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#ifndef CYGONCE_KERNEL_MEMPOOLT_INL
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#define CYGONCE_KERNEL_MEMPOOLT_INL
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//==========================================================================
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//
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//      mempoolt.inl
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//
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//      Mempoolt (Memory pool template) class declarations
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//
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//==========================================================================
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//####ECOSGPLCOPYRIGHTBEGIN####
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// -------------------------------------------
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// This file is part of eCos, the Embedded Configurable Operating System.
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// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.
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//
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// eCos is free software; you can redistribute it and/or modify it under
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// the terms of the GNU General Public License as published by the Free
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// Software Foundation; either version 2 or (at your option) any later version.
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//
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// eCos is distributed in the hope that it will be useful, but WITHOUT ANY
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// WARRANTY; without even the implied warranty of MERCHANTABILITY or
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// FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
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// for more details.
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//
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// You should have received a copy of the GNU General Public License along
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// with eCos; if not, write to the Free Software Foundation, Inc.,
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// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
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//
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// As a special exception, if other files instantiate templates or use macros
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// or inline functions from this file, or you compile this file and link it
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// with other works to produce a work based on this file, this file does not
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// by itself cause the resulting work to be covered by the GNU General Public
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// License. However the source code for this file must still be made available
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// in accordance with section (3) of the GNU General Public License.
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//
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// This exception does not invalidate any other reasons why a work based on
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// this file might be covered by the GNU General Public License.
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//
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// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.
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// at http://sources.redhat.com/ecos/ecos-license/
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// -------------------------------------------
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//####ECOSGPLCOPYRIGHTEND####
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//==========================================================================
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//#####DESCRIPTIONBEGIN####
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//
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// Author(s):   hmt
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// Contributors:        hmt
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// Date:        1998-02-10
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// Purpose:     Define Mempoolt class interface
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// Description: The class defined here provides the APIs for thread-safe,
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//              kernel-savvy memory managers; make a class with the
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//              underlying allocator as the template parameter.
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// Usage:       #include 
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//
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//
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//####DESCRIPTIONEND####
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//
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//==========================================================================
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#include   // implementation eg. Cyg_Thread::self();
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#include    // implementation eg. Cyg_Scheduler::lock();
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// -------------------------------------------------------------------------
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// Constructor; we _require_ these arguments and just pass them through to
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// the implementation memory pool in use.
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template 
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Cyg_Mempoolt::Cyg_Mempoolt(
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    cyg_uint8 *base,
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    cyg_int32 size,
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    CYG_ADDRWORD arg_thru)              // Constructor
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    : pool( base, size, arg_thru )
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{
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}
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76
 
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template 
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Cyg_Mempoolt::~Cyg_Mempoolt()  // destructor
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{
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    // Prevent preemption
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    Cyg_Scheduler::lock();
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    while ( ! queue.empty() ) {
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        Cyg_Thread *thread = queue.dequeue();
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        thread->set_wake_reason( Cyg_Thread::DESTRUCT );
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        thread->wake();
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    }
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    // Unlock the scheduler and maybe switch threads
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    Cyg_Scheduler::unlock();
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}
92
 
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// -------------------------------------------------------------------------
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// get some memory; wait if none available
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template 
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inline cyg_uint8 *
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Cyg_Mempoolt::alloc( cyg_int32 size )
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{
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    CYG_REPORT_FUNCTION();
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    Cyg_Thread *self = Cyg_Thread::self();
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103
    // Prevent preemption
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    Cyg_Scheduler::lock();
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    CYG_ASSERTCLASS( this, "Bad this pointer");
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    // Loop while we got no memory, sleeping each time around the
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    // loop. This copes with the possibility of a higher priority thread
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    // grabbing the freed storage between the wakeup in free() and this
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    // thread actually starting.
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    cyg_uint8 *ret;
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    cyg_bool result = true;
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    while( result && (NULL == (ret = pool.alloc( size ))) ) {
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        self->set_sleep_reason( Cyg_Thread::WAIT );
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        self->sleep();
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        queue.enqueue( self );
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118
        CYG_ASSERT( 1 == Cyg_Scheduler::get_sched_lock(),
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                    "Called with non-zero scheduler lock");
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        // Unlock scheduler and allow other threads to run
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        Cyg_Scheduler::unlock();
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        Cyg_Scheduler::lock();
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        CYG_ASSERTCLASS( this, "Bad this pointer");
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127
        switch( self->get_wake_reason() )
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        {
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        case Cyg_Thread::DESTRUCT:
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        case Cyg_Thread::BREAK:
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            result = false;
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            break;
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134
        case Cyg_Thread::EXIT:
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            self->exit();
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            break;
137
 
