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#ifndef CYGONCE_MEMALLOC_MEMPOLT2_INL
#define CYGONCE_MEMALLOC_MEMPOLT2_INL
//==========================================================================
//
// mempolt2.inl
//
// Mempolt2 (Memory pool template) class declarations
//
//==========================================================================
//####ECOSGPLCOPYRIGHTBEGIN####
// -------------------------------------------
// This file is part of eCos, the Embedded Configurable Operating System.
// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.
//
// eCos is free software; you can redistribute it and/or modify it under
// the terms of the GNU General Public License as published by the Free
// Software Foundation; either version 2 or (at your option) any later version.
//
// eCos is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or
// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
// for more details.
//
// You should have received a copy of the GNU General Public License along
// with eCos; if not, write to the Free Software Foundation, Inc.,
// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
//
// As a special exception, if other files instantiate templates or use macros
// or inline functions from this file, or you compile this file and link it
// with other works to produce a work based on this file, this file does not
// by itself cause the resulting work to be covered by the GNU General Public
// License. However the source code for this file must still be made available
// in accordance with section (3) of the GNU General Public License.
//
// This exception does not invalidate any other reasons why a work based on
// this file might be covered by the GNU General Public License.
//
// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.
// at http://sources.redhat.com/ecos/ecos-license/
// -------------------------------------------
//####ECOSGPLCOPYRIGHTEND####
//==========================================================================
//#####DESCRIPTIONBEGIN####
//
// Author(s): hmt
// Contributors: jlarmour
// Date: 2000-06-12
// Purpose: Define Mempolt2 class interface
// Description: The class defined here provides the APIs for thread-safe,
// kernel-savvy memory managers; make a class with the
// underlying allocator as the template parameter.
// Usage: #include <cyg/memalloc/mempolt2.hxx>
//
//
//####DESCRIPTIONEND####
//
//==========================================================================
#include <cyg/infra/cyg_ass.h> // assertion support
#include <cyg/infra/cyg_trac.h> // tracing support
#include <cyg/kernel/thread.inl> // implementation eg. Cyg_Thread::self();
#include <cyg/kernel/sched.inl> // implementation eg. Cyg_Scheduler::lock();
// -------------------------------------------------------------------------
// Constructor; we _require_ these arguments and just pass them through to
// the implementation memory pool in use.
template <class T>
Cyg_Mempolt2<T>::Cyg_Mempolt2(
cyg_uint8 *base,
cyg_int32 size,
CYG_ADDRWORD arg_thru) // Constructor
: pool( base, size, arg_thru )
{
}
template <class T>
Cyg_Mempolt2<T>::~Cyg_Mempolt2() // destructor
{
// Prevent preemption
Cyg_Scheduler::lock();
while ( ! queue.empty() ) {
Cyg_Thread *thread = queue.dequeue();
thread->set_wake_reason( Cyg_Thread::DESTRUCT );
thread->wake();
}
// Unlock the scheduler and maybe switch threads
Cyg_Scheduler::unlock();
}
// -------------------------------------------------------------------------
// get some memory; wait if none available
template <class T>
inline cyg_uint8 *
Cyg_Mempolt2<T>::alloc( cyg_int32 size )
{
CYG_REPORT_FUNCTION();
// Prevent preemption
Cyg_Scheduler::lock();
CYG_ASSERTCLASS( this, "Bad this pointer");
cyg_uint8 *ret;
ret = pool.try_alloc( size );
if ( ret ) {
