/****************************************************************************** * * 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 is the API implementation file for the Multi-Channel Adaptation * Protocol (MCAP). * ******************************************************************************/ #include #include #include "bt_target.h" #include "btm_api.h" #include "btm_int.h" #include "mca_api.h" #include "mca_defs.h" #include "mca_int.h" #include "btu.h" /******************************************************************************* ** ** Function mca_process_timeout ** ** Description This function is called by BTU when an MCA timer ** expires. ** ** This function is for use internal to the stack only. ** ** Returns void ** *******************************************************************************/ void mca_ccb_timer_timeout(void *data) { tMCA_CCB *p_ccb = (tMCA_CCB *)data; mca_ccb_event(p_ccb, MCA_CCB_RSP_TOUT_EVT, NULL); } /******************************************************************************* ** ** Function MCA_Init ** ** Description Initialize MCAP main control block. ** This function is called at stack start up. ** ** Returns void ** *******************************************************************************/ void MCA_Init(void) { memset(&mca_cb, 0, sizeof(tMCA_CB)); #if defined(MCA_INITIAL_TRACE_LEVEL) mca_cb.trace_level = MCA_INITIAL_TRACE_LEVEL; #else mca_cb.trace_level = BT_TRACE_LEVEL_NONE; #endif } /******************************************************************************* ** ** Function MCA_SetTraceLevel ** ** Description This function sets the debug trace level for MCA. ** If 0xff is passed, the current trace level is returned. ** ** Input Parameters: ** level: The level to set the MCA tracing to: ** 0xff-returns the current setting. ** 0-turns off tracing. ** >= 1-Errors. ** >= 2-Warnings. ** >= 3-APIs. ** >= 4-Events. ** >= 5-Debug. ** ** Returns The new trace level or current trace level if ** the input parameter is 0xff. ** *******************************************************************************/ UINT8 MCA_SetTraceLevel (UINT8 level) { if (level != 0xFF) mca_cb.trace_level = level; return (mca_cb.trace_level); } /******************************************************************************* ** ** Function MCA_Register ** ** Description This function registers an MCAP implementation. ** It is assumed that the control channel PSM and data channel ** PSM are not used by any other instances of the stack. ** If the given p_reg->ctrl_psm is 0, this handle is INT only. ** ** Returns 0, if failed. Otherwise, the MCA handle. ** *******************************************************************************/ tMCA_HANDLE MCA_Register(tMCA_REG *p_reg, tMCA_CTRL_CBACK *p_cback) { tMCA_RCB *p_rcb; tMCA_HANDLE handle = 0; tL2CAP_APPL_INFO l2c_cacp_appl; tL2CAP_APPL_INFO l2c_dacp_appl; assert(p_reg != NULL ); assert(p_cback != NULL ); MCA_TRACE_API ("MCA_Register: ctrl_psm:0x%x, data_psm:0x%x", p_reg->ctrl_psm, p_reg->data_psm); if ( (p_rcb = mca_rcb_alloc (p_reg)) != NULL) { if (p_reg->ctrl_psm) { if (L2C_INVALID_PSM(p_reg->ctrl_psm) || L2C_INVALID_PSM(p_reg->data_psm)) { MCA_TRACE_ERROR ("INVALID_PSM"); return 0; } l2c_cacp_appl = *(tL2CAP_APPL_INFO *)&mca_l2c_int_appl; l2c_cacp_appl.pL2CA_ConnectCfm_Cb = NULL; l2c_dacp_appl = *(tL2CAP_APPL_INFO *)&l2c_cacp_appl; l2c_cacp_appl.pL2CA_ConnectInd_Cb = mca_l2c_cconn_ind_cback; l2c_dacp_appl.pL2CA_ConnectInd_Cb = mca_l2c_dconn_ind_cback; if (L2CA_Register(p_reg->ctrl_psm, (tL2CAP_APPL_INFO *) &l2c_cacp_appl) && L2CA_Register(p_reg->data_psm, (tL2CAP_APPL_INFO *) &l2c_dacp_appl)) { /* set security level */ BTM_SetSecurityLevel(FALSE, "", BTM_SEC_SERVICE_MCAP_CTRL, p_reg->sec_mask, p_reg->ctrl_psm, BTM_SEC_PROTO_MCA, MCA_CTRL_TCID); /* in theory, we do not need this one for data_psm * If we don't, L2CAP rejects with security block (3), * which is different reject code from what MCAP spec suggests. * we set this one, so mca_l2c_dconn_ind_cback can reject /w no resources (4) */ BTM_SetSecurityLevel(FALSE, "", BTM_SEC_SERVICE_MCAP_DATA, p_reg->sec_mask, p_reg->data_psm, BTM_SEC_PROTO_MCA, MCA_CTRL_TCID); } else { MCA_TRACE_ERROR ("Failed to register to L2CAP"); return 0; } } else p_rcb->reg.data_psm = 0; handle = mca_rcb_to_handle (p_rcb); p_rcb->p_cback = p_cback; p_rcb->reg.rsp_tout = p_reg->rsp_tout; } return handle; } /******************************************************************************* ** ** Function