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      1 /******************************************************************************
      2  *
      3  *  Copyright (C) 2009-2012 Broadcom Corporation
      4  *
      5  *  Licensed under the Apache License, Version 2.0 (the "License");
      6  *  you may not use this file except in compliance with the License.
      7  *  You may obtain a copy of the License at:
      8  *
      9  *  http://www.apache.org/licenses/LICENSE-2.0
     10  *
     11  *  Unless required by applicable law or agreed to in writing, software
     12  *  distributed under the License is distributed on an "AS IS" BASIS,
     13  *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     14  *  See the License for the specific language governing permissions and
     15  *  limitations under the License.
     16  *
     17  ******************************************************************************/
     18 
     19 /******************************************************************************
     20  *
     21  *  This file contains interfaces which are internal to MCAP.
     22  *
     23  ******************************************************************************/
     24 #ifndef MCA_INT_H
     25 #define MCA_INT_H
     26 #include "bt_common.h"
     27 #include "osi/include/alarm.h"
     28 #include "mca_api.h"
     29 
     30 /*****************************************************************************
     31 ** constants
     32 *****************************************************************************/
     33 
     34 /* INT initiates the L2CAP channel */
     35 #define MCA_ACP     0
     36 #define MCA_INT     1
     37 
     38 /*****************************************************************************
     39 **  Type Definitions
     40 *****************************************************************************/
     41 
     42 /* Header structure for api/received request/response. */
     43 typedef struct {
     44     BT_HDR          hdr;        /* layer specific information */
     45     UINT8           op_code;    /* the request/response opcode */
     46     UINT8           rsp_code;   /* valid only if op_code is a response */
     47     UINT16          mdl_id;     /* the MDL ID associated with this request/response */
     48     UINT8           param;      /* other parameter */
     49     UINT8           mdep_id;    /* the MDEP ID associated with this request/response */
     50     /* tMCA_HANDLE     rcb_idx;    For internal use only */
     51     /* tMCA_CL         ccb_idx;    For internal use only */
     52     tMCA_DL         dcb_idx;    /* For internal use only */
     53 } tMCA_CCB_MSG;
     54 
     55 /* This data structure is associated with the AVDT_OPEN_IND_EVT and AVDT_OPEN_CFM_EVT. */
     56 typedef struct {
     57     BT_HDR          hdr;                /* Event header */
     58     UINT16          peer_mtu;           /* Transport channel L2CAP MTU of the peer */
     59     UINT16          lcid;               /* L2CAP LCID  */
     60     UINT8           param;
     61 } tMCA_OPEN;
     62 
     63 typedef struct {
     64     UINT16          reason;     /* disconnect reason from L2CAP */
     65     UINT8           param;      /* MCA_INT or MCA_ACP */
