Gitiles
Code Review Sign In
gerrit-public.fairphone.software / platform / system / nfc / 1d06277aa1c2fb28d9e21432b62754dd6ea3a8b8 / . / src / nfa / include / nfa_ee_int.h
blob: c7000275648d24a23ada5e55c3373a5b522948e9 [file] [log] [blame]
/******************************************************************************
*
* Copyright (C) 2010-2014 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 NFA EE.
*
******************************************************************************/
#ifndef NFA_EE_INT_H
#define NFA_EE_INT_H
#include "nfa_ee_api.h"
#include "nfa_sys.h"
#include "nfc_api.h"
/*****************************************************************************
** Constants and data types
*****************************************************************************/
/* the number of tNFA_EE_ECBs (for NFCEEs and DH) */
#define NFA_EE_NUM_ECBS (NFA_EE_MAX_EE_SUPPORTED + 1)
/* The index for DH in nfa_ee_cb.ee_cb[] */
#define NFA_EE_CB_4_DH NFA_EE_MAX_EE_SUPPORTED
#define NFA_EE_INVALID 0xFF
/* only A, B, F, Bprime are supported by UICC now */
#define NFA_EE_MAX_TECH_ROUTE 4
#ifndef NFA_EE_AID_CFG_TAG_NAME
/* AID */
#define NFA_EE_AID_CFG_TAG_NAME 0x4F
#endif
/* NFA EE events */
enum {
NFA_EE_API_DISCOVER_EVT = NFA_SYS_EVT_START(NFA_ID_EE),
NFA_EE_API_REGISTER_EVT,
NFA_EE_API_DEREGISTER_EVT,
NFA_EE_API_MODE_SET_EVT,
NFA_EE_API_SET_TECH_CFG_EVT,
NFA_EE_API_SET_PROTO_CFG_EVT,
NFA_EE_API_ADD_AID_EVT,
NFA_EE_API_REMOVE_AID_EVT,
NFA_EE_API_ADD_SYSCODE_EVT,
NFA_EE_API_REMOVE_SYSCODE_EVT,
NFA_EE_API_LMRT_SIZE_EVT,
NFA_EE_API_UPDATE_NOW_EVT,
NFA_EE_API_CONNECT_EVT,
NFA_EE_API_SEND_DATA_EVT,
NFA_EE_API_DISCONNECT_EVT,
NFA_EE_NCI_DISC_RSP_EVT,
NFA_EE_NCI_DISC_NTF_EVT,
NFA_EE_NCI_MODE_SET_RSP_EVT,
NFA_EE_NCI_CONN_EVT,
NFA_EE_NCI_DATA_EVT,
NFA_EE_NCI_ACTION_NTF_EVT,
NFA_EE_NCI_DISC_REQ_NTF_EVT,
NFA_EE_NCI_WAIT_RSP_EVT,
NFA_EE_ROUT_TIMEOUT_EVT,
NFA_EE_DISCV_TIMEOUT_EVT,
NFA_EE_CFG_TO_NFCC_EVT,
NFA_EE_MAX_EVT
};
typedef uint16_t tNFA_EE_INT_EVT;
/* for listen mode routing table*/
#define NFA_EE_AE_ROUTE 0x80
#define NFA_EE_AE_VS 0x40
/* NFA EE Management state */
enum {
NFA_EE_EM_STATE_INIT = 0,
NFA_EE_EM_STATE_INIT_DONE,
NFA_EE_EM_STATE_RESTORING,
NFA_EE_EM_STATE_DISABLING,
NFA_EE_EM_STATE_DISABLED,
NFA_EE_EM_STATE_MAX
};
typedef uint8_t tNFA_EE_EM_STATE;
/* NFA EE connection status */
enum {
NFA_EE_CONN_ST_NONE, /* not connected */
NFA_EE_CONN_ST_WAIT, /* connection is initiated; waiting for ack */
NFA_EE_CONN_ST_CONN, /* connected; can send/receive data */
NFA_EE_CONN_ST_DISC /* disconnecting; waiting for ack */
};
typedef uint8_t tNFA_EE_CONN_ST;
#define NFA_EE_MAX_AID_CFG_LEN (510)
#define NFA_EE_SYSTEM_CODE_LEN 02
#define NFA_EE_SYSTEM_CODE_TLV_SIZE 06
#define NFA_EE_MAX_SYSTEM_CODE_ENTRIES 10
#define NFA_EE_MAX_SYSTEM_CODE_CFG_LEN \
(NFA_EE_MAX_SYSTEM_CODE_ENTRIES * NFA_EE_SYSTEM_CODE_TLV_SIZE)
