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android / platform / system / bt / ea7ab70a711e642653dd5922b83aa04a53af9e0e / . / stack / avdt / avdt_int.h
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/******************************************************************************
*
* Copyright 2002-2012 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 interfaces which are internal to AVDTP.
*
******************************************************************************/
#ifndef AVDT_INT_H
#define AVDT_INT_H
#include <unordered_map>
#include "avdt_api.h"
#include "avdt_defs.h"
#include "avdtc_api.h"
#include "btm_api.h"
#include "l2c_api.h"
#include "osi/include/alarm.h"
#include "osi/include/fixed_queue.h"
#include "stack/include/bt_hdr.h"
#include "types/raw_address.h"
#ifndef AVDT_DEBUG
#define AVDT_DEBUG FALSE
#endif
/*****************************************************************************
* constants
****************************************************************************/
/* channel types */
enum {
AVDT_CHAN_SIG, /* signaling channel */
AVDT_CHAN_MEDIA, /* media channel */
AVDT_CHAN_REPORT, /* reporting channel */
AVDT_CHAN_NUM_TYPES
};
/* protocol service capabilities of this AVDTP implementation */
#define AVDT_PSC (AVDT_PSC_TRANS | AVDT_PSC_REPORT | AVDT_PSC_DELAY_RPT)
#define AVDT_LEG_PSC (AVDT_PSC_TRANS | AVDT_PSC_REPORT)
/* initiator/acceptor signaling roles */
#define AVDT_CLOSE_ACP 0
#define AVDT_CLOSE_INT 1
#define AVDT_OPEN_ACP 2
#define AVDT_OPEN_INT 3
/* states for avdt_scb_verify */
#define AVDT_VERIFY_OPEN 0
#define AVDT_VERIFY_STREAMING 1
#define AVDT_VERIFY_SUSPEND 2
#define AVDT_VERIFY_START 3
/* to distinguish CCB events from SCB events */
#define AVDT_CCB_MKR 0x80
/* offset where AVDTP signaling message content starts;
* use the size of a start header since it's the largest possible
* layout of signaling message in a buffer is:
*
* | BT_HDR | SCB handles | L2CAP + HCI header | AVDTP header | data ... |
*
* Note that we "hide" the scb handles at the top of the message buffer.
*/
#define AVDT_MSG_OFFSET (L2CAP_MIN_OFFSET + AVDT_NUM_SEPS + AVDT_LEN_TYPE_START)
/* scb transport channel connect timeout value (in milliseconds) */
#define AVDT_SCB_TC_CONN_TIMEOUT_MS (10 * 1000)
/* scb transport channel disconnect timeout value (in milliseconds) */
#define AVDT_SCB_TC_DISC_TIMEOUT_MS (10 * 1000)
/* maximum number of command retransmissions */
#ifndef AVDT_RET_MAX
#define AVDT_RET_MAX 1
#endif
/* ccb state machine states */
enum {
AVDT_CCB_IDLE_ST,
AVDT_CCB_OPENING_ST,
AVDT_CCB_OPEN_ST,
AVDT_CCB_CLOSING_ST
};
/* state machine action enumeration list */
enum : uint8_t {
AVDT_CCB_CHAN_OPEN,
AVDT_CCB_CHAN_CLOSE,
AVDT_CCB_CHK_CLOSE,
