/******************************************************************************
*
* Copyright (C) 2009-2012 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.
*
******************************************************************************/
/******************************************************************************
*
* This is the public interface file for the HeaLth device profile (HL)
* subsystem of BTA, Broadcom's Bluetooth application layer for mobile
* phones.
*
******************************************************************************/
#ifndef BTA_HL_API_H
#define BTA_HL_API_H
#include "bta_api.h"
#include "btm_api.h"
#include "mca_api.h"
/*****************************************************************************
** Constants and data types
*****************************************************************************/
/* Extra Debug Code */
#ifndef BTA_HL_DEBUG
#define BTA_HL_DEBUG TRUE
#endif
#ifndef BTA_HL_NUM_APPS
#define BTA_HL_NUM_APPS 12
#endif
#ifndef BTA_HL_NUM_MDEPS
#define BTA_HL_NUM_MDEPS 13
#endif
#ifndef BTA_HL_NUM_MCLS
#define BTA_HL_NUM_MCLS 7
#endif
#ifndef BTA_HL_NUM_MDLS_PER_MDEP
#define BTA_HL_NUM_MDLS_PER_MDEP 4
#endif
#ifndef BTA_HL_NUM_MDLS_PER_MCL
#define BTA_HL_NUM_MDLS_PER_MCL 10
#endif
#ifndef BTA_HL_NUM_DATA_TYPES
#define BTA_HL_NUM_DATA_TYPES 5 /* maximum number of data types can be supported
per MDEP ID */
#endif
#define BTA_HL_MCAP_RSP_TOUT 2 /* 2 seconds */
#ifndef BTA_HL_CCH_NUM_FILTER_ELEMS
#define BTA_HL_CCH_NUM_FILTER_ELEMS 3
#endif
#ifndef BTA_HL_NUM_SDP_CBACKS
#define BTA_HL_NUM_SDP_CBACKS 7
#endif
#ifndef BTA_HL_NUM_SDP_RECS
#define BTA_HL_NUM_SDP_RECS 5
#endif
#ifndef BTA_HL_NUM_SDP_MDEPS
#define BTA_HL_NUM_SDP_MDEPS 12
#endif
#ifndef BTA_HL_NUM_SVC_ELEMS
#define BTA_HL_NUM_SVC_ELEMS 2
#endif
#ifndef BTA_HL_NUM_PROTO_ELEMS
#define BTA_HL_NUM_PROTO_ELEMS 2
#endif
#define BTA_HL_VERSION_01_00 0x0100
#define BTA_HL_NUM_ADD_PROTO_LISTS 1
#define BTA_HL_NUM_ADD_PROTO_ELEMS 2
#define BTA_HL_MDEP_SEQ_SIZE 20
#define BTA_HL_VAL_ARRY_SIZE 320
#ifndef BTA_HL_NUM_MDL_CFGS
#define BTA_HL_NUM_MDL_CFGS 16 /* numer of MDL cfg saved in the persistent memory*/
#endif
#define BTA_HL_NUM_TIMERS 7
#define BTA_HL_CCH_RSP_TOUT 2000
#define BTA_HL_LRG_POOL_ID GKI_POOL_ID_7
#define BTA_HL_MAX_TIME 255
#define BTA_HL_MIN_TIME 1
#define BTA_HL_INVALID_APP_HANDLE 0xFF
#define BTA_HL_INVALID_MCL_HANDLE 0xFF
#define BTA_HL_INVALID_MDL_HANDLE 0xFFFF
#define BTA_HL_STATUS_OK 0
#define BTA_HL_STATUS_FAIL 1 /* Used to pass all other errors */
#define BTA_HL_STATUS_ABORTED 2
#define BTA_HL_STATUS_NO_RESOURCE 3
#define BTA_HL_STATUS_LAST_ITEM 4
#define BTA_HL_STATUS_DUPLICATE_APP_ID 5
#define BTA_HL_STATUS_INVALID_APP_HANDLE 6
#define BTA_HL_STATUS_INVALID_MCL_HANDLE 7
#define BTA_HL_STATUS_MCAP_REG_FAIL 8
#define BTA_HL_STATUS_MDEP_CO_FAIL 9