     66     UINT16          lcid;       /* L2CAP LCID  */
     67 } tMCA_CLOSE;
     68 
     69 /* Header structure for state machine event parameters. */
     70 typedef union {
     71     BT_HDR          hdr;        /* layer specific information */
     72     tMCA_CCB_MSG    api;
     73     BOOLEAN         llcong;
     74     UINT8           param;
     75     tMCA_OPEN       open;
     76     tMCA_CLOSE      close;
     77 } tMCA_CCB_EVT;
     78 
     79 /* control channel states */
     80 enum
     81 {
     82     MCA_CCB_NULL_ST,        /* not allocated */
     83     MCA_CCB_OPENING_ST,
     84     MCA_CCB_OPEN_ST,        /* open */
     85     MCA_CCB_CLOSING_ST,		/* disconnecting */
     86     MCA_CCB_MAX_ST
     87 };
     88 typedef UINT8 tMCA_CCB_STATE;
     89 
     90 /* control channel events */
     91 enum
     92 {
     93     MCA_CCB_API_CONNECT_EVT,    /* application initiates a connect request. */
     94     MCA_CCB_API_DISCONNECT_EVT, /* application initiates a disconnect request. */
     95     MCA_CCB_API_REQ_EVT,        /* application initiates a request. The request may be create_mdl, delete_mdl, reconnect_mdl or abort_mdl. */
     96     MCA_CCB_API_RSP_EVT,        /* application initiates a create_mdl or reconnect_mdl response. */
     97     MCA_CCB_MSG_REQ_EVT,        /* a create_mdl, delete_mdl, reconnect_mdl or abort_mdl request message is received from the peer. */
     98     MCA_CCB_MSG_RSP_EVT,        /* Response received event.  This event is sent whenever a response message is received for an outstanding request message. */
     99     MCA_CCB_DL_OPEN_EVT,        /* data channel open. */
    100     MCA_CCB_LL_OPEN_EVT,        /* Lower layer open.  This event is sent when the lower layer channel is open.  */
    101     MCA_CCB_LL_CLOSE_EVT,       /* Lower layer close.  This event is sent when the lower layer channel is closed. */
    102     MCA_CCB_LL_CONG_EVT,        /* Lower layer congestion.  This event is sent when the lower layer is congested. */
    103     MCA_CCB_RSP_TOUT_EVT        /* time out for waiting the message response on the control channel */
    104 };
    105 
    106 /* Header structure for callback event parameters. */
    107 typedef union {
    108     tMCA_OPEN       open;
    109     tMCA_CLOSE      close;
    110     BT_HDR          hdr;        /* layer specific information */
    111     BT_HDR          *p_pkt;
    112     BOOLEAN         llcong;
    113     UINT16          mdl_id;     /* the MDL ID associated with this request/response */
    114     /* tMCA_HANDLE     rcb_idx;    For internal use only */
    115     /* tMCA_CL         ccb_idx;    For internal use only */
    116     /* tMCA_DL         dcb_idx;    For internal use only */
    117 } tMCA_DCB_EVT;
    118 
    119 /* data channel states */
    120 enum
    121 {
    122     MCA_DCB_NULL_ST,        /* not allocated */
    123     MCA_DCB_OPENING_ST,     /* create/reconnect sequence is successful, waiting for data channel connection */
    124     MCA_DCB_OPEN_ST,        /* open */
    125     MCA_DCB_CLOSING_ST,     /* disconnecting */
    126     MCA_DCB_MAX_ST
    127 };
    128 typedef UINT8 tMCA_DCB_STATE;
    129 
    130 /* data channel events */
    131 enum
    132 {
