compiler-rt/test/ctx_profile/TestCases/autodetect-roots.cpp - llvm-project - Git at Google

 // Root autodetection test for contextual profiling
 //
 // Copy the header defining ContextNode.
 // RUN: mkdir -p %t_include
 // RUN: cp %llvm_src/include/llvm/ProfileData/CtxInstrContextNode.h %t_include/
 //
 // Compile with ctx instrumentation "on". We use -profile-context-root as signal
 // that we want contextual profiling, but we can specify anything there, that
 // won't be matched with any function, and result in the behavior we are aiming
 // for here.
 //
 // RUN: %clangxx %s %ctxprofilelib -I%t_include -O2 -o %t.bin \
 // RUN:   -mllvm -profile-context-root="<autodetect>" -g -Wl,-export-dynamic
 //
 // Run the binary, and observe the profile fetch handler's output.
 // RUN %t.bin | FileCheck %s

 #include "CtxInstrContextNode.h"
 #include <atomic>
 #include <cstdio>
 #include <iostream>
 #include <thread>

 using namespace llvm::ctx_profile;
 extern "C" void __llvm_ctx_profile_start_collection(unsigned);
 extern "C" bool __llvm_ctx_profile_fetch(ProfileWriter &);

 // avoid name mangling
 extern "C" {
 __attribute__((noinline)) void anotherFunction() {}
 __attribute__((noinline)) void mock1() {}
 __attribute__((noinline)) void mock2() {}
 __attribute__((noinline)) void someFunction(int I) {
   if (I % 2)
     mock1();
   else
     mock2();
   anotherFunction();
 }

 // block inlining because the pre-inliner otherwise will inline this - it's
 // too small.
 __attribute__((noinline)) void theRoot() {
   someFunction(1);
 #pragma nounroll
   for (auto I = 0; I < 2; ++I) {
     someFunction(I);
   }
   anotherFunction();
 }
 }

 class TestProfileWriter : public ProfileWriter {
   void printProfile(const ContextNode &Node, const std::string &Indent,
                     const std::string &Increment) {
     std::cout << Indent << "Guid: " << Node.guid() << std::endl;
     std::cout << Indent << "Entries: " << Node.entrycount() << std::endl;
     std::cout << Indent << Node.counters_size() << " counters and "
               << Node.callsites_size() << " callsites" << std::endl;
     std::cout << Indent << "Counter values: ";
     for (uint32_t I = 0U; I < Node.counters_size(); ++I)
       std::cout << Node.counters()[I] << " ";
     std::cout << std::endl;
     for (uint32_t I = 0U; I < Node.callsites_size(); ++I)
       for (const auto *N = Node.subContexts()[I]; N; N = N->next()) {
         std::cout << Indent << "At Index " << I << ":" << std::endl;
         printProfile(*N, Indent + Increment, Increment);
       }
   }

   void startContextSection() override {
     std::cout << "Entered Context Section" << std::endl;
   }

   void endContextSection() override {
     std::cout << "Exited Context Section" << std::endl;
   }

   void writeContextual(const ContextNode &RootNode,
                        const ContextNode *Unhandled,
                        uint64_t EntryCount) override {
     std::cout << "Entering Root " << RootNode.guid()
               << " with total entry count " << EntryCount << std::endl;
     for (const auto *P = Unhandled; P; P = P->next())
       std::cout << "Unhandled GUID: " << P->guid() << " entered "
                 << P->entrycount() << " times" << std::endl;
     printProfile(RootNode, " ", " ");
   }

   void startFlatSection() override {
     std::cout << "Entered Flat Section" << std::endl;
   }

   void writeFlat(GUID Guid, const uint64_t *Buffer,
                  size_t BufferSize) override {
     std::cout << "Flat: " << Guid << " " << Buffer[0];
     for (size_t I = 1U; I < BufferSize; ++I)
       std::cout << "," << Buffer[I];
     std::cout << std::endl;
   };

   void endFlatSection() override {
     std::cout << "Exited Flat Section" << std::endl;
   }
 };

