pinebuds/services/bt_profiles_enhanced/inc/l2cap_er.h

168 lines
6.2 KiB
C

/***************************************************************************
*
* Copyright 2015-2019 BES.
* All rights reserved. All unpublished rights reserved.
*
* No part of this work may be used or reproduced in any form or by any
* means, or stored in a database or retrieval system, without prior written
* permission of BES.
*
* Use of this work is governed by a license granted by BES.
* This work contains confidential and proprietary information of
* BES. which is protected by copyright, trade secret,
* trademark and other intellectual property rights.
*
****************************************************************************/
#ifndef __L2CAP_ER_H__
#define __L2CAP_ER_H__
#include "l2cap.h"
#include "co_ppbuff.h"
#if SUPPORT_L2CAP_ENHANCED_RETRANS==1
/* retransmission and flow control options for enhanced retransmission mode */
#define L2CAPE_RFC_TXWINDOW 5 //in enhanced retransmission mode, this value should be between 1 and 63. 10 is just a reference, need to be modified.
#define L2CAPE_RFC_MAXTRANSMIT 3
#define L2CAPE_RFC_RETRANSMISSION_TIMEOUT 2000
#define L2CAPE_RFC_MONITOR_TIMEOUT 12000
#define L2CAPE_RFC_MPS 666//666L2CAP_CFG_MTU - L2CAPE_CONTROL_LEN - L2CAPE_SDULEN_LEN - L2CAPE_FCS_LEN
#define L2CAPE_CONTROL_LEN 2
#define L2CAPE_SDULEN_LEN 2
#define L2CAPE_FCS_LEN 2
#define L2CAPE_PPB_RESERVE (L2CAPE_CONTROL_LEN+L2CAP_PPB_RESERVE) //in our design SAR is always 00, so L2CAPE_SDULEN_LEN is useless
#define L2CAPE_STATE_XMIT 0x00
#define L2CAPE_STATE_WAIT_F 0x01
#define L2CAPE_STATE_RECV 0x00
#define L2CAPE_STATE_REJ_SEND 0x01
#define L2CAPE_STATE_SREJ_SEND 0x02
#define L2CAPE_FLAG_REMOTE_BUSY (1<<0)
#define L2CAPE_FLAG_LOCAL_BUSY (1<<1)
#define L2CAPE_FLAG_RNR_SENT (1<<2)
/* After S-frame with P-bit set, a rej frame with F-bit is 0 was received before receive a frame with F-bit is set, this flag will be set. */
#define L2CAPE_FLAG_REJ_ACTIONED (1<<3)
#define L2CAPE_FLAG_SREJ_ACTIONED (1<<4)
#define L2CAPE_FLAG_SEND_REJ (1<<5)
#define L2CAPE_FLAG_F_BIT_SET (1<<6) //indicate the bit in received frame
#define L2CAPE_FLAG_P_BIT_SET (1<<7)
#define L2CAPE_FLAG_FCS_USED (1<<8)
#define L2CAPE_FLAG_SET_F_BIT (1<<9) //indicate the bit will be set or not in sending frame
#define L2CAPE_FLAG_SET_P_BIT (1<<10)
#define L2CAPE_FLAG_SEND_ACK (1<<11) //when receive SAR_UNSEG or SAR_END, this bit is set
#define L2CAPE_SREJ_SUPPORTED FALSE
#define L2CAPE_EVENT_DATA_REQUEST 0x00
#define L2CAPE_EVENT_LOCAL_BUSY_DETECTED 0x01
#define L2CAPE_EVENT_LOCAL_BUSY_CLEAR 0x02
#define L2CAPE_EVENT_RECV_REQSEQ_F 0x03
#define L2CAPE_EVENT_RECV_F 0x04
#define L2CAPE_EVENT_RETRANSMIT_EXPIRED 0x05
#define L2CAPE_EVENT_MONITOR_EXPIRED 0x06
#define L2CAPE_EVENT_RECV_I_FRAME 0x07
#define L2CAPE_EVENT_RECV_RR 0x08
#define L2CAPE_EVENT_RECV_REJ 0x09
#define L2CAPE_EVENT_RECV_RNR 0x0A
#define L2CAPE_EVENT_RECV_SREJ 0x0B
#define L2CAPE_SAR_UNSEG 0x00
#define L2CAPE_SAR_START 0x01
#define L2CAPE_SAR_END 0x02
#define L2CAPE_SAR_CONTINUE 0x03
#define L2CAPE_SFRAME_TYPE_RR 0x00
#define L2CAPE_SFRAME_TYPE_REJ 0x01
#define L2CAPE_SFRAME_TYPE_RNR 0x02
