//===- unittest/ProfileData/SampleProfTest.cpp ------------------*- C++ -*-===// // // 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 "llvm/ProfileData/SampleProf.h" #include "llvm/ADT/StringMap.h" #include "llvm/ADT/StringRef.h" #include "llvm/IR/LLVMContext.h" #include "llvm/IR/Metadata.h" #include "llvm/IR/Module.h" #include "llvm/ProfileData/SampleProfReader.h" #include "llvm/ProfileData/SampleProfWriter.h" #include "llvm/Support/Casting.h" #include "llvm/Support/ErrorOr.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/raw_ostream.h" #include "llvm/Testing/Support/SupportHelpers.h" #include "gtest/gtest.h" #include #include using namespace llvm; using namespace sampleprof; using llvm::unittest::TempFile; static ::testing::AssertionResult NoError(std::error_code EC) { if (!EC) return ::testing::AssertionSuccess(); return ::testing::AssertionFailure() << "error " << EC.value() << ": " << EC.message(); } namespace { struct SampleProfTest : ::testing::Test { LLVMContext Context; std::unique_ptr Writer; std::unique_ptr Reader; SampleProfTest() : Writer(), Reader() {} void createWriter(SampleProfileFormat Format, StringRef Profile) { std::error_code EC; std::unique_ptr OS( new raw_fd_ostream(Profile, EC, sys::fs::OF_None)); auto WriterOrErr = SampleProfileWriter::create(OS, Format); ASSERT_TRUE(NoError(WriterOrErr.getError())); Writer = std::move(WriterOrErr.get()); } void readProfile(const Module &M, StringRef Profile, StringRef RemapFile = "") { auto ReaderOrErr = SampleProfileReader::create( std::string(Profile), Context, std::string(RemapFile)); ASSERT_TRUE(NoError(ReaderOrErr.getError())); Reader = std::move(ReaderOrErr.get()); Reader->collectFuncsFrom(M); } TempFile createRemapFile() { return TempFile("remapfile", "", R"( # Types 'int' and 'long' are equivalent type i l # Function names 'foo' and 'faux' are equivalent name 3foo 4faux )", /*Unique*/ true); } // Verify profile summary is consistent in the roundtrip to and from // Metadata. \p AddPartialField is to choose whether the Metadata // contains the IsPartialProfile field which is optional. void verifyProfileSummary(ProfileSummary &Summary, Module &M, const bool AddPartialField, const bool AddPartialProfileRatioField) { LLVMContext &Context = M.getContext(); const bool IsPartialProfile = Summary.isPartialProfile(); const double PartialProfileRatio = Summary.getPartialProfileRatio(); auto VerifySummary = [IsPartialProfile, PartialProfileRatio]( ProfileSummary &Summary) mutable { ASSERT_EQ(ProfileSummary::PSK_Sample, Summary.getKind()); ASSERT_EQ(138211u, Summary.getTotalCount()); ASSERT_EQ(10u, Summary.getNumCounts()); ASSERT_EQ(4u, Summary.getNumFunctions()); ASSERT_EQ(1437u, Summary.getMaxFunctionCount()); ASSERT_EQ(60351u, Summary.getMaxCount()); ASSERT_EQ(IsPartialProfile, Summary.isPartialProfile()); ASSERT_EQ(PartialProfileRatio, Summary.getPartialProfileRatio()); uint32_t Cutoff = 800000; auto Predicate = [&Cutoff](const ProfileSummaryEntry &PE) { return PE.Cutoff == Cutoff; }; std::vector &Details = Summary.getDetailedSummary(); auto EightyPerc = find_if(Details, Predicate); Cutoff = 900000; auto NinetyPerc = find_if(Details, Predicate); Cutoff = 950000; auto NinetyFivePerc = find_if(Details, Predicate); Cutoff = 990000; auto NinetyNinePerc = find_if(Details, Predicate); ASSERT_EQ(60000u, EightyPerc->MinCount); ASSERT_EQ(12557u, NinetyPerc->MinCount); ASSERT_EQ(12557u, NinetyFivePerc->MinCount); ASSERT_EQ(600u, NinetyNinePerc->MinCount); }; VerifySummary(Summary); // Test