    133     MCA_DCB_API_CLOSE_EVT,      /* This event is sent when the application wants to disconnect the data channel.*/
    134     MCA_DCB_API_WRITE_EVT,      /* This event is sent when the application wants to send a data packet to the peer.*/
    135     MCA_DCB_TC_OPEN_EVT,        /* Transport Channel open.  This event is sent when the channel is open.*/
    136     MCA_DCB_TC_CLOSE_EVT,       /* Transport Channel close.*/
    137     MCA_DCB_TC_CONG_EVT,        /* Transport Channel congestion status.*/
    138     MCA_DCB_TC_DATA_EVT         /* This event is sent when a data packet is received from the peer.*/
    139 };
    140 
    141 
    142 
    143 
    144 /* "states" used in transport channel table */
    145 #define MCA_TC_ST_UNUSED   0       /* Unused - unallocated */
    146 #define MCA_TC_ST_IDLE     1       /* No connection */
    147 #define MCA_TC_ST_ACP      2       /* Waiting to accept a connection */
    148 #define MCA_TC_ST_INT      3       /* Initiating a connection */
    149 #define MCA_TC_ST_CONN     4       /* Waiting for connection confirm */
    150 #define MCA_TC_ST_CFG      5       /* Waiting for configuration complete */
    151 #define MCA_TC_ST_OPEN     6       /* Channel opened */
    152 #define MCA_TC_ST_SEC_INT  7       /* Security process as INT */
    153 #define MCA_TC_ST_SEC_ACP  8       /* Security process as ACP */
    154 
    155 /* Configuration flags. tMCA_TC_TBL.cfg_flags */
    156 #define MCA_L2C_CFG_IND_DONE   (1<<0)
    157 #define MCA_L2C_CFG_CFM_DONE   (1<<1)
    158 #define MCA_L2C_CFG_CONN_INT   (1<<2)
    159 #define MCA_L2C_CFG_CONN_ACP   (1<<3)
    160 #define MCA_L2C_CFG_DISCN_INT  (1<<4)
    161 #define MCA_L2C_CFG_DISCN_ACP  (1<<5)
    162 
    163 
    164 #define MCA_CTRL_TCID       0   /* to identify control channel by tMCA_TC_TBL.tcid */
    165 
    166 /* transport channel table */
    167 typedef struct {
    168     UINT16  peer_mtu;       /* L2CAP mtu of the peer device */
    169     UINT16  my_mtu;         /* Our MTU for this channel */
    170     UINT16  lcid;           /* L2CAP LCID */
    171     UINT8   tcid;           /* transport channel id (0, for control channel. (MDEP ID + 1) for data channel) */
    172     tMCA_DL cb_idx;         /* 1-based index to ccb or dcb */
    173     UINT8   state;          /* transport channel state */
    174     UINT8   cfg_flags;      /* L2CAP configuration flags */
    175     UINT8   id;             /* L2CAP id sent by peer device (need this to handle security pending) */
    176 } tMCA_TC_TBL;
    177 
    178 /* transport control block */
    179 typedef struct {
    180     tMCA_TC_TBL     tc_tbl[MCA_NUM_TC_TBL];
    181     UINT8           lcid_tbl[MAX_L2CAP_CHANNELS];   /* map LCID to tc_tbl index */
    182 } tMCA_TC;
    183 
    184 /* registration control block */
    185 typedef struct {
    186     tMCA_REG        reg;                /* the parameter at register */
    187     tMCA_CS         dep[MCA_NUM_DEPS];  /* the registration info for each MDEP */
    188     tMCA_CTRL_CBACK *p_cback;           /* control callback function */
    189 } tMCA_RCB;
    190 
    191 enum
    192 {
    193     MCA_CCB_STAT_NORM,      /* normal operation (based on ccb state) */
    194     MCA_CCB_STAT_PENDING,   /* waiting for data channel  */
