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android / platform / system / bt / cb03ab0107b265bc10bfd536d60d39c1bf141154 / . / stack / rfcomm / rfc_int.h
blob: 93da38abdf1269b3c1652ce16c99d7f167dfaf34 [file] [log] [blame]
/******************************************************************************
*
* Copyright (C) 1999-2012 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 file contains definitions internal to the RFC unit
*
*****************************************************************************/
#ifndef RFC_INT_H
#define RFC_INT_H
#include "l2c_api.h"
#include "port_int.h"
/*
* Define RFCOMM result codes
*/
#define RFCOMM_SUCCESS 0
#define RFCOMM_ERROR 1
#define RFCOMM_LOW_RESOURCES 2
#define RFCOMM_TRY_LATER 3
#define RFCOMM_USER_ERR 111
#define RFCOMM_SECURITY_ERR 112
/*
* Define max and min RFCOMM MTU (N1)
*/
#define RFCOMM_MIN_MTU 23
#define RFCOMM_MAX_MTU 32767
extern void RFCOMM_StartReq(tRFC_MCB* p_mcb);
extern void RFCOMM_StartRsp(tRFC_MCB* p_mcb, uint16_t result);
extern void RFCOMM_DlcEstablishReq(tRFC_MCB* p_mcb, uint8_t dlci, uint16_t mtu);
extern void RFCOMM_DlcEstablishRsp(tRFC_MCB* p_mcb, uint8_t dlci, uint16_t mtu,
uint16_t result);
extern void RFCOMM_DataReq(tRFC_MCB* p_mcb, uint8_t dlci, BT_HDR* p_buf);
extern void RFCOMM_DlcReleaseReq(tRFC_MCB* p_mcb, uint8_t dlci);
extern void RFCOMM_ParNegReq(tRFC_MCB* p_mcb, uint8_t dlci, uint16_t mtu);
extern void RFCOMM_ParNegRsp(tRFC_MCB* p_mcb, uint8_t dlci, uint16_t mtu,
uint8_t cl, uint8_t k);
extern void RFCOMM_TestReq(uint8_t* p_data, uint16_t len);
#define RFCOMM_FLOW_STATE_DISABLE 0
#define RFCOMM_FLOW_STATE_ENABLE 1
extern void RFCOMM_FlowReq(tRFC_MCB* p_mcb, uint8_t dlci, uint8_t state);
extern void RFCOMM_PortNegReq(tRFC_MCB* p_mcb, uint8_t dlci,
tPORT_STATE* p_pars);
extern void RFCOMM_PortNegRsp(tRFC_MCB* p_mcb, uint8_t dlci,
tPORT_STATE* p_pars, uint16_t param_mask);
extern void RFCOMM_ControlReq(tRFC_MCB* p_mcb, uint8_t dlci,
tPORT_CTRL* p_pars);
extern void RFCOMM_ControlRsp(tRFC_MCB* p_mcb, uint8_t dlci,
tPORT_CTRL* p_pars);
extern void RFCOMM_LineStatusReq(tRFC_MCB* p_mcb, uint8_t dlci,
uint8_t line_status);
/*
* Define logical struct used for sending and decoding MX frames
*/
typedef struct {
uint8_t dlci;
uint8_t type;
uint8_t cr;
uint8_t ea;
uint8_t pf;
uint8_t credit;
union {
struct {
uint8_t dlci;
uint8_t frame_type;
uint8_t conv_layer;
uint8_t priority;
uint8_t t1;
uint16_t mtu;
uint8_t n2;
uint8_t k;
} pn;
struct {
uint8_t* p_data;
uint16_t data_len;
} test;
struct {
uint8_t dlci;
uint8_t signals;
uint8_t break_present;
uint8_t break_duration;
} msc;
struct {
uint8_t ea;
uint8_t cr;
uint8_t type;
} nsc;
struct {
uint8_t dlci;
uint8_t is_request;
uint8_t baud_rate;
uint8_t byte_size;
uint8_t stop_bits;
uint8_t parity;
uint8_t parity_type;
uint8_t fc_type;
uint8_t xon_char;
uint8_t xoff_char;
uint16_t param_mask;