Cyg_Scheduler::unlock();
CYG_ASSERTCLASS( this, "Bad this pointer");
CYG_REPORT_RETVAL( ret );
return ret;
}
Cyg_Thread *self = Cyg_Thread::self();
Mempolt2WaitInfo waitinfo( size );
self->set_wait_info( (CYG_ADDRWORD)&waitinfo );
self->set_sleep_reason( Cyg_Thread::WAIT );
self->sleep();
queue.enqueue( self );
CYG_ASSERT( 1 == Cyg_Scheduler::get_sched_lock(),
"Called with non-zero scheduler lock");
// Unlock scheduler and allow other threads to run
Cyg_Scheduler::unlock();
cyg_bool result = true; // just used as a flag here
switch( self->get_wake_reason() )
{
case Cyg_Thread::DESTRUCT:
case Cyg_Thread::BREAK:
result = false;
break;
case Cyg_Thread::EXIT:
self->exit();
break;
default:
break;
}
if ( ! result )
ret = NULL;
else
ret = waitinfo.addr;
CYG_ASSERT( (!result) || (NULL != ret), "Good result but no alloc!" );
CYG_ASSERTCLASS( this, "Bad this pointer");
CYG_REPORT_RETVAL( ret );
return ret;
}
#ifdef CYGFUN_KERNEL_THREADS_TIMER
// -------------------------------------------------------------------------
// get some memory with a timeout
template <class T>
inline cyg_uint8 *
Cyg_Mempolt2<T>::alloc( cyg_int32 size, cyg_tick_count abs_timeout )
{
CYG_REPORT_FUNCTION();
// Prevent preemption
Cyg_Scheduler::lock();
CYG_ASSERTCLASS( this, "Bad this pointer");
cyg_uint8 *ret;
ret = pool.try_alloc( size );
if ( ret ) {
Cyg_Scheduler::unlock();
CYG_ASSERTCLASS( this, "Bad this pointer");
CYG_REPORT_RETVAL( ret );
return ret;
}
Cyg_Thread *self = Cyg_Thread::self();
Mempolt2WaitInfo waitinfo( size );
self->set_timer( abs_timeout, Cyg_Thread::TIMEOUT );
// If the timeout is in the past, the wake reason will have been set to
// something other than NONE already. If so, skip the wait and go
// straight to unlock.
if( Cyg_Thread::NONE == self->get_wake_reason() ) {
self->set_wait_info( (CYG_ADDRWORD)&waitinfo );
self->sleep();
queue.enqueue( self );
}
CYG_ASSERT( 1 == Cyg_Scheduler::get_sched_lock(),
"Called with non-zero scheduler lock");
// Unlock scheduler and allow other threads to run
Cyg_Scheduler::unlock();
// clear the timer; if it actually fired, no worries.
self->clear_timer();
cyg_bool result = true; // just used as a flag here
switch( self->get_wake_reason() )
{
case Cyg_Thread::TIMEOUT:
result = false;
break;
case Cyg_Thread::DESTRUCT:
case Cyg_Thread::BREAK:
result = false;
break;
case Cyg_Thread::EXIT:
self->exit();
break;
default:
break;
}
if ( ! result )
ret = NULL;
else
ret = waitinfo.addr;
CYG_ASSERT( (!result) || (NULL != ret), "Good result but no alloc!" );
CYG_ASSERTCLASS( this, "Bad this pointer");
CYG_REPORT_RETVAL( ret );
return ret;
}
#endif
// -------------------------------------------------------------------------
// get some memory, return NULL if none available
template <class T>
inline cyg_uint8 *
Cyg_Mempolt2<T>::try_alloc( cyg_int32 size )
{
CYG_REPORT_FUNCTION();
// Prevent preemption
Cyg_Scheduler::lock();
CYG_ASSERTCLASS( this, "Bad this pointer");
cyg_uint8 *ret = pool.try_alloc( size );
CYG_ASSERTCLASS( this, "Bad this pointer");
// Unlock the scheduler and maybe switch threads
Cyg_Scheduler::unlock();
return ret;
}
// -------------------------------------------------------------------------
// resize existing allocation, if oldsize is non-NULL, previous
// allocation size is placed into it. If previous size not available,
// it is set to 0. NB previous allocation size may have been rounded up.
// Occasionally the allocation can be adjusted *backwards* as well as,
// or instead of forwards, therefore the address of the resized
// allocation is returned, or NULL if no resizing was possible.
// Note that this differs from ::realloc() in that no attempt is
// made to call malloc() if resizing is not possible - that is left
// to higher layers. The data is copied from old to new though.
