/****************************************************************************** * * Copyright (C) 2009-2012 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 MCAP. * ******************************************************************************/ #ifndef MCA_INT_H #define MCA_INT_H #include "bt_common.h" #include "mca_api.h" #include "osi/include/alarm.h" /***************************************************************************** * constants ****************************************************************************/ /* INT initiates the L2CAP channel */ #define MCA_ACP 0 #define MCA_INT 1 /***************************************************************************** * Type Definitions ****************************************************************************/ /* Header structure for api/received request/response. */ typedef struct { BT_HDR hdr; /* layer specific information */ uint8_t op_code; /* the request/response opcode */ uint8_t rsp_code; /* valid only if op_code is a response */ uint16_t mdl_id; /* the MDL ID associated with this request/response */ uint8_t param; /* other parameter */ uint8_t mdep_id; /* the MDEP ID associated with this request/response */ /* tMCA_HANDLE rcb_idx; For internal use only */ /* tMCA_CL ccb_idx; For internal use only */ tMCA_DL dcb_idx; /* For internal use only */ } tMCA_CCB_MSG; /* This data structure is for AVDT_OPEN_IND_EVT and AVDT_OPEN_CFM_EVT. */ typedef struct { BT_HDR hdr; /* Event header */ uint16_t peer_mtu; /* Transport channel L2CAP MTU of the peer */ uint16_t lcid; /* L2CAP LCID */ uint8_t param; } tMCA_OPEN; typedef struct { uint16_t reason; /* disconnect reason from L2CAP */ uint8_t param; /* MCA_INT or MCA_ACP */ uint16_t lcid; /* L2CAP LCID */ } tMCA_CLOSE; /* Header structure for state machine event parameters. */ typedef union { BT_HDR hdr; /* layer specific information */ tMCA_CCB_MSG api; bool llcong; uint8_t param; tMCA_OPEN open; tMCA_CLOSE close; } tMCA_CCB_EVT; /* control channel states */ enum { MCA_CCB_NULL_ST, /* not allocated */ MCA_CCB_OPENING_ST, MCA_CCB_OPEN_ST, /* open */ MCA_CCB_CLOSING_ST, /* disconnecting */ MCA_CCB_MAX_ST }; typedef uint8_t tMCA_CCB_STATE; /* control channel events */ enum { MCA_CCB_API_CONNECT_EVT, /* application initiates a connect request. */ MCA_CCB_API_DISCONNECT_EVT, /* application initiates a disconnect request. */ MCA_CCB_API_REQ_EVT, /* application initiates a request. The request may be create_mdl, delete_mdl, reconnect_mdl or abort_mdl. */ MCA_CCB_API_RSP_EVT, /* application initiates a create_mdl or reconnect_mdl response. */ MCA_CCB_MSG_REQ_EVT, /* a create_mdl, delete_mdl, reconnect_mdl or abort_mdl request message is received from the peer. */ MCA_CCB_MSG_RSP_EVT, /* Response received event. This event is sent whenever a response message is received for an outstanding request message. */ MCA_CCB_DL_OPEN_EVT, /* data channel open. */ MCA_CCB_LL_OPEN_EVT, /* Lower layer open. This event is sent when the lower layer channel is open. */ MCA_CCB_LL_CLOSE_EVT, /* Lower layer close. This event is sent when the lower layer channel is closed. */ MCA_CCB_LL_CONG_EVT, /* Lower layer congestion. This event is sent when the lower layer is congested. */ MCA_CCB_RSP_TOUT_EVT /* time out for waiting the message response on the control channel */ }; /* Header structure for callback event parameters. */ typedef union { tMCA_OPEN open; tMCA_CLOSE close; BT_HDR hdr; /* layer specific information */ BT_HDR* p_pkt; bool llcong; uint16_t mdl_id; /* the MDL ID associated with this request/response */ /* tMCA_HANDLE rcb_idx; For internal use only */ /* tMCA_CL ccb_idx; For internal use only */ /* tMCA_DL dcb_idx; For internal use only */ } tMCA_DCB_EVT; /* data channel states */ enum { MCA_DCB_NULL_ST, /* not allocated */ MCA_DCB_OPENING_ST, /* create/reconnect sequence is successful, waiting for data channel connection */ MCA_DCB_OPEN_ST, /* open */ MCA_DCB_CLOSING_ST, /* disconnecting */ MCA_DCB_MAX_ST }; typedef uint8_t tMCA_DCB_STATE; /* data channel events */ enum { MCA_DCB_API_CLOSE_EVT, /* This event is sent when the application wants to disconnect the data channel.*/ MCA_DCB_API_WRITE_EVT, /* This event is sent when the application wants to send a data packet to the peer.*/ MCA_DCB_TC_OPEN_EVT, /* Transport Channel open. This event is sent when the channel is open.*/ MCA_DCB_TC_CLOSE_EVT, /* Transport Channel close.*/ MCA_DCB_TC_CONG_EVT, /* Transport Channel congestion status.*/ MCA_DCB_TC_DATA_EVT /* This event is sent when a data packet is received from the peer.*/ }; /* "states" used in transport channel table */ #define MCA_TC_ST_UNUSED 0 /* Unused - unallocated */ #define MCA_TC_ST_IDLE 1 /* No connection */ #define MCA_TC_ST_ACP 2 /* Waiting to accept a connection */ #define MCA_TC_ST_INT 3 /* Initiating a connection */ #define MCA_TC_ST_CONN 4 /* Waiting for connection confirm */ #define MCA_TC_ST_CFG 5 /* Waiting for configuration complete */ #define MCA_TC_ST_OPEN 6 /* Channel opened */ #define MCA_TC_ST_SEC_INT 7 /* Security process as INT */ #define MCA_TC_ST_SEC_ACP 8 /* Security process as ACP */ /* Configuration flags. tMCA_TC_TBL.cfg_flags */ #define MCA_L2C_CFG_IND_DONE (1 << 0) #define MCA_L2C_CFG_CFM_DONE (1 << 1) #define MCA_L2C_CFG_CONN_INT (1 << 2) #define MCA_L2C_CFG_CONN_ACP (1 << 3) #define MCA_L2C_CFG_DISCN_INT (1 << 4) #define MCA_L2C_CFG_DISCN_ACP (1 << 5) #define MCA_CTRL_TCID 0 /* to identify control channel by tMCA_TC_TBL.tcid */ /* transport channel table */ typedef struct { uint16_t peer_mtu; /* L2CAP mtu of the peer device */ uint16_t my_mtu; /* Our MTU for this channel */ uint16_t lcid; /* L2CAP LCID */ uint8_t tcid; /* transport channel id (0, for control channel. (MDEP ID + 1) for data channel) */ tMCA_DL cb_idx; /* 1-based index to ccb or dcb */ uint8_t state; /* transport channel state */ uint8_t cfg_flags; /* L2CAP configuration flags */ uint8_t id; /* L2CAP id sent by peer device (need this to handle security pending) */ } tMCA_TC_TBL; /* transport control block */ typedef struct { tMCA_TC_TBL tc_tbl[MCA_NUM_TC_TBL]; uint8_t lcid_tbl[MAX_L2CAP_CHANNELS]; /* map LCID to tc_tbl index */ } tMCA_TC; /* registration control block */ typedef struct { tMCA_REG reg; /* the parameter at register */ tMCA_CS dep[MCA_NUM_DEPS]; /* the registration info for each MDEP */ tMCA_CTRL_CBACK* p_cback; /* control callback function */ } tMCA_RCB; enum { MCA_CCB_STAT_NORM, /* normal operation (based on ccb state) */ MCA_CCB_STAT_PENDING, /* waiting for data channel */ MCA_CCB_STAT_RECONN, /* reinitiate connection after transitioning from CLOSING to IDLE state */ MCA_CCB_STAT_DISC /* MCA_DisconnectReq or MCA_Deregister is called. waiting for all associated CL and DL to detach */ }; typedef uint8_t tMCA_CCB_STAT; /* control channel control block */ /* the ccbs association with the rcbs * ccb[0] ...ccb[MCA_NUM_LINKS*1-1] -> rcb[0] * ccb[MCA_NUM_LINKS*1]...ccb[MCA_NUM_LINKS*2-1] -> rcb[1] * ccb[MCA_NUM_LINKS*2]...ccb[MCA_NUM_LINKS*3-1] -> rcb[2] */ typedef struct { tMCA_RCB* p_rcb; /* the associated registration control block */ alarm_t* mca_ccb_timer; /* MCA CCB timer entry */ tMCA_CCB_MSG* p_tx_req; /* Current request being sent/awaiting response */ tMCA_CCB_MSG* p_rx_msg; /* Current message received/being processed */ RawAddress peer_addr; /* BD address of peer */ uint16_t sec_mask; /* Security mask for connections as initiator */ uint16_t ctrl_vpsm; /* The virtual PSM that peer is listening for control channel */ uint16_t data_vpsm; /* The virtual PSM that peer is listening for data channel. */ uint16_t lcid; /* L2CAP lcid for this control channel */ uint8_t state; /* The CCB state machine state */ bool cong; /* Whether control channel is congested */ tMCA_CCB_STAT status; /* see tMCA_CCB_STAT */ } tMCA_CCB; typedef void (*tMCA_CCB_ACTION)(tMCA_CCB* p_ccb, tMCA_CCB_EVT* p_data); enum { MCA_DCB_STAT_NORM, /* normal operation (based on dcb state) */ MCA_DCB_STAT_DEL, /* MCA_Delete is called. waiting for the DL to detach */ MCA_DCB_STAT_DISC /* MCA_CloseReq is called. waiting for the DL to detach */ }; typedef uint8_t tMCA_DCB_STAT; /* data channel control block */ /* the dcbs association with the ccbs * dcb[0] ...dcb[MCA_NUM_MDLS*1-1] -> ccb[0] * dcb[MCA_NUM_MDLS*1]...dcb[MCA_NUM_MDLS*2-1] -> ccb[1] * dcb[MCA_NUM_MDLS*2]...dcb[MCA_NUM_MDLS*3-1] -> ccb[2] * * the dcbs association with the rcbs * dcb[0] * ...dcb[MCA_NUM_MDLS*1*MCA_NUM_LINKS*1-1] -> rcb[0] * dcb[MCA_NUM_MDLS*1*MCA_NUM_LINKS*1] * ...dcb[MCA_NUM_MDLS*2*MCA_NUM_LINKS*2-1] -> rcb[1] * dcb[MCA_NUM_MDLS*2*MCA_NUM_LINKS*2] * ...dcb[MCA_NUM_MDLS*3*MCA_NUM_LINKS*3-1] -> rcb[2] */ typedef struct { tMCA_CCB* p_ccb; /* the associated control control block */ BT_HDR* p_data; /* data packet held due to L2CAP channel congestion */ tMCA_CS* p_cs; /* the associated MDEP info. p_cs->type is the mdep id(internal use) */ const tMCA_CHNL_CFG* p_chnl_cfg; /* cfg params for L2CAP channel */ uint16_t mdl_id; /* the MDL ID for this data channel */ uint16_t lcid; /* L2CAP lcid */ uint8_t state; /* The DCB state machine state */ bool cong; /* Whether data channel is congested */ tMCA_DCB_STAT status; /* see tMCA_DCB_STAT */ } tMCA_DCB; typedef void (*tMCA_DCB_ACTION)(tMCA_DCB* p_ccb, tMCA_DCB_EVT* p_data); /* Control block for MCA */ typedef struct { tMCA_RCB rcb[MCA_NUM_REGS]; /* registration control block */ tMCA_CCB ccb[MCA_NUM_CCBS]; /* control channel control blocks */ tMCA_DCB dcb[MCA_NUM_DCBS]; /* data channel control blocks */ tMCA_TC tc; /* transport control block */ uint8_t trace_level; /* trace level */ } tMCA_CB; /* csm functions */ extern void mca_ccb_event(tMCA_CCB* p_ccb, uint8_t event, tMCA_CCB_EVT* p_data); extern tMCA_CCB* mca_ccb_by_bd(tMCA_HANDLE handle, const RawAddress& bd_addr); extern tMCA_CCB* mca_ccb_alloc(tMCA_HANDLE handle, const RawAddress& bd_addr); extern void mca_ccb_rsp_tout(tMCA_CCB* p_ccb, tMCA_CCB_EVT* p_data); extern void mca_ccb_dealloc(tMCA_CCB* p_ccb, tMCA_CCB_EVT* p_data); extern tMCA_CL mca_ccb_to_hdl(tMCA_CCB* p_ccb); extern tMCA_CCB* mca_ccb_by_hdl(tMCA_CL mcl); extern bool mca_ccb_uses_mdl_id(tMCA_CCB* p_ccb, uint16_t mdl_id); /* cact functions */ extern void mca_ccb_report_event(tMCA_CCB* p_ccb, uint8_t event, tMCA_CTRL* p_data); extern void mca_ccb_free_msg(tMCA_CCB* p_ccb, tMCA_CCB_EVT* p_data); extern void mca_ccb_snd_req(tMCA_CCB* p_ccb, tMCA_CCB_EVT* p_data); extern void mca_ccb_snd_rsp(tMCA_CCB* p_ccb, tMCA_CCB_EVT* p_data); extern void mca_ccb_do_disconn(tMCA_CCB* p_ccb, tMCA_CCB_EVT* p_data); extern void mca_ccb_cong(tMCA_CCB* p_ccb, tMCA_CCB_EVT* p_data); extern void mca_ccb_hdl_req(tMCA_CCB* p_ccb, tMCA_CCB_EVT* p_data); extern void mca_ccb_hdl_rsp(tMCA_CCB* p_ccb, tMCA_CCB_EVT* p_data); extern