MCA_Deregister ** ** Description This function is called to deregister an MCAP implementation. ** Before this function can be called, all control and data ** channels must be removed with MCA_DisconnectReq and MCA_CloseReq. ** ** Returns void ** *******************************************************************************/ void MCA_Deregister(tMCA_HANDLE handle) { tMCA_RCB *p_rcb = mca_rcb_by_handle(handle); MCA_TRACE_API ("MCA_Deregister: %d", handle); if (p_rcb && p_rcb->reg.ctrl_psm) { L2CA_Deregister(p_rcb->reg.ctrl_psm); L2CA_Deregister(p_rcb->reg.data_psm); btm_sec_clr_service_by_psm (p_rcb->reg.ctrl_psm); btm_sec_clr_service_by_psm (p_rcb->reg.data_psm); } mca_rcb_dealloc(handle); } /******************************************************************************* ** ** Function MCA_CreateDep ** ** Description Create a data endpoint. If the MDEP is created successfully, ** the MDEP ID is returned in *p_dep. After a data endpoint is ** created, an application can initiate a connection between this ** endpoint and an endpoint on a peer device. ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_CreateDep(tMCA_HANDLE handle, tMCA_DEP *p_dep, tMCA_CS *p_cs) { tMCA_RESULT result = MCA_BAD_HANDLE; int i; tMCA_RCB *p_rcb = mca_rcb_by_handle(handle); tMCA_CS *p_depcs; assert(p_dep != NULL ); assert(p_cs != NULL ); assert(p_cs->p_data_cback != NULL ); MCA_TRACE_API ("MCA_CreateDep: %d", handle); if (p_rcb) { if (p_cs->max_mdl > MCA_NUM_MDLS) { MCA_TRACE_ERROR ("max_mdl: %d is too big", p_cs->max_mdl ); result = MCA_BAD_PARAMS; } else { p_depcs = p_rcb->dep; if (p_cs->type == MCA_TDEP_ECHO) { if (p_depcs->p_data_cback) { MCA_TRACE_ERROR ("Already has ECHO MDEP"); return MCA_NO_RESOURCES; } memcpy (p_depcs, p_cs, sizeof (tMCA_CS)); *p_dep = 0; result = MCA_SUCCESS; } else { result = MCA_NO_RESOURCES; /* non-echo MDEP starts from 1 */ p_depcs++; for (i=1; ip_data_cback == NULL) { memcpy (p_depcs, p_cs, sizeof (tMCA_CS)); /* internally use type as the mdep id */ p_depcs->type = i; *p_dep = i; result = MCA_SUCCESS; break; } } } } } return result; } /******************************************************************************* ** ** Function MCA_DeleteDep ** ** Description Delete a data endpoint. This function is called when ** the implementation is no longer using a data endpoint. ** If this function is called when the endpoint is connected ** the connection is closed and the data endpoint ** is removed. ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_DeleteDep(tMCA_HANDLE handle, tMCA_DEP dep) { tMCA_RESULT result = MCA_BAD_HANDLE; tMCA_RCB *p_rcb = mca_rcb_by_handle(handle); tMCA_DCB *p_dcb; int i, max; tMCA_CS *p_depcs; MCA_TRACE_API ("MCA_DeleteDep: %d dep:%d", handle, dep); if (p_rcb) { if (dep < MCA_NUM_DEPS && p_rcb->dep[dep].p_data_cback) { result = MCA_SUCCESS; p_rcb->dep[dep].p_data_cback = NULL; p_depcs = &(p_rcb->dep[dep]); i = handle - 1; max = MCA_NUM_MDLS*MCA_NUM_LINKS; p_dcb = &mca_cb.dcb[i*max]; /* make sure no MDL exists for this MDEP */ for (i=0; istate && p_dcb->p_cs == p_depcs) { mca_dcb_event(p_dcb, MCA_DCB_API_CLOSE_EVT, NULL); } } } } return result; } /******************************************************************************* ** ** Function MCA_ConnectReq ** ** Description This function initiates an MCAP control channel connection ** to the peer device. When the connection is completed, an ** MCA_CONNECT_IND_EVT is reported to the application via its ** control callback function. ** This control channel is identified by the tMCA_CL. ** If the connection attempt fails, an MCA_DISCONNECT_IND_EVT is ** reported. The security mask parameter overrides the outgoing ** security mask set in MCA_Register(). ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_ConnectReq(tMCA_HANDLE handle, BD_ADDR bd_addr, UINT16 ctrl_psm, UINT16 sec_mask) { tMCA_RESULT result = MCA_BAD_HANDLE; tMCA_CCB *p_ccb; tMCA_TC_TBL *p_tbl; MCA_TRACE_API ("MCA_ConnectReq: %d psm:0x%x", handle, ctrl_psm); if ((p_ccb = mca_ccb_by_bd(handle, bd_addr)) == NULL) p_ccb = mca_ccb_alloc(handle, bd_addr); else { MCA_TRACE_ERROR ("control channel already exists"); return MCA_BUSY; } if (p_ccb) { p_ccb->ctrl_vpsm = L2CA_Register (ctrl_psm, (tL2CAP_APPL_INFO *)&mca_l2c_int_appl); result = MCA_NO_RESOURCES; if (p_ccb->ctrl_vpsm) { BTM_SetSecurityLevel(TRUE, "", BTM_SEC_SERVICE_MCAP_CTRL, sec_mask, p_ccb->ctrl_vpsm, BTM_SEC_PROTO_MCA, MCA_CTRