static bt_status_t btsock_connect(const bt_bdaddr_t *bd_addr, btsock_type_t type,
const uint8_t* uuid, int channel, int* sock_fd, int flags)
{
if((uuid == NULL && channel <= 0) || bd_addr == NULL || sock_fd == NULL)
{
bt_ext_log("[BTSOCK]btsock_listen invalid param");
return BT_STATUS_PARM_INVALID;
}
*sock_fd = -1;
bt_status_t status = BT_STATUS_FAIL;
BT_BOOL ret;
kal_uint8 *addr = (kal_uint8 *)bd_addr;
kal_uint8 *uuid_128 = (kal_uint8 *)uuid;
ret = btmtk_jsr82_session_connect_req(
0,
addr,
uuid_128,
convert_socket_type(type),
channel,
JSR82_SESSION_PS_RFCOMM_MTU,
convert_security(flags),
(kal_int32 *)sock_fd);
if (ret)
{
status = BT_STATUS_SUCCESS;
}
bt_ext_log("[BTSOCK]btsock_connect ret[%d], fd[%d]", ret, *sock_fd);
return status;
}
bt_status_t btif_av_execute_service(bool b_enable)
{
bt_ext_log("[A2DP] bt interface enable run, b_enable: %d\n", b_enable);
if (b_enable)
{
if (!a2dp_registerSocket())
{
bt_ext_log("[A2DP] bt interface register socket fail");
return BT_STATUS_FAIL;
}
bt_ext_log("[AVRCP] := bt interface try to active avrcp.\n");
btmtk_avrcp_send_activate_req(0, 0, 0, 0x13, 0);
bt_ext_log("[A2DP] bt interface try to active a2dp.\n");
btmtk_a2dp_send_activate_req(a2dpsock, a2dpsock);
}
else
{
btmtk_avrcp_send_deactivate_req(0, 0);
btmtk_a2dp_deactive_req();
close(a2dpsock);
a2dpsock = -1;
}
return BT_STATUS_SUCCESS;
}
/*****************************************************************************
* FUNCTION
* jbt_session_service_deregistration
* DESCRIPTION
*
* PARAMETERS
* ps_type [IN]
* transaction_id [IN]
* con_id [IN]
* RETURNS
*
*****************************************************************************/
BT_BOOL btmtk_jsr82_session_service_deregistration(kal_uint8 ps_type, kal_uint32 transaction_id, kal_uint8 con_id)
{
/*----------------------------------------------------------------*/
/* Local Variables */
/*----------------------------------------------------------------*/
ilm_struct ilm;
ilm_struct *ilmptr;
jbt_list *existing_entry = NULL;
jbt_session_info *session_entry = NULL;
BT_BOOL jret = FALSE;
/*----------------------------------------------------------------*/
/* Code Body */
/*----------------------------------------------------------------*/
bt_ext_log("[JSR82][JBT] JBT jbt_session_service_deregistration");
//lock context
if (FALSE == btmtk_jbt_check_context_active())
{
bt_ext_err("[JSR82][JBT] JSR82 does not init");
return FALSE;
}
session_mutex_lock(jbt_jsr82.mutex);
//lock context again
if (FALSE == btmtk_jbt_check_context_active())
{
bt_ext_err("[JSR82][JBT] JSR82 does not init");
jret = FALSE;
goto exit;
}
session_entry = jbt_search_existing_session_entry(ps_type, JBT_LIST_SEARCH_TYPE_BY_INX, con_id);
if (session_entry == NULL)
{
bt_ext_log("[JSR82][JBT] JBT can not find an existing entry with type=%d and value=%d", JBT_LIST_SEARCH_TYPE_BY_INX, con_id);
jret = FALSE;
goto exit;
}
session_entry->transaction_id = transaction_id;
jret = jbt_session_general_service_deregistration(session_entry);
exit:
session_mutex_unlock(jbt_jsr82.mutex);
return jret;
}
static bool a2dp_registerSocket()
{
bt_ext_log("[A2DP][if] a2dp_registerSocket.");
a2dpsock = socket(PF_LOCAL, SOCK_DGRAM, 0);