that conversion of summary to and from Metadata works. Metadata *MD = Summary.getMD(Context, AddPartialField, AddPartialProfileRatioField); ASSERT_TRUE(MD); ProfileSummary *PS = ProfileSummary::getFromMD(MD); ASSERT_TRUE(PS); VerifySummary(*PS); delete PS; // Test that summary can be attached to and read back from module. M.eraseNamedMetadata(M.getOrInsertModuleFlagsMetadata()); M.setProfileSummary(MD, ProfileSummary::PSK_Sample); MD = M.getProfileSummary(/* IsCS */ false); ASSERT_TRUE(MD); PS = ProfileSummary::getFromMD(MD); ASSERT_TRUE(PS); VerifySummary(*PS); delete PS; } void testRoundTrip(SampleProfileFormat Format, bool Remap, bool UseMD5) { TempFile ProfileFile("profile", "", "", /*Unique*/ true); createWriter(Format, ProfileFile.path()); if (Format == SampleProfileFormat::SPF_Ext_Binary && UseMD5) static_cast(Writer.get())->setUseMD5(); StringRef FooName("_Z3fooi"); FunctionSamples FooSamples; FooSamples.setName(FooName); FooSamples.addTotalSamples(7711); FooSamples.addHeadSamples(610); FooSamples.addBodySamples(1, 0, 610); FooSamples.addBodySamples(2, 0, 600); FooSamples.addBodySamples(4, 0, 60000); FooSamples.addBodySamples(8, 0, 60351); FooSamples.addBodySamples(10, 0, 605); // Add inline instance with name "_Z3gooi". StringRef GooName("_Z3gooi"); auto &GooSamples = FooSamples.functionSamplesAt(LineLocation(7, 0))[GooName.str()]; GooSamples.setName(GooName); GooSamples.addTotalSamples(502); GooSamples.addBodySamples(3, 0, 502); // Add inline instance with name "_Z3hooi". StringRef HooName("_Z3hooi"); auto &HooSamples = GooSamples.functionSamplesAt(LineLocation(9, 0))[HooName.str()]; HooSamples.setName(HooName); HooSamples.addTotalSamples(317); HooSamples.addBodySamples(4, 0, 317); StringRef BarName("_Z3bari"); FunctionSamples BarSamples; BarSamples.setName(BarName); BarSamples.addTotalSamples(20301); BarSamples.addHeadSamples(1437); BarSamples.addBodySamples(1, 0, 1437); // Test how reader/writer handles unmangled names. StringRef MconstructName("_M_construct"); StringRef StringviewName("string_view >"); BarSamples.addCalledTargetSamples(1, 0, MconstructName, 1000); BarSamples.addCalledTargetSamples(1, 0, StringviewName, 437); StringRef BazName("_Z3bazi"); FunctionSamples BazSamples; BazSamples.setName(BazName); BazSamples.addTotalSamples(12557); BazSamples.addHeadSamples(1257); BazSamples.addBodySamples(1, 0, 12557); StringRef BooName("_Z3booi"); FunctionSamples BooSamples; BooSamples.setName(BooName); BooSamples.addTotalSamples(1232); BooSamples.addHeadSamples(1); BooSamples.addBodySamples(1, 0, 1232); StringMap Profiles; Profiles[FooName] = std::move(FooSamples); Profiles[BarName] = std::move(BarSamples); Profiles[BazName] = std::move(BazSamples); Profiles[BooName] = std::move(BooSamples); Module M("my_module", Context); FunctionType *fn_type = FunctionType::get(Type::getVoidTy(Context), {}, false); TempFile RemapFile(createRemapFile()); if (Remap) { FooName = "_Z4fauxi"; BarName = "_Z3barl"; GooName = "_Z3gool"; HooName = "_Z3hool"; } M.getOrInsertFunction(FooName, fn_type); M.getOrInsertFunction(BarName, fn_type); M.getOrInsertFunction(BooName, fn_type); ProfileSymbolList List; if (Format == SampleProfileFormat::SPF_Ext_Binary) { List.add("zoo", true); List.add("moo", true); } Writer->setProfileSymbolList(&List); std::error_code EC; EC = Writer->write(Profiles); ASSERT_TRUE(NoError(EC)); Writer->getOutputStream().flush(); readProfile(M, ProfileFile.path(), RemapFile.path()); EC = Reader->read(); ASSERT_TRUE(NoError(EC)); if (Format == SampleProfileFormat::SPF_Ext_Binary) { std::unique_ptr ReaderList = Reader->getProfileSymbolList(); ReaderList->contains("zoo"); ReaderList->contains("moo"); } FunctionSamples *ReadFooSamples = Reader->getSamplesFor(FooName); ASSERT_TRUE(ReadFooSamples != nullptr); if (!UseMD5) { ASSERT_EQ("_Z3fooi", ReadFooSamples->getName()); } ASSERT_EQ(7711u, ReadFooSamples->getTotalSamples()); ASSERT_EQ(610u, ReadFooSamples->getHeadSamples()); // Try to find a FunctionSamples with GooName at given callsites containing // inline instance for GooName. Test the correct FunctionSamples can be // found with Remapper support. const FunctionSamples *ReadGooSamples = ReadFooSamples->findFunctionSamplesAt(LineLocation(7, 0), GooName, Reader->getRemapper()); ASSERT_TRUE(ReadGooSamples != nullptr); ASSERT_EQ(502u, ReadGooSamples->getTotalSamples()); // Try to find a FunctionSamples with GooName at given callsites containing // no inline instance for GooName. Test no FunctionSamples will be // found with Remapper support. const FunctionSamples *ReadGooSamplesAgain = ReadFooSamples->findFunctionSamplesAt(LineLocation(9, 0), GooName, Reader->getRemapper()); ASSERT_TRUE(ReadGooSamplesAgain == nullptr); // The inline instance of Hoo is inside of the inline instance of Goo. // Try to find a FunctionSamples with HooName at given callsites containing // inline instance for HooName. Test the correct FunctionSamples can be // found with Remapper support. const FunctionSamples *ReadHooSamples = ReadGooSamples->findFunctionSamplesAt(LineLocation(9, 0), HooName, Reader->getRemapper()); ASSERT_TRUE(ReadHooSamples != nullptr); ASSERT_EQ(317u, ReadHooSamples->getTotalSamples()); FunctionSamples *ReadBarSamples = Reader->getSamplesFor(BarName); ASSERT_TRUE(ReadBarSamples != nullptr); if (!UseMD5) { ASSERT_EQ("_Z3bari", ReadBarSamples->getName()); } ASSERT_EQ(20301u, ReadBarSamples->getTotalSamples()); ASSERT_EQ(1437u, ReadBarSamples->getHeadSamples()); ErrorOr CTMap = ReadBarSamples->findCallTargetMapAt(1, 0); ASSERT_FALSE(CTMap.getError()); // Because _Z3bazi is not defined in module M, expect _Z3bazi's profile // is not loaded when the profile is ExtBinary or Compact format because // these formats support loading function profiles on demand. FunctionSamples *ReadBazSamples = Reader->getSamplesFor(BazName); if (Format == SampleProfileFormat::SPF_Ext_Binary || Format == SampleProfileFormat::SPF_Compact_Binary) { ASSERT_TRUE(ReadBazSamples == nullptr); ASSERT_EQ(3u, Reader->getProfiles().size()); } else { ASSERT_TRUE(ReadBazSamples != nullptr); ASSERT_EQ(12557u, ReadBazSamples->getTotalSamples()); ASSERT_EQ(4u, Reader->getProfiles().size()); } FunctionSamples *ReadBooSamples = Reader->getSamplesFor(BooName); ASSERT_TRUE(ReadBooSamples != nullptr); ASSERT_EQ(1232u, ReadBooSamples->getTotalSamples()); std::string MconstructGUID; StringRef MconstructRep = getRepInFormat(MconstructName, UseMD5, MconstructGUID); std::string StringviewGUID; StringRef StringviewRep = getRepInFormat(StringviewName, UseMD5, StringviewGUID); ASSERT_EQ(1000u, CTMap.get()[MconstructRep]); ASSERT_EQ(437u, CTMap.get()[StringviewRep]); ProfileSummary &Summary = Reader->getSummary(); Summary.setPartialProfile(true); verifyProfileSummary(Summary, M, true, false); Summary.setPartialProfile(false); verifyProfileSummary(Summary, M, true, false); verifyProfileSummary(Summary, M, false, false); Summary.setPartialProfile(true); Summary.setPartialProfileRatio(0.5); verifyProfileSummary(Summary, M, true, true); } void