include/qemu/lockable.h - third_party/qemu - Git at Google

 /*
  * Polymorphic locking functions (aka poor man templates)
  *
  * Copyright Red Hat, Inc. 2017, 2018
  *
  * Author: Paolo Bonzini <pbonzini@redhat.com>
  *
  * This work is licensed under the terms of the GNU LGPL, version 2 or later.
  * See the COPYING.LIB file in the top-level directory.
  *
  */

 #ifndef QEMU_LOCKABLE_H
 #define QEMU_LOCKABLE_H

 #include "qemu/coroutine.h"
 #include "qemu/thread.h"

 typedef void QemuLockUnlockFunc(void *);

 struct QemuLockable {
     void *object;
     QemuLockUnlockFunc *lock;
     QemuLockUnlockFunc *unlock;
 };

 static inline __attribute__((__always_inline__)) QemuLockable *
 qemu_make_lockable(void *x, QemuLockable *lockable)
 {
     /*
      * We cannot test this in a macro, otherwise we get compiler
      * warnings like "the address of 'm' will always evaluate as 'true'".
      */
     return x ? lockable : NULL;
 }

 static inline __attribute__((__always_inline__)) QemuLockable *
 qemu_null_lockable(void *x)
 {
     if (x != NULL) {
         qemu_build_not_reached();
     }
     return NULL;
 }

 /*
  * In C, compound literals have the lifetime of an automatic variable.
  * In C++ it would be different, but then C++ wouldn't need QemuLockable
  * either...
  */
 #define QML_OBJ_(x, name) (&(QemuLockable) {                            \
         .object = (x),                                                  \
         .lock = (QemuLockUnlockFunc *) qemu_ ## name ## _lock,          \
         .unlock = (QemuLockUnlockFunc *) qemu_ ## name ## _unlock       \
     })

 /**
  * QEMU_MAKE_LOCKABLE - Make a polymorphic QemuLockable
  *
  * @x: a lock object (currently one of QemuMutex, QemuRecMutex,
  *     CoMutex, QemuSpin).
  *
  * Returns a QemuLockable object that can be passed around
  * to a function that can operate with locks of any kind, or
  * NULL if @x is %NULL.
  *
  * Note the special case for void *, so that we may pass "NULL".
  */
 #define QEMU_MAKE_LOCKABLE(x)                                           \
     _Generic((x), QemuLockable *: (x),                                  \
              void *: qemu_null_lockable(x),                             \
              QemuMutex *: qemu_make_lockable(x, QML_OBJ_(x, mutex)),    \
              QemuRecMutex *: qemu_make_lockable(x, QML_OBJ_(x, rec_mutex)), \
              CoMutex *: qemu_make_lockable(x, QML_OBJ_(x, co_mutex)),   \
              QemuSpin *: qemu_make_lockable(x, QML_OBJ_(x, spin)))

 /**
  * QEMU_MAKE_LOCKABLE_NONNULL - Make a polymorphic QemuLockable
  *
  * @x: a lock object (currently one of QemuMutex, QemuRecMutex,
  *     CoMutex, QemuSpin).
  *
  * Returns a QemuLockable object that can be passed around
  * to a function that can operate with locks of any kind.
  */
 #define QEMU_MAKE_LOCKABLE_NONNULL(x)                           \
     _Generic((x), QemuLockable *: (x),                          \
                   QemuMutex *: QML_OBJ_(x, mutex),              \
                   QemuRecMutex *: QML_OBJ_(x, rec_mutex),       \
                   CoMutex *: QML_OBJ_(x, co_mutex),             \
                   QemuSpin *: QML_OBJ_(x, spin))

 static inline void qemu_lockable_lock(QemuLockable *x)
 {
     x->lock(x->object);
 }

 static inline void qemu_lockable_unlock(QemuLockable *x)
 {
     x->unlock(x->object);
 }

 static inline QemuLockable *qemu_lockable_auto_lock(QemuLockable *x)
 {
     qemu_lockable_lock(x);
     return x;
 }

 static inline void qemu_lockable_auto_unlock(QemuLockable *x)
 {
     if (x) {
         qemu_lockable_unlock(x);
     }
 }