bt_ext_log("[A2DP] initNative a2dpsock = %d", a2dpsock);
if (a2dpsock < 0)
{
ALOGE("[A2DP][ERR] create a2dp api socket failed : %s, errno=%d", strerror(errno), errno);
return FALSE;
}
return TRUE;
}
void btmtk_hdp_handle_connect_cnf(ilm_struct *ilm)
{
bt_hdp_connect_cnf_struct *cnf = (bt_hdp_connect_cnf_struct *)ilm->ilm_data;
btmtk_hdp_channel* channel = NULL;
btmtk_hdp_config *config = NULL;
bt_ext_log("[HDP] btmtk_hdp_handle_connect_cnf : result=%d", cnf->result);
channel = hdp_ext_find_channel_by_id(cnf->index);
if (NULL == channel)
{
bt_ext_err("[HDP] no channel context for index[%d]", cnf->index);
return;
}
//
config = hdp_ext_find_config_by_mdep_id(cnf->mdepId);
if (NULL == config)
{
bt_ext_err("[HDP] no config context for mdepId[%d]", cnf->mdepId);
return;
}
channel->config = config;
channel->mdlId = cnf->mdlId;
btmtk_hdp_mmi_cb(channel, BTMTK_HDP_EVENT_CONNECT_CNF, cnf->result);
if (cnf->result != BT_HDP_SUCCESS)
{
hdp_ext_free_channel(channel);
}
}
static bt_status_t btsock_listen(btsock_type_t type, const char* service_name,
const uint8_t* service_uuid, int channel, int* sock_fd, int flags)
{
kal_uint8 jbt_type;
BT_BOOL ret;
kal_uint8 *name = (kal_uint8 *)service_name;
kal_uint8 *uuid_128 = (kal_uint8 *)service_uuid;
kal_uint16 mtu = JSR82_SESSION_PS_RFCOMM_MTU;
bt_status_t status = BT_STATUS_FAIL;
if((service_uuid == NULL && channel <= 0) || sock_fd == NULL)
{
bt_ext_log("[BTSOCK]btsock_listen invalid param");
return BT_STATUS_PARM_INVALID;
}
*sock_fd = -1;
ret = btmtk_jsr82_session_service_registration(
convert_socket_type(type),
uuid_128,
name,
0,
JSR82_SESSION_PS_RFCOMM_MTU,
convert_security(flags),
0,
(kal_int32 *)sock_fd);
if (ret)
{
status = BT_STATUS_SUCCESS;
}
return status;
}
/* This function is used for handling message send from internal */
void btmtk_avrcp_ext_msg_handler(void *pContext, ilm_struct *ilm)
{
U8 iResult = 0;
btmtk_avrcp_handle_message(ilm);
bt_ext_log("avrcp:= ext hdl msg_id:%d", ilm->msg_id);
}
/*******************************************************************************
**
** Function btif_av_disconnect
**
** Description call external API to really end a A2DP connection
**
** Returns bt_status_t
**
*******************************************************************************/
bt_status_t btif_av_disconnect(bt_addr_struct *bd_addr)
{
bt_ext_log("%s", __FUNCTION__);
CHECK_BTAV_INIT();
btmtk_a2dp_close_device(bd_addr);
return BT_STATUS_SUCCESS;
}
/*******************************************************************************
**
** Function btif_av_connect
**
** Description call external API to really establish a A2DP connection
**
** Returns bt_status_t
**
*******************************************************************************/
bt_status_t btif_av_connect(bt_addr_struct *bd_addr)
{
bt_ext_log("%s", __FUNCTION__);
CHECK_BTAV_INIT();
btmtk_a2dp_send_stream_open_req(MOD_MMI, bd_addr, 0);
return BT_STATUS_SUCCESS;
}
/*******************************************************************************
**
** Function connect_int
**
** Description Interface provide for JNI to initial a connection of A2DP
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t connect_int(bt_bdaddr_t *bd_addr)