AVDT_CCB_HDL_DISCOVER_CMD,
AVDT_CCB_HDL_DISCOVER_RSP,
AVDT_CCB_HDL_GETCAP_CMD,
AVDT_CCB_HDL_GETCAP_RSP,
AVDT_CCB_HDL_START_CMD,
AVDT_CCB_HDL_START_RSP,
AVDT_CCB_HDL_SUSPEND_CMD,
AVDT_CCB_HDL_SUSPEND_RSP,
AVDT_CCB_SND_DISCOVER_CMD,
AVDT_CCB_SND_DISCOVER_RSP,
AVDT_CCB_SND_GETCAP_CMD,
AVDT_CCB_SND_GETCAP_RSP,
AVDT_CCB_SND_START_CMD,
AVDT_CCB_SND_START_RSP,
AVDT_CCB_SND_SUSPEND_CMD,
AVDT_CCB_SND_SUSPEND_RSP,
AVDT_CCB_CLEAR_CMDS,
AVDT_CCB_CMD_FAIL,
AVDT_CCB_FREE_CMD,
AVDT_CCB_CONG_STATE,
AVDT_CCB_RET_CMD,
AVDT_CCB_SND_CMD,
AVDT_CCB_SND_MSG,
AVDT_CCB_SET_RECONN,
AVDT_CCB_CLR_RECONN,
AVDT_CCB_CHK_RECONN,
AVDT_CCB_CHK_TIMER,
AVDT_CCB_SET_CONN,
AVDT_CCB_SET_DISCONN,
AVDT_CCB_DO_DISCONN,
AVDT_CCB_LL_CLOSED,
AVDT_CCB_LL_OPENED,
AVDT_CCB_DEALLOC,
AVDT_CCB_NUM_ACTIONS
};
#define AVDT_CCB_IGNORE AVDT_CCB_NUM_ACTIONS
/* ccb state machine events */
enum {
AVDT_CCB_API_DISCOVER_REQ_EVT,
AVDT_CCB_API_GETCAP_REQ_EVT,
AVDT_CCB_API_START_REQ_EVT,
AVDT_CCB_API_SUSPEND_REQ_EVT,
AVDT_CCB_API_DISCOVER_RSP_EVT,
AVDT_CCB_API_GETCAP_RSP_EVT,
AVDT_CCB_API_START_RSP_EVT,
AVDT_CCB_API_SUSPEND_RSP_EVT,
AVDT_CCB_API_CONNECT_REQ_EVT,
AVDT_CCB_API_DISCONNECT_REQ_EVT,
AVDT_CCB_MSG_DISCOVER_CMD_EVT,
AVDT_CCB_MSG_GETCAP_CMD_EVT,
AVDT_CCB_MSG_START_CMD_EVT,
AVDT_CCB_MSG_SUSPEND_CMD_EVT,
AVDT_CCB_MSG_DISCOVER_RSP_EVT,
AVDT_CCB_MSG_GETCAP_RSP_EVT,
AVDT_CCB_MSG_START_RSP_EVT,
AVDT_CCB_MSG_SUSPEND_RSP_EVT,
AVDT_CCB_RCVRSP_EVT,
AVDT_CCB_SENDMSG_EVT,
AVDT_CCB_RET_TOUT_EVT,
AVDT_CCB_RSP_TOUT_EVT,
AVDT_CCB_IDLE_TOUT_EVT,
AVDT_CCB_UL_OPEN_EVT,
AVDT_CCB_UL_CLOSE_EVT,
AVDT_CCB_LL_OPEN_EVT,
AVDT_CCB_LL_CLOSE_EVT,
AVDT_CCB_LL_CONG_EVT
};
/* scb state machine states; these state values are private to this module so
* the scb state cannot be read or set by actions functions
*/
enum {
AVDT_SCB_IDLE_ST,
AVDT_SCB_CONF_ST,
AVDT_SCB_OPENING_ST,
AVDT_SCB_OPEN_ST,
AVDT_SCB_STREAM_ST,
AVDT_SCB_CLOSING_ST
};
/* state machine action enumeration list */
enum {
AVDT_SCB_HDL_ABORT_CMD,
AVDT_SCB_HDL_ABORT_RSP,
AVDT_SCB_HDL_CLOSE_CMD,
AVDT_SCB_HDL_CLOSE_RSP,
AVDT_SCB_HDL_GETCONFIG_CMD,
AVDT_SCB_HDL_GETCONFIG_RSP,
AVDT_SCB_HDL_OPEN_CMD,
AVDT_SCB_HDL_OPEN_REJ,
AVDT_SCB_HDL_OPEN_RSP,
AVDT_SCB_HDL_PKT,
AVDT_SCB_DROP_PKT,
AVDT_SCB_HDL_RECONFIG_CMD,
AVDT_SCB_HDL_RECONFIG_RSP,
AVDT_SCB_HDL_SECURITY_CMD,
AVDT_SCB_HDL_SECURITY_RSP,
AVDT_SCB_HDL_SETCONFIG_CMD,
AVDT_SCB_HDL_SETCONFIG_REJ,
AVDT_SCB_HDL_SETCONFIG_RSP,
AVDT_SCB_HDL_START_CMD,
AVDT_SCB_HDL_START_RSP,
AVDT_SCB_HDL_SUSPEND_CMD,
AVDT_SCB_HDL_SUSPEND_RSP,
AVDT_SCB_HDL_TC_CLOSE,
AVDT_SCB_HDL_TC_CLOSE_STO,
AVDT_SCB_HDL_TC_OPEN,
AVDT_SCB_HDL_TC_OPEN_STO,
AVDT_SCB_SND_DELAY_RPT_REQ,
AVDT_SCB_HDL_DELAY_RPT_CMD,
AVDT_SCB_HDL_DELAY_RPT_RSP,
AVDT_SCB_HDL_WRITE_REQ,
AVDT_SCB_SND_ABORT_REQ,
