/* * Copyright 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /***************************************************************************** * * Filename: btif_rc.cc * * Description: Bluetooth AVRC implementation * *****************************************************************************/ #define LOG_TAG "bt_btif_avrc" #include #include #include #include #include #include #include #include #include #include "avrc_defs.h" #include "bt_common.h" #include "bta_api.h" #include "bta_av_api.h" #include "btif_av.h" #include "btif_common.h" #include "btif_rc.h" #include "btif_util.h" #include "btu.h" #include "device/include/interop.h" #include "osi/include/list.h" #include "osi/include/log.h" #include "osi/include/osi.h" #include "osi/include/properties.h" #include "stack/include/avrc_api.h" #define RC_INVALID_TRACK_ID (0xFFFFFFFFFFFFFFFFULL) /***************************************************************************** * Constants & Macros *****************************************************************************/ /* cod value for Headsets */ #define COD_AV_HEADSETS 0x0404 /* for AVRC 1.4 need to change this */ #define MAX_RC_NOTIFICATIONS AVRC_EVT_VOLUME_CHANGE #define IDX_GET_PLAY_STATUS_RSP 0 #define IDX_LIST_APP_ATTR_RSP 1 #define IDX_LIST_APP_VALUE_RSP 2 #define IDX_GET_CURR_APP_VAL_RSP 3 #define IDX_SET_APP_VAL_RSP 4 #define IDX_GET_APP_ATTR_TXT_RSP 5 #define IDX_GET_APP_VAL_TXT_RSP 6 #define IDX_GET_ELEMENT_ATTR_RSP 7 #define IDX_SET_ADDR_PLAYER_RSP 8 #define IDX_SET_BROWSED_PLAYER_RSP 9 #define IDX_GET_FOLDER_ITEMS_RSP 10 #define IDX_CHG_PATH_RSP 11 #define IDX_GET_ITEM_ATTR_RSP 12 #define IDX_PLAY_ITEM_RSP 13 #define IDX_GET_TOTAL_NUM_OF_ITEMS_RSP 14 #define IDX_SEARCH_RSP 15 #define IDX_ADD_TO_NOW_PLAYING_RSP 16 /* Update MAX value whenever IDX will be changed */ #define MAX_CMD_QUEUE_LEN 17 #define MAX_VOLUME 128 #define MAX_LABEL 16 #define MAX_TRANSACTIONS_PER_SESSION 16 #define PLAY_STATUS_PLAYING 1 #define BTIF_RC_NUM_CONN BT_RC_NUM_APP #define CHECK_RC_CONNECTED(p_dev) \ do { \ if ((p_dev) == NULL || !(p_dev)->rc_connected) { \ BTIF_TRACE_WARNING("%s: called when RC is not connected", __func__); \ return BT_STATUS_NOT_READY; \ } \ } while (0) #define CHECK_BR_CONNECTED(p_dev) \ do { \ if ((p_dev) == NULL || !(p_dev)->br_connected) { \ BTIF_TRACE_WARNING("%s: called when BR is not connected", __func__); \ return BT_STATUS_NOT_READY; \ } \ } while (0) /***************************************************************************** * Local type definitions *****************************************************************************/ typedef struct { uint8_t bNotify; uint8_t label; } btif_rc_reg_notifications_t; typedef struct { uint8_t label; uint8_t ctype; bool is_rsp_pending; } btif_rc_cmd_ctxt_t; /* 2 second timeout to get interim response */ #define BTIF_TIMEOUT_RC_INTERIM_RSP_MS (2 * 1000) #define BTIF_TIMEOUT_RC_STATUS_CMD_MS (2 * 1000) #define BTIF_TIMEOUT_RC_CONTROL_CMD_MS (2 * 1000) typedef enum { eNOT_REGISTERED, eREGISTERED, eINTERIM } btif_rc_nfn_reg_status_t; typedef struct { uint8_t event_id; uint8_t label; btif_rc_nfn_reg_status_t status; } btif_rc_supported_event_t; #define BTIF_RC_STS_TIMEOUT 0xFE typedef struct { uint8_t label; uint8_t pdu_id; } btif_rc_status_cmd_timer_t; typedef struct { uint8_t label; uint8_t pdu_id; } btif_rc_control_cmd_timer_t; typedef struct { union { btif_rc_status_cmd_timer_t rc_status_cmd; btif_rc_control_cmd_timer_t rc_control_cmd; }; RawAddress rc_addr; } btif_rc_timer_context_t; typedef struct { bool query_started; uint8_t num_attrs; uint8_t num_ext_attrs; uint8_t attr_index; uint8_t ext_attr_index; uint8_t ext_val_index; btrc_player_app_attr_t attrs[AVRC_MAX_APP_ATTR_SIZE]; btrc_player_app_ext_attr_t ext_attrs[AVRC_MAX_APP_ATTR_SIZE]; } btif_rc_player_app_settings_t; typedef struct { bool in_use; uint8_t lbl; uint8_t handle; btif_rc_timer_context_t txn_timer_context; alarm_t* txn_timer; } rc_transaction_t; typedef struct { std::recursive_mutex lbllock; rc_transaction_t transaction[MAX_TRANSACTIONS_PER_SESSION]; } rc_transaction_set_t; /* TODO : Merge btif_rc_reg_notifications_t and btif_rc_cmd_ctxt_t to a single * struct */ typedef struct { bool rc_connected; bool br_connected; // Browsing channel. uint8_t rc_handle; tBTA_AV_FEAT rc_features; uint16_t rc_cover_art_psm; // AVRCP-BIP psm btrc_connection_state_t rc_state; RawAddress rc_addr; uint16_t rc_pending_play; btif_rc_cmd_ctxt_t rc_pdu_info[MAX_CMD_QUEUE_LEN]; btif_rc_reg_notifications_t rc_notif[MAX_RC_NOTIFICATIONS]; unsigned int rc_volume; uint8_t rc_vol_label; list_t* rc_supported_event_list; btif_rc_player_app_settings_t rc_app_settings; alarm_t* rc_play_status_timer; bool rc_features_processed; uint64_t rc_playing_uid; bool rc_procedure_complete; rc_transaction_set_t transaction_set; } btif_rc_device_cb_t; typedef struct { std::mutex lock; btif_rc_device_cb_t rc_multi_cb[BTIF_RC_NUM_CONN]; } rc_cb_t; typedef struct { uint8_t label; RawAddress rc_addr; } rc_context_t; typedef struct { uint8_t handle; } btif_rc_handle_t; static void sleep_ms(uint64_t timeout_ms); /* Response status code - Unknown Error - this is changed to "reserved" */ #define BTIF_STS_GEN_ERROR 0x06 /* Utility table to map hal status codes to bta status codes for the response * status */ static const uint8_t status_code_map[] = { /* BTA_Status codes HAL_Status codes */ AVRC_STS_BAD_CMD, /* BTRC_STS_BAD_CMD */ AVRC_STS_BAD_PARAM, /* BTRC_STS_BAD_PARAM */ AVRC_STS_NOT_FOUND, /* BTRC_STS_NOT_FOUND */ AVRC_STS_INTERNAL_ERR, /* BTRC_STS_INTERNAL_ERR */ AVRC_STS_NO_ERROR, /* BTRC_STS_NO_ERROR */ AVRC_STS_UID_CHANGED, /* BTRC_STS_UID_CHANGED */ BTIF_STS_GEN_ERROR, /* BTRC_STS_RESERVED */ AVRC_STS_BAD_DIR, /* BTRC_STS_INV_DIRN */ AVRC_STS_NOT_DIR, /* BTRC_STS_INV_DIRECTORY */ AVRC_STS_NOT_EXIST, /* BTRC_STS_INV_ITEM */ AVRC_STS_BAD_SCOPE, /* BTRC_STS_INV_SCOPE */ AVRC_STS_BAD_RANGE, /* BTRC_STS_INV_RANGE */ AVRC_STS_UID_IS_DIR, /* BTRC_STS_DIRECTORY */ AVRC_STS_IN_USE, /* BTRC_STS_MEDIA_IN_USE */ AVRC_STS_NOW_LIST_FULL, /* BTRC_STS_PLAY_LIST_FULL */ AVRC_STS_SEARCH_NOT_SUP, /* BTRC_STS_SRCH_NOT_SPRTD */ AVRC_STS_SEARCH_BUSY, /* BTRC_STS_SRCH_IN_PROG */ AVRC_STS_BAD_PLAYER_ID, /* BTRC_STS_INV_PLAYER */ AVRC_STS_PLAYER_N_BR, /* BTRC_STS_PLAY_NOT_BROW */ AVRC_STS_PLAYER_N_ADDR, /* BTRC_STS_PLAY_NOT_ADDR */ AVRC_STS_BAD_SEARCH_RES, /* BTRC_STS_INV_RESULTS */ AVRC_STS_NO_AVAL_PLAYER, /* BTRC_STS_NO_AVBL_PLAY */ AVRC_STS_ADDR_PLAYER_CHG, /* BTRC_STS_ADDR_PLAY_CHGD */ }; void initialize_device(btif_rc_device_cb_t* p_dev); static void send_reject_response(uint8_t rc_handle, uint8_t label, uint8_t pdu, uint8_t status, uint8_t opcode); static uint8_t opcode_from_pdu(uint8_t pdu); static void send_metamsg_rsp(btif_rc_device_cb_t* p_dev, int index, uint8_t label, tBTA_AV_CODE code, tAVRC_RESPONSE* pmetamsg_resp); static void register_volumechange(uint8_t label, btif_rc_device_cb_t* p_dev); static void init_all_transactions(btif_rc_device_cb_t* p_dev); static bt_status_t get_transaction(btif_rc_device_cb_t* p_dev, rc_transaction_t** ptransaction); static void release_transaction(btif_rc_device_cb_t* p_dev, uint8_t label); static rc_transaction_t* get_transaction_by_lbl(btif_rc_device_cb_t* p_dev, uint8_t label); static void handle_rc_metamsg_rsp(tBTA_AV_META_MSG* pmeta_msg, btif_rc_device_cb_t* p_dev); static void handle_avk_rc_metamsg_cmd(tBTA_AV_META_MSG* pmeta_msg); static void handle_avk_rc_metamsg_rsp(tBTA_AV_META_MSG* pmeta_msg); static void btif_rc_ctrl_upstreams_rsp_cmd(uint8_t event, tAVRC_COMMAND* pavrc_cmd, uint8_t label, btif_rc_device_cb_t* p_dev); static void rc_ctrl_procedure_complete(btif_rc_device_cb_t* p_dev); static void register_for_event_notification(btif_rc_supported_event_t* p_event, btif_rc_device_cb_t* p_dev); static void handle_get_capability_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_CAPS_RSP* p_rsp); static void handle_app_attr_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_LIST_APP_ATTR_RSP* p_rsp); static void handle_app_val_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_LIST_APP_VALUES_RSP* p_rsp); static void handle_app_cur_val_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_CUR_APP_VALUE_RSP* p_rsp); static void handle_app_attr_txt_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_APP_ATTR_TXT_RSP* p_rsp); static void handle_app_attr_val_txt_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_APP_ATTR_TXT_RSP* p_rsp); static void cleanup_app_attr_val_txt_response( btif_rc_player_app_settings_t* p_app_settings); static void handle_get_playstatus_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_PLAY_STATUS_RSP* p_rsp); static void handle_set_addressed_player_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_RSP* p_rsp); static void cleanup_btrc_folder_items(btrc_folder_items_t* btrc_items, uint8_t item_count); static void handle_get_metadata_attr_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_ATTRS_RSP* p_rsp); static void handle_set_app_attr_val_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_RSP* p_rsp); static bt_status_t get_play_status_cmd(btif_rc_device_cb_t* p_dev); static bt_status_t get_player_app_setting_attr_text_cmd( uint8_t* attrs, uint8_t num_attrs, btif_rc_device_cb_t* p_dev); static bt_status_t get_player_app_setting_value_text_cmd( uint8_t* vals, uint8_t num_vals, btif_rc_device_cb_t* p_dev); static bt_status_t register_notification_cmd(uint8_t label, uint8_t event_id, uint32_t event_value, btif_rc_device_cb_t* p_dev); static bt_status_t get_metadata_attribute_cmd(uint8_t num_attribute, const uint32_t* p_attr_ids, btif_rc_device_cb_t* p_dev); static bt_status_t get_element_attribute_cmd(uint8_t num_attribute, const uint32_t* p_attr_ids, btif_rc_device_cb_t* p_dev); static bt_status_t get_item_attribute_cmd(uint64_t uid, int scope, uint8_t num_attribute, const uint32_t* p_attr_ids, btif_rc_device_cb_t* p_dev); static bt_status_t getcapabilities_cmd(uint8_t cap_id, btif_rc_device_cb_t* p_dev); static bt_status_t list_player_app_setting_attrib_cmd( btif_rc_device_cb_t* p_dev); static bt_status_t list_player_app_setting_value_cmd( uint8_t attrib_id, btif_rc_device_cb_t* p_dev); static bt_status_t get_player_app_setting_cmd(uint8_t num_attrib, uint8_t* attrib_ids, btif_rc_device_cb_t* p_dev); void get_folder_item_type_media(const tAVRC_ITEM* avrc_item, btrc_folder_items_t* btrc_item); void get_folder_item_type_folder(const tAVRC_ITEM* avrc_item, btrc_folder_items_t* btrc_item); void get_folder_item_type_player(const tAVRC_ITEM* avrc_item, btrc_folder_items_t* btrc_item); static bt_status_t get_folder_items_cmd(const RawAddress& bd_addr, uint8_t scope, uint32_t start_item, uint32_t end_item); static void btif_rc_upstreams_evt(uint16_t event, tAVRC_COMMAND* p_param, uint8_t ctype, uint8_t label, btif_rc_device_cb_t* p_dev); static void btif_rc_upstreams_rsp_evt(uint16_t event, tAVRC_RESPONSE* pavrc_resp, uint8_t ctype, uint8_t label, btif_rc_device_cb_t* p_dev); static bool absolute_volume_disabled(void); /***************************************************************************** * Static variables *****************************************************************************/ static rc_cb_t btif_rc_cb; static btrc_callbacks_t* bt_rc_callbacks = NULL; static btrc_ctrl_callbacks_t* bt_rc_ctrl_callbacks = NULL; // List of desired media attribute keys to request by default static const uint32_t media_attr_list[] = { AVRC_MEDIA_ATTR_ID_TITLE, AVRC_MEDIA_ATTR_ID_ARTIST, AVRC_MEDIA_ATTR_ID_ALBUM, AVRC_MEDIA_ATTR_ID_TRACK_NUM, AVRC_MEDIA_ATTR_ID_NUM_TRACKS, AVRC_MEDIA_ATTR_ID_GENRE, AVRC_MEDIA_ATTR_ID_PLAYING_TIME, AVRC_MEDIA_ATTR_ID_COVER_ARTWORK_HANDLE}; static const uint8_t media_attr_list_size = sizeof(media_attr_list)/sizeof(uint32_t); // List of desired media attribute keys to request if cover artwork is not a // supported feature static const uint32_t media_attr_list_no_cover_art[] = { AVRC_MEDIA_ATTR_ID_TITLE, AVRC_MEDIA_ATTR_ID_ARTIST, AVRC_MEDIA_ATTR_ID_ALBUM, AVRC_MEDIA_ATTR_ID_TRACK_NUM, AVRC_MEDIA_ATTR_ID_NUM_TRACKS, AVRC_MEDIA_ATTR_ID_GENRE, AVRC_MEDIA_ATTR_ID_PLAYING_TIME}; static const uint8_t media_attr_list_no_cover_art_size = sizeof(media_attr_list_no_cover_art)/sizeof(uint32_t); /***************************************************************************** * Static functions *****************************************************************************/ /***************************************************************************** * Externs *****************************************************************************/ extern bool check_cod(const RawAddress& remote_bdaddr, uint32_t cod); /***************************************************************************** * Functions *****************************************************************************/ static btif_rc_device_cb_t* alloc_device() { for (int idx = 0; idx < BTIF_RC_NUM_CONN; idx++) { if (btif_rc_cb.rc_multi_cb[idx].rc_state == BTRC_CONNECTION_STATE_DISCONNECTED) { return (&btif_rc_cb.rc_multi_cb[idx]); } } return NULL; } void initialize_device(btif_rc_device_cb_t* p_dev) { if (p_dev == nullptr) return; p_dev->rc_connected = false; p_dev->br_connected = false; p_dev->rc_handle = 0; p_dev->rc_features = 0; p_dev->rc_cover_art_psm = 0; p_dev->rc_state = BTRC_CONNECTION_STATE_DISCONNECTED; p_dev->rc_addr = RawAddress::kEmpty; p_dev->rc_pending_play = false; for (int i = 0; i < MAX_CMD_QUEUE_LEN; ++i) { p_dev->rc_pdu_info[i].ctype = 0; p_dev->rc_pdu_info[i].label = 0; p_dev->rc_pdu_info[i].is_rsp_pending = false; } if (p_dev->rc_supported_event_list != nullptr) { list_clear(p_dev->rc_supported_event_list); } p_dev->rc_supported_event_list = nullptr; p_dev->rc_volume = MAX_VOLUME; p_dev->rc_vol_label = MAX_LABEL; memset(&p_dev->rc_app_settings, 0, sizeof(btif_rc_player_app_settings_t)); p_dev->rc_play_status_timer = nullptr; p_dev->rc_features_processed = false; p_dev->rc_playing_uid = 0; p_dev->rc_procedure_complete = false; // Leaving the value of the default constructor for the lbllock mutex is fine // but we still need to clear out the transaction label set memset(&p_dev->transaction_set.transaction, 0, sizeof(p_dev->transaction_set.transaction)); init_all_transactions(p_dev); } static btif_rc_device_cb_t* get_connected_device(int index) { BTIF_TRACE_DEBUG("%s: index: %d", __func__, index); if (index > BTIF_RC_NUM_CONN) { BTIF_TRACE_ERROR("%s: can't support more than %d connections", __func__, BTIF_RC_NUM_CONN); return NULL; } if (btif_rc_cb.rc_multi_cb[index].rc_state != BTRC_CONNECTION_STATE_CONNECTED) { BTIF_TRACE_ERROR("%s: returning NULL", __func__); return NULL; } return (&btif_rc_cb.rc_multi_cb[index]); } btif_rc_device_cb_t* btif_rc_get_device_by_bda(const RawAddress& bd_addr) { VLOG(1) << __func__ << ": bd_addr: " << bd_addr; for (int idx = 0; idx < BTIF_RC_NUM_CONN; idx++) { if ((btif_rc_cb.rc_multi_cb[idx].rc_state != BTRC_CONNECTION_STATE_DISCONNECTED) && btif_rc_cb.rc_multi_cb[idx].rc_addr == bd_addr) { return (&btif_rc_cb.rc_multi_cb[idx]); } } BTIF_TRACE_ERROR("%s: device not found, returning NULL!", __func__); return NULL; } btif_rc_device_cb_t* btif_rc_get_device_by_handle(uint8_t handle) { BTIF_TRACE_DEBUG("%s: handle: 0x%x", __func__, handle); for (int idx = 0; idx < BTIF_RC_NUM_CONN; idx++) { if ((btif_rc_cb.rc_multi_cb[idx].rc_state != BTRC_CONNECTION_STATE_DISCONNECTED) && (btif_rc_cb.rc_multi_cb[idx].rc_handle == handle)) { BTIF_TRACE_DEBUG("%s: btif_rc_cb.rc_multi_cb[idx].rc_handle: 0x%x", __func__, btif_rc_cb.rc_multi_cb[idx].rc_handle); return (&btif_rc_cb.rc_multi_cb[idx]); } } BTIF_TRACE_ERROR("%s: returning NULL", __func__); return NULL; } const uint32_t* get_requested_attributes_list(btif_rc_device_cb_t* p_dev) { return (p_dev->rc_features & BTA_AV_FEAT_COVER_ARTWORK ? media_attr_list : media_attr_list_no_cover_art); } uint8_t get_requested_attributes_list_size(btif_rc_device_cb_t* p_dev) { return (p_dev->rc_features & BTA_AV_FEAT_COVER_ARTWORK ? media_attr_list_size : media_attr_list_no_cover_art_size); } void fill_pdu_queue(int index, uint8_t ctype, uint8_t label, bool pending, btif_rc_device_cb_t* p_dev) { p_dev->rc_pdu_info[index].ctype = ctype; p_dev->rc_pdu_info[index].label = label; p_dev->rc_pdu_info[index].is_rsp_pending = pending; } void fill_avrc_attr_entry(tAVRC_ATTR_ENTRY* attr_vals, int num_attrs, btrc_element_attr_val_t* p_attrs) { for (int attr_cnt = 0; attr_cnt < num_attrs; attr_cnt++) { attr_vals[attr_cnt].attr_id = p_attrs[attr_cnt].attr_id; attr_vals[attr_cnt].name.charset_id = AVRC_CHARSET_ID_UTF8; attr_vals[attr_cnt].name.str_len = (uint16_t)strlen((char*)p_attrs[attr_cnt].text); attr_vals[attr_cnt].name.p_str = p_attrs[attr_cnt].text; BTIF_TRACE_DEBUG( "%s: attr_id: 0x%x, charset_id: 0x%x, str_len: %d, str: %s", __func__, (unsigned int)attr_vals[attr_cnt].attr_id, attr_vals[attr_cnt].name.charset_id, attr_vals[attr_cnt].name.str_len, attr_vals[attr_cnt].name.p_str); } } void rc_cleanup_sent_cmd(void* p_data) { BTIF_TRACE_DEBUG("%s: ", __func__); } void handle_rc_ctrl_features(btif_rc_device_cb_t* p_dev) { if (!(p_dev->rc_features & BTA_AV_FEAT_RCTG) && (!(p_dev->rc_features & BTA_AV_FEAT_RCCT) || !(p_dev->rc_features & BTA_AV_FEAT_ADV_CTRL))) { return; } int rc_features = 0; if ((p_dev->rc_features & BTA_AV_FEAT_ADV_CTRL) && (p_dev->rc_features & BTA_AV_FEAT_RCCT)) { rc_features |= BTRC_FEAT_ABSOLUTE_VOLUME; } if (p_dev->rc_features & BTA_AV_FEAT_METADATA) { rc_features |= BTRC_FEAT_METADATA; } if ((p_dev->rc_features & BTA_AV_FEAT_VENDOR) && (p_dev->rc_features_processed != true)) { /* Mark rc features processed to avoid repeating * the AVRCP procedure every time on receiving this * update. */ p_dev->rc_features_processed = true; if (btif_av_is_sink_enabled()) { getcapabilities_cmd(AVRC_CAP_COMPANY_ID, p_dev); } } /* Add browsing feature capability */ if (p_dev->rc_features & BTA_AV_FEAT_BROWSE) { rc_features |= BTRC_FEAT_BROWSE; } /* Add cover art feature capability */ if (p_dev->rc_features & BTA_AV_FEAT_COVER_ARTWORK) { rc_features |= BTRC_FEAT_COVER_ARTWORK; } BTIF_TRACE_DEBUG("%s: Update rc features to CTRL: %d", __func__, rc_features); do_in_jni_thread(FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->getrcfeatures_cb, p_dev->rc_addr, rc_features)); } void handle_rc_ctrl_psm(btif_rc_device_cb_t* p_dev) { uint16_t cover_art_psm = p_dev->rc_cover_art_psm; BTIF_TRACE_DEBUG("%s: Update rc cover art psm to CTRL: %d", __func__, cover_art_psm); do_in_jni_thread(FROM_HERE, base::Bind( bt_rc_ctrl_callbacks->get_cover_art_psm_cb, p_dev->rc_addr, cover_art_psm)); } void handle_rc_features(btif_rc_device_cb_t* p_dev) { CHECK(bt_rc_callbacks); btrc_remote_features_t rc_features = BTRC_FEAT_NONE; RawAddress avdtp_source_active_peer_addr = btif_av_source_active_peer(); RawAddress avdtp_sink_active_peer_addr = btif_av_sink_active_peer(); BTIF_TRACE_DEBUG( "%s: AVDTP Source Active Peer Address: %s " "AVDTP Sink Active Peer Address: %s " "AVCTP address: %s", __func__, avdtp_source_active_peer_addr.ToString().c_str(), avdtp_sink_active_peer_addr.ToString().c_str(), p_dev->rc_addr.ToString().c_str()); if (interop_match_addr(INTEROP_DISABLE_ABSOLUTE_VOLUME, &p_dev->rc_addr) || absolute_volume_disabled() || (avdtp_source_active_peer_addr != p_dev->rc_addr && avdtp_sink_active_peer_addr != p_dev->rc_addr)) { p_dev->rc_features &= ~BTA_AV_FEAT_ADV_CTRL; } if (p_dev->rc_features & BTA_AV_FEAT_BROWSE) { rc_features = (btrc_remote_features_t)(rc_features | BTRC_FEAT_BROWSE); } #if (AVRC_ADV_CTRL_INCLUDED == TRUE) if ((p_dev->rc_features & BTA_AV_FEAT_ADV_CTRL) && (p_dev->rc_features & BTA_AV_FEAT_RCTG)) { rc_features = (btrc_remote_features_t)(rc_features | BTRC_FEAT_ABSOLUTE_VOLUME); } #endif if (p_dev->rc_features & BTA_AV_FEAT_METADATA) { rc_features = (btrc_remote_features_t)(rc_features | BTRC_FEAT_METADATA); } BTIF_TRACE_DEBUG("%s: rc_features: 0x%x", __func__, rc_features); HAL_CBACK(bt_rc_callbacks, remote_features_cb, p_dev->rc_addr, rc_features); #if (AVRC_ADV_CTRL_INCLUDED == TRUE) BTIF_TRACE_DEBUG( "%s: Checking for feature flags in btif_rc_handler with label: %d", __func__, p_dev->rc_vol_label); // Register for volume change on connect if (p_dev->rc_features & BTA_AV_FEAT_ADV_CTRL && p_dev->rc_features & BTA_AV_FEAT_RCTG) { rc_transaction_t* p_transaction = NULL; bt_status_t status = BT_STATUS_NOT_READY; if (MAX_LABEL == p_dev->rc_vol_label) { status = get_transaction(p_dev, &p_transaction); } else { p_transaction = get_transaction_by_lbl(p_dev, p_dev->rc_vol_label); if (NULL != p_transaction) { BTIF_TRACE_DEBUG( "%s: register_volumechange already in progress for label: %d", __func__, p_dev->rc_vol_label); return; } status = get_transaction(p_dev, &p_transaction); } if (BT_STATUS_SUCCESS == status && NULL != p_transaction) { p_dev->rc_vol_label = p_transaction->lbl; register_volumechange(p_dev->rc_vol_label, p_dev); } } #endif } /*************************************************************************** * Function handle_rc_connect * * - Argument: tBTA_AV_RC_OPEN browse RC open data structure * * - Description: browse RC connection event handler * ***************************************************************************/ void handle_rc_browse_connect(tBTA_AV_RC_BROWSE_OPEN* p_rc_br_open) { BTIF_TRACE_DEBUG("%s: rc_handle %d status %d", __func__, p_rc_br_open->rc_handle, p_rc_br_open->status); btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(p_rc_br_open->rc_handle); if (!p_dev) { BTIF_TRACE_ERROR("%s p_dev is null", __func__); return; } /* check that we are already connected to this address since being connected * to a browse when not connected to the control channel over AVRCP is * probably not preferred anyways. */ if (p_rc_br_open->status == BTA_AV_SUCCESS) { p_dev->br_connected = true; do_in_jni_thread(FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->connection_state_cb, true, true, p_dev->rc_addr)); } } /*************************************************************************** * Function handle_rc_connect * * - Argument: tBTA_AV_RC_OPEN RC open data structure * * - Description: RC connection event handler * ***************************************************************************/ void handle_rc_connect(tBTA_AV_RC_OPEN* p_rc_open) { BTIF_TRACE_DEBUG("%s: rc_handle: %d", __func__, p_rc_open->rc_handle); btif_rc_device_cb_t* p_dev = alloc_device(); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev is NULL", __func__); return; } if (!