#define BTA_HL_STATUS_ECHO_CO_FAIL 10
#define BTA_HL_STATUS_MDL_CFG_CO_FAIL 11
#define BTA_HL_STATUS_SDP_NO_RESOURCE 12
#define BTA_HL_STATUS_SDP_FAIL 13
#define BTA_HL_STATUS_NO_CCH 14
#define BTA_HL_STATUS_NO_MCL 15
#define BTA_HL_STATUS_NO_FIRST_RELIABLE 17
#define BTA_HL_STATUS_INVALID_DCH_CFG 18
#define BTA_HL_STATUS_INVALID_MDL_HANDLE 19
#define BTA_HL_STATUS_INVALID_BD_ADDR 20
#define BTA_HL_STATUS_INVALID_RECONNECT_CFG 21
#define BTA_HL_STATUS_ECHO_TEST_BUSY 22
#define BTA_HL_STATUS_INVALID_LOCAL_MDEP_ID 23
#define BTA_HL_STATUS_INVALID_MDL_ID 24
#define BTA_HL_STATUS_NO_MDL_ID_FOUND 25
#define BTA_HL_STATUS_DCH_BUSY 26 /* DCH is congested*/
#define BTA_HL_STATUS_INVALID_CTRL_PSM 27
#define BTA_HL_STATUS_DUPLICATE_CCH_OPEN 28
typedef UINT8 tBTA_HL_STATUS;
typedef tMCA_HANDLE tBTA_HL_APP_HANDLE;
typedef tMCA_CL tBTA_HL_MCL_HANDLE;
typedef tMCA_DL tBTA_HL_MDL_HANDLE;
enum
{
BTA_HL_DEVICE_TYPE_SINK,
BTA_HL_DEVICE_TYPE_SOURCE,
BTA_HL_DEVICE_TYPE_DUAL
};
typedef UINT8 tBTA_HL_DEVICE_TYPE;
#define BTA_HL_SDP_IEEE_11073_20601 0x01
#define BTA_HL_MCAP_SUP_RECONNECT_MASK_INIT 2 /* 0x02 */
#define BTA_HL_MCAP_SUP_RECONNECT_MASK_ACCEPT 4 /* 0x04 */
#define BTA_HL_MCAP_SUP_CSP_MASK_SYNC_SLAVE 0 /* 0x08 */
#define BTA_HL_MCAP_SUP_CSP_MASK_SYNC_MASTER 0 /* 0x10 */
#define BTA_HL_MCAP_SUP_PROC_MASK (BTA_HL_MCAP_SUP_RECONNECT_MASK_INIT | \
BTA_HL_MCAP_SUP_RECONNECT_MASK_ACCEPT | \
BTA_HL_MCAP_SUP_CSP_MASK_SYNC_SLAVE | \
BTA_HL_MCAP_SUP_CSP_MASK_SYNC_MASTER)
#define BTA_HL_MDEP_ROLE_SOURCE 0x00
#define BTA_HL_MDEP_ROLE_SINK 0x01
typedef UINT8 tBTA_HL_MDEP_ROLE;
#define BTA_HL_MDEP_ROLE_MASK_SOURCE 0x01 /* bit mask */
#define BTA_HL_MDEP_ROLE_MASK_SINK 0x02
typedef UINT8 tBTA_HL_MDEP_ROLE_MASK;
#define BTA_HL_ECHO_TEST_MDEP_ID 0
#define BTA_HL_ECHO_TEST_MDEP_CFG_IDX 0
#define BTA_HL_INVALID_MDEP_ID 0xFF
typedef tMCA_DEP tBTA_HL_MDEP_ID; /* 0 is for echo test,
0x01-0x7F availave for use,
0x80-0xFF reserved*/
#define BTA_HL_DELETE_ALL_MDL_IDS 0xFFFF
#define BTA_HL_MAX_MDL_VAL 0xFEFF
typedef UINT16 tBTA_HL_MDL_ID; /* 0x0000 reserved,
0x0001-0xFEFF dynamic range,
0xFF00-0xFFFE reserved,
0xFFFF indicates all MDLs*/
#define BTA_HL_MDEP_DESP_LEN 35
#define BTA_HL_DCH_MODE_RELIABLE 0
#define BTA_HL_DCH_MODE_STREAMING 1
typedef UINT8 tBTA_HL_DCH_MODE;
#define BTA_HL_DCH_CFG_NO_PREF 0
#define BTA_HL_DCH_CFG_RELIABLE 1
#define BTA_HL_DCH_CFG_STREAMING 2
#define BTA_HL_DCH_CFG_UNKNOWN 0xFF
typedef UINT8 tBTA_HL_DCH_CFG;
/* The Default DCH CFG for the echo test when the device is a Source */
#define BTA_HL_DEFAULT_ECHO_TEST_SRC_DCH_CFG BTA_HL_DCH_CFG_RELIABLE
#define BTA_HL_DCH_CREATE_RSP_SUCCESS 0
#define BTA_HL_DCH_CREATE_RSP_CFG_REJ 1
typedef UINT8 tBTA_HL_DCH_CREATE_RSP;
#define BTA_HL_MCAP_SUP_PROC_RECONNECT_INIT 0x02
#define BTA_HL_MCAP_SUP_PROC_RECONNECT_APT 0x04
#define BTA_HL_MCAP_SUP_PROC_CSP_SLAVE 0x08