AVDT_SCB_SND_ABORT_RSP,
AVDT_SCB_SND_CLOSE_REQ,
AVDT_SCB_SND_STREAM_CLOSE,
AVDT_SCB_SND_CLOSE_RSP,
AVDT_SCB_SND_GETCONFIG_REQ,
AVDT_SCB_SND_GETCONFIG_RSP,
AVDT_SCB_SND_OPEN_REQ,
AVDT_SCB_SND_OPEN_RSP,
AVDT_SCB_SND_RECONFIG_REQ,
AVDT_SCB_SND_RECONFIG_RSP,
AVDT_SCB_SND_SECURITY_REQ,
AVDT_SCB_SND_SECURITY_RSP,
AVDT_SCB_SND_SETCONFIG_REQ,
AVDT_SCB_SND_SETCONFIG_REJ,
AVDT_SCB_SND_SETCONFIG_RSP,
AVDT_SCB_SND_SNK_DELAY_RPT_REQ,
AVDT_SCB_SND_TC_CLOSE,
AVDT_SCB_CB_ERR,
AVDT_SCB_CONG_STATE,
AVDT_SCB_REJ_STATE,
AVDT_SCB_REJ_IN_USE,
AVDT_SCB_REJ_NOT_IN_USE,
AVDT_SCB_SET_REMOVE,
AVDT_SCB_FREE_PKT,
AVDT_SCB_CLR_PKT,
AVDT_SCB_CHK_SND_PKT,
AVDT_SCB_TC_TIMER,
AVDT_SCB_CLR_VARS,
AVDT_SCB_DEALLOC,
AVDT_SCB_NUM_ACTIONS
};
#define AVDT_SCB_IGNORE AVDT_SCB_NUM_ACTIONS
/* scb state machine events */
enum {
AVDT_SCB_API_REMOVE_EVT,
AVDT_SCB_API_WRITE_REQ_EVT,
AVDT_SCB_API_GETCONFIG_REQ_EVT,
AVDT_SCB_API_DELAY_RPT_REQ_EVT,
AVDT_SCB_API_SETCONFIG_REQ_EVT,
AVDT_SCB_API_OPEN_REQ_EVT,
AVDT_SCB_API_CLOSE_REQ_EVT,
AVDT_SCB_API_RECONFIG_REQ_EVT,
AVDT_SCB_API_SECURITY_REQ_EVT,
AVDT_SCB_API_ABORT_REQ_EVT,
AVDT_SCB_API_GETCONFIG_RSP_EVT,
AVDT_SCB_API_SETCONFIG_RSP_EVT,
AVDT_SCB_API_SETCONFIG_REJ_EVT,
AVDT_SCB_API_OPEN_RSP_EVT,
AVDT_SCB_API_CLOSE_RSP_EVT,
AVDT_SCB_API_RECONFIG_RSP_EVT,
AVDT_SCB_API_SECURITY_RSP_EVT,
AVDT_SCB_API_ABORT_RSP_EVT,
AVDT_SCB_MSG_SETCONFIG_CMD_EVT,
AVDT_SCB_MSG_GETCONFIG_CMD_EVT,
AVDT_SCB_MSG_OPEN_CMD_EVT,
AVDT_SCB_MSG_START_CMD_EVT,
AVDT_SCB_MSG_SUSPEND_CMD_EVT,
AVDT_SCB_MSG_CLOSE_CMD_EVT,
AVDT_SCB_MSG_ABORT_CMD_EVT,
AVDT_SCB_MSG_RECONFIG_CMD_EVT,
AVDT_SCB_MSG_SECURITY_CMD_EVT,
AVDT_SCB_MSG_DELAY_RPT_CMD_EVT,
AVDT_SCB_MSG_DELAY_RPT_RSP_EVT,
AVDT_SCB_MSG_SETCONFIG_RSP_EVT,
AVDT_SCB_MSG_GETCONFIG_RSP_EVT,
AVDT_SCB_MSG_OPEN_RSP_EVT,
AVDT_SCB_MSG_START_RSP_EVT,
AVDT_SCB_MSG_SUSPEND_RSP_EVT,
AVDT_SCB_MSG_CLOSE_RSP_EVT,
AVDT_SCB_MSG_ABORT_RSP_EVT,
AVDT_SCB_MSG_RECONFIG_RSP_EVT,
AVDT_SCB_MSG_SECURITY_RSP_EVT,
AVDT_SCB_MSG_SETCONFIG_REJ_EVT,
AVDT_SCB_MSG_OPEN_REJ_EVT,
AVDT_SCB_MSG_START_REJ_EVT,
AVDT_SCB_MSG_SUSPEND_REJ_EVT,
AVDT_SCB_TC_TOUT_EVT,
AVDT_SCB_TC_OPEN_EVT,
AVDT_SCB_TC_CLOSE_EVT,
AVDT_SCB_TC_CONG_EVT,
AVDT_SCB_TC_DATA_EVT,
AVDT_SCB_CC_CLOSE_EVT
};
/* adaption layer number of stream routing table entries */
/* 2 channels(1 media, 1 report) for each SEP and one for signalling */
#define AVDT_NUM_RT_TBL (AVDT_NUM_SEPS * AVDT_CHAN_NUM_TYPES + 1)
/* adaption layer number of transport channel table entries - moved to target.h
#define AVDT_NUM_TC_TBL (AVDT_NUM_SEPS + AVDT_NUM_LINKS) */
/* "states" used in transport channel table */
#define AVDT_AD_ST_UNUSED 0 /* Unused - unallocated */
#define AVDT_AD_ST_IDLE 1 /* No connection */
#define AVDT_AD_ST_ACP 2 /* Waiting to accept a connection */