/* NFA EE control block flags:
* use to indicate an API function has changed the configuration of the
* associated NFCEE
* The flags are cleared when the routing table/VS is updated */
/* technology routing changed */
#define NFA_EE_ECB_FLAGS_TECH 0x02
/* protocol routing changed */
#define NFA_EE_ECB_FLAGS_PROTO 0x04
/* AID routing changed */
#define NFA_EE_ECB_FLAGS_AID 0x08
/* System Code routing changed */
#define NFA_EE_ECB_FLAGS_SYSCODE 0xE0
/* VS changed */
#define NFA_EE_ECB_FLAGS_VS 0x10
/* Restore related */
#define NFA_EE_ECB_FLAGS_RESTORE 0x20
/* routing flags changed */
#define NFA_EE_ECB_FLAGS_ROUTING 0x0E
/* NFCEE Discover Request NTF is set */
#define NFA_EE_ECB_FLAGS_DISC_REQ 0x40
/* DISC_REQ N reported before DISC N */
#define NFA_EE_ECB_FLAGS_ORDER 0x80
typedef uint8_t tNFA_EE_ECB_FLAGS;
/* part of tNFA_EE_STATUS; for internal use only */
/* waiting for restore to full power mode to complete */
#define NFA_EE_STATUS_RESTORING 0x20
/* this bit is in ee_status for internal use only */
#define NFA_EE_STATUS_INT_MASK 0x20
/* NFA-EE information for a particular NFCEE Entity (including DH) */
typedef struct {
tNFA_TECHNOLOGY_MASK
tech_switch_on; /* default routing - technologies switch_on */
tNFA_TECHNOLOGY_MASK
tech_switch_off; /* default routing - technologies switch_off */
tNFA_TECHNOLOGY_MASK
tech_battery_off; /* default routing - technologies battery_off*/
tNFA_PROTOCOL_MASK
proto_switch_on; /* default routing - protocols switch_on */
tNFA_PROTOCOL_MASK
proto_switch_off; /* default routing - protocols switch_off */
tNFA_PROTOCOL_MASK
proto_battery_off; /* default routing - protocols battery_off */
tNFA_EE_CONN_ST conn_st; /* connection status */
uint8_t conn_id; /* connection id */
tNFA_EE_CBACK* p_ee_cback; /* the callback function */
/* Each AID entry has an ssociated aid_len, aid_pwr_cfg, aid_rt_info.
* aid_cfg[] contains AID and maybe some other VS information in TLV format
* The first T is always NFA_EE_AID_CFG_TAG_NAME, the L is the actual AID
* length
* the aid_len is the total length of all the TLVs associated with this AID
* entry
*/
uint8_t aid_len[NFA_EE_MAX_AID_ENTRIES]; /* the actual lengths in aid_cfg */
uint8_t aid_pwr_cfg[NFA_EE_MAX_AID_ENTRIES]; /* power configuration of this
AID entry */
uint8_t aid_rt_info[NFA_EE_MAX_AID_ENTRIES]; /* route/vs info for this AID
entry */
uint8_t aid_cfg[NFA_EE_MAX_AID_CFG_LEN]; /* routing entries based on AID */
uint8_t aid_entries; /* The number of AID entries in aid_cfg */
uint8_t nfcee_id; /* ID for this NFCEE */
uint8_t ee_status; /* The NFCEE status */
uint8_t ee_old_status; /* The NFCEE status before going to low power mode */
tNFA_EE_INTERFACE
ee_interface[NFC_MAX_EE_INTERFACE]; /* NFCEE supported interface */
tNFA_EE_TLV ee_tlv[NFC_MAX_EE_TLVS]; /* the TLV */
uint8_t num_interface; /* number of Target interface */