#define BTA_HL_MCAP_SUP_PROC_CSP_MASTER 0x10
typedef UINT8 tBTA_HL_SUP_PROC_MASK;
typedef struct
{
UINT16 max_rx_apdu_size; /* local rcv MTU */
UINT16 max_tx_apdu_size; /* maximum TX APDU size*/
} tBTA_HL_ECHO_CFG;
typedef struct
{
UINT16 data_type;
UINT16 max_rx_apdu_size; /* local rcv MTU */
UINT16 max_tx_apdu_size; /* maximum TX APDU size*/
char desp[BTA_HL_MDEP_DESP_LEN+1];
} tBTA_HL_MDEP_DATA_TYPE_CFG;
typedef struct
{
tBTA_HL_MDEP_ROLE mdep_role;
UINT8 num_of_mdep_data_types;
tBTA_HL_MDEP_DATA_TYPE_CFG data_cfg[BTA_HL_NUM_DATA_TYPES];
} tBTA_HL_MDEP_CFG;
typedef struct
{
tBTA_HL_MDEP_ID mdep_id; /* MDEP ID 0x01-0x7F */
tBTA_HL_MDEP_CFG mdep_cfg;
UINT8 ori_app_id;
} tBTA_HL_MDEP;
typedef struct
{
tBTA_HL_MDEP mdep[BTA_HL_NUM_MDEPS];
tBTA_HL_ECHO_CFG echo_cfg;
tBTA_HL_MDEP_ROLE_MASK app_role_mask;
BOOLEAN advertize_source_sdp;
UINT8 num_of_mdeps;
} tBTA_HL_SUP_FEATURE;
typedef struct
{
BOOLEAN delete_req_pending;
tBTA_HL_MDL_ID mdl_id;
tBTA_HL_MCL_HANDLE mcl_handle;
} tBTA_HL_DELETE_MDL;
typedef struct
{
UINT8 time;
UINT16 mtu;
tBTA_HL_MDL_ID mdl_id;
tBTA_HL_MDEP_ID local_mdep_id;
tBTA_HL_MDEP_ROLE local_mdep_role;
BOOLEAN active; /* true if this item is in use */
tBTA_HL_DCH_MODE dch_mode;
UINT8 fcs;
BD_ADDR peer_bd_addr;
} tBTA_HL_MDL_CFG;
/* Maximum number of supported feature list items (list_elem in tSDP_SUP_FEATURE_ELEM) */
#define BTA_HL_NUM_SUP_FEATURE_ELEMS 13
#define BTA_HL_SUP_FEATURE_SDP_BUF_SIZE 512
/* This structure is used to add supported feature lists and find supported feature elements */
typedef struct
{
UINT8 mdep_id;
UINT16 data_type;
tBTA_HL_MDEP_ROLE mdep_role;
char *p_mdep_desp;
} tBTA_HL_SUP_FEATURE_ELEM;
typedef struct
{
UINT16 num_elems;
tBTA_HL_SUP_FEATURE_ELEM list_elem[BTA_HL_NUM_SUP_FEATURE_ELEMS];
} tBTA_HL_SUP_FEATURE_LIST_ELEM;
typedef struct
{
tBTA_HL_DEVICE_TYPE dev_type; /* sink, source or dual roles */
tBTA_SEC sec_mask; /* security mask for accepting conenction*/
const char *p_srv_name; /* service name to be used in the SDP; null terminated*/
const char *p_srv_desp; /* service description to be used in the SDP; null terminated */
const char *p_provider_name; /* provide name to be used in the SDP; null terminated */
} tBTA_HL_REG_PARAM;
typedef struct
{
UINT16 ctrl_psm;
BD_ADDR bd_addr; /* Address of peer device */
tBTA_SEC sec_mask; /* security mask for initiating connection*/
} tBTA_HL_CCH_OPEN_PARAM;
typedef struct
{
UINT16 ctrl_psm;
tBTA_HL_MDEP_ID local_mdep_id; /* local MDEP ID */
tBTA_HL_MDEP_ID peer_mdep_id; /* peer mdep id */
tBTA_HL_DCH_CFG local_cfg;
tBTA_SEC sec_mask; /* security mask for initiating connection*/
} tBTA_HL_DCH_OPEN_PARAM;
typedef struct
{
UINT16 ctrl_psm;
tBTA_HL_MDL_ID mdl_id;
} tBTA_HL_DCH_RECONNECT_PARAM;
typedef struct
{
UINT16 ctrl_psm;
UINT16 pkt_size;
tBTA_HL_DCH_CFG local_cfg;