138
        default:
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            break;
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        }
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    }
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    CYG_ASSERTCLASS( this, "Bad this pointer");
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144
    if ( ! result )
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        ret = NULL;
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    // Unlock the scheduler and maybe switch threads
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    Cyg_Scheduler::unlock();
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    CYG_REPORT_RETVAL( ret );
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    return ret;
151
}
152
 
153
#ifdef CYGFUN_KERNEL_THREADS_TIMER
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// -------------------------------------------------------------------------
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// get some memory with a timeout
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template 
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inline cyg_uint8 *
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Cyg_Mempoolt::alloc( cyg_int32 size, cyg_tick_count abs_timeout )
159
{
160
    CYG_REPORT_FUNCTION();
161
 
162
    Cyg_Thread *self = Cyg_Thread::self();
163
 
164
    // Prevent preemption
165
    Cyg_Scheduler::lock();
166
    CYG_ASSERTCLASS( this, "Bad this pointer");
167
 
168
    // Loop while we got no memory, sleeping each time around the
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    // loop. This copes with the possibility of a higher priority thread
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    // grabbing the freed storage between the wakeup in free() and this
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    // thread actually starting.
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    cyg_uint8 *ret;
173
    cyg_bool result = true;
174
    // Set the timer _once_ outside the loop.
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    self->set_timer( abs_timeout, Cyg_Thread::TIMEOUT );
176
 
177
    // If the timeout is in the past, the wake reason will have been
178
    // set to something other than NONE already. Set the result false
179
    // to force an immediate return.
180
 
181
    if( self->get_wake_reason() != Cyg_Thread::NONE )
182
        result = false;
183
 
184
    while( result && (NULL == (ret = pool.alloc( size ))) ) {
185
        self->set_sleep_reason( Cyg_Thread::TIMEOUT );
186
        self->sleep();
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        queue.enqueue( self );
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189
        CYG_ASSERT( 1 == Cyg_Scheduler::get_sched_lock(),
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                    "Called with non-zero scheduler lock");
191
 
192
        // Unlock scheduler and allow other threads to run
193
        Cyg_Scheduler::unlock();
194
        Cyg_Scheduler::lock();
195
 
196
        CYG_ASSERTCLASS( this, "Bad this pointer");
197
        switch( self->get_wake_reason() )
198
        {
199
        case Cyg_Thread::TIMEOUT:
200
            result = false;
201
            break;
202
 
203
        case Cyg_Thread::DESTRUCT:
204
        case Cyg_Thread::BREAK:
205
            result = false;
206
            break;
207
 
208
        case Cyg_Thread::EXIT:
209
            self->exit();
210
            break;
211
 
212
        default:
213
            break;
214
        }
215
    }
216
 
217
    CYG_ASSERTCLASS( this, "Bad this pointer");
218
 
219
    if ( ! result )
220
        ret = NULL;
221
 
222
    // clear the timer; if it actually fired, no worries.
223
    self->clear_timer();
224
 
225
    // Unlock the scheduler and maybe switch threads
226
    Cyg_Scheduler::unlock();
227
    CYG_REPORT_RETVAL( ret );
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    return ret;
229
}
230
#endif
231
 
232
// -------------------------------------------------------------------------
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// get some memory, return NULL if none available
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template 
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inline cyg_uint8 *
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Cyg_Mempoolt::try_alloc( cyg_int32 size )
237
{
238
    CYG_REPORT_FUNCTION();
239
 
240
    // Prevent preemption
241
    Cyg_Scheduler::lock();
242
    CYG_ASSERTCLASS( this, "Bad this pointer");
243
 
244
    cyg_uint8 *ret = pool.alloc( size );
245
 
246
    CYG_ASSERTCLASS( this, "Bad this pointer");
247
 
248
    // Unlock the scheduler and maybe switch threads
249
    Cyg_Scheduler::unlock();
250
    CYG_REPORT_RETVAL( ret );
251
    return ret;
252
}
253
 
254
 
255
// -------------------------------------------------------------------------
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// free the memory back to the pool
257
template 
258
cyg_bool
259
Cyg_Mempoolt::free( cyg_uint8 *p, cyg_int32 size )
260
{
261
    // Prevent preemption
262
    Cyg_Scheduler::lock();
263
    CYG_ASSERTCLASS( this, "Bad this pointer");
264
 
