コード例 #1
0
ファイル: hal_comp.c プロジェクト: 13788593535/machinekit
int hal_xinit(const int type,
	      const int userarg1,
	      const int userarg2,
	      const hal_constructor_t ctor,
	      const hal_destructor_t dtor,
	      const char *name)
{
    int comp_id, retval;

    rtapi_set_logtag("hal_lib");
    CHECK_STRLEN(name, HAL_NAME_LEN);

    // sanity: these must have been inited before by the
    // respective rtapi.so/.ko module
    CHECK_NULL(rtapi_switch);

    if ((dtor != NULL) && (ctor == NULL)) {
	HALERR("component '%s': NULL constructor doesnt make"
	       " sense with non-NULL destructor", name);
	return -EINVAL;
    }

    // RTAPI initialisation already done
    HALDBG("initializing component '%s' type=%d arg1=%d arg2=%d/0x%x",
	   name, type, userarg1, userarg2, userarg2);

    if ((lib_module_id < 0) && (type != TYPE_HALLIB)) {
	// if hal_lib not inited yet, do so now - recurse
#ifdef RTAPI
	retval = hal_xinit(TYPE_HALLIB, 0, 0, NULL, NULL, "hal_lib");
#else
	retval = hal_xinitf(TYPE_HALLIB, 0, 0, NULL, NULL, "hal_lib%ld",
			    (long) getpid());
#endif
	if (retval < 0)
	    return retval;
    }

    // tag message origin field since ulapi autoload re-tagged them temporarily
    rtapi_set_logtag("hal_lib");

    /* copy name to local vars, truncating if needed */
    char rtapi_name[RTAPI_NAME_LEN + 1];
    char hal_name[HAL_NAME_LEN + 1];

    rtapi_snprintf(hal_name, sizeof(hal_name), "%s", name);
    rtapi_snprintf(rtapi_name, RTAPI_NAME_LEN, "HAL_%s", hal_name);

    /* do RTAPI init */
    comp_id = rtapi_init(rtapi_name);
    if (comp_id < 0) {
	HALERR("rtapi init(%s) failed", rtapi_name);
	return -EINVAL;
    }

    // recursing? init HAL shm
    if ((lib_module_id < 0) && (type == TYPE_HALLIB)) {
	// recursion case, we're initing hal_lib

	// get HAL shared memory from RTAPI
	int shm_id = rtapi_shmem_new(HAL_KEY,
				     comp_id,
				     global_data->hal_size);
	if (shm_id < 0) {
	    HALERR("hal_lib:%d failed to allocate HAL shm %x, rc=%d",
		   comp_id, HAL_KEY, shm_id);
	    rtapi_exit(comp_id);
	    return -EINVAL;
	}
	// retrieve address of HAL shared memory segment
	void *mem;
	retval = rtapi_shmem_getptr(shm_id, &mem, 0);
	if (retval < 0) {
	    HALERR("hal_lib:%d failed to acquire HAL shm %x, id=%d rc=%d",
		   comp_id, HAL_KEY, shm_id, retval);
	    rtapi_exit(comp_id);
	    return -EINVAL;
	}
	// set up internal pointers to shared mem and data structure
	hal_shmem_base = (char *) mem;
	hal_data = (hal_data_t *) mem;

#ifdef RTAPI
	// only on RTAPI hal_lib initialization:
	// initialize up the HAL shm segment
	retval = init_hal_data();
	if (retval) {
	    HALERR("could not init HAL shared memory rc=%d", retval);
	    rtapi_exit(lib_module_id);
	    lib_module_id = -1;
	    return -EINVAL;
	}
	retval = hal_proc_init();
	if (retval) {
	    HALERR("could not init /proc files");
	    rtapi_exit(lib_module_id);
	    lib_module_id = -1;
	    return -EINVAL;
	}
#endif
	// record hal_lib comp_id
	lib_module_id = comp_id;
	// and the HAL shm segmed id
	lib_mem_id = shm_id;

    }
    // global_data MUST be at hand now:
    HAL_ASSERT(global_data != NULL);

    // paranoia
    HAL_ASSERT(hal_shmem_base != NULL);
    HAL_ASSERT(hal_data != NULL);
    HAL_ASSERT(lib_module_id > -1);
    HAL_ASSERT(lib_mem_id > -1);
    if (lib_module_id < 0) {
	HALERR("giving up");
	return -EINVAL;
    }