addFunctionSamples(StringMap *Smap, const char *Fname, uint64_t TotalSamples, uint64_t HeadSamples) { StringRef Name(Fname); FunctionSamples FcnSamples; FcnSamples.setName(Name); FcnSamples.addTotalSamples(TotalSamples); FcnSamples.addHeadSamples(HeadSamples); FcnSamples.addBodySamples(1, 0, HeadSamples); (*Smap)[Name] = FcnSamples; } StringMap setupFcnSamplesForElisionTest(StringRef Policy) { StringMap Smap; addFunctionSamples(&Smap, "foo", uint64_t(20301), uint64_t(1437)); if (Policy == "" || Policy == "all") return Smap; addFunctionSamples(&Smap, "foo.bar", uint64_t(20303), uint64_t(1439)); if (Policy == "selected") return Smap; addFunctionSamples(&Smap, "foo.llvm.2465", uint64_t(20305), uint64_t(1441)); return Smap; } void createFunctionWithSampleProfileElisionPolicy(Module *M, const char *Fname, StringRef Policy) { FunctionType *FnType = FunctionType::get(Type::getVoidTy(Context), {}, false); auto Inserted = M->getOrInsertFunction(Fname, FnType); auto Fcn = cast(Inserted.getCallee()); if (Policy != "") Fcn->addFnAttr("sample-profile-suffix-elision-policy", Policy); } void setupModuleForElisionTest(Module *M, StringRef Policy) { createFunctionWithSampleProfileElisionPolicy(M, "foo", Policy); createFunctionWithSampleProfileElisionPolicy(M, "foo.bar", Policy); createFunctionWithSampleProfileElisionPolicy(M, "foo.llvm.2465", Policy); } void testSuffixElisionPolicy(SampleProfileFormat Format, StringRef Policy, const StringMap &Expected) { TempFile ProfileFile("profile", "", "", /*Unique*/ true); Module M("my_module", Context); setupModuleForElisionTest(&M, Policy); StringMap ProfMap = setupFcnSamplesForElisionTest(Policy); // write profile createWriter(Format, ProfileFile.path()); std::error_code EC; EC = Writer->write(ProfMap); ASSERT_TRUE(NoError(EC)); Writer->getOutputStream().flush(); // read profile readProfile(M, ProfileFile.path()); EC = Reader->read(); ASSERT_TRUE(NoError(EC)); for (auto I = Expected.begin(); I != Expected.end(); ++I) { uint64_t Esamples = uint64_t(-1); FunctionSamples *Samples = Reader->getSamplesFor(I->getKey()); if (Samples != nullptr) Esamples = Samples->getTotalSamples(); ASSERT_EQ(I->getValue(), Esamples); } } }; TEST_F(SampleProfTest, roundtrip_text_profile) { testRoundTrip(SampleProfileFormat::SPF_Text, false, false); } TEST_F(SampleProfTest, roundtrip_raw_binary_profile) { testRoundTrip(SampleProfileFormat::SPF_Binary, false, false); } TEST_F(SampleProfTest, roundtrip_compact_binary_profile) { testRoundTrip(SampleProfileFormat::SPF_Compact_Binary, false, true); } TEST_F(SampleProfTest, roundtrip_ext_binary_profile) { testRoundTrip(SampleProfileFormat::SPF_Ext_Binary, false, false); } TEST_F(SampleProfTest, roundtrip_md5_ext_binary_profile) { testRoundTrip(SampleProfileFormat::SPF_Ext_Binary, false, true); } TEST_F(SampleProfTest, remap_text_profile) { testRoundTrip(SampleProfileFormat::SPF_Text, true, false); } TEST_F(SampleProfTest, remap_raw_binary_profile) { testRoundTrip(SampleProfileFormat::SPF_Binary, true, false); } TEST_F(SampleProfTest, remap_ext_binary_profile) { testRoundTrip(SampleProfileFormat::SPF_Ext_Binary, true, false); } TEST_F(SampleProfTest, sample_overflow_saturation) { const uint64_t Max = std::numeric_limits::max(); sampleprof_error Result; FunctionSamples FooSamples; Result = FooSamples.addTotalSamples(1); ASSERT_EQ(Result, sampleprof_error::success); Result = FooSamples.addHeadSamples(1); ASSERT_EQ(Result, sampleprof_error::success); Result = FooSamples.addBodySamples(10, 0, 1); ASSERT_EQ(Result, sampleprof_error::success); Result = FooSamples.addTotalSamples(Max); ASSERT_EQ(Result, sampleprof_error::counter_overflow); ASSERT_EQ(FooSamples.getTotalSamples(), Max); Result = FooSamples.addHeadSamples(Max); ASSERT_EQ(Result, sampleprof_error::counter_overflow); ASSERT_EQ(FooSamples.getHeadSamples(), Max); Result = FooSamples.addBodySamples(10, 0, Max); ASSERT_EQ(Result, sampleprof_error::counter_overflow); ErrorOr BodySamples = FooSamples.findSamplesAt(10, 0); ASSERT_FALSE(BodySamples.getError()); ASSERT_EQ(BodySamples.get(), Max); } TEST_F(SampleProfTest, default_suffix_elision_text) { // Default suffix elision policy: strip everything after first dot. // This implies that all suffix variants will map to "foo", so // we don't expect to see any entries for them in the sample // profile. StringMap Expected; Expected["foo"] = uint64_t(20301); Expected["foo.bar"] = uint64_t(-1); Expected["foo.llvm.2465"] = uint64_t(-1); testSuffixElisionPolicy(SampleProfileFormat::SPF_Text, "", Expected); } TEST_F(SampleProfTest, default_suffix_elision_compact_binary) { // Default suffix elision policy: strip everything after first dot. // This implies that all suffix variants will map to "foo", so // we don't expect to see any entries for them in the sample // profile. StringMap Expected; Expected["foo"] = uint64_t(20301); Expected["foo.bar"] = uint64_t(-1); Expected["foo.llvm.2465"] = uint64_t(-1); testSuffixElisionPolicy(SampleProfileFormat::SPF_Compact_Binary, "", Expected); } TEST_F(SampleProfTest, selected_suffix_elision_text) { // Profile is created and searched using the "selected" // suffix elision policy: we only strip a .XXX suffix if // it matches a pattern known to be generated by the compiler // (e.g. ".llvm."). StringMap Expected; Expected["foo"] = uint64_t(20301); Expected["foo.bar"] = uint64_t(20303); Expected["foo.llvm.2465"] = uint64_t(-1); testSuffixElisionPolicy(SampleProfileFormat::SPF_Text, "selected", Expected); } TEST_F(SampleProfTest, selected_suffix_elision_compact_binary) { // Profile is created and searched using the "selected" // suffix elision policy: we only strip a .XXX suffix if // it matches a pattern known to be generated by the compiler // (e.g. ".llvm."). StringMap Expected; Expected["foo"] = uint64_t(20301); Expected["foo.bar"] = uint64_t(20303); Expected["foo.llvm.2465"] = uint64_t(-1); testSuffixElisionPolicy(SampleProfileFormat::SPF_Compact_Binary, "selected", Expected); } TEST_F(SampleProfTest, none_suffix_elision_text) { // Profile is created and searched using the "none" // suffix elision policy: no stripping of suffixes at all. // Here we expect to see all variants in the profile. StringMap Expected; Expected["foo"] = uint64_t(20301); Expected["foo.bar"] = uint64_t(20303); Expected["foo.llvm.2465"] = uint64_t(20305); testSuffixElisionPolicy(SampleProfileFormat::SPF_Text, "none", Expected); } TEST_F(SampleProfTest, none_suffix_elision_compact_binary) { // Profile is created and searched using the "none" // suffix elision policy: no stripping of suffixes at all. // Here we expect to see all variants in the profile. StringMap Expected; Expected["foo"] = uint64_t(20301); Expected["foo.bar"] = uint64_t(20303); Expected["foo.llvm.2465"] = uint64_t(20305); testSuffixElisionPolicy(SampleProfileFormat::SPF_Compact_Binary, "none", Expected); } } // end anonymous namespace