 G_DEFINE_AUTOPTR_CLEANUP_FUNC(QemuLockable, qemu_lockable_auto_unlock)

 #define WITH_QEMU_LOCK_GUARD_(x, var) \
     for (g_autoptr(QemuLockable) var = \
                 qemu_lockable_auto_lock(QEMU_MAKE_LOCKABLE_NONNULL((x))); \
          var; \
          qemu_lockable_auto_unlock(var), var = NULL)

 /**
  * WITH_QEMU_LOCK_GUARD - Lock a lock object for scope
  *
  * @x: a lock object (currently one of QemuMutex, CoMutex, QemuSpin).
  *
  * This macro defines a lock scope such that entering the scope takes the lock
  * and leaving the scope releases the lock.  Return statements are allowed
  * within the scope and release the lock.  Break and continue statements leave
  * the scope early and release the lock.
  *
  *   WITH_QEMU_LOCK_GUARD(&mutex) {
  *       ...
  *       if (error) {
  *           return; <-- mutex is automatically unlocked
  *       }
  *
  *       if (early_exit) {
  *           break;  <-- leave this scope early
  *       }
  *       ...
  *   }
  */
 #define WITH_QEMU_LOCK_GUARD(x) \
     WITH_QEMU_LOCK_GUARD_((x), glue(qemu_lockable_auto, __COUNTER__))

 /**
  * QEMU_LOCK_GUARD - Lock an object until the end of the scope
  *
  * @x: a lock object (currently one of QemuMutex, CoMutex, QemuSpin).
  *
  * This macro takes a lock until the end of the scope.  Return statements
  * release the lock.
  *
  *   ... <-- mutex not locked
  *   QEMU_LOCK_GUARD(&mutex); <-- mutex locked from here onwards
  *   ...
  *   if (error) {
  *       return; <-- mutex is automatically unlocked
  *   }
  */
 #define QEMU_LOCK_GUARD(x)                                       \
     g_autoptr(QemuLockable)                                      \
     glue(qemu_lockable_auto, __COUNTER__) G_GNUC_UNUSED =        \
             qemu_lockable_auto_lock(QEMU_MAKE_LOCKABLE((x)))

 #endif
	/*
	* Polymorphic locking functions (aka poor man templates)
	*
	* Copyright Red Hat, Inc. 2017, 2018
	*
	* Author: Paolo Bonzini <pbonzini@redhat.com>
	*
	* This work is licensed under the terms of the GNU LGPL, version 2 or later.
	* See the COPYING.LIB file in the top-level directory.
	*
	*/

	#ifndef QEMU_LOCKABLE_H
	#define QEMU_LOCKABLE_H

	#include "qemu/coroutine.h"
	#include "qemu/thread.h"

	typedef void QemuLockUnlockFunc(void *);

	struct QemuLockable {
	void *object;
	QemuLockUnlockFunc *lock;
	QemuLockUnlockFunc *unlock;
	};

	static inline __attribute__((__always_inline__)) QemuLockable *
	qemu_make_lockable(void x, QemuLockable lockable)
	{
	/*
	* We cannot test this in a macro, otherwise we get compiler
	* warnings like "the address of 'm' will always evaluate as 'true'".
	*/
	return x ? lockable : NULL;
	}

	static inline __attribute__((__always_inline__)) QemuLockable *
	qemu_null_lockable(void *x)
	{
	if (x != NULL) {
	qemu_build_not_reached();
	}
	return NULL;
	}

	/*
	* In C, compound literals have the lifetime of an automatic variable.
	* In C++ it would be different, but then C++ wouldn't need QemuLockable
	* either...
	*/
	#define QML_OBJ_(x, name) (&(QemuLockable) { \
	.object = (x), \
	.lock = (QemuLockUnlockFunc *) qemu_ ## name ## _lock, \
	.unlock = (QemuLockUnlockFunc *) qemu_ ## name ## _unlock \
	})