(p_rc_open->status == BTA_AV_SUCCESS)) { BTIF_TRACE_ERROR("%s: Connect failed with error code: %d", __func__, p_rc_open->status); p_dev->rc_connected = false; return; } // check if already some RC is connected if (p_dev->rc_connected) { BTIF_TRACE_ERROR( "%s: Got RC OPEN in connected state, Connected RC: %d \ and Current RC: %d", __func__, p_dev->rc_handle, p_rc_open->rc_handle); if (p_dev->rc_handle != p_rc_open->rc_handle && p_dev->rc_addr != p_rc_open->peer_addr) { BTIF_TRACE_DEBUG("%s: Got RC connected for some other handle", __func__); BTA_AvCloseRc(p_rc_open->rc_handle); return; } } p_dev->rc_addr = p_rc_open->peer_addr; p_dev->rc_features = p_rc_open->peer_features; BTIF_TRACE_DEBUG("%s: handle_rc_connect in features: 0x%x out features 0x%x", __func__, p_rc_open->peer_features, p_dev->rc_features); p_dev->rc_cover_art_psm = p_rc_open->cover_art_psm; BTIF_TRACE_DEBUG("%s: cover art psm: 0x%x", __func__, p_dev->rc_cover_art_psm); p_dev->rc_vol_label = MAX_LABEL; p_dev->rc_volume = MAX_VOLUME; p_dev->rc_connected = true; p_dev->rc_handle = p_rc_open->rc_handle; p_dev->rc_state = BTRC_CONNECTION_STATE_CONNECTED; /* on locally initiated connection we will get remote features as part of * connect */ if (p_dev->rc_features != 0 && bt_rc_callbacks != NULL) { handle_rc_features(p_dev); } p_dev->rc_playing_uid = RC_INVALID_TRACK_ID; if (bt_rc_ctrl_callbacks != NULL) { do_in_jni_thread(FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->connection_state_cb, true, false, p_dev->rc_addr)); } /* report connection state if remote device is AVRCP target */ handle_rc_ctrl_features(p_dev); /* report psm if remote device is AVRCP target */ handle_rc_ctrl_psm(p_dev); } /*************************************************************************** * Function handle_rc_disconnect * * - Argument: tBTA_AV_RC_CLOSE RC close data structure * * - Description: RC disconnection event handler * ***************************************************************************/ void handle_rc_disconnect(tBTA_AV_RC_CLOSE* p_rc_close) { btif_rc_device_cb_t* p_dev = NULL; BTIF_TRACE_DEBUG("%s: rc_handle: %d", __func__, p_rc_close->rc_handle); p_dev = btif_rc_get_device_by_handle(p_rc_close->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: Got disconnect from invalid rc handle", __func__); return; } if (p_rc_close->rc_handle != p_dev->rc_handle && p_dev->rc_addr != p_rc_close->peer_addr) { BTIF_TRACE_ERROR("Got disconnect of unknown device"); return; } /* Report connection state if device is AVRCP target */ if (bt_rc_ctrl_callbacks != NULL) { do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->connection_state_cb, false, false, p_dev->rc_addr)); } // We'll re-initialize the device state back to what it looked like before // the connection initialize_device(p_dev); } /*************************************************************************** * Function handle_rc_passthrough_cmd * * - Argument: tBTA_AV_RC rc_id remote control command ID * tBTA_AV_STATE key_state status of key press * * - Description: Remote control command handler * ***************************************************************************/ void handle_rc_passthrough_cmd(tBTA_AV_REMOTE_CMD* p_remote_cmd) { if (p_remote_cmd == NULL) { BTIF_TRACE_ERROR("%s: No remote command!", __func__); return; } btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(p_remote_cmd->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: Got passthrough command from invalid rc handle", __func__); return; } BTIF_TRACE_DEBUG("%s: p_remote_cmd->rc_id: %d", __func__, p_remote_cmd->rc_id); /* If AVRC is open and peer sends PLAY but there is no AVDT, then we queue-up * this PLAY */ if ((p_remote_cmd->rc_id == AVRC_ID_PLAY) && (!btif_av_is_connected())) { if (p_remote_cmd->key_state == AVRC_STATE_PRESS) { APPL_TRACE_WARNING("%s: AVDT not open, queuing the PLAY command", __func__); p_dev->rc_pending_play = true; } return; } /* If we previously queued a play and we get a PAUSE, clear it. */ if ((p_remote_cmd->rc_id == AVRC_ID_PAUSE) && (p_dev->rc_pending_play)) { APPL_TRACE_WARNING("%s: Clear the pending PLAY on PAUSE received", __func__); p_dev->rc_pending_play = false; return; } if ((p_remote_cmd->rc_id == AVRC_ID_STOP) && (!btif_av_stream_started_ready())) { APPL_TRACE_WARNING("%s: Stream suspended, ignore STOP cmd", __func__); return; } int pressed = (p_remote_cmd->key_state == AVRC_STATE_PRESS) ? 1 : 0; /* pass all commands up */ BTIF_TRACE_DEBUG("%s: rc_features: %d, cmd->rc_id: %d, pressed: %d", __func__, p_dev->rc_features, p_remote_cmd->rc_id, pressed); HAL_CBACK(bt_rc_callbacks, passthrough_cmd_cb, p_remote_cmd->rc_id, pressed, p_dev->rc_addr); } /*************************************************************************** * Function handle_rc_passthrough_rsp * * - Argument: tBTA_AV_REMOTE_RSP passthrough command response * * - Description: Remote control passthrough response handler * ***************************************************************************/ void handle_rc_passthrough_rsp(tBTA_AV_REMOTE_RSP* p_remote_rsp) { btif_rc_device_cb_t* p_dev = NULL; p_dev = btif_rc_get_device_by_handle(p_remote_rsp->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: passthrough response for Invalid rc handle", __func__); return; } if (!(p_dev->rc_features & BTA_AV_FEAT_RCTG)) { BTIF_TRACE_ERROR("%s: DUT does not support AVRCP controller role", __func__); return; } const char* status = (p_remote_rsp->key_state == 1) ? "released" : "pressed"; BTIF_TRACE_DEBUG("%s: rc_id: %d state: %s", __func__, p_remote_rsp->rc_id, status); release_transaction(p_dev, p_remote_rsp->label); if (bt_rc_ctrl_callbacks != NULL) { do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->passthrough_rsp_cb, p_dev->rc_addr, p_remote_rsp->rc_id, p_remote_rsp->key_state)); } } /*************************************************************************** * Function handle_rc_vendorunique_rsp * * - Argument: tBTA_AV_REMOTE_RSP command response * * - Description: Remote control vendor unique response handler * ***************************************************************************/ void handle_rc_vendorunique_rsp(tBTA_AV_REMOTE_RSP* p_remote_rsp) { btif_rc_device_cb_t* p_dev = NULL; const char* status; uint8_t vendor_id = 0; p_dev = btif_rc_get_device_by_handle(p_remote_rsp->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: Got vendorunique rsp from invalid rc handle", __func__); return; } if (p_dev->rc_features & BTA_AV_FEAT_RCTG) { int key_state; if (p_remote_rsp->key_state == AVRC_STATE_RELEASE) { status = "released"; key_state = 1; } else { status = "pressed"; key_state = 0; } if (p_remote_rsp->len > 0) { if (p_remote_rsp->len >= AVRC_PASS_THRU_GROUP_LEN) vendor_id = p_remote_rsp->p_data[AVRC_PASS_THRU_GROUP_LEN - 1]; osi_free_and_reset((void**)&p_remote_rsp->p_data); } BTIF_TRACE_DEBUG("%s: vendor_id: %d status: %s", __func__, vendor_id, status); release_transaction(p_dev, p_remote_rsp->label); do_in_jni_thread(FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->groupnavigation_rsp_cb, vendor_id, key_state)); } else { BTIF_TRACE_ERROR("%s: Remote does not support AVRCP TG role", __func__); } } /*************************************************************************** * Function handle_rc_metamsg_cmd * * - Argument: tBTA_AV_VENDOR Structure containing the received * metamsg command * * - Description: Remote control metamsg command handler (AVRCP 1.3) * ***************************************************************************/ void handle_rc_metamsg_cmd(tBTA_AV_META_MSG* pmeta_msg) { /* Parse the metamsg command and pass it on to BTL-IFS */ uint8_t scratch_buf[512] = {0}; tAVRC_COMMAND avrc_command = {0}; tAVRC_STS status; btif_rc_device_cb_t* p_dev = NULL; if (NULL == pmeta_msg) { BTIF_TRACE_EVENT("%s: Exiting as pmeta_msg is NULL", __func__); return; } if (NULL == pmeta_msg->p_msg) { BTIF_TRACE_EVENT("%s: Exiting as pmeta_msg->p_msg is NULL", __func__); return; } BTIF_TRACE_EVENT("%s: pmeta_msg: opcode: %x, code: %x", __func__, pmeta_msg->p_msg->hdr.opcode, pmeta_msg->code); p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: Meta msg event for Invalid rc handle", __func__); return; } if (pmeta_msg->p_msg->hdr.opcode != AVRC_OP_VENDOR && pmeta_msg->p_msg->hdr.opcode != AVRC_OP_BROWSE) { BTIF_TRACE_WARNING("Invalid opcode: %x", pmeta_msg->p_msg->hdr.opcode); return; } if (pmeta_msg->len < 3) { BTIF_TRACE_WARNING("%s: Invalid length. opcode: 0x%x, len: 0x%x", __func__, pmeta_msg->p_msg->hdr.opcode, pmeta_msg->len); return; } if (pmeta_msg->code >= AVRC_RSP_NOT_IMPL) { { rc_transaction_t* transaction = NULL; transaction = get_transaction_by_lbl(p_dev, pmeta_msg->label); if (transaction != NULL) { handle_rc_metamsg_rsp(pmeta_msg, p_dev); } else { BTIF_TRACE_DEBUG( "%s: Discard vendor dependent rsp. code: %d label: %d.", __func__, pmeta_msg->code, pmeta_msg->label); } return; } } status = AVRC_ParsCommand(pmeta_msg->p_msg, &avrc_command, scratch_buf, sizeof(scratch_buf)); BTIF_TRACE_DEBUG("%s: Received vendor command.code,PDU and label: %d, %d, %d", __func__, pmeta_msg->code, avrc_command.cmd.pdu, pmeta_msg->label); if (status != AVRC_STS_NO_ERROR) { /* return error */ BTIF_TRACE_WARNING( "%s: Error in parsing received metamsg command. status: 0x%02x", __func__, status); send_reject_response(pmeta_msg->rc_handle, pmeta_msg->label, avrc_command.pdu, status, pmeta_msg->p_msg->hdr.opcode); } else { /* if RegisterNotification, add it to our registered queue */ if (avrc_command.cmd.pdu == AVRC_PDU_REGISTER_NOTIFICATION) { uint8_t event_id = avrc_command.reg_notif.event_id; BTIF_TRACE_EVENT( "%s: New register notification received.event_id: %s, label: 0x%x, " "code: %x", __func__, dump_rc_notification_event_id(event_id), pmeta_msg->label, pmeta_msg->code); p_dev->rc_notif[event_id - 1].bNotify = true; p_dev->rc_notif[event_id - 1].label = pmeta_msg->label; } BTIF_TRACE_EVENT("%s: Passing received metamsg command to app. pdu: %s", __func__, dump_rc_pdu(avrc_command.cmd.pdu)); /* Since handle_rc_metamsg_cmd() itself is called from *btif context, no context switching is required. Invoke * btif_rc_upstreams_evt directly from here. */ btif_rc_upstreams_evt((uint16_t)avrc_command.cmd.pdu, &avrc_command, pmeta_msg->code, pmeta_msg->label, p_dev); } } /*************************************************************************** ** ** Function btif_rc_handler ** ** Description RC event handler ** ***************************************************************************/ void btif_rc_handler(tBTA_AV_EVT event, tBTA_AV* p_data) { BTIF_TRACE_DEBUG("%s: event: %s", __func__, dump_rc_event(event)); btif_rc_device_cb_t* p_dev = NULL; switch (event) { case BTA_AV_RC_OPEN_EVT: { BTIF_TRACE_DEBUG("%s: Peer_features: 0x%x Cover Art PSM: 0x%x", __func__, p_data->rc_open.peer_features, p_data->rc_open.cover_art_psm); handle_rc_connect(&(p_data->rc_open)); } break; case BTA_AV_RC_BROWSE_OPEN_EVT: { /* tell the UL that we have connection to browse channel and that * browse commands can be directed accordingly. */ handle_rc_browse_connect(&p_data->rc_browse_open); } break; case BTA_AV_RC_CLOSE_EVT: { handle_rc_disconnect(&(p_data->rc_close)); } break; case BTA_AV_RC_BROWSE_CLOSE_EVT: { BTIF_TRACE_DEBUG("%s: BTA_AV_RC_BROWSE_CLOSE_EVT", __func__); } break; case BTA_AV_REMOTE_CMD_EVT: { if (bt_rc_callbacks != NULL) { BTIF_TRACE_DEBUG("%s: rc_id: 0x%x key_state: %d", __func__, p_data->remote_cmd.rc_id, p_data->remote_cmd.key_state); handle_rc_passthrough_cmd((&p_data->remote_cmd)); } else { BTIF_TRACE_ERROR("%s: AVRCP TG role not up, drop passthrough commands", __func__); } } break; case BTA_AV_REMOTE_RSP_EVT: { BTIF_TRACE_DEBUG("%s: RSP: rc_id: 0x%x key_state: %d", __func__, p_data->remote_rsp.rc_id, p_data->remote_rsp.key_state); if (p_data->remote_rsp.rc_id == AVRC_ID_VENDOR) { handle_rc_vendorunique_rsp((&p_data->remote_rsp)); } else { handle_rc_passthrough_rsp((&p_data->remote_rsp)); } } break; case BTA_AV_RC_FEAT_EVT: { BTIF_TRACE_DEBUG("%s: Peer_features: %x", __func__, p_data->rc_feat.peer_features); p_dev = btif_rc_get_device_by_handle(p_data->rc_feat.rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: RC Feature event for Invalid rc handle", __func__); break; } p_dev->rc_features = p_data->rc_feat.peer_features; if (bt_rc_callbacks != NULL) { handle_rc_features(p_dev); } if ((p_dev->rc_connected) && (bt_rc_ctrl_callbacks != NULL)) { handle_rc_ctrl_features(p_dev); } } break; case BTA_AV_RC_PSM_EVT: { BTIF_TRACE_DEBUG("%s: Peer cover art PSM: %x", __func__, p_data->rc_cover_art_psm.cover_art_psm); p_dev = btif_rc_get_device_by_handle(p_data->rc_cover_art_psm.rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: RC PSM event for Invalid rc handle", __func__); break; } p_dev->rc_cover_art_psm = p_data->rc_cover_art_psm.cover_art_psm; if ((p_dev->rc_connected) && (bt_rc_ctrl_callbacks != NULL)) { handle_rc_ctrl_psm(p_dev); } } break; case BTA_AV_META_MSG_EVT: { if (bt_rc_callbacks != NULL) { BTIF_TRACE_DEBUG("%s: BTA_AV_META_MSG_EVT code: %d label: %d", __func__, p_data->meta_msg.code, p_data->meta_msg.label); BTIF_TRACE_DEBUG("%s: company_id: 0x%x len: %d handle: %d", __func__, p_data->meta_msg.company_id, p_data->meta_msg.len, p_data->meta_msg.rc_handle); /* handle the metamsg command */ handle_rc_metamsg_cmd(&(p_data->meta_msg)); /* Free the Memory allocated for tAVRC_MSG */ } else if (bt_rc_ctrl_callbacks != NULL) { /* This is case of Sink + CT + TG(for abs vol)) */ BTIF_TRACE_DEBUG( "%s BTA_AV_META_MSG_EVT code:%d label:%d opcode %d ctype %d", __func__, p_data->meta_msg.code, p_data->meta_msg.label, p_data->meta_msg.p_msg->hdr.opcode, p_data->meta_msg.p_msg->hdr.ctype); BTIF_TRACE_DEBUG("%s company_id:0x%x len:%d handle:%d", __func__, p_data->meta_msg.company_id, p_data->meta_msg.len, p_data->meta_msg.rc_handle); switch (p_data->meta_msg.p_msg->hdr.opcode) { case AVRC_OP_VENDOR: if ((p_data->meta_msg.code >= AVRC_RSP_NOT_IMPL) && (p_data->meta_msg.code <= AVRC_RSP_INTERIM)) { /* Its a response */ handle_avk_rc_metamsg_rsp(&(p_data->meta_msg)); } else if (p_data->meta_msg.code <= AVRC_CMD_GEN_INQ) { /* Its a command */ handle_avk_rc_metamsg_cmd(&(p_data->meta_msg)); } break; case AVRC_OP_BROWSE: if (p_data->meta_msg.p_msg->hdr.ctype == AVRC_CMD) { handle_avk_rc_metamsg_cmd(&(p_data->meta_msg)); } else if (p_data->meta_msg.p_msg->hdr.ctype == AVRC_RSP) { handle_avk_rc_metamsg_rsp(&(p_data->meta_msg)); } break; } } else { BTIF_TRACE_ERROR("Neither CTRL, nor TG is up, drop meta commands"); } } break; default: BTIF_TRACE_DEBUG("%s: Unhandled RC event : 0x%x", __func__, event); } } bool btif_rc_is_connected_peer(const RawAddress& peer_addr) { for (int idx = 0; idx < BTIF_RC_NUM_CONN; idx++) { btif_rc_device_cb_t* p_dev = get_connected_device(idx); if (p_dev != NULL && (p_dev->rc_connected == TRUE) && peer_addr == p_dev->rc_addr) { return true; } } return false; } /*************************************************************************** ** ** Function btif_rc_get_connected_peer_handle ** ** Description Fetches the connected headset's handle if any ** ***************************************************************************/ uint8_t btif_rc_get_connected_peer_handle(const RawAddress& peer_addr) { btif_rc_device_cb_t* p_dev = NULL; p_dev = btif_rc_get_device_by_bda(peer_addr); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return BTRC_HANDLE_NONE; } return p_dev->rc_handle; } /*************************************************************************** ** ** Function btif_rc_check_handle_pending_play ** ** Description Clears the queued PLAY command. if |bSendToApp| is true, ** forwards to app ** ***************************************************************************/ /* clear the queued PLAY command. if |bSendToApp| is true, forward to app */ void btif_rc_check_handle_pending_play(const RawAddress& peer_addr, bool bSendToApp) { btif_rc_device_cb_t* p_dev = NULL; p_dev = btif_rc_get_device_by_bda(peer_addr); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return; } BTIF_TRACE_DEBUG("%s: bSendToApp: %d", __func__, bSendToApp); if (p_dev->rc_pending_play) { if (bSendToApp) { tBTA_AV_REMOTE_CMD remote_cmd; APPL_TRACE_DEBUG("%s: Sending queued PLAYED event to app", __func__); memset(&remote_cmd, 0, sizeof(tBTA_AV_REMOTE_CMD)); remote_cmd.rc_handle = p_dev->rc_handle; remote_cmd.rc_id = AVRC_ID_PLAY; remote_cmd.hdr.ctype = AVRC_CMD_CTRL; remote_cmd.hdr.opcode = AVRC_OP_PASS_THRU; /* delay sending to app, else there is a timing issue in the framework, ** which causes the audio to be on th device's speaker. Delay between ** OPEN & RC_PLAYs */ sleep_ms(200); /* send to app - both PRESSED & RELEASED */ remote_cmd.key_state = AVRC_STATE_PRESS; handle_rc_passthrough_cmd(&remote_cmd); sleep_ms(100); remote_cmd.key_state = AVRC_STATE_RELEASE; handle_rc_passthrough_cmd(&remote_cmd); } p_dev->rc_pending_play = false; } } /* Generic reject response */ static void send_reject_response(uint8_t rc_handle, uint8_t label, uint8_t pdu, uint8_t status, uint8_t opcode) { uint8_t ctype = AVRC_RSP_REJ; tAVRC_RESPONSE avrc_rsp; BT_HDR* p_msg = NULL; memset(&avrc_rsp, 0, sizeof(tAVRC_RESPONSE)); avrc_rsp.rsp.opcode = opcode; avrc_rsp.rsp.pdu = pdu; avrc_rsp.rsp.status = status; status = AVRC_BldResponse(rc_handle, &avrc_rsp, &p_msg); if (status != AVRC_STS_NO_ERROR) { BTIF_TRACE_ERROR("%s: status not AVRC_STS_NO_ERROR", __func__); return; } BTIF_TRACE_DEBUG( "%s: Sending error notification to handle: %d. pdu: %s,status: 0x%02x", __func__, rc_handle, dump_rc_pdu(pdu), status); BTA_AvMetaRsp(rc_handle, label, ctype, p_msg); } /*************************************************************************** * Function get_rsp_type_code * * - Argument: status * - Description: Returns response type codes for particular command code and * status. * ***************************************************************************/ static tBTA_AV_CODE get_rsp_type_code(tAVRC_STS status, tBTA_AV_CODE code) { if (status != AVRC_STS_NO_ERROR) { return AVRC_RSP_REJ; } if (code < AVRC_RSP_NOT_IMPL) { if (code == AVRC_CMD_NOTIF) return AVRC_RSP_INTERIM; if (code == AVRC_CMD_STATUS) return AVRC_RSP_IMPL_STBL; return AVRC_RSP_ACCEPT; } return code; } /*************************************************************************** * Function send_metamsg_rsp * * - Argument: * p_dev Dev pointer * index Command index (= -1 if not used) * label Label of the RC response * code Response type * pmetamsg_resp Vendor response * * - Description: Remote control metamsg response handler * ***************************************************************************/ static void send_metamsg_rsp(btif_rc_device_cb_t* p_dev, int index, uint8_t label, tBTA_AV_CODE code, tAVRC_RESPONSE* pmetamsg_resp) { uint8_t ctype; if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return; } if (pmetamsg_resp == NULL) { BTIF_TRACE_WARNING("%s: Invalid response received from application", __func__); return; } BTIF_TRACE_EVENT( "%s: rc_handle: %d, index: %d, label: %d, code: 0x%02x, pdu: %s", __func__, p_dev->rc_handle, index, label, code, dump_rc_pdu(pmetamsg_resp->rsp.pdu)); if (index >= 0 && !p_dev->rc_pdu_info[index].is_rsp_pending) { BTIF_TRACE_ERROR("%s: is_rsp_pending false, returning", __func__); return; } ctype = get_rsp_type_code(pmetamsg_resp->rsp.status, code); /* if response is for register_notification, make sure the rc has actually registered for this */ if ((pmetamsg_resp->rsp.pdu == AVRC_PDU_REGISTER_NOTIFICATION) && ((code == AVRC_RSP_CHANGED) || (code == AVRC_RSP_INTERIM))) { bool bSent = false; uint8_t event_id = pmetamsg_resp->reg_notif.event_id; bool bNotify = (p_dev->rc_connected) && (p_dev->rc_notif[event_id - 1].bNotify); /* de-register this notification for a CHANGED response */ p_dev->rc_notif[event_id - 1].bNotify = false; BTIF_TRACE_DEBUG("%s: rc_handle: %d. event_id: 0x%02d bNotify: %u", __func__, p_dev->rc_handle, event_id, bNotify); if (bNotify) { BT_HDR* p_msg = NULL; tAVRC_STS status; if (AVRC_STS_NO_ERROR == (status = AVRC_BldResponse( p_dev->rc_handle, pmetamsg_resp, &p_msg))) { BTIF_TRACE_DEBUG( "%s: Sending notification to rc_handle: %d. event_id: 0x%02d", __func__, p_dev->rc_handle, event_id); bSent = true; BTA_AvMetaRsp(p_dev->rc_handle, p_dev->rc_notif[event_id - 1].label, ctype, p_msg); } else { BTIF_TRACE_WARNING( "%s: failed to build metamsg response. status: 0x%02x", __func__, status); } } if (!bSent) { BTIF_TRACE_DEBUG( "%s: Notification not sent, as there are no RC connections or the \ CT has not subscribed for event_id: %s", __func__, dump_rc_notification_event_id(event_id)); } } else { /* All other commands go here */ BT_HDR* p_msg = NULL; tAVRC_STS status; status = AVRC_BldResponse(p_dev->rc_handle, pmetamsg_resp, &p_msg); if (status == AVRC_STS_NO_ERROR) { BTA_AvMetaRsp(p_dev->rc_handle, label, ctype, p_msg); } else { BTIF_TRACE_ERROR("%s: failed to build metamsg response. status: 0x%02x", __func__, status); } } if (index >= 0) { p_dev->rc_pdu_info[index].ctype = 0; p_dev->rc_pdu_info[index].label = 0; p_dev->rc_pdu_info[index].is_rsp_pending = false; } } static uint8_t opcode_from_pdu(uint8_t pdu) { uint8_t opcode = 0; switch (pdu) { case AVRC_PDU_SET_BROWSED_PLAYER: case AVRC_PDU_GET_FOLDER_ITEMS: case AVRC_PDU_CHANGE_PATH: case AVRC_PDU_GET_ITEM_ATTRIBUTES: case AVRC_PDU_ADD_TO_NOW_PLAYING: case AVRC_PDU_SEARCH: case AVRC_PDU_GET_TOTAL_NUM_OF_ITEMS: case AVRC_PDU_GENERAL_REJECT: opcode = AVRC_OP_BROWSE; break; case AVRC_PDU_NEXT_GROUP: case AVRC_PDU_PREV_GROUP: /* pass thru */ opcode = AVRC_OP_PASS_THRU; break; default: /* vendor */ opcode = AVRC_OP_VENDOR; break; } return opcode; } /*************************************************************************** * Function: fill_attribute_id_array * * - Argument: * cmd_attribute_number input attribute number from AVRCP command * cmd_attribute_id_array input attribute list from AVRCP command * out_array_size allocated size of out attribute id array * out_attribute_id_array output attribute list resolved here * * - Description: * Resolve attribute id array as defined by the AVRCP specification. * * - Returns: * The number of attributes filled in * ***************************************************************************/ static uint8_t fill_attribute_id_array( uint8_t cmd_attribute_number, const uint32_t* cmd_attribute_id_array, size_t out_array_size, btrc_media_attr_t* out_attribute_id_array) { /* Default case for cmd_attribute_number == 0xFF, No attribute */ uint8_t out_attribute_number = 0; if (cmd_attribute_number == 0) { /* All attributes */ out_attribute_number = out_array_size < AVRC_MAX_NUM_MEDIA_ATTR_ID ? out_array_size : AVRC_MAX_NUM_MEDIA_ATTR_ID; for (int i = 0; i < out_attribute_number; i++) { out_attribute_id_array[i] = (btrc_media_attr_t)(i + 1); } } else if (cmd_attribute_number != 0xFF) { /* Attribute List */ out_attribute_number = 0; int filled_id_count = 0; for (int i = 0; (i < cmd_attribute_number) && (out_attribute_number < out_array_size) && (out_attribute_number < AVRC_MAX_NUM_MEDIA_ATTR_ID); i++) { /* Fill only valid entries */ if (AVRC_IS_VALID_MEDIA_ATTRIBUTE(cmd_attribute_id_array[i])) { /* Skip the duplicate entries */ for (filled_id_count = 0; filled_id_count < out_attribute_number; filled_id_count++) { if (out_attribute_id_array[filled_id_count] == cmd_attribute_id_array[i]) break; } /* New ID */ if (filled_id_count == out_attribute_number) { out_attribute_id_array[out_attribute_number] = (btrc_media_attr_t)cmd_attribute_id_array[i]; out_attribute_number++; } } } } return out_attribute_number; } /******************************************************************************* * * Function btif_rc_upstreams_evt * * Description Executes AVRC UPSTREAMS events in btif context. * * Returns void * ******************************************************************************/ static void btif_rc_upstreams_evt(uint16_t event, tAVRC_COMMAND* pavrc_cmd, uint8_t ctype, uint8_t label, btif_rc_device_cb_t* p_dev) { BTIF_TRACE_EVENT("%s: pdu: %s handle: 0x%x ctype: %x label: %x event ID: %x", __func__, dump_rc_pdu(pavrc_cmd->pdu), p_dev->rc_handle, ctype, label, pavrc_cmd->reg_notif.event_id); switch (event) { case AVRC_PDU_GET_PLAY_STATUS: { fill_pdu_queue(IDX_GET_PLAY_STATUS_RSP, ctype, label, true, p_dev); HAL_CBACK(bt_rc_callbacks, get_play_status_cb, p_dev->rc_addr); } break; case AVRC_PDU_LIST_PLAYER_APP_ATTR: case AVRC_PDU_LIST_PLAYER_APP_VALUES: case AVRC_PDU_GET_CUR_PLAYER_APP_VALUE: case AVRC_PDU_SET_PLAYER_APP_VALUE: case AVRC_PDU_GET_PLAYER_APP_ATTR_TEXT: case AVRC_PDU_GET_PLAYER_APP_VALUE_TEXT: { /* TODO: Add support for Application Settings */ send_reject_response(p_dev->rc_handle, label, pavrc_cmd->pdu, AVRC_STS_BAD_CMD, pavrc_cmd->cmd.opcode); } break; case AVRC_PDU_GET_ELEMENT_ATTR: { btrc_media_attr_t element_attrs[BTRC_MAX_ELEM_ATTR_SIZE] = {}; uint8_t num_attr = fill_attribute_id_array( pavrc_cmd->get_elem_attrs.num_attr, pavrc_cmd->get_elem_attrs.attrs, BTRC_MAX_ELEM_ATTR_SIZE, element_attrs); if (num_attr == 0) { BTIF_TRACE_ERROR( "%s: No valid attributes requested in GET_ELEMENT_ATTRIBUTES", __func__); send_reject_response(p_dev->rc_handle, label, pavrc_cmd->pdu, AVRC_STS_BAD_PARAM, pavrc_cmd->cmd.opcode); return; } fill_pdu_queue(IDX_GET_ELEMENT_ATTR_RSP, ctype, label, true, p_dev); HAL_CBACK(bt_rc_callbacks, get_element_attr_cb, num_attr, element_attrs, p_dev->rc_addr); } break; case AVRC_PDU_REGISTER_NOTIFICATION: { if (pavrc_cmd->reg_notif.event_id == BTRC_EVT_PLAY_POS_CHANGED && pavrc_cmd->reg_notif.param == 0) { BTIF_TRACE_WARNING( "%s: Device registering position changed with illegal param 0.", __func__); send_reject_response(p_dev->rc_handle, label, pavrc_cmd->pdu, AVRC_STS_BAD_PARAM, pavrc_cmd->cmd.opcode); /* de-register this notification for a rejected response */ p_dev->rc_notif[BTRC_EVT_PLAY_POS_CHANGED - 1].bNotify = false; return; } HAL_CBACK(bt_rc_callbacks, register_notification_cb, (btrc_event_id_t)pavrc_cmd->reg_notif.event_id, pavrc_cmd->reg_notif.param, p_dev->rc_addr); } break; case AVRC_PDU_INFORM_DISPLAY_CHARSET: { tAVRC_RESPONSE avrc_rsp; BTIF_TRACE_EVENT("%s: AVRC_PDU_INFORM_DISPLAY_CHARSET", __func__); if (p_dev->rc_connected) { memset(&(avrc_rsp.inform_charset), 0, sizeof(tAVRC_RSP)); avrc_rsp.inform_charset.opcode = opcode_from_pdu(AVRC_PDU_INFORM_DISPLAY_CHARSET); avrc_rsp.inform_charset.pdu = AVRC_PDU_INFORM_DISPLAY_CHARSET; avrc_rsp.inform_charset.status = AVRC_STS_NO_ERROR; send_metamsg_rsp(p_dev, -1, label, ctype, &avrc_rsp); } } break; case AVRC_PDU_GET_FOLDER_ITEMS: { uint32_t attr_ids[BTRC_MAX_ELEM_ATTR_SIZE] = {0}; uint8_t num_attr; num_attr = pavrc_cmd->get_items.attr_count; BTIF_TRACE_EVENT( "%s: AVRC_PDU_GET_FOLDER_ITEMS num_attr: %d, start_item [%d] \ end_item [%d]", __func__, num_attr, pavrc_cmd->get_items.start_item, pavrc_cmd->get_items.end_item); /* num_attr requested: * 0x00: All attributes requested * 0xFF: No Attributes requested * 0x01 to 0x07: Specified number of attributes */ if ((num_attr != 0xFF && num_attr > BTRC_MAX_ELEM_ATTR_SIZE)) { send_reject_response(p_dev->rc_handle, label, pavrc_cmd->pdu, AVRC_STS_BAD_PARAM, pavrc_cmd->cmd.opcode); return; } /* Except num_attr is None(0xff) / All(0x00), request follows with an * Attribute List */ if ((num_attr != 0xFF) && (num_attr != 0x00)) { memcpy(attr_ids, pavrc_cmd->get_items.p_attr_list, sizeof(uint32_t) * num_attr); } fill_pdu_queue(IDX_GET_FOLDER_ITEMS_RSP, ctype, label, true, p_dev); HAL_CBACK(bt_rc_callbacks, get_folder_items_cb, pavrc_cmd->get_items.scope, pavrc_cmd->get_items.start_item, pavrc_cmd->get_items.end_item, num_attr, attr_ids, p_dev->rc_addr); } break; case AVRC_PDU_SET_ADDRESSED_PLAYER: { fill_pdu_queue(IDX_SET_ADDR_PLAYER_RSP, ctype, label, true, p_dev); HAL_CBACK(bt_rc_callbacks, set_addressed_player_cb, pavrc_cmd->addr_player.player_id, p_dev->rc_addr); } break; case AVRC_PDU_SET_BROWSED_PLAYER: { fill_pdu_queue(IDX_SET_BROWSED_PLAYER_RSP, ctype, label, true, p_dev); HAL_CBACK(bt_rc_callbacks, set_browsed_player_cb, pavrc_cmd->br_player.player_id, p_dev->rc_addr); } break; case AVRC_PDU_REQUEST_CONTINUATION_RSP: { BTIF_TRACE_EVENT("%s() REQUEST CONTINUATION: target_pdu: 0x%02d", __func__, pavrc_cmd->continu.target_pdu); tAVRC_RESPONSE avrc_rsp; if (p_dev->rc_connected == TRUE) { memset(&(avrc_rsp.continu), 0, sizeof(tAVRC_NEXT_RSP)); avrc_rsp.continu.opcode = opcode_from_pdu(AVRC_PDU_REQUEST_CONTINUATION_RSP); avrc_rsp.continu.pdu = AVRC_PDU_REQUEST_CONTINUATION_RSP; avrc_rsp.continu.status = AVRC_STS_NO_ERROR; avrc_rsp.continu.target_pdu = pavrc_cmd->continu.target_pdu; send_metamsg_rsp(p_dev, -1, label, ctype, &avrc_rsp); } } break; case AVRC_PDU_ABORT_CONTINUATION_RSP: { BTIF_TRACE_EVENT("%s() ABORT CONTINUATION: target_pdu: 0x%02d", __func__, pavrc_cmd->abort.target_pdu); tAVRC_RESPONSE avrc_rsp; if (p_dev->rc_connected == TRUE) { memset(&(avrc_rsp.abort), 0, sizeof(tAVRC_NEXT_RSP)); avrc_rsp.abort.opcode = opcode_from_pdu(AVRC_PDU_ABORT_CONTINUATION_RSP); avrc_rsp.abort.pdu = AVRC_PDU_ABORT_CONTINUATION_RSP; avrc_rsp.abort.status = AVRC_STS_NO_ERROR; avrc_rsp.abort.target_pdu = pavrc_cmd->continu.target_pdu; send_metamsg_rsp(p_dev, -1, label, ctype, &avrc_rsp); } } break; case AVRC_PDU_CHANGE_PATH: { fill_pdu_queue(IDX_CHG_PATH_RSP, ctype, label, true, p_dev); HAL_CBACK(bt_rc_callbacks, change_path_cb, pavrc_cmd->chg_path.direction, pavrc_cmd->chg_path.folder_uid, p_dev->rc_addr); } break; case AVRC_PDU_SEARCH: { fill_pdu_queue(IDX_SEARCH_RSP, ctype, label, true, p_dev); HAL_CBACK(bt_rc_callbacks, search_cb, pavrc_cmd->search.string.charset_id, pavrc_cmd->search.string.str_len, pavrc_cmd->search.string.p_str, p_dev->rc_addr); } break; case AVRC_PDU_GET_ITEM_ATTRIBUTES: { btrc_media_attr_t item_attrs[BTRC_MAX_ELEM_ATTR_SIZE] = {}; uint8_t num_attr = fill_attribute_id_array( pavrc_cmd->get_attrs.attr_count, pavrc_cmd->get_attrs.p_attr_list, BTRC_MAX_ELEM_ATTR_SIZE, item_attrs); if (num_attr == 0) { BTIF_TRACE_ERROR( "%s: No valid attributes requested in GET_ITEM_ATTRIBUTES", __func__); send_reject_response(p_dev->rc_handle, label, pavrc_cmd->pdu, AVRC_STS_BAD_PARAM, pavrc_cmd->cmd.opcode); return; } fill_pdu_queue(IDX_GET_ITEM_ATTR_RSP, ctype, label, true, p_dev); BTIF_TRACE_DEBUG("%s: GET_ITEM_ATTRIBUTES: num_attr: %d", __func__, num_attr); HAL_CBACK(bt_rc_callbacks, get_item_attr_cb, pavrc_cmd->get_attrs.scope, pavrc_cmd->get_attrs.uid, pavrc_cmd->get_attrs.uid_counter, num_attr, item_attrs, p_dev->rc_addr); } break; case AVRC_PDU_GET_TOTAL_NUM_OF_ITEMS: { fill_pdu_queue(IDX_GET_TOTAL_NUM_OF_ITEMS_RSP, ctype, label, true, p_dev); HAL_CBACK(bt_rc_callbacks, get_total_num_of_items_cb, pavrc_cmd->get_num_of_items.scope, p_dev->rc_addr); } break; case AVRC_PDU_ADD_TO_NOW_PLAYING: { fill_pdu_queue(IDX_ADD_TO_NOW_PLAYING_RSP, ctype, label, true, p_dev); HAL_CBACK(bt_rc_callbacks, add_to_now_playing_cb, pavrc_cmd->add_to_play.scope, pavrc_cmd->add_to_play.uid, pavrc_cmd->add_to_play.uid_counter, p_dev->rc_addr); } break; case AVRC_PDU_PLAY_ITEM: { fill_pdu_queue(IDX_PLAY_ITEM_RSP, ctype, label, true, p_dev); HAL_CBACK(bt_rc_callbacks, play_item_cb, pavrc_cmd->play_item.scope, pavrc_cmd->play_item.uid_counter, pavrc_cmd->play_item.uid, p_dev->rc_addr); } break; default: { send_reject_response(p_dev->rc_handle, label, pavrc_cmd->pdu, AVRC_STS_BAD_CMD, pavrc_cmd->cmd.opcode); return; } break; } } /******************************************************************************* * * Function btif_rc_ctrl_upstreams_rsp_cmd * * Description Executes AVRC UPSTREAMS response events in btif context. * * Returns void * ******************************************************************************/ static void btif_rc_ctrl_upstreams_rsp_cmd(uint8_t event, tAVRC_COMMAND* pavrc_cmd, uint8_t label, btif_rc_device_cb_t* p_dev) { BTIF_TRACE_DEBUG("%s: pdu: %s: handle: 0x%x", __func__, dump_rc_pdu(pavrc_cmd->pdu), p_dev->rc_handle); switch (event) { case AVRC_PDU_SET_ABSOLUTE_VOLUME: do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->setabsvol_cmd_cb, p_dev->rc_addr, pavrc_cmd->volume.volume, label)); break; case AVRC_PDU_REGISTER_NOTIFICATION: if (pavrc_cmd->reg_notif.event_id == AVRC_EVT_VOLUME_CHANGE) { do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->registernotification_absvol_cb, p_dev->rc_addr, label)); } break; } } /******************************************************************************* * * Function btif_rc_upstreams_rsp_evt * * Description Executes AVRC UPSTREAMS response events in btif context. * * Returns void * ******************************************************************************/ static void btif_rc_upstreams_rsp_evt(uint16_t event, tAVRC_RESPONSE* pavrc_resp, uint8_t ctype, uint8_t label, btif_rc_device_cb_t* p_dev) { BTIF_TRACE_EVENT("%s: pdu: %s: handle: 0x%x ctype: %x label: %x", __func__, dump_rc_pdu(pavrc_resp->pdu), p_dev->rc_handle, ctype, label); switch (event) { case AVRC_PDU_REGISTER_NOTIFICATION: { if (AVRC_RSP_CHANGED == ctype) p_dev->rc_volume = pavrc_resp->reg_notif.param.volume; HAL_CBACK(bt_rc_callbacks, volume_change_cb, pavrc_resp->reg_notif.param.volume, ctype, p_dev->rc_addr); } break; case AVRC_PDU_SET_ABSOLUTE_VOLUME: { BTIF_TRACE_DEBUG( "%s: Set absolute volume change event received: volume: %d, ctype: " "%d", __func__, pavrc_resp->volume.volume, ctype); if (AVRC_RSP_ACCEPT == ctype) p_dev->rc_volume = pavrc_resp->volume.volume; HAL_CBACK(bt_rc_callbacks, volume_change_cb, pavrc_resp->volume.volume, ctype, p_dev->rc_addr); } break; default: return; } } /******************************************************************************* * AVRCP API Functions ******************************************************************************/ /******************************************************************************* * * Function init * * Description Initializes the AVRC interface * * Returns bt_status_t * ******************************************************************************/ static bt_status_t init(btrc_callbacks_t* callbacks) { BTIF_TRACE_EVENT("%s: ", __func__); bt_status_t result = BT_STATUS_SUCCESS; if (bt_rc_callbacks) return BT_STATUS_DONE; bt_rc_callbacks = callbacks; for (int idx = 0; idx < BTIF_RC_NUM_CONN; idx++) { initialize_device(&btif_rc_cb.rc_multi_cb[idx]); } return result; } /******************************************************************************* * * Function init_ctrl * * Description Initializes the AVRC interface * * Returns bt_status_t * ******************************************************************************/ static bt_status_t init_ctrl(btrc_ctrl_callbacks_t* callbacks) { BTIF_TRACE_EVENT("%s: ", __func__); bt_status_t result = BT_STATUS_SUCCESS; if (bt_rc_ctrl_callbacks) return BT_STATUS_DONE; bt_rc_ctrl_callbacks = callbacks; for (int idx = 0; idx < BTIF_RC_NUM_CONN; idx++) { initialize_device(&btif_rc_cb.rc_multi_cb[idx]); } return result; } static void rc_ctrl_procedure_complete(btif_rc_device_cb_t* p_dev) { if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return; } if (p_dev->rc_procedure_complete) { return; } p_dev->rc_procedure_complete = true; const uint32_t* attr_list = get_requested_attributes_list(p_dev); const uint8_t attr_list_size = get_requested_attributes_list_size(p_dev); get_metadata_attribute_cmd(attr_list_size, attr_list, p_dev); } /*************************************************************************** * * Function get_play_status_rsp * * Description Returns the current play status. * This method is called in response to * GetPlayStatus request. * * Returns bt_status_t * **************************************************************************/ static bt_status_t get_play_status_rsp(const RawAddress& bd_addr, btrc_play_status_t play_status, uint32_t song_len, uint32_t song_pos) { tAVRC_RESPONSE avrc_rsp; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); BTIF_TRACE_DEBUG("%s: song len %d song pos %d", __func__, song_len, song_pos); CHECK_RC_CONNECTED(p_dev); memset(&(avrc_rsp.get_play_status), 0, sizeof(tAVRC_GET_PLAY_STATUS_RSP)); avrc_rsp.get_play_status.song_len = song_len; avrc_rsp.get_play_status.song_pos = song_pos; avrc_rsp.get_play_status.play_status = play_status; avrc_rsp.get_play_status.pdu = AVRC_PDU_GET_PLAY_STATUS; avrc_rsp.get_play_status.opcode = opcode_from_pdu(AVRC_PDU_GET_PLAY_STATUS); avrc_rsp.get_play_status.status = ((play_status != BTRC_PLAYSTATE_ERROR) ? AVRC_STS_NO_ERROR : AVRC_STS_BAD_PARAM); /* Send the response */ send_metamsg_rsp(p_dev, IDX_GET_PLAY_STATUS_RSP, p_dev->rc_pdu_info[IDX_GET_PLAY_STATUS_RSP].label, p_dev->rc_pdu_info[IDX_GET_PLAY_STATUS_RSP].ctype, &avrc_rsp); return BT_STATUS_SUCCESS; } /*************************************************************************** * * Function get_element_attr_rsp * * Description Returns the current songs' element attributes * in text. * * Returns bt_status_t * **************************************************************************/ static bt_status_t get_element_attr_rsp(const RawAddress& bd_addr, uint8_t num_attr, btrc_element_attr_val_t* p_attrs) { tAVRC_RESPONSE avrc_rsp; uint32_t i; tAVRC_ATTR_ENTRY element_attrs[BTRC_MAX_ELEM_ATTR_SIZE]; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); BTIF_TRACE_DEBUG("%s", __func__); CHECK_RC_CONNECTED(p_dev); if (num_attr > BTRC_MAX_ELEM_ATTR_SIZE) { LOG(WARNING) << __func__ << " Exceeded number attributes:" << static_cast(num_attr) << " max:" << BTRC_MAX_ELEM_ATTR_SIZE; num_attr = BTRC_MAX_ELEM_ATTR_SIZE; } memset(element_attrs, 0, sizeof(tAVRC_ATTR_ENTRY) * num_attr); if (num_attr == 0) { avrc_rsp.get_play_status.status = AVRC_STS_BAD_PARAM; } else { for (i = 0; i < num_attr; i++) { element_attrs[i].attr_id = p_attrs[i].attr_id; element_attrs[i].name.charset_id = AVRC_CHARSET_ID_UTF8; element_attrs[i].name.str_len = (uint16_t)strnlen((char*)p_attrs[i].text, BTRC_MAX_ATTR_STR_LEN); element_attrs[i].name.p_str = p_attrs[i].text; BTIF_TRACE_DEBUG( "%s: attr_id: 0x%x, charset_id: 0x%x, str_len: %d, str: %s", __func__, (unsigned int)element_attrs[i].attr_id, element_attrs[i].name.charset_id, element_attrs[i].name.str_len, element_attrs[i].name.p_str); } avrc_rsp.get_play_status.status = AVRC_STS_NO_ERROR; } avrc_rsp.get_attrs.num_attrs = num_attr; avrc_rsp.get_attrs.p_attrs = element_attrs; avrc_rsp.get_attrs.pdu = AVRC_PDU_GET_ELEMENT_ATTR; avrc_rsp.get_attrs.opcode = opcode_from_pdu(AVRC_PDU_GET_ELEMENT_ATTR); /* Send the response */ send_metamsg_rsp(p_dev, IDX_GET_ELEMENT_ATTR_RSP, p_dev->rc_pdu_info[IDX_GET_ELEMENT_ATTR_RSP].label, p_dev->rc_pdu_info[IDX_GET_ELEMENT_ATTR_RSP].ctype, &avrc_rsp); return BT_STATUS_SUCCESS; } /*************************************************************************** * * Function register_notification_rsp * * Description Response to the register notification request. * * Returns bt_status_t * **************************************************************************/ static bt_status_t register_notification_rsp( btrc_event_id_t event_id, btrc_notification_type_t type, btrc_register_notification_t* p_param) { tAVRC_RESPONSE avrc_rsp; BTIF_TRACE_EVENT("%s: event_id: %s", __func__, dump_rc_notification_event_id(event_id)); std::unique_lock lock(btif_rc_cb.lock); memset(&(avrc_rsp.reg_notif), 0, sizeof(tAVRC_REG_NOTIF_RSP)); avrc_rsp.reg_notif.event_id = event_id; avrc_rsp.reg_notif.pdu = AVRC_PDU_REGISTER_NOTIFICATION; avrc_rsp.reg_notif.opcode = opcode_from_pdu(AVRC_PDU_REGISTER_NOTIFICATION); avrc_rsp.get_play_status.status = AVRC_STS_NO_ERROR; for (int idx = 0; idx < BTIF_RC_NUM_CONN; idx++) { memset(&(avrc_rsp.reg_notif.param), 0, sizeof(tAVRC_NOTIF_RSP_PARAM)); if (!(btif_rc_cb.rc_multi_cb[idx].rc_connected)) { BTIF_TRACE_ERROR("%s: Avrcp device is not connected, handle: 0x%x", __func__, btif_rc_cb.rc_multi_cb[idx].rc_handle); continue; } if (!btif_rc_cb.rc_multi_cb[idx].rc_notif[event_id - 1].bNotify) { BTIF_TRACE_WARNING( "%s: Avrcp Event id is not registered: event_id: %x, handle: 0x%x", __func__, event_id, btif_rc_cb.rc_multi_cb[idx].rc_handle); continue; } BTIF_TRACE_DEBUG( "%s: Avrcp Event id is registered: event_id: %x handle: 0x%x", __func__, event_id, btif_rc_cb.rc_multi_cb[idx].rc_handle); switch (event_id) { case BTRC_EVT_PLAY_STATUS_CHANGED: avrc_rsp.reg_notif.param.play_status = p_param->play_status; if (avrc_rsp.reg_notif.param.play_status == PLAY_STATUS_PLAYING) btif_av_clear_remote_suspend_flag(); break; case BTRC_EVT_TRACK_CHANGE: memcpy(&(avrc_rsp.reg_notif.param.track), &(p_param->track), sizeof(btrc_uid_t)); break; case BTRC_EVT_PLAY_POS_CHANGED: avrc_rsp.reg_notif.param.play_pos = p_param->song_pos; break; case BTRC_EVT_AVAL_PLAYER_CHANGE: break; case BTRC_EVT_ADDR_PLAYER_CHANGE: avrc_rsp.reg_notif.param.addr_player.player_id = p_param->addr_player_changed.player_id; avrc_rsp.reg_notif.param.addr_player.uid_counter = p_param->addr_player_changed.uid_counter; break; case BTRC_EVT_UIDS_CHANGED: avrc_rsp.reg_notif.param.uid_counter = p_param->uids_changed.uid_counter; break; case BTRC_EVT_NOW_PLAYING_CONTENT_CHANGED: break; default: BTIF_TRACE_WARNING("%s: Unhandled event ID: 0x%x", __func__, event_id); return BT_STATUS_UNHANDLED; } /* Send the response. */ send_metamsg_rsp( &btif_rc_cb.rc_multi_cb[idx], -1, btif_rc_cb.rc_multi_cb[idx].rc_notif[event_id - 1].label, ((type == BTRC_NOTIFICATION_TYPE_INTERIM) ? AVRC_CMD_NOTIF : AVRC_RSP_CHANGED), &avrc_rsp); } return BT_STATUS_SUCCESS; } /*************************************************************************** * * Function get_folder_items_list_rsp * * Description Returns the list of media items in current folder along with * requested attributes. This is called in response to * GetFolderItems request. * * Returns bt_status_t * BT_STATUS_NOT_READY - when RC is not connected. * BT_STATUS_SUCCESS - always if RC is connected * BT_STATUS_UNHANDLED - when rsp is not pending for * get_folder_items_list PDU * **************************************************************************/ static bt_status_t get_folder_items_list_rsp(const RawAddress& bd_addr, btrc_status_t rsp_status, uint16_t uid_counter, uint8_t num_items, btrc_folder_items_t* p_items) { tAVRC_RESPONSE avrc_rsp; tAVRC_ITEM item; tBTA_AV_CODE code = 0, ctype = 0; BT_HDR* p_msg = NULL; int item_cnt; tAVRC_STS status = AVRC_STS_NO_ERROR; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); btrc_folder_items_t* cur_item = NULL; BTIF_TRACE_DEBUG("%s: uid_counter %d num_items %d", __func__, uid_counter, num_items); CHECK_RC_CONNECTED(p_dev); /* check if rsp to previous cmd was completed */ if (!p_dev->rc_pdu_info[IDX_GET_FOLDER_ITEMS_RSP].is_rsp_pending) { BTIF_TRACE_WARNING("%s: Not sending response as no PDU was registered", __func__); return BT_STATUS_UNHANDLED; } memset(&avrc_rsp, 0, sizeof(tAVRC_RESPONSE)); memset(&item, 0, sizeof(tAVRC_ITEM)); avrc_rsp.get_items.pdu = AVRC_PDU_GET_FOLDER_ITEMS; avrc_rsp.get_items.opcode = opcode_from_pdu(AVRC_PDU_GET_FOLDER_ITEMS); avrc_rsp.get_items.status = status_code_map[rsp_status]; if (avrc_rsp.get_items.status != AVRC_STS_NO_ERROR) { BTIF_TRACE_WARNING( "%s: Error in parsing the received getfolderitems cmd. status: 0x%02x", __func__, avrc_rsp.get_items.status); status = avrc_rsp.get_items.status; } else { avrc_rsp.get_items.uid_counter = uid_counter; avrc_rsp.get_items.item_count = 1; /* create single item and build response iteratively for all num_items */ for (item_cnt = 0; item_cnt < num_items; item_cnt++) { cur_item = &p_items[item_cnt]; item.item_type = p_items->item_type; /* build respective item based on item_type. All items should be of same * type within * a response */ switch (p_items->item_type) { case AVRC_ITEM_PLAYER: { item.u.player.name.charset_id = cur_item->player.charset_id; memcpy(&(item.u.player.features), &(cur_item->player.features), sizeof(cur_item->player.features)); item.u.player.major_type = cur_item->player.major_type; item.u.player.sub_type = cur_item->player.sub_type; item.u.player.play_status = cur_item->player.play_status; item.u.player.player_id = cur_item->player.player_id; item.u.player.name.p_str = cur_item->player.name; item.u.player.name.str_len = (uint16_t)strlen((char*)(cur_item->player.name)); } break; case AVRC_ITEM_FOLDER: { memcpy(item.u.folder.uid, cur_item->folder.uid, sizeof(tAVRC_UID)); item.u.folder.type = cur_item->folder.type; item.u.folder.playable = cur_item->folder.playable; item.u.folder.name.charset_id = AVRC_CHARSET_ID_UTF8; item.u.folder.name.str_len = strlen((char*)cur_item->folder.name); item.u.folder.name.p_str = cur_item->folder.name; } break; case AVRC_ITEM_MEDIA: { tAVRC_ATTR_ENTRY attr_vals[BTRC_MAX_ELEM_ATTR_SIZE] = {}; memcpy(item.u.media.uid, cur_item->media.uid, sizeof(tAVRC_UID)); item.u.media.type = cur_item->media.type; item.u.media.name.charset_id = cur_item->media.charset_id; item.u.media.name.str_len = strlen((char*)cur_item->media.name); item.u.media.name.p_str = cur_item->media.name; item.u.media.attr_count = cur_item->media.num_attrs; /* Handle attributes of given item */ if (item.u.media.attr_count == 0) { item.u.media.p_attr_list = NULL; } else { memset(&attr_vals, 0, sizeof(tAVRC_ATTR_ENTRY) * BTRC_MAX_ELEM_ATTR_SIZE); fill_avrc_attr_entry(attr_vals, item.u.media.attr_count, cur_item->media.p_attrs); item.u.media.p_attr_list = attr_vals; } } break; default: { BTIF_TRACE_ERROR("%s: Unknown item_type: %d. Internal Error", __func__, p_items->item_type); status = AVRC_STS_INTERNAL_ERR; } break; } avrc_rsp.get_items.p_item_list = &item; /* Add current item to buffer and build response if no error in item type */ if (status != AVRC_STS_NO_ERROR) { /* Reject response due to error occured for unknown item_type, break the * loop */ break; } int len_before = p_msg ? p_msg->len : 0; BTIF_TRACE_DEBUG("%s: item_cnt: %d len: %d", __func__, item_cnt, len_before); status = AVRC_BldResponse(p_dev->rc_handle, &avrc_rsp, &p_msg); BTIF_TRACE_DEBUG("%s: Build rsp status: %d len: %d", __func__, status, (p_msg ? p_msg->len : 0)); int len_after = p_msg ? p_msg->len : 0; if (status != AVRC_STS_NO_ERROR || len_before == len_after) { /* Error occured in build response or we ran out of buffer so break the * loop */ break; } } /* setting the error status */ avrc_rsp.get_items.status = status; } /* if packet built successfully, send the built items to BTA layer */ if (status == AVRC_STS_NO_ERROR) { code = p_dev->rc_pdu_info[IDX_GET_FOLDER_ITEMS_RSP].ctype; ctype = get_rsp_type_code(avrc_rsp.get_items.status, code); BTA_AvMetaRsp(p_dev->rc_handle, p_dev->rc_pdu_info[IDX_GET_FOLDER_ITEMS_RSP].label, ctype, p_msg); } else /* Error occured, send reject response */ { BTIF_TRACE_ERROR("%s: Error status: 0x%02X. Sending reject rsp", __func__, avrc_rsp.rsp.status); send_reject_response( p_dev->rc_handle, p_dev->rc_pdu_info[IDX_GET_FOLDER_ITEMS_RSP].label, avrc_rsp.pdu, avrc_rsp.get_items.status, avrc_rsp.get_items.opcode); } /* Reset values for current pdu. */ p_dev->rc_pdu_info[IDX_GET_FOLDER_ITEMS_RSP].ctype = 0; p_dev->rc_pdu_info[IDX_GET_FOLDER_ITEMS_RSP].label = 0; p_dev->rc_pdu_info[IDX_GET_FOLDER_ITEMS_RSP].is_rsp_pending = false; return status == AVRC_STS_NO_ERROR ? BT_STATUS_SUCCESS : BT_STATUS_FAIL; } /*************************************************************************** * * Function set_addressed_player_rsp * * Description Response to set the addressed player for specified media * player based on id in the media player list. * * Returns bt_status_t * BT_STATUS_NOT_READY - when RC is not connected. * BT_STATUS_SUCCESS - always if RC is connected * **************************************************************************/ static bt_status_t set_addressed_player_rsp(const RawAddress& bd_addr, btrc_status_t rsp_status) { tAVRC_RESPONSE avrc_rsp; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); BTIF_TRACE_DEBUG("%s", __func__); CHECK_RC_CONNECTED(p_dev); avrc_rsp.addr_player.pdu = AVRC_PDU_SET_ADDRESSED_PLAYER; avrc_rsp.addr_player.opcode = opcode_from_pdu(AVRC_PDU_SET_ADDRESSED_PLAYER); avrc_rsp.addr_player.status = status_code_map[rsp_status]; /* Send the response. */ send_metamsg_rsp(p_dev, IDX_SET_ADDR_PLAYER_RSP, p_dev->rc_pdu_info[IDX_SET_ADDR_PLAYER_RSP].label, p_dev->rc_pdu_info[IDX_SET_ADDR_PLAYER_RSP].ctype, &avrc_rsp); return BT_STATUS_SUCCESS; } /*************************************************************************** * * Function set_browsed_player_rsp * * Description Response to set the browsed player command which contains * current browsed path of the media player. By default, * current_path = root and folder_depth = 0 for * every set_browsed_player request. * * Returns bt_status_t * BT_STATUS_NOT_READY - when RC is not connected. * BT_STATUS_SUCCESS - if RC is connected and reponse * sent successfully * BT_STATUS_UNHANDLED - when rsp is not pending for * set_browsed_player PDU * **************************************************************************/ static bt_status_t set_browsed_player_rsp(const RawAddress& bd_addr, btrc_status_t rsp_status, uint32_t num_items, uint16_t charset_id, uint8_t folder_depth, btrc_br_folder_name_t* p_folders) { tAVRC_RESPONSE avrc_rsp; tAVRC_NAME item; BT_HDR* p_msg = NULL; tBTA_AV_CODE code = 0; tBTA_AV_CODE ctype = 0; unsigned int item_cnt; tAVRC_STS status = AVRC_STS_NO_ERROR; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); CHECK_RC_CONNECTED(p_dev); memset(&avrc_rsp, 0, sizeof(tAVRC_RESPONSE)); memset(&item, 0, sizeof(tAVRC_NAME)); avrc_rsp.br_player.status = status_code_map[rsp_status]; avrc_rsp.br_player.pdu = AVRC_PDU_SET_BROWSED_PLAYER; avrc_rsp.br_player.opcode = opcode_from_pdu(AVRC_PDU_SET_BROWSED_PLAYER); BTIF_TRACE_DEBUG("%s: rsp_status: 0x%02X avrc_rsp.br_player.status: 0x%02X", __func__, rsp_status, avrc_rsp.br_player.status); /* check if rsp to previous cmd was completed */ if (!p_dev->rc_pdu_info[IDX_SET_BROWSED_PLAYER_RSP].is_rsp_pending) { BTIF_TRACE_WARNING("%s: Not sending response as no PDU was registered", __func__); return BT_STATUS_UNHANDLED; } if (AVRC_STS_NO_ERROR == avrc_rsp.get_items.status) { avrc_rsp.br_player.num_items = num_items; avrc_rsp.br_player.charset_id = charset_id; avrc_rsp.br_player.folder_depth = folder_depth; avrc_rsp.br_player.p_folders = (tAVRC_NAME*)p_folders; BTIF_TRACE_DEBUG("%s: folder_depth: 0x%02X num_items: %d", __func__, folder_depth, num_items); if (folder_depth > 0) { /* Iteratively build response for all folders across folder depth upto * current path */ avrc_rsp.br_player.folder_depth = 1; for (item_cnt = 0; item_cnt < folder_depth; item_cnt++) { BTIF_TRACE_DEBUG("%s: iteration: %d", __func__, item_cnt); item.str_len = p_folders[item_cnt].str_len; item.p_str = p_folders[item_cnt].p_str; avrc_rsp.br_player.p_folders = &item; /* Add current item to buffer and build response */ status = AVRC_BldResponse(p_dev->rc_handle, &avrc_rsp, &p_msg); if (AVRC_STS_NO_ERROR != status) { BTIF_TRACE_WARNING("%s: Build rsp status: %d", __func__, status); /* if the build fails, it is likely that we ran out of buffer. so if * we have * some items to send, reset this error to no error for sending what we * have */ if (item_cnt > 0) status = AVRC_STS_NO_ERROR; /* Error occured in build response so break the loop */ break; } } } else /* current path is root folder, no folders navigated yet */ { status = AVRC_BldResponse(p_dev->rc_handle, &avrc_rsp, &p_msg); } /* setting the error status */ avrc_rsp.br_player.status = status; } else /* error received from above layer */ { BTIF_TRACE_WARNING( "%s: Error in parsing the received setbrowsed command. status: 0x%02x", __func__, avrc_rsp.br_player.status); status = avrc_rsp.br_player.status; } /* if packet built successfully, send the built items to BTA layer */ if (status == AVRC_STS_NO_ERROR) { code = p_dev->rc_pdu_info[IDX_SET_BROWSED_PLAYER_RSP].ctype; ctype = get_rsp_type_code(avrc_rsp.br_player.status, code); BTA_AvMetaRsp(p_dev->rc_handle, p_dev->rc_pdu_info[IDX_SET_BROWSED_PLAYER_RSP].label, ctype, p_msg); } else /* Error occured, send reject response */ { BTIF_TRACE_ERROR("%s: Error status: 0x%02X. Sending reject rsp", __func__, avrc_rsp.br_player.status); send_reject_response( p_dev->rc_handle, p_dev->rc_pdu_info[IDX_SET_BROWSED_PLAYER_RSP].label, avrc_rsp.pdu, avrc_rsp.br_player.status, avrc_rsp.get_items.opcode); } /* Reset values for set_browsed_player pdu.*/ p_dev->rc_pdu_info[IDX_SET_BROWSED_PLAYER_RSP].ctype = 0; p_dev->rc_pdu_info[IDX_SET_BROWSED_PLAYER_RSP].label = 0; p_dev->rc_pdu_info[IDX_SET_BROWSED_PLAYER_RSP].is_rsp_pending = false; return status == AVRC_STS_NO_ERROR ? BT_STATUS_SUCCESS : BT_STATUS_FAIL; } /******************************************************************************* * * Function change_path_rsp * * Description Response to the change path command which * contains number of items in the changed path. * * Returns bt_status_t * BT_STATUS_NOT_READY - when RC is not connected. * BT_STATUS_SUCCESS - always if RC is connected * **************************************************************************/ static bt_status_t change_path_rsp(const RawAddress& bd_addr, btrc_status_t rsp_status, uint32_t num_items) { tAVRC_RESPONSE avrc_rsp; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); BTIF_TRACE_DEBUG("%s", __func__); CHECK_RC_CONNECTED(p_dev); avrc_rsp.chg_path.pdu = AVRC_PDU_CHANGE_PATH; avrc_rsp.chg_path.opcode = opcode_from_pdu(AVRC_PDU_CHANGE_PATH); avrc_rsp.chg_path.num_items = num_items; avrc_rsp.chg_path.status = status_code_map[rsp_status]; /* Send the response. */ send_metamsg_rsp(p_dev, IDX_CHG_PATH_RSP, p_dev->rc_pdu_info[IDX_CHG_PATH_RSP].label, p_dev->rc_pdu_info[IDX_CHG_PATH_RSP].ctype, &avrc_rsp); return BT_STATUS_SUCCESS; } /*************************************************************************** * * Function search_rsp * * Description Response to search a string from media content command. * * Returns bt_status_t * BT_STATUS_NOT_READY - when RC is not connected. * BT_STATUS_SUCCESS - always if RC is connected * **************************************************************************/ static bt_status_t search_rsp(const RawAddress& bd_addr, btrc_status_t rsp_status, uint32_t uid_counter, uint32_t num_items) { tAVRC_RESPONSE avrc_rsp; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); BTIF_TRACE_DEBUG("%s", __func__); CHECK_RC_CONNECTED(p_dev); avrc_rsp.search.pdu = AVRC_PDU_SEARCH; avrc_rsp.search.opcode = opcode_from_pdu(AVRC_PDU_SEARCH); avrc_rsp.search.num_items = num_items; avrc_rsp.search.uid_counter = uid_counter; avrc_rsp.search.status = status_code_map[rsp_status]; /* Send the response. */ send_metamsg_rsp(p_dev, IDX_SEARCH_RSP, p_dev->rc_pdu_info[IDX_SEARCH_RSP].label, p_dev->rc_pdu_info[IDX_SEARCH_RSP].ctype, &avrc_rsp); return BT_STATUS_SUCCESS; } /*************************************************************************** * * Function get_item_attr_rsp * * Description Response to the get item's attributes command which * contains number of attributes and values list in text. * * Returns bt_status_t * BT_STATUS_NOT_READY - when RC is not connected. * BT_STATUS_SUCCESS - always if RC is connected * **************************************************************************/ static bt_status_t get_item_attr_rsp(const RawAddress& bd_addr, btrc_status_t rsp_status, uint8_t num_attr, btrc_element_attr_val_t* p_attrs) { tAVRC_RESPONSE avrc_rsp; tAVRC_ATTR_ENTRY item_attrs[BTRC_MAX_ELEM_ATTR_SIZE]; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); BTIF_TRACE_DEBUG("%s", __func__); CHECK_RC_CONNECTED(p_dev); memset(item_attrs, 0, sizeof(tAVRC_ATTR_ENTRY) * num_attr); avrc_rsp.get_attrs.status = status_code_map[rsp_status]; if (rsp_status == BTRC_STS_NO_ERROR) { fill_avrc_attr_entry(item_attrs, num_attr, p_attrs); } avrc_rsp.get_attrs.num_attrs = num_attr; avrc_rsp.get_attrs.p_attrs = item_attrs; avrc_rsp.get_attrs.pdu = AVRC_PDU_GET_ITEM_ATTRIBUTES; avrc_rsp.get_attrs.opcode = opcode_from_pdu(AVRC_PDU_GET_ITEM_ATTRIBUTES); /* Send the response. */ send_metamsg_rsp(p_dev, IDX_GET_ITEM_ATTR_RSP, p_dev->rc_pdu_info[IDX_GET_ITEM_ATTR_RSP].label, p_dev->rc_pdu_info[IDX_GET_ITEM_ATTR_RSP].ctype, &avrc_rsp); return BT_STATUS_SUCCESS; } /*************************************************************************** * * Function add_to_now_playing_rsp * * Description Response to command for adding speciafied media item * to Now Playing queue. * * Returns bt_status_t * BT_STATUS_NOT_READY - when RC is not connected. * BT_STATUS_SUCCESS - always if RC is connected * **************************************************************************/ static bt_status_t add_to_now_playing_rsp(const RawAddress& bd_addr, btrc_status_t rsp_status) { tAVRC_RESPONSE avrc_rsp; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); BTIF_TRACE_DEBUG("%s", __func__); CHECK_RC_CONNECTED(p_dev); avrc_rsp.add_to_play.pdu = AVRC_PDU_ADD_TO_NOW_PLAYING; avrc_rsp.add_to_play.opcode = opcode_from_pdu(AVRC_PDU_ADD_TO_NOW_PLAYING); avrc_rsp.add_to_play.status = status_code_map[rsp_status]; /* Send the response. */ send_metamsg_rsp(p_dev, IDX_ADD_TO_NOW_PLAYING_RSP, p_dev->rc_pdu_info[IDX_ADD_TO_NOW_PLAYING_RSP].label, p_dev->rc_pdu_info[IDX_ADD_TO_NOW_PLAYING_RSP].ctype, &avrc_rsp); return BT_STATUS_SUCCESS; } /*************************************************************************** * * Function play_item_rsp * * Description Response to command for playing the specified media item. * * Returns bt_status_t * BT_STATUS_NOT_READY - when RC is not connected. * BT_STATUS_SUCCESS - always if RC is connected * **************************************************************************/ static bt_status_t play_item_rsp(const RawAddress& bd_addr, btrc_status_t rsp_status) { tAVRC_RESPONSE avrc_rsp; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); BTIF_TRACE_DEBUG("%s", __func__); CHECK_RC_CONNECTED(p_dev); avrc_rsp.play_item.pdu = AVRC_PDU_PLAY_ITEM; avrc_rsp.play_item.opcode = opcode_from_pdu(AVRC_PDU_PLAY_ITEM); avrc_rsp.play_item.status = status_code_map[rsp_status]; /* Send the response. */ send_metamsg_rsp(p_dev, IDX_PLAY_ITEM_RSP, p_dev->rc_pdu_info[IDX_PLAY_ITEM_RSP].label, p_dev->rc_pdu_info[IDX_PLAY_ITEM_RSP].ctype, &avrc_rsp); return BT_STATUS_SUCCESS; } /*************************************************************************** * * Function get_total_num_of_items_rsp * * Description response to command to get the Number of Items * in the selected folder at the selected scope * * Returns bt_status_t * BT_STATUS_NOT_READY - when RC is not connected. * BT_STATUS_SUCCESS - always if RC is connected * **************************************************************************/ static bt_status_t get_total_num_of_items_rsp(const RawAddress& bd_addr, btrc_status_t rsp_status, uint32_t uid_counter, uint32_t num_items) { tAVRC_RESPONSE avrc_rsp; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); BTIF_TRACE_DEBUG("%s", __func__); CHECK_RC_CONNECTED(p_dev); avrc_rsp.get_num_of_items.pdu = AVRC_PDU_GET_TOTAL_NUM_OF_ITEMS; avrc_rsp.get_num_of_items.opcode = opcode_from_pdu(AVRC_PDU_GET_TOTAL_NUM_OF_ITEMS); avrc_rsp.get_num_of_items.num_items = num_items; avrc_rsp.get_num_of_items.uid_counter = uid_counter; avrc_rsp.get_num_of_items.status = status_code_map[rsp_status]; /* Send the response. */ send_metamsg_rsp(p_dev, IDX_GET_TOTAL_NUM_OF_ITEMS_RSP, p_dev->rc_pdu_info[IDX_GET_TOTAL_NUM_OF_ITEMS_RSP].label, p_dev->rc_pdu_info[IDX_GET_TOTAL_NUM_OF_ITEMS_RSP].ctype, &avrc_rsp); return BT_STATUS_SUCCESS; } /*************************************************************************** * * Function set_volume * * Description Send current volume setting to remote side. * Support limited to SetAbsoluteVolume * This can be enhanced to support Relative Volume (AVRCP 1.0). * With RelateVolume, we will send VOLUME_UP/VOLUME_DOWN * as opposed to absolute volume level * volume: Should be in the range 0-127. bit7 is reseved and cannot be set * * Returns bt_status_t * **************************************************************************/ static bt_status_t set_volume(uint8_t volume) { BTIF_TRACE_DEBUG("%s: volume: %d", __func__, volume); tAVRC_STS status = BT_STATUS_UNSUPPORTED; for (int idx = 0; idx < BTIF_RC_NUM_CONN; idx++) { btif_rc_device_cb_t* p_dev = &btif_rc_cb.rc_multi_cb[idx]; if (!p_dev->rc_connected) continue; if (p_dev->rc_volume == volume) { status = BT_STATUS_DONE; BTIF_TRACE_ERROR("%s: volume value already set earlier: 0x%02x", __func__, volume); continue; } if ((p_dev->rc_volume == volume) || p_dev->rc_state != BTRC_CONNECTION_STATE_CONNECTED) { continue; } if ((p_dev->rc_features & BTA_AV_FEAT_RCTG) == 0) { status = BT_STATUS_NOT_READY; continue; } if (!(p_dev->rc_features & BTA_AV_FEAT_ADV_CTRL)) continue; BTIF_TRACE_DEBUG("%s: Peer supports absolute volume. newVolume: %d", __func__, volume); tAVRC_COMMAND avrc_cmd = {.volume = {.pdu = AVRC_PDU_SET_ABSOLUTE_VOLUME, .status = AVRC_STS_NO_ERROR, .opcode = AVRC_OP_VENDOR, .volume = volume}}; BT_HDR* p_msg = NULL; if (AVRC_BldCommand(&avrc_cmd, &p_msg) != AVRC_STS_NO_ERROR) { BTIF_TRACE_ERROR( "%s: failed to build absolute volume command. status: 0x%02x", __func__, status); status = BT_STATUS_FAIL; continue; } rc_transaction_t* p_transaction = NULL; bt_status_t tran_status = get_transaction(p_dev, &p_transaction); if (tran_status != BT_STATUS_SUCCESS || !p_transaction) { osi_free_and_reset((void**)&p_msg); BTIF_TRACE_ERROR( "%s: failed to obtain transaction details. status: 0x%02x", __func__, tran_status); status = BT_STATUS_FAIL; continue; } BTIF_TRACE_DEBUG("%s: msgreq being sent out with label: %d", __func__, p_transaction->lbl); BTA_AvMetaCmd(p_dev->rc_handle, p_transaction->lbl, AVRC_CMD_CTRL, p_msg); status = BT_STATUS_SUCCESS; } return (bt_status_t)status; } /*************************************************************************** * * Function register_volumechange * * Description Register for volume change notification from remote side. * * Returns void * **************************************************************************/ static void register_volumechange(uint8_t lbl, btif_rc_device_cb_t* p_dev) { tAVRC_COMMAND avrc_cmd = {0}; BT_HDR* p_msg = NULL; tAVRC_STS BldResp = AVRC_STS_BAD_CMD; rc_transaction_t* p_transaction = NULL; BTIF_TRACE_DEBUG("%s: label: %d", __func__, lbl); avrc_cmd.cmd.opcode = 0x00; avrc_cmd.pdu = AVRC_PDU_REGISTER_NOTIFICATION; avrc_cmd.reg_notif.event_id = AVRC_EVT_VOLUME_CHANGE; avrc_cmd.reg_notif.status = AVRC_STS_NO_ERROR; avrc_cmd.reg_notif.param = 0; BldResp = AVRC_BldCommand(&avrc_cmd, &p_msg); if (AVRC_STS_NO_ERROR == BldResp && p_msg) { p_transaction = get_transaction_by_lbl(p_dev, lbl); if (p_transaction != NULL) { BTA_AvMetaCmd(p_dev->rc_handle, p_transaction->lbl, AVRC_CMD_NOTIF, p_msg); BTIF_TRACE_DEBUG("%s: BTA_AvMetaCmd called", __func__); } else { osi_free(p_msg); BTIF_TRACE_ERROR("%s: transaction not obtained with label: %d", __func__, lbl); } } else { BTIF_TRACE_ERROR("%s: failed to build command: %d", __func__, BldResp); } } /*************************************************************************** * * Function handle_rc_metamsg_rsp * * Description Handle RC metamessage response * * Returns void * **************************************************************************/ static void handle_rc_metamsg_rsp(tBTA_AV_META_MSG* pmeta_msg, btif_rc_device_cb_t* p_dev) { tAVRC_RESPONSE avrc_response = {0}; uint8_t scratch_buf[512] = {0}; tAVRC_STS status = BT_STATUS_UNSUPPORTED; BTIF_TRACE_DEBUG("%s: ", __func__); if (AVRC_OP_VENDOR == pmeta_msg->p_msg->hdr.opcode && (AVRC_RSP_CHANGED == pmeta_msg->code || AVRC_RSP_INTERIM == pmeta_msg->code || AVRC_RSP_ACCEPT == pmeta_msg->code || AVRC_RSP_REJ == pmeta_msg->code || AVRC_RSP_NOT_IMPL == pmeta_msg->code)) { status = AVRC_ParsResponse(pmeta_msg->p_msg, &avrc_response, scratch_buf, sizeof(scratch_buf)); BTIF_TRACE_DEBUG( "%s: code:%d, event ID: %d, PDU: %x, parsing status: %d, label: %d", __func__, pmeta_msg->code, avrc_response.reg_notif.event_id, avrc_response.reg_notif.pdu, status, pmeta_msg->label); if (status != AVRC_STS_NO_ERROR) { if (AVRC_PDU_REGISTER_NOTIFICATION == avrc_response.rsp.pdu && AVRC_EVT_VOLUME_CHANGE == avrc_response.reg_notif.event_id && p_dev->rc_vol_label == pmeta_msg->label) { p_dev->rc_vol_label = MAX_LABEL; release_transaction(p_dev, p_dev->rc_vol_label); } else if (AVRC_PDU_SET_ABSOLUTE_VOLUME == avrc_response.rsp.pdu) { release_transaction(p_dev, pmeta_msg->label); } return; } if (AVRC_PDU_REGISTER_NOTIFICATION == avrc_response.rsp.pdu && AVRC_EVT_VOLUME_CHANGE == avrc_response.reg_notif.event_id && p_dev->rc_vol_label != pmeta_msg->label) { // Just discard the message, if the device sends back with an incorrect // label BTIF_TRACE_DEBUG( "%s: Discarding register notification in rsp.code: %d and label: %d", __func__, pmeta_msg->code, pmeta_msg->label); return; } if (AVRC_PDU_REGISTER_NOTIFICATION == avrc_response.rsp.pdu && AVRC_EVT_VOLUME_CHANGE == avrc_response.reg_notif.event_id && (AVRC_RSP_REJ == pmeta_msg->code || AVRC_RSP_NOT_IMPL == pmeta_msg->code)) { BTIF_TRACE_DEBUG("%s remove AbsoluteVolume feature flag.", __func__); p_dev->rc_features &= ~BTA_AV_FEAT_ADV_CTRL; handle_rc_features(p_dev); return; } } else { BTIF_TRACE_DEBUG( "%s: Received vendor dependent in adv ctrl rsp. code: %d len: %d. Not " "processing it.", __func__, pmeta_msg->code, pmeta_msg->len); return; } if (AVRC_PDU_REGISTER_NOTIFICATION == avrc_response.rsp.pdu && AVRC_EVT_VOLUME_CHANGE == avrc_response.reg_notif.event_id && AVRC_RSP_CHANGED == pmeta_msg->code) { /* re-register for volume change notification */ // Do not re-register for rejected case, as it might get into endless loop