{
bt_addr_struct addr;
bt_ext_log("%s", __FUNCTION__);
btmtk_util_convert_array2bdaddr(&addr, bd_addr);
connect_profile(&addr,PROFILE_A2DP);
return BT_STATUS_SUCCESS;
}
void btmtk_hdp_handle_channel_closed_ind(ilm_struct *ilm)
{
bt_hdp_channel_closed_ind_struct *ind = (bt_hdp_channel_closed_ind_struct *)ilm->ilm_data;
btmtk_hdp_channel* channel = NULL;
bt_ext_log("[HDP] btmtk_hdp_handle_channel_closed_ind");
channel = hdp_ext_find_channel_by_addr_and_mdl(&ind->bdaddr, ind->mdlId);
if(channel == NULL)
{
bt_ext_log("[HDP] btmtk_hdp_find_channel_by_addr_and_mdl return NULL");
return;
}
//close fd
hdp_ext_channel_detach(channel->session_id);
btmtk_hdp_mmi_cb(channel, BTMTK_HDP_EVENT_CLOSE_IND, 0);
hdp_ext_free_channel(channel);
}
static void BTCMD_SendMessage(msg_type msg_id, module_type dest_mod, void *ptr, U16 size)
{
int ret = -1;
ilm_struct ilm;
U16 *field;
bt_ext_log("[SPP][ADP] BTCMD_SendMessage: %d", msg_id);
memset(&ilm, 0, sizeof(ilm_struct));
ilm.msg_id = msg_id;
ilm.src_mod_id = MOD_EXTERNAL;
ilm.dest_mod_id = dest_mod;
assert (size <= MAX_ILM_BUFFER_SIZE);
if(ptr != NULL)
memcpy(ilm.ilm_data, ptr, size);
/* LOCAL_PARA_HDR */
field = (U16 *)ilm.ilm_data;
*field = 1;
field = (U16 *)&ilm.ilm_data[2];
*field = size;
// cal whole ilm size
size = sizeof(ilm_struct) - MAX_ILM_BUFFER_SIZE + size;
if(g_panSockfd > 0)
{
ret = send(g_panSockfd, (void *)&ilm, size, 0);
if(ret < 0)
{
bt_ext_err("[SPP][ADP] BTCMD_SendMessage: send fail: %s, %d", strerror(errno), errno);
}
bt_ext_log("[SPP][ADP] send done: %d", ret);
}
else
{
bt_ext_err("[SPP][ADP] BTCMD_SendMessage: socket not initialized");
}
}
void btmtk_a2dp_disconnect_CbHdl(void)
{
BT_A2DP_APP_STATE state = btmtk_a2dp_global_state();
if (state == BT_A2DP_APP_STATE_OPENED ||
state == BT_A2DP_APP_STATE_STREAMING)
{
bt_ext_log("[A2DP] disconnect a2dp before ACL...\n");
btmtk_a2dp_send_stream_close_req(MOD_MMI, 0);
}
}
void btmtk_simap_handle_connect_ind(ilm_struct *message)
{
bt_simap_connect_ind_struct *msg;
#ifdef BTMTK_ON_WISE
msg = (bt_simap_connect_ind_struct *)message->local_para_ptr;
#else /* BTMTK_ON_WISE */
msg = (bt_simap_connect_ind_struct *)message->ilm_data;
#endif /* BTMTK_ON_WISE */
bt_ext_log("SIMAP CONNECT_IND: cid=%d; lap=%08x, uap=%02x, nap=%04x\n", msg->cid, (int)msg->lap, msg->uap, msg->nap);
g_SIMAP_MMI_Callback(NULL, EVENT_SIMAP_MMI_CONNECT_IND, msg, sizeof(bt_simap_connect_ind_struct));
}
void btmtk_simap_handle_disconnect_cnf(ilm_struct *message)
{
bt_simap_disconnect_cnf_struct *msg;
#ifdef BTMTK_ON_WISE
msg = (bt_simap_disconnect_cnf_struct *)message->local_para_ptr;
#else /* BTMTK_ON_WISE */
msg = (bt_simap_disconnect_cnf_struct *)message->ilm_data;
#endif /* BTMTK_ON_WISE */
bt_ext_log("SIMAP DISCONNECT_CNF: result=%d, cid=%d\n", msg->result, msg->cid);
g_SIMAP_MMI_Callback(NULL, EVENT_SIMAP_MMI_DISCONNECT_CNF, msg, sizeof(bt_simap_disconnect_cnf_struct));
}
void btmtk_simap_handle_card_status_ind_sent_ind(ilm_struct *message)
{
bt_simap_card_status_ind_sent_ind_struct *msg;
#ifdef BTMTK_ON_WISE
msg = (bt_simap_card_status_ind_sent_ind_struct *)message->local_para_ptr;
#else /* BTMTK_ON_WISE */