	/**
	* QEMU_MAKE_LOCKABLE - Make a polymorphic QemuLockable
	*
	* @x: a lock object (currently one of QemuMutex, QemuRecMutex,
	* CoMutex, QemuSpin).
	*
	* Returns a QemuLockable object that can be passed around
	* to a function that can operate with locks of any kind, or
	* NULL if @x is %NULL.
	*
	* Note the special case for void *, so that we may pass "NULL".
	*/
	#define QEMU_MAKE_LOCKABLE(x) \
	_Generic((x), QemuLockable *: (x), \
	void *: qemu_null_lockable(x), \
	QemuMutex *: qemu_make_lockable(x, QML_OBJ_(x, mutex)), \
	QemuRecMutex *: qemu_make_lockable(x, QML_OBJ_(x, rec_mutex)), \
	CoMutex *: qemu_make_lockable(x, QML_OBJ_(x, co_mutex)), \
	QemuSpin *: qemu_make_lockable(x, QML_OBJ_(x, spin)))

	/**
	* QEMU_MAKE_LOCKABLE_NONNULL - Make a polymorphic QemuLockable
	*
	* @x: a lock object (currently one of QemuMutex, QemuRecMutex,
	* CoMutex, QemuSpin).
	*
	* Returns a QemuLockable object that can be passed around
	* to a function that can operate with locks of any kind.
	*/
	#define QEMU_MAKE_LOCKABLE_NONNULL(x) \
	_Generic((x), QemuLockable *: (x), \
	QemuMutex *: QML_OBJ_(x, mutex), \
	QemuRecMutex *: QML_OBJ_(x, rec_mutex), \
	CoMutex *: QML_OBJ_(x, co_mutex), \
	QemuSpin *: QML_OBJ_(x, spin))

	static inline void qemu_lockable_lock(QemuLockable *x)
	{
	x->lock(x->object);
	}

	static inline void qemu_lockable_unlock(QemuLockable *x)
	{
	x->unlock(x->object);
	}

	static inline QemuLockable qemu_lockable_auto_lock(QemuLockable x)
	{
	qemu_lockable_lock(x);
	return x;
	}

	static inline void qemu_lockable_auto_unlock(QemuLockable *x)
	{
	if (x) {
	qemu_lockable_unlock(x);
	}
	}

	G_DEFINE_AUTOPTR_CLEANUP_FUNC(QemuLockable, qemu_lockable_auto_unlock)

	#define WITH_QEMU_LOCK_GUARD_(x, var) \
	for (g_autoptr(QemuLockable) var = \
	qemu_lockable_auto_lock(QEMU_MAKE_LOCKABLE_NONNULL((x))); \
	var; \
	qemu_lockable_auto_unlock(var), var = NULL)

	/**
	* WITH_QEMU_LOCK_GUARD - Lock a lock object for scope
	*
	* @x: a lock object (currently one of QemuMutex, CoMutex, QemuSpin).
	*
	* This macro defines a lock scope such that entering the scope takes the lock
	* and leaving the scope releases the lock. Return statements are allowed
	* within the scope and release the lock. Break and continue statements leave
	* the scope early and release the lock.
	*
	* WITH_QEMU_LOCK_GUARD(&mutex) {
	* ...
	* if (error) {
	* return; <-- mutex is automatically unlocked
	* }
	*
	* if (early_exit) {
	* break; <-- leave this scope early
	* }
	* ...
	* }
	*/
	#define WITH_QEMU_LOCK_GUARD(x) \
	WITH_QEMU_LOCK_GUARD_((x), glue(qemu_lockable_auto, __COUNTER__))

	/**
	* QEMU_LOCK_GUARD - Lock an object until the end of the scope
	*
	* @x: a lock object (currently one of QemuMutex, CoMutex, QemuSpin).
	*
	* This macro takes a lock until the end of the scope. Return statements
	* release the lock.
	*
	* ... <-- mutex not locked
	* QEMU_LOCK_GUARD(&mutex); <-- mutex locked from here onwards
	* ...
	* if (error) {
	* return; <-- mutex is automatically unlocked
	* }
	*/
	#define QEMU_LOCK_GUARD(x) \
	g_autoptr(QemuLockable) \
	glue(qemu_lockable_auto, __COUNTER__) G_GNUC_UNUSED = \
	qemu_lockable_auto_lock(QEMU_MAKE_LOCKABLE((x)))

	#endif