Exemple #1
0
/*!
 * \brief This function initializes the Multi Core Communication subsystem for a given node.
 *
 * This function should only be called once per node (once in MQX, once per process in Linux).
 *
 * \param[in] node Node number that will be used in endpoints created by this process.
 *
 * \return MCC_SUCCESS
 * \return MCC_ERR_SEMAPHORE (semaphore handling error)
 * \return MCC_ERR_INT (interrupt registration error)
 *
 * \see mcc_destroy
 * \see MCC_BOOKEEPING_STRUCT
 */
int mcc_initialize(MCC_NODE node)
{
    int i,j = 0;
    int return_value = MCC_SUCCESS;
    MCC_SIGNAL tmp_signals_received = {(MCC_SIGNAL_TYPE)0, (MCC_CORE)0, (MCC_NODE)0, (MCC_PORT)0};

#if (MCC_OS_USED == MCC_MQX)
    for(i=0; i<MCC_MQX_LWEVENT_COMPONENTS_COUNT; i++) {
        _lwevent_create(&lwevent_buffer_queued[i],0);
    }
    _lwevent_create(&lwevent_buffer_freed,0);
#endif

    /* Initialize synchronization module */
    return_value = mcc_init_semaphore(MCC_SHMEM_SEMAPHORE_NUMBER);
    if(return_value != MCC_SUCCESS)
        return return_value;

    /* Register CPU-to-CPU interrupt for inter-core signaling */
    //mcc_register_cpu_to_cpu_isr(MCC_CORE0_CPU_TO_CPU_VECTOR);
    return_value = mcc_register_cpu_to_cpu_isr();
    if(return_value != MCC_SUCCESS)
        return return_value;

    /* Initialize the bookeeping structure */
    bookeeping_data = (MCC_BOOKEEPING_STRUCT *)MCC_BASE_ADDRESS;
    MCC_DCACHE_INVALIDATE_MLINES(bookeeping_data, sizeof(MCC_BOOKEEPING_STRUCT));
    if(strcmp(bookeeping_data->init_string, init_string) != 0) {

        /* Zero it all - no guarantee Linux or uboot didnt touch it before it was reserved */
        _mem_zero((void*) bookeeping_data, (_mem_size) sizeof(struct mcc_bookeeping_struct));

        /* Set init_string in case it has not been set yet by another core */
        mcc_memcpy((void*)init_string, bookeeping_data->init_string, (unsigned int)sizeof(bookeeping_data->init_string));

        /* Set version_string */
        mcc_memcpy((void*)version_string, bookeeping_data->version_string, (unsigned int)sizeof(bookeeping_data->version_string));

        /* Initialize the free list */
        bookeeping_data->free_list.head = &bookeeping_data->r_buffers[0];
        bookeeping_data->free_list.tail = &bookeeping_data->r_buffers[MCC_ATTR_NUM_RECEIVE_BUFFERS-1];

        /* Initialize receive buffers */
        for(i=0; i<MCC_ATTR_NUM_RECEIVE_BUFFERS-1; i++) {
            bookeeping_data->r_buffers[i].next = &bookeeping_data->r_buffers[i+1];
        }
        bookeeping_data->r_buffers[MCC_ATTR_NUM_RECEIVE_BUFFERS-1].next = null;

        /* Initialize signal queues */
        for(i=0; i<MCC_NUM_CORES; i++) {
            for(j=0; j<MCC_MAX_OUTSTANDING_SIGNALS; j++) {
                bookeeping_data->signals_received[i][j] = tmp_signals_received;
            }
            bookeeping_data->signal_queue_head[i] = 0;
            bookeeping_data->signal_queue_tail[i] = 0;
        }

        /* Mark all endpoint ports as free */
        for(i=0; i<MCC_ATTR_MAX_RECEIVE_ENDPOINTS; i++) {
            bookeeping_data->endpoint_table[i].endpoint.port = MCC_RESERVED_PORT_NUMBER;
        }
    }
    MCC_DCACHE_FLUSH_MLINES(bookeeping_data, sizeof(MCC_BOOKEEPING_STRUCT));
    return return_value;
}
Exemple #2
0
/*!
 * \brief This function initializes the Multi Core Communication subsystem for a given node.
 *
 * This function should only be called once per node (once in MQX, once per a process in Linux).
 * It tries to initialize the bookkeeping structure when the init_string member of this structure
 * is not equal to MCC_INIT_STRING, i.e. when no other core had performed the initialization yet.
 * Note, that this way of bookkeeping data re-initialization protection is not powerful enough and
 * the user application should not rely on this method. Instead, the application should be designed 
 * to unambiguously assign the core that will perform the MCC initialization. 
 * Clear the shared memory before the first core is attempting to initialize the MCC 
 * (in some cases MCC_INIT_STRING remains in the shared memory after the application reset and could
 * cause that the bookkeeping data structure is not initialized correctly). 
 *
 * \param[in] node Node number that will be used in endpoints created by this process.
 *
 * \return MCC_SUCCESS
 * \return MCC_ERR_SEMAPHORE (semaphore handling error)
 * \return MCC_ERR_INT (interrupt registration error)
 * \return MCC_ERR_VERSION (incorrect MCC version used - compatibility issue)
 * \return MCC_ERR_OSSYNC (OS synchronization module(s) initialization failed)
 *
 * \see mcc_destroy
 * \see MCC_BOOKEEPING_STRUCT
 */
int mcc_initialize(MCC_NODE node)
{
    int i,j = 0;
    int return_value = MCC_SUCCESS;
    MCC_SIGNAL tmp_signals_received = {(MCC_SIGNAL_TYPE)0, {(MCC_CORE)0, (MCC_NODE)0, (MCC_PORT)0}};