void mca_ccb_ll_open(tMCA_CCB* p_ccb, tMCA_CCB_EVT* p_data); extern void mca_ccb_dl_open(tMCA_CCB* p_ccb, tMCA_CCB_EVT* p_data); /* dsm functions */ extern void mca_dcb_event(tMCA_DCB* p_dcb, uint8_t event, tMCA_DCB_EVT* p_data); extern tMCA_DCB* mca_dcb_alloc(tMCA_CCB* p_ccb, tMCA_DEP dep); extern uint8_t mca_dep_free_mdl(tMCA_CCB* p_ccb, tMCA_DEP dep); extern void mca_dcb_dealloc(tMCA_DCB* p_dcb, tMCA_DCB_EVT* p_data); extern tMCA_DL mca_dcb_to_hdl(tMCA_DCB* p_dcb); extern tMCA_DCB* mca_dcb_by_hdl(tMCA_DL hdl); extern void mca_dcb_close_by_mdl_id(tMCA_CCB* p_ccb, uint16_t mdl_id); /* dact functions */ extern void mca_dcb_tc_open(tMCA_DCB* p_dcb, tMCA_DCB_EVT* p_data); extern void mca_dcb_cong(tMCA_DCB* p_dcb, tMCA_DCB_EVT* p_data); extern void mca_dcb_free_data(tMCA_DCB* p_dcb, tMCA_DCB_EVT* p_data); extern void mca_dcb_do_disconn(tMCA_DCB* p_dcb, tMCA_DCB_EVT* p_data); extern void mca_dcb_snd_data(tMCA_DCB* p_dcb, tMCA_DCB_EVT* p_data); extern void mca_dcb_hdl_data(tMCA_DCB* p_dcb, tMCA_DCB_EVT* p_data); /* main/utils functions */ extern tMCA_HANDLE mca_handle_by_cpsm(uint16_t psm); extern tMCA_HANDLE mca_handle_by_dpsm(uint16_t psm); extern tMCA_TC_TBL* mca_tc_tbl_calloc(tMCA_CCB* p_ccb); extern tMCA_TC_TBL* mca_tc_tbl_dalloc(tMCA_DCB* p_dcb); extern tMCA_TC_TBL* mca_tc_tbl_by_lcid(uint16_t lcid); extern void mca_free_tc_tbl_by_lcid(uint16_t lcid); extern void mca_set_cfg_by_tbl(tL2CAP_CFG_INFO* p_cfg, tMCA_TC_TBL* p_tbl); extern void mca_tc_close_ind(tMCA_TC_TBL* p_tbl, uint16_t reason); extern void mca_tc_open_ind(tMCA_TC_TBL* p_tbl); extern void mca_tc_cong_ind(tMCA_TC_TBL* p_tbl, bool is_congested); extern void mca_tc_data_ind(tMCA_TC_TBL* p_tbl, BT_HDR* p_buf); extern tMCA_RCB* mca_rcb_alloc(tMCA_REG* p_reg); extern void mca_rcb_dealloc(tMCA_HANDLE handle); extern tMCA_HANDLE mca_rcb_to_handle(tMCA_RCB* p_rcb); extern tMCA_RCB* mca_rcb_by_handle(tMCA_HANDLE handle); extern bool mca_is_valid_dep_id(tMCA_RCB* p_rcb, tMCA_DEP dep); extern void mca_ccb_timer_timeout(void* data); extern void mca_stop_timer(tMCA_CCB* p_ccb); /* l2c functions */ extern uint16_t mca_l2c_open_req(const RawAddress& bd_addr, uint16_t PSM, const tMCA_CHNL_CFG* p_chnl_cfg); /* callback function declarations */ extern void mca_l2c_cconn_ind_cback(const RawAddress& bd_addr, uint16_t lcid, uint16_t psm, uint8_t id); extern void mca_l2c_dconn_ind_cback(const RawAddress& bd_addr, uint16_t lcid, uint16_t psm, uint8_t id); extern void mca_l2c_connect_cfm_cback(uint16_t lcid, uint16_t result); extern void mca_l2c_config_cfm_cback(uint16_t lcid, tL2CAP_CFG_INFO* p_cfg); extern void mca_l2c_config_ind_cback(uint16_t lcid, tL2CAP_CFG_INFO* p_cfg); extern void mca_l2c_disconnect_ind_cback(uint16_t lcid, bool ack_needed); extern void mca_l2c_disconnect_cfm_cback(uint16_t lcid, uint16_t result); extern void mca_l2c_congestion_ind_cback(uint16_t lcid, bool is_congested); extern void mca_l2c_data_ind_cback(uint16_t lcid, BT_HDR* p_buf); /***************************************************************************** * global data ****************************************************************************/ /****************************************************************************** * Main Control Block ******************************************************************************/ extern tMCA_CB mca_cb; /* L2CAP callback registration structure */ extern const tL2CAP_APPL_INFO mca_l2c_int_appl; extern const tL2CAP_FCR_OPTS mca_l2c_fcr_opts_def; extern const uint8_t mca_std_msg_len[]; #endif /* MCA_INT_H */