 // Guid:3950394326069683896 is anotherFunction
 // Guid:6759619411192316602 is someFunction
 // These are expected to be the auto-detected roots. This is because we cannot
 // discern (with the current autodetection mechanism) if theRoot
 // (Guid:8657661246551306189) is ever re-entered.
 //
 // CHECK:      Entered Context Section
 // CHECK-NEXT: Entering Root 6759619411192316602 with total entry count 12463157
 // CHECK-NEXT: Guid: 6759619411192316602
 // CHECK-NEXT:  Entries: 5391142
 // CHECK-NEXT:  2 counters and 3 callsites
 // CHECK-NEXT:  Counter values: 5391142 1832357
 // CHECK-NEXT:  At Index 0:
 // CHECK-NEXT:   Guid: 434762725428799310
 // CHECK-NEXT:   Entries: 3558785
 // CHECK-NEXT:   1 counters and 0 callsites
 // CHECK-NEXT:   Counter values: 3558785
 // CHECK-NEXT:  At Index 1:
 // CHECK-NEXT:   Guid: 5578595117440393467
 // CHECK-NEXT:   Entries: 1832357
 // CHECK-NEXT:   1 counters and 0 callsites
 // CHECK-NEXT:   Counter values: 1832357
 // CHECK-NEXT:  At Index 2:
 // CHECK-NEXT:   Guid: 3950394326069683896
 // CHECK-NEXT:   Entries: 5391142
 // CHECK-NEXT:   1 counters and 0 callsites
 // CHECK-NEXT:   Counter values: 5391142
 // CHECK-NEXT: Entering Root 3950394326069683896 with total entry count 11226401
 // CHECK-NEXT:  Guid: 3950394326069683896
 // CHECK-NEXT:  Entries: 10767423
 // CHECK-NEXT:  1 counters and 0 callsites
 // CHECK-NEXT:  Counter values: 10767423
 // CHECK-NEXT: Exited Context Section
 // CHECK-NEXT: Entered Flat Section
 // CHECK-NEXT: Flat: 2597020043743142491 1
 // CHECK-NEXT: Flat: 4321328481998485159 1
 // CHECK-NEXT: Flat: 8657661246551306189 9114175,18099613
 // CHECK-NEXT: Flat: 434762725428799310 10574815
 // CHECK-NEXT: Flat: 5578595117440393467 5265754
 // CHECK-NEXT: Flat: 12566320182004153844 1
 // CHECK-NEXT: Exited Flat Section

 bool profileWriter() {
   TestProfileWriter W;
   return __llvm_ctx_profile_fetch(W);
 }

 int main(int argc, char **argv) {
   std::atomic<bool> Stop = false;
   std::atomic<int> Started = 0;
   std::thread T1([&]() {
     ++Started;
     while (!Stop) {
       theRoot();
     }
   });

   std::thread T2([&]() {
     ++Started;
     while (!Stop) {
       theRoot();
     }
   });

   std::thread T3([&]() {
     while (Started < 2) {
     }
     __llvm_ctx_profile_start_collection(5);
   });

   T3.join();
   using namespace std::chrono_literals;

   std::this_thread::sleep_for(10s);
   Stop = true;
   T1.join();
   T2.join();

   // This would be implemented in a specific RPC handler, but here we just call
   // it directly.
   return !profileWriter();
 }
	// Root autodetection test for contextual profiling
	//
	// Copy the header defining ContextNode.
	// RUN: mkdir -p %t_include
	// RUN: cp %llvm_src/include/llvm/ProfileData/CtxInstrContextNode.h %t_include/
	//
	// Compile with ctx instrumentation "on". We use -profile-context-root as signal
	// that we want contextual profiling, but we can specify anything there, that
	// won't be matched with any function, and result in the behavior we are aiming
	// for here.
	//
	// RUN: %clangxx %s %ctxprofilelib -I%t_include -O2 -o %t.bin \
	// RUN: -mllvm -profile-context-root="<autodetect>" -g -Wl,-export-dynamic
	//
	// Run the binary, and observe the profile fetch handler's output.
	// RUN %t.bin \| FileCheck %s

	#include "CtxInstrContextNode.h"
	#include <atomic>
	#include <cstdio>
	#include <iostream>
	#include <thread>

	using namespace llvm::ctx_profile;
	extern "C" void __llvm_ctx_profile_start_collection(unsigned);
	extern "C" bool __llvm_ctx_profile_fetch(ProfileWriter &);

	// avoid name mangling
	extern "C" {
	__attribute__((noinline)) void anotherFunction() {}
	__attribute__((noinline)) void mock1() {}
	__attribute__((noinline)) void mock2() {}
	__attribute__((noinline)) void someFunction(int I) {
	if (I % 2)
	mock1();
	else
	mock2();
	anotherFunction();
	}

	// block inlining because the pre-inliner otherwise will inline this - it's
	// too small.
	__attribute__((noinline)) void theRoot() {
	someFunction(1);
	#pragma nounroll
	for (auto I = 0; I < 2; ++I) {
	someFunction(I);
	}
	anotherFunction();
	}
	}

	class TestProfileWriter : public ProfileWriter {
	void printProfile(const ContextNode &Node, const std::string &Indent,
	const std::string &Increment) {
	std::cout << Indent << "Guid: " << Node.guid() << std::endl;
	std::cout << Indent << "Entries: " << Node.entrycount() << std::endl;
	std::cout << Indent << Node.counters_size() << " counters and "
	<< Node.callsites_size() << " callsites" << std::endl;
	std::cout << Indent << "Counter values: ";
	for (uint32_t I = 0U; I < Node.counters_size(); ++I)
	std::cout << Node.counters()[I] << " ";
	std::cout << std::endl;
	for (uint32_t I = 0U; I < Node.callsites_size(); ++I)
	for (const auto *N = Node.subContexts()[I]; N; N = N->next()) {
	std::cout << Indent << "At Index " << I << ":" << std::endl;
	printProfile(*N, Indent + Increment, Increment);
	}
	}