msg = (bt_simap_card_status_ind_sent_ind_struct *)message->ilm_data;
#endif /* BTMTK_ON_WISE */
bt_ext_log("SIMAP CARD_STATUS_IND_SENT: status=%d\n", msg->status);
g_SIMAP_MMI_Callback(NULL, EVENT_SIMAP_MMI_CARD_STATUS_IND_SENT_IND, msg, sizeof(bt_simap_card_status_ind_sent_ind_struct));
}
void btmtk_simap_handle_auth_req_timeout_rfclose_ind(ilm_struct *message)
{
bt_simap_auth_req_timeout_rfclose_ind_struct *msg;
#ifdef BTMTK_ON_WISE
msg = (bt_simap_auth_req_timeout_rfclose_ind_struct *)message->local_para_ptr;
#else /* BTMTK_ON_WISE */
msg = (bt_simap_auth_req_timeout_rfclose_ind_struct *)message->ilm_data;
#endif /* BTMTK_ON_WISE */
bt_ext_log("SIMAP AUTH_REQ_TIMEOUT_RFCLOSE_IND: lap=%08x, uap=%02x, nap=%04x\n", (int)msg->lap, msg->uap, msg->nap);
g_SIMAP_MMI_Callback(NULL, EVENT_SIMAP_MMI_AUTH_REQ_TIMEOUT_RFCLOSE_IND, msg, sizeof(bt_simap_auth_req_timeout_rfclose_ind_struct));
}
static bt_status_t init(btav_callbacks_t* callbacks )
{
int status;
bt_ext_log("%s", __FUNCTION__);
if (bt_av_callbacks)
return BT_STATUS_DONE;
bt_av_callbacks = callbacks;
return btif_av_init();
}
void btmtk_sim_handle_reset_req(ilm_struct *message)
{
bt_sim_reset_req_struct *msg;
#ifdef BTMTK_ON_WISE
msg = (bt_sim_reset_req_struct *)message->local_para_ptr;
#else /* BTMTK_ON_WISE */
msg = (bt_sim_reset_req_struct *)message->ilm_data;
#endif /* BTMTK_ON_WISE */
bt_ext_log("SIMAP RESET_REQ: transport_protocol_type=%d\n", msg->transport_protocol_type);
g_SIMAP_MMI_Callback(NULL, EVENT_SIM_MMI_RESET_REQ, msg, sizeof(bt_sim_reset_req_struct));
}
void btmtk_simap_handle_deactivate_cnf(ilm_struct *message)
{
bt_simap_deactivate_cnf_struct *msg;
#ifdef BTMTK_ON_WISE
msg = (bt_simap_deactivate_cnf_struct *)message->local_para_ptr;
#else /* BTMTK_ON_WISE */
msg = (bt_simap_deactivate_cnf_struct *)message->ilm_data;
#endif /* BTMTK_ON_WISE */
bt_ext_log("SIMAP DEACTIVATE_CNF: result=%d\n", msg->result);
g_SIMAP_MMI_Callback(NULL, EVENT_SIMAP_MMI_DEACTIVATE_CNF, msg, sizeof(bt_simap_deactivate_cnf_struct));
}
void btmtk_hdp_handle_disconnect_cnf(ilm_struct *ilm)
{
bt_hdp_disconnect_cnf_struct *cnf = (bt_hdp_disconnect_cnf_struct *)ilm->ilm_data;
btmtk_hdp_channel* channel = NULL;
bt_ext_log("[HDP] btmtk_hdp_handle_connect_cnf : result=%d", cnf->result);
channel = hdp_ext_find_channel_by_id(cnf->index);
if (NULL == channel)
{
bt_ext_err("[HDP] no channel context for index[%d]", cnf->index);
return;
}
btmtk_hdp_mmi_cb(channel, BTMTK_HDP_EVENT_DISCONNECT_CNF, cnf->result);
}
void btmtk_spp_handle_uart_assign_buffer_cnf(ilm_struct *message)
{
btmtk_spp_uart_assign_buffer_cnf_struct *msg;
#ifdef BTMTK_ON_WISE
msg = (btmtk_spp_uart_assign_buffer_cnf_struct *)message->local_para_ptr;
#else /* BTMTK_ON_WISE */
msg = (btmtk_spp_uart_assign_buffer_cnf_struct *)message->ilm_data;
#endif /* BTMTK_ON_WISE */
printf("SPP UART ASSIGN_BUFFER_CNF port=%d\n", msg->port);
#ifdef BTMTK_ON_LINUX
bt_ext_log("[SPP][ADP] assign buffer cnf");
g_SPP_MMI_Callback(NULL, EVENT_SPP_MMI_ASSIGN_BUFFER_CNF, msg, sizeof(btmtk_spp_uart_assign_buffer_cnf_struct));
#endif
}
/*******************************************************************************
