/****************************************************************************** * * Copyright (c) 2016 The Android Open Source Project * Copyright 2003-2012 Broadcom Corporation * * 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. * ******************************************************************************/ #include #include #include "bta/hf_client/bta_hf_client_int.h" #include "bta/include/utl.h" #include "osi/include/allocator.h" #include "osi/include/osi.h" // UNUSED_ATTR #include "stack/include/btm_api.h" static const char* bta_hf_client_evt_str(uint16_t event); static const char* bta_hf_client_state_str(uint8_t state); void bta_hf_client_cb_init(tBTA_HF_CLIENT_CB* client_cb, uint16_t handle); /* state machine states */ enum { BTA_HF_CLIENT_INIT_ST, BTA_HF_CLIENT_OPENING_ST, BTA_HF_CLIENT_OPEN_ST, BTA_HF_CLIENT_CLOSING_ST }; /* state machine action enumeration list */ enum { BTA_HF_CLIENT_RFC_DO_CLOSE, BTA_HF_CLIENT_START_CLOSE, BTA_HF_CLIENT_START_OPEN, BTA_HF_CLIENT_RFC_ACP_OPEN, BTA_HF_CLIENT_SCO_LISTEN, BTA_HF_CLIENT_SCO_CONN_OPEN, BTA_HF_CLIENT_SCO_CONN_CLOSE, BTA_HF_CLIENT_SCO_OPEN, BTA_HF_CLIENT_SCO_CLOSE, BTA_HF_CLIENT_FREE_DB, BTA_HF_CLIENT_OPEN_FAIL, BTA_HF_CLIENT_RFC_OPEN, BTA_HF_CLIENT_RFC_FAIL, BTA_HF_CLIENT_DISC_INT_RES, BTA_HF_CLIENT_RFC_DO_OPEN, BTA_HF_CLIENT_DISC_FAIL, BTA_HF_CLIENT_RFC_CLOSE, BTA_HF_CLIENT_RFC_DATA, BTA_HF_CLIENT_DISC_ACP_RES, BTA_HF_CLIENT_SVC_CONN_OPEN, BTA_HF_CLIENT_SEND_AT_CMD, BTA_HF_CLIENT_NUM_ACTIONS, }; #define BTA_HF_CLIENT_IGNORE BTA_HF_CLIENT_NUM_ACTIONS /* type for action functions */ typedef void (*tBTA_HF_CLIENT_ACTION)(tBTA_HF_CLIENT_DATA* p_data); /* action functions table, indexed with action enum */ const tBTA_HF_CLIENT_ACTION bta_hf_client_action[] = { /* BTA_HF_CLIENT_RFC_DO_CLOSE */ bta_hf_client_rfc_do_close, /* BTA_HF_CLIENT_START_CLOSE */ bta_hf_client_start_close, /* BTA_HF_CLIENT_START_OPEN */ bta_hf_client_start_open, /* BTA_HF_CLIENT_RFC_ACP_OPEN */ bta_hf_client_rfc_acp_open, /* BTA_HF_CLIENT_SCO_LISTEN */ NULL, /* BTA_HF_CLIENT_SCO_CONN_OPEN */ bta_hf_client_sco_conn_open, /* BTA_HF_CLIENT_SCO_CONN_CLOSE*/ bta_hf_client_sco_conn_close, /* BTA_HF_CLIENT_SCO_OPEN */ bta_hf_client_sco_open, /* BTA_HF_CLIENT_SCO_CLOSE */ bta_hf_client_sco_close, /* BTA_HF_CLIENT_FREE_DB */ bta_hf_client_free_db, /* BTA_HF_CLIENT_OPEN_FAIL */ bta_hf_client_open_fail, /* BTA_HF_CLIENT_RFC_OPEN */ bta_hf_client_rfc_open, /* BTA_HF_CLIENT_RFC_FAIL */ bta_hf_client_rfc_fail, /* BTA_HF_CLIENT_DISC_INT_RES */ bta_hf_client_disc_int_res, /* BTA_HF_CLIENT_RFC_DO_OPEN */ bta_hf_client_rfc_do_open, /* BTA_HF_CLIENT_DISC_FAIL */ bta_hf_client_disc_fail, /* BTA_HF_CLIENT_RFC_CLOSE */ bta_hf_client_rfc_close, /* BTA_HF_CLIENT_RFC_DATA */ bta_hf_client_rfc_data, /* BTA_HF_CLIENT_DISC_ACP_RES */ bta_hf_client_disc_acp_res, /* BTA_HF_CLIENT_SVC_CONN_OPEN */ bta_hf_client_svc_conn_open, /* BTA_HF_CLIENT_SEND_AT_CMD */ bta_hf_client_send_at_cmd, }; /* state table information */ #define BTA_HF_CLIENT_ACTIONS 2 /* number of actions */ #define BTA_HF_CLIENT_NEXT_STATE 2 /* position of next state */ #define BTA_HF_CLIENT_NUM_COLS 3 /* number of columns in state tables */ /* state table for init state */ const uint8_t bta_hf_client_st_init[][BTA_HF_CLIENT_NUM_COLS] = { /* Event Action 1 Action 2 Next state */ /* API_OPEN_EVT */ {BTA_HF_CLIENT_START_OPEN, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPENING_ST}, /* API_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* API_AUDIO_OPEN_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* API_AUDIO_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* RFC_OPEN_EVT */ {BTA_HF_CLIENT_RFC_ACP_OPEN, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* RFC_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* RFC_SRV_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* RFC_DATA_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* DISC_ACP_RES_EVT */ {BTA_HF_CLIENT_FREE_DB, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* DISC_INT_RES_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* DISC_OK_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* DISC_FAIL_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* SCO_OPEN_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* SCO_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* SEND_AT_CMD_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, }; /* state table for opening state */ const uint8_t bta_hf_client_st_opening[][BTA_HF_CLIENT_NUM_COLS] = { /* Event Action 1 Action 2 Next state */ /* API_OPEN_EVT */ {BTA_HF_CLIENT_OPEN_FAIL, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPENING_ST}, /* API_CLOSE_EVT */ {BTA_HF_CLIENT_RFC_DO_CLOSE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* API_AUDIO_OPEN_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPENING_ST}, /* API_AUDIO_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPENING_ST}, /* RFC_OPEN_EVT */ {BTA_HF_CLIENT_RFC_OPEN, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* RFC_CLOSE_EVT */ {BTA_HF_CLIENT_RFC_FAIL, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* RFC_SRV_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPENING_ST}, /* RFC_DATA_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPENING_ST}, /* DISC_ACP_RES_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPENING_ST}, /* DISC_INT_RES_EVT */ {BTA_HF_CLIENT_DISC_INT_RES, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPENING_ST}, /* DISC_OK_EVT */ {BTA_HF_CLIENT_RFC_DO_OPEN, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPENING_ST}, /* DISC_FAIL_EVT */ {BTA_HF_CLIENT_DISC_FAIL, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* SCO_OPEN_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPENING_ST}, /* SCO_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPENING_ST}, /* SEND_AT_CMD_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPENING_ST}, }; /* state table for open state */ const uint8_t bta_hf_client_st_open[][BTA_HF_CLIENT_NUM_COLS] = { /* Event Action 1 Action 2 Next state */ /* API_OPEN_EVT */ {BTA_HF_CLIENT_OPEN_FAIL, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* API_CLOSE_EVT */ {BTA_HF_CLIENT_START_CLOSE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* API_AUDIO_OPEN_EVT */ {BTA_HF_CLIENT_SCO_OPEN, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* API_AUDIO_CLOSE_EVT */ {BTA_HF_CLIENT_SCO_CLOSE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* RFC_OPEN_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* RFC_CLOSE_EVT */ {BTA_HF_CLIENT_RFC_CLOSE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* RFC_SRV_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* RFC_DATA_EVT */ {BTA_HF_CLIENT_RFC_DATA, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* DISC_ACP_RES_EVT */ {BTA_HF_CLIENT_DISC_ACP_RES, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* DISC_INT_RES_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* DISC_OK_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* DISC_FAIL_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* SCO_OPEN_EVT */ {BTA_HF_CLIENT_SCO_CONN_OPEN, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* SCO_CLOSE_EVT */ {BTA_HF_CLIENT_SCO_CONN_CLOSE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, /* SEND_AT_CMD_EVT */ {BTA_HF_CLIENT_SEND_AT_CMD, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_OPEN_ST}, }; /* state table for closing state */ const uint8_t bta_hf_client_st_closing[][BTA_HF_CLIENT_NUM_COLS] = { /* Event Action 1 Action 2 Next state */ /* API_OPEN_EVT */ {BTA_HF_CLIENT_OPEN_FAIL, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* API_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* API_AUDIO_OPEN_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* API_AUDIO_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* RFC_OPEN_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* RFC_CLOSE_EVT */ {BTA_HF_CLIENT_RFC_CLOSE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* RFC_SRV_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* RFC_DATA_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* DISC_ACP_RES_EVT */ {BTA_HF_CLIENT_FREE_DB, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* DISC_INT_RES_EVT */ {BTA_HF_CLIENT_FREE_DB, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_INIT_ST}, /* DISC_OK_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* DISC_FAIL_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* SCO_OPEN_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* SCO_CLOSE_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, /* SEND_AT_CMD_EVT */ {BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_IGNORE, BTA_HF_CLIENT_CLOSING_ST}, }; /* type for state table */ typedef const uint8_t (*tBTA_HF_CLIENT_ST_TBL)[BTA_HF_CLIENT_NUM_COLS]; /* state table */ const tBTA_HF_CLIENT_ST_TBL bta_hf_client_st_tbl[] = { bta_hf_client_st_init, bta_hf_client_st_opening, bta_hf_client_st_open, bta_hf_client_st_closing}; /* HF Client control block */ tBTA_HF_CLIENT_CB_ARR bta_hf_client_cb_arr; /* Event handler for the state machine */ static const tBTA_SYS_REG bta_hf_client_reg = {bta_hf_client_hdl_event, BTA_HfClientDisable}; /******************************************************************************* * * Function bta_hf_client_cb_arr_init * * Description Initialize entire control block array set * * * Returns void * ******************************************************************************/ void bta_hf_client_cb_arr_init() { memset(&bta_hf_client_cb_arr, 0, sizeof(tBTA_HF_CLIENT_CB_ARR)); // reset the handles and make the CBs non-allocated for (int i = 0; i < HF_CLIENT_MAX_DEVICES; i++) { // Allocate the handles in increasing order of indices bta_hf_client_cb_init(&(bta_hf_client_cb_arr.cb[i]), i); bta_hf_client_cb_arr.cb[i].handle = BTA_HF_CLIENT_CB_FIRST_HANDLE + i; } } /******************************************************************************* * * Function bta_hf_client_cb_init * * Description Initialize an HF_Client service control block. Assign the * handle to cb->handle. * * * * Returns void * ******************************************************************************/ void bta_hf_client_cb_init(tBTA_HF_CLIENT_CB* client_cb, uint16_t handle) { APPL_TRACE_DEBUG("%s", __func__); // Free any memory we need to explicity release alarm_free(client_cb->collision_timer); // release unique pointers client_cb->enabled_hf_indicators.clear(); client_cb->peer_hf_indicators.clear(); // Memset the rest of the block // memset(client_cb, 0, sizeof(tBTA_HF_CLIENT_CB)); *client_cb = {}; // Re allocate any variables required client_cb->collision_timer = alarm_new("bta_hf_client.scb_collision_timer"); client_cb->handle = handle; client_cb->sco_idx = BTM_INVALID_SCO_INDEX; } /******************************************************************************* * * Function bta_hf_client_resume_open * * Description Resume opening process. * * * Returns void * ******************************************************************************/ void bta_hf_client_resume_open(tBTA_HF_CLIENT_CB* client_cb) { APPL_TRACE_DEBUG("%s", __func__); /* resume opening process. */ if (client_cb->state == BTA_HF_CLIENT_INIT_ST) { client_cb->state = BTA_HF_CLIENT_OPENING_ST; tBTA_HF_CLIENT_DATA msg; msg.hdr.layer_specific = client_cb->handle; msg.api_open.bd_addr = client_cb->peer_addr; bta_hf_client_start_open(&msg); } } /******************************************************************************* * * Function