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/******************************************************************************
*
* Copyright 2006-2012 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 private interface file for the BTA Java I/F
*
******************************************************************************/
#ifndef BTA_JV_INT_H
#define BTA_JV_INT_H
#include <memory>
#include <unordered_set>
#include "bta/include/bta_jv_api.h"
#include "bta/include/bta_sec_api.h"
#include "internal_include/bt_target.h"
#include "stack/include/bt_hdr.h"
#include "stack/include/rfcdefs.h"
#include "types/bluetooth/uuid.h"
#include "types/raw_address.h"
/*****************************************************************************
* Constants
****************************************************************************/
#ifndef BTA_JV_RFC_EV_MASK
#define BTA_JV_RFC_EV_MASK \
(PORT_EV_RXCHAR | PORT_EV_TXEMPTY | PORT_EV_FC | PORT_EV_FCS)
#endif
enum {
BTA_JV_PM_FREE_ST = 0, /* empty PM slot */
BTA_JV_PM_IDLE_ST,
BTA_JV_PM_BUSY_ST
};
/* BTA JV PM control block */
typedef struct {
uint32_t handle; /* The connection handle */
uint8_t state; /* state: see above enum */
tBTA_JV_PM_ID app_id; /* JV app specific id indicating power table to use */
RawAddress peer_bd_addr; /* Peer BD address */
} tBTA_JV_PM_CB;
enum {
BTA_JV_ST_NONE = 0,
BTA_JV_ST_CL_OPENING,
BTA_JV_ST_CL_OPEN,
BTA_JV_ST_CL_CLOSING,
BTA_JV_ST_SR_LISTEN,
BTA_JV_ST_SR_OPEN,
BTA_JV_ST_SR_CLOSING
};
typedef uint8_t tBTA_JV_STATE;
#define BTA_JV_ST_CL_MAX BTA_JV_ST_CL_CLOSING
/* JV L2CAP control block */
typedef struct {
tBTA_JV_L2CAP_CBACK* p_cback; /* the callback function */
uint16_t psm; /* the psm used for this server connection */
tBTA_JV_STATE state; /* the state of this control block */
tBTA_SERVICE_ID sec_id; /* service id */
uint32_t handle; /* the handle reported to java app (same as gap handle) */
bool cong; /* true, if congested */
tBTA_JV_PM_CB* p_pm_cb; /* ptr to pm control block, NULL: unused */
uint32_t l2cap_socket_id;
} tBTA_JV_L2C_CB;
#define BTA_JV_RFC_HDL_MASK 0xFF
#define BTA_JV_RFCOMM_MASK 0x80
#define BTA_JV_ALL_APP_ID 0xFF
#define BTA_JV_RFC_HDL_TO_SIDX(r) (((r)&0xFF00) >> 8)
#define BTA_JV_RFC_H_S_TO_HDL(h, s) ((h) | ((s) << 8))
/* port control block */
typedef struct {
uint32_t handle; /* the rfcomm session handle at jv */
uint16_t port_handle; /* port handle */
tBTA_JV_STATE state; /* the state of this control block */
uint8_t max_sess; /* max sessions */
uint32_t rfcomm_slot_id;
bool cong; /* true, if congested */
tBTA_JV_PM_CB* p_pm_cb; /* ptr to pm control block, NULL: unused */
} tBTA_JV_PCB;
/* JV RFCOMM control block */
typedef struct {
tBTA_JV_RFCOMM_CBACK* p_cback; /* the callback function */
uint16_t rfc_hdl[BTA_JV_MAX_RFC_SR_SESSION];
tBTA_SERVICE_ID sec_id; /* service id */
uint8_t handle; /* index: the handle reported to java app */
uint8_t scn; /* the scn of the server */
uint8_t max_sess; /* max sessions */
int curr_sess; /* current sessions count*/
} tBTA_JV_RFC_CB;
/* JV control block */
typedef struct {
/* the SDP handle reported to JV user is the (index + 1) to sdp_handle[].
* if sdp_handle[i]==0, it's not used.