#define AVDT_AD_ST_CONN 4 /* Waiting for connection confirm */
#define AVDT_AD_ST_CFG 5 /* Waiting for configuration complete */
#define AVDT_AD_ST_OPEN 6 /* Channel opened */
#define AVDT_AD_ST_SEC_INT 7 /* Security process as INT */
#define AVDT_AD_ST_SEC_ACP 8 /* Security process as ACP */
/* Configuration flags. AvdtpTransportChannel.cfg_flags */
#define AVDT_L2C_CFG_CONN_INT (1 << 2)
#define AVDT_L2C_CFG_CONN_ACP (1 << 3)
/*****************************************************************************
* data types
****************************************************************************/
/* msg union of all message parameter types */
typedef union {
tAVDT_EVT_HDR hdr;
tAVDT_EVT_HDR single;
tAVDT_SETCONFIG config_cmd;
tAVDT_CONFIG reconfig_cmd;
tAVDT_MULTI multi;
tAVDT_SECURITY security_cmd;
tAVDT_DISCOVER discover_rsp;
tAVDT_CONFIG svccap;
tAVDT_SECURITY security_rsp;
tAVDT_DELAY_RPT delay_rpt_cmd;
} tAVDT_MSG;
/* data type for AVDT_CCB_API_DISCOVER_REQ_EVT */
typedef struct {
tAVDT_CTRL_CBACK* p_cback;
tAVDT_SEP_INFO* p_sep_info;
uint8_t num_seps;
} tAVDT_CCB_API_DISCOVER;
/* data type for AVDT_CCB_API_GETCAP_REQ_EVT */
typedef struct {
tAVDT_EVT_HDR single;
tAVDT_CTRL_CBACK* p_cback;
AvdtpSepConfig* p_cfg;
} tAVDT_CCB_API_GETCAP;
/* data type for AVDT_CCB_API_CONNECT_REQ_EVT */
typedef struct {
tAVDT_CTRL_CBACK* p_cback;
} tAVDT_CCB_API_CONNECT;
/* data type for AVDT_CCB_API_DISCONNECT_REQ_EVT */
typedef struct { tAVDT_CTRL_CBACK* p_cback; } tAVDT_CCB_API_DISCONNECT;
/* union associated with ccb state machine events */
typedef union {
tAVDT_CCB_API_DISCOVER discover;
tAVDT_CCB_API_GETCAP getcap;
tAVDT_CCB_API_CONNECT connect;
tAVDT_CCB_API_DISCONNECT disconnect;
tAVDT_MSG msg;
bool llcong;
uint8_t err_code;
} tAVDT_CCB_EVT;
/* type for AVDT_SCB_API_WRITE_REQ_EVT */
typedef struct {
BT_HDR* p_buf;
uint32_t time_stamp;
uint8_t m_pt;
tAVDT_DATA_OPT_MASK opt;
} tAVDT_SCB_APIWRITE;
/* type for AVDT_SCB_TC_CLOSE_EVT */
typedef struct {
uint8_t old_tc_state; /* channel state before closed */
uint8_t tcid; /* TCID */
uint8_t type; /* channel type */
} tAVDT_SCB_TC_CLOSE;
/* type for scb event data */
typedef union {
tAVDT_MSG msg;
tAVDT_SCB_APIWRITE apiwrite;
tAVDT_DELAY_RPT apidelay;
tAVDT_OPEN open;
tAVDT_SCB_TC_CLOSE close;
bool llcong;
BT_HDR* p_pkt;
} tAVDT_SCB_EVT;
class AvdtpCcb;
/**
* AVDTP Stream Control Block.
*/
class AvdtpScb {
public:
AvdtpScb()
: transport_channel_timer(nullptr),
p_pkt(nullptr),
p_ccb(nullptr),
media_seq(0),
allocated(false),
in_use(false),
need_open(false),
role(0),
remove(false),
state(0),
peer_seid(0),
curr_evt(0),
cong(false),
close_code(0),
scb_handle_(0) {}
/**
* Allocate the entry for usage.
* Previous state will be reset and initialized.