register_volumechange(p_dev->rc_vol_label, p_dev); } else if (AVRC_PDU_SET_ABSOLUTE_VOLUME == avrc_response.rsp.pdu) { /* free up the label here */ release_transaction(p_dev, pmeta_msg->label); } BTIF_TRACE_EVENT("%s: Passing received metamsg response to app. pdu: %s", __func__, dump_rc_pdu(avrc_response.pdu)); btif_rc_upstreams_rsp_evt((uint16_t)avrc_response.rsp.pdu, &avrc_response, pmeta_msg->code, pmeta_msg->label, p_dev); } /*************************************************************************** * * Function iterate_supported_event_list_for_interim_rsp * * Description iterator callback function to match the event and handle * timer cleanup * Returns true to continue iterating, false to stop * **************************************************************************/ bool iterate_supported_event_list_for_interim_rsp(void* data, void* cb_data) { uint8_t* p_event_id; btif_rc_supported_event_t* p_event = (btif_rc_supported_event_t*)data; p_event_id = (uint8_t*)cb_data; if (p_event->event_id == *p_event_id) { p_event->status = eINTERIM; return false; } return true; } /*************************************************************************** * * Function iterate_supported_event_list_for_timeout * * Description Iterator callback function for timeout handling. * As part of the failure handling, it releases the * transaction label and removes the event from list, * this event will not be requested again during * the lifetime of the connection. * Returns false to stop iterating, true to continue * **************************************************************************/ bool iterate_supported_event_list_for_timeout(void* data, void* cb_data) { rc_context_t* cntxt = (rc_context_t*)cb_data; uint8_t label = cntxt->label & 0xFF; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(cntxt->rc_addr); btif_rc_supported_event_t* p_event = (btif_rc_supported_event_t*)data; if (p_event->label == label) { list_remove(p_dev->rc_supported_event_list, p_event); return false; } return true; } /*************************************************************************** * * Function rc_notification_interim_timout * * Description Interim response timeout handler. * Runs the iterator to check and clear the timed out event. * Proceeds to register for the unregistered events. * Returns None * **************************************************************************/ static void rc_notification_interim_timout(uint8_t label, btif_rc_device_cb_t* p_dev) { /* Device disconnections clear the event list but can't free the timer */ if (p_dev == NULL || p_dev->rc_supported_event_list) { BTIF_TRACE_WARNING("%s: timeout for null device or event list", __func__); return; } list_node_t* node; rc_context_t cntxt; memset(&cntxt, 0, sizeof(rc_context_t)); cntxt.label = label; cntxt.rc_addr = p_dev->rc_addr; list_foreach(p_dev->rc_supported_event_list, iterate_supported_event_list_for_timeout, &cntxt); /* Timeout happened for interim response for the registered event, * check if there are any pending for registration */ node = list_begin(p_dev->rc_supported_event_list); while (node != NULL) { btif_rc_supported_event_t* p_event; p_event = (btif_rc_supported_event_t*)list_node(node); if ((p_event != NULL) && (p_event->status == eNOT_REGISTERED)) { register_for_event_notification(p_event, p_dev); break; } node = list_next(node); } /* Todo. Need to initiate application settings query if this * is the last event registration. */ } /*************************************************************************** * * Function btif_rc_status_cmd_timeout_handler * * Description RC status command timeout handler (Runs in BTIF context). * Returns None * **************************************************************************/ static void btif_rc_status_cmd_timeout_handler(UNUSED_ATTR uint16_t event, char* data) { btif_rc_timer_context_t* p_context; tAVRC_RESPONSE avrc_response = {0}; tBTA_AV_META_MSG meta_msg; btif_rc_device_cb_t* p_dev = NULL; p_context = (btif_rc_timer_context_t*)data; memset(&meta_msg, 0, sizeof(tBTA_AV_META_MSG)); p_dev = btif_rc_get_device_by_bda(p_context->rc_addr); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return; } meta_msg.rc_handle = p_dev->rc_handle; switch (p_context->rc_status_cmd.pdu_id) { case AVRC_PDU_REGISTER_NOTIFICATION: rc_notification_interim_timout(p_context->rc_status_cmd.label, p_dev); break; case AVRC_PDU_GET_CAPABILITIES: avrc_response.get_caps.status = BTIF_RC_STS_TIMEOUT; handle_get_capability_response(&meta_msg, &avrc_response.get_caps); break; case AVRC_PDU_LIST_PLAYER_APP_ATTR: avrc_response.list_app_attr.status = BTIF_RC_STS_TIMEOUT; handle_app_attr_response(&meta_msg, &avrc_response.list_app_attr); break; case AVRC_PDU_LIST_PLAYER_APP_VALUES: avrc_response.list_app_values.status = BTIF_RC_STS_TIMEOUT; handle_app_val_response(&meta_msg, &avrc_response.list_app_values); break; case AVRC_PDU_GET_CUR_PLAYER_APP_VALUE: avrc_response.get_cur_app_val.status = BTIF_RC_STS_TIMEOUT; handle_app_cur_val_response(&meta_msg, &avrc_response.get_cur_app_val); break; case AVRC_PDU_GET_PLAYER_APP_ATTR_TEXT: avrc_response.get_app_attr_txt.status = BTIF_RC_STS_TIMEOUT; handle_app_attr_txt_response(&meta_msg, &avrc_response.get_app_attr_txt); break; case AVRC_PDU_GET_PLAYER_APP_VALUE_TEXT: avrc_response.get_app_val_txt.status = BTIF_RC_STS_TIMEOUT; handle_app_attr_txt_response(&meta_msg, &avrc_response.get_app_val_txt); break; case AVRC_PDU_GET_ELEMENT_ATTR: avrc_response.get_attrs.status = BTIF_RC_STS_TIMEOUT; handle_get_metadata_attr_response(&meta_msg, &avrc_response.get_attrs); break; case AVRC_PDU_GET_PLAY_STATUS: avrc_response.get_play_status.status = BTIF_RC_STS_TIMEOUT; handle_get_playstatus_response(&meta_msg, &avrc_response.get_play_status); break; } release_transaction(p_dev, p_context->rc_status_cmd.label); } /*************************************************************************** * * Function btif_rc_status_cmd_timer_timeout * * Description RC status command timeout callback. * This is called from BTU context and switches to BTIF * context to handle the timeout events * Returns None * **************************************************************************/ static void btif_rc_status_cmd_timer_timeout(void* data) { btif_rc_timer_context_t* p_data = (btif_rc_timer_context_t*)data; btif_transfer_context(btif_rc_status_cmd_timeout_handler, 0, (char*)p_data, sizeof(btif_rc_timer_context_t), NULL); } /*************************************************************************** * * Function btif_rc_control_cmd_timeout_handler * * Description RC control command timeout handler (Runs in BTIF context). * Returns None * **************************************************************************/ static void btif_rc_control_cmd_timeout_handler(UNUSED_ATTR uint16_t event, char* data) { btif_rc_timer_context_t* p_context = (btif_rc_timer_context_t*)data; tAVRC_RESPONSE avrc_response = {0}; tBTA_AV_META_MSG meta_msg; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(p_context->rc_addr); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return; } memset(&meta_msg, 0, sizeof(tBTA_AV_META_MSG)); meta_msg.rc_handle = p_dev->rc_handle; switch (p_context->rc_control_cmd.pdu_id) { case AVRC_PDU_SET_PLAYER_APP_VALUE: avrc_response.set_app_val.status = BTIF_RC_STS_TIMEOUT; handle_set_app_attr_val_response(&meta_msg, &avrc_response.set_app_val); break; } release_transaction(p_dev, p_context->rc_control_cmd.label); } /*************************************************************************** * * Function btif_rc_control_cmd_timer_timeout * * Description RC control command timeout callback. * This is called from BTU context and switches to BTIF * context to handle the timeout events * Returns None * **************************************************************************/ static void btif_rc_control_cmd_timer_timeout(void* data) { btif_rc_timer_context_t* p_data = (btif_rc_timer_context_t*)data; btif_transfer_context(btif_rc_control_cmd_timeout_handler, 0, (char*)p_data, sizeof(btif_rc_timer_context_t), NULL); } /*************************************************************************** * * Function register_for_event_notification * * Description Helper function registering notification events * sets an interim response timeout to handle if the remote * does not respond. * Returns None * **************************************************************************/ static void register_for_event_notification(btif_rc_supported_event_t* p_event, btif_rc_device_cb_t* p_dev) { rc_transaction_t* p_transaction = NULL; bt_status_t status = get_transaction(p_dev, &p_transaction); if (status != BT_STATUS_SUCCESS) { BTIF_TRACE_ERROR("%s: no more transaction labels: %d", __func__, status); return; } // interval is only valid for AVRC_EVT_PLAY_POS_CHANGED uint32_t interval_in_seconds = 0; if (p_event->event_id == AVRC_EVT_PLAY_POS_CHANGED) { interval_in_seconds = 2; } status = register_notification_cmd(p_transaction->lbl, p_event->event_id, interval_in_seconds, p_dev); if (status != BT_STATUS_SUCCESS) { BTIF_TRACE_ERROR("%s: Error in Notification registration: %d", __func__, status); release_transaction(p_dev, p_transaction->lbl); return; } btif_rc_timer_context_t* p_context = &p_transaction->txn_timer_context; p_event->label = p_transaction->lbl; p_event->status = eREGISTERED; p_context->rc_status_cmd.label = p_transaction->lbl; p_context->rc_status_cmd.pdu_id = AVRC_PDU_REGISTER_NOTIFICATION; p_context->rc_addr = p_dev->rc_addr; alarm_free(p_transaction->txn_timer); p_transaction->txn_timer = alarm_new("btif_rc.status_command_txn_timer"); alarm_set_on_mloop(p_transaction->txn_timer, BTIF_TIMEOUT_RC_INTERIM_RSP_MS, btif_rc_status_cmd_timer_timeout, p_context); } static void start_status_command_timer(uint8_t pdu_id, rc_transaction_t* p_txn, btif_rc_device_cb_t* p_dev) { btif_rc_timer_context_t* p_context = &p_txn->txn_timer_context; p_context->rc_status_cmd.label = p_txn->lbl; p_context->rc_status_cmd.pdu_id = pdu_id; p_context->rc_addr = p_dev->rc_addr; alarm_free(p_txn->txn_timer); p_txn->txn_timer = alarm_new("btif_rc.status_command_txn_timer"); alarm_set_on_mloop(p_txn->txn_timer, BTIF_TIMEOUT_RC_STATUS_CMD_MS, btif_rc_status_cmd_timer_timeout, p_context); } static void start_control_command_timer(uint8_t pdu_id, rc_transaction_t* p_txn, btif_rc_device_cb_t* p_dev) { btif_rc_timer_context_t* p_context = &p_txn->txn_timer_context; p_context->rc_control_cmd.label = p_txn->lbl; p_context->rc_control_cmd.pdu_id = pdu_id; p_context->rc_addr = p_dev->rc_addr; alarm_free(p_txn->txn_timer); p_txn->txn_timer = alarm_new("btif_rc.control_command_txn_timer"); alarm_set_on_mloop(p_txn->txn_timer, BTIF_TIMEOUT_RC_CONTROL_CMD_MS, btif_rc_control_cmd_timer_timeout, p_context); } bt_status_t build_and_send_vendor_cmd(tAVRC_COMMAND* avrc_cmd, tBTA_AV_CODE cmd_code, btif_rc_device_cb_t* p_dev) { rc_transaction_t* p_transaction = NULL; bt_status_t tran_status = get_transaction(p_dev, &p_transaction); if (BT_STATUS_SUCCESS != tran_status) return BT_STATUS_FAIL; BT_HDR* p_msg = NULL; tAVRC_STS status = AVRC_BldCommand(avrc_cmd, &p_msg); if (status == AVRC_STS_NO_ERROR && p_msg != NULL) { uint8_t* data_start = (uint8_t*)(p_msg + 1) + p_msg->offset; BTIF_TRACE_DEBUG("%s: %s msgreq being sent out with label: %d", __func__, dump_rc_pdu(avrc_cmd->pdu), p_transaction->lbl); BTA_AvVendorCmd(p_dev->rc_handle, p_transaction->lbl, cmd_code, data_start, p_msg->len); status = BT_STATUS_SUCCESS; if (cmd_code == AVRC_CMD_STATUS) { start_status_command_timer(avrc_cmd->pdu, p_transaction, p_dev); } else if (cmd_code == AVRC_CMD_CTRL) { start_control_command_timer(avrc_cmd->pdu, p_transaction, p_dev); } } else { BTIF_TRACE_ERROR("%s: failed to build command. status: 0x%02x", __func__, status); } osi_free(p_msg); return (bt_status_t)status; } /*************************************************************************** * * Function send_browsing_command * * Description Send a command to a device on the browsing channel * * Parameters avrc_cmd: The command you're sending * p_dev: Device control block * * Returns BT_STATUS_SUCCESS if command is issued successfully * otherwise BT_STATUS_FAIL * **************************************************************************/ static bt_status_t build_and_send_browsing_cmd(tAVRC_COMMAND* avrc_cmd, btif_rc_device_cb_t* p_dev) { BT_HDR* p_msg = NULL; tAVRC_STS status = AVRC_BldCommand(avrc_cmd, &p_msg); if (status != AVRC_STS_NO_ERROR) { BTIF_TRACE_ERROR("%s: failed to build command status %d", __func__, status); return BT_STATUS_FAIL; } rc_transaction_t* p_transaction = NULL; bt_status_t tran_status = get_transaction(p_dev, &p_transaction); if (tran_status != BT_STATUS_SUCCESS || p_transaction == NULL) { osi_free(p_msg); BTIF_TRACE_ERROR("%s: failed to obtain txn details. status: 0x%02x", __func__, tran_status); return BT_STATUS_FAIL; } BTIF_TRACE_DEBUG("%s msgreq being sent out with label %d", __func__, p_transaction->lbl); BTA_AvMetaCmd(p_dev->rc_handle, p_transaction->lbl, AVRC_CMD_CTRL, p_msg); return BT_STATUS_SUCCESS; } /*************************************************************************** * * Function handle_get_capability_response * * Description Handles the get_cap_response to populate company id info * and query the supported events. * Initiates Notification registration for events supported * Returns None * **************************************************************************/ static void handle_get_capability_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_CAPS_RSP* p_rsp) { int xx = 0; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); /* Todo: Do we need to retry on command timeout */ if (p_rsp->status != AVRC_STS_NO_ERROR) { BTIF_TRACE_ERROR("%s: Error capability response: 0x%02X", __func__, p_rsp->status); return; } if (p_rsp->capability_id == AVRC_CAP_EVENTS_SUPPORTED) { btif_rc_supported_event_t* p_event; /* Todo: Check if list can be active when we hit here */ p_dev->rc_supported_event_list = list_new(osi_free); for (xx = 0; xx < p_rsp->count; xx++) { /* Skip registering for Play position change notification */ if ((p_rsp->param.event_id[xx] == AVRC_EVT_PLAY_STATUS_CHANGE) || (p_rsp->param.event_id[xx] == AVRC_EVT_TRACK_CHANGE) || (p_rsp->param.event_id[xx] == AVRC_EVT_PLAY_POS_CHANGED) || (p_rsp->param.event_id[xx] == AVRC_EVT_APP_SETTING_CHANGE) || (p_rsp->param.event_id[xx] == AVRC_EVT_NOW_PLAYING_CHANGE) || (p_rsp->param.event_id[xx] == AVRC_EVT_ADDR_PLAYER_CHANGE) || (p_rsp->param.event_id[xx] == AVRC_EVT_UIDS_CHANGE) || (p_rsp->param.event_id[xx] == AVRC_EVT_AVAL_PLAYERS_CHANGE)) { p_event = (btif_rc_supported_event_t*)osi_malloc( sizeof(btif_rc_supported_event_t)); p_event->event_id = p_rsp->param.event_id[xx]; p_event->status = eNOT_REGISTERED; list_append(p_dev->rc_supported_event_list, p_event); } } // On occasion a remote device can intermittently send a poorly configured // packet with 0 capabilities. This check ensures the stack does not crash. // Typically the remote device will send a proper packet in the future and // continue operation. if (list_is_empty(p_dev->rc_supported_event_list)) { return; } p_event = (btif_rc_supported_event_t*)list_front(p_dev->rc_supported_event_list); if (p_event != NULL) { register_for_event_notification(p_event, p_dev); } } else if (p_rsp->capability_id == AVRC_CAP_COMPANY_ID) { getcapabilities_cmd(AVRC_CAP_EVENTS_SUPPORTED, p_dev); BTIF_TRACE_EVENT("%s: AVRC_CAP_COMPANY_ID: ", __func__); for (xx = 0; xx < p_rsp->count; xx++) { BTIF_TRACE_EVENT("%s: company_id: %d", __func__, p_rsp->param.company_id[xx]); } } } bool rc_is_track_id_valid(tAVRC_UID uid) { tAVRC_UID invalid_uid = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}; if (memcmp(uid, invalid_uid, sizeof(tAVRC_UID)) == 0) { return false; } else { return true; } } /*************************************************************************** * * Function handle_notification_response * * Description Main handler for notification responses to registered events * 1. Register for unregistered event(in interim response path) * 2. After registering for all supported events, start * retrieving application settings and values * 3. Reregister for events on getting changed response * 4. Run play status timer for getting position when the * status changes to playing * 5. Get the Media details when the track change happens * or track change interim response is received with * valid track id * 6. HAL callback for play status change and application * setting change * Returns None * **************************************************************************/ static void handle_notification_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_REG_NOTIF_RSP* p_rsp) { btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return; } const uint32_t* attr_list = get_requested_attributes_list(p_dev); const uint8_t attr_list_size = get_requested_attributes_list_size(p_dev); if (pmeta_msg->code == AVRC_RSP_INTERIM) { btif_rc_supported_event_t* p_event; list_node_t* node; BTIF_TRACE_DEBUG("%s: Interim response: 0x%2X ", __func__, p_rsp->event_id); switch (p_rsp->event_id) { case AVRC_EVT_PLAY_STATUS_CHANGE: get_play_status_cmd(p_dev); do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->play_status_changed_cb, p_dev->rc_addr, (btrc_play_status_t)p_rsp->param.play_status)); break; case AVRC_EVT_TRACK_CHANGE: if (rc_is_track_id_valid(p_rsp->param.track) != true) { break; } else { uint8_t* p_data = p_rsp->param.track; BE_STREAM_TO_UINT64(p_dev->rc_playing_uid, p_data); get_play_status_cmd(p_dev); get_metadata_attribute_cmd(attr_list_size, attr_list, p_dev); } break; case AVRC_EVT_APP_SETTING_CHANGE: break; case AVRC_EVT_NOW_PLAYING_CHANGE: do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->now_playing_contents_changed_cb, p_dev->rc_addr)); break; case AVRC_EVT_AVAL_PLAYERS_CHANGE: BTIF_TRACE_DEBUG("%s: AVRC_EVT_AVAL_PLAYERS_CHANGE", __func__); do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->available_player_changed_cb, p_dev->rc_addr)); break; case AVRC_EVT_ADDR_PLAYER_CHANGE: do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->addressed_player_changed_cb, p_dev->rc_addr, p_rsp->param.addr_player.player_id)); break; case AVRC_EVT_PLAY_POS_CHANGED: do_in_jni_thread(FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->play_position_changed_cb, p_dev->rc_addr, 0, p_rsp->param.play_pos)); break; case AVRC_EVT_UIDS_CHANGE: break; case AVRC_EVT_TRACK_REACHED_END: case AVRC_EVT_TRACK_REACHED_START: case AVRC_EVT_BATTERY_STATUS_CHANGE: case AVRC_EVT_SYSTEM_STATUS_CHANGE: default: BTIF_TRACE_ERROR("%s: Unhandled interim response: 0x%2X", __func__, p_rsp->event_id); return; } list_foreach(p_dev->rc_supported_event_list, iterate_supported_event_list_for_interim_rsp, &p_rsp->event_id); node = list_begin(p_dev->rc_supported_event_list); while (node != NULL) { p_event = (btif_rc_supported_event_t*)list_node(node); if ((p_event != NULL) && (p_event->status == eNOT_REGISTERED)) { register_for_event_notification(p_event, p_dev); break; } node = list_next(node); p_event = NULL; } /* Registered for all events, we can request application settings */ if (p_event == NULL && !p_dev->rc_app_settings.query_started) { /* we need to do this only if remote TG supports * player application settings */ p_dev->rc_app_settings.query_started = true; if (p_dev->rc_features & BTA_AV_FEAT_APP_SETTING) { list_player_app_setting_attrib_cmd(p_dev); } else { BTIF_TRACE_DEBUG("%s: App setting not supported, complete procedure", __func__); rc_ctrl_procedure_complete(p_dev); } } } else if (pmeta_msg->code == AVRC_RSP_CHANGED) { btif_rc_supported_event_t* p_event; list_node_t* node; BTIF_TRACE_DEBUG("%s: Notification completed: 0x%2X ", __func__, p_rsp->event_id); node = list_begin(p_dev->rc_supported_event_list); while (node != NULL) { p_event = (btif_rc_supported_event_t*)list_node(node); if (p_event != NULL && p_event->event_id == p_rsp->event_id) { p_event->status = eNOT_REGISTERED; register_for_event_notification(p_event, p_dev); break; } node = list_next(node); } switch (p_rsp->event_id) { case AVRC_EVT_PLAY_STATUS_CHANGE: /* Start timer to get play status periodically * if the play state is playing. */ do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->play_status_changed_cb, p_dev->rc_addr, (btrc_play_status_t)p_rsp->param.play_status)); break; case AVRC_EVT_TRACK_CHANGE: if (rc_is_track_id_valid(p_rsp->param.track) != true) { break; } get_metadata_attribute_cmd(attr_list_size, attr_list, p_dev); break; case AVRC_EVT_APP_SETTING_CHANGE: { btrc_player_settings_t app_settings; uint16_t xx; app_settings.num_attr = p_rsp->param.player_setting.num_attr; for (xx = 0; xx < app_settings.num_attr; xx++) { app_settings.attr_ids[xx] = p_rsp->param.player_setting.attr_id[xx]; app_settings.attr_values[xx] = p_rsp->param.player_setting.attr_value[xx]; } do_in_jni_thread( FROM_HERE, base::Bind( bt_rc_ctrl_callbacks->playerapplicationsetting_changed_cb, p_dev->rc_addr, app_settings)); } break; case AVRC_EVT_NOW_PLAYING_CHANGE: break; case AVRC_EVT_AVAL_PLAYERS_CHANGE: break; case AVRC_EVT_ADDR_PLAYER_CHANGE: break; case AVRC_EVT_PLAY_POS_CHANGED: // handle on interim break; case AVRC_EVT_UIDS_CHANGE: break; case AVRC_EVT_TRACK_REACHED_END: case AVRC_EVT_TRACK_REACHED_START: case AVRC_EVT_BATTERY_STATUS_CHANGE: case AVRC_EVT_SYSTEM_STATUS_CHANGE: default: BTIF_TRACE_ERROR("%s: Unhandled completion response: 0x%2X", __func__, p_rsp->event_id); return; } } } /*************************************************************************** * * Function handle_app_attr_response * * Description handles the the application attributes response and * initiates procedure to fetch the attribute values * Returns None * **************************************************************************/ static void handle_app_attr_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_LIST_APP_ATTR_RSP* p_rsp) { uint8_t xx; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_dev == NULL || p_rsp->status != AVRC_STS_NO_ERROR) { BTIF_TRACE_ERROR("%s: Error getting Player application settings: 0x%2X", __func__, p_rsp->status); rc_ctrl_procedure_complete(p_dev); return; } p_dev->rc_app_settings.num_attrs = 0; p_dev->rc_app_settings.num_ext_attrs = 0; for (xx = 0; xx < p_rsp->num_attr; xx++) { uint8_t st_index; if (p_rsp->attrs[xx] > AVRC_PLAYER_SETTING_LOW_MENU_EXT) { st_index = p_dev->rc_app_settings.num_ext_attrs; p_dev->rc_app_settings.ext_attrs[st_index].attr_id = p_rsp->attrs[xx]; p_dev->rc_app_settings.num_ext_attrs++; } else { st_index = p_dev->rc_app_settings.num_attrs; p_dev->rc_app_settings.attrs[st_index].attr_id = p_rsp->attrs[xx]; p_dev->rc_app_settings.num_attrs++; } } p_dev->rc_app_settings.attr_index = 0; p_dev->rc_app_settings.ext_attr_index = 0; p_dev->rc_app_settings.ext_val_index = 0; if (p_rsp->num_attr) { list_player_app_setting_value_cmd(p_dev->rc_app_settings.attrs[0].attr_id, p_dev); } else { BTIF_TRACE_ERROR("%s: No Player application settings found", __func__); } } /*************************************************************************** * * Function handle_app_val_response * * Description handles the the attributes value response and if extended * menu is available, it initiates query for the attribute * text. If not, it initiates procedure to get the current * attribute values and calls the HAL callback for provding * application settings information. * Returns None * **************************************************************************/ static void handle_app_val_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_LIST_APP_VALUES_RSP* p_rsp) { uint8_t xx, attr_index; uint8_t attrs[AVRC_MAX_APP_ATTR_SIZE]; btif_rc_player_app_settings_t* p_app_settings; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); /* Todo: Do we need to retry on command timeout */ if (p_dev == NULL || p_rsp->status != AVRC_STS_NO_ERROR) { BTIF_TRACE_ERROR("%s: Error fetching attribute values: 0x%02X", __func__, p_rsp->status); return; } p_app_settings = &p_dev->rc_app_settings; if (p_app_settings->attr_index < p_app_settings->num_attrs) { attr_index = p_app_settings->attr_index; p_app_settings->attrs[attr_index].num_val = p_rsp->num_val; for (xx = 0; xx < p_rsp->num_val; xx++) { p_app_settings->attrs[attr_index].attr_val[xx] = p_rsp->vals[xx]; } attr_index++; p_app_settings->attr_index++; if (attr_index < p_app_settings->num_attrs) { list_player_app_setting_value_cmd( p_app_settings->attrs[p_app_settings->attr_index].attr_id, p_dev); } else if (p_app_settings->ext_attr_index < p_app_settings->num_ext_attrs) { attr_index = 0; p_app_settings->ext_attr_index = 0; list_player_app_setting_value_cmd( p_app_settings->ext_attrs[attr_index].attr_id, p_dev); } else { for (xx = 0; xx < p_app_settings->num_attrs; xx++) { attrs[xx] = p_app_settings->attrs[xx].attr_id; } get_player_app_setting_cmd(p_app_settings->num_attrs, attrs, p_dev); do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->playerapplicationsetting_cb, p_dev->rc_addr, p_app_settings->num_attrs, p_app_settings->attrs, 0, nullptr)); } } else if (p_app_settings->ext_attr_index < p_app_settings->num_ext_attrs) { attr_index = p_app_settings->ext_attr_index; p_app_settings->ext_attrs[attr_index].num_val = p_rsp->num_val; for (xx = 0; xx < p_rsp->num_val; xx++) { p_app_settings->ext_attrs[attr_index].ext_attr_val[xx].val = p_rsp->vals[xx]; } attr_index++; p_app_settings->ext_attr_index++; if (attr_index < p_app_settings->num_ext_attrs) { list_player_app_setting_value_cmd( p_app_settings->ext_attrs[p_app_settings->ext_attr_index].attr_id, p_dev); } else { uint8_t attr[AVRC_MAX_APP_ATTR_SIZE]; for (uint8_t xx = 0; xx < p_app_settings->num_ext_attrs; xx++) { attr[xx] = p_app_settings->ext_attrs[xx].attr_id; } get_player_app_setting_attr_text_cmd(attr, p_app_settings->num_ext_attrs, p_dev); } } } /*************************************************************************** * * Function handle_app_cur_val_response * * Description handles the the get attributes value response. * * Returns None * **************************************************************************/ static void handle_app_cur_val_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_CUR_APP_VALUE_RSP* p_rsp) { btrc_player_settings_t app_settings; uint16_t xx; btif_rc_device_cb_t* p_dev = NULL; /* Todo: Do we need to retry on command timeout */ if (p_rsp->status != AVRC_STS_NO_ERROR) { BTIF_TRACE_ERROR("%s: Error fetching current settings: 0x%02X", __func__, p_rsp->status); return; } p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: Error in getting Device Address", __func__); osi_free_and_reset((void**)&p_rsp->p_vals); return; } app_settings.num_attr = p_rsp->num_val; if (app_settings.num_attr > BTRC_MAX_APP_SETTINGS) { android_errorWriteLog(0x534e4554, "73824150"); app_settings.num_attr = BTRC_MAX_APP_SETTINGS; } for (xx = 0; xx < app_settings.num_attr; xx++) { app_settings.attr_ids[xx] = p_rsp->p_vals[xx].attr_id; app_settings.attr_values[xx] = p_rsp->p_vals[xx].attr_val; } do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->playerapplicationsetting_changed_cb, p_dev->rc_addr, app_settings)); /* Application settings are fetched only once for initial values * initiate anything that follows after RC procedure. * Defer it if browsing is supported till players query */ rc_ctrl_procedure_complete(p_dev); osi_free_and_reset((void**)&p_rsp->p_vals); } /*************************************************************************** * * Function handle_app_attr_txt_response * * Description handles the the get attributes text response, if fails * calls HAL callback with just normal settings and initiates * query for current settings else initiates query for value * text * Returns None * **************************************************************************/ static void handle_app_attr_txt_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_APP_ATTR_TXT_RSP* p_rsp) { uint8_t xx; uint8_t vals[AVRC_MAX_APP_ATTR_SIZE]; btif_rc_player_app_settings_t* p_app_settings; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return; } p_app_settings = &p_dev->rc_app_settings; /* Todo: Do we need to retry on command timeout */ if (p_rsp->status != AVRC_STS_NO_ERROR) { uint8_t attrs[AVRC_MAX_APP_ATTR_SIZE]; BTIF_TRACE_ERROR("%s: Error fetching attribute text: 0x%02X", __func__, p_rsp->status); /* Not able to fetch Text for extended Menu, skip the process * and cleanup used memory. Proceed to get the current settings * for standard attributes. */ p_app_settings->num_ext_attrs = 0; for (xx = 0; xx < p_app_settings->ext_attr_index; xx++) { osi_free_and_reset((void**)&p_app_settings->ext_attrs[xx].p_str); } p_app_settings->ext_attr_index = 0; if (p_dev) { for (xx = 0; xx < p_app_settings->num_attrs; xx++) { attrs[xx] = p_app_settings->attrs[xx].attr_id; } do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->playerapplicationsetting_cb, p_dev->rc_addr, p_app_settings->num_attrs, p_app_settings->attrs, 0, nullptr)); get_player_app_setting_cmd(xx, attrs, p_dev); } return; } for (xx = 0; xx < p_rsp->num_attr; xx++) { uint8_t x; for (x = 0; x < p_app_settings->num_ext_attrs; x++) { if (p_app_settings->ext_attrs[x].attr_id == p_rsp->p_attrs[xx].attr_id) { p_app_settings->ext_attrs[x].charset_id = p_rsp->p_attrs[xx].charset_id; p_app_settings->ext_attrs[x].str_len = p_rsp->p_attrs[xx].str_len; p_app_settings->ext_attrs[x].p_str = p_rsp->p_attrs[xx].p_str; break; } } } for (xx = 0; xx < p_app_settings->ext_attrs[0].num_val; xx++) { vals[xx] = p_app_settings->ext_attrs[0].ext_attr_val[xx].val; } get_player_app_setting_value_text_cmd(vals, xx, p_dev); } /*************************************************************************** * * Function handle_app_attr_val_txt_response * * Description handles the the get attributes value text response, if fails * calls HAL callback with just normal settings and initiates * query for current settings * Returns None * **************************************************************************/ static void handle_app_attr_val_txt_response( tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_APP_ATTR_TXT_RSP* p_rsp) { uint8_t xx, attr_index; uint8_t vals[AVRC_MAX_APP_ATTR_SIZE]; uint8_t attrs[AVRC_MAX_APP_ATTR_SIZE]; btif_rc_player_app_settings_t* p_app_settings; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return; } p_app_settings = &p_dev->rc_app_settings; /* Todo: Do we need to retry on command timeout */ if (p_rsp->status != AVRC_STS_NO_ERROR) { uint8_t attrs[AVRC_MAX_APP_ATTR_SIZE]; BTIF_TRACE_ERROR("%s: Error fetching attribute value text: 0x%02X", __func__, p_rsp->status); /* Not able to fetch Text for extended Menu, skip the process * and cleanup used memory. Proceed to get the current settings * for standard attributes. */ p_app_settings->num_ext_attrs = 0; for (xx = 0; xx < p_app_settings->ext_attr_index; xx++) { int x; btrc_player_app_ext_attr_t* p_ext_attr = &p_app_settings->ext_attrs[xx]; for (x = 0; x < p_ext_attr->num_val; x++) osi_free_and_reset((void**)&p_ext_attr->ext_attr_val[x].p_str); p_ext_attr->num_val = 0; osi_free_and_reset((void**)&p_app_settings->ext_attrs[xx].p_str); } p_app_settings->ext_attr_index = 0; for (xx = 0; xx < p_app_settings->num_attrs; xx++) { attrs[xx] = p_app_settings->attrs[xx].attr_id; } do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->playerapplicationsetting_cb, p_dev->rc_addr, p_app_settings->num_attrs, p_app_settings->attrs, 0, nullptr)); get_player_app_setting_cmd(xx, attrs, p_dev); return; } for (xx = 0; xx < p_rsp->num_attr; xx++) { uint8_t x; btrc_player_app_ext_attr_t* p_ext_attr; p_ext_attr = &p_app_settings->ext_attrs[p_app_settings->ext_val_index]; for (x = 0; x < p_rsp->num_attr; x++) { if (p_ext_attr->ext_attr_val[x].val == p_rsp->p_attrs[xx].attr_id) { p_ext_attr->ext_attr_val[x].charset_id = p_rsp->p_attrs[xx].charset_id; p_ext_attr->ext_attr_val[x].str_len = p_rsp->p_attrs[xx].str_len; p_ext_attr->ext_attr_val[x].p_str = p_rsp->p_attrs[xx].p_str; break; } } } p_app_settings->ext_val_index++; if (p_app_settings->ext_val_index < p_app_settings->num_ext_attrs) { attr_index = p_app_settings->ext_val_index; for (xx = 0; xx < p_app_settings->ext_attrs[attr_index].num_val; xx++) { vals[xx] = p_app_settings->ext_attrs[attr_index].ext_attr_val[xx].val; } get_player_app_setting_value_text_cmd(vals, xx, p_dev); } else { uint8_t x; for (xx = 0; xx < p_app_settings->num_attrs; xx++) { attrs[xx] = p_app_settings->attrs[xx].attr_id; } for (x = 0; x < p_app_settings->num_ext_attrs; x++) { attrs[xx + x] = p_app_settings->ext_attrs[x].attr_id; } do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->playerapplicationsetting_cb, p_dev->rc_addr, p_app_settings->num_attrs, p_app_settings->attrs, p_app_settings->num_ext_attrs, p_app_settings->ext_attrs)); get_player_app_setting_cmd(xx + x, attrs, p_dev); /* Free the application settings information after sending to * application. */ do_in_jni_thread(FROM_HERE, base::Bind(cleanup_app_attr_val_txt_response, p_app_settings)); p_app_settings->num_attrs = 0; } } /*************************************************************************** * * Function cleanup_app_attr_val_txt_response * * Description Frees the memory that was allocated for reporting player * application settings. * Returns None **************************************************************************/ static void cleanup_app_attr_val_txt_response( btif_rc_player_app_settings_t* p_app_settings) { for (uint8_t xx = 0; xx < p_app_settings->ext_attr_index; xx++) { int x; btrc_player_app_ext_attr_t* p_ext_attr = &p_app_settings->ext_attrs[xx]; for (x = 0; x < p_ext_attr->num_val; x++) { osi_free_and_reset((void**)&p_ext_attr->ext_attr_val[x].p_str); } p_ext_attr->num_val = 0; osi_free_and_reset((void**)&p_app_settings->ext_attrs[xx].p_str); } } /*************************************************************************** * * Function handle_set_app_attr_val_response * * Description handles the the set attributes value response, if fails * calls HAL callback to indicate the failure * Returns None * **************************************************************************/ static void handle_set_app_attr_val_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_RSP* p_rsp) { uint8_t accepted = 0; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return; } /* For timeout pmeta_msg will be NULL, else we need to * check if this is accepted by TG */ if (pmeta_msg && (pmeta_msg->code == AVRC_RSP_ACCEPT)) { accepted = 1; } do_in_jni_thread(FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->setplayerappsetting_rsp_cb, p_dev->rc_addr, accepted)); } /*************************************************************************** * * Function handle_get_metadata_attr_response * * Description handles the the element attributes response, calls * HAL callback to update track change information. * Returns None * **************************************************************************/ static void handle_get_metadata_attr_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_ATTRS_RSP* p_rsp) { btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_rsp->status == AVRC_STS_NO_ERROR) { size_t buf_size = p_rsp->num_attrs * sizeof(btrc_element_attr_val_t); btrc_element_attr_val_t* p_attr = (btrc_element_attr_val_t*)osi_calloc(buf_size); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return; } for (int i = 0; i < p_rsp->num_attrs; i++) { p_attr[i].attr_id = p_rsp->p_attrs[i].attr_id; /* Todo. Legth limit check to include null */ if (p_rsp->p_attrs[i].name.str_len && p_rsp->p_attrs[i].name.p_str) { memcpy(p_attr[i].text, p_rsp->p_attrs[i].name.p_str, p_rsp->p_attrs[i].name.str_len); osi_free_and_reset((void**)&p_rsp->p_attrs[i].name.p_str); } } do_in_jni_thread(FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->track_changed_cb, p_dev->rc_addr, p_rsp->num_attrs, p_attr)); do_in_jni_thread(FROM_HERE, base::Bind(osi_free, p_attr)); } else if (p_rsp->status == BTIF_RC_STS_TIMEOUT) { /* Retry for timeout case, this covers error handling * for continuation failure also. */ const uint32_t* attr_list = get_requested_attributes_list(p_dev); const uint8_t attr_list_size = get_requested_attributes_list_size(p_dev); get_metadata_attribute_cmd(attr_list_size, attr_list, p_dev); } else { BTIF_TRACE_ERROR("%s: Error in get element attr procedure: %d", __func__, p_rsp->status); } } /*************************************************************************** * * Function handle_get_playstatus_response * * Description handles the the play status response, calls * HAL callback to update play position. * Returns None * **************************************************************************/ static void handle_get_playstatus_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_PLAY_STATUS_RSP* p_rsp) { btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return; } if (p_rsp->status == AVRC_STS_NO_ERROR) { do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->play_status_changed_cb, p_dev->rc_addr, (btrc_play_status_t)p_rsp->play_status)); do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->play_position_changed_cb, p_dev->rc_addr, p_rsp->song_len, p_rsp->song_pos)); } else { BTIF_TRACE_ERROR("%s: Error in get play status procedure: %d", __func__, p_rsp->status); } } /*************************************************************************** * * Function handle_set_addressed_player_response * * Description handles the the set addressed player response, calls * HAL callback * Returns None * **************************************************************************/ static void handle_set_addressed_player_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_RSP* p_rsp) { btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return; } if (p_rsp->status == AVRC_STS_NO_ERROR) { do_in_jni_thread(FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->set_addressed_player_cb, p_dev->rc_addr, p_rsp->status)); } else { BTIF_TRACE_ERROR("%s: Error in get play status procedure %d", __func__, p_rsp->status); } } /*************************************************************************** * * Function handle_get_folder_items_response * * Description handles the the get folder items response, calls * HAL callback to send the folder items. * Returns None * **************************************************************************/ static void handle_get_folder_items_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_GET_ITEMS_RSP* p_rsp) { btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_rsp->status == AVRC_STS_NO_ERROR) { /* Convert the internal folder listing into a response that can * be passed onto JNI via HAL_CBACK */ uint8_t item_count = p_rsp->item_count; btrc_folder_items_t* btrc_items = (btrc_folder_items_t*)osi_malloc( sizeof(btrc_folder_items_t) * item_count); for (uint8_t i = 0; i < item_count; i++) { const tAVRC_ITEM* avrc_item = &(p_rsp->p_item_list[i]); btrc_folder_items_t* btrc_item = &(btrc_items[i]); BTIF_TRACE_DEBUG("%s folder item type %d", __func__, avrc_item->item_type); switch (avrc_item->item_type) { case AVRC_ITEM_MEDIA: BTIF_TRACE_DEBUG("%s setting type to %d", __func__, BTRC_ITEM_MEDIA); /* Allocate Space for Attributes */ btrc_item->media.num_attrs = avrc_item->u.media.attr_count; btrc_item->media.p_attrs = (btrc_element_attr_val_t*)osi_malloc( btrc_item->media.num_attrs * sizeof(btrc_element_attr_val_t)); get_folder_item_type_media(avrc_item, btrc_item); break; case AVRC_ITEM_FOLDER: BTIF_TRACE_DEBUG("%s setting type to BTRC_ITEM_FOLDER", __func__); get_folder_item_type_folder(avrc_item, btrc_item); break; case AVRC_ITEM_PLAYER: BTIF_TRACE_DEBUG("%s setting type to BTRC_ITEM_PLAYER", __func__); get_folder_item_type_player(avrc_item, btrc_item); break; default: BTIF_TRACE_ERROR("%s cannot understand folder item type %d", __func__, avrc_item->item_type); } } do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->get_folder_items_cb, p_dev->rc_addr, BTRC_STS_NO_ERROR, /* We want to make the ownership explicit in native */ btrc_items, item_count)); if (item_count > 0) { if (btrc_items[0].item_type == AVRC_ITEM_PLAYER && (p_dev->rc_features & BTA_AV_FEAT_APP_SETTING)) { list_player_app_setting_attrib_cmd(p_dev); } } /* Release the memory block for items and attributes allocated here. * Since the executor for do_in_jni_thread is a Single Thread Task Runner it * is okay to queue up the cleanup of btrc_items */ do_in_jni_thread(FROM_HERE, base::Bind(cleanup_btrc_folder_items, btrc_items, item_count)); BTIF_TRACE_DEBUG("%s get_folder_items_cb sent to JNI thread", __func__); } else { BTIF_TRACE_ERROR("%s: Error %d", __func__, p_rsp->status); do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->get_folder_items_cb, p_dev->rc_addr, (btrc_status_t)p_rsp->status, nullptr, 0)); } } /*************************************************************************** * * Function cleanup_btrc_folder_items * * Description Frees the memory that was allocated for a list of folder * items. * Returns None **************************************************************************/ static void cleanup_btrc_folder_items(btrc_folder_items_t* btrc_items, uint8_t item_count) { for (uint8_t i = 0; i < item_count; i++) { btrc_folder_items_t* btrc_item = &(btrc_items[i]); switch (btrc_item->item_type) { case BTRC_ITEM_MEDIA: osi_free(btrc_item->media.p_attrs); break; case BTRC_ITEM_PLAYER: case BTRC_ITEM_FOLDER: /*Nothing to free*/ break; default: BTIF_TRACE_WARNING("%s free unspecified type", __func__); } } osi_free(btrc_items); } /*************************************************************************** * * Function get_folder_item_type_media * * Description Converts the AVRC representation of a folder item with * TYPE media to BTIF representation. * Returns None * **************************************************************************/ void get_folder_item_type_media(const tAVRC_ITEM* avrc_item, btrc_folder_items_t* btrc_item) { btrc_item->item_type = BTRC_ITEM_MEDIA; const tAVRC_ITEM_MEDIA* avrc_item_media = &(avrc_item->u.media); btrc_item_media_t* btrc_item_media = &(btrc_item->media); /* UID */ memset(btrc_item_media->uid, 0, BTRC_UID_SIZE * sizeof(uint8_t)); memcpy(btrc_item_media->uid, avrc_item_media->uid, sizeof(uint8_t) * BTRC_UID_SIZE); /* Audio/Video type */ switch (avrc_item_media->type) { case AVRC_MEDIA_TYPE_AUDIO: btrc_item_media->type = BTRC_MEDIA_TYPE_AUDIO; break; case AVRC_MEDIA_TYPE_VIDEO: btrc_item_media->type = BTRC_MEDIA_TYPE_VIDEO; break; } /* Charset ID */ btrc_item_media->charset_id = avrc_item_media->name.charset_id; /* Copy the name */ BTIF_TRACE_DEBUG("%s max len %d str len %d", __func__, BTRC_MAX_ATTR_STR_LEN, avrc_item_media->name.str_len); memset(btrc_item_media->name, 0, BTRC_MAX_ATTR_STR_LEN * sizeof(uint8_t)); memcpy(btrc_item_media->name, avrc_item_media->name.p_str, sizeof(uint8_t) * (avrc_item_media->name.str_len)); /* Extract each attribute */ for (int i = 0; i < avrc_item_media->attr_count; i++) { btrc_element_attr_val_t* btrc_attr_pair = &(btrc_item_media->p_attrs[i]); tAVRC_ATTR_ENTRY* avrc_attr_pair = &(avrc_item_media->p_attr_list[i]); BTIF_TRACE_DEBUG("%s media attr id 0x%x", __func__, avrc_attr_pair->attr_id); switch (avrc_attr_pair->attr_id) { case AVRC_MEDIA_ATTR_ID_TITLE: btrc_attr_pair->attr_id = BTRC_MEDIA_ATTR_ID_TITLE; break; case AVRC_MEDIA_ATTR_ID_ARTIST: btrc_attr_pair->attr_id = BTRC_MEDIA_ATTR_ID_ARTIST; break; case AVRC_MEDIA_ATTR_ID_ALBUM: btrc_attr_pair->attr_id = BTRC_MEDIA_ATTR_ID_ALBUM; break; case AVRC_MEDIA_ATTR_ID_TRACK_NUM: btrc_attr_pair->attr_id = BTRC_MEDIA_ATTR_ID_TRACK_NUM; break; case AVRC_MEDIA_ATTR_ID_NUM_TRACKS: btrc_attr_pair->attr_id = BTRC_MEDIA_ATTR_ID_NUM_TRACKS; break; case AVRC_MEDIA_ATTR_ID_GENRE: btrc_attr_pair->attr_id = BTRC_MEDIA_ATTR_ID_GENRE; break; case AVRC_MEDIA_ATTR_ID_PLAYING_TIME: btrc_attr_pair->attr_id = BTRC_MEDIA_ATTR_ID_PLAYING_TIME; break; case AVRC_MEDIA_ATTR_ID_COVER_ARTWORK_HANDLE: btrc_attr_pair->attr_id = BTRC_MEDIA_ATTR_ID_COVER_ARTWORK_HANDLE; break; default: BTIF_TRACE_ERROR("%s invalid media attr id: 0x%x", __func__, avrc_attr_pair->attr_id); btrc_attr_pair->attr_id = BTRC_MEDIA_ATTR_ID_INVALID; } memset(btrc_attr_pair->text, 0, BTRC_MAX_ATTR_STR_LEN * sizeof(uint8_t)); memcpy(btrc_attr_pair->text, avrc_attr_pair->name.p_str, avrc_attr_pair->name.str_len); } } /*************************************************************************** * * Function get_folder_item_type_folder * * Description Converts the AVRC representation of a folder item with * TYPE folder to BTIF representation. * Returns None * **************************************************************************/ void get_folder_item_type_folder(const tAVRC_ITEM* avrc_item, btrc_folder_items_t* btrc_item) { btrc_item->item_type = BTRC_ITEM_FOLDER; const tAVRC_ITEM_FOLDER* avrc_item_folder = &(avrc_item->u.folder); btrc_item_folder_t* btrc_item_folder = &(btrc_item->folder); /* Copy the UID */ memset(btrc_item_folder->uid, 0, BTRC_UID_SIZE * sizeof(uint8_t)); memcpy(btrc_item_folder->uid, avrc_item_folder->uid, sizeof(uint8_t) * BTRC_UID_SIZE); /* Copy the type */ switch (avrc_item_folder->type) { case AVRC_FOLDER_TYPE_MIXED: btrc_item_folder->type = BTRC_FOLDER_TYPE_MIXED; break; case AVRC_FOLDER_TYPE_TITLES: btrc_item_folder->type = BTRC_FOLDER_TYPE_TITLES; break; case AVRC_FOLDER_TYPE_ALNUMS: btrc_item_folder->type = BTRC_FOLDER_TYPE_ALBUMS; break; case AVRC_FOLDER_TYPE_ARTISTS: btrc_item_folder->type = BTRC_FOLDER_TYPE_ARTISTS; break; case AVRC_FOLDER_TYPE_GENRES: btrc_item_folder->type = BTRC_FOLDER_TYPE_GENRES; break; case AVRC_FOLDER_TYPE_PLAYLISTS: btrc_item_folder->type = BTRC_FOLDER_TYPE_PLAYLISTS; break; case AVRC_FOLDER_TYPE_YEARS: btrc_item_folder->type = BTRC_FOLDER_TYPE_YEARS; break; } /* Copy if playable */ btrc_item_folder->playable = avrc_item_folder->playable; /* Copy name */ BTIF_TRACE_DEBUG("%s max len %d str len %d", __func__, BTRC_MAX_ATTR_STR_LEN, avrc_item_folder->name.str_len); memset(btrc_item_folder->name, 0, BTRC_MAX_ATTR_STR_LEN * sizeof(uint8_t)); memcpy(btrc_item_folder->name, avrc_item_folder->name.p_str, avrc_item_folder->name.str_len * sizeof(uint8_t)); /* Copy charset */ btrc_item_folder->charset_id = avrc_item_folder->name.charset_id; } /*************************************************************************** * * Function get_folder_item_type_player * * Description Converts the AVRC representation of a folder item with * TYPE player to BTIF representation. * Returns None * **************************************************************************/ void get_folder_item_type_player(const tAVRC_ITEM* avrc_item, btrc_folder_items_t* btrc_item) { btrc_item->item_type = BTRC_ITEM_PLAYER; const tAVRC_ITEM_PLAYER* avrc_item_player = &(avrc_item->u.player); btrc_item_player_t* btrc_item_player = &(btrc_item->player); /* Player ID */ btrc_item_player->player_id = avrc_item_player->player_id; /* Major type */ btrc_item_player->major_type = avrc_item_player->major_type; /* Sub type */ btrc_item_player->sub_type = avrc_item_player->sub_type; /* Play status */ btrc_item_player->play_status = avrc_item_player->play_status; /* Features */ memcpy(btrc_item_player->features, avrc_item_player->features, BTRC_FEATURE_BIT_MASK_SIZE); memset(btrc_item_player->name, 0, BTRC_MAX_ATTR_STR_LEN * sizeof(uint8_t)); memcpy(btrc_item_player->name, avrc_item_player->name.p_str, avrc_item_player->name.str_len); } /*************************************************************************** * * Function handle_change_path_response * * Description handles the the change path response, calls * HAL callback to send the updated folder * Returns None * **************************************************************************/ static void handle_change_path_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_CHG_PATH_RSP* p_rsp) { btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: Invalid rc handle", __func__); return; } if (p_rsp->status == AVRC_STS_NO_ERROR) { do_in_jni_thread(FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->change_folder_path_cb, p_dev->rc_addr, p_rsp->num_items)); } else { BTIF_TRACE_ERROR("%s error in handle_change_path_response %d", __func__, p_rsp->status); } } /*************************************************************************** * * Function handle_set_browsed_player_response * * Description handles the the change path response, calls * HAL callback to send the updated folder * Returns None * **************************************************************************/ static void handle_set_browsed_player_response(tBTA_AV_META_MSG* pmeta_msg, tAVRC_SET_BR_PLAYER_RSP* p_rsp) { btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: Invalid rc handle", __func__); return; } if (p_rsp->status == AVRC_STS_NO_ERROR) { do_in_jni_thread( FROM_HERE, base::Bind(bt_rc_ctrl_callbacks->set_browsed_player_cb, p_dev->rc_addr, p_rsp->num_items, p_rsp->folder_depth)); } else { BTIF_TRACE_ERROR("%s error %d", __func__, p_rsp->status); } } /*************************************************************************** * * Function clear_cmd_timeout * * Description helper function to stop the command timeout timer * Returns None * **************************************************************************/ static void clear_cmd_timeout(btif_rc_device_cb_t* p_dev, uint8_t label) { rc_transaction_t* p_txn; p_txn = get_transaction_by_lbl(p_dev, label); if (p_txn == NULL) { BTIF_TRACE_ERROR("%s: Error in transaction label lookup", __func__); return; } if (p_txn->txn_timer != NULL) alarm_cancel(p_txn->txn_timer); } /*************************************************************************** * * Function handle_avk_rc_metamsg_rsp * * Description Handle RC metamessage response * * Returns void * **************************************************************************/ static void handle_avk_rc_metamsg_rsp(tBTA_AV_META_MSG* pmeta_msg) { tAVRC_RESPONSE avrc_response = {0}; uint8_t scratch_buf[512] = {0}; // this variable is unused uint16_t buf_len; tAVRC_STS status; btif_rc_device_cb_t* p_dev = NULL; BTIF_TRACE_DEBUG("%s: opcode: %d rsp_code: %d ", __func__, pmeta_msg->p_msg->hdr.opcode, pmeta_msg->code); p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); status = AVRC_Ctrl_ParsResponse(pmeta_msg->p_msg, &avrc_response, scratch_buf, &buf_len); if ((AVRC_OP_VENDOR == pmeta_msg->p_msg->hdr.opcode) && (pmeta_msg->code >= AVRC_RSP_NOT_IMPL) && (pmeta_msg->code <= AVRC_RSP_INTERIM)) { BTIF_TRACE_DEBUG("%s parse status %d pdu = %d rsp_status = %d", __func__, status, avrc_response.pdu, pmeta_msg->p_msg->vendor.hdr.ctype); switch (avrc_response.pdu) { case AVRC_PDU_REGISTER_NOTIFICATION: handle_notification_response(pmeta_msg, &avrc_response.reg_notif); if (pmeta_msg->code == AVRC_RSP_INTERIM) { /* Don't free the transaction Id */ clear_cmd_timeout(p_dev, pmeta_msg->label); return; } break; case AVRC_PDU_GET_CAPABILITIES: handle_get_capability_response(pmeta_msg, &avrc_response.get_caps); break; case AVRC_PDU_LIST_PLAYER_APP_ATTR: handle_app_attr_response(pmeta_msg, &avrc_response.list_app_attr); break; case AVRC_PDU_LIST_PLAYER_APP_VALUES: handle_app_val_response(pmeta_msg, &avrc_response.list_app_values); break; case AVRC_PDU_GET_CUR_PLAYER_APP_VALUE: handle_app_cur_val_response(pmeta_msg, &avrc_response.get_cur_app_val); break; case AVRC_PDU_GET_PLAYER_APP_ATTR_TEXT: handle_app_attr_txt_response(pmeta_msg, &avrc_response.get_app_attr_txt); break; case AVRC_PDU_GET_PLAYER_APP_VALUE_TEXT: handle_app_attr_val_txt_response(pmeta_msg, &avrc_response.get_app_val_txt); break; case AVRC_PDU_SET_PLAYER_APP_VALUE: handle_set_app_attr_val_response(pmeta_msg, &avrc_response.set_app_val); break; case AVRC_PDU_GET_ELEMENT_ATTR: handle_get_metadata_attr_response(pmeta_msg, &avrc_response.get_attrs); break; case AVRC_PDU_GET_PLAY_STATUS: handle_get_playstatus_response(pmeta_msg, &avrc_response.get_play_status); break; case AVRC_PDU_SET_ADDRESSED_PLAYER: handle_set_addressed_player_response(pmeta_msg, &avrc_response.rsp); break; } } else if (AVRC_OP_BROWSE == pmeta_msg->p_msg->hdr.opcode) { BTIF_TRACE_DEBUG("%s AVRC_OP_BROWSE pdu %d", __func__, avrc_response.pdu); /* check what kind of command it is for browsing */ switch (avrc_response.pdu) { case AVRC_PDU_GET_FOLDER_ITEMS: handle_get_folder_items_response(pmeta_msg, &avrc_response.get_items); break; case AVRC_PDU_CHANGE_PATH: handle_change_path_response(pmeta_msg, &avrc_response.chg_path); break; case AVRC_PDU_SET_BROWSED_PLAYER: handle_set_browsed_player_response(pmeta_msg, &avrc_response.br_player); break; case AVRC_PDU_GET_ITEM_ATTRIBUTES: handle_get_metadata_attr_response(pmeta_msg, &avrc_response.get_attrs); break; default: BTIF_TRACE_ERROR("%s cannot handle browse pdu %d", __func__, pmeta_msg->p_msg->hdr.opcode); } } else { BTIF_TRACE_DEBUG( "%s: Invalid Vendor Command code: %d len: %d. Not processing it.", __func__, pmeta_msg->code, pmeta_msg->len); return; } BTIF_TRACE_DEBUG("%s: release transaction %d", __func__, pmeta_msg->label); release_transaction(p_dev, pmeta_msg->label); } /*************************************************************************** * * Function handle_avk_rc_metamsg_cmd * * Description Handle RC metamessage response * * Returns void * **************************************************************************/ static void handle_avk_rc_metamsg_cmd(tBTA_AV_META_MSG* pmeta_msg) { tAVRC_COMMAND avrc_cmd = {0}; tAVRC_STS status = BT_STATUS_UNSUPPORTED; btif_rc_device_cb_t* p_dev = NULL; BTIF_TRACE_DEBUG("%s: opcode: %d rsp_code: %d", __func__, pmeta_msg->p_msg->hdr.opcode, pmeta_msg->code); status = AVRC_Ctrl_ParsCommand(pmeta_msg->p_msg, &avrc_cmd); if ((AVRC_OP_VENDOR == pmeta_msg->p_msg->hdr.opcode) && (pmeta_msg->code <= AVRC_CMD_GEN_INQ)) { BTIF_TRACE_DEBUG("%s Received vendor command.code %d, PDU %d label %d", __func__, pmeta_msg->code, avrc_cmd.pdu, pmeta_msg->label); if (status != AVRC_STS_NO_ERROR) { /* return error */ BTIF_TRACE_WARNING( "%s: Error in parsing received metamsg command. status: 0x%02x", __func__, status); send_reject_response(pmeta_msg->rc_handle, pmeta_msg->label, avrc_cmd.pdu, status, pmeta_msg->p_msg->hdr.opcode); } else { p_dev = btif_rc_get_device_by_handle(pmeta_msg->rc_handle); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: avk rc meta msg cmd for Invalid rc handle", __func__); return; } if (avrc_cmd.pdu == AVRC_PDU_REGISTER_NOTIFICATION) { uint8_t event_id = avrc_cmd.reg_notif.event_id; BTIF_TRACE_EVENT("%s: Register notification event_id: %s", __func__, dump_rc_notification_event_id(event_id)); } else if (avrc_cmd.pdu == AVRC_PDU_SET_ABSOLUTE_VOLUME) { BTIF_TRACE_EVENT("%s: Abs Volume Cmd Recvd", __func__); } btif_rc_ctrl_upstreams_rsp_cmd(avrc_cmd.pdu, &avrc_cmd, pmeta_msg->label, p_dev); } } else { BTIF_TRACE_DEBUG( "%s: Invalid Vendor Command code: %d len: %d. Not processing it.", __func__, pmeta_msg->code, pmeta_msg->len); return; } } /*************************************************************************** * * Function cleanup * * Description Closes the AVRC interface * * Returns void * **************************************************************************/ static void cleanup() { BTIF_TRACE_EVENT("%s: ", __func__); if (bt_rc_callbacks) { bt_rc_callbacks = NULL; } for (int idx = 0; idx < BTIF_RC_NUM_CONN; idx++) { alarm_free(btif_rc_cb.rc_multi_cb[idx].rc_play_status_timer); memset(&btif_rc_cb.rc_multi_cb[idx], 0, sizeof(btif_rc_cb.rc_multi_cb[idx])); } BTIF_TRACE_EVENT("%s: completed", __func__); } /*************************************************************************** * * Function cleanup_ctrl * * Description Closes the AVRC Controller interface * * Returns void * **************************************************************************/ static void cleanup_ctrl() { BTIF_TRACE_EVENT("%s: ", __func__); if (bt_rc_ctrl_callbacks) { bt_rc_ctrl_callbacks = NULL; } for (int idx = 0; idx < BTIF_RC_NUM_CONN; idx++) { alarm_free(btif_rc_cb.rc_multi_cb[idx].rc_play_status_timer); memset(&btif_rc_cb.rc_multi_cb[idx], 0, sizeof(btif_rc_cb.rc_multi_cb[idx])); } memset(&btif_rc_cb.rc_multi_cb, 0, sizeof(btif_rc_cb.rc_multi_cb)); BTIF_TRACE_EVENT("%s: completed", __func__); } /*************************************************************************** * * Function getcapabilities_cmd * * Description GetCapabilties from Remote(Company_ID, Events_Supported) * * Returns void * **************************************************************************/ static bt_status_t getcapabilities_cmd(uint8_t cap_id, btif_rc_device_cb_t* p_dev) { BTIF_TRACE_DEBUG("%s: cap_id: %d", __func__, cap_id); CHECK_RC_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.get_caps.opcode = AVRC_OP_VENDOR; avrc_cmd.get_caps.capability_id = cap_id; avrc_cmd.get_caps.pdu = AVRC_PDU_GET_CAPABILITIES; avrc_cmd.get_caps.status = AVRC_STS_NO_ERROR; return build_and_send_vendor_cmd(&avrc_cmd, AVRC_CMD_STATUS, p_dev); } /*************************************************************************** * * Function list_player_app_setting_attrib_cmd * * Description Get supported List Player Attributes * * Returns void * **************************************************************************/ static bt_status_t list_player_app_setting_attrib_cmd( btif_rc_device_cb_t* p_dev) { BTIF_TRACE_DEBUG("%s", __func__); CHECK_RC_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.list_app_attr.opcode = AVRC_OP_VENDOR; avrc_cmd.list_app_attr.pdu = AVRC_PDU_LIST_PLAYER_APP_ATTR; avrc_cmd.list_app_attr.status = AVRC_STS_NO_ERROR; return build_and_send_vendor_cmd(&avrc_cmd, AVRC_CMD_STATUS, p_dev); } /*************************************************************************** * * Function list_player_app_setting_value_cmd * * Description Get values of supported Player Attributes * * Returns void * **************************************************************************/ static bt_status_t list_player_app_setting_value_cmd( uint8_t attrib_id, btif_rc_device_cb_t* p_dev) { BTIF_TRACE_DEBUG("%s: attrib_id: %d", __func__, attrib_id); CHECK_RC_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.list_app_values.attr_id = attrib_id; avrc_cmd.list_app_values.opcode = AVRC_OP_VENDOR; avrc_cmd.list_app_values.pdu = AVRC_PDU_LIST_PLAYER_APP_VALUES; avrc_cmd.list_app_values.status = AVRC_STS_NO_ERROR; return build_and_send_vendor_cmd(&avrc_cmd, AVRC_CMD_STATUS, p_dev); } /*************************************************************************** * * Function get_player_app_setting_cmd * * Description Get current values of Player Attributes * * Returns void * **************************************************************************/ static bt_status_t get_player_app_setting_cmd(uint8_t num_attrib, uint8_t* attrib_ids, btif_rc_device_cb_t* p_dev) { BTIF_TRACE_DEBUG("%s: num_attrib: %d", __func__, num_attrib); CHECK_RC_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.get_cur_app_val.opcode = AVRC_OP_VENDOR; avrc_cmd.get_cur_app_val.status = AVRC_STS_NO_ERROR; avrc_cmd.get_cur_app_val.num_attr = num_attrib; avrc_cmd.get_cur_app_val.pdu = AVRC_PDU_GET_CUR_PLAYER_APP_VALUE; for (int count = 0; count < num_attrib; count++) { avrc_cmd.get_cur_app_val.attrs[count] = attrib_ids[count]; } return build_and_send_vendor_cmd(&avrc_cmd, AVRC_CMD_STATUS, p_dev); } /*************************************************************************** * * Function get_current_metadata_cmd * * Description Fetch the current track metadata for the device * * Returns BT_STATUS_SUCCESS if command issued successfully otherwise * BT_STATUS_FAIL. * **************************************************************************/ static bt_status_t get_current_metadata_cmd(const RawAddress& bd_addr) { BTIF_TRACE_DEBUG("%s", __func__); btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); if (p_dev == NULL) { BTIF_TRACE_ERROR("%s: p_dev NULL", __func__); return BT_STATUS_FAIL; } const uint32_t* attr_list = get_requested_attributes_list(p_dev); const uint8_t attr_list_size = get_requested_attributes_list_size(p_dev); return get_metadata_attribute_cmd(attr_list_size, attr_list, p_dev); } /*************************************************************************** * * Function get_playback_state_cmd * * Description Fetch the current playback state for the device * * Returns BT_STATUS_SUCCESS if command issued successfully otherwise * BT_STATUS_FAIL. * **************************************************************************/ static bt_status_t get_playback_state_cmd(const RawAddress& bd_addr) { BTIF_TRACE_DEBUG("%s", __func__); btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); return get_play_status_cmd(p_dev); } /*************************************************************************** * * Function get_now_playing_list_cmd * * Description Fetch the now playing list * * Paramters start_item: First item to fetch (0 to fetch from beganning) * end_item: Last item to fetch (0xffffffff to fetch until end) * * Returns BT_STATUS_SUCCESS if command issued successfully otherwise * BT_STATUS_FAIL. * **************************************************************************/ static bt_status_t get_now_playing_list_cmd(const RawAddress& bd_addr, uint32_t start_item, uint32_t end_item) { BTIF_TRACE_DEBUG("%s start, end: (%d, %d)", __func__, start_item, end_item); return get_folder_items_cmd(bd_addr, AVRC_SCOPE_NOW_PLAYING, start_item, end_item); } /*************************************************************************** * * Function get_item_attribute_cmd * * Description Fetch the item attributes for a given uid. * * Parameters uid: Track UID you want attributes for * scope: Constant representing which scope you're querying * (i.e AVRC_SCOPE_FILE_SYSTEM) * p_dev: Device control block * * Returns BT_STATUS_SUCCESS if command is issued successfully * otherwise BT_STATUS_FAIL * **************************************************************************/ static bt_status_t get_item_attribute_cmd(uint64_t uid, int scope, uint8_t num_attribute, const uint32_t* p_attr_ids, btif_rc_device_cb_t* p_dev) { tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.pdu = AVRC_PDU_GET_ITEM_ATTRIBUTES; avrc_cmd.get_attrs.scope = scope; memcpy(avrc_cmd.get_attrs.uid, &uid, 8); avrc_cmd.get_attrs.uid_counter = 0; avrc_cmd.get_attrs.attr_count = 0; return build_and_send_browsing_cmd(&avrc_cmd, p_dev); } /*************************************************************************** * * Function get_folder_list_cmd * * Description Fetch the currently selected folder list * * Paramters start_item: First item to fetch (0 to fetch from beganning) * end_item: Last item to fetch (0xffffffff to fetch until end) * * Returns BT_STATUS_SUCCESS if command issued successfully otherwise * BT_STATUS_FAIL. * **************************************************************************/ static bt_status_t get_folder_list_cmd(const RawAddress& bd_addr, uint32_t start_item, uint32_t end_item) { BTIF_TRACE_DEBUG("%s start, end: (%d, %d)", __func__, start_item, end_item); return get_folder_items_cmd(bd_addr, AVRC_SCOPE_FILE_SYSTEM, start_item, end_item); } /*************************************************************************** * * Function get_player_list_cmd * * Description Fetch the player list * * Paramters start_item: First item to fetch (0 to fetch from beganning) * end_item: Last item to fetch (0xffffffff to fetch until end) * * Returns BT_STATUS_SUCCESS if command issued successfully otherwise * BT_STATUS_FAIL. * **************************************************************************/ static bt_status_t get_player_list_cmd(const RawAddress& bd_addr, uint32_t start_item, uint32_t end_item) { BTIF_TRACE_DEBUG("%s start, end: (%d, %d)", __func__, start_item, end_item); return get_folder_items_cmd(bd_addr, AVRC_SCOPE_PLAYER_LIST, start_item, end_item); } /*************************************************************************** * * Function change_folder_path_cmd * * Description Change the folder. * * Paramters direction: Direction (Up/Down) to change folder * uid: The UID of folder to move to * start_item: First item to fetch (0 to fetch from beganning) * end_item: Last item to fetch (0xffffffff to fetch until end) * * Returns BT_STATUS_SUCCESS if command issued successfully otherwise * BT_STATUS_FAIL. * **************************************************************************/ static bt_status_t change_folder_path_cmd(const RawAddress& bd_addr, uint8_t direction, uint8_t* uid) { BTIF_TRACE_DEBUG("%s: direction %d", __func__, direction); btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); CHECK_RC_CONNECTED(p_dev); CHECK_BR_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.chg_path.pdu = AVRC_PDU_CHANGE_PATH; avrc_cmd.chg_path.status = AVRC_STS_NO_ERROR; // TODO(sanketa): Improve for database aware clients. avrc_cmd.chg_path.uid_counter = 0; avrc_cmd.chg_path.direction = direction; memset(avrc_cmd.chg_path.folder_uid, 0, AVRC_UID_SIZE * sizeof(uint8_t)); memcpy(avrc_cmd.chg_path.folder_uid, uid, AVRC_UID_SIZE * sizeof(uint8_t)); return build_and_send_browsing_cmd(&avrc_cmd, p_dev); } /*************************************************************************** * * Function set_browsed_player_cmd * * Description Change the browsed player. * * Paramters id: The UID of player to move to * * Returns BT_STATUS_SUCCESS if command issued successfully otherwise * BT_STATUS_FAIL. * **************************************************************************/ static bt_status_t set_browsed_player_cmd(const RawAddress& bd_addr, uint16_t id) { BTIF_TRACE_DEBUG("%s: id %d", __func__, id); btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); CHECK_RC_CONNECTED(p_dev); CHECK_BR_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.br_player.pdu = AVRC_PDU_SET_BROWSED_PLAYER; avrc_cmd.br_player.status = AVRC_STS_NO_ERROR; // TODO(sanketa): Improve for database aware clients. avrc_cmd.br_player.player_id = id; return