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#ifndef CYGONCE_KERNEL_MQUEUE_INL

#define CYGONCE_KERNEL_MQUEUE_INL

/*========================================================================

//

//      mqueue.inl

//

//      Message queues implementation

//

//========================================================================

//####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):     jlarmour

// Contributors:

// Date:          2000-05-09

// Purpose:       This file provides the implementation for eCos message

//                queues

// Description:   This differs from the message boxes also supported

//                by eCos primarily because the requirements of message

//                queues are driven by POSIX semantics. POSIX semantics are

//                more dynamic and therefore heavyweight than Mboxes,

//                including prioritization, and variable sized queues and

//                message lengths

// Usage:         Do not include this file directly - instead

//                #include 

//

//####DESCRIPTIONEND####

//

//======================================================================

*/

/* CONFIGURATION */

#include 

#include           // Configuration header

/* INCLUDES */

#include                   // size_t, NULL

#include       // Types

#include      // Header for this file, just in case

#include        // Assertion support

#include       // Tracing support

#include       // scheduler

#include       // scheduler inlines

#include        // Cyg_Counting_Semaphore

#ifdef CYGPKG_ISOINFRA

# include                  // memcpy

#else

externC void * memcpy( void *, const void *, size_t );

#endif

// NOTE:

// An alternative implementation based on mutexes and condition variables

// rather than semaphores/scheduler locking was considered. But it was

// not thought quite as good because it isn't driver safe. You would

// also have to manage explicitly what counting semaphores do for you

// intrinsically. Also with the mutex approach, the message queue would

// be locked the whole time a new entry was being filled in, or copied out

//

// It also makes the non-blocking case properly non-blocking rather than

// still being able to block while waiting for a mutex protecting

// the message queue internal structures

/* INLINE FUNCTIONS */

#ifndef CYGPRI_KERNEL_SYNCH_MQUEUE_INLINE

# define CYGPRI_KERNEL_SYNCH_MQUEUE_INLINE inline

#endif

//------------------------------------------------------------------------

CYGPRI_KERNEL_SYNCH_MQUEUE_INLINE cyg_bool

Cyg_Mqueue::check_this( cyg_assert_class_zeal zeal ) const

{

    if (zeal != cyg_none) {

        CYG_CHECK_DATA_PTRC(this);  // extreme paranoia

#ifdef CYGDBG_USE_ASSERTS

        if ( qlen <= 0 || msgsize <= 0 )

            return false;

#endif

        if ( queuespacesize < sizeof(struct qentry)+1 )

            return false;

        CYG_CHECK_DATA_PTRC(queuespace);

        CYG_CHECK_FUNC_PTRC(free_fn);

        // prevent pre-emption through this. Not so bad since

        // this is only a diagnostic function

        Cyg_Scheduler::lock();

        if (NULL != q)

            CYG_CHECK_DATA_PTRC(q);

        if (NULL != freelist)

            CYG_CHECK_DATA_PTRC(freelist);

        if (NULL != callback)

            CYG_CHECK_FUNC_PTRC(callback);

        // check each queue entry

        long msgs=0, busymsgs=0;

        unsigned int oldprio=0;

        struct qentry *qtmp;

        if ( NULL != q )

            oldprio = q->priority;

        for ( qtmp=q; NULL != qtmp; qtmp=qtmp->next ) {

            if ( NULL != qtmp->next )

                CYG_CHECK_DATA_PTRC( qtmp->next );

            // queue should be priority ordered

            if ( qtmp->priority > oldprio )

                goto fail;

            oldprio = qtmp->priority;

#ifdef CYGDBG_USE_ASSERTS

            // valid length

            if ( !qtmp->busy )

                if ( qtmp->buflen > msgsize )

                    goto fail;

#endif

            if ( qtmp->busy )

                busymsgs++;

            else

                msgs++;

        } // for

        long freemsgs=0;