*
* @param p_avdtp_ccb the AvdtCcb entry to use
* @param avdtp_stream_config the stream config to use
*/
void Allocate(AvdtpCcb* p_avdtp_ccb,
const AvdtpStreamConfig& avdtp_stream_config);
/**
* Recycle the entry by resetting it, mark it as allocated and keeping
* the following state:
* - stream_config
* - p_ccb
*/
void Recycle() {
AvdtpStreamConfig stream_config_saved = stream_config;
AvdtpCcb* p_ccb_saved = p_ccb;
Allocate(p_ccb_saved, stream_config_saved);
}
/**
* Reset all the state.
*
* @param scb_handle the AVDTP SCB handle to use
*/
void Reset(uint8_t scb_handle) {
stream_config.Reset();
curr_cfg.Reset();
req_cfg.Reset();
alarm_free(transport_channel_timer);
transport_channel_timer = nullptr;
p_pkt = nullptr;
p_ccb = nullptr;
media_seq = 0;
allocated = false;
in_use = false;
need_open = false;
role = 0;
remove = false;
state = 0;
peer_seid = 0;
curr_evt = 0;
cong = false;
close_code = 0;
scb_handle_ = scb_handle;
}
/**
* Get the AVDTP SCB handle for this entry.
*/
uint8_t ScbHandle() const { return scb_handle_; }
AvdtpStreamConfig stream_config; // Stream configuration
AvdtpSepConfig curr_cfg; // Current configuration
AvdtpSepConfig req_cfg; // Requested configuration
alarm_t* transport_channel_timer; // Transport channel connect timer
BT_HDR* p_pkt; // Packet waiting to be sent
AvdtpCcb* p_ccb; // CCB associated with this SCB
uint16_t media_seq; // Media packet sequence number
bool allocated; // True if the SCB is allocated
bool in_use; // True if used by peer
bool need_open; // True if need open after receiving delay report (AVDT 1_3)
uint8_t role; // Initiator/acceptor role in current procedure
bool remove; // True if the SCB is marked for removal
uint8_t state; // State machine state
uint8_t peer_seid; // SEID of peer stream
uint8_t curr_evt; // current event; set only by the state machine
bool cong; // True if the media transport channel is congested
uint8_t close_code; // Error code received in close response
bool curr_stream; // True if the SCB is the current stream, False otherwise
private:
uint8_t scb_handle_; // Unique handle for this AvdtpScb entry
};
/**
* AVDTP Channel Control Block.
*/
class AvdtpCcb {
public:
AvdtpCcb()
: peer_addr(RawAddress::kEmpty),
scb{},
idle_ccb_timer(nullptr),
ret_ccb_timer(nullptr),
rsp_ccb_timer(nullptr),
cmd_q(nullptr),
rsp_q(nullptr),
proc_cback(nullptr),
p_conn_cback(nullptr),
p_proc_data(nullptr),
p_curr_cmd(nullptr),
p_curr_msg(nullptr),
p_rx_msg(nullptr),
allocated(false),
state(0),
ll_opened(false),
proc_busy(false),
proc_param(0),
cong(false),
label(0),
reconn(false),
ret_count(0),
bta_av_scb_index_(0) {}
/**
* Allocate the entry for usage.
*
* NOTE: The corresponding AvdtpScb entries are allocated independently.
* @param peer_address the peer address
*/
void Allocate(const RawAddress& peer_address);
/**
* Reset all the state.
*
* @param bta_av_scb_index the BTA AV SCB index to use
*/
void Reset(uint8_t bta_av_scb_index) {
bta_av_scb_index_ = bta_av_scb_index;
ResetCcb();
for (size_t i = 0; i < AVDT_NUM_SEPS; i++) {
scb[i].Reset(0);
}
}
/**
* Reset only the Channel Control Block state without the Stream
* Control Block entries. The bta_av_scb_index_ is also preserved.
*/
void ResetCcb() {
peer_addr = RawAddress::kEmpty;
alarm_free(idle_ccb_timer);
idle_ccb_timer = nullptr;
alarm_free(ret_ccb_timer);
ret_ccb_timer = nullptr;
alarm_free(rsp_ccb_timer);
rsp_ccb_timer = nullptr;
fixed_queue_free(cmd_q, nullptr);
cmd_q = nullptr;
fixed_queue_free(rsp_q, nullptr);
rsp_q = nullptr;
proc_cback = nullptr;
p_conn_cback = nullptr;
p_proc_data = nullptr;
p_curr_cmd = nullptr;
p_curr_msg = nullptr;
p_rx_msg = nullptr;
allocated = false;
state = 0;
ll_opened = false;
proc_busy = false;
proc_param = 0;
cong = false;
label = 0;
reconn = false;
ret_count = 0;
}
/**
* Get the corresponding BTA AV stream control block index for this entry.
*/
uint8_t BtaAvScbIndex() const { return bta_av_scb_index_; }
RawAddress peer_addr; // Bluetooth address of peer
AvdtpScb scb[AVDT_NUM_SEPS]; // The AVDTP stream control blocks
/*
* NOTE: idle_ccb_timer, ret_ccb_timer and rsp_ccb_timer are mutually
* exclusive - no more than one timer should be running at the same time.
