Example #1
0
static celix_status_t serviceRegistry_flushUsageCount(service_registry_pt registry, bundle_pt bundle, service_reference_pt reference) {
	array_list_pt usages = hashMap_get(registry->inUseMap, bundle);
	if (usages != NULL) {
		array_list_iterator_pt iter = arrayListIterator_create(usages);
		while (arrayListIterator_hasNext(iter)) {
			usage_count_pt usage = arrayListIterator_next(iter);
			bool equals = false;
			serviceReference_equals(usage->reference, reference, &equals);
			if (equals) {
				arrayListIterator_remove(iter);
				free(usage);
			}
		}
		arrayListIterator_destroy(iter);
		if (arrayList_size(usages) > 0) {
			hashMap_put(registry->inUseMap, bundle, usages);
		} else {
			array_list_pt removed = hashMap_remove(registry->inUseMap, bundle);
			arrayList_destroy(removed);
		}
	}
	return CELIX_SUCCESS;
}
Example #2
0
static celix_status_t deviceManager_attachAlgorithm(device_manager_pt manager, service_reference_pt ref, void *service) {
	celix_status_t status = CELIX_SUCCESS;

	apr_pool_t *attachPool = NULL;
	apr_status_t aprStatus = apr_pool_create(&attachPool, manager->pool);
	if (aprStatus != APR_SUCCESS) {
		status = CELIX_ILLEGAL_STATE;
	} else {
		driver_loader_pt loader = NULL;
		status = driverLoader_create(attachPool, manager->context, &loader);
		if (status == CELIX_SUCCESS) {
			array_list_pt included = NULL;
			array_list_pt excluded = NULL;

			array_list_pt driverIds = NULL;

			hashMap_put(manager->devices, ref, service);

			status = arrayList_create(&included);
			if (status == CELIX_SUCCESS) {
				status = arrayList_create(&excluded);
				if (status == CELIX_SUCCESS) {
					service_registration_pt registration = NULL;
					status = serviceReference_getServiceRegistration(ref, &registration);
					if (status == CELIX_SUCCESS) {
						properties_pt properties = NULL;
						status = serviceRegistration_getProperties(registration, &properties);
						if (status == CELIX_SUCCESS) {
							status = driverLoader_findDrivers(loader, attachPool, manager->locators, properties, &driverIds);
							if (status == CELIX_SUCCESS) {
								hash_map_iterator_pt iter = hashMapIterator_create(manager->drivers);
								while (hashMapIterator_hasNext(iter)) {
									driver_attributes_pt driverAttributes = hashMapIterator_nextValue(iter);
									arrayList_add(included, driverAttributes);

									// Each driver that already is installed can be removed from the list
									char *id = NULL;
									celix_status_t substatus = driverAttributes_getDriverId(driverAttributes, &id);
									if (substatus == CELIX_SUCCESS) {
										// arrayList_removeElement(driverIds, id);
										array_list_iterator_pt idsIter = arrayListIterator_create(driverIds);
										while (arrayListIterator_hasNext(idsIter)) {
											char *value = arrayListIterator_next(idsIter);
											if (strcmp(value, id) == 0) {
												arrayListIterator_remove(idsIter);
											}
										}
										arrayListIterator_destroy(idsIter);
									} else {
										// Ignore
									}
								}
								hashMapIterator_destroy(iter);

								status = deviceManager_matchAttachDriver(manager, attachPool, loader, driverIds, included, excluded, service, ref);
								arrayList_destroy(driverIds);
							}
						}
					}
					arrayList_destroy(excluded);
				}
				arrayList_destroy(included);
			}

		}
		apr_pool_destroy(attachPool);
	}
	return status;
}
Example #3
0
static celix_status_t deviceManager_attachAlgorithm(device_manager_pt manager, service_reference_pt ref, void *service) {
	celix_status_t status = CELIX_SUCCESS;

	driver_loader_pt loader = NULL;
	status = driverLoader_create(manager->context, &loader);
	if (status == CELIX_SUCCESS) {
		array_list_pt included = NULL;
		array_list_pt excluded = NULL;

		array_list_pt driverIds = NULL;

		hashMap_put(manager->devices, ref, service);

		status = arrayList_create(&included);
		if (status == CELIX_SUCCESS) {
			status = arrayList_create(&excluded);
			if (status == CELIX_SUCCESS) {
				properties_pt properties = properties_create();

				unsigned int size = 0;
				char **keys;

				serviceReference_getPropertyKeys(ref, &keys, &size);
				for (int i = 0; i < size; i++) {
					char* key = keys[i];
					const char* value = NULL;
					serviceReference_getProperty(ref, key, &value);
					properties_set(properties, key, value);
				}

				status = driverLoader_findDrivers(loader, manager->locators, properties, &driverIds);
				if (status == CELIX_SUCCESS) {
					hash_map_iterator_pt iter = hashMapIterator_create(manager->drivers);
					while (hashMapIterator_hasNext(iter)) {
						driver_attributes_pt driverAttributes = hashMapIterator_nextValue(iter);
						arrayList_add(included, driverAttributes);