    195     MCA_CCB_STAT_RECONN,    /* reinitiate connection after transitioning from CLOSING to IDLE state  */
    196     MCA_CCB_STAT_DISC       /* MCA_DisconnectReq or MCA_Deregister is called. waiting for all associated CL and DL to detach */
    197 };
    198 typedef UINT8 tMCA_CCB_STAT;
    199 
    200 /* control channel control block */
    201 /* the ccbs association with the rcbs
    202  * ccb[0]              ...ccb[MCA_NUM_LINKS*1-1] -> rcb[0]
    203  * ccb[MCA_NUM_LINKS*1]...ccb[MCA_NUM_LINKS*2-1] -> rcb[1]
    204  * ccb[MCA_NUM_LINKS*2]...ccb[MCA_NUM_LINKS*3-1] -> rcb[2]
    205  */
    206 typedef struct {
    207     tMCA_RCB        *p_rcb;             /* the associated registration control block */
    208     alarm_t         *mca_ccb_timer;     /* MCA CCB timer entry */
    209     tMCA_CCB_MSG    *p_tx_req;          /* Current request being sent/awaiting response */
    210     tMCA_CCB_MSG    *p_rx_msg;          /* Current message received/being processed */
    211     BD_ADDR         peer_addr;          /* BD address of peer */
    212     UINT16          sec_mask;           /* Security mask for connections as initiator */
    213     UINT16          ctrl_vpsm;          /* The virtual PSM that peer is listening for control channel */
    214     UINT16          data_vpsm;          /* The virtual PSM that peer is listening for data channel. */
    215     UINT16          lcid;               /* L2CAP lcid for this control channel */
    216     UINT8           state;              /* The CCB state machine state */
    217     BOOLEAN         cong;               /* Whether control channel is congested */
    218     tMCA_CCB_STAT   status;             /* see tMCA_CCB_STAT */
    219 } tMCA_CCB;
    220 typedef void (*tMCA_CCB_ACTION)(tMCA_CCB *p_ccb, tMCA_CCB_EVT *p_data);
    221 
    222 enum
    223 {
    224     MCA_DCB_STAT_NORM,      /* normal operation (based on dcb state) */
    225     MCA_DCB_STAT_DEL,       /* MCA_Delete is called. waiting for the DL to detach */
    226     MCA_DCB_STAT_DISC       /* MCA_CloseReq is called. waiting for the DL to detach */
    227 };
    228 typedef UINT8 tMCA_DCB_STAT;
    229 
    230 /* data channel control block */
    231 /* the dcbs association with the ccbs
    232  * dcb[0]             ...dcb[MCA_NUM_MDLS*1-1] -> ccb[0]
    233  * dcb[MCA_NUM_MDLS*1]...dcb[MCA_NUM_MDLS*2-1] -> ccb[1]
    234  * dcb[MCA_NUM_MDLS*2]...dcb[MCA_NUM_MDLS*3-1] -> ccb[2]
    235  *
    236  * the dcbs association with the rcbs
    237  * dcb[0]                             ...dcb[MCA_NUM_MDLS*1*MCA_NUM_LINKS*1-1] -> rcb[0]
    238  * dcb[MCA_NUM_MDLS*1*MCA_NUM_LINKS*1]...dcb[MCA_NUM_MDLS*2*MCA_NUM_LINKS*2-1] -> rcb[1]
    239  * dcb[MCA_NUM_MDLS*2*MCA_NUM_LINKS*2]...dcb[MCA_NUM_MDLS*3*MCA_NUM_LINKS*3-1] -> rcb[2]
    240  */
    241 typedef struct {
    242     tMCA_CCB            *p_ccb;         /* the associated control control block */
    243     BT_HDR              *p_data;        /* data packet held due to L2CAP channel congestion */
    244     tMCA_CS             *p_cs;          /* the associated MDEP info. p_cs->type is the mdep id(internal use) */
    245     const tMCA_CHNL_CFG *p_chnl_cfg;    /* cfg params for L2CAP channel */