uint8_t num_tlvs; /* number of TLVs */
uint8_t ee_power_supply_status; /* power supply of NFCEE*/
tNFA_EE_ECB_FLAGS ecb_flags; /* the flags of this control block */
tNFA_EE_INTERFACE use_interface; /* NFCEE interface used for the connection */
tNFA_NFC_PROTOCOL la_protocol; /* Listen A protocol */
tNFA_NFC_PROTOCOL lb_protocol; /* Listen B protocol */
tNFA_NFC_PROTOCOL lf_protocol; /* Listen F protocol */
tNFA_NFC_PROTOCOL lbp_protocol; /* Listen B' protocol */
uint8_t size_mask; /* the size for technology and protocol routing */
uint16_t size_aid; /* the size for aid routing */
uint8_t aid_info[NFA_EE_MAX_AID_ENTRIES]; /* Aid Info Prefix/Suffix/Exact */
/*System Code Based Routing Variables*/
uint8_t sys_code_cfg[NFA_EE_MAX_SYSTEM_CODE_ENTRIES * NFA_EE_SYSTEM_CODE_LEN];
uint8_t sys_code_pwr_cfg[NFA_EE_MAX_SYSTEM_CODE_ENTRIES];
uint8_t sys_code_rt_loc[NFA_EE_MAX_SYSTEM_CODE_ENTRIES];
uint8_t sys_code_rt_loc_vs_info[NFA_EE_MAX_SYSTEM_CODE_ENTRIES];
/* The number of SC entries in sys_code_cfg buffer*/
uint8_t sys_code_cfg_entries;
uint16_t size_sys_code; /* The size for system code routing */
} tNFA_EE_ECB;
/* data type for NFA_EE_API_DISCOVER_EVT */
typedef struct {
NFC_HDR hdr;
tNFA_EE_CBACK* p_cback;
} tNFA_EE_API_DISCOVER;
/* data type for NFA_EE_API_REGISTER_EVT */
typedef struct {
NFC_HDR hdr;
tNFA_EE_CBACK* p_cback;
} tNFA_EE_API_REGISTER;
/* data type for NFA_EE_API_DEREGISTER_EVT */
typedef struct {
NFC_HDR hdr;
int index;
} tNFA_EE_API_DEREGISTER;
/* data type for NFA_EE_API_MODE_SET_EVT */
typedef struct {
NFC_HDR hdr;
tNFA_EE_ECB* p_cb;
uint8_t nfcee_id;
uint8_t mode;
} tNFA_EE_API_MODE_SET;
/* data type for NFA_EE_API_SET_TECH_CFG_EVT */
typedef struct {
NFC_HDR hdr;
tNFA_EE_ECB* p_cb;
uint8_t nfcee_id;
tNFA_TECHNOLOGY_MASK technologies_switch_on;
tNFA_TECHNOLOGY_MASK technologies_switch_off;
tNFA_TECHNOLOGY_MASK technologies_battery_off;
} tNFA_EE_API_SET_TECH_CFG;
/* data type for NFA_EE_API_SET_PROTO_CFG_EVT */
typedef struct {
NFC_HDR hdr;
tNFA_EE_ECB* p_cb;
uint8_t nfcee_id;
tNFA_PROTOCOL_MASK protocols_switch_on;
tNFA_PROTOCOL_MASK protocols_switch_off;
tNFA_PROTOCOL_MASK protocols_battery_off;
} tNFA_EE_API_SET_PROTO_CFG;
/* data type for NFA_EE_API_ADD_AID_EVT */
typedef struct {
NFC_HDR hdr;
tNFA_EE_ECB* p_cb;
uint8_t nfcee_id;
uint8_t aid_len;
uint8_t* p_aid;
tNFA_EE_PWR_STATE power_state;
uint8_t aidInfo;
} tNFA_EE_API_ADD_AID;
/* data type for NFA_EE_API_REMOVE_AID_EVT */
typedef struct {
NFC_HDR hdr;
uint8_t aid_len;
uint8_t* p_aid;
} tNFA_EE_API_REMOVE_AID;
/* data type for NFA_EE_API_ADD_SYSCODE_EVT */
typedef struct {
NFC_HDR hdr;
tNFA_EE_ECB* p_cb;
uint8_t nfcee_id;
uint16_t syscode;
tNFA_EE_PWR_STATE power_state;
} tNFA_EE_API_ADD_SYSCODE;
/* data type for NFA_EE_API_REMOVE_SYSCODE_EVT */
typedef struct {
NFC_HDR hdr;
uint16_t syscode;
} tNFA_EE_API_REMOVE_SYSCODE;