*/
alarm_t* idle_ccb_timer; // Idle CCB timer entry
alarm_t* ret_ccb_timer; // Ret CCB timer entry
alarm_t* rsp_ccb_timer; // Rsp CCB timer entry
fixed_queue_t* cmd_q; // Queue for outgoing command messages
fixed_queue_t* rsp_q; // Queue for outgoing response and reject messages
tAVDT_CTRL_CBACK* proc_cback; // Procedure callback function
tAVDT_CTRL_CBACK* p_conn_cback; // Connection/disconnection callback function
void* p_proc_data; // Pointer to data storage for procedure
BT_HDR* p_curr_cmd; // Current command being sent awaiting response
BT_HDR* p_curr_msg; // Current message being sent
BT_HDR* p_rx_msg; // Current message being received
bool allocated; // Whether ccb is allocated
uint8_t state; // The CCB state machine state
bool ll_opened; // True if LL is opened
bool proc_busy; // True when a discover or get capabilities procedure in
// progress
uint8_t proc_param; // Procedure parameter; either SEID for get capabilities
// or number of SEPS for discover
bool cong; // True if the signaling channel is congested
uint8_t label; // Message header "label" (sequence number)
bool reconn; // If true, reinitiate connection after transitioning from
// CLOSING to IDLE state
uint8_t ret_count; // Command retransmission count
private:
// The corresponding BTA AV stream control block index for this entry
uint8_t bta_av_scb_index_;
};
/**
* AVDTP transport channel entry.
* Used in the transport channel table in the adaptation layer.
*/
class AvdtpTransportChannel {
public:
AvdtpTransportChannel()
: peer_mtu(0),
my_mtu(0),
lcid(0),
tcid(0),
ccb_idx(0),
state(0),
cfg_flags(0) {}
void Reset() {
peer_mtu = 0;
my_mtu = 0;
lcid = 0;
tcid = 0;
ccb_idx = 0;
state = 0;
cfg_flags = 0;
}
uint16_t peer_mtu; // L2CAP MTU of the peer device
uint16_t my_mtu; // Our MTU for this channel
uint16_t lcid;
uint8_t tcid; // Transport channel ID
uint8_t ccb_idx; // Channel control block for with this transport channel
uint8_t state; // Transport channel state
uint8_t cfg_flags; // L2CAP configuration flags
};
/**
* AVDTP stream routing entry.
* Used in the routing table in the adaption layer.
*/
class AvdtpRoutingEntry {
public:
AvdtpRoutingEntry() : lcid(0), scb_hdl(0) {}
void Reset() {
lcid = 0;
scb_hdl = 0;
}
uint16_t lcid; // L2CAP LCID of the associated transport channel
uint8_t scb_hdl; // Stream control block for this transport channel
};
/**
* AVDTP adaption layer control block.
*/
class AvdtpAdaptationLayer {
public:
AvdtpAdaptationLayer() {}
void Reset() {
for (size_t i = 0; i < AVDT_NUM_LINKS; i++) {
for (size_t j = 0; j < AVDT_NUM_RT_TBL; j++) {
rt_tbl[i][j].Reset();
}
}
for (size_t i = 0; i < AVDT_NUM_TC_TBL; i++) {
tc_tbl[i].Reset();
}
lcid_tbl.clear();
}
/**
* Lookup AvdtpScb entry for a transport channel.
*
* @param tc the transport channel
* @return the corresponding AvdtpScb entry or null of the transport
* channel is invalid.
*/
AvdtpScb* LookupAvdtpScb(const AvdtpTransportChannel& tc);
AvdtpRoutingEntry rt_tbl[AVDT_NUM_LINKS][AVDT_NUM_RT_TBL];
AvdtpTransportChannel tc_tbl[AVDT_NUM_TC_TBL];
std::unordered_map<uint16_t, uint8_t> lcid_tbl; // Map LCID to tc_tbl index
};
/**
* Types for action functions.
*/
typedef void (*tAVDT_CCB_ACTION)(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
typedef void (*tAVDT_SCB_ACTION)(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
/**
* Control block for AVDTP.
*/
class AvdtpCb {
public:
AvdtpCb()
: p_conf_cback(nullptr),
p_ccb_act(nullptr),
p_scb_act(nullptr),
p_conn_cback(nullptr),
trace_level_(0) {}
void Reset() {
rcb.Reset();
for (size_t i = 0; i < AVDT_NUM_LINKS; i++) {
ccb[i].Reset(i);
}
ad.Reset();
p_conf_cback = nullptr;
p_ccb_act = nullptr;
p_scb_act = nullptr;
p_conn_cback = nullptr;
trace_level_ = 0;
}
AvdtpRcb rcb; // Registration control block
AvdtpCcb ccb[AVDT_NUM_LINKS]; // Channel control blocks
AvdtpAdaptationLayer ad; // Adaption layer control block
tAVDTC_CTRL_CBACK* p_conf_cback; // Conformance callback function
const tAVDT_CCB_ACTION* p_ccb_act; // Pointer to CCB action functions
const tAVDT_SCB_ACTION* p_scb_act; // Pointer to SCB action functions
tAVDT_CTRL_CBACK* p_conn_cback; // Connection callback function
/**
* Compute the SCB handle for a given AvdtpScb entry.
