libc/bionic/__cxa_guard.cpp - nest-cam/4320010/libc - Git at Google

 /*
  * Copyright (C) 2006 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include <endian.h>
 #include <limits.h>
 #undef _USING_LIBCXX  // Prevent using of <atomic>.
 #include <stdatomic.h>

 #include <stddef.h>

 #include "private/bionic_futex.h"

 // This file contains C++ ABI support functions for one time
 // constructors as defined in the "Run-time ABI for the ARM Architecture"
 // section 4.4.2
 //
 // ARM C++ ABI and Itanium/x86 C++ ABI has different definition for
 // one time construction:
 //
 //    ARM C++ ABI defines the LSB of guard variable should be tested
 //    by compiler-generated code before calling __cxa_guard_acquire et al.
 //
 //    The Itanium/x86 C++ ABI defines the low-order _byte_ should be
 //    tested instead.
 //
 //    Meanwhile, guard variable are 32bit aligned for ARM, and 64bit
 //    aligned for x86.
 //
 // Reference documentation:
 //
 //    section 3.2.3 of ARM IHI 0041C (for ARM)
 //    section 3.3.2 of the Itanium C++ ABI specification v1.83 (for x86).
 //
 // There is no C++ ABI available for other ARCH. But the gcc source
 // shows all other ARCH follow the definition of Itanium/x86 C++ ABI.

 #if defined(__arm__)
 // The ARM C++ ABI mandates that guard variables are 32-bit aligned, 32-bit
 // values. The LSB is tested by the compiler-generated code before calling
 // __cxa_guard_acquire.
 union _guard_t {
   atomic_int state;
   int32_t aligner;
 };

 #else
 // The Itanium/x86 C++ ABI (used by all other architectures) mandates that
 // guard variables are 64-bit aligned, 64-bit values. The LSB is tested by
 // the compiler-generated code before calling __cxa_guard_acquire.
 union _guard_t {
   atomic_int state;
   int64_t aligner;
 };

 #endif

 // Set construction state values according to reference documentation.
 // 0 is the initialization value.
 // Arm requires ((*gv & 1) == 1) after __cxa_guard_release, ((*gv & 3) == 0) after __cxa_guard_abort.
 // X86 requires first byte not modified by __cxa_guard_acquire, first byte is non-zero after
 // __cxa_guard_release.

 #define CONSTRUCTION_NOT_YET_STARTED                0
 #define CONSTRUCTION_COMPLETE                       1
 #define CONSTRUCTION_UNDERWAY_WITHOUT_WAITER    0x100
 #define CONSTRUCTION_UNDERWAY_WITH_WAITER       0x200

 extern "C" int __cxa_guard_acquire(_guard_t* gv) {
   int old_value = atomic_load_explicit(&gv->state, memory_order_relaxed);

   while (true) {
     if (old_value == CONSTRUCTION_COMPLETE) {
       // A load_acquire operation is need before exiting with COMPLETE state, as we have to ensure
       // that all the stores performed by the construction function are observable on this CPU
       // after we exit.
       atomic_thread_fence(memory_order_acquire);
       return 0;
     } else if (old_value == CONSTRUCTION_NOT_YET_STARTED) {
       if (!atomic_compare_exchange_weak_explicit(&gv->state, &old_value,
                                                   CONSTRUCTION_UNDERWAY_WITHOUT_WAITER,
                                                   memory_order_relaxed,
                                                   memory_order_relaxed)) {
         continue;
       }
       // The acquire fence may not be needed. But as described in section 3.3.2 of
       // the Itanium C++ ABI specification, it probably has to behave like the
       // acquisition of a mutex, which needs an acquire fence.
       atomic_thread_fence(memory_order_acquire);
       return 1;
     } else if (old_value == CONSTRUCTION_UNDERWAY_WITHOUT_WAITER) {
       if (!atomic_compare_exchange_weak_explicit(&gv->state, &old_value,
                                                  CONSTRUCTION_UNDERWAY_WITH_WAITER,
                                                  memory_order_relaxed,
                                                  memory_order_relaxed)) {
         continue;
       }
     }

     __futex_wait_ex(&gv->state, false, CONSTRUCTION_UNDERWAY_WITH_WAITER, false, nullptr);
     old_value = atomic_load_explicit(&gv->state, memory_order_relaxed);
   }
 }

 extern "C" void __cxa_guard_release(_guard_t* gv) {
   // Release fence is used to make all stores performed by the construction function
   // visible in other threads.
   int old_value = atomic_exchange_explicit(&gv->state, CONSTRUCTION_COMPLETE, memory_order_release);
   if (old_value == CONSTRUCTION_UNDERWAY_WITH_WAITER) {
     __futex_wake_ex(&gv->state, false, INT_MAX);
   }
 }

 extern "C" void __cxa_guard_abort(_guard_t* gv) {
   // Release fence is used to make all stores performed by the construction function
   // visible in other threads.
   int old_value = atomic_exchange_explicit(&gv->state, CONSTRUCTION_NOT_YET_STARTED, memory_order_release);
   if (old_value == CONSTRUCTION_UNDERWAY_WITH_WAITER) {
     __futex_wake_ex(&gv->state, false, INT_MAX);
   }
 }
	/*
	* Copyright (C) 2006 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include <endian.h>
	#include <limits.h>
	#undef _USING_LIBCXX // Prevent using of <atomic>.
	#include <stdatomic.h>