} tBTA_HL_DCH_ECHO_TEST_PARAM;
typedef struct
{
UINT16 buf_size;
UINT8 p_buf; /* buffer pointer */
} tBTA_HL_DCH_BUF_INFO;
typedef struct
{
tBTA_HL_MDEP_ID local_mdep_id; /* local MDEP ID */
tBTA_HL_MDL_ID mdl_id;
tBTA_HL_DCH_CREATE_RSP rsp_code;
tBTA_HL_DCH_CFG cfg_rsp;
} tBTA_HL_DCH_CREATE_RSP_PARAM;
typedef struct
{
UINT16 data_type;
UINT8 mdep_id;
tBTA_HL_MDEP_ROLE mdep_role;
char mdep_desp[BTA_HL_MDEP_DESP_LEN+1];
}tBTA_HL_SDP_MDEP_CFG;
typedef struct
{
UINT16 ctrl_psm;
UINT16 data_psm;
UINT8 mcap_sup_proc;
UINT8 num_mdeps; /* number of mdep elements from SDP*/
char srv_name[BTA_SERVICE_NAME_LEN+1];
char srv_desp[BTA_SERVICE_DESP_LEN+1];
char provider_name[BTA_PROVIDER_NAME_LEN+1];
tBTA_HL_SDP_MDEP_CFG mdep_cfg[BTA_HL_NUM_SDP_MDEPS];
} tBTA_HL_SDP_REC;
typedef struct
{
UINT8 num_recs;
tBTA_HL_SDP_REC sdp_rec[BTA_HL_NUM_SDP_RECS];
} tBTA_HL_SDP;
/* HL control callback function events */
enum
{
BTA_HL_CTRL_ENABLE_CFM_EVT = 0,
BTA_HL_CTRL_DISABLE_CFM_EVT
};
typedef UINT8 tBTA_HL_CTRL_EVT;
/* Structure associated with BTA_HL_ENABLE_EVT
BTA_HL_DISABLE_EVT */
typedef struct
{
tBTA_HL_STATUS status;
} tBTA_HL_CTRL_ENABLE_DISABLE;
typedef union
{
tBTA_HL_CTRL_ENABLE_DISABLE enable_cfm;
tBTA_HL_CTRL_ENABLE_DISABLE disable_cfm;
} tBTA_HL_CTRL;
/* HL instance callback function events */
enum
{
BTA_HL_REGISTER_CFM_EVT =0,
BTA_HL_DEREGISTER_CFM_EVT,
BTA_HL_CCH_OPEN_IND_EVT,
BTA_HL_CCH_OPEN_CFM_EVT,
BTA_HL_CCH_CLOSE_IND_EVT,
BTA_HL_CCH_CLOSE_CFM_EVT,
BTA_HL_DCH_CREATE_IND_EVT,
BTA_HL_DCH_OPEN_IND_EVT,
BTA_HL_DCH_OPEN_CFM_EVT,
BTA_HL_DCH_CLOSE_IND_EVT,
BTA_HL_DCH_CLOSE_CFM_EVT,
BTA_HL_DCH_RECONNECT_IND_EVT,
BTA_HL_DCH_RECONNECT_CFM_EVT,
BTA_HL_DCH_ABORT_IND_EVT,
BTA_HL_DCH_ABORT_CFM_EVT,
BTA_HL_DELETE_MDL_IND_EVT,
BTA_HL_DELETE_MDL_CFM_EVT,
BTA_HL_DCH_SEND_DATA_CFM_EVT,
BTA_HL_DCH_RCV_DATA_IND_EVT,
BTA_HL_CONG_CHG_IND_EVT,
BTA_HL_DCH_ECHO_TEST_CFM_EVT,
BTA_HL_SDP_QUERY_CFM_EVT,
BTA_HL_SDP_INFO_IND_EVT
};
typedef UINT8 tBTA_HL_EVT;
typedef struct
{
tBTA_HL_STATUS status; /* start status */
UINT8 app_id;
tBTA_HL_APP_HANDLE app_handle;
} tBTA_HL_REGISTER_CFM;
typedef struct
{
tBTA_HL_STATUS status; /* start status */
UINT8 app_id;
tBTA_HL_APP_HANDLE app_handle;
} tBTA_HL_DEREGISTER_CFM;
typedef struct
{
BOOLEAN intentional;
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
} tBTA_HL_CCH_CLOSE_IND;
typedef struct
{
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
} tBTA_HL_MCL_IND;
typedef struct
{
tBTA_HL_STATUS status; /* connection status */
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
} tBTA_HL_MCL_CFM;
typedef struct
{
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
BD_ADDR bd_addr; /* address of peer device */
} tBTA_HL_CCH_OPEN_IND;
typedef struct
{
tBTA_HL_STATUS status; /* connection status */
UINT8 app_id;
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