    {
	hal_comp_t *comp  __attribute__((cleanup(halpr_autorelease_mutex)));

	/* get mutex before manipulating the shared data */
	rtapi_mutex_get(&(hal_data->mutex));
	/* make sure name is unique in the system */
	if (halpr_find_comp_by_name(hal_name) != 0) {
	    /* a component with this name already exists */
	    HALERR("duplicate component name '%s'", hal_name);
	    rtapi_exit(comp_id);
	    return -EINVAL;
	}
	/* allocate a new component structure */
	comp = halpr_alloc_comp_struct();
	if (comp == 0) {
	    HALERR("insufficient memory for component '%s'", hal_name);
	    rtapi_exit(comp_id);
	    return -ENOMEM;
	}

	/* initialize the comp structure */
	comp->userarg1 = userarg1;
	comp->userarg2 = userarg2;
	comp->comp_id = comp_id;
	comp->type = type;
	comp->ctor = ctor;
	comp->dtor = dtor;
#ifdef RTAPI
	comp->pid = 0;
#else /* ULAPI */
	// a remote component starts out disowned
	comp->pid = comp->type == TYPE_REMOTE ? 0 : getpid();
#endif
	comp->state = COMP_INITIALIZING;
	comp->last_update = 0;
	comp->last_bound = 0;
	comp->last_unbound = 0;
	comp->shmem_base = hal_shmem_base;
	comp->insmod_args = 0;
	rtapi_snprintf(comp->name, sizeof(comp->name), "%s", hal_name);
	/* insert new structure at head of list */
	comp->next_ptr = hal_data->comp_list_ptr;
	hal_data->comp_list_ptr = SHMOFF(comp);

    }
    // scope exited - mutex released

    // finish hal_lib initialisation
    // in ULAPI this will happen after the recursion on hal_lib%d unwinds

    if (type == TYPE_HALLIB) {
#ifdef RTAPI
	// only on RTAPI hal_lib initialization:
	// export the instantiation support userfuncts
	hal_export_xfunct_args_t ni = {
	    .type = FS_USERLAND,
	    .funct.u = create_instance,
	    .arg = NULL,
	    .owner_id = lib_module_id
	};
	if ((retval = hal_export_xfunctf( &ni, "newinst")) < 0)
	    return retval;

	hal_export_xfunct_args_t di = {
	    .type = FS_USERLAND,
	    .funct.u = delete_instance,
	    .arg = NULL,
	    .owner_id = lib_module_id
	};
	if ((retval = hal_export_xfunctf( &di, "delinst")) < 0)
	    return retval;
#endif
	retval = hal_ready(lib_module_id);
	if (retval)
	    HALERR("hal_ready(%d) failed rc=%d", lib_module_id, retval);
	else
	    HALDBG("%s initialization complete", hal_name);
	return retval;
    }

    HALDBG("%s component '%s' id=%d initialized%s",
	   (ctor != NULL) ? "instantiable" : "legacy",
	   hal_name, comp_id,
	   (dtor != NULL) ? ", has destructor" : "");
    return comp_id;
}


int hal_exit(int comp_id)
{
    int *prev, next, comptype;
    char name[HAL_NAME_LEN + 1];

    CHECK_HALDATA();

    HALDBG("removing component %d", comp_id);

    {
	hal_comp_t *comp  __attribute__((cleanup(halpr_autorelease_mutex)));

	/* grab mutex before manipulating list */
	rtapi_mutex_get(&(hal_data->mutex));
	/* search component list for 'comp_id' */
	prev = &(hal_data->comp_list_ptr);
	next = *prev;
	if (next == 0) {
	    /* list is empty - should never happen, but... */
	    HALERR("no components defined");
	    return -EINVAL;
	}
	comp = SHMPTR(next);
	while (comp->comp_id != comp_id) {
	    /* not a match, try the next one */
	    prev = &(comp->next_ptr);
	    next = *prev;
	    if (next == 0) {
		/* reached end of list without finding component */
		HALERR("no such component with id %d", comp_id);
		return -EINVAL;
	    }
	    comp = SHMPTR(next);
	}

	// record type, since we're about to zap the comp in free_comp_struct()
	comptype = comp->type;