    246     UINT16              mdl_id;         /* the MDL ID for this data channel */
    247     UINT16              lcid;           /* L2CAP lcid */
    248     UINT8               state;          /* The DCB state machine state */
    249     BOOLEAN             cong;           /* Whether data channel is congested */
    250     tMCA_DCB_STAT       status;         /* see tMCA_DCB_STAT */
    251 } tMCA_DCB;
    252 
    253 typedef void (*tMCA_DCB_ACTION)(tMCA_DCB *p_ccb, tMCA_DCB_EVT *p_data);
    254 
    255 /* Control block for MCA */
    256 typedef struct {
    257     tMCA_RCB        rcb[MCA_NUM_REGS];  /* registration control block */
    258     tMCA_CCB        ccb[MCA_NUM_CCBS];  /* control channel control blocks */
    259     tMCA_DCB        dcb[MCA_NUM_DCBS];  /* data channel control blocks */
    260     tMCA_TC         tc;                 /* transport control block */
    261     UINT8           trace_level;        /* trace level */
    262 } tMCA_CB;
    263 
    264 /* csm functions */
    265 extern void mca_ccb_event(tMCA_CCB *p_ccb, UINT8 event, tMCA_CCB_EVT *p_data);
    266 extern tMCA_CCB *mca_ccb_by_bd(tMCA_HANDLE handle, BD_ADDR bd_addr);
    267 extern tMCA_CCB *mca_ccb_alloc(tMCA_HANDLE handle, BD_ADDR bd_addr);
    268 extern void mca_ccb_rsp_tout(tMCA_CCB *p_ccb, tMCA_CCB_EVT *p_data);
    269 extern void mca_ccb_dealloc(tMCA_CCB *p_ccb, tMCA_CCB_EVT *p_data);
    270 extern tMCA_CL mca_ccb_to_hdl(tMCA_CCB *p_ccb);
    271 extern tMCA_CCB *mca_ccb_by_hdl(tMCA_CL mcl);
    272 extern BOOLEAN mca_ccb_uses_mdl_id(tMCA_CCB *p_ccb, UINT16 mdl_id);
    273 
    274 /* cact functions */
    275 extern void mca_ccb_report_event(tMCA_CCB *p_ccb, UINT8 event, tMCA_CTRL *p_data);
    276 extern void mca_ccb_free_msg(tMCA_CCB *p_ccb, tMCA_CCB_EVT *p_data);
    277 extern void mca_ccb_snd_req(tMCA_CCB *p_ccb, tMCA_CCB_EVT *p_data);
    278 extern void mca_ccb_snd_rsp(tMCA_CCB *p_ccb, tMCA_CCB_EVT *p_data);
    279 extern void mca_ccb_do_disconn (tMCA_CCB *p_ccb, tMCA_CCB_EVT *p_data);
    280 extern void mca_ccb_cong(tMCA_CCB *p_ccb, tMCA_CCB_EVT *p_data);
    281 extern void mca_ccb_hdl_req(tMCA_CCB *p_ccb, tMCA_CCB_EVT *p_data);
    282 extern void mca_ccb_hdl_rsp(tMCA_CCB *p_ccb, tMCA_CCB_EVT *p_data);
    283 extern void mca_ccb_ll_open (tMCA_CCB *p_ccb, tMCA_CCB_EVT *p_data);
    284 extern void mca_ccb_dl_open (tMCA_CCB *p_ccb, tMCA_CCB_EVT *p_data);
    285 
    286 /* dsm functions */
    287 extern void mca_dcb_event(tMCA_DCB *p_dcb, UINT8 event, tMCA_DCB_EVT *p_data);
    288 extern tMCA_DCB *mca_dcb_alloc(tMCA_CCB*p_ccb, tMCA_DEP dep);
    289 extern UINT8 mca_dep_free_mdl(tMCA_CCB*p_ccb, tMCA_DEP dep);
    290 extern void mca_dcb_dealloc(tMCA_DCB *p_dcb, tMCA_DCB_EVT *p_data);
    291 extern tMCA_DL mca_dcb_to_hdl(tMCA_DCB *p_dcb);
    292 extern tMCA_DCB *mca_dcb_by_hdl(tMCA_DL hdl);
    293 extern void mca_dcb_close_by_mdl_id(tMCA_CCB*p_ccb, UINT16 mdl_id);
    294 
    295 /* dact functions */
    296 extern void mca_dcb_tc_open (tMCA_DCB *p_dcb, tMCA_DCB_EVT *p_data);
    297 extern void mca_dcb_cong (tMCA_DCB *p_dcb, tMCA_DCB_EVT *p_data);
    298 extern void mca_dcb_free_data (tMCA_DCB *p_dcb, tMCA_DCB_EVT *p_data);
    299 extern void mca_dcb_do_disconn (tMCA_DCB *p_dcb, tMCA_DCB_EVT *p_data);