BD_ADDR bd_addr; /* address of peer device */
} tBTA_HL_CCH_OPEN_CFM;
typedef struct
{
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
tBTA_HL_MDEP_ID local_mdep_id;
tBTA_HL_MDL_ID mdl_id; /* MCAP data link ID for this
data channel conenction */
tBTA_HL_DCH_CFG cfg; /* dch cfg requested by the peer device */
BD_ADDR bd_addr; /* address of peer device */
} tBTA_HL_DCH_CREATE_IND;
typedef struct
{
tBTA_HL_MDL_HANDLE mdl_handle;
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
tBTA_HL_MDEP_ID local_mdep_id;
tBTA_HL_MDL_ID mdl_id; /* MCAP data link ID for this
data channel conenction */
tBTA_HL_DCH_MODE dch_mode; /* data channel mode - reliable or streaming*/
BOOLEAN first_reliable; /* whether this is the first reliable data channel */
UINT16 mtu;
} tBTA_HL_DCH_OPEN_IND;
typedef struct
{
tBTA_HL_STATUS status; /* connection status */
tBTA_HL_MDL_HANDLE mdl_handle;
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
tBTA_HL_MDEP_ID local_mdep_id;
tBTA_HL_MDL_ID mdl_id; /* MCAP data link ID for this
data channel conenction */
tBTA_HL_DCH_MODE dch_mode; /* data channel mode - reliable or streaming*/
BOOLEAN first_reliable; /* whether this is the first reliable data channel */
UINT16 mtu;
} tBTA_HL_DCH_OPEN_CFM;
typedef struct
{
BOOLEAN intentional;
tBTA_HL_MDL_HANDLE mdl_handle;
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
} tBTA_HL_DCH_CLOSE_IND;
typedef struct
{
tBTA_HL_MDL_HANDLE mdl_handle;
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
} tBTA_HL_MDL_IND;
typedef struct
{
tBTA_HL_STATUS status;
tBTA_HL_MDL_HANDLE mdl_handle;
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
} tBTA_HL_MDL_CFM;
typedef struct
{
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
tBTA_HL_MDL_ID mdl_id;
} tBTA_HL_DELETE_MDL_IND;
typedef struct
{
tBTA_HL_STATUS status;
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
tBTA_HL_MDL_ID mdl_id;
} tBTA_HL_DELETE_MDL_CFM;
typedef struct
{
tBTA_HL_MDL_HANDLE mdl_handle;
tBTA_HL_MCL_HANDLE mcl_handle;
tBTA_HL_APP_HANDLE app_handle;
BOOLEAN cong;
} tBTA_HL_DCH_CONG_IND;
typedef struct
{
tBTA_HL_APP_HANDLE app_handle;
UINT16 ctrl_psm;
UINT16 data_psm;
UINT8 data_x_spec;
UINT8 mcap_sup_procs;
} tBTA_HL_SDP_INFO_IND;
typedef struct
{
tBTA_HL_STATUS status;
UINT8 app_id;
tBTA_HL_APP_HANDLE app_handle;
BD_ADDR bd_addr;
tBTA_HL_SDP *p_sdp;
} tBTA_HL_SDP_QUERY_CFM;
typedef union
{
tBTA_HL_REGISTER_CFM reg_cfm;
tBTA_HL_DEREGISTER_CFM dereg_cfm;
tBTA_HL_CCH_OPEN_IND cch_open_ind;
tBTA_HL_CCH_OPEN_CFM cch_open_cfm;
tBTA_HL_CCH_CLOSE_IND cch_close_ind;
tBTA_HL_MCL_CFM cch_close_cfm;
tBTA_HL_DCH_CREATE_IND dch_create_ind;
tBTA_HL_DCH_OPEN_IND dch_open_ind;
tBTA_HL_DCH_OPEN_CFM dch_open_cfm;
tBTA_HL_DCH_CLOSE_IND dch_close_ind;
tBTA_HL_MDL_CFM dch_close_cfm;
tBTA_HL_DCH_OPEN_IND dch_reconnect_ind;
tBTA_HL_DCH_OPEN_CFM dch_reconnect_cfm;