} rpn;
struct {
uint8_t dlci;
uint8_t line_status;
} rls;
} u;
} MX_FRAME;
#define LINE_STATUS_NO_ERROR 0x00
#define LINE_STATUS_OVERRUN 0x02 /* Receive Overrun Error */
#define LINE_STATUS_RXPARITY 0x04 /* Receive Parity Error */
#define LINE_STATUS_FRAME 0x08 /* Receive Framing error */
#define LINE_STATUS_FAILED 0x10 /* Connection Failed */
/*
* Define states and events for the RFC multiplexer state machine
*/
#define RFC_MX_STATE_IDLE 0
#define RFC_MX_STATE_WAIT_CONN_CNF 1
#define RFC_MX_STATE_CONFIGURE 2
#define RFC_MX_STATE_SABME_WAIT_UA 3
#define RFC_MX_STATE_WAIT_SABME 4
#define RFC_MX_STATE_CONNECTED 5
#define RFC_MX_STATE_DISC_WAIT_UA 6
/*
* Define port states
*/
#define RFC_STATE_CLOSED 0
#define RFC_STATE_SABME_WAIT_UA 1
#define RFC_STATE_ORIG_WAIT_SEC_CHECK 2
#define RFC_STATE_TERM_WAIT_SEC_CHECK 3
#define RFC_STATE_OPENED 4
#define RFC_STATE_DISC_WAIT_UA 5
/*
* Events that can be received by multiplexer as well as port state machines
*/
#define RFC_EVENT_SABME 0
#define RFC_EVENT_UA 1
#define RFC_EVENT_DM 2
#define RFC_EVENT_DISC 3
#define RFC_EVENT_UIH 4
#define RFC_EVENT_TIMEOUT 5
#define RFC_EVENT_BAD_FRAME 50
/*
* Multiplexer events
*/
#define RFC_MX_EVENT_START_REQ 6
#define RFC_MX_EVENT_START_RSP 7
#define RFC_MX_EVENT_CLOSE_REQ 8
#define RFC_MX_EVENT_CONN_CNF 9
#define RFC_MX_EVENT_CONN_IND 10
#define RFC_MX_EVENT_CONF_CNF 11
#define RFC_MX_EVENT_CONF_IND 12
#define RFC_MX_EVENT_QOS_VIOLATION_IND 13
#define RFC_MX_EVENT_DISC_IND 14
#define RFC_MX_EVENT_TEST_CMD 15
#define RFC_MX_EVENT_TEST_RSP 16
#define RFC_MX_EVENT_FCON_CMD 17
#define RFC_MX_EVENT_FCOFF_CMD 18
#define RFC_MX_EVENT_NSC 19
#define RFC_MX_EVENT_NSC_RSP 20
/*
* Port events
*/
#define RFC_EVENT_OPEN 9
#define RFC_EVENT_ESTABLISH_RSP 11
#define RFC_EVENT_CLOSE 12
#define RFC_EVENT_CLEAR 13
#define RFC_EVENT_DATA 14
#define RFC_EVENT_SEC_COMPLETE 15
/* seconds to wait for reply with Poll bit */
#define RFC_T1_TIMEOUT 20
/* seconds to wait for reply with Poll bit other than MX */
#define RFC_PORT_T1_TIMEOUT 60
/* timeout to wait for Mx UIH */
#define RFC_T2_TIMEOUT 20
/* If something goes wrong and we send DISC we should not wait for min */
#define RFC_DISC_TIMEOUT 3
#define RFC_CLOSE_TIMEOUT 10
/* first connection to be established on Mx */
#define RFCOMM_CONN_TIMEOUT 120
/* Define RFComm control block
*/
typedef struct {
MX_FRAME rx_frame;
tL2CAP_APPL_INFO reg_info; /* L2CAP Registration info */
/* MCB based on the L2CAP's lcid */
tRFC_MCB* p_rfc_lcid_mcb[MAX_L2CAP_CHANNELS];
bool peer_rx_disabled; /* If true peer sent FCOFF */
uint8_t last_mux; /* Last mux allocated */
uint8_t last_port; /* Last port allocated */
} tRFCOMM_CB;
/* Main Control Block for the RFCOMM Layer (PORT and RFC) */
typedef struct {
tRFCOMM_CB rfc;
tPORT_CB port;
uint8_t trace_level;
} tRFC_CB;
extern tRFC_CB rfc_cb;