**
** Function cleanup
**
** Description Shuts down the AV interface and does the cleanup
**
** Returns None
**
*******************************************************************************/
static void cleanup(void)
{
bt_ext_log("%s", __FUNCTION__);
if (bt_av_callbacks)
{
btif_disable_service(BTMTK_AVRCP_SERVICE_ID);
btmtk_profile_unregister(PROFILE_AVRCP);
btif_disable_service(BTMTK_A2DP_SERVICE_ID);
btmtk_profile_unregister(PROFILE_A2DP);
bt_av_callbacks = NULL;
}
return;
}
void btmtk_hdp_handle_channel_opened_ind(ilm_struct *ilm)
{
bt_hdp_channel_opened_ind_struct *ind = (bt_hdp_channel_opened_ind_struct *)ilm->ilm_data;
SESSION_RESULT sret = SR_NOERROR;
btmtk_hdp_channel* channel = NULL;
btmtk_hdp_config *config = NULL;
bt_ext_log("[HDP] btmtk_hdp_handle_channel_opened_ind");
channel = hdp_ext_find_channel_by_addr_and_mdl(&ind->bdaddr, ind->mdlId);
if (NULL == channel)
{
channel = hdp_ext_allocate_channel();
if (channel != NULL)
{
memcpy(&channel->bdaddr, &ind->bdaddr, sizeof(bt_addr_struct));
channel->mdlId = ind->mdlId;
channel->channel_id = hdp_get_channel_id();
}
else
{
bt_ext_err("[HDP] no available channel context for incoming connection");
return;
}
}
hdp_update_channel_config(channel, ind->mdepId);
//fd needs to create
sret = hdp_ext_channel_attach(&channel->session_id, &channel->fd);
if (SR_NOERROR != sret)
{
//TODO: 1.need to disconnec the channel, 2, send disconnected state call back to MMI
memset(channel, 0x0, sizeof(btmtk_hdp_channel));
return;
}
//send rsp to internal layer
btmtk_hdp_connect_rsp(&ind->bdaddr, ind->mdlId, channel->session_id);
btmtk_hdp_mmi_cb(channel, BTMTK_HDP_EVENT_OPEN_IND, 0);
}
void btmtk_jsr82_sdp_register_callback(void *context, BT_BOOL result, int identify)
{
jbt_session_info *session_entry = (jbt_session_info *)context;
jbt_subsession *subsession_entry = NULL;
bt_ext_log("[JSR82]btmtk_jsr82_sdp_register_callback, result[%d]", result);
if (FALSE == result)
{
subsession_entry = jbt_search_existing_subsession_entry(session_entry, JBT_LIST_SEARCH_TYPE_BY_SESSION_ID, identify);
if (JBT_SESSION_STATE_CONNECTED == subsession_entry->subsession_state)
{
jbt_session_general_disconnect(session_entry, subsession_entry);
}
jbt_session_general_service_deregistration(session_entry);
}
else
{
jbt_jsr82_session_registered(session_entry);
}
}
bt_status_t btif_av_init(void)
{
bt_ext_log("[A2DP] btif init\n");
//if (btif_av_cb.sm_handle == NULL)
{
//
btif_enable_service(BTMTK_AVRCP_SERVICE_ID);
btmtk_profile_register(PROFILE_AVRCP, btmtk_avrcp_ext_msg_handler, NULL);
//if (btif_a2dp_start_media_task() != GKI_SUCCESS)
// return BT_STATUS_FAIL;
// I am not sure whether we need to call this function or not, just mark
btif_enable_service(BTMTK_A2DP_SERVICE_ID);
/* Initialize the AVRC CB */
//btif_rc_init();
/* Also initialize the AV state machine */
//btif_av_cb.sm_handle = btif_sm_init((const btif_sm_handler_t*)btif_av_state_handlers, BTIF_AV_STATE_IDLE);
//a2dp_registerSocket();
btmtk_profile_register(PROFILE_A2DP, btmtk_a2dp_ext_msg_handler, NULL);
//btif_a2dp_on_init();
return BT_STATUS_SUCCESS;
}
//return BT_STATUS_DONE;
}
BtStatus JSR82_SendMessage(msg_type msg_id, module_type mod_id, void *buffer, U16 size)