*
* @param p_scb the entry to use
* @return the computed SCB handle or 0 if the entry is invalid.
*/
uint8_t ComputeScbHandle(const AvdtpScb* p_scb) const {
uint8_t scb_handle = 0;
// Find the entry and in the process compute the unique index
// TODO: This mechanism is sub-efficient and should be refactored.
for (size_t i = 0; i < AVDT_NUM_LINKS; i++) {
for (size_t j = 0; j < AVDT_NUM_SEPS; j++) {
scb_handle++;
if (&ccb[i].scb[j] == p_scb) {
return scb_handle;
}
}
}
return 0; // Not found
}
/**
* Get the current trace level used for logging.
*
* @return the current trace level
*/
uint8_t TraceLevel() const { return trace_level_; }
/**
* Set the current trace level used for logging.
*
* @param trace_level the trace level to set. Should be in the range [1, 6].
*/
void SetTraceLevel(uint8_t trace_level) { trace_level_ = trace_level; }
private:
uint8_t trace_level_; /* trace level */
};
/*****************************************************************************
* function declarations
****************************************************************************/
/* CCB function declarations */
extern void avdt_ccb_init(void);
extern void avdt_ccb_event(AvdtpCcb* p_ccb, uint8_t event,
tAVDT_CCB_EVT* p_data);
extern AvdtpCcb* avdt_ccb_by_bd(const RawAddress& bd_addr);
extern AvdtpCcb* avdt_ccb_alloc(const RawAddress& bd_addr);
extern AvdtpCcb* avdt_ccb_alloc_by_channel_index(const RawAddress& bd_addr,
uint8_t channel_index);
extern void avdt_ccb_dealloc(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern uint8_t avdt_ccb_to_idx(AvdtpCcb* p_ccb);
extern AvdtpCcb* avdt_ccb_by_idx(uint8_t idx);
/* CCB action functions */
extern void avdt_ccb_chan_open(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_chan_close(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_chk_close(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_hdl_discover_cmd(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_hdl_discover_rsp(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_hdl_getcap_cmd(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_hdl_getcap_rsp(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_hdl_start_cmd(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_hdl_start_rsp(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_hdl_suspend_cmd(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_hdl_suspend_rsp(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_snd_discover_cmd(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_snd_discover_rsp(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_snd_getcap_cmd(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_snd_getcap_rsp(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_snd_start_cmd(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_snd_start_rsp(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_snd_suspend_cmd(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_snd_suspend_rsp(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_clear_cmds(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_cmd_fail(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_free_cmd(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_cong_state(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_ret_cmd(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_snd_cmd(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_snd_msg(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_set_reconn(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_clr_reconn(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_chk_reconn(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_chk_timer(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_set_conn(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_set_disconn(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_do_disconn(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_ll_closed(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
extern void avdt_ccb_ll_opened(AvdtpCcb* p_ccb, tAVDT_CCB_EVT* p_data);
/* SCB function prototypes */
extern void avdt_scb_event(AvdtpScb* p_scb, uint8_t event,
tAVDT_SCB_EVT* p_data);
extern void avdt_scb_init(void);
extern AvdtpScb* avdt_scb_alloc(uint8_t peer_id,
const AvdtpStreamConfig& avdtp_stream_config);
extern void avdt_scb_dealloc(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern uint8_t avdt_scb_to_hdl(AvdtpScb* p_scb);
extern AvdtpScb* avdt_scb_by_hdl(uint8_t hdl);
extern uint8_t avdt_scb_verify(AvdtpCcb* p_ccb, uint8_t state, uint8_t* p_seid,
uint16_t num_seid, uint8_t* p_err_code);
extern void avdt_scb_peer_seid_list(tAVDT_MULTI* p_multi);
extern uint32_t avdt_scb_gen_ssrc(AvdtpScb* p_scb);
/* SCB action functions */
extern void avdt_scb_hdl_abort_cmd(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_abort_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_close_cmd(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_close_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_getconfig_cmd(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_getconfig_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_open_cmd(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_open_rej(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_open_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_pkt(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_drop_pkt(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_reconfig_cmd(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_reconfig_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_security_cmd(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_security_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_setconfig_cmd(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_setconfig_rej(