCSymbolRefExpr *ActualLHS =
dyn_cast_or_null<MCSymbolRefExpr>(ActualArg0->getLHS());
ASSERT_NE(ActualLHS, nullptr);
EXPECT_EQ(&(ActualLHS->getSymbol()), Label);
const MCConstantExpr *ActualRHS =
dyn_cast_or_null<MCConstantExpr>(ActualArg0->getRHS());
ASSERT_NE(ActualRHS, nullptr);
EXPECT_EQ(static_cast<uint64_t>(ActualRHS->getValue()), Offset);
}
class AsmPrinterEmitDwarfLengthOrOffsetTest : public AsmPrinterFixtureBase {
protected:
uint64_t Val = 42;
};
TEST_F(AsmPrinterEmitDwarfLengthOrOffsetTest, DWARF32) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF32))
GTEST_SKIP();
EXPECT_CALL(TestPrinter->getMS(), emitIntValue(Val, 4));
TestPrinter->getAP()->emitDwarfLengthOrOffset(Val);
}
TEST_F(AsmPrinterEmitDwarfLengthOrOffsetTest, DWARF64) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF64))
GTEST_SKIP();
EXPECT_CALL(TestPrinter->getMS(), emitIntValue(Val, 8));
TestPrinter->getAP()->emitDwarfLengthOrOffset(Val);
}
class AsmPrinterGetUnitLengthFieldByteSizeTest : public AsmPrinterFixtureBase {
};
TEST_F(AsmPrinterGetUnitLengthFieldByteSizeTest, DWARF32) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF32))
GTEST_SKIP();
EXPECT_EQ(TestPrinter->getAP()->getUnitLengthFieldByteSize(), 4u);
}
TEST_F(AsmPrinterGetUnitLengthFieldByteSizeTest, DWARF64) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF64))
GTEST_SKIP();
EXPECT_EQ(TestPrinter->getAP()->getUnitLengthFieldByteSize(), 12u);
}
class AsmPrinterEmitDwarfUnitLengthAsIntTest : public AsmPrinterFixtureBase {
protected:
uint64_t Val = 42;
};
TEST_F(AsmPrinterEmitDwarfUnitLengthAsIntTest, DWARF32) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF32))
GTEST_SKIP();
EXPECT_CALL(TestPrinter->getMS(), emitIntValue(Val, 4));
TestPrinter->getAP()->emitDwarfUnitLength(Val, "");
}
TEST_F(AsmPrinterEmitDwarfUnitLengthAsIntTest, DWARF64) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF64))
GTEST_SKIP();
InSequence S;
EXPECT_CALL(TestPrinter->getMS(), emitIntValue(dwarf::DW_LENGTH_DWARF64, 4));
EXPECT_CALL(TestPrinter->getMS(), emitIntValue(Val, 8));
TestPrinter->getAP()->emitDwarfUnitLength(Val, "");
}
class AsmPrinterEmitDwarfUnitLengthAsHiLoDiffTest
: public AsmPrinterFixtureBase {
protected:
bool init(const std::string &TripleStr, unsigned DwarfVersion,
dwarf::DwarfFormat DwarfFormat) {
if (!AsmPrinterFixtureBase::init(TripleStr, DwarfVersion, DwarfFormat))
return false;
return true;
}
};
TEST_F(AsmPrinterEmitDwarfUnitLengthAsHiLoDiffTest, DWARF32) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF32))
GTEST_SKIP();
InSequence S;
const MCSymbol *Hi = nullptr;
const MCSymbol *Lo = nullptr;
EXPECT_CALL(TestPrinter->getMS(), emitAbsoluteSymbolDiff(_, _, 4))
.WillOnce(DoAll(SaveArg<0>(&Hi), SaveArg<1>(&Lo)));
MCSymbol *LTmp = nullptr;
EXPECT_CALL(TestPrinter->getMS(), emitLabel(_, _))
