compiler-rt/test/xray/TestCases/Posix/fdr-reinit.cpp - llvm-project - Git at Google

 // RUN: %clangxx_xray -g -std=c++11 %s -o %t
 // RUN: rm xray-log.fdr-reinit* || true
 // RUN: XRAY_OPTIONS="verbosity=1" %run %t
 // RUN: rm xray-log.fdr-reinit* || true
 #include "xray/xray_log_interface.h"
 #include <atomic>
 #include <cassert>
 #include <cstddef>
 #include <thread>

 volatile uint64_t var = 0;

 std::atomic_flag keep_going = ATOMIC_FLAG_INIT;

 [[clang::xray_always_instrument]] void __attribute__((noinline)) func() {
   ++var;
 }

 int main(int argc, char *argv[]) {
   // Start a thread that will just keep calling the function, to spam calls to
   // the function call handler.
   keep_going.test_and_set(std::memory_order_acquire);
   std::thread t([] {
     while (keep_going.test_and_set(std::memory_order_acquire))
       func();
   });

   static constexpr char kConfig[] =
       "buffer_size=1024:buffer_max=10:no_file_flush=true";

   // Then we initialize the FDR mode implementation.
   assert(__xray_log_select_mode("xray-fdr") ==
          XRayLogRegisterStatus::XRAY_REGISTRATION_OK);
   auto init_status = __xray_log_init_mode("xray-fdr", kConfig);
   assert(init_status == XRayLogInitStatus::XRAY_LOG_INITIALIZED);

   // Now we patch the instrumentation points.
   __xray_patch();

   // Spin for a bit, calling func() enough times.
   for (auto i = 0; i < 1 << 20; ++i)
     func();

   // Then immediately finalize the implementation.
   auto finalize_status = __xray_log_finalize();
   assert(finalize_status == XRayLogInitStatus::XRAY_LOG_FINALIZED);

   // Once we're here, we should then flush.
   auto flush_status = __xray_log_flushLog();
   assert(flush_status == XRayLogFlushStatus::XRAY_LOG_FLUSHED);

   for (auto trial = 0; trial < 3; trial++) {
     // Without doing anything else, we should re-initialize.
     init_status = __xray_log_init_mode("xray-fdr", kConfig);
     assert(init_status == XRayLogInitStatus::XRAY_LOG_INITIALIZED);

     // Then we spin for a bit again calling func() enough times.
     for (auto i = 0; i < 1 << 20; ++i)
       func();

     // Then immediately finalize the implementation.
     finalize_status = __xray_log_finalize();
     assert(finalize_status == XRayLogInitStatus::XRAY_LOG_FINALIZED);

     // Once we're here, we should then flush.
     flush_status = __xray_log_flushLog();
     assert(flush_status == XRayLogFlushStatus::XRAY_LOG_FLUSHED);
   }

   // Finally, we should signal the sibling thread to stop.
   keep_going.clear(std::memory_order_release);

   // Then join.
   t.join();
 }
	// RUN: %clangxx_xray -g -std=c++11 %s -o %t
	// RUN: rm xray-log.fdr-reinit* \|\| true
	// RUN: XRAY_OPTIONS="verbosity=1" %run %t
	// RUN: rm xray-log.fdr-reinit* \|\| true
	#include "xray/xray_log_interface.h"
	#include <atomic>
	#include <cassert>
	#include <cstddef>
	#include <thread>

	volatile uint64_t var = 0;

	std::atomic_flag keep_going = ATOMIC_FLAG_INIT;

	[[clang::xray_always_instrument]] void __attribute__((noinline)) func() {
	++var;
	}

	int main(int argc, char *argv[]) {
	// Start a thread that will just keep calling the function, to spam calls to
	// the function call handler.
	keep_going.test_and_set(std::memory_order_acquire);
	std::thread t([] {
	while (keep_going.test_and_set(std::memory_order_acquire))
	func();
	});

	static constexpr char kConfig[] =
	"buffer_size=1024:buffer_max=10:no_file_flush=true";

	// Then we initialize the FDR mode implementation.
	assert(__xray_log_select_mode("xray-fdr") ==
	XRayLogRegisterStatus::XRAY_REGISTRATION_OK);
	auto init_status = __xray_log_init_mode("xray-fdr", kConfig);
	assert(init_status == XRayLogInitStatus::XRAY_LOG_INITIALIZED);

	// Now we patch the instrumentation points.
	__xray_patch();

	// Spin for a bit, calling func() enough times.
	for (auto i = 0; i < 1 << 20; ++i)
	func();

	// Then immediately finalize the implementation.
	auto finalize_status = __xray_log_finalize();
	assert(finalize_status == XRayLogInitStatus::XRAY_LOG_FINALIZED);

	// Once we're here, we should then flush.
	auto flush_status = __xray_log_flushLog();
	assert(flush_status == XRayLogFlushStatus::XRAY_LOG_FLUSHED);

	for (auto trial = 0; trial < 3; trial++) {
	// Without doing anything else, we should re-initialize.
	init_status = __xray_log_init_mode("xray-fdr", kConfig);
	assert(init_status == XRayLogInitStatus::XRAY_LOG_INITIALIZED);

	// Then we spin for a bit again calling func() enough times.
	for (auto i = 0; i < 1 << 20; ++i)
	func();

	// Then immediately finalize the implementation.
	finalize_status = __xray_log_finalize();
	assert(finalize_status == XRayLogInitStatus::XRAY_LOG_FINALIZED);

	// Once we're here, we should then flush.
	flush_status = __xray_log_flushLog();
	assert(flush_status == XRayLogFlushStatus::XRAY_LOG_FLUSHED);
	}

	// Finally, we should signal the sibling thread to stop.
	keep_going.clear(std::memory_order_release);

	// Then join.
	t.join();
	}