/* Timer running on the multiplexor channel while no DLCI connection is open */
#define RFC_MCB_INIT_INACT_TIMER 60 /* in seconds */
/* Timer running on the multiplexor channel after last DLCI is released */
#define RFC_MCB_RELEASE_INACT_TIMER 2 /* in seconds */
/*
* Define RFCOMM frame processing errors
*/
#define RFCOMM_ERR_BAD_SABME 1
#define RFCOMM_ERR_BAD_UA 2
#define RFCOMM_ERR_BAD_DM 3
#define RFCOMM_ERR_BAD_DISC 4
#define RFCOMM_ERR_BAD_UIH 5
#ifdef RFCOMM_PRECALC_FCS
#define RFCOMM_SABME_FCS(p_data, cr, dlci) rfc_sabme_fcs[cr][dlci]
#define RFCOMM_UA_FCS(p_data, cr, dlci) rfc_ua_fcs[cr][dlci]
#define RFCOMM_DM_FCS(p_data, cr, dlci) rfc_dm_fcs[cr][dlci]
#define RFCOMM_DISC_FCS(p_data, cr, dlci) rfc_disc_fcs[cr][dlci]
#define RFCOMM_UIH_FCS(p_data, dlci) rfc_uih_fcs[dlci]
#else
extern uint8_t rfc_calc_fcs(uint16_t len, uint8_t* p);
#define RFCOMM_SABME_FCS(p_data, cr, dlci) rfc_calc_fcs(3, p_data)
#define RFCOMM_UA_FCS(p_data, cr, dlci) rfc_calc_fcs(3, p_data)
#define RFCOMM_DM_FCS(p_data, cr, dlci) rfc_calc_fcs(3, p_data)
#define RFCOMM_DISC_FCS(p_data, cr, dlci) rfc_calc_fcs(3, p_data)
#define RFCOMM_UIH_FCS(p_data, dlci) rfc_calc_fcs(2, p_data)
#endif
extern void rfc_mx_sm_execute(tRFC_MCB* p_mcb, uint16_t event, void* p_data);
/*
* Functions provided by the rfc_port_fsm.cc
*/
extern void rfc_port_sm_execute(tPORT* p_port, uint16_t event, void* p_data);
extern void rfc_process_pn(tRFC_MCB* p_rfc_mcb, bool is_command,
MX_FRAME* p_frame);
extern void rfc_process_msc(tRFC_MCB* p_rfc_mcb, bool is_command,
MX_FRAME* p_frame);
extern void rfc_process_rpn(tRFC_MCB* p_rfc_mcb, bool is_command,
bool is_request, MX_FRAME* p_frame);
extern void rfc_process_rls(tRFC_MCB* p_rfc_mcb, bool is_command,
MX_FRAME* p_frame);
extern void rfc_process_nsc(tRFC_MCB* p_rfc_mcb, MX_FRAME* p_frame);
extern void rfc_process_test_rsp(tRFC_MCB* p_rfc_mcb, BT_HDR* p_buf);
extern void rfc_process_fcon(tRFC_MCB* p_rfc_mcb, bool is_command);
extern void rfc_process_fcoff(tRFC_MCB* p_rfc_mcb, bool is_command);
extern void rfc_process_l2cap_congestion(tRFC_MCB* p_mcb, bool is_congested);
/*
* Functions provided by the rfc_utils.cc
*/
tRFC_MCB* rfc_alloc_multiplexer_channel(const RawAddress& bd_addr,
bool is_initiator);
extern void rfc_release_multiplexer_channel(tRFC_MCB* p_rfc_mcb);
extern void rfc_timer_start(tRFC_MCB* p_rfc_mcb, uint16_t timeout);
extern void rfc_timer_stop(tRFC_MCB* p_rfc_mcb);
extern void rfc_port_timer_start(tPORT* p_port, uint16_t tout);
extern void rfc_port_timer_stop(tPORT* p_port);
bool rfc_check_uih_fcs(uint8_t dlci, uint8_t received_fcs);
bool rfc_check_fcs(uint16_t len, uint8_t* p, uint8_t received_fcs);
tRFC_MCB* rfc_find_lcid_mcb(uint16_t lcid);
extern void rfc_save_lcid_mcb(tRFC_MCB* p_rfc_mcb, uint16_t lcid);
extern void rfc_check_mcb_active(tRFC_MCB* p_mcb);
extern void rfc_port_closed(tPORT* p_port);