tBTA_HL_MCL_IND dch_abort_ind;
tBTA_HL_MCL_CFM dch_abort_cfm;
tBTA_HL_DELETE_MDL_IND delete_mdl_ind;
tBTA_HL_DELETE_MDL_CFM delete_mdl_cfm;
tBTA_HL_MDL_CFM dch_send_data_cfm;
tBTA_HL_MDL_IND dch_rcv_data_ind;
tBTA_HL_DCH_CONG_IND dch_cong_ind;
tBTA_HL_MCL_CFM echo_test_cfm;
tBTA_HL_SDP_QUERY_CFM sdp_query_cfm;
tBTA_HL_SDP_INFO_IND sdp_info_ind;
} tBTA_HL;
/* HL callback functions */
typedef void tBTA_HL_CTRL_CBACK(tBTA_HL_CTRL_EVT event, tBTA_HL_CTRL *p_data);
typedef void tBTA_HL_CBACK(tBTA_HL_EVT event, tBTA_HL *p_data);
/*****************************************************************************
** External Function Declarations
*****************************************************************************/
#ifdef __cplusplus
extern "C"
{
#endif
/**************************
** API Functions
***************************/
/*******************************************************************************
**
** Function BTA_HlEnable
**
** Description Enable the HL subsystems. This function must be
** called before any other functions in the HL API are called.
** When the enable operation is completed the callback function
** will be called with an BTA_HL_CTRL_ENABLE_CFM_EVT event.
**
** Parameters p_cback - HL event call back function
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlEnable(tBTA_HL_CTRL_CBACK *p_ctrl_cback);
/*******************************************************************************
**
** Function BTA_HlDisable
**
** Description Disable the HL subsystem.
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlDisable(void);
/*******************************************************************************
**
** Function BTA_HlUpdate
**
** Description Register an HDP application
**
** Parameters app_id - Application ID
** p_reg_param - non-platform related parameters for the
** HDP application
** p_cback - HL event callback fucntion
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlUpdate(UINT8 app_id,
tBTA_HL_REG_PARAM *p_reg_param, BOOLEAN is_register,
tBTA_HL_CBACK *p_cback);
/*******************************************************************************
**
** Function BTA_HlRegister
**
** Description Register a HDP application
**
**
** Parameters app_id - hdp application ID
** p_reg_param - non-platform related parameters for the
** HDP application
** p_cback - HL event callback fucntion
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlRegister(UINT8 app_id,
tBTA_HL_REG_PARAM *p_reg_param,
tBTA_HL_CBACK *p_cback);
/*******************************************************************************
**
** Function BTA_HlDeregister
**
** Description Deregister an HDP application
**
** Parameters app_handle - Application handle
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlDeregister(UINT8 app_id,tBTA_HL_APP_HANDLE app_handle);