    300 extern void mca_dcb_snd_data (tMCA_DCB *p_dcb, tMCA_DCB_EVT *p_data);
    301 extern void mca_dcb_hdl_data (tMCA_DCB *p_dcb, tMCA_DCB_EVT *p_data);
    302 
    303 
    304 /* main/utils functions */
    305 extern tMCA_HANDLE mca_handle_by_cpsm(UINT16 psm);
    306 extern tMCA_HANDLE mca_handle_by_dpsm(UINT16 psm);
    307 extern tMCA_TC_TBL * mca_tc_tbl_calloc(tMCA_CCB *p_ccb);
    308 extern tMCA_TC_TBL * mca_tc_tbl_dalloc(tMCA_DCB *p_dcb);
    309 extern tMCA_TC_TBL * mca_tc_tbl_by_lcid(UINT16 lcid);
    310 extern void mca_free_tc_tbl_by_lcid(UINT16 lcid);
    311 extern void mca_set_cfg_by_tbl(tL2CAP_CFG_INFO *p_cfg, tMCA_TC_TBL *p_tbl);
    312 extern void mca_tc_close_ind(tMCA_TC_TBL *p_tbl, UINT16 reason);
    313 extern void mca_tc_open_ind(tMCA_TC_TBL *p_tbl);
    314 extern void mca_tc_cong_ind(tMCA_TC_TBL *p_tbl, BOOLEAN is_congested);
    315 extern void mca_tc_data_ind(tMCA_TC_TBL *p_tbl, BT_HDR *p_buf);
    316 extern tMCA_RCB * mca_rcb_alloc(tMCA_REG *p_reg);
    317 extern void mca_rcb_dealloc(tMCA_HANDLE handle);
    318 extern tMCA_HANDLE mca_rcb_to_handle(tMCA_RCB *p_rcb);
    319 extern tMCA_RCB *mca_rcb_by_handle(tMCA_HANDLE handle);
    320 extern BOOLEAN mca_is_valid_dep_id(tMCA_RCB *p_rcb, tMCA_DEP dep);
    321 extern void mca_ccb_timer_timeout(void *data);
    322 extern void mca_stop_timer(tMCA_CCB *p_ccb);
    323 
    324 /* l2c functions */
    325 extern UINT16 mca_l2c_open_req(BD_ADDR bd_addr, UINT16 PSM, const tMCA_CHNL_CFG *p_chnl_cfg);
    326 
    327 /* callback function declarations */
    328 extern void mca_l2c_cconn_ind_cback(BD_ADDR bd_addr, UINT16 lcid, UINT16 psm, UINT8 id);
    329 extern void mca_l2c_dconn_ind_cback(BD_ADDR bd_addr, UINT16 lcid, UINT16 psm, UINT8 id);
    330 extern void mca_l2c_connect_cfm_cback(UINT16 lcid, UINT16 result);
    331 extern void mca_l2c_config_cfm_cback(UINT16 lcid, tL2CAP_CFG_INFO *p_cfg);
    332 extern void mca_l2c_config_ind_cback(UINT16 lcid, tL2CAP_CFG_INFO *p_cfg);
    333 extern void mca_l2c_disconnect_ind_cback(UINT16 lcid, BOOLEAN ack_needed);
    334 extern void mca_l2c_disconnect_cfm_cback(UINT16 lcid, UINT16 result);
    335 extern void mca_l2c_congestion_ind_cback(UINT16 lcid, BOOLEAN is_congested);
    336 extern void mca_l2c_data_ind_cback(UINT16 lcid, BT_HDR *p_buf);
    337 
    338 /*****************************************************************************
    339 ** global data
    340 *****************************************************************************/
    341 #ifdef __cplusplus
    342 extern "C"
    343 {
    344 #endif
    345 
    346 /******************************************************************************
    347 ** Main Control Block
    348 *******************************************************************************/
    349 #if MCA_DYNAMIC_MEMORY == FALSE
    350 extern tMCA_CB  mca_cb;
    351 #else
    352 extern tMCA_CB *mca_cb_ptr;
    353 #define mca_cb (*mca_cb_ptr)
    354 #endif
    355 
    356 /* L2CAP callback registration structure */
    357 extern const tL2CAP_APPL_INFO mca_l2c_int_appl;
    358 extern const tL2CAP_FCR_OPTS mca_l2c_fcr_opts_def;
    359 extern const UINT8 mca_std_msg_len[];
    360 
    361 #ifdef __cplusplus
    362 }
    363 #endif
    364 
    365 #endif /* MCA_INT_H */
    366