bta_hf_client_collision_timer_cback * * Description HF Client connection collision timer callback * * * Returns void * ******************************************************************************/ static void bta_hf_client_collision_timer_cback(void* data) { APPL_TRACE_DEBUG("%s", __func__); tBTA_HF_CLIENT_CB* client_cb = (tBTA_HF_CLIENT_CB*)data; /* If the peer haven't opened connection, restart opening process */ bta_hf_client_resume_open(client_cb); } /******************************************************************************* * * Function bta_hf_client_collision_cback * * Description Get notified about collision. * * * Returns void * ******************************************************************************/ void bta_hf_client_collision_cback(UNUSED_ATTR tBTA_SYS_CONN_STATUS status, uint8_t id, UNUSED_ATTR uint8_t app_id, const RawAddress& peer_addr) { tBTA_HF_CLIENT_CB* client_cb = bta_hf_client_find_cb_by_bda(peer_addr); if (client_cb != NULL && client_cb->state == BTA_HF_CLIENT_OPENING_ST) { if (id == BTA_ID_SYS) /* ACL collision */ { APPL_TRACE_WARNING("HF Client found collision (ACL) ..."); } else if (id == BTA_ID_HS) /* RFCOMM collision */ { APPL_TRACE_WARNING("HF Client found collision (RFCOMM) ..."); } else { APPL_TRACE_WARNING("HF Client found collision (\?\?\?) ..."); } client_cb->state = BTA_HF_CLIENT_INIT_ST; /* Cancel SDP if it had been started. */ if (client_cb->p_disc_db) { (void)SDP_CancelServiceSearch(client_cb->p_disc_db); osi_free_and_reset((void**)&client_cb->p_disc_db); } /* reopen registered server */ /* Collision may be detected before or after we close servers. */ bta_hf_client_start_server(); /* Start timer to handle connection opening restart */ alarm_set_on_mloop(client_cb->collision_timer, BTA_HF_CLIENT_COLLISION_TIMER_MS, bta_hf_client_collision_timer_cback, (void*)client_cb); } } /******************************************************************************* * * Function bta_hf_client_api_enable * * Description Handle an API enable event. * * * Returns void * ******************************************************************************/ tBTA_STATUS bta_hf_client_api_enable(tBTA_HF_CLIENT_CBACK* p_cback, tBTA_HF_CLIENT_FEAT features, const char* p_service_name) { /* If already registered then return error */ if (bta_sys_is_register(BTA_ID_HS)) { APPL_TRACE_ERROR("BTA HF Client is already enabled, ignoring ..."); return BTA_FAILURE; } /* register with BTA system manager */ bta_sys_register(BTA_ID_HS, &bta_hf_client_reg); /* reset the control blocks */ bta_hf_client_cb_arr_init(); bta_hf_client_cb_arr.p_cback = p_cback; bta_hf_client_cb_arr.features = features; /* create SDP records */ bta_hf_client_create_record(&bta_hf_client_cb_arr, p_service_name); /* set same setting as AG does */ BTM_WriteVoiceSettings(AG_VOICE_SETTINGS); bta_sys_collision_register(BTA_ID_HS, bta_hf_client_collision_cback); /* Set the Audio service class bit */ tBTA_UTL_COD cod; cod.service = BTM_COD_SERVICE_AUDIO; utl_set_device_class(&cod, BTA_UTL_SET_COD_SERVICE_CLASS); /* start RFCOMM server */ bta_hf_client_start_server(); return BTA_SUCCESS; } /******************************************************************************* * * Function bta_hf_client_find_cb_by_handle * * Description Finds the control block by handle provided * * handle: Handle as obtained from BTA_HfClientOpen call * * * Returns Control block corresponding to the handle and NULL if * none exists * ******************************************************************************/ tBTA_HF_CLIENT_CB* bta_hf_client_find_cb_by_handle(uint16_t handle) { // Handles are limited from 1 through HF_CLIENT_MAX_DEVICES if (handle < 1 || handle > HF_CLIENT_MAX_DEVICES) { APPL_TRACE_ERROR("%s: handle out of range (%d, %d) %d", __func__, 