265
    cyg_int32 ret = pool.free( p, size );
266
 
267
    CYG_ASSERTCLASS( this, "Bad this pointer");
268
 
269
    while ( ret && !queue.empty() ) {
270
        // we succeeded and there are people waiting
271
        Cyg_Thread *thread = queue.dequeue();
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273
        CYG_ASSERTCLASS( thread, "Bad thread pointer");
274
 
275
        // we wake them all up (ie. broadcast) to cope with variable block
276
        // allocators freeing a big block when lots of small allocs wait.
277
        thread->set_wake_reason( Cyg_Thread::DONE );
278
        thread->wake();
279
        // we cannot yield here; if a higher prio thread can't satisfy its
280
        // request it would re-queue and we would loop forever
281
    }
282
    // Unlock the scheduler and maybe switch threads
283
    Cyg_Scheduler::unlock();
284
    return ret;
285
}
286
 
287
// -------------------------------------------------------------------------
288
// if applicable: return -1 if not fixed size
289
template 
290
inline cyg_int32
291
Cyg_Mempoolt::get_blocksize()
292
{
293
    // there should not be any atomicity issues here
294
    return pool.get_blocksize();
295
}
296
 
297
// -------------------------------------------------------------------------
298
// these two are obvious and generic, but need atomicity protection (maybe)
299
template 
300
inline cyg_int32
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Cyg_Mempoolt::get_totalmem()
302
{
303
    // Prevent preemption
304
    Cyg_Scheduler::lock();
305
    CYG_ASSERTCLASS( this, "Bad this pointer");
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307
    cyg_int32 ret = pool.get_totalmem();
308
 
309
    // Unlock the scheduler and maybe switch threads
310
    Cyg_Scheduler::unlock();
311
    return ret;
312
}
313
 
314
template 
315
inline cyg_int32
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Cyg_Mempoolt::get_freemem()
317
{
318
    // Prevent preemption
319
    Cyg_Scheduler::lock();
320
    CYG_ASSERTCLASS( this, "Bad this pointer");
321
 
322
    cyg_int32 ret = pool.get_freemem();
323
 
324
    // Unlock the scheduler and maybe switch threads
325
    Cyg_Scheduler::unlock();
326
    return ret;
327
}
328
 
329
// -------------------------------------------------------------------------
330
// get information about the construction parameters for external
331
// freeing after the destruction of the holding object
332
template 
333
inline void
334
Cyg_Mempoolt::get_arena(
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    cyg_uint8 * &base, cyg_int32 &size, CYG_ADDRWORD &arg_thru )
336
{
337
    // Prevent preemption
338
    Cyg_Scheduler::lock();
339
    CYG_ASSERTCLASS( this, "Bad this pointer");
340
 
341
    pool.get_arena( base, size, arg_thru );
342
 
343
    // Unlock the scheduler and maybe switch threads
344
    Cyg_Scheduler::unlock();
345
}
346
 
347
// -------------------------------------------------------------------------
348
// Return the size of the memory allocation (previously returned
349
// by alloc() or try_alloc() ) at ptr. Returns -1 if not found
350
template 
351
cyg_int32
352
Cyg_Mempoolt::get_allocation_size( cyg_uint8 *ptr )
353
{
354
    cyg_int32 ret;
355
 
356
    // Prevent preemption
357
    Cyg_Scheduler::lock();
358
    CYG_ASSERTCLASS( this, "Bad this pointer");
359
 
360
    ret = pool.get_allocation_size( ptr );
361
 
362
    // Unlock the scheduler and maybe switch threads
363
    Cyg_Scheduler::unlock();
364
 
365
    return ret;
366
}
367
 
368
// -------------------------------------------------------------------------
369
// debugging/assert function
370
 
371
#ifdef CYGDBG_USE_ASSERTS
372
 
373
template 
374
inline cyg_bool
375
Cyg_Mempoolt::check_this(cyg_assert_class_zeal zeal) const
376
{
377
    CYG_REPORT_FUNCTION();
378
 
379
    if ( Cyg_Thread::DESTRUCT == Cyg_Thread::self()->get_wake_reason() )
380
        // then the whole thing is invalid, and we know it.
381
        // so return OK, since this check should NOT make an error.
382
        return true;
383
 
384
    // check that we have a non-NULL pointer first
385
    if( this == NULL ) return false;
386
 
387
    return true;
388
}
389
#endif
390
 
391
// -------------------------------------------------------------------------
392
#endif // ifndef CYGONCE_KERNEL_MEMPOOLT_INL
393
// EOF mempoolt.inl

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