{
kal_bool ret = TRUE;
int sockfd;
U16 *field;
ilm_struct ilm;
bt_ext_log("[JSR82] msg=%u, ptr=0x%X, size=%d", msg_id, buffer, size);
memset(&ilm, 0x0, sizeof(ilm_struct));
/* Set src_mod to MOD_MMI */
ilm.src_mod_id = MOD_MMI;
ilm.dest_mod_id = mod_id;
ilm.sap_id = 0;
ilm.msg_id = msg_id;
/* LOCAL_PARA_HDR */
field = (U16 *)ilm.ilm_data;
*field = 1;
*(++field) = size;
if(buffer != NULL)
memcpy(ilm.ilm_data, buffer, size);
// Calculate total ilm size
size = sizeof(ilm_struct) - MAX_ILM_BUFFER_SIZE + size;
if(mod_id == MOD_BT)
{
ret = btmtk_sendmsg(PROFILE_JSR82, (void* )&ilm, size);
}
return (ret) ? BT_STATUS_SUCCESS : BT_STATUS_FAILED;
}
void btmtk_simap_handle_message(ilm_struct *message)
{
bt_ext_log("btmtk_simap_handle_message: msg_id= %d", (int)message->msg_id);
switch (message->msg_id)
{
/* SIMAP --> MMI */
case MSG_ID_BT_SIMAP_ACTIVATE_CNF:
btmtk_simap_handle_activate_cnf(message);
break;
case MSG_ID_BT_SIMAP_DEACTIVATE_CNF:
btmtk_simap_handle_deactivate_cnf(message);
break;
case MSG_ID_BT_SIMAP_CONNECT_IND:
btmtk_simap_handle_connect_ind(message);
break;
case MSG_ID_BT_SIMAP_DISCONNECT_IND:
btmtk_simap_handle_disconnect_ind(message);
break;
case MSG_ID_BT_SIMAP_DISCONNECT_CNF:
btmtk_simap_handle_disconnect_cnf(message);
break;
case MSG_ID_BT_SIMAP_AUTH_REQ:
btmtk_simap_handle_auth_req(message);
break;
case MSG_ID_BT_SIMAP_ATR_RSP_SENT_IND:
btmtk_simap_handle_atr_rsp_sent_ind(message);
break;
case MSG_ID_BT_SIMAP_APDU_RSP_SENT_IND:
btmtk_simap_handle_apdu_rsp_sent_ind(message);
break;
case MSG_ID_BT_SIMAP_SIM_ON_RSP_SENT_IND:
btmtk_simap_handle_sim_on_rsp_sent_ind(message);
break;
case MSG_ID_BT_SIMAP_SIM_OFF_RSP_SENT_IND:
btmtk_simap_handle_sim_off_rsp_sent_ind(message);
break;
case MSG_ID_BT_SIMAP_SIM_RESET_RSP_SENT_IND:
btmtk_simap_handle_sim_reset_rsp_sent_ind(message);
break;
case MSG_ID_BT_SIMAP_CARD_STATUS_IND_SENT_IND:
btmtk_simap_handle_card_status_ind_sent_ind(message);
break;
case MSG_ID_BT_SIMAP_CARD_READER_STATUS_RSP_SENT_IND:
btmtk_simap_handle_card_reader_status_rsp_sent_ind(message);
break;
case MSG_ID_BT_SIMAP_SET_TRANSPORT_PROTOCOL_RSP_SENT_IND:
btmtk_simap_handle_set_transport_protocol_rsp_sent_ind(message);
break;
case MSG_ID_BT_SIMAP_AUTH_REQ_TIMEOUT_RFCLOSE_IND:
btmtk_simap_handle_auth_req_timeout_rfclose_ind(message);
break;
case MSG_ID_BT_SIMAP_BT_RESET_IND:
btmtk_simap_handle_bt_reset_ind(message);
break;
/* SIMAP --> SIM task */
case MSG_ID_BT_SIM_CONNECT_REQ:
btmtk_sim_handle_connect_req(message);
break;
case MSG_ID_BT_SIM_DISCONNECT_REQ:
btmtk_sim_handle_disconnect_req(message);
break;
case MSG_ID_BT_SIM_APDU_REQ:
btmtk_sim_handle_apdu_req(message);
break;
case MSG_ID_BT_SIM_POWER_OFF_REQ:
btmtk_sim_handle_power_off_req(message);
break;
case MSG_ID_BT_SIM_RESET_REQ:
btmtk_sim_handle_reset_req(message);
break;
default:
break;
}
}
void btmtk_sim_handle_power_off_req(ilm_struct *message)
{
bt_ext_log("SIM POWER_OFF_REQ\n");
g_SIMAP_MMI_Callback(NULL, EVENT_SIM_MMI_POWER_OFF_REQ, NULL, 0);
}
void btmtk_sim_handle_disconnect_req(ilm_struct *message)
{
bt_ext_log("SIM DISCONNECT_REQ\n");
g_SIMAP_MMI_Callback(NULL, EVENT_SIM_MMI_DISCONNECT_REQ, NULL, 0);
}