/* data type for NFA_EE_API_LMRT_SIZE_EVT */
typedef NFC_HDR tNFA_EE_API_LMRT_SIZE;
/* data type for NFA_EE_API_CONNECT_EVT */
typedef struct {
NFC_HDR hdr;
tNFA_EE_ECB* p_cb;
uint8_t nfcee_id;
uint8_t ee_interface;
tNFA_EE_CBACK* p_cback;
} tNFA_EE_API_CONNECT;
/* data type for NFA_EE_API_SEND_DATA_EVT */
typedef struct {
NFC_HDR hdr;
tNFA_EE_ECB* p_cb;
uint8_t nfcee_id;
uint16_t data_len;
uint8_t* p_data;
} tNFA_EE_API_SEND_DATA;
/* data type for NFA_EE_API_DISCONNECT_EVT */
typedef struct {
NFC_HDR hdr;
tNFA_EE_ECB* p_cb;
uint8_t nfcee_id;
} tNFA_EE_API_DISCONNECT;
/* common data type for internal events with nfa_ee_use_cfg_cb[] as TRUE */
typedef struct {
NFC_HDR hdr;
tNFA_EE_ECB* p_cb;
uint8_t nfcee_id;
} tNFA_EE_CFG_HDR;
/* data type for NFA_EE_NCI_DISC_RSP_EVT */
typedef struct {
NFC_HDR hdr;
tNFC_NFCEE_DISCOVER_REVT* p_data;
} tNFA_EE_NCI_DISC_RSP;
/* data type for NFA_EE_NCI_DISC_NTF_EVT */
typedef struct {
NFC_HDR hdr;
tNFC_NFCEE_INFO_REVT* p_data;
} tNFA_EE_NCI_DISC_NTF;
/* data type for NFA_EE_NCI_MODE_SET_RSP_EVT */
typedef struct {
NFC_HDR hdr;
tNFC_NFCEE_MODE_SET_REVT* p_data;
} tNFA_EE_NCI_MODE_SET;
/* data type for NFA_EE_NCI_WAIT_RSP_EVT */
typedef struct {
NFC_HDR hdr;
void* p_data;
uint8_t opcode;
} tNFA_EE_NCI_WAIT_RSP;
/* data type for NFA_EE_NCI_CONN_EVT and NFA_EE_NCI_DATA_EVT */
typedef struct {
NFC_HDR hdr;
uint8_t conn_id;
tNFC_CONN_EVT event;
tNFC_CONN* p_data;
} tNFA_EE_NCI_CONN;
/* data type for NFA_EE_NCI_ACTION_NTF_EVT */
typedef struct {
NFC_HDR hdr;
tNFC_EE_ACTION_REVT* p_data;
} tNFA_EE_NCI_ACTION;
/* data type for NFA_EE_NCI_DISC_REQ_NTF_EVT */
typedef struct {
NFC_HDR hdr;
tNFC_EE_DISCOVER_REQ_REVT* p_data;
} tNFA_EE_NCI_DISC_REQ;
/* union of all event data types */
typedef union {
NFC_HDR hdr;
tNFA_EE_CFG_HDR cfg_hdr;
tNFA_EE_API_DISCOVER ee_discover;
tNFA_EE_API_REGISTER ee_register;
tNFA_EE_API_DEREGISTER deregister;
tNFA_EE_API_MODE_SET mode_set;
tNFA_EE_API_SET_TECH_CFG set_tech;
tNFA_EE_API_SET_PROTO_CFG set_proto;
tNFA_EE_API_ADD_AID add_aid;
tNFA_EE_API_REMOVE_AID rm_aid;
tNFA_EE_API_ADD_SYSCODE add_syscode;
tNFA_EE_API_REMOVE_SYSCODE rm_syscode;
tNFA_EE_API_LMRT_SIZE lmrt_size;
tNFA_EE_API_CONNECT connect;
tNFA_EE_API_SEND_DATA send_data;
tNFA_EE_API_DISCONNECT disconnect;
tNFA_EE_NCI_DISC_RSP disc_rsp;
tNFA_EE_NCI_DISC_NTF disc_ntf;
tNFA_EE_NCI_MODE_SET mode_set_rsp;
tNFA_EE_NCI_WAIT_RSP wait_rsp;
tNFA_EE_NCI_CONN conn;
tNFA_EE_NCI_ACTION act;
tNFA_EE_NCI_DISC_REQ disc_req;
} tNFA_EE_MSG;
/* type for State Machine (SM) action functions */
typedef void (*tNFA_EE_SM_ACT)(tNFA_EE_MSG* p_data);
/*****************************************************************************
** control block
*****************************************************************************/
#define NFA_EE_CFGED_UPDATE_NOW 0x80
/* either switch off or battery off is configured */