* otherwise sdp_handle[i] is the stack SDP handle. */
uint32_t sdp_handle[BTA_JV_MAX_SDP_REC]; /* SDP records created */
uint8_t* p_sel_raw_data; /* the raw data of last service select */
tBTA_JV_DM_CBACK* p_dm_cback;
tBTA_JV_L2C_CB l2c_cb[BTA_JV_MAX_L2C_CONN]; /* index is GAP handle (index) */
tBTA_JV_RFC_CB rfc_cb[BTA_JV_MAX_RFC_CONN];
tBTA_JV_PCB port_cb[MAX_RFC_PORTS]; /* index of this array is
the port_handle, */
uint8_t sec_id[BTA_JV_NUM_SERVICE_ID]; /* service ID */
uint16_t free_psm_list[BTA_JV_MAX_L2C_CONN]; /* PSMs freed by java
(can be reused) */
bool scn_in_use[RFCOMM_MAX_SCN];
uint8_t scn_search_index; /* used to search for free scns */
uint8_t sdp_active; /* see BTA_JV_SDP_ACT_* */
bluetooth::Uuid uuid; /* current uuid of sdp discovery*/
tBTA_JV_PM_CB pm_cb[BTA_JV_PM_MAX_NUM]; /* PM on a per JV handle bases */
uint16_t dyn_psm; /* Next dynamic PSM value to try to assign */
} tBTA_JV_CB;
enum {
BTA_JV_SDP_ACT_NONE = 0,
BTA_JV_SDP_ACT_YES, /* waiting for SDP result */
BTA_JV_SDP_ACT_CANCEL /* waiting for cancel complete */
};
/* JV control block */
extern tBTA_JV_CB bta_jv_cb;
extern std::unordered_set<uint16_t> used_l2cap_classic_dynamic_psm;
void bta_jv_enable(tBTA_JV_DM_CBACK* p_cback);
void bta_jv_disable();
void bta_jv_get_channel_id(int32_t type, int32_t channel,
uint32_t l2cap_socket_id, uint32_t rfcomm_slot_id);
void bta_jv_free_scn(int32_t type, uint16_t scn);
void bta_jv_start_discovery(const RawAddress& bd_addr, uint16_t num_uuid,
bluetooth::Uuid* uuid_list,
uint32_t rfcomm_slot_id);
void bta_jv_create_record(uint32_t rfcomm_slot_id);
void bta_jv_delete_record(uint32_t handle);
void bta_jv_l2cap_connect(int32_t type, tBTA_SEC sec_mask, tBTA_JV_ROLE role,
uint16_t remote_psm, uint16_t rx_mtu,
const RawAddress& peer_bd_addr,
std::unique_ptr<tL2CAP_CFG_INFO> cfg,
std::unique_ptr<tL2CAP_ERTM_INFO> ertm_info,
tBTA_JV_L2CAP_CBACK* p_cback,
uint32_t l2cap_socket_id);
void bta_jv_l2cap_close(uint32_t handle, tBTA_JV_L2C_CB* p_cb);
void bta_jv_l2cap_start_server(int32_t type, tBTA_SEC sec_mask,
tBTA_JV_ROLE role, uint16_t local_psm,
uint16_t rx_mtu,
std::unique_ptr<tL2CAP_CFG_INFO> cfg_param,
std::unique_ptr<tL2CAP_ERTM_INFO> ertm_info,
tBTA_JV_L2CAP_CBACK* p_cback,
uint32_t l2cap_socket_id);
void bta_jv_l2cap_stop_server(uint16_t local_psm, uint32_t l2cap_socket_id);
void bta_jv_l2cap_write(uint32_t handle, uint32_t req_id, BT_HDR* msg,
uint32_t user_id, tBTA_JV_L2C_CB* p_cb);
void bta_jv_rfcomm_connect(tBTA_SEC sec_mask, uint8_t remote_scn,
const RawAddress& peer_bd_addr,
tBTA_JV_RFCOMM_CBACK* p_cback,
uint32_t rfcomm_slot_id);
void bta_jv_rfcomm_close(uint32_t handle, uint32_t rfcomm_slot_id);
void bta_jv_rfcomm_start_server(tBTA_SEC sec_mask, uint8_t local_scn,
uint8_t max_session,
tBTA_JV_RFCOMM_CBACK* p_cback,
uint32_t rfcomm_slot_id);
void bta_jv_rfcomm_stop_server(uint32_t handle, uint32_t rfcomm_slot_id);
void bta_jv_rfcomm_write(uint32_t handle, uint32_t req_id, tBTA_JV_RFC_CB* p_cb,
tBTA_JV_PCB* p_pcb);
void bta_jv_set_pm_profile(uint32_t handle, tBTA_JV_PM_ID app_id,
tBTA_JV_CONN_STATE init_st);
void bta_jv_l2cap_stop_server_le(uint16_t local_chan);
#endif /* BTA_JV_INT_H */