build_and_send_browsing_cmd(&avrc_cmd, p_dev); } /*************************************************************************** ** ** Function set_addressed_player_cmd ** ** Description Change the addressed player. ** ** Paramters id: The UID of player to move to ** ** Returns BT_STATUS_SUCCESS if command issued successfully otherwise ** BT_STATUS_FAIL. ** ***************************************************************************/ static bt_status_t set_addressed_player_cmd(const RawAddress& bd_addr, uint16_t id) { BTIF_TRACE_DEBUG("%s: id %d", __func__, id); btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); CHECK_RC_CONNECTED(p_dev); CHECK_BR_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.addr_player.pdu = AVRC_PDU_SET_ADDRESSED_PLAYER; avrc_cmd.addr_player.status = AVRC_STS_NO_ERROR; // TODO(sanketa): Improve for database aware clients. avrc_cmd.addr_player.player_id = id; return build_and_send_browsing_cmd(&avrc_cmd, p_dev); } /*************************************************************************** * * Function get_folder_items_cmd * * Description Helper function to browse the content hierarchy of the * TG device. * * Paramters scope: AVRC_SCOPE_NOW_PLAYING (etc) for various browseable * content * start_item: First item to fetch (0 to fetch from beganning) * end_item: Last item to fetch (0xffff to fetch until end) * * Returns BT_STATUS_SUCCESS if command issued successfully otherwise * BT_STATUS_FAIL. * **************************************************************************/ static bt_status_t get_folder_items_cmd(const RawAddress& bd_addr, uint8_t scope, uint32_t start_item, uint32_t end_item) { /* Check that both avrcp and browse channel are connected. */ btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); BTIF_TRACE_DEBUG("%s", __func__); CHECK_RC_CONNECTED(p_dev); CHECK_BR_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; /* Set the layer specific to point to browse although this should really * be done by lower layers and looking at the PDU */ avrc_cmd.get_items.pdu = AVRC_PDU_GET_FOLDER_ITEMS; avrc_cmd.get_items.status = AVRC_STS_NO_ERROR; avrc_cmd.get_items.scope = scope; avrc_cmd.get_items.start_item = start_item; avrc_cmd.get_items.end_item = end_item; avrc_cmd.get_items.attr_count = 0; /* p_attr_list does not matter hence */ return build_and_send_browsing_cmd(&avrc_cmd, p_dev); } /*************************************************************************** * * Function change_player_app_setting * * Description Set current values of Player Attributes * * Returns void * **************************************************************************/ static bt_status_t change_player_app_setting(const RawAddress& bd_addr, uint8_t num_attrib, uint8_t* attrib_ids, uint8_t* attrib_vals) { BTIF_TRACE_DEBUG("%s: num_attrib: %d", __func__, num_attrib); btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); CHECK_RC_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.set_app_val.opcode = AVRC_OP_VENDOR; avrc_cmd.set_app_val.status = AVRC_STS_NO_ERROR; avrc_cmd.set_app_val.num_val = num_attrib; avrc_cmd.set_app_val.pdu = AVRC_PDU_SET_PLAYER_APP_VALUE; avrc_cmd.set_app_val.p_vals = (tAVRC_APP_SETTING*)osi_malloc(sizeof(tAVRC_APP_SETTING) * num_attrib); for (int count = 0; count < num_attrib; count++) { avrc_cmd.set_app_val.p_vals[count].attr_id = attrib_ids[count]; avrc_cmd.set_app_val.p_vals[count].attr_val = attrib_vals[count]; } bt_status_t st = build_and_send_vendor_cmd(&avrc_cmd, AVRC_CMD_CTRL, p_dev); osi_free_and_reset((void**)&avrc_cmd.set_app_val.p_vals); return st; } /*************************************************************************** * * Function play_item_cmd * * Description Play the item specified by UID & scope * * Returns void * **************************************************************************/ static bt_status_t play_item_cmd(const RawAddress& bd_addr, uint8_t scope, uint8_t* uid, uint16_t uid_counter) { BTIF_TRACE_DEBUG("%s: scope %d uid_counter %d", __func__, scope, uid_counter); btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); CHECK_RC_CONNECTED(p_dev); CHECK_BR_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.pdu = AVRC_PDU_PLAY_ITEM; avrc_cmd.play_item.opcode = AVRC_OP_VENDOR; avrc_cmd.play_item.status = AVRC_STS_NO_ERROR; avrc_cmd.play_item.scope = scope; memcpy(avrc_cmd.play_item.uid, uid, AVRC_UID_SIZE); avrc_cmd.play_item.uid_counter = uid_counter; return build_and_send_vendor_cmd(&avrc_cmd, AVRC_CMD_CTRL, p_dev); } /*************************************************************************** * * Function get_player_app_setting_attr_text_cmd * * Description Get text description for app attribute * * Returns void * **************************************************************************/ static bt_status_t get_player_app_setting_attr_text_cmd( uint8_t* attrs, uint8_t num_attrs, btif_rc_device_cb_t* p_dev) { BTIF_TRACE_DEBUG("%s: num attrs: %d", __func__, num_attrs); CHECK_RC_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.pdu = AVRC_PDU_GET_PLAYER_APP_ATTR_TEXT; avrc_cmd.get_app_attr_txt.opcode = AVRC_OP_VENDOR; avrc_cmd.get_app_attr_txt.num_attr = num_attrs; for (int count = 0; count < num_attrs; count++) { avrc_cmd.get_app_attr_txt.attrs[count] = attrs[count]; } return build_and_send_vendor_cmd(&avrc_cmd, AVRC_CMD_STATUS, p_dev); } /*************************************************************************** * * Function get_player_app_setting_val_text_cmd * * Description Get text description for app attribute values * * Returns void * **************************************************************************/ static bt_status_t get_player_app_setting_value_text_cmd( uint8_t* vals, uint8_t num_vals, btif_rc_device_cb_t* p_dev) { BTIF_TRACE_DEBUG("%s: num_vals: %d", __func__, num_vals); CHECK_RC_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.pdu = AVRC_PDU_GET_PLAYER_APP_VALUE_TEXT; avrc_cmd.get_app_val_txt.opcode = AVRC_OP_VENDOR; avrc_cmd.get_app_val_txt.num_val = num_vals; for (int count = 0; count < num_vals; count++) { avrc_cmd.get_app_val_txt.vals[count] = vals[count]; } return build_and_send_vendor_cmd(&avrc_cmd, AVRC_CMD_STATUS, p_dev); } /*************************************************************************** * * Function register_notification_cmd * * Description Send Command to register for a Notification ID * * Returns void * **************************************************************************/ static bt_status_t register_notification_cmd(uint8_t label, uint8_t event_id, uint32_t event_value, btif_rc_device_cb_t* p_dev) { BTIF_TRACE_DEBUG("%s: event_id: %d event_value %d", __func__, event_id, event_value); CHECK_RC_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.reg_notif.opcode = AVRC_OP_VENDOR; avrc_cmd.reg_notif.status = AVRC_STS_NO_ERROR; avrc_cmd.reg_notif.event_id = event_id; avrc_cmd.reg_notif.pdu = AVRC_PDU_REGISTER_NOTIFICATION; avrc_cmd.reg_notif.param = event_value; BT_HDR* p_msg = NULL; tAVRC_STS status = AVRC_BldCommand(&avrc_cmd, &p_msg); if (status == AVRC_STS_NO_ERROR) { uint8_t* data_start = (uint8_t*)(p_msg + 1) + p_msg->offset; BTIF_TRACE_DEBUG("%s: msgreq being sent out with label: %d", __func__, label); if (p_msg != NULL) { BTA_AvVendorCmd(p_dev->rc_handle, label, AVRC_CMD_NOTIF, data_start, p_msg->len); status = BT_STATUS_SUCCESS; } } else { BTIF_TRACE_ERROR("%s: failed to build command. status: 0x%02x", __func__, status); } osi_free(p_msg); return (bt_status_t)status; } /*************************************************************************** * * Function get_metadata_attribute_cmd * * Description Get metadata attributes for attributeIds. This function * will make the right determination of whether to use the * control or browsing channel for the request * * Returns BT_STATUS_SUCCESS if the command is successfully issued * otherwise BT_STATUS_FAIL * **************************************************************************/ static bt_status_t get_metadata_attribute_cmd(uint8_t num_attribute, const uint32_t* p_attr_ids, btif_rc_device_cb_t* p_dev) { BTIF_TRACE_DEBUG("%s: num_attribute: %d attribute_id: %d", __func__, num_attribute, p_attr_ids[0]); // If browsing is connected then send the command out that channel if (p_dev->br_connected) { return get_item_attribute_cmd(p_dev->rc_playing_uid, AVRC_SCOPE_NOW_PLAYING, num_attribute, p_attr_ids, p_dev); } // Otherwise, default to the control channel return get_element_attribute_cmd(num_attribute, p_attr_ids, p_dev); } /*************************************************************************** * * Function get_element_attribute_cmd * * Description Get Element Attribute for attributeIds * * Returns void * **************************************************************************/ static bt_status_t get_element_attribute_cmd(uint8_t num_attribute, const uint32_t* p_attr_ids, btif_rc_device_cb_t* p_dev) { BTIF_TRACE_DEBUG("%s: num_attribute: %d attribute_id: %d", __func__, num_attribute, p_attr_ids[0]); CHECK_RC_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.get_elem_attrs.opcode = AVRC_OP_VENDOR; avrc_cmd.get_elem_attrs.status = AVRC_STS_NO_ERROR; avrc_cmd.get_elem_attrs.num_attr = num_attribute; avrc_cmd.get_elem_attrs.pdu = AVRC_PDU_GET_ELEMENT_ATTR; for (int count = 0; count < num_attribute; count++) { avrc_cmd.get_elem_attrs.attrs[count] = p_attr_ids[count]; } return build_and_send_vendor_cmd(&avrc_cmd, AVRC_CMD_STATUS, p_dev); } /*************************************************************************** * * Function get_play_status_cmd * * Description Get Playing Status of a Device * * Returns bt_status_t * **************************************************************************/ static bt_status_t get_play_status_cmd(btif_rc_device_cb_t* p_dev) { BTIF_TRACE_DEBUG("%s", __func__); CHECK_RC_CONNECTED(p_dev); tAVRC_COMMAND avrc_cmd = {0}; avrc_cmd.get_play_status.opcode = AVRC_OP_VENDOR; avrc_cmd.get_play_status.pdu = AVRC_PDU_GET_PLAY_STATUS; avrc_cmd.get_play_status.status = AVRC_STS_NO_ERROR; return build_and_send_vendor_cmd(&avrc_cmd, AVRC_CMD_STATUS, p_dev); } /*************************************************************************** * * Function set_volume_rsp * * Description Rsp for SetAbsoluteVolume Command * * Returns void * **************************************************************************/ static bt_status_t set_volume_rsp(const RawAddress& bd_addr, uint8_t abs_vol, uint8_t label) { tAVRC_STS status = BT_STATUS_UNSUPPORTED; tAVRC_RESPONSE avrc_rsp; BT_HDR* p_msg = NULL; btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); CHECK_RC_CONNECTED(p_dev); BTIF_TRACE_DEBUG("%s: abs_vol: %d", __func__, abs_vol); avrc_rsp.volume.opcode = AVRC_OP_VENDOR; avrc_rsp.volume.pdu = AVRC_PDU_SET_ABSOLUTE_VOLUME; avrc_rsp.volume.status = AVRC_STS_NO_ERROR; avrc_rsp.volume.volume = abs_vol; status = AVRC_BldResponse(p_dev->rc_handle, &avrc_rsp, &p_msg); if (status == AVRC_STS_NO_ERROR) { uint8_t* data_start = (uint8_t*)(p_msg + 1) + p_msg->offset; BTIF_TRACE_DEBUG("%s: msgreq being sent out with label: %d", __func__, p_dev->rc_vol_label); if (p_msg != NULL) { BTA_AvVendorRsp(p_dev->rc_handle, label, AVRC_RSP_ACCEPT, data_start, p_msg->len, 0); status = BT_STATUS_SUCCESS; } } else { BTIF_TRACE_ERROR("%s: failed to build command. status: 0x%02x", __func__, status); } osi_free(p_msg); return (bt_status_t)status; } /*************************************************************************** * * Function send_register_abs_vol_rsp * * Description Rsp for Notification of Absolute Volume * * Returns void * **************************************************************************/ static bt_status_t volume_change_notification_rsp( const RawAddress& bd_addr, btrc_notification_type_t rsp_type, uint8_t abs_vol, uint8_t label) { tAVRC_STS status = BT_STATUS_UNSUPPORTED; tAVRC_RESPONSE avrc_rsp; BT_HDR* p_msg = NULL; BTIF_TRACE_DEBUG("%s: rsp_type: %d abs_vol: %d", __func__, rsp_type, abs_vol); btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); CHECK_RC_CONNECTED(p_dev); avrc_rsp.reg_notif.opcode = AVRC_OP_VENDOR; avrc_rsp.reg_notif.pdu = AVRC_PDU_REGISTER_NOTIFICATION; avrc_rsp.reg_notif.status = AVRC_STS_NO_ERROR; avrc_rsp.reg_notif.param.volume = abs_vol; avrc_rsp.reg_notif.event_id = AVRC_EVT_VOLUME_CHANGE; status = AVRC_BldResponse(p_dev->rc_handle, &avrc_rsp, &p_msg); if (status == AVRC_STS_NO_ERROR) { BTIF_TRACE_DEBUG("%s: msgreq being sent out with label: %d", __func__, label); uint8_t* data_start = (uint8_t*)(p_msg + 1) + p_msg->offset; BTA_AvVendorRsp(p_dev->rc_handle, label, (rsp_type == BTRC_NOTIFICATION_TYPE_INTERIM) ? AVRC_RSP_INTERIM : AVRC_RSP_CHANGED, data_start, p_msg->len, 0); status = BT_STATUS_SUCCESS; } else { BTIF_TRACE_ERROR("%s: failed to build command. status: 0x%02x", __func__, status); } osi_free(p_msg); return (bt_status_t)status; } /*************************************************************************** * * Function send_groupnavigation_cmd * * Description Send Pass-Through command * * Returns void * **************************************************************************/ static bt_status_t send_groupnavigation_cmd(const RawAddress& bd_addr, uint8_t key_code, uint8_t key_state) { tAVRC_STS status = BT_STATUS_UNSUPPORTED; rc_transaction_t* p_transaction = NULL; BTIF_TRACE_DEBUG("%s: key-code: %d, key-state: %d", __func__, key_code, key_state); btif_rc_device_cb_t* p_dev = btif_rc_get_device_by_bda(bd_addr); CHECK_RC_CONNECTED(p_dev); if (p_dev->rc_features & BTA_AV_FEAT_RCTG) { bt_status_t tran_status = get_transaction(p_dev, &p_transaction); if ((BT_STATUS_SUCCESS == tran_status) && (NULL != p_transaction)) { uint8_t buffer[AVRC_PASS_THRU_GROUP_LEN] = {0}; uint8_t* start = buffer; UINT24_TO_BE_STREAM(start, AVRC_CO_METADATA); *(start)++ = 0; UINT8_TO_BE_STREAM(start, key_code); BTA_AvRemoteVendorUniqueCmd(p_dev->rc_handle, p_transaction->lbl, (tBTA_AV_STATE)key_state, buffer, AVRC_PASS_THRU_GROUP_LEN); status = BT_STATUS_SUCCESS; BTIF_TRACE_DEBUG("%s: succesfully sent group_navigation command to BTA", __func__); } else { status = BT_STATUS_FAIL; BTIF_TRACE_DEBUG("%s: error in fetching transaction", __func__); } } else { status = BT_STATUS_FAIL; BTIF_TRACE_DEBUG("%s: feature not supported", __func__); } return (bt_status_t)status; } /*************************************************************************** * * Function send_passthrough_cmd * * Description Send Pass-Through command * * Returns void * **************************************************************************/ static bt_status_t send_passthrough_cmd(const RawAddress& bd_addr, uint8_t key_code, uint8_t key_state) { tAVRC_STS status = BT_STATUS_UNSUPPORTED; btif_rc_device_cb_t* p_dev = NULL; BTIF_TRACE_ERROR("%s: calling btif_rc_get_device_by_bda", __func__); p_dev = btif_rc_get_device_by_bda(bd_addr); CHECK_RC_CONNECTED(p_dev); rc_transaction_t* p_transaction = NULL; BTIF_TRACE_DEBUG("%s: key-code: %d, key-state: %d", __func__, key_code, key_state); if (p_dev->rc_features & BTA_AV_FEAT_RCTG) { bt_status_t tran_status = get_transaction(p_dev, &p_transaction); if (BT_STATUS_SUCCESS == tran_status && NULL != p_transaction) { BTA_AvRemoteCmd(p_dev->rc_handle, p_transaction->lbl, (tBTA_AV_RC)key_code, (tBTA_AV_STATE)key_state); status = BT_STATUS_SUCCESS; BTIF_TRACE_DEBUG("%s: succesfully sent passthrough command to BTA", __func__); } else { status = BT_STATUS_FAIL; BTIF_TRACE_DEBUG("%s: error in fetching transaction", __func__); } } else { status = BT_STATUS_FAIL; BTIF_TRACE_DEBUG("%s: feature not supported", __func__); } return (bt_status_t)status; } static const btrc_interface_t bt_rc_interface = { sizeof(bt_rc_interface), init, get_play_status_rsp, NULL, /* list_player_app_attr_rsp */ NULL, /* list_player_app_value_rsp */ NULL, /* get_player_app_value_rsp */ NULL, /* get_player_app_attr_text_rsp */ NULL, /* get_player_app_value_text_rsp */ get_element_attr_rsp, NULL, /* set_player_app_value_rsp */ register_notification_rsp, set_volume, set_addressed_player_rsp, set_browsed_player_rsp, get_folder_items_list_rsp, change_path_rsp, get_item_attr_rsp, play_item_rsp, get_total_num_of_items_rsp, search_rsp, add_to_now_playing_rsp, cleanup, }; static const btrc_ctrl_interface_t bt_rc_ctrl_interface = { sizeof(bt_rc_ctrl_interface), init_ctrl, send_passthrough_cmd, send_groupnavigation_cmd, change_player_app_setting, play_item_cmd, get_current_metadata_cmd, get_playback_state_cmd, get_now_playing_list_cmd, get_folder_list_cmd, get_player_list_cmd, change_folder_path_cmd, set_browsed_player_cmd, set_addressed_player_cmd, set_volume_rsp, volume_change_notification_rsp, cleanup_ctrl, }; /******************************************************************************* * * Function btif_rc_get_interface * * Description Get the AVRCP Target callback interface * * Returns btrc_interface_t * ******************************************************************************/ const btrc_interface_t* btif_rc_get_interface(void) { BTIF_TRACE_EVENT("%s: ", __func__); return &bt_rc_interface; } /******************************************************************************* * * Function btif_rc_ctrl_get_interface * * Description Get the AVRCP Controller callback interface * * Returns btrc_ctrl_interface_t * ******************************************************************************/ const btrc_ctrl_interface_t* btif_rc_ctrl_get_interface(void) { BTIF_TRACE_EVENT("%s: ", __func__); return &bt_rc_ctrl_interface; } /******************************************************************************* * Function initialize_transaction * * Description Initializes fields of the transaction structure * * Returns void ******************************************************************************/ static void initialize_transaction(btif_rc_device_cb_t* p_dev, int lbl) { if (p_dev == nullptr) return; rc_transaction_set_t* transaction_set = &(p_dev->transaction_set); std::unique_lock lock(transaction_set->lbllock); if (lbl < MAX_TRANSACTIONS_PER_SESSION) { if (alarm_is_scheduled(transaction_set->transaction[lbl].txn_timer)) { clear_cmd_timeout(p_dev, lbl); } transaction_set->transaction[lbl].lbl = lbl; transaction_set->transaction[lbl].in_use = false; transaction_set->transaction[lbl].handle = 0; } } /******************************************************************************* * * Function init_all_transactions * * Description Initializes all transactions * * Returns void ******************************************************************************/ void init_all_transactions(btif_rc_device_cb_t* p_dev) { if (p_dev == nullptr) return; for (auto i = 0; i < MAX_TRANSACTIONS_PER_SESSION; ++i) { initialize_transaction(p_dev, i); } } /******************************************************************************* * * Function get_transaction_by_lbl * * Description Will return a transaction based on the label. If not inuse * will return an error. * * Returns bt_status_t ******************************************************************************/ rc_transaction_t* get_transaction_by_lbl(btif_rc_device_cb_t* p_dev, uint8_t lbl) { if (p_dev == nullptr) return nullptr; rc_transaction_t* transaction = NULL; rc_transaction_set_t* transaction_set = &(p_dev->transaction_set); std::unique_lock lock(transaction_set->lbllock); /* Determine if this is a valid label */ if (lbl < MAX_TRANSACTIONS_PER_SESSION) { if (!transaction_set->transaction[lbl].in_use) { transaction = NULL; } else { transaction = &(transaction_set->transaction[lbl]); } } return transaction; } /******************************************************************************* * * Function get_transaction * * Description Obtains the transaction details. * * Returns bt_status_t ******************************************************************************/ static bt_status_t get_transaction(btif_rc_device_cb_t* p_dev, rc_transaction_t** ptransaction) { if (p_dev == NULL) return BT_STATUS_FAIL; rc_transaction_set_t* transaction_set = &(p_dev->transaction_set); std::unique_lock lock(transaction_set->lbllock); // Check for unused transactions in the device's transaction set for (uint8_t i = 0; i < MAX_TRANSACTIONS_PER_SESSION; i++) { if (!transaction_set->transaction[i].in_use) { BTIF_TRACE_DEBUG("%s: p_dev=%s, label=%d, got free transaction!", __func__, p_dev->rc_addr.ToString().c_str(), i); transaction_set->transaction[i].in_use = true; *ptransaction = &(transaction_set->transaction[i]); return BT_STATUS_SUCCESS; } } BTIF_TRACE_ERROR("%s: p_dev=%s, failed to find free transaction", __func__, p_dev->rc_addr.ToString().c_str()); return BT_STATUS_NOMEM; } /******************************************************************************* * * Function release_transaction * * Description Will release a transaction for reuse * * Returns bt_status_t ******************************************************************************/ void release_transaction(btif_rc_device_cb_t* p_dev, uint8_t lbl) { BTIF_TRACE_DEBUG("%s: p_dev=%s, label=%d", __func__, p_dev == NULL ? "null" : p_dev->rc_addr.ToString().c_str(), lbl); rc_transaction_t* transaction = get_transaction_by_lbl(p_dev, lbl); /* If the transaction is in use... */ if (transaction != NULL) { initialize_transaction(p_dev, lbl); } } /******************************************************************************* * Function sleep_ms * * Description Sleep the calling thread unconditionally for * |timeout_ms| milliseconds. * * Returns void ******************************************************************************/ static void sleep_ms(uint64_t timeout_ms) { struct timespec delay; delay.tv_sec = timeout_ms / 1000; delay.tv_nsec = 1000 * 1000 * (timeout_ms % 1000); OSI_NO_INTR(nanosleep(&delay, &delay)); } static bool absolute_volume_disabled() { char volume_disabled[PROPERTY_VALUE_MAX] = {0}; osi_property_get("persist.bluetooth.disableabsvol", volume_disabled, "false"); if (strncmp(volume_disabled, "true", 4) == 0) { BTIF_TRACE_WARNING("%s: Absolute volume disabled by property", __func__); return true; } return false; }