						// Each driver that already is installed can be removed from the list
						char *id = NULL;
						celix_status_t substatus = driverAttributes_getDriverId(driverAttributes, &id);
						if (substatus == CELIX_SUCCESS) {
							// arrayList_removeElement(driverIds, id);
							array_list_iterator_pt idsIter = arrayListIterator_create(driverIds);
							while (arrayListIterator_hasNext(idsIter)) {
								char *value = arrayListIterator_next(idsIter);
								if (strcmp(value, id) == 0) {
									arrayListIterator_remove(idsIter);
								}
							}
							arrayListIterator_destroy(idsIter);
						}
						if(id != NULL){
							free(id);
						}
					}
					hashMapIterator_destroy(iter);

					status = deviceManager_matchAttachDriver(manager, loader, driverIds, included, excluded, service, ref);

				}
				arrayList_destroy(driverIds);
				properties_destroy(properties);
				arrayList_destroy(excluded);
			}
			arrayList_destroy(included);
		}

	}

	driverLoader_destroy(&loader);
	return status;
}
celix_status_t wiringTopologyManager_waAdded(void * handle, service_reference_pt reference, void * service) {
    celix_status_t status = CELIX_SUCCESS;
    wiring_topology_manager_pt manager = handle;
    wiring_admin_service_pt wiringAdminService = (wiring_admin_service_pt) service;

    celixThreadMutex_lock(&manager->waListLock);
    arrayList_add(manager->waList, wiringAdminService);
    celixThreadMutex_unlock(&manager->waListLock);

    /* check whether one of the exported Wires can be exported via the newly available wiringAdmin */
    celixThreadMutex_lock(&manager->exportedWiringEndpointsLock);
    hash_map_iterator_pt iter = hashMapIterator_create(manager->exportedWiringEndpoints);

    // is the properties_match missing here>
    while (hashMapIterator_hasNext(iter)) {
        hash_map_entry_pt entry = hashMapIterator_nextEntry(iter);
        properties_pt exportedWireProperties = hashMapEntry_getKey(entry);
        hash_map_pt wiringAdminList = hashMapEntry_getValue(entry);
        wiring_endpoint_description_pt wEndpoint = NULL;

        char* serviceId = properties_get(exportedWireProperties, "service.id");

        printf("WTM: wiringTopologyManager_waAdded export Wire for %s \n", serviceId);

        status = wiringTopologyManager_WiringAdminServiceExportWiringEndpoint(manager, wiringAdminService, exportedWireProperties, &wEndpoint);

        if (status == CELIX_SUCCESS) {
            hashMap_put(wiringAdminList, wiringAdminService, wEndpoint);
        } else {
            printf("WTM: Could not export wire with new WA\n");
        }
    }
    hashMapIterator_destroy(iter);

    /* check whether the waiting exports can be exported */

    array_list_iterator_pt waitList = arrayListIterator_create(manager->waitingForExport);

    while (arrayListIterator_hasNext(waitList)) {
        properties_pt srvcProperties = arrayListIterator_next(waitList);
        char* serviceId = properties_get(srvcProperties, "service.id");

        printf("WTM: wiringTopologyManager_waAdded export Wire for %s \n", serviceId);
        wiring_endpoint_description_pt wEndpoint = NULL;

        status = wiringTopologyManager_WiringAdminServiceExportWiringEndpoint(manager, wiringAdminService, srvcProperties, &wEndpoint);

        if (status == CELIX_SUCCESS) {
            arrayListIterator_remove(waitList);

            arrayListIterator_destroy(waitList);
            waitList = arrayListIterator_create(manager->waitingForExport);

            hash_map_pt wiringAdminList = hashMap_create(NULL, NULL, NULL, NULL);
            hashMap_put(wiringAdminList, wiringAdminService, wEndpoint);
            hashMap_put(manager->exportedWiringEndpoints, srvcProperties, wiringAdminList);
        } else {
            printf("WTM: Could not export wire with new WA\n");
        }
    }

    arrayListIterator_destroy(waitList);

    celixThreadMutex_unlock(&manager->exportedWiringEndpointsLock);

    /* Check if the added WA can match one of the imported WiringEndpoints */
    celixThreadMutex_lock(&manager->importedWiringEndpointsLock);
    iter = hashMapIterator_create(manager->importedWiringEndpoints);
    while (hashMapIterator_hasNext(iter)) {
        hash_map_entry_pt entry = hashMapIterator_nextEntry(iter);
        wiring_endpoint_description_pt wEndpoint = hashMapEntry_getKey(entry);
        array_list_pt wiringAdminList = hashMapEntry_getValue(entry);

        status = wiringTopologyManager_checkWiringAdminForImportWiringEndpoint(manager, wiringAdminService, wEndpoint);

        if (status == CELIX_SUCCESS) {
            arrayList_add(wiringAdminList, wiringAdminService);
        }

    }
    hashMapIterator_destroy(iter);


    /* check wether waiting service can be exported */
    wiringTopologyManager_checkWaitingForImportServices(manager);

    celixThreadMutex_unlock(&manager->importedWiringEndpointsLock);

    printf("WTM: Added WA\n");

    return status;
}