    /* Initialize synchronization module for shared data protection */
    return_value = mcc_init_semaphore(MCC_SHMEM_SEMAPHORE_NUMBER);
    if(return_value != MCC_SUCCESS)
        return return_value;

    /* Initialize all necessary OS synchronization module(s) 
       (for unblocking tasks waiting for new received data and for unblocking tasks waiting for a free buffer) */
    return_value = mcc_init_os_sync();
    if(return_value != MCC_SUCCESS)
        return return_value;

    /* Register CPU-to-CPU interrupt for inter-core signaling */
    //mcc_register_cpu_to_cpu_isr(MCC_CORE0_CPU_TO_CPU_VECTOR);
    return_value = mcc_register_cpu_to_cpu_isr();
    if(return_value != MCC_SUCCESS)
        return return_value;

    /* Initialize the bookeeping structure */
    bookeeping_data = (MCC_BOOKEEPING_STRUCT *)mcc_get_bookeeping_data();
    MCC_DCACHE_INVALIDATE_MLINES(bookeeping_data, sizeof(MCC_BOOKEEPING_STRUCT));
    if(strcmp(bookeeping_data->init_string, init_string) != 0) {
        /* MCC not initialized yet, do it now */
        /* Zero it all - no guarantee Linux or uboot didnt touch it before it was reserved */
        memset((void*) bookeeping_data, 0, sizeof(struct mcc_bookeeping_struct));

        /* Set init_string in case it has not been set yet by another core */
        mcc_memcpy((void*)init_string, bookeeping_data->init_string, (unsigned int)sizeof(bookeeping_data->init_string));

        /* Set version_string */
        mcc_memcpy((void*)version_string, bookeeping_data->version_string, (unsigned int)sizeof(bookeeping_data->version_string));

        /* Initialize the free list */
        bookeeping_data->free_list.head = (MCC_RECEIVE_BUFFER*)MCC_MEM_VIRT_TO_PHYS(&bookeeping_data->r_buffers[0]);
        bookeeping_data->free_list.tail = (MCC_RECEIVE_BUFFER*)MCC_MEM_VIRT_TO_PHYS(&bookeeping_data->r_buffers[MCC_ATTR_NUM_RECEIVE_BUFFERS-1]);

        /* Initialize receive buffers */
        for(i=0; i<MCC_ATTR_NUM_RECEIVE_BUFFERS-1; i++) {
            bookeeping_data->r_buffers[i].next = (MCC_RECEIVE_BUFFER*)MCC_MEM_VIRT_TO_PHYS(&bookeeping_data->r_buffers[i+1]);
        }
        bookeeping_data->r_buffers[MCC_ATTR_NUM_RECEIVE_BUFFERS-1].next = null;

        /* Initialize signal queues */
        for(i=0; i<MCC_NUM_CORES; i++) {
            for(j=0; j<MCC_MAX_OUTSTANDING_SIGNALS; j++) {
                bookeeping_data->signals_received[i][j] = tmp_signals_received;
            }
            bookeeping_data->signal_queue_head[i] = 0;
            bookeeping_data->signal_queue_tail[i] = 0;
        }

        /* Mark all endpoint ports as free */
        for(i=0; i<MCC_ATTR_MAX_RECEIVE_ENDPOINTS; i++) {
            bookeeping_data->endpoint_table[i].endpoint.port = MCC_RESERVED_PORT_NUMBER;
        }
    }
    else {
        /* MCC already initialized - check the major number of the version string to ensure compatibility */
        if(strncmp(bookeeping_data->version_string, version_string, 4) != 0) {
            return_value = MCC_ERR_VERSION;
        }
    }
    
    MCC_DCACHE_FLUSH_MLINES(bookeeping_data, sizeof(MCC_BOOKEEPING_STRUCT));
    return return_value;
}