/* * Copyright (C) 2019 BlueKitchen GmbH * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the copyright holders nor the names of * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * 4. Any redistribution, use, or modification is done solely for * personal benefit and not for any commercial purpose or for * monetary gain. * * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * Please inquire about commercial licensing options at * contact@bluekitchen-gmbh.com * */ #define BTSTACK_FILE__ "mesh_generic_level_server.c" #include #include #include "mesh/mesh_generic_level_server.h" #include "bluetooth_company_id.h" #include "btstack_debug.h" #include "btstack_memory.h" #include "btstack_util.h" #include "mesh/mesh_access.h" #include "mesh/mesh_foundation.h" #include "mesh/mesh_generic_model.h" #include "mesh/mesh_keys.h" #include "mesh/mesh_network.h" #include "mesh/mesh_upper_transport.h" static void generic_server_send_message(uint16_t src, uint16_t dest, uint16_t netkey_index, uint16_t appkey_index, mesh_pdu_t *pdu){ uint8_t ttl = mesh_foundation_default_ttl_get(); mesh_upper_transport_setup_access_pdu_header(pdu, netkey_index, appkey_index, ttl, src, dest, 0); mesh_access_send_unacknowledged_pdu(pdu); } // Transition static int16_t add_and_clip_int16(int16_t current_value, int32_t increment){ int32_t value = current_value + increment; if (value < -32768){ value = -32768; } else if (value > 32767){ value = 32767; } return (int16_t) value; } static mesh_transition_t * generic_level_server_get_base_transition(mesh_model_t * mesh_model) { mesh_generic_level_state_t * generic_level_server_state = (mesh_generic_level_state_t *)mesh_model->model_data; return &generic_level_server_state->transition_data.base_transition; } static void mesh_server_transition_handler(mesh_transition_t * base_transition, model_state_update_reason_t event){ mesh_transition_int16_t * transition = (mesh_transition_int16_t*) base_transition; printf("Transition: event %x, current %x, target %x, increment %x, time %u\n", (int) event, transition->current_value, transition->target_value, transition->stepwise_value_increment, btstack_run_loop_get_time_ms()); switch (event){ case MODEL_STATE_UPDATE_REASON_TRANSITION_ACTIVE: transition->current_value = add_and_clip_int16(transition->current_value, transition->stepwise_value_increment); mesh_access_state_changed(transition->base_transition.mesh_model); break; case MODEL_STATE_UPDATE_REASON_SET: case MODEL_STATE_UPDATE_REASON_TRANSITION_END: transition->current_value = transition->target_value; mesh_access_state_changed(transition->base_transition.mesh_model); break; case MODEL_STATE_UPDATE_REASON_TRANSITION_ABORT: break; default: break; } // notify app mesh_model_t * generic_level_server_model = transition->base_transition.mesh_model; mesh_access_emit_state_update_int16(generic_level_server_model->model_packet_handler, mesh_access_get_element_index(generic_level_server_model), generic_level_server_model->model_identifier, MODEL_STATE_ID_GENERIC_LEVEL, event, transition->current_value); } static void mesh_server_transition_setup_transition_or_instantaneous_update_int16(mesh_model_t *mesh_model, uint8_t transition_time_gdtt, uint8_t delay_time_gdtt, uint32_t delta_value){ mesh_generic_level_state_t * generic_level_server_state = (mesh_generic_level_state_t *)mesh_model->model_data; mesh_transition_t * transition = &generic_level_server_state->transition_data.base_transition; // calc step increment int num_steps = mesh_access_transitions_num_steps_from_gdtt(transition_time_gdtt); if (num_steps > 0){ generic_level_server_state->transition_data.stepwise_value_increment = delta_value / num_steps; } else { generic_level_server_state->transition_data.stepwise_value_increment = 0; } mesh_access_transition_setup(mesh_model, transition, transition_time_gdtt, delay_time_gdtt, &mesh_server_transition_handler); } // Generic Level State void mesh_generic_level_server_register_packet_handler(mesh_model_t *generic_level_server_model, btstack_packet_handler_t transition_events_packet_handler){ btstack_assert(generic_level_server_model != NULL); btstack_assert(transition_events_packet_handler != NULL); generic_level_server_model->model_packet_handler = transition_events_packet_handler; } const mesh_access_message_t mesh_generic_level_status_transition = { MESH_GENERIC_LEVEL_STATUS, "221" }; const mesh_access_message_t mesh_generic_level_status_instantaneous = { MESH_GENERIC_LEVEL_STATUS, "2" }; static mesh_pdu_t * mesh_generic_level_status_message(mesh_model_t *generic_level_server_model){ mesh_generic_level_state_t * state = (mesh_generic_level_state_t *) generic_level_server_model->model_data; btstack_assert(state != NULL); // setup message mesh_upper_transport_pdu_t * transport_pdu = NULL; if (state->transition_data.base_transition.num_steps > 0) { uint8_t remaining_time = (((uint8_t)state->transition_data.base_transition.step_resolution) << 6) | (state->transition_data.base_transition.num_steps); transport_pdu = mesh_access_setup_message(&mesh_generic_level_status_transition, state->transition_data.current_value, state->transition_data.target_value, remaining_time); } else { transport_pdu = mesh_access_setup_message(&mesh_generic_level_status_instantaneous, state->transition_data.current_value); } return (mesh_pdu_t *)transport_pdu; } static void generic_level_handle_set_target_level_message(mesh_model_t *mesh_model, mesh_pdu_t * pdu){ mesh_generic_level_state_t * generic_level_server_state = (mesh_generic_level_state_t *)mesh_model->model_data; btstack_assert(generic_level_server_state != NULL); mesh_access_parser_state_t parser; mesh_access_parser_init(&parser, (mesh_pdu_t*) pdu); int16_t level_value = (int16_t) mesh_access_parser_get_uint16(&parser); // The TID field is a transaction identifier indicating whether the message is // a new message or a retransmission of a previously sent message uint8_t tid = mesh_access_parser_get_uint8(&parser); uint8_t transition_time_gdtt = 0; uint8_t delay_time_gdtt = 0; if (mesh_access_parser_available(&parser) == 2){ // Generic Default Transition Time format - num_steps (higher 6 bits), step_resolution (lower 2 bits) transition_time_gdtt = mesh_access_parser_get_uint8(&parser); delay_time_gdtt = mesh_access_parser_get_uint8(&parser); } mesh_transition_t * base_transition = generic_level_server_get_base_transition(mesh_model); switch (mesh_access_transitions_transaction_status(base_transition, tid, mesh_pdu_src(pdu), mesh_pdu_dst(pdu))){ case MESH_TRANSACTION_STATUS_RETRANSMISSION: // ignore break; default: mesh_access_transitions_init_transaction(base_transition, tid, mesh_pdu_src(pdu), mesh_pdu_dst(pdu)); generic_level_server_state->transition_data.initial_value = generic_level_server_state->transition_data.current_value; generic_level_server_state->transition_data.target_value = level_value; int32_t delta_value = level_value - generic_level_server_state->transition_data.current_value; mesh_server_transition_setup_transition_or_instantaneous_update_int16(mesh_model, transition_time_gdtt, delay_time_gdtt, delta_value); mesh_access_state_changed(mesh_model); break; } } static void generic_level_handle_set_delta_message(mesh_model_t *mesh_model, mesh_pdu_t * pdu){ mesh_generic_level_state_t * generic_level_server_state = (mesh_generic_level_state_t *)mesh_model->model_data; btstack_assert(generic_level_server_state != NULL); mesh_access_parser_state_t parser; mesh_access_parser_init(&parser, (mesh_pdu_t*) pdu); int32_t delta_value = mesh_access_parser_get_uint32(&parser); // The TID field is a transaction identifier indicating whether the message is // a new message or a retransmission of a previously sent message uint8_t tid = mesh_access_parser_get_uint8(&parser); uint8_t transition_time_gdtt = 0; uint8_t delay_time_gdtt = 0; if (mesh_access_parser_available(&parser) == 2){ // Generic Default Transition Time format - num_steps (higher 6 bits), step_resolution (lower 2 bits) transition_time_gdtt = mesh_access_parser_get_uint8(&parser); delay_time_gdtt = mesh_access_parser_get_uint8(&parser); } mesh_transition_t * base_transition = generic_level_server_get_base_transition(mesh_model); switch (mesh_access_transitions_transaction_status(base_transition, tid, mesh_pdu_src(pdu), mesh_pdu_dst(pdu))){ case MESH_TRANSACTION_STATUS_DIFFERENT_DST_OR_SRC: // abort transaction printf("Transaction abort\n"); mesh_access_transitions_abort_transaction(base_transition); generic_level_server_state->transition_data.current_value = generic_level_server_state->transition_data.initial_value; mesh_server_transition_setup_transition_or_instantaneous_update_int16(mesh_model, 0, 0, 0); break; case MESH_TRANSACTION_STATUS_NEW: // start transaction with current value mesh_access_transitions_init_transaction(base_transition, tid, mesh_pdu_src(pdu), mesh_pdu_dst(pdu)); generic_level_server_state->transition_data.initial_value = generic_level_server_state->transition_data.current_value; generic_level_server_state->transition_data.target_value = add_and_clip_int16(generic_level_server_state->transition_data.initial_value, delta_value); printf("Transaction %u, new, init %x, target %x\n", tid, generic_level_server_state->transition_data.initial_value, generic_level_server_state->transition_data.target_value); mesh_server_transition_setup_transition_or_instantaneous_update_int16(mesh_model, transition_time_gdtt, delay_time_gdtt, delta_value); mesh_access_state_changed(mesh_model); break; case MESH_TRANSACTION_STATUS_RETRANSMISSION: // replace last delta message mesh_access_transitions_init_transaction(base_transition, tid, mesh_pdu_src(pdu), mesh_pdu_dst(pdu)); generic_level_server_state->transition_data.target_value = add_and_clip_int16(generic_level_server_state->transition_data.initial_value, delta_value); printf("Transaction %u, retransmission, init %x, target %x\n", tid, generic_level_server_state->transition_data.initial_value, generic_level_server_state->transition_data.target_value); mesh_server_transition_setup_transition_or_instantaneous_update_int16(mesh_model, transition_time_gdtt, delay_time_gdtt, delta_value); mesh_access_state_changed(mesh_model); break; default: break; } } static void generic_level_handle_set_move_message(mesh_model_t *mesh_model, mesh_pdu_t * pdu){ mesh_generic_level_state_t * generic_level_server_state = (mesh_generic_level_state_t *)mesh_model->model_data; btstack_assert(generic_level_server_state != NULL); mesh_access_parser_state_t parser; mesh_access_parser_init(&parser, (mesh_pdu_t*) pdu); int32_t delta_value = (int32_t) mesh_access_parser_get_uint16(&parser); // The TID field is a transaction identifier indicating whether the message is // a new message or a retransmission of a previously sent message uint8_t tid = mesh_access_parser_get_uint8(&parser); uint8_t transition_time_gdtt = 0; uint8_t delay_time_gdtt = 0; if (mesh_access_parser_available(&parser) == 2){ // Generic Default Transition Time format - num_steps (higher 6 bits), step_resolution (lower 2 bits) transition_time_gdtt = mesh_access_parser_get_uint8(&parser); delay_time_gdtt = mesh_access_parser_get_uint8(&parser); } else { // transition speed is delta / num steps, without num steps, and without a default transition time, we cannot do this return; } mesh_transition_t * base_transition = generic_level_server_get_base_transition(mesh_model); switch (mesh_access_transitions_transaction_status(base_transition, tid, mesh_pdu_src(pdu), mesh_pdu_dst(pdu))){ case MESH_TRANSACTION_STATUS_RETRANSMISSION: // ignore retransmission break; default: mesh_access_transitions_init_transaction(base_transition, tid, mesh_pdu_src(pdu), mesh_pdu_dst(pdu)); generic_level_server_state->transition_data.initial_value = generic_level_server_state->transition_data.current_value; generic_level_server_state->transition_data.target_value = add_and_clip_int16(generic_level_server_state->transition_data.current_value, delta_value); if (delta_value > 0){ generic_level_server_state->transition_data.target_value = 32767; } else { generic_level_server_state->transition_data.target_value = -32768; } mesh_server_transition_setup_transition_or_instantaneous_update_int16(mesh_model, transition_time_gdtt, delay_time_gdtt, delta_value); generic_level_server_state->transition_data.base_transition.num_steps = MESH_TRANSITION_NUM_STEPS_INFINITE; break; } } static void generic_level_get_handler(mesh_model_t *generic_level_server_model, mesh_pdu_t * pdu){ mesh_upper_transport_pdu_t * transport_pdu = (mesh_upper_transport_pdu_t *) mesh_generic_level_status_message(generic_level_server_model); if (transport_pdu != NULL) { generic_server_send_message(mesh_access_get_element_address(generic_level_server_model), mesh_pdu_src(pdu), mesh_pdu_netkey_index(pdu), mesh_pdu_appkey_index(pdu), (mesh_pdu_t *) transport_pdu); } mesh_access_message_processed(pdu); } static void generic_level_set_handler(mesh_model_t *generic_level_server_model, mesh_pdu_t * pdu){ generic_level_handle_set_target_level_message(generic_level_server_model, pdu); mesh_upper_transport_pdu_t * transport_pdu = (mesh_upper_transport_pdu_t *) mesh_generic_level_status_message(generic_level_server_model); if (transport_pdu != NULL) { generic_server_send_message(mesh_access_get_element_address(generic_level_server_model), mesh_pdu_src(pdu), mesh_pdu_netkey_index(pdu), mesh_pdu_appkey_index(pdu), (mesh_pdu_t *) transport_pdu); } mesh_access_message_processed(pdu); } static void generic_level_set_unacknowledged_handler(mesh_model_t *generic_level_server_model, mesh_pdu_t * pdu){ generic_level_handle_set_target_level_message(generic_level_server_model, pdu); mesh_access_message_processed(pdu); } static void generic_delta_set_handler(mesh_model_t *generic_level_server_model, mesh_pdu_t * pdu){ generic_level_handle_set_delta_message(generic_level_server_model, pdu); mesh_upper_transport_pdu_t * transport_pdu = (mesh_upper_transport_pdu_t *) mesh_generic_level_status_message(generic_level_server_model); if (transport_pdu != NULL) { generic_server_send_message(mesh_access_get_element_address(generic_level_server_model), mesh_pdu_src(pdu), mesh_pdu_netkey_index(pdu), mesh_pdu_appkey_index(pdu), (mesh_pdu_t *) transport_pdu); } mesh_access_message_processed(pdu); } static void generic_delta_set_unacknowledged_handler(mesh_model_t *generic_level_server_model, mesh_pdu_t * pdu){ generic_level_handle_set_delta_message(generic_level_server_model, pdu); mesh_access_message_processed(pdu); } static void generic_move_get_handler(mesh_model_t *generic_level_server_model, mesh_pdu_t * pdu){ generic_level_handle_set_move_message(generic_level_server_model, pdu); mesh_upper_transport_pdu_t * transport_pdu = (mesh_upper_transport_pdu_t *) mesh_generic_level_status_message(generic_level_server_model); if (transport_pdu != NULL) { generic_server_send_message(mesh_access_get_element_address(generic_level_server_model), mesh_pdu_src(pdu), mesh_pdu_netkey_index(pdu), mesh_pdu_appkey_index(pdu), (mesh_pdu_t *) transport_pdu); } mesh_access_message_processed(pdu); } static void generic_move_set_unacknowledged_handler(mesh_model_t *generic_level_server_model, mesh_pdu_t * pdu){ generic_level_handle_set_move_message(generic_level_server_model, pdu); mesh_access_message_processed(pdu); } // Generic On Off Message const static mesh_operation_t mesh_generic_level_model_operations[] = { { MESH_GENERIC_LEVEL_GET, 0, generic_level_get_handler }, { MESH_GENERIC_LEVEL_SET, 3, generic_level_set_handler }, { MESH_GENERIC_LEVEL_SET_UNACKNOWLEDGED, 3, generic_level_set_unacknowledged_handler }, { MESH_GENERIC_DELTA_SET, 3, generic_delta_set_handler }, { MESH_GENERIC_DELTA_SET_UNACKNOWLEDGED, 3, generic_delta_set_unacknowledged_handler }, { MESH_GENERIC_MOVE_SET, 3, generic_move_get_handler }, { MESH_GENERIC_MOVE_SET_UNACKNOWLEDGED, 3, generic_move_set_unacknowledged_handler }, { 0, 0, NULL } }; const mesh_operation_t * mesh_generic_level_server_get_operations(void){ return mesh_generic_level_model_operations; } void mesh_generic_level_server_set_publication_model(mesh_model_t *generic_level_server_model, mesh_publication_model_t * publication_model){ if (generic_level_server_model == NULL) return; if (publication_model == NULL) return; publication_model->publish_state_fn = &mesh_generic_level_status_message; generic_level_server_model->publication_model = publication_model; }