.WillOnce(SaveArg<0>(&LTmp));
MCSymbol *HTmp = TestPrinter->getAP()->emitDwarfUnitLength("", "");
EXPECT_NE(Lo, nullptr);
EXPECT_EQ(Lo, LTmp);
EXPECT_NE(Hi, nullptr);
EXPECT_EQ(Hi, HTmp);
}
TEST_F(AsmPrinterEmitDwarfUnitLengthAsHiLoDiffTest, DWARF64) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF64))
GTEST_SKIP();
InSequence S;
const MCSymbol *Hi = nullptr;
const MCSymbol *Lo = nullptr;
EXPECT_CALL(TestPrinter->getMS(), emitIntValue(dwarf::DW_LENGTH_DWARF64, 4));
EXPECT_CALL(TestPrinter->getMS(), emitAbsoluteSymbolDiff(_, _, 8))
.WillOnce(DoAll(SaveArg<0>(&Hi), SaveArg<1>(&Lo)));
MCSymbol *LTmp = nullptr;
EXPECT_CALL(TestPrinter->getMS(), emitLabel(_, _))
.WillOnce(SaveArg<0>(&LTmp));
MCSymbol *HTmp = TestPrinter->getAP()->emitDwarfUnitLength("", "");
EXPECT_NE(Lo, nullptr);
EXPECT_EQ(Lo, LTmp);
EXPECT_NE(Hi, nullptr);
EXPECT_EQ(Hi, HTmp);
}
class AsmPrinterHandlerTest : public AsmPrinterFixtureBase {
class TestHandler : public AsmPrinterHandler {
AsmPrinterHandlerTest &Test;
public:
TestHandler(AsmPrinterHandlerTest &Test) : Test(Test) {}
virtual ~TestHandler() {}
virtual void setSymbolSize(const MCSymbol *Sym, uint64_t Size) override {}
virtual void beginModule(Module *M) override { Test.BeginCount++; }
virtual void endModule() override { Test.EndCount++; }
virtual void beginFunction(const MachineFunction *MF) override {}
virtual void endFunction(const MachineFunction *MF) override {}
virtual void beginInstruction(const MachineInstr *MI) override {}
virtual void endInstruction() override {}
};
protected:
bool init(const std::string &TripleStr, unsigned DwarfVersion,
dwarf::DwarfFormat DwarfFormat) {
if (!AsmPrinterFixtureBase::init(TripleStr, DwarfVersion, DwarfFormat))
return false;
auto *AP = TestPrinter->getAP();
AP->addAsmPrinterHandler(AsmPrinter::HandlerInfo(
std::unique_ptr<AsmPrinterHandler>(new TestHandler(*this)),
"TestTimerName", "TestTimerDesc", "TestGroupName", "TestGroupDesc"));
LLVMTargetMachine *LLVMTM = static_cast<LLVMTargetMachine *>(&AP->TM);
legacy::PassManager PM;
PM.add(new MachineModuleInfoWrapperPass(LLVMTM));
PM.add(TestPrinter->releaseAP()); // Takes ownership of destroying AP
LLVMContext Context;
std::unique_ptr<Module> M(new Module("TestModule", Context));
M->setDataLayout(LLVMTM->createDataLayout());
PM.run(*M);
// Now check that we can run it twice.
AP->addAsmPrinterHandler(AsmPrinter::HandlerInfo(
std::unique_ptr<AsmPrinterHandler>(new TestHandler(*this)),
"TestTimerName", "TestTimerDesc", "TestGroupName", "TestGroupDesc"));
PM.run(*M);
return true;
}
int BeginCount = 0;
int EndCount = 0;
};
TEST_F(AsmPrinterHandlerTest, Basic) {
if (!init("x86_64-pc-linux", /*DwarfVersion=*/4, dwarf::DWARF32))
GTEST_SKIP();
ASSERT_EQ(BeginCount, 3);
ASSERT_EQ(EndCount, 3);
}
} // end namespace