	/* save component name for later */
	rtapi_snprintf(name, sizeof(name), "%s", comp->name);
	/* get rid of the component */
	free_comp_struct(comp);

	// unlink the comp only now as free_comp_struct() must
	// determine ownership of pins/params/functs and this
	// requires access to the current comp, too
	// since this is all under lock it should not matter
	*prev = comp->next_ptr;

	// add it to free list
	comp->next_ptr = hal_data->comp_free_ptr;
	hal_data->comp_free_ptr = SHMOFF(comp);

	// scope exit - mutex released
    }

    // if unloading the hal_lib component, destroy HAL shm
    if (comptype == TYPE_HALLIB) {
	int retval;

	/* release RTAPI resources */
	retval = rtapi_shmem_delete(lib_mem_id, comp_id);
	if (retval) {
	    HALERR("rtapi_shmem_delete(%d,%d) failed: %d",
		   lib_mem_id, comp_id, retval);
	}
	// HAL shm is history, take note ASAP
	lib_mem_id = -1;
	hal_shmem_base = NULL;
	hal_data = NULL;;

	retval = rtapi_exit(comp_id);
	if (retval) {
	    HALERR("rtapi_exit(%d) failed: %d",
		   lib_module_id, retval);
	}
	// the hal_lib RTAPI module is history, too
	// in theory we'd be back to square 1
	lib_module_id = -1;

    } else {
	// the standard case
	rtapi_exit(comp_id);
    }

    //HALDBG("component '%s' id=%d removed", name, comp_id);
    return 0;
}
コード例 #2
0
ファイル: hal_lib.c プロジェクト: roggedaniel/machinekit
int rtapi_app_main(void)
{
    int retval;
    void *mem;

    rtapi_switch = rtapi_get_handle();
    hal_print_msg(RTAPI_MSG_DBG,
		    "HAL_LIB:%d loading RT support gd=%pp\n",rtapi_instance,global_data);

    /* do RTAPI init */
    lib_module_id = rtapi_init("HAL_LIB");
    if (lib_module_id < 0) {
	hal_print_msg(RTAPI_MSG_ERR,
			"HAL_LIB:%d ERROR: rtapi init failed\n",
			rtapi_instance);
	return -EINVAL;
    }

    // paranoia
    if (global_data == NULL) {
	hal_print_msg(RTAPI_MSG_ERR,
			"HAL_LIB:%d ERROR: global_data == NULL\n",
			rtapi_instance);
	return -EINVAL;
    }

    /* get HAL shared memory block from RTAPI */
    lib_mem_id = rtapi_shmem_new(HAL_KEY, lib_module_id, global_data->hal_size);

    if (lib_mem_id < 0) {
	hal_print_msg(RTAPI_MSG_ERR,
			"HAL_LIB:%d ERROR: could not open shared memory\n",
			rtapi_instance);
	rtapi_exit(lib_module_id);
	return -EINVAL;
    }
    /* get address of shared memory area */
    retval = rtapi_shmem_getptr(lib_mem_id, &mem, 0);

    if (retval < 0) {
	hal_print_msg(RTAPI_MSG_ERR,
			"HAL_LIB:%d ERROR: could not access shared memory\n",
			rtapi_instance);
	rtapi_exit(lib_module_id);
	return -EINVAL;
    }
    /* set up internal pointers to shared mem and data structure */
    hal_shmem_base = (char *) mem;
    hal_data = (hal_data_t *) mem;
    /* perform a global init if needed */
    retval = init_hal_data();

    if ( retval ) {
	hal_print_msg(RTAPI_MSG_ERR,
			"HAL_LIB:%d ERROR: could not init shared memory\n",
			rtapi_instance);
	rtapi_exit(lib_module_id);
	return -EINVAL;
    }

    retval = hal_proc_init();

    if ( retval ) {
	hal_print_msg(RTAPI_MSG_ERR,
			"HAL_LIB: ERROR:%d could not init /proc files\n",
			rtapi_instance);
	rtapi_exit(lib_module_id);
	return -EINVAL;
    }

    /* done */
    hal_print_msg(RTAPI_MSG_DBG,
		    "HAL_LIB:%d kernel lib installed successfully\n",
		    rtapi_instance);
    return 0;
}