// The effects of alloc_ptr==NULL or newsize==0 are undefined
template <class T>
cyg_uint8 *
Cyg_Mempolt2<T>::resize_alloc( cyg_uint8 *alloc_ptr, cyg_int32 newsize,
cyg_int32 *oldsize )
{
CYG_REPORT_FUNCTION();
// Prevent preemption
Cyg_Scheduler::lock();
CYG_ASSERTCLASS( this, "Bad this pointer");
cyg_uint8 *ret = pool.resize_alloc( alloc_ptr, newsize, oldsize );
CYG_ASSERTCLASS( this, "Bad this pointer");
// Unlock the scheduler and maybe switch threads
Cyg_Scheduler::unlock();
return ret;
}
// -------------------------------------------------------------------------
// free the memory back to the pool
template <class T>
cyg_bool
Cyg_Mempolt2<T>::free( cyg_uint8 *p, cyg_int32 size )
{
CYG_REPORT_FUNCTION();
// Prevent preemption
Cyg_Scheduler::lock();
CYG_ASSERTCLASS( this, "Bad this pointer");
cyg_int32 ret = pool.free( p, size );
// anyone waiting?
if ( !(queue.empty()) ) {
Mempolt2WaitInfo *p;
Cyg_Thread *thread;
#ifdef CYGIMP_MEM_T_ONEFREE_TO_ONEALLOC
thread = queue.dequeue();
p = (Mempolt2WaitInfo *)(thread->get_wait_info());
CYG_ASSERT( NULL == p->addr, "Thread already awoken?" );
cyg_uint8 *mem;
mem = pool.try_alloc( p->size );
CYG_ASSERT( NULL != mem, "That should have succeeded" );
thread->set_wake_reason( Cyg_Thread::DONE );
thread->wake();
// return the successful value to it
p->addr = mem;
#else
Cyg_ThreadQueue holding;
do {
thread = queue.dequeue();
p = (Mempolt2WaitInfo *)(thread->get_wait_info());
CYG_ASSERT( NULL == p->addr, "Thread already awoken?" );
cyg_uint8 *mem;
if ( NULL != (mem = pool.try_alloc( p->size )) ) {
// success! awaken the thread
thread->set_wake_reason( Cyg_Thread::DONE );
thread->wake();
// return the successful value to it
p->addr = mem;
}
else {
// preserve the entry on the holding queue
holding.enqueue( thread );
}
} while ( !(queue.empty()) );
// Now re-queue the unaffected threads back into the pool queue
// (no pun intended)
while ( !(holding.empty()) ) {
queue.enqueue( holding.dequeue() );
}
#endif // CYGIMP_MEM_T_ONEFREE_TO_ONEALLOC
}
// Unlock the scheduler and maybe switch threads
Cyg_Scheduler::unlock();
CYG_REPORT_RETVAL( ret );
return ret;
}
// -------------------------------------------------------------------------
// Get memory pool status
// Needs atomicity protection (maybe)
template <class T>
inline void
Cyg_Mempolt2<T>::get_status( cyg_mempool_status_flag_t flags,
Cyg_Mempool_Status &status )
{
// Prevent preemption
Cyg_Scheduler::lock();
CYG_ASSERTCLASS( this, "Bad this pointer");
if (0 != (flags & CYG_MEMPOOL_STAT_WAITING)) {
status.waiting = (0 == queue.empty());
}
pool.get_status(flags, status);
// Unlock the scheduler and maybe switch threads
Cyg_Scheduler::unlock();
}
// -------------------------------------------------------------------------
// debugging/assert function
#ifdef CYGDBG_USE_ASSERTS
template <class T>
inline cyg_bool
Cyg_Mempolt2<T>::check_this(cyg_assert_class_zeal zeal) const
{
CYG_REPORT_FUNCTION();
if ( Cyg_Thread::DESTRUCT == Cyg_Thread::self()->get_wake_reason() )
// then the whole thing is invalid, and we know it.
// so return OK, since this check should NOT make an error.
return true;
// check that we have a non-NULL pointer first
if( this == NULL ) return false;
return true;
}
#endif
// -------------------------------------------------------------------------
#endif // ifndef CYGONCE_MEMALLOC_MEMPOLT2_INL
// EOF mempolt2.inl
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