#define NFA_EE_CFGED_OFF_ROUTING 0x40
/* the following status are the definition used in ee_cfg_sts */
#define NFA_EE_STS_CHANGED_ROUTING 0x01
#define NFA_EE_STS_CHANGED 0x0f
#define NFA_EE_STS_PREV_ROUTING 0x10
#define NFA_EE_STS_PREV 0xf0
/* need to report NFA_EE_UPDATED_EVT */
#define NFA_EE_WAIT_UPDATE 0x10
/* waiting for the rsp of set routing commands */
#define NFA_EE_WAIT_UPDATE_RSP 0x20
#define NFA_EE_WAIT_UPDATE_ALL 0xF0
typedef uint8_t tNFA_EE_WAIT;
/* set this bit when waiting for HCI to finish the initialization process in
* NFA_EE_EM_STATE_RESTORING */
#define NFA_EE_FLAG_WAIT_HCI 0x01
/* set this bit when EE needs to notify the p_enable_cback at the end of NFCEE
* discover process in NFA_EE_EM_STATE_RESTORING */
#define NFA_EE_FLAG_NOTIFY_HCI 0x02
/* set this bit when gracefully disable with outstanding NCI connections */
#define NFA_EE_FLAG_WAIT_DISCONN 0x04
typedef uint8_t tNFA_EE_FLAGS;
/* NFCEE DISCOVER in progress */
#define NFA_EE_DISC_STS_ON 0x00
/* disable NFCEE DISCOVER */
#define NFA_EE_DISC_STS_OFF 0x01
/* received NFCEE DISCOVER REQ NTF */
#define NFA_EE_DISC_STS_REQ 0x02
/* received NFA_EE_MODE_SET_COMPLETE */
#define NFA_EE_MODE_SET_COMPLETE 0x03
typedef uint8_t tNFA_EE_DISC_STS;
typedef void(tNFA_EE_ENABLE_DONE_CBACK)(tNFA_EE_DISC_STS status);
/* NFA EE Management control block */
typedef struct {
tNFA_EE_ECB ecb[NFA_EE_NUM_ECBS]; /* control block for DH and NFCEEs */
TIMER_LIST_ENT timer; /* timer to send info to NFCC */
TIMER_LIST_ENT discv_timer; /* timer to end NFCEE discovery */
tNFA_EE_CBACK* p_ee_cback[NFA_EE_MAX_CBACKS]; /* to report EE events */
tNFA_EE_CBACK* p_ee_disc_cback; /* to report EE discovery result */
tNFA_EE_ENABLE_DONE_CBACK*
p_enable_cback; /* callback to notify on enable done*/
tNFA_EE_EM_STATE em_state; /* NFA-EE state initialized or not */
uint8_t wait_rsp; /* num of NCI rsp expected (update) */
uint8_t num_ee_expecting; /* number of ee_info still expecting*/
uint8_t cur_ee; /* the number of ee_info in cb */
uint8_t ee_cfged; /* the bit mask of configured ECBs */
uint8_t ee_cfg_sts; /* configuration status */
tNFA_EE_WAIT ee_wait_evt; /* Pending event(s) to be reported */
tNFA_EE_FLAGS ee_flags; /* flags */
uint8_t route_block_control; /* controls route block feature */
} tNFA_EE_CB;
/* Order of Routing entries in Routing Table */
#define NCI_ROUTE_ORDER_AID 0x01 /* AID routing order */
#define NCI_ROUTE_ORDER_SYS_CODE 0x03 /* System Code routing order*/
#define NCI_ROUTE_ORDER_PROTOCOL 0x04 /* Protocol routing order*/
#define NCI_ROUTE_ORDER_TECHNOLOGY 0x05 /* Technology routing order*/
/*****************************************************************************
** External variables
*****************************************************************************/
/* NFA EE control block */
extern tNFA_EE_CB nfa_ee_cb;