/*******************************************************************************
**
** Function BTA_HlCchOpen
**
** Description Open a Control channel connection with the specified BD address
** and the control PSM value is used to select which
** HDP insatnce should be used in case the peer device support
** multiple HDP instances.
**
**
** Parameters app_handle - Application Handle
** p_open_param - parameters for opening a control channel
**
** Returns void
**
** Note: If the control PSM value is zero then the first HDP
** instance is used for the control channel setup
*******************************************************************************/
extern void BTA_HlCchOpen(UINT8 app_id, tBTA_HL_APP_HANDLE app_handle,
tBTA_HL_CCH_OPEN_PARAM *p_open_param);
/*******************************************************************************
**
** Function BTA_HlCchClose
**
** Description Close a Control channel connection with the specified MCL
** handle
**
** Parameters mcl_handle - MCL handle
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlCchClose(tBTA_HL_MCL_HANDLE mcl_handle);
/*******************************************************************************
**
** Function BTA_HlDchOpen
**
** Description Open a data channel connection with the specified DCH parameters
**
** Parameters mcl_handle - MCL handle
** p_open_param - parameters for opening a data channel
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlDchOpen(tBTA_HL_MCL_HANDLE mcl_handle,
tBTA_HL_DCH_OPEN_PARAM *p_open_param);
/*******************************************************************************
**
** Function BTA_HlDchReconnect
**
** Description Reconnect a data channel with the specified MDL_ID
**
** Parameters mcl_handle - MCL handle
*8 p_recon_param - parameters for reconnecting a data channel
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlDchReconnect(tBTA_HL_MCL_HANDLE mcl_handle,
tBTA_HL_DCH_RECONNECT_PARAM *p_recon_param);
/*******************************************************************************
**
** Function BTA_HlDchClose
**
** Description Close a data channel with the specified MDL handle
**
** Parameters mdl_handle - MDL handle
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlDchClose(tBTA_HL_MDL_HANDLE mdl_handle);
/*******************************************************************************
**
** Function BTA_HlDchAbort
**
** Description Abort the current data channel setup with the specified MCL
** handle
**
** Parameters mcl_handle - MCL handle
**
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlDchAbort(tBTA_HL_MCL_HANDLE mcl_handle);
/*******************************************************************************
**
** Function BTA_HlSendData
**
** Description Send an APDU to the peer device
**
** Parameters mdl_handle - MDL handle
** pkt_size - size of the data packet to be sent
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlSendData(tBTA_HL_MDL_HANDLE mdl_handle,
UINT16 pkt_size);
/*******************************************************************************
**
** Function BTA_HlDeleteMdl
**
** Description Delete the specified MDL_ID within the specified MCL handle
**
** Parameters mcl_handle - MCL handle
** mdl_id - MDL ID
**
** Returns void
**
** note: If mdl_id = 0xFFFF then this means to delete all MDLs
** and this value can only be used with DeleteMdl request only
** not other requests
**
*******************************************************************************/
extern void BTA_HlDeleteMdl(tBTA_HL_MCL_HANDLE mcl_handle,
tBTA_HL_MDL_ID mdl_id );
/*******************************************************************************
**
** Function BTA_HlDchEchoTest
**
** Description Initiate an echo test with the specified MCL handle
**
** Parameters mcl_handle - MCL handle
*8 p_echo_test_param - parameters for echo testing
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlDchEchoTest( tBTA_HL_MCL_HANDLE mcl_handle,
tBTA_HL_DCH_ECHO_TEST_PARAM *p_echo_test_param);
/*******************************************************************************
**
** Function BTA_HlSdpQuery
**
** Description SDP query request for the specified BD address
**
** Parameters app_id
app_handle - application handle
** bd_addr - BD address
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlSdpQuery(UINT8 app_id,tBTA_HL_APP_HANDLE app_handle,
BD_ADDR bd_addr);
/*******************************************************************************
**
** Function BTA_HlDchCreateMdlRsp
**
** Description Set the Response and configuration values for the Create MDL
** request
**
** Parameters mcl_handle - MCL handle
** p_rsp_param - parameters specified whether the request should
** be accepted or not and if it should be accepted
** then it also specified the configuration response
** value
**
** Returns void
**
*******************************************************************************/
extern void BTA_HlDchCreateRsp(tBTA_HL_MCL_HANDLE mcl_handle,
tBTA_HL_DCH_CREATE_RSP_PARAM *p_rsp_param);
#ifdef __cplusplus
}
#endif
#endif /* BTA_HL_API_H */