	void startContextSection() override {
	std::cout << "Entered Context Section" << std::endl;
	}

	void endContextSection() override {
	std::cout << "Exited Context Section" << std::endl;
	}

	void writeContextual(const ContextNode &RootNode,
	const ContextNode *Unhandled,
	uint64_t EntryCount) override {
	std::cout << "Entering Root " << RootNode.guid()
	<< " with total entry count " << EntryCount << std::endl;
	for (const auto *P = Unhandled; P; P = P->next())
	std::cout << "Unhandled GUID: " << P->guid() << " entered "
	<< P->entrycount() << " times" << std::endl;
	printProfile(RootNode, " ", " ");
	}

	void startFlatSection() override {
	std::cout << "Entered Flat Section" << std::endl;
	}

	void writeFlat(GUID Guid, const uint64_t *Buffer,
	size_t BufferSize) override {
	std::cout << "Flat: " << Guid << " " << Buffer[0];
	for (size_t I = 1U; I < BufferSize; ++I)
	std::cout << "," << Buffer[I];
	std::cout << std::endl;
	};

	void endFlatSection() override {
	std::cout << "Exited Flat Section" << std::endl;
	}
	};

	// Guid:3950394326069683896 is anotherFunction
	// Guid:6759619411192316602 is someFunction
	// These are expected to be the auto-detected roots. This is because we cannot
	// discern (with the current autodetection mechanism) if theRoot
	// (Guid:8657661246551306189) is ever re-entered.
	//
	// CHECK: Entered Context Section
	// CHECK-NEXT: Entering Root 6759619411192316602 with total entry count 12463157
	// CHECK-NEXT: Guid: 6759619411192316602
	// CHECK-NEXT: Entries: 5391142
	// CHECK-NEXT: 2 counters and 3 callsites
	// CHECK-NEXT: Counter values: 5391142 1832357
	// CHECK-NEXT: At Index 0:
	// CHECK-NEXT: Guid: 434762725428799310
	// CHECK-NEXT: Entries: 3558785
	// CHECK-NEXT: 1 counters and 0 callsites
	// CHECK-NEXT: Counter values: 3558785
	// CHECK-NEXT: At Index 1:
	// CHECK-NEXT: Guid: 5578595117440393467
	// CHECK-NEXT: Entries: 1832357
	// CHECK-NEXT: 1 counters and 0 callsites
	// CHECK-NEXT: Counter values: 1832357
	// CHECK-NEXT: At Index 2:
	// CHECK-NEXT: Guid: 3950394326069683896
	// CHECK-NEXT: Entries: 5391142
	// CHECK-NEXT: 1 counters and 0 callsites
	// CHECK-NEXT: Counter values: 5391142
	// CHECK-NEXT: Entering Root 3950394326069683896 with total entry count 11226401
	// CHECK-NEXT: Guid: 3950394326069683896
	// CHECK-NEXT: Entries: 10767423
	// CHECK-NEXT: 1 counters and 0 callsites
	// CHECK-NEXT: Counter values: 10767423
	// CHECK-NEXT: Exited Context Section
	// CHECK-NEXT: Entered Flat Section
	// CHECK-NEXT: Flat: 2597020043743142491 1
	// CHECK-NEXT: Flat: 4321328481998485159 1
	// CHECK-NEXT: Flat: 8657661246551306189 9114175,18099613
	// CHECK-NEXT: Flat: 434762725428799310 10574815
	// CHECK-NEXT: Flat: 5578595117440393467 5265754
	// CHECK-NEXT: Flat: 12566320182004153844 1
	// CHECK-NEXT: Exited Flat Section

	bool profileWriter() {
	TestProfileWriter W;
	return __llvm_ctx_profile_fetch(W);
	}

	int main(int argc, char **argv) {
	std::atomic<bool> Stop = false;
	std::atomic<int> Started = 0;
	std::thread T1([&]() {
	++Started;
	while (!Stop) {
	theRoot();
	}
	});

	std::thread T2([&]() {
	++Started;
	while (!Stop) {
	theRoot();
	}
	});

	std::thread T3([&]() {
	while (Started < 2) {
	}
	__llvm_ctx_profile_start_collection(5);
	});

	T3.join();
	using namespace std::chrono_literals;

	std::this_thread::sleep_for(10s);
	Stop = true;
	T1.join();
	T2.join();

	// This would be implemented in a specific RPC handler, but here we just call
	// it directly.
	return !profileWriter();
	}