/* * Copyright (C) 2016 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 * */ #include #include #include #include #include #include "btstack.h" #include "avdtp.h" #include "avdtp_sink.h" #include "avdtp_util.h" #include "avdtp_initiator.h" #include "avdtp_acceptor.h" static const char * default_avdtp_sink_service_name = "BTstack AVDTP Sink Service"; static const char * default_avdtp_sink_service_provider_name = "BTstack AVDTP Sink Service Provider"; // TODO list of devices static btstack_linked_list_t avdtp_connections; static uint16_t stream_endpoints_id_counter; btstack_linked_list_t stream_endpoints; btstack_packet_handler_t avdtp_sink_callback; static void packet_handler(uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size); static void (*handle_media_data)(avdtp_stream_endpoint_t * stream_endpoint, uint8_t *packet, uint16_t size); void a2dp_sink_create_sdp_record(uint8_t * service, uint32_t service_record_handle, uint16_t supported_features, const char * service_name, const char * service_provider_name){ uint8_t* attribute; de_create_sequence(service); // 0x0000 "Service Record Handle" de_add_number(service, DE_UINT, DE_SIZE_16, SDP_ServiceRecordHandle); de_add_number(service, DE_UINT, DE_SIZE_32, service_record_handle); // 0x0001 "Service Class ID List" de_add_number(service, DE_UINT, DE_SIZE_16, SDP_ServiceClassIDList); attribute = de_push_sequence(service); { de_add_number(attribute, DE_UUID, DE_SIZE_16, AUDIO_SINK_GROUP); } de_pop_sequence(service, attribute); // 0x0004 "Protocol Descriptor List" de_add_number(service, DE_UINT, DE_SIZE_16, SDP_ProtocolDescriptorList); attribute = de_push_sequence(service); { uint8_t* l2cpProtocol = de_push_sequence(attribute); { de_add_number(l2cpProtocol, DE_UUID, DE_SIZE_16, SDP_L2CAPProtocol); de_add_number(l2cpProtocol, DE_UINT, DE_SIZE_16, PSM_AVDTP); } de_pop_sequence(attribute, l2cpProtocol); uint8_t* avProtocol = de_push_sequence(attribute); { de_add_number(avProtocol, DE_UUID, DE_SIZE_16, PSM_AVDTP); // avProtocol_service de_add_number(avProtocol, DE_UINT, DE_SIZE_16, 0x0103); // version } de_pop_sequence(attribute, avProtocol); } de_pop_sequence(service, attribute); // 0x0005 "Public Browse Group" de_add_number(service, DE_UINT, DE_SIZE_16, SDP_BrowseGroupList); // public browse group attribute = de_push_sequence(service); { de_add_number(attribute, DE_UUID, DE_SIZE_16, SDP_PublicBrowseGroup); } de_pop_sequence(service, attribute); // 0x0009 "Bluetooth Profile Descriptor List" de_add_number(service, DE_UINT, DE_SIZE_16, SDP_BluetoothProfileDescriptorList); attribute = de_push_sequence(service); { uint8_t *a2dProfile = de_push_sequence(attribute); { de_add_number(a2dProfile, DE_UUID, DE_SIZE_16, ADVANCED_AUDIO_DISTRIBUTION); de_add_number(a2dProfile, DE_UINT, DE_SIZE_16, 0x0103); } de_pop_sequence(attribute, a2dProfile); } de_pop_sequence(service, attribute); // 0x0100 "Service Name" de_add_number(service, DE_UINT, DE_SIZE_16, 0x0100); if (service_name){ de_add_data(service, DE_STRING, strlen(service_name), (uint8_t *) service_name); } else { de_add_data(service, DE_STRING, strlen(default_avdtp_sink_service_name), (uint8_t *) default_avdtp_sink_service_name); } // 0x0100 "Provider Name" de_add_number(service, DE_UINT, DE_SIZE_16, 0x0102); if (service_provider_name){ de_add_data(service, DE_STRING, strlen(service_provider_name), (uint8_t *) service_provider_name); } else { de_add_data(service, DE_STRING, strlen(default_avdtp_sink_service_provider_name), (uint8_t *) default_avdtp_sink_service_provider_name); } // 0x0311 "Supported Features" de_add_number(service, DE_UINT, DE_SIZE_16, 0x0311); de_add_number(service, DE_UINT, DE_SIZE_16, supported_features); } static avdtp_connection_t * avdtp_sink_create_connection(bd_addr_t remote_addr){ avdtp_connection_t * connection = btstack_memory_avdtp_connection_get(); memset(connection, 0, sizeof(avdtp_connection_t)); connection->state = AVDTP_SIGNALING_CONNECTION_IDLE; connection->initiator_transaction_label++; memcpy(connection->remote_addr, remote_addr, 6); btstack_linked_list_add(&avdtp_connections, (btstack_linked_item_t *) connection); return connection; } uint8_t avdtp_sink_create_stream_endpoint(avdtp_sep_type_t sep_type, avdtp_media_type_t media_type){ avdtp_stream_endpoint_t * stream_endpoint = btstack_memory_avdtp_stream_endpoint_get(); memset(stream_endpoint, 0, sizeof(avdtp_stream_endpoint_t)); stream_endpoints_id_counter++; stream_endpoint->sep.seid = stream_endpoints_id_counter; stream_endpoint->sep.media_type = media_type; stream_endpoint->sep.type = sep_type; btstack_linked_list_add(&stream_endpoints, (btstack_linked_item_t *) stream_endpoint); return stream_endpoint->sep.seid; } void avdtp_sink_register_media_transport_category(uint8_t seid){ avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint){ log_error("avdtp_sink_register_media_transport_category: stream endpoint with seid %d is not registered", seid); return; } uint16_t bitmap = store_bit16(stream_endpoint->sep.registered_service_categories, AVDTP_MEDIA_TRANSPORT, 1); stream_endpoint->sep.registered_service_categories = bitmap; printf("registered services AVDTP_MEDIA_TRANSPORT(%d) %02x\n", AVDTP_MEDIA_TRANSPORT, stream_endpoint->sep.registered_service_categories); } void avdtp_sink_register_reporting_category(uint8_t seid){ avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint){ log_error("avdtp_sink_register_media_transport_category: stream endpoint with seid %d is not registered", seid); return; } uint16_t bitmap = store_bit16(stream_endpoint->sep.registered_service_categories, AVDTP_REPORTING, 1); stream_endpoint->sep.registered_service_categories = bitmap; } void avdtp_sink_register_delay_reporting_category(uint8_t seid){ avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint){ log_error("avdtp_sink_register_media_transport_category: stream endpoint with seid %d is not registered", seid); return; } uint16_t bitmap = store_bit16(stream_endpoint->sep.registered_service_categories, AVDTP_DELAY_REPORTING, 1); stream_endpoint->sep.registered_service_categories = bitmap; } void avdtp_sink_register_recovery_category(uint8_t seid, uint8_t maximum_recovery_window_size, uint8_t maximum_number_media_packets){ avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint){ log_error("avdtp_sink_register_media_transport_category: stream endpoint with seid %d is not registered", seid); return; } uint16_t bitmap = store_bit16(stream_endpoint->sep.registered_service_categories, AVDTP_RECOVERY, 1); stream_endpoint->sep.registered_service_categories = bitmap; stream_endpoint->sep.capabilities.recovery.recovery_type = 0x01; // 0x01 = RFC2733 stream_endpoint->sep.capabilities.recovery.maximum_recovery_window_size = maximum_recovery_window_size; stream_endpoint->sep.capabilities.recovery.maximum_number_media_packets = maximum_number_media_packets; } void avdtp_sink_register_content_protection_category(uint8_t seid, uint16_t cp_type, const uint8_t * cp_type_value, uint8_t cp_type_value_len){ avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint){ log_error("avdtp_sink_register_media_transport_category: stream endpoint with seid %d is not registered", seid); return; } uint16_t bitmap = store_bit16(stream_endpoint->sep.registered_service_categories, AVDTP_CONTENT_PROTECTION, 1); stream_endpoint->sep.registered_service_categories = bitmap; stream_endpoint->sep.capabilities.content_protection.cp_type = cp_type; stream_endpoint->sep.capabilities.content_protection.cp_type_value = cp_type_value; stream_endpoint->sep.capabilities.content_protection.cp_type_value_len = cp_type_value_len; } void avdtp_sink_register_header_compression_category(uint8_t seid, uint8_t back_ch, uint8_t media, uint8_t recovery){ avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint){ log_error("avdtp_sink_register_media_transport_category: stream endpoint with seid %d is not registered", seid); return; } uint16_t bitmap = store_bit16(stream_endpoint->sep.registered_service_categories, AVDTP_HEADER_COMPRESSION, 1); stream_endpoint->sep.registered_service_categories = bitmap; stream_endpoint->sep.capabilities.header_compression.back_ch = back_ch; stream_endpoint->sep.capabilities.header_compression.media = media; stream_endpoint->sep.capabilities.header_compression.recovery = recovery; } void avdtp_sink_register_media_codec_category(uint8_t seid, avdtp_media_type_t media_type, avdtp_media_codec_type_t media_codec_type, const uint8_t * media_codec_info, uint16_t media_codec_info_len){ avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint){ log_error("avdtp_sink_register_media_transport_category: stream endpoint with seid %d is not registered", seid); return; } uint16_t bitmap = store_bit16(stream_endpoint->sep.registered_service_categories, AVDTP_MEDIA_CODEC, 1); stream_endpoint->sep.registered_service_categories = bitmap; printf("registered services AVDTP_MEDIA_CODEC(%d) %02x\n", AVDTP_MEDIA_CODEC, stream_endpoint->sep.registered_service_categories); stream_endpoint->sep.capabilities.media_codec.media_type = media_type; stream_endpoint->sep.capabilities.media_codec.media_codec_type = media_codec_type; stream_endpoint->sep.capabilities.media_codec.media_codec_information = media_codec_info; stream_endpoint->sep.capabilities.media_codec.media_codec_information_len = media_codec_info_len; } void avdtp_sink_register_multiplexing_category(uint8_t seid, uint8_t fragmentation){ avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint){ log_error("avdtp_sink_register_media_transport_category: stream endpoint with seid %d is not registered", seid); return; } uint16_t bitmap = store_bit16(stream_endpoint->sep.registered_service_categories, AVDTP_MULTIPLEXING, 1); stream_endpoint->sep.registered_service_categories = bitmap; stream_endpoint->sep.capabilities.multiplexing_mode.fragmentation = fragmentation; } // // media, reporting. recovery // void avdtp_sink_register_media_transport_identifier_for_multiplexing_category(uint8_t seid, uint8_t fragmentation){ // } static avdtp_connection_t * get_avdtp_connection_for_bd_addr(bd_addr_t addr){ btstack_linked_list_iterator_t it; btstack_linked_list_iterator_init(&it, (btstack_linked_list_t *) &avdtp_connections); while (btstack_linked_list_iterator_has_next(&it)){ avdtp_connection_t * connection = (avdtp_connection_t *)btstack_linked_list_iterator_next(&it); if (memcmp(addr, connection->remote_addr, 6) != 0) continue; return connection; } return NULL; } static avdtp_connection_t * get_avdtp_connection_for_con_handle(hci_con_handle_t con_handle){ btstack_linked_list_iterator_t it; btstack_linked_list_iterator_init(&it, (btstack_linked_list_t *) &avdtp_connections); while (btstack_linked_list_iterator_has_next(&it)){ avdtp_connection_t * connection = (avdtp_connection_t *)btstack_linked_list_iterator_next(&it); if (connection->con_handle != con_handle) continue; return connection; } return NULL; } static avdtp_connection_t * get_avdtp_connection_for_l2cap_signaling_cid(uint16_t l2cap_cid){ btstack_linked_list_iterator_t it; btstack_linked_list_iterator_init(&it, (btstack_linked_list_t *) &avdtp_connections); while (btstack_linked_list_iterator_has_next(&it)){ avdtp_connection_t * connection = (avdtp_connection_t *)btstack_linked_list_iterator_next(&it); if (connection->l2cap_signaling_cid != l2cap_cid) continue; return connection; } return NULL; } static avdtp_stream_endpoint_t * get_avdtp_stream_endpoint_for_l2cap_cid(uint16_t l2cap_cid){ btstack_linked_list_iterator_t it; btstack_linked_list_iterator_init(&it, (btstack_linked_list_t *) &stream_endpoints); while (btstack_linked_list_iterator_has_next(&it)){ avdtp_stream_endpoint_t * stream_endpoint = (avdtp_stream_endpoint_t *)btstack_linked_list_iterator_next(&it); if (stream_endpoint->l2cap_media_cid == l2cap_cid){ return stream_endpoint; } if (stream_endpoint->l2cap_reporting_cid == l2cap_cid){ return stream_endpoint; } if (stream_endpoint->l2cap_recovery_cid == l2cap_cid){ return stream_endpoint; } } return NULL; } /* START: tracking can send now requests pro l2cap cid */ static void avdtp_sink_handle_can_send_now(avdtp_connection_t * connection, uint16_t l2cap_cid){ if (connection->wait_to_send_acceptor){ connection->wait_to_send_acceptor = 0; avdtp_acceptor_stream_config_subsm_run(connection); } else if (connection->wait_to_send_initiator){ connection->wait_to_send_initiator = 0; avdtp_initiator_stream_config_subsm_run(connection); } else if (connection->wait_to_send_self){ connection->wait_to_send_self = 0; if (connection->disconnect){ btstack_linked_list_iterator_t it; btstack_linked_list_iterator_init(&it, (btstack_linked_list_t *) &stream_endpoints); while (btstack_linked_list_iterator_has_next(&it)){ avdtp_stream_endpoint_t * stream_endpoint = (avdtp_stream_endpoint_t *)btstack_linked_list_iterator_next(&it); if (stream_endpoint->connection == connection){ if (stream_endpoint->state >= AVDTP_STREAM_ENDPOINT_OPENED && stream_endpoint->state != AVDTP_STREAM_ENDPOINT_W4_L2CAP_FOR_MEDIA_DISCONNECTED){ stream_endpoint->state = AVDTP_STREAM_ENDPOINT_W4_L2CAP_FOR_MEDIA_DISCONNECTED; avdtp_sink_request_can_send_now_self(connection, connection->l2cap_signaling_cid); l2cap_disconnect(stream_endpoint->l2cap_media_cid, 0); return; } } } connection->disconnect = 0; connection->state = AVDTP_SIGNALING_CONNECTION_W4_L2CAP_DISCONNECTED; l2cap_disconnect(connection->l2cap_signaling_cid, 0); return; } } // re-register int more_to_send = connection->wait_to_send_acceptor || connection->wait_to_send_initiator || connection->wait_to_send_self; if (more_to_send){ l2cap_request_can_send_now_event(l2cap_cid); } } /* END: tracking can send now requests pro l2cap cid */ // TODO remove static void handle_l2cap_data_packet_for_signaling_connection(avdtp_connection_t * connection, uint8_t *packet, uint16_t size){ int offset = avdtp_read_signaling_header(&connection->signaling_packet, packet, size); switch (connection->signaling_packet.message_type){ case AVDTP_CMD_MSG: avdtp_acceptor_stream_config_subsm(connection, packet, size, offset); break; default: avdtp_initiator_stream_config_subsm(connection, packet, size, offset); break; } } static void stream_endpoint_state_machine(avdtp_connection_t * connection, avdtp_stream_endpoint_t * stream_endpoint, uint8_t packet_type, uint8_t event, uint8_t *packet, uint16_t size){ uint16_t local_cid; switch (packet_type){ case L2CAP_DATA_PACKET:{ int offset = avdtp_read_signaling_header(&connection->signaling_packet, packet, size); if (connection->signaling_packet.message_type == AVDTP_CMD_MSG){ avdtp_acceptor_stream_config_subsm(connection, packet, size, offset); } else { avdtp_initiator_stream_config_subsm(connection, packet, size, offset); } break; } case HCI_EVENT_PACKET: switch (event){ case L2CAP_EVENT_CHANNEL_OPENED: if (stream_endpoint->l2cap_media_cid == 0){ if (stream_endpoint->state != AVDTP_STREAM_ENDPOINT_W4_L2CAP_FOR_MEDIA_CONNECTED) return; stream_endpoint->state = AVDTP_STREAM_ENDPOINT_OPENED; stream_endpoint->connection = connection; stream_endpoint->l2cap_media_cid = l2cap_event_channel_opened_get_local_cid(packet);; printf(" -> AVDTP_STREAM_ENDPOINT_OPENED, stream endpoint %p, connection %p\n", stream_endpoint, connection); break; } break; case L2CAP_EVENT_CHANNEL_CLOSED: local_cid = l2cap_event_channel_closed_get_local_cid(packet); if (stream_endpoint->l2cap_media_cid == local_cid){ stream_endpoint->l2cap_media_cid = 0; printf(" -> L2CAP_EVENT_CHANNEL_CLOSED: AVDTP_STREAM_ENDPOINT_IDLE\n"); stream_endpoint->state = AVDTP_STREAM_ENDPOINT_IDLE; stream_endpoint->acceptor_config_state = AVDTP_ACCEPTOR_STREAM_CONFIG_IDLE; stream_endpoint->initiator_config_state = AVDTP_INITIATOR_STREAM_CONFIG_IDLE; stream_endpoint->remote_seps_num = 0; memset(stream_endpoint->remote_seps, 0, sizeof(avdtp_sep_t)*MAX_NUM_SEPS); stream_endpoint->remote_sep_index = 0; break; } if (stream_endpoint->l2cap_recovery_cid == local_cid){ log_info(" -> L2CAP_EVENT_CHANNEL_CLOSED recovery cid 0x%0x", local_cid); stream_endpoint->l2cap_recovery_cid = 0; break; } if (stream_endpoint->l2cap_reporting_cid == local_cid){ log_info("L2CAP_EVENT_CHANNEL_CLOSED reporting cid 0x%0x", local_cid); stream_endpoint->l2cap_reporting_cid = 0; break; } break; default: break; } break; default: break; } } static void avdtp_initialize_stream_endpoint(avdtp_stream_endpoint_t * stream_endpoint){ stream_endpoint->connection = NULL; stream_endpoint->state = AVDTP_STREAM_ENDPOINT_IDLE; stream_endpoint->acceptor_config_state = AVDTP_ACCEPTOR_STREAM_CONFIG_IDLE; stream_endpoint->initiator_config_state = AVDTP_INITIATOR_STREAM_CONFIG_IDLE; stream_endpoint->remote_sep_index = 0; stream_endpoint->media_disconnect = 0; stream_endpoint->remote_seps_num = 0; stream_endpoint->sep.in_use = 0; memset(stream_endpoint->remote_seps, 0, sizeof(stream_endpoint->remote_seps)); stream_endpoint->remote_sep_index = 0; } static void packet_handler(uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size){ bd_addr_t event_addr; hci_con_handle_t con_handle; uint16_t psm; uint16_t local_cid; avdtp_stream_endpoint_t * stream_endpoint = NULL; avdtp_connection_t * connection = NULL; switch (packet_type) { case L2CAP_DATA_PACKET: connection = get_avdtp_connection_for_l2cap_signaling_cid(channel); if (connection){ handle_l2cap_data_packet_for_signaling_connection(connection, packet, size); break; } stream_endpoint = get_avdtp_stream_endpoint_for_l2cap_cid(channel); if (!stream_endpoint){ if (!connection) break; handle_l2cap_data_packet_for_signaling_connection(connection, packet, size); break; } if (channel == stream_endpoint->connection->l2cap_signaling_cid){ stream_endpoint_state_machine(stream_endpoint->connection, stream_endpoint, L2CAP_DATA_PACKET, 0, packet, size); break; } if (channel == stream_endpoint->l2cap_media_cid){ (*handle_media_data)(stream_endpoint, packet, size); break; } if (channel == stream_endpoint->l2cap_reporting_cid){ // TODO printf("L2CAP_DATA_PACKET for reporting: NOT IMPLEMENTED\n"); } else if (channel == stream_endpoint->l2cap_recovery_cid){ // TODO printf("L2CAP_DATA_PACKET for recovery: NOT IMPLEMENTED\n"); } else { log_error("avdtp packet handler L2CAP_DATA_PACKET: local cid 0x%02x not found", channel); } break; case HCI_EVENT_PACKET: switch (hci_event_packet_get_type(packet)) { case L2CAP_EVENT_INCOMING_CONNECTION: l2cap_event_incoming_connection_get_address(packet, event_addr); local_cid = l2cap_event_incoming_connection_get_local_cid(packet); connection = get_avdtp_connection_for_bd_addr(event_addr); if (!connection){ connection = avdtp_sink_create_connection(event_addr); connection->state = AVDTP_SIGNALING_CONNECTION_W4_L2CAP_CONNECTED; l2cap_accept_connection(local_cid); break; } stream_endpoint = get_avdtp_stream_endpoint_for_seid(connection->query_seid); if (!stream_endpoint) { printf("L2CAP_EVENT_INCOMING_CONNECTION no streamendpoint found for seid %d\n", connection->query_seid); break; } if (stream_endpoint->l2cap_media_cid == 0){ if (stream_endpoint->state != AVDTP_STREAM_ENDPOINT_W4_L2CAP_FOR_MEDIA_CONNECTED) break; l2cap_accept_connection(local_cid); break; } break; case L2CAP_EVENT_CHANNEL_OPENED: // inform about new l2cap connection l2cap_event_channel_opened_get_address(packet, event_addr); if (l2cap_event_channel_opened_get_status(packet)){ log_error("L2CAP connection to connection %s failed. status code 0x%02x", bd_addr_to_str(event_addr), l2cap_event_channel_opened_get_status(packet)); break; } psm = l2cap_event_channel_opened_get_psm(packet); if (psm != PSM_AVDTP){ log_error("unexpected PSM - Not implemented yet, avdtp sink: L2CAP_EVENT_CHANNEL_OPENED"); return; } con_handle = l2cap_event_channel_opened_get_handle(packet); local_cid = l2cap_event_channel_opened_get_local_cid(packet); // printf("L2CAP_EVENT_CHANNEL_OPENED: Channel successfully opened: %s, handle 0x%02x, psm 0x%02x, local cid 0x%02x, remote cid 0x%02x\n", // bd_addr_to_str(event_addr), con_handle, psm, local_cid, l2cap_event_channel_opened_get_remote_cid(packet)); if (psm != PSM_AVDTP) break; connection = get_avdtp_connection_for_bd_addr(event_addr); if (!connection) break; if (connection->l2cap_signaling_cid == 0) { if (connection->state != AVDTP_SIGNALING_CONNECTION_W4_L2CAP_CONNECTED) break; connection->l2cap_signaling_cid = local_cid; connection->con_handle = con_handle; connection->query_seid = 0; connection->state = AVDTP_SIGNALING_CONNECTION_OPENED; printf(" -> AVDTP_SIGNALING_CONNECTION_OPENED, connection %p\n", connection); avdtp_signaling_emit_connection_established(avdtp_sink_callback, con_handle, event_addr, 0); break; } stream_endpoint = get_avdtp_stream_endpoint_for_seid(connection->query_seid); if (!stream_endpoint){ printf("L2CAP_EVENT_CHANNEL_OPENED: stream_endpoint not found"); return; } stream_endpoint_state_machine(connection, stream_endpoint, HCI_EVENT_PACKET, L2CAP_EVENT_CHANNEL_OPENED, packet, size); break; case L2CAP_EVENT_CHANNEL_CLOSED: // data: event (8), len(8), channel (16) local_cid = l2cap_event_channel_closed_get_local_cid(packet); connection = get_avdtp_connection_for_l2cap_signaling_cid(local_cid); printf(" -> L2CAP_EVENT_CHANNEL_CLOSED signaling cid 0x%0x\n", local_cid); if (connection){ printf(" -> AVDTP_STREAM_ENDPOINT_IDLE, connection