1, HF_CLIENT_MAX_DEVICES, handle); return NULL; } // Check if the associated index is allocated. Index is (handle - 1). if (bta_hf_client_cb_arr.cb[handle - 1].is_allocated) return &(bta_hf_client_cb_arr.cb[handle - 1]); APPL_TRACE_ERROR("%s: block not found for handle %d", __func__, handle); return NULL; } /******************************************************************************* * * Function bta_hf_client_find_cb_by_bda * * Description Finds the control block by handle provided * * bda: address of the device to find the handle for. * Since there can only be one HF connection for a device * we should always find a unique block * * Returns Control block corresponding to the address and NULL if * none exists * ******************************************************************************/ tBTA_HF_CLIENT_CB* bta_hf_client_find_cb_by_bda(const RawAddress& peer_addr) { for (int i = 0; i < HF_CLIENT_MAX_DEVICES; i++) { // Check if the associated index is allocated and that BD ADDR matches tBTA_HF_CLIENT_CB* client_cb = &bta_hf_client_cb_arr.cb[i]; if (client_cb->is_allocated && peer_addr == client_cb->peer_addr) { return client_cb; } else { APPL_TRACE_WARNING("%s: bdaddr mismatch for handle %d alloc %d", __func__, i, client_cb->is_allocated); } } APPL_TRACE_ERROR("%s: block not found", __func__); return NULL; } /******************************************************************************* * * Function bta_hf_client_find_cb_by_rfc_handle * * Description Finds the control block by RFC handle provided. * * handle: RFC handle for the established connection * * * Returns Control block corresponding to the handle and NULL if none * exists * ******************************************************************************/ tBTA_HF_CLIENT_CB* bta_hf_client_find_cb_by_rfc_handle(uint16_t handle) { for (int i = 0; i < HF_CLIENT_MAX_DEVICES; i++) { tBTA_HF_CLIENT_CB* client_cb = &bta_hf_client_cb_arr.cb[i]; bool is_allocated = client_cb->is_allocated; uint16_t conn_handle = client_cb->conn_handle; APPL_TRACE_DEBUG("%s: cb rfc_handle %d alloc %d conn_handle %d", __func__, handle, is_allocated, conn_handle); if (is_allocated && conn_handle == handle) { return client_cb; } APPL_TRACE_WARNING("%s: no cb yet %d alloc %d conn_handle %d", __func__, handle, is_allocated, conn_handle); } APPL_TRACE_ERROR("%s: no cb found for rfc handle %d", __func__, handle); return NULL; } /******************************************************************************* * * Function bta_hf_client_find_cb_by_sco_handle * * Description Finds the control block by sco handle provided * * handle: sco handle * * * Returns Control block corresponding to the sco handle and * none if none exists * ******************************************************************************/ tBTA_HF_CLIENT_CB* bta_hf_client_find_cb_by_sco_handle(uint16_t handle) { for (int i = 0; i < HF_CLIENT_MAX_DEVICES; i++) { tBTA_HF_CLIENT_CB* client_cb = &bta_hf_client_cb_arr.cb[i]; if (client_cb->is_allocated && client_cb->sco_idx == handle) { return client_cb; } } APPL_TRACE_ERROR("%s: block not found for handle %d", __func__, handle); return NULL; } /******************************************************************************* * * Function bta_hf_client_allocate_handle * * Description Allocates a handle for the new BD ADDR that needs a new RF * channel for HF connection. If the channel cannot be created * for a reason then false is returned * * bd_addr: Address of the device for which this block is * being created. Single device can only have one block. * p_handle: OUT variable to store the outcome of allocate. If * allocate failed then value is not valid * * * Returns true if the creation of p_handle succeeded, false otherwise * ******************************************************************************/ bool