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_setconfig_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_start_cmd(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_start_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_suspend_cmd(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_suspend_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_delay_rpt_req(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_delay_rpt_cmd(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_delay_rpt_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_tc_close(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_tc_open(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_tc_close_sto(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_tc_open_sto(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_hdl_write_req(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_abort_req(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_abort_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_close_req(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_stream_close(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_close_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_getconfig_req(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_getconfig_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_open_req(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_open_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_reconfig_req(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_reconfig_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_security_req(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_security_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_setconfig_req(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_setconfig_rej(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_setconfig_rsp(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_snk_delay_rpt_req(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_snd_tc_close(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_cb_err(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_cong_state(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_rej_state(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_rej_in_use(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_rej_not_in_use(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_set_remove(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_free_pkt(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_chk_snd_pkt(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_clr_pkt(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
extern void avdt_scb_transport_channel_timer(AvdtpScb* p_scb,
tAVDT_SCB_EVT* p_data);
extern void avdt_scb_clr_vars(AvdtpScb* p_scb, tAVDT_SCB_EVT* p_data);
/* msg function declarations */
extern bool avdt_msg_send(AvdtpCcb* p_ccb, BT_HDR* p_msg);
extern void avdt_msg_send_cmd(AvdtpCcb* p_ccb, void* p_scb, uint8_t sig_id,
tAVDT_MSG* p_params);
extern void avdt_msg_send_rsp(AvdtpCcb* p_ccb, uint8_t sig_id,
tAVDT_MSG* p_params);
extern void avdt_msg_send_rej(AvdtpCcb* p_ccb, uint8_t sig_id,
tAVDT_MSG* p_params);
extern void avdt_msg_send_grej(AvdtpCcb* p_ccb, uint8_t sig_id,
tAVDT_MSG* p_params);
extern void avdt_msg_ind(AvdtpCcb* p_ccb, BT_HDR* p_buf);
/* adaption layer function declarations */
extern void avdt_ad_init(void);
extern uint8_t avdt_ad_type_to_tcid(uint8_t type, AvdtpScb* p_scb);
extern AvdtpTransportChannel* avdt_ad_tc_tbl_by_st(uint8_t type,
AvdtpCcb* p_ccb,
uint8_t state);
extern AvdtpTransportChannel* avdt_ad_tc_tbl_by_lcid(uint16_t lcid);
extern AvdtpTransportChannel* avdt_ad_tc_tbl_alloc(AvdtpCcb* p_ccb);
extern uint8_t avdt_ad_tc_tbl_to_idx(AvdtpTransportChannel* p_tbl);
extern void avdt_ad_tc_close_ind(AvdtpTransportChannel* p_tbl);
extern void avdt_ad_tc_open_ind(AvdtpTransportChannel* p_tbl);
extern void avdt_ad_tc_cong_ind(AvdtpTransportChannel* p_tbl,
bool is_congested);
extern void avdt_ad_tc_data_ind(AvdtpTransportChannel* p_tbl, BT_HDR* p_buf);
extern AvdtpTransportChannel* avdt_ad_tc_tbl_by_type(uint8_t type,
AvdtpCcb* p_ccb,
AvdtpScb* p_scb);
extern uint8_t avdt_ad_write_req(uint8_t type, AvdtpCcb* p_ccb, AvdtpScb* p_scb,
BT_HDR* p_buf);
extern void avdt_ad_open_req(uint8_t type, AvdtpCcb* p_ccb, AvdtpScb* p_scb,
uint8_t role);
extern void avdt_ad_close_req(uint8_t type, AvdtpCcb* p_ccb, AvdtpScb* p_scb);
extern void avdt_ccb_idle_ccb_timer_timeout(void* data);
extern void avdt_ccb_ret_ccb_timer_timeout(void* data);
extern void avdt_ccb_rsp_ccb_timer_timeout(void* data);
extern void avdt_scb_transport_channel_timer_timeout(void* data);
/*****************************************************************************
* macros
****************************************************************************/
/* we store the scb and the label in the layer_specific field of the
* current cmd
*/
#define AVDT_BLD_LAYERSPEC(ls, msg, label) ls = (((label) << 4) | (msg))
#define AVDT_LAYERSPEC_LABEL(ls) ((uint8_t)((ls) >> 4))
#define AVDT_LAYERSPEC_MSG(ls) ((uint8_t)((ls)&0x000F))
/*****************************************************************************
* global data
****************************************************************************/
/******************************************************************************
* Main Control Block
******************************************************************************/
extern AvdtpCb avdtp_cb;
/* L2CAP callback registration structure */
extern const tL2CAP_APPL_INFO avdt_l2c_appl;
/* reject message event lookup table */
extern const uint8_t avdt_msg_rej_2_evt[];
void avdt_l2c_disconnect(uint16_t lcid);
constexpr uint16_t kAvdtpMtu = 1024;
#endif /* AVDT_INT_H */