#define L2CAPE_SFRAME_TYPE_SREJ 0x03
struct l2cap_enhanced_control_i {
uint32 i_bit:1;
uint32 txSeq:6;
uint32 f_bit:1;
uint32 reqSeq:6;
uint32 sar:2;
}__attribute__ ((packed));
struct l2cap_enhanced_control_s {
uint32 s_bit:1;
uint32 reserve1:1;
uint32 type:2;
uint32 p_bit:1;
uint32 reserve2:2;
uint32 f_bit:1;
uint32 reqSeq:6;
uint32 reserve3:2;
}__attribute__ ((packed));
/* this struct is used to store sending data, we don't support segment, so sequence is always 0 */
struct l2cap_enhanced_packet {
struct pp_buff *ppb; //a whole frame before segmented is stored in this ppb
struct l2cap_enhanced_packet *next;
struct l2cap_enhanced_control_i *i_frame;
//uint8 sequence; //the position of this packet in the origion frame
};
union l2cap_enhanced_control {
void *arg;
struct l2cap_enhanced_control_i *i_frame;
struct l2cap_enhanced_control_s *s_frame;
};
struct l2cap_enhanced_channel {
uint32 flags;
uint8 tx_state;
uint8 rx_state;
uint8 maxRxWindow;
uint8 maxTransmit;
uint16 retransTimeout;
uint16 monitorTimeout;
uint16 sendAckTimeout;
uint8 retransTimer;
uint8 monitorTimer;
uint8 sendAckTimer;
/* sending peer variables and sequence numbers */
uint8 maxTxWindow;
uint8 nextTxSeq; //the next I-frame to be transmitted
uint8 expectedAckSeq; //the next I-frame expected to be acknowledged by receiving peer
uint8 unackedFrames; //holds the number of unacknowledged I-frames
struct l2cap_enhanced_packet *sendingList; //hold the unacknowledged I-frames and pending I-frames
struct l2cap_enhanced_packet *pendingList; //hold the pending I-frames, it is a member of sendingList
uint8 retryIframes[64]; //holds a retry counter for each I-frame that is sent within the receiving device's TxWindow
//uint8 pendingFrames; //holds the number of pending I-frames
//struct pp_buff *send_buf; //it's used as a queue, and store encapsulated data can be sent directly by __l2cap_send_data_ppb
uint8 retryCount; //holds the number of times an S-frame operation is retried
//uint8 framesSent;
/* receiving peer variables and sequence numbers */
uint8 txSeqRx; //the sequence of new I-frame
uint8 reqSeqRx; //the sequence number in an acknowledgement frame to request I-frame with TxSeq=ReqSeq and acknowledge receipt of I-frames up to and including (ReqSeq-1)
uint8 expectedTxSeq; //the value of TxSeq expected in the next I-frame
uint8 lastAckSeq;
//uint8 bufferSeq; //in this design, bufferSeq-1 is used as lastAckSeq
uint8 currentRxWindow;
uint8 bufferSeqSrej;
uint8 srejSaveReqSeq;
struct pp_buff *recv_buf; //the latest received ppb buffer
struct pp_buff *seg_buf; //when the SDU is segmented, we use this buffer to do reassemble
union l2cap_enhanced_control control_field;
};
struct pp_buff *l2cap_enre_data_ppb_alloc(struct l2cap_channel *channel, uint32 len);
void l2cap_enre_free_channel(struct l2cap_enhanced_channel *eCh);
int8 l2cap_enre_send_data_ppb(struct l2cap_channel *channel, struct pp_buff *ppb);
void l2cap_enre_receive_data(struct l2cap_channel *channel, struct pp_buff *ppb);
uint8 l2cap_enre_channel_add_new(struct l2cap_channel *channel);
#endif //if SUPPORT_L2CAP_ENHANCED_RETRANS==1
#endif /* __L2CAP_ER_H__ */