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genode/repos/base/include/base/object_pool.h

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/*
* \brief Object pool - map capabilities to objects
* \author Norman Feske
* \author Alexander Boettcher
* \author Stafen Kalkowski
* \date 2006-06-26
*/
/*
* Copyright (C) 2006-2017 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU Affero General Public License version 3.
*/
#ifndef _INCLUDE__BASE__OBJECT_POOL_H_
#define _INCLUDE__BASE__OBJECT_POOL_H_
#include <util/avl_tree.h>
#include <util/noncopyable.h>
#include <base/capability.h>
#include <base/weak_ptr.h>
namespace Genode { template <typename> class Object_pool; }
/**
* Map capabilities to local objects
*
* \param OBJ_TYPE object type (must be inherited from Object_pool::Entry)
*
* The local names of a capabilities are used to differentiate multiple server
* objects managed by one and the same object pool.
*/
template <typename OBJ_TYPE>
class Genode::Object_pool : Interface, Noncopyable
{
public:
class Entry : Avl_node<Entry>
{
private:
friend class Object_pool;
friend class Avl_tree<Entry>;
friend class Avl_node<Entry>;
struct Entry_lock : Weak_object<Entry_lock>, Noncopyable
{
Entry &obj;
Entry_lock(Entry &e) : obj(e) { }
~Entry_lock() {
Weak_object<Entry_lock>::lock_for_destruction(); }
};
Untyped_capability _cap { };
Entry_lock _lock { *this };
inline unsigned long _obj_id() { return _cap.local_name(); }
public:
Entry() { }
Entry(Untyped_capability cap) : _cap(cap) { }
virtual ~Entry() { }
/**
* Avl_node interface
*/
bool higher(Entry *e) { return e->_obj_id() > _obj_id(); }
void recompute() { } /* for gcc-3.4 compatibility */
/**
* Support for object pool
*/
Entry *find_by_obj_id(unsigned long obj_id)
{
if (obj_id == _obj_id()) return this;
Entry *obj = this->child(obj_id > _obj_id());
return obj ? obj->find_by_obj_id(obj_id) : 0;
}
/**
* Assign capability to object pool entry
*/
void cap(Untyped_capability c) { _cap = c; }
Untyped_capability const cap() const { return _cap; }
};
private:
Avl_tree<Entry> _tree { };
Lock _lock { };
protected:
bool empty()
{
Lock::Guard lock_guard(_lock);
return _tree.first() == nullptr;
}
public:
void insert(OBJ_TYPE *obj)
{
Lock::Guard lock_guard(_lock);
_tree.insert(obj);
}
void remove(OBJ_TYPE *obj)
{
Lock::Guard lock_guard(_lock);
_tree.remove(obj);
}
template <typename FUNC>
auto apply(unsigned long capid, FUNC func)
-> typename Trait::Functor<decltype(&FUNC::operator())>::Return_type
{
using Functor = Trait::Functor<decltype(&FUNC::operator())>;
using Object_pointer = typename Functor::template Argument<0>::Type;
using Weak_ptr = Weak_ptr<typename Entry::Entry_lock>;
using Locked_ptr = Locked_ptr<typename Entry::Entry_lock>;
Weak_ptr ptr;
{
Lock::Guard lock_guard(_lock);
Entry * entry = _tree.first() ?
_tree.first()->find_by_obj_id(capid) : nullptr;
if (entry) ptr = entry->_lock.weak_ptr();
}
{
Locked_ptr lock_ptr(ptr);
Object_pointer op = lock_ptr.valid()
? dynamic_cast<Object_pointer>(&lock_ptr->obj) : nullptr;
return func(op);
}
}
template <typename FUNC>
auto apply(Untyped_capability cap, FUNC func)
-> typename Trait::Functor<decltype(&FUNC::operator())>::Return_type
{
return apply(cap.local_name(), func);
}
template <typename FUNC>
void remove_all(FUNC func)
{
using Weak_ptr = Weak_ptr<typename Entry::Entry_lock>;
using Locked_ptr = Locked_ptr<typename Entry::Entry_lock>;
for (;;) {
OBJ_TYPE * obj;
{
Lock::Guard lock_guard(_lock);
if (!((obj = (OBJ_TYPE*) _tree.first()))) return;
Weak_ptr ptr = obj->_lock.weak_ptr();
{
Locked_ptr lock_ptr(ptr);
if (!lock_ptr.valid()) return;
_tree.remove(obj);
}
}
func(obj);
}
}
};
#endif /* _INCLUDE__BASE__OBJECT_POOL_H_ */
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