closed\n"); btstack_linked_list_remove(&avdtp_connections, (btstack_linked_item_t*) connection); btstack_linked_list_iterator_t it; btstack_linked_list_iterator_init(&it, (btstack_linked_list_t *) &stream_endpoints); while (btstack_linked_list_iterator_has_next(&it)){ avdtp_stream_endpoint_t * _stream_endpoint = (avdtp_stream_endpoint_t *)btstack_linked_list_iterator_next(&it); avdtp_initialize_stream_endpoint(_stream_endpoint); } break; } stream_endpoint = get_avdtp_stream_endpoint_for_l2cap_cid(local_cid); if (!stream_endpoint) return; stream_endpoint_state_machine(connection, stream_endpoint, HCI_EVENT_PACKET, L2CAP_EVENT_CHANNEL_CLOSED, packet, size); break; case HCI_EVENT_DISCONNECTION_COMPLETE: break; case L2CAP_EVENT_CAN_SEND_NOW: connection = get_avdtp_connection_for_l2cap_signaling_cid(channel); if (!connection) { stream_endpoint = get_avdtp_stream_endpoint_for_l2cap_cid(channel); if (!stream_endpoint->connection) break; connection = stream_endpoint->connection; } avdtp_sink_handle_can_send_now(connection, channel); break; default: printf("unknown HCI event type %02x\n", hci_event_packet_get_type(packet)); break; } break; default: // other packet type break; } } // TODO: find out which security level is needed, and replace LEVEL_0 in avdtp_sink_init void avdtp_sink_init(void){ stream_endpoints = NULL; avdtp_connections = NULL; stream_endpoints_id_counter = 0; l2cap_register_service(&packet_handler, PSM_AVDTP, 0xffff, LEVEL_0); } void avdtp_sink_register_media_handler(void (*callback)(avdtp_stream_endpoint_t * stream_endpoint, uint8_t *packet, uint16_t size)){ if (callback == NULL){ log_error("avdtp_sink_register_media_handler called with NULL callback"); return; } handle_media_data = callback; } void avdtp_sink_register_packet_handler(btstack_packet_handler_t callback){ if (callback == NULL){ log_error("avdtp_sink_register_packet_handler called with NULL callback"); return; } avdtp_sink_callback = callback; } void avdtp_sink_connect(bd_addr_t bd_addr){ avdtp_connection_t * connection = get_avdtp_connection_for_bd_addr(bd_addr); if (!connection){ connection = avdtp_sink_create_connection(bd_addr); } if (connection->state != AVDTP_SIGNALING_CONNECTION_IDLE) return; connection->state = AVDTP_SIGNALING_CONNECTION_W4_L2CAP_CONNECTED; l2cap_create_channel(packet_handler, connection->remote_addr, PSM_AVDTP, 0xffff, NULL); } void avdtp_sink_disconnect(uint16_t con_handle){ avdtp_connection_t * connection = get_avdtp_connection_for_con_handle(con_handle); if (connection->state == AVDTP_SIGNALING_CONNECTION_IDLE) return; if (connection->state == AVDTP_SIGNALING_CONNECTION_W4_L2CAP_DISCONNECTED) return; connection->disconnect = 1; avdtp_sink_request_can_send_now_self(connection, connection->l2cap_signaling_cid); } void avdtp_sink_open_stream(uint16_t con_handle, uint8_t seid){ avdtp_connection_t * connection = get_avdtp_connection_for_con_handle(con_handle); if (!connection){ printf("avdtp_sink_media_connect: no connection for handle 0x%02x found\n", con_handle); return; } if (connection->state != AVDTP_SIGNALING_CONNECTION_OPENED) { printf("avdtp_sink_media_connect: wrong connection state %d\n", connection->state); return; } avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint) { printf("avdtp_sink_media_connect: no stream_endpoint for seid %d found\n", seid); return; } printf(" AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_L2CAP_FOR_MEDIA_CONNECTED \n"); connection->initiator_transaction_label++; connection->initiator_connection_state = AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_L2CAP_FOR_MEDIA_CONNECTED; connection->query_seid = seid; if (stream_endpoint->state < AVDTP_STREAM_ENDPOINT_CONFIGURED){ return; } else { stream_endpoint->state = AVDTP_STREAM_ENDPOINT_W4_L2CAP_FOR_MEDIA_CONNECTED; } avdtp_sink_request_can_send_now_initiator(connection, connection->l2cap_signaling_cid); } void avdtp_sink_start_stream(uint16_t con_handle, uint8_t seid){ avdtp_connection_t * connection = get_avdtp_connection_for_con_handle(con_handle); if (!connection){ printf("avdtp_sink_media_connect: no connection for handle 0x%02x found\n", con_handle); return; } if (connection->state != AVDTP_SIGNALING_CONNECTION_OPENED) { printf("avdtp_sink_media_connect: wrong connection state %d\n", connection->state); return; } avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint) { printf("avdtp_sink_media_connect: no stream_endpoint for seid %d found\n", seid); return; } printf(" AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_L2CAP_FOR_STREAMING_STARTED \n"); connection->initiator_transaction_label++; connection->initiator_connection_state = AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_L2CAP_FOR_STREAMING_STARTED; connection->query_seid = seid; if (stream_endpoint->state < AVDTP_STREAM_ENDPOINT_OPENED) return; avdtp_sink_request_can_send_now_initiator(connection, connection->l2cap_signaling_cid); } void avdtp_sink_stop_stream(uint16_t con_handle, uint8_t seid){ avdtp_connection_t * connection = get_avdtp_connection_for_con_handle(con_handle); if (!connection){ printf("avdtp_sink_stop_stream: no connection for handle 0x%02x found\n", con_handle); return; } if (connection->state != AVDTP_SIGNALING_CONNECTION_OPENED) { printf("avdtp_sink_stop_stream: wrong connection state %d\n", connection->state); return; } avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint) { printf("avdtp_sink_stop_stream: no stream_endpoint for seid %d found\n", seid); return; } switch (stream_endpoint->state){ case AVDTP_STREAM_ENDPOINT_OPENED: case AVDTP_STREAM_ENDPOINT_STREAMING: printf(" AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_L2CAP_FOR_STREAMING_STOPED \n"); connection->initiator_transaction_label++; connection->initiator_connection_state = AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_L2CAP_FOR_STREAMING_STOPED; connection->query_seid = seid; stream_endpoint->state = AVDTP_STREAM_ENDPOINT_CLOSING; avdtp_sink_request_can_send_now_initiator(connection, connection->l2cap_signaling_cid); break; default: break; } } void avdtp_sink_abort_stream(uint16_t con_handle, uint8_t seid){ avdtp_connection_t * connection = get_avdtp_connection_for_con_handle(con_handle); if (!connection){ printf("avdtp_sink_abort_stream: no connection for handle 0x%02x found\n", con_handle); return; } if (connection->state != AVDTP_SIGNALING_CONNECTION_OPENED) { printf("avdtp_sink_abort_stream: wrong connection state %d\n", connection->state); return; } avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint) { printf("avdtp_sink_abort_stream: no stream_endpoint for seid %d found\n", seid); return; } switch (stream_endpoint->state){ case AVDTP_STREAM_ENDPOINT_CONFIGURED: case AVDTP_STREAM_ENDPOINT_CLOSING: case AVDTP_STREAM_ENDPOINT_OPENED: case AVDTP_STREAM_ENDPOINT_STREAMING: printf(" AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_L2CAP_FOR_STREAMING_ABORTED \n"); connection->initiator_transaction_label++; connection->initiator_connection_state = AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_L2CAP_FOR_STREAMING_ABORTED; connection->query_seid = seid; stream_endpoint->state = AVDTP_STREAM_ENDPOINT_ABORTING; avdtp_sink_request_can_send_now_initiator(connection, connection->l2cap_signaling_cid); break; default: break; } } void avdtp_sink_discover_stream_endpoints(uint16_t con_handle){ avdtp_connection_t * connection = get_avdtp_connection_for_con_handle(con_handle); if (!connection){ printf("avdtp_sink_discover_stream_endpoints: no connection for handle 0x%02x found\n", con_handle); return; } if (connection->state != AVDTP_SIGNALING_CONNECTION_OPENED) return; switch (connection->initiator_connection_state){ case AVDTP_SIGNALING_CONNECTION_INITIATOR_IDLE: connection->initiator_transaction_label++; connection->initiator_connection_state = AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_DISCOVER_SEPS; avdtp_sink_request_can_send_now_initiator(connection, connection->l2cap_signaling_cid); break; default: printf("avdtp_sink_discover_stream_endpoints: wrong state\n"); break; } } void avdtp_sink_get_capabilities(uint16_t con_handle, uint8_t seid){ avdtp_connection_t * connection = get_avdtp_connection_for_con_handle(con_handle); if (!connection){ printf("avdtp_sink_get_capabilities: no connection for handle 0x%02x found\n", con_handle); return; } if (connection->state != AVDTP_SIGNALING_CONNECTION_OPENED) return; if (connection->initiator_connection_state != AVDTP_SIGNALING_CONNECTION_INITIATOR_IDLE) return; connection->initiator_transaction_label++; connection->initiator_connection_state = AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_GET_CAPABILITIES; connection->query_seid = seid; avdtp_sink_request_can_send_now_initiator(connection, connection->l2cap_signaling_cid); } void avdtp_sink_get_all_capabilities(uint16_t con_handle, uint8_t seid){ avdtp_connection_t * connection = get_avdtp_connection_for_con_handle(con_handle); if (!connection){ printf("avdtp_sink_get_all_capabilities: no connection for handle 0x%02x found\n", con_handle); return; } if (connection->state != AVDTP_SIGNALING_CONNECTION_OPENED) return; if (connection->initiator_connection_state != AVDTP_SIGNALING_CONNECTION_INITIATOR_IDLE) return; connection->initiator_transaction_label++; connection->initiator_connection_state = AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_GET_ALL_CAPABILITIES; connection->query_seid = seid; avdtp_sink_request_can_send_now_initiator(connection, connection->l2cap_signaling_cid); } void avdtp_sink_get_configuration(uint16_t con_handle, uint8_t seid){ avdtp_connection_t * connection = get_avdtp_connection_for_con_handle(con_handle); if (!connection){ printf("avdtp_sink_get_configuration: no connection for handle 0x%02x found\n", con_handle); return; } if (connection->state != AVDTP_SIGNALING_CONNECTION_OPENED) return; if (connection->initiator_connection_state != AVDTP_SIGNALING_CONNECTION_INITIATOR_IDLE) return; connection->initiator_transaction_label++; connection->initiator_connection_state = AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_GET_CONFIGURATION; connection->query_seid = seid; avdtp_sink_request_can_send_now_initiator(connection, connection->l2cap_signaling_cid); } void avdtp_sink_set_configuration(uint16_t con_handle, uint8_t acp_seid, uint8_t int_seid, uint16_t remote_capabilities_bitmap, avdtp_capabilities_t remote_capabilities){ avdtp_connection_t * connection = get_avdtp_connection_for_con_handle(con_handle); if (!connection){ printf("avdtp_sink_set_configuration: no connection for handle 0x%02x found\n", con_handle); return; } if (connection->state != AVDTP_SIGNALING_CONNECTION_OPENED) return; if (connection->initiator_connection_state != AVDTP_SIGNALING_CONNECTION_INITIATOR_IDLE) return; connection->initiator_connection_state = AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_SET_CAPABILITIES; connection->initiator_transaction_label++; connection->query_seid = acp_seid; connection->int_seid = int_seid; connection->remote_capabilities = remote_capabilities; connection->remote_capabilities_bitmap = remote_capabilities_bitmap; avdtp_sink_request_can_send_now_initiator(connection, connection->l2cap_signaling_cid); } void avdtp_sink_suspend(uint16_t con_handle, uint8_t seid){ avdtp_connection_t * connection = get_avdtp_connection_for_con_handle(con_handle); if (!connection){ printf("avdtp_sink_suspend: no connection for handle 0x%02x found\n", con_handle); return; } if (connection->state != AVDTP_SIGNALING_CONNECTION_OPENED) return; if (connection->initiator_connection_state != AVDTP_SIGNALING_CONNECTION_INITIATOR_IDLE) return; avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint) return; connection->initiator_transaction_label++; connection->initiator_connection_state = AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_SUSPEND_STREAM_WITH_SEID; connection->query_seid = seid; avdtp_sink_request_can_send_now_initiator(connection, connection->l2cap_signaling_cid); } void avdtp_sink_reconfigure(uint16_t con_handle, uint8_t seid){ avdtp_connection_t * connection = get_avdtp_connection_for_con_handle(con_handle); if (!connection){ printf("avdtp_sink_reconfigure: no connection for handle 0x%02x found\n", con_handle); return; } if (connection->state != AVDTP_SIGNALING_CONNECTION_OPENED) return; if (connection->initiator_connection_state != AVDTP_SIGNALING_CONNECTION_INITIATOR_IDLE) return; avdtp_stream_endpoint_t * stream_endpoint = get_avdtp_stream_endpoint_for_seid(seid); if (!stream_endpoint) return; connection->initiator_transaction_label++; connection->initiator_connection_state = AVDTP_SIGNALING_CONNECTION_INITIATOR_W2_RECONFIGURE_STREAM_WITH_SEID; connection->query_seid = seid; avdtp_sink_request_can_send_now_initiator(connection, connection->l2cap_signaling_cid); }