	#include <stddef.h>

	#include "private/bionic_futex.h"

	// This file contains C++ ABI support functions for one time
	// constructors as defined in the "Run-time ABI for the ARM Architecture"
	// section 4.4.2
	//
	// ARM C++ ABI and Itanium/x86 C++ ABI has different definition for
	// one time construction:
	//
	// ARM C++ ABI defines the LSB of guard variable should be tested
	// by compiler-generated code before calling __cxa_guard_acquire et al.
	//
	// The Itanium/x86 C++ ABI defines the low-order _byte_ should be
	// tested instead.
	//
	// Meanwhile, guard variable are 32bit aligned for ARM, and 64bit
	// aligned for x86.
	//
	// Reference documentation:
	//
	// section 3.2.3 of ARM IHI 0041C (for ARM)
	// section 3.3.2 of the Itanium C++ ABI specification v1.83 (for x86).
	//
	// There is no C++ ABI available for other ARCH. But the gcc source
	// shows all other ARCH follow the definition of Itanium/x86 C++ ABI.

	#if defined(__arm__)
	// The ARM C++ ABI mandates that guard variables are 32-bit aligned, 32-bit
	// values. The LSB is tested by the compiler-generated code before calling
	// __cxa_guard_acquire.
	union _guard_t {
	atomic_int state;
	int32_t aligner;
	};

	#else
	// The Itanium/x86 C++ ABI (used by all other architectures) mandates that
	// guard variables are 64-bit aligned, 64-bit values. The LSB is tested by
	// the compiler-generated code before calling __cxa_guard_acquire.
	union _guard_t {
	atomic_int state;
	int64_t aligner;
	};

	#endif

	// Set construction state values according to reference documentation.
	// 0 is the initialization value.
	// Arm requires ((gv & 1) == 1) after __cxa_guard_release, ((gv & 3) == 0) after __cxa_guard_abort.
	// X86 requires first byte not modified by __cxa_guard_acquire, first byte is non-zero after
	// __cxa_guard_release.

	#define CONSTRUCTION_NOT_YET_STARTED 0
	#define CONSTRUCTION_COMPLETE 1
	#define CONSTRUCTION_UNDERWAY_WITHOUT_WAITER 0x100
	#define CONSTRUCTION_UNDERWAY_WITH_WAITER 0x200

	extern "C" int __cxa_guard_acquire(_guard_t* gv) {
	int old_value = atomic_load_explicit(&gv->state, memory_order_relaxed);

	while (true) {
	if (old_value == CONSTRUCTION_COMPLETE) {
	// A load_acquire operation is need before exiting with COMPLETE state, as we have to ensure
	// that all the stores performed by the construction function are observable on this CPU
	// after we exit.
	atomic_thread_fence(memory_order_acquire);
	return 0;
	} else if (old_value == CONSTRUCTION_NOT_YET_STARTED) {
	if (!atomic_compare_exchange_weak_explicit(&gv->state, &old_value,
	CONSTRUCTION_UNDERWAY_WITHOUT_WAITER,
	memory_order_relaxed,
	memory_order_relaxed)) {
	continue;
	}
	// The acquire fence may not be needed. But as described in section 3.3.2 of
	// the Itanium C++ ABI specification, it probably has to behave like the
	// acquisition of a mutex, which needs an acquire fence.
	atomic_thread_fence(memory_order_acquire);
	return 1;
	} else if (old_value == CONSTRUCTION_UNDERWAY_WITHOUT_WAITER) {
	if (!atomic_compare_exchange_weak_explicit(&gv->state, &old_value,
	CONSTRUCTION_UNDERWAY_WITH_WAITER,
	memory_order_relaxed,
	memory_order_relaxed)) {
	continue;
	}
	}

	__futex_wait_ex(&gv->state, false, CONSTRUCTION_UNDERWAY_WITH_WAITER, false, nullptr);
	old_value = atomic_load_explicit(&gv->state, memory_order_relaxed);
	}
	}

	extern "C" void __cxa_guard_release(_guard_t* gv) {
	// Release fence is used to make all stores performed by the construction function
	// visible in other threads.
	int old_value = atomic_exchange_explicit(&gv->state, CONSTRUCTION_COMPLETE, memory_order_release);
	if (old_value == CONSTRUCTION_UNDERWAY_WITH_WAITER) {
	__futex_wake_ex(&gv->state, false, INT_MAX);
	}
	}

	extern "C" void __cxa_guard_abort(_guard_t* gv) {
	// Release fence is used to make all stores performed by the construction function
	// visible in other threads.
	int old_value = atomic_exchange_explicit(&gv->state, CONSTRUCTION_NOT_YET_STARTED, memory_order_release);
	if (old_value == CONSTRUCTION_UNDERWAY_WITH_WAITER) {
	__futex_wake_ex(&gv->state, false, INT_MAX);
	}
	}