extern void rfc_sec_check_complete(const RawAddress* bd_addr,
tBT_TRANSPORT transport, void* p_ref_data,
uint8_t res);
extern void rfc_inc_credit(tPORT* p_port, uint8_t credit);
extern void rfc_dec_credit(tPORT* p_port);
extern void rfc_check_send_cmd(tRFC_MCB* p_mcb, BT_HDR* p_buf);
/*
* Functions provided by the rfc_ts_frames.cc
*/
extern void rfc_send_sabme(tRFC_MCB* p_rfc_mcb, uint8_t dlci);
extern void rfc_send_ua(tRFC_MCB* p_rfc_mcb, uint8_t dlci);
extern void rfc_send_dm(tRFC_MCB* p_rfc_mcb, uint8_t dlci, bool pf);
extern void rfc_send_disc(tRFC_MCB* p_rfc_mcb, uint8_t dlci);
extern void rfc_send_pn(tRFC_MCB* p_mcb, uint8_t dlci, bool is_command,
uint16_t mtu, uint8_t cl, uint8_t k);
extern void rfc_send_test(tRFC_MCB* p_rfc_mcb, bool is_command, BT_HDR* p_buf);
extern void rfc_send_msc(tRFC_MCB* p_mcb, uint8_t dlci, bool is_command,
tPORT_CTRL* p_pars);
extern void rfc_send_rls(tRFC_MCB* p_mcb, uint8_t dlci, bool is_command,
uint8_t status);
extern void rfc_send_rpn(tRFC_MCB* p_mcb, uint8_t dlci, bool is_command,
tPORT_STATE* p_pars, uint16_t mask);
extern void rfc_send_fcon(tRFC_MCB* p_mcb, bool is_command);
extern void rfc_send_fcoff(tRFC_MCB* p_mcb, bool is_command);
extern void rfc_send_buf_uih(tRFC_MCB* p_rfc_mcb, uint8_t dlci, BT_HDR* p_buf);
extern void rfc_send_credit(tRFC_MCB* p_mcb, uint8_t dlci, uint8_t credit);
extern void rfc_process_mx_message(tRFC_MCB* p_rfc_mcb, BT_HDR* p_buf);
extern uint8_t rfc_parse_data(tRFC_MCB* p_rfc_mcb, MX_FRAME* p_frame,
BT_HDR* p_buf);
/* Call back functions from RFCOMM */
extern void rfcomm_l2cap_if_init(void);
extern void PORT_StartInd(tRFC_MCB* p_mcb);
extern void PORT_StartCnf(tRFC_MCB* p_mcb, uint16_t result);
extern void PORT_CloseInd(tRFC_MCB* p_mcb);
extern void Port_TimeOutCloseMux(tRFC_MCB* p_mcb);
extern void PORT_DlcEstablishInd(tRFC_MCB* p_mcb, uint8_t dlci, uint16_t mtu);
extern void PORT_DlcEstablishCnf(tRFC_MCB* p_mcb, uint8_t dlci, uint16_t mtu,
uint16_t result);
extern void PORT_DataInd(tRFC_MCB* p_mcb, uint8_t dlci, BT_HDR* p_buf);
extern void PORT_DlcReleaseInd(tRFC_MCB* p_mcb, uint8_t dlci);
extern void PORT_ParNegInd(tRFC_MCB* p_mcb, uint8_t dlci, uint16_t mtu,
uint8_t cl, uint8_t k);
extern void PORT_ParNegCnf(tRFC_MCB* p_mcb, uint8_t dlci, uint16_t mtu,
uint8_t cl, uint8_t k);
extern void PORT_TestCnf(tRFC_MCB* p_mcb, uint8_t* p_data, uint16_t len);
extern void PORT_FlowInd(tRFC_MCB* p_mcb, uint8_t dlci, bool fc);
extern void PORT_PortNegInd(tRFC_MCB* p_mcb, uint8_t dlci, tPORT_STATE* p_pars,
uint16_t param_mask);
extern void PORT_PortNegCnf(tRFC_MCB* p_mcb, uint8_t dlci, tPORT_STATE* p_pars,
uint16_t result);
extern void PORT_ControlInd(tRFC_MCB* p_mcb, uint8_t dlci, tPORT_CTRL* p_pars);
extern void PORT_ControlCnf(tRFC_MCB* p_mcb, uint8_t dlci, tPORT_CTRL* p_pars);
extern void PORT_LineStatusInd(tRFC_MCB* p_mcb, uint8_t dlci,
uint8_t line_status);
#endif