/*****************************************************************************
** External functions
*****************************************************************************/
/* function prototypes - exported from nfa_ee_main.c */
void nfa_ee_sys_enable(void);
void nfa_ee_sys_disable(void);
/* event handler function type */
bool nfa_ee_evt_hdlr(NFC_HDR* p_msg);
void nfa_ee_proc_nfcc_power_mode(uint8_t nfcc_power_mode);
#if (NFC_NFCEE_INCLUDED == TRUE)
void nfa_ee_get_tech_route(uint8_t power_state, uint8_t* p_handles);
#endif
void nfa_ee_proc_evt(tNFC_RESPONSE_EVT event, void* p_data);
tNFA_EE_ECB* nfa_ee_find_ecb(uint8_t nfcee_id);
tNFA_EE_ECB* nfa_ee_find_ecb_by_conn_id(uint8_t conn_id);
uint8_t nfa_ee_ecb_to_mask(tNFA_EE_ECB* p_cb);
void nfa_ee_restore_one_ecb(tNFA_EE_ECB* p_cb);
bool nfa_ee_is_active(tNFA_HANDLE nfcee_id);
/* Action function prototypes - nfa_ee_act.c */
void nfa_ee_api_discover(tNFA_EE_MSG* p_data);
void nfa_ee_api_register(tNFA_EE_MSG* p_data);
void nfa_ee_api_deregister(tNFA_EE_MSG* p_data);
void nfa_ee_api_mode_set(tNFA_EE_MSG* p_data);
void nfa_ee_api_set_tech_cfg(tNFA_EE_MSG* p_data);
void nfa_ee_api_set_proto_cfg(tNFA_EE_MSG* p_data);
void nfa_ee_api_add_aid(tNFA_EE_MSG* p_data);
void nfa_ee_api_remove_aid(tNFA_EE_MSG* p_data);
void nfa_ee_api_add_sys_code(tNFA_EE_MSG* p_data);
void nfa_ee_api_remove_sys_code(tNFA_EE_MSG* p_data);
void nfa_ee_api_lmrt_size(tNFA_EE_MSG* p_data);
void nfa_ee_api_update_now(tNFA_EE_MSG* p_data);
void nfa_ee_api_connect(tNFA_EE_MSG* p_data);
void nfa_ee_api_send_data(tNFA_EE_MSG* p_data);
void nfa_ee_api_disconnect(tNFA_EE_MSG* p_data);
void nfa_ee_report_disc_done(bool notify_sys);
void nfa_ee_nci_disc_rsp(tNFA_EE_MSG* p_data);
void nfa_ee_nci_disc_ntf(tNFA_EE_MSG* p_data);
void nfa_ee_nci_mode_set_rsp(tNFA_EE_MSG* p_data);
void nfa_ee_nci_wait_rsp(tNFA_EE_MSG* p_data);
void nfa_ee_nci_conn(tNFA_EE_MSG* p_data);
void nfa_ee_nci_action_ntf(tNFA_EE_MSG* p_data);
void nfa_ee_nci_disc_req_ntf(tNFA_EE_MSG* p_data);
void nfa_ee_rout_timeout(tNFA_EE_MSG* p_data);
void nfa_ee_discv_timeout(tNFA_EE_MSG* p_data);
void nfa_ee_lmrt_to_nfcc(tNFA_EE_MSG* p_data);
void nfa_ee_update_rout(void);
void nfa_ee_report_event(tNFA_EE_CBACK* p_cback, tNFA_EE_EVT event,
tNFA_EE_CBACK_DATA* p_data);
tNFA_EE_ECB* nfa_ee_find_aid_offset(uint8_t aid_len, uint8_t* p_aid,
int* p_offset, int* p_entry);
tNFA_EE_ECB* nfa_ee_find_sys_code_offset(uint16_t sys_code, int* p_offset,
int* p_entry);
int nfa_ee_find_total_aid_len(tNFA_EE_ECB* p_cb, int start_entry);
void nfa_ee_start_timer(void);
void nfa_ee_reg_cback_enable_done(tNFA_EE_ENABLE_DONE_CBACK* p_cback);
void nfa_ee_report_update_evt(void);
extern void nfa_ee_proc_hci_info_cback(void);
void nfa_ee_check_disable(void);
bool nfa_ee_restore_ntf_done(void);
void nfa_ee_check_restore_complete(void);
#endif /* NFA_P2P_INT_H */