bta_hf_client_allocate_handle(const RawAddress& bd_addr, uint16_t* p_handle) { tBTA_HF_CLIENT_CB* existing_cb = bta_hf_client_find_cb_by_bda(bd_addr); if (existing_cb != NULL) { BTIF_TRACE_ERROR("%s: cannot allocate handle since BDADDR already exists", __func__); return false; } /* Check that we do not have a request to for same device in the control * blocks */ for (int i = 0; i < HF_CLIENT_MAX_DEVICES; i++) { tBTA_HF_CLIENT_CB* client_cb = &bta_hf_client_cb_arr.cb[i]; if (client_cb->is_allocated) { APPL_TRACE_WARNING("%s: control block already used index %d", __func__, i); continue; } // Reset the client control block bta_hf_client_cb_init(client_cb, client_cb->handle); *p_handle = client_cb->handle; APPL_TRACE_DEBUG("%s: marking CB handle %d to true", __func__, client_cb->handle); client_cb->is_allocated = true; client_cb->peer_addr = bd_addr; bta_hf_client_at_init(client_cb); return true; } return false; APPL_TRACE_ERROR("%s: all control blocks in use!", __func__); } /******************************************************************************* * * Function bta_hf_client_app_callback * * Description Calls the application callback * * * Returns Void * ******************************************************************************/ void bta_hf_client_app_callback(uint16_t event, tBTA_HF_CLIENT* data) { if (bta_hf_client_cb_arr.p_cback != NULL) { bta_hf_client_cb_arr.p_cback(event, data); } } /******************************************************************************* * * Function bta_hf_client_api_disable * * Description Handle an API disable event. * * * Returns void * ******************************************************************************/ void bta_hf_client_api_disable() { if (!bta_sys_is_register(BTA_ID_HS)) { APPL_TRACE_WARNING("BTA HF Client is already disabled, ignoring ..."); return; } /* Remove the collision handler */ bta_sys_collision_register(BTA_ID_HS, NULL); bta_hf_client_cb_arr.deregister = true; /* remove sdp record */ bta_hf_client_del_record(&bta_hf_client_cb_arr); /* remove rfcomm server */ bta_hf_client_close_server(); /* reinit the control block */ for (int i = 0; i < HF_CLIENT_MAX_DEVICES; i++) { if (bta_hf_client_cb_arr.cb[i].is_allocated) { bta_hf_client_cb_init(&(bta_hf_client_cb_arr.cb[i]), i); } } /* De-register with BTA system manager */ bta_sys_deregister(BTA_ID_HS); } /******************************************************************************* * * Function bta_hf_client_hdl_event * * Description Data HF Client main event handling function. * * * Returns bool * ******************************************************************************/ bool bta_hf_client_hdl_event(BT_HDR_RIGID* p_msg) { APPL_TRACE_DEBUG("%s: %s (0x%x)", __func__, bta_hf_client_evt_str(p_msg->event), p_msg->event); bta_hf_client_sm_execute(p_msg->event, (tBTA_HF_CLIENT_DATA*)p_msg); return true; } /******************************************************************************* * * Function bta_hf_client_sm_execute * * Description State machine event handling function for HF Client * * * Returns void * ******************************************************************************/ void bta_hf_client_sm_execute(uint16_t event, tBTA_HF_CLIENT_DATA* p_data) { tBTA_HF_CLIENT_CB* client_cb = bta_hf_client_find_cb_by_handle(p_data->hdr.layer_specific); if (client_cb == NULL) { APPL_TRACE_ERROR("%s: cb not found for handle %d", __func__, p_data->hdr.layer_specific); return; } tBTA_HF_CLIENT_ST_TBL state_table; uint8_t action; int i; uint16_t in_event = event; uint8_t in_state = client_cb->state; /* Ignore displaying of AT results when not connected (Ignored in state * machine) */ if (client_cb->state == BTA_HF_CLIENT_OPEN_ST) { APPL_TRACE_EVENT("HF Client evt : State %d (%s), Event 0x%04x (%s)", client_cb->state, bta_hf_client_state_str(client_cb->state), event, bta_hf_client_evt_str(event)); } event &= 0x00FF; if (event >= (BTA_HF_CLIENT_MAX_EVT & 0x00FF)) { APPL_TRACE_ERROR("HF Client evt out of range, ignoring..."); return; } /* look up the state table for the current state */ state_table = bta_hf_client_st_tbl[client_cb->state]; /* set next state */ client_cb->state = state_table[event][BTA_HF_CLIENT_NEXT_STATE]; /* execute action functions */ for (i = 0; i < BTA_HF_CLIENT_ACTIONS; i++) { action = state_table[event][i]; if (action != BTA_HF_CLIENT_IGNORE) { (*bta_hf_client_action[action])(p_data); } else { break; } } /* If the state has changed then notify the app of the corresponding change */ if (in_state != client_cb->state) { VLOG(1) << __func__ << ": notifying state change to " << in_state << " -> " << client_cb->state << " device " << client_cb->peer_addr; tBTA_HF_CLIENT evt; memset(&evt, 0, sizeof(evt)); evt.bd_addr = client_cb->peer_addr; if (client_cb->state == BTA_HF_CLIENT_INIT_ST) { bta_hf_client_app_callback(BTA_HF_CLIENT_CLOSE_EVT, &evt); APPL_TRACE_DEBUG("%s: marking CB handle %d to false", __func__, client_cb->handle); client_cb->is_allocated = false; } else if (client_cb->state == BTA_HF_CLIENT_OPEN_ST) { evt.open.handle = client_cb->handle; bta_hf_client_app_callback(BTA_HF_CLIENT_OPEN_EVT, &evt); } } VLOG(2) << __func__ << ": device " << client_cb->peer_addr << "state change: [" << bta_hf_client_state_str(in_state) << "] -> [" << bta_hf_client_state_str(client_cb->state) << "] after Event [" << bta_hf_client_evt_str(in_event) << "]"; } static void send_post_slc_cmd(tBTA_HF_CLIENT_CB* client_cb) { client_cb->at_cb.current_cmd = BTA_HF_CLIENT_AT_NONE; tBTA_HF_CLIENT_DATA p_data; p_data.hdr.layer_specific = client_cb->handle; bta_hf_client_sco_listen(&p_data); bta_hf_client_send_at_bia(client_cb); bta_hf_client_send_at_ccwa(client_cb, true); bta_hf_client_send_at_cmee(client_cb, true); bta_hf_client_send_at_cops(client_cb, false); bta_hf_client_send_at_btrh(client_cb, true, 0); bta_hf_client_send_at_clip(client_cb, true); } /******************************************************************************* * * Function bta_hf_client_slc_seq * * Description Handles AT commands sequence required for SLC creation * * * Returns void * ******************************************************************************/ void bta_hf_client_slc_seq(tBTA_HF_CLIENT_CB* client_cb, bool error) { APPL_TRACE_DEBUG("bta_hf_client_slc_seq cmd: %u", client_cb->at_cb.current_cmd); if (error) { /* SLC establishment error, sent close rfcomm event */ APPL_TRACE_ERROR( "HFPClient: Failed to create SLC due to AT error, disconnecting (%u)", client_cb->at_cb.current_cmd); tBTA_HF_CLIENT_DATA msg; msg.hdr.layer_specific = client_cb->handle; bta_hf_client_sm_execute(BTA_HF_CLIENT_API_CLOSE_EVT, &msg); return; } if (client_cb->svc_conn) { APPL_TRACE_WARNING("%s: SLC already connected for CB handle %d", __func__, client_cb->handle); return; } switch (client_cb->at_cb.current_cmd) { case BTA_HF_CLIENT_AT_NONE: bta_hf_client_send_at_brsf(client_cb, bta_hf_client_cb_arr.features); break; case BTA_HF_CLIENT_AT_BRSF: if ((bta_hf_client_cb_arr.features & BTA_HF_CLIENT_FEAT_CODEC) && (client_cb->peer_features & BTA_HF_CLIENT_PEER_CODEC)) { bta_hf_client_send_at_bac(client_cb); break; } bta_hf_client_send_at_cind(client_cb, false); break; case BTA_HF_CLIENT_AT_BAC: bta_hf_client_send_at_cind(client_cb, false); break; case BTA_HF_CLIENT_AT_CIND: bta_hf_client_send_at_cind(client_cb, true); break; case BTA_HF_CLIENT_AT_CIND_STATUS: bta_hf_client_send_at_cmer(client_cb, true); break; case BTA_HF_CLIENT_AT_CMER: if (client_cb->peer_features & BTA_HF_CLIENT_PEER_FEAT_3WAY && bta_hf_client_cb_arr.features & BTA_HF_CLIENT_FEAT_3WAY) { bta_hf_client_send_at_chld(client_cb, '?', 0); } else if (bta_hf_client_cb_arr.features & BTA_HF_CLIENT_FEAT_HF_IND && client_cb->peer_features & BTA_HF_CLIENT_PEER_HF_IND) { bta_hf_client_send_at_bind(client_cb, 0); } else { tBTA_HF_CLIENT_DATA msg; msg.hdr.layer_specific = client_cb->handle; bta_hf_client_svc_conn_open(&msg); send_post_slc_cmd(client_cb); } break; case BTA_HF_CLIENT_AT_CHLD: if (bta_hf_client_cb_arr.features & BTA_HF_CLIENT_FEAT_HF_IND && client_cb->peer_features & BTA_HF_CLIENT_PEER_HF_IND) { bta_hf_client_send_at_bind(client_cb, 0); } else { tBTA_HF_CLIENT_DATA msg; msg.hdr.layer_specific = client_cb->handle; bta_hf_client_svc_conn_open(&msg); send_post_slc_cmd(client_cb); } break; case BTA_HF_CLIENT_AT_BIND_SET_IND: bta_hf_client_send_at_bind(client_cb, 1); break; case BTA_HF_CLIENT_AT_BIND_READ_SUPPORTED_IND: bta_hf_client_send_at_bind(client_cb, 2); break; case BTA_HF_CLIENT_AT_BIND_READ_ENABLED_IND: tBTA_HF_CLIENT_DATA msg; msg.hdr.layer_specific = client_cb->handle; bta_hf_client_svc_conn_open(&msg); send_post_slc_cmd(client_cb); break; default: { /* If happen there is a bug in SLC creation procedure... */ APPL_TRACE_ERROR( "HFPClient: Failed to create SLCdue to unexpected AT command, " "disconnecting (%u)", client_cb->at_cb.current_cmd); tBTA_HF_CLIENT_DATA msg; msg.hdr.layer_specific = client_cb->handle; bta_hf_client_sm_execute(BTA_HF_CLIENT_API_CLOSE_EVT, &msg); break; } } } #ifndef CASE_RETURN_STR #define CASE_RETURN_STR(const) \ case const: \ return #const; #endif static const char* bta_hf_client_evt_str(uint16_t event) { switch (event) { CASE_RETURN_STR(BTA_HF_CLIENT_API_OPEN_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_API_CLOSE_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_API_AUDIO_OPEN_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_API_AUDIO_CLOSE_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_RFC_OPEN_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_RFC_CLOSE_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_RFC_SRV_CLOSE_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_RFC_DATA_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_DISC_ACP_RES_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_DISC_INT_RES_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_DISC_OK_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_DISC_FAIL_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_API_ENABLE_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_API_DISABLE_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_SCO_OPEN_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_SCO_CLOSE_EVT) CASE_RETURN_STR(BTA_HF_CLIENT_SEND_AT_CMD_EVT) default: return "Unknown HF Client Event"; } } static const char* bta_hf_client_state_str(uint8_t state) { switch (state) { CASE_RETURN_STR(BTA_HF_CLIENT_INIT_ST) CASE_RETURN_STR(BTA_HF_CLIENT_OPENING_ST) CASE_RETURN_STR(BTA_HF_CLIENT_OPEN_ST) CASE_RETURN_STR(BTA_HF_CLIENT_CLOSING_ST) default: return "Unknown HF Client State"; } } void bta_hf_client_dump_statistics(int fd) { dprintf(fd, "\nBluetooth HF Client BTA Statistics\n"); // We dump statistics for all control blocks for (int i = 0; i < HF_CLIENT_MAX_DEVICES; i++) { tBTA_HF_CLIENT_CB* client_cb = &bta_hf_client_cb_arr.cb[i]; if (!client_cb->is_allocated) { // Skip the blocks which are not allocated continue; } dprintf(fd, " Control block #%d\n", i + 1); uint8_t* a = client_cb->peer_addr.address; // Device name dprintf(fd, " Peer Device: %02x:%02x:%02x:%02x:%02x:%02x\n", a[0], a[1], a[2], a[3], a[4], a[5]); // State machine state dprintf(fd, " State Machine State: %s\n", bta_hf_client_state_str(client_cb->state)); // Local RFC channelfor communication dprintf(fd, " RFCOMM Channel (local) %d\n", client_cb->conn_handle); // BTA Handle shared between BTA and client (ex BTIF) dprintf(fd, " BTA Generated handle %d\n", client_cb->handle); } }