        // check that number of used and unused messages == q length

        for ( qtmp=freelist; NULL != qtmp; qtmp=qtmp->next ) {

            if ( NULL != qtmp->next )

                CYG_CHECK_DATA_PTRC( qtmp->next );

            if ( qtmp->busy )

                busymsgs++;

            else

                freemsgs++;

        }

#ifdef CYGDBG_USE_ASSERTS

        // and sum of all messages should be the total q length

        if ( qlen != (msgs+freemsgs+busymsgs) )

            goto fail;

#endif

        Cyg_Scheduler::unlock();

    }

    return true; // object OK

 fail:

    Cyg_Scheduler::unlock();

    return false; // object fubar'd

}

//------------------------------------------------------------------------

CYGPRI_KERNEL_SYNCH_MQUEUE_INLINE

Cyg_Mqueue::Cyg_Mqueue( long maxmsgs, long maxmsgsize,

                        qalloc_fn_t qalloc, qfree_fn_t qfree, qerr_t *err )

    : putsem(maxmsgs), getsem(0)

{

    CYG_REPORT_FUNCTION();

    CYG_REPORT_FUNCARG5( "maxmsgs=%ld, maxmsgsize=%ld, qalloc=%08x, "

                         "qfree=%08x, &err=%08x", maxmsgs, maxmsgsize,

                         qalloc, qfree, err);

    CYG_PRECONDITIONC( (maxmsgs > 0) && (maxmsgsize > 0) );

    CYG_CHECK_DATA_PTRC( err );

    CYG_CHECK_FUNC_PTRC( qalloc );

    CYG_CHECK_FUNC_PTRC( qfree );

    // mem to allocate for entire queue size. Also wants to be rounded

    // up so that the structs are aligned.

    const long addralign = sizeof(void *) - 1;

    long entrysize = (sizeof(struct qentry) + maxmsgsize + addralign)

       & ~addralign;

    queuespacesize = entrysize * maxmsgs;

    queuespace = qalloc( queuespacesize );

    if (NULL == queuespace) {

        *err=NOMEM;

        CYG_REPORT_RETURN();

        return;

    }

    // link up freelist

    long i;

    struct qentry *qtmp;

    for ( i=0, qtmp=(struct qentry *)queuespace;

          i

          i++, qtmp=qtmp->next ) {

        qtmp->busy = false;

        qtmp->next = (struct qentry *)((char *)qtmp + entrysize);

    } // for

    freelist   = (struct qentry *)queuespace;

    // set the last entry in the chain to the start to make the list circular

    qtmp->next = NULL;

    qtmp->busy = false;

    callback   = NULL;

    q          = NULL;

    free_fn    = qfree;

#ifdef CYGDBG_USE_ASSERTS

    qlen       = maxmsgs;

    msgsize    = maxmsgsize;

#endif

    *err = OK;

    // object should be valid now

    CYG_ASSERT_THISC();

    CYG_REPORT_RETURN();

}

//------------------------------------------------------------------------

CYGPRI_KERNEL_SYNCH_MQUEUE_INLINE

Cyg_Mqueue::~Cyg_Mqueue()

{

    CYG_REPORT_FUNCTION();

    if ( NULL != queuespace ) {

        // object should be valid if queuespace was successfully allocated

        CYG_ASSERT_THISC();

        free_fn( queuespace, queuespacesize );

    }

#ifdef CYGDBG_USE_ASSERTS

    qlen = msgsize = 0; // deliberately make it fail check_this() if used

#endif

    CYG_REPORT_RETURN();

}

//------------------------------------------------------------------------

// put() copies len bytes of *buf into the queue at priority prio

CYGPRI_KERNEL_SYNCH_MQUEUE_INLINE Cyg_Mqueue::qerr_t

Cyg_Mqueue::put( const char *buf, size_t len, unsigned int prio, bool block

#ifdef CYGFUN_KERNEL_THREADS_TIMER

                 , cyg_tick_count timeout

#endif

               )

{

    CYG_REPORT_FUNCTYPE( "err=%d");

    CYG_REPORT_FUNCARG4( "buf=%08x, len=%ld, prio=%ud, block=%d",

                         buf, len, prio, block==true );

    CYG_CHECK_DATA_PTRC( buf );

    CYG_ASSERT_THISC();

    CYG_PRECONDITIONC( len <= (size_t)msgsize );

    qerr_t err;

    struct qentry *qtmp, *qent;

    // wait till a freelist entry is available

    if ( true == block ) {

#ifdef CYGFUN_KERNEL_THREADS_TIMER

        if ( timeout != 0) {

            if ( false == putsem.wait(timeout) ) {

                err = TIMEOUT;

                goto exit;

            }

        }

        else

#endif

        if ( false == putsem.wait() ) {

            err = INTR;

            goto exit;

        }

    } else {

        if ( false == putsem.trywait() ) {

            err = WOULDBLOCK;

            goto exit;

        }

    }

    // prevent preemption when fiddling with important members

    Cyg_Scheduler::lock();

    CYG_ASSERT_THISC();

    // get a queue entry from the freelist

    // don't need to check the freelist - the semaphore tells us there's

    // definitely a usable non-busy one there. It's just a question of

    // locating it.

    if (!freelist->busy) { // fast-track common case

        qent     = freelist;

        freelist = freelist->next;

    } else {

        for ( qtmp=freelist; !qtmp->next->busy; qtmp=qtmp->next )

            CYG_EMPTY_STATEMENT; // skip through

        qent       = qtmp->next;

        qtmp->next = qent->next;

    }

    // now put it in place in q

    if ( NULL == q ) {

        q = qent;

        q->next = NULL;

    } else {

        struct qentry **qentp;

        // insert into queue according to prio

        for ( qentp=&q; NULL != *qentp; qentp = &((*qentp)->next) ) {

            if ((*qentp)->priority < prio)

                break;

        } // for

        qent->next = *qentp;

        *qentp = qent;

    } // else

    qent->priority = prio; // have to set this now so when the sched is

                           // unlocked, other qent's can be added in the

                           // right place

    qent->busy = true; // let things know this entry should be ignored until

                       // it's finished having its data copied

    // unlock the scheduler, and potentially switch threads, but

    // that's okay now. We don't want it locked for the expensive memcpy

    Cyg_Scheduler::unlock();

    qent->buflen   = len;

    memcpy( qent->buf(), buf, len );

    // make available now - setting non-atomically is alright if you think

    // about it - the only thing that matters is that it's completed before

    // the post()

    qent->busy = false;

    // if we have to notify someone, we only do it if no-one's already

    // sitting waiting for a message to appear, AND if it's a transition

    // from empty to non-empty

    if ( callback != NULL && !getsem.waiting() && (0 == getsem.peek()) ) {

        getsem.post();

        callback( *this, callback_data );

    } else

        getsem.post();

    err = OK;

 exit:

    CYG_ASSERT_THISC();

    CYG_REPORT_RETVAL(err);

    return err;

} // Cyg_Mqueue::put()

//------------------------------------------------------------------------

// get() returns the oldest highest priority message in the queue in *buf

// and sets *prio to the priority (if prio is non-NULL) and *len to the

// actual message size

CYGPRI_KERNEL_SYNCH_MQUEUE_INLINE Cyg_Mqueue::qerr_t

Cyg_Mqueue::get( char *buf, size_t *len, unsigned int *prio, bool block

#ifdef CYGFUN_KERNEL_THREADS_TIMER

                 , cyg_tick_count timeout

#endif

               )

{

    CYG_REPORT_FUNCTYPE( "err=%d");

    CYG_REPORT_FUNCARG4( "buf=%08x, len=%08x, prio=%08x, block=%d",

                         buf, len, prio, block==true );

    CYG_CHECK_DATA_PTRC( buf );

    CYG_CHECK_DATA_PTRC( len );

    if ( NULL != prio )

        CYG_CHECK_DATA_PTRC( prio );

    CYG_ASSERT_THISC();

    qerr_t err;

    struct qentry *qent;

    // wait till a q entry is available

    if ( true == block ) {

#ifdef CYGFUN_KERNEL_THREADS_TIMER

        if ( timeout != 0) {

            if ( false == getsem.wait(timeout) ) {

                err = TIMEOUT;

                goto exit;

            }

        }

        else

#endif

        if ( false == getsem.wait() ) {

            err = INTR;

            goto exit;

        }

    } else {

        if ( false == getsem.trywait() ) {

            err = WOULDBLOCK;

            goto exit;

        }

    }

    // prevent preemption when fiddling with important members

    Cyg_Scheduler::lock();

    // don't need to check the q - the semaphore tells us there's

    // definitely a usable non-busy one there. It's just a question of

    // locating it.

    if ( !q->busy ) {   // fast-track the common case

        qent       = q;

        q          = qent->next;

    } else {

        struct qentry *qtmp;

        for ( qtmp=q; !qtmp->next->busy; qtmp=qtmp->next )

            CYG_EMPTY_STATEMENT; // skip through

        qent = qtmp->next;

        qtmp->next = qent->next;

    } // else

    // now stick at front of freelist, but marked busy

    qent->next = freelist;

    freelist   = qent;

    qent->busy = true; // don't let it truly be part of the freelist just yet

                       // till the data is copied out

    // unlock the scheduler, and potentially switch threads, but

    // that's okay now. We don't want it locked for the expensive memcpy

    Cyg_Scheduler::unlock();

    *len  = qent->buflen;

    if ( NULL != prio )

        *prio = qent->priority;

    memcpy( buf, qent->buf(), *len );

    // make available now - setting non-atomically is alright if you think

    // about it - the only thing that matters is that it's completed before

    // the post()

    qent->busy = false;

    putsem.post();

    err = OK;

 exit:

    CYG_ASSERT_THISC();

    CYG_REPORT_RETVAL(err);

    return err;

} // Cyg_Mqueue::get()

//------------------------------------------------------------------------

// count() returns the number of messages in the queue

inline long

Cyg_Mqueue::count()

{

    CYG_REPORT_FUNCTYPE("curmsgs=%d");

    long curmsgs = (long)getsem.peek();

    CYG_REPORT_RETVAL(curmsgs);

    return curmsgs;

} // Cyg_Mqueue::count()

//------------------------------------------------------------------------

// Supply a callback function to call (with the supplied data argument)

// when the queue goes from empty to non-empty (unless someone's already

// doing a get()). This returns the old callback_fn, and if olddata is

// non-NULL sets it to the old data (yes, really!)

CYGPRI_KERNEL_SYNCH_MQUEUE_INLINE Cyg_Mqueue::callback_fn_t

Cyg_Mqueue::setnotify( callback_fn_t callback_fn, CYG_ADDRWORD data,

                       CYG_ADDRWORD *olddata)

{

    CYG_REPORT_FUNCTYPE("old callback=%08x");

    CYG_REPORT_FUNCARG3XV( callback_fn, data, olddata );

    if ( NULL != callback_fn )

        CYG_CHECK_FUNC_PTRC( callback_fn );

    if (NULL != olddata)

        CYG_CHECK_DATA_PTRC( olddata );

    callback_fn_t oldfn;

    // Need to prevent preemption for accessing common structures

    // Just locking the scheduler has the least overhead

    Cyg_Scheduler::lock();

    oldfn = callback;

    if (NULL != olddata)

        *olddata = callback_data;

    callback_data = data;

    callback      = callback_fn;

    Cyg_Scheduler::unlock();

    CYG_REPORT_RETVAL(oldfn);

    return oldfn;

}

//------------------------------------------------------------------------

#endif /* CYGONCE_KERNEL_MQUEUE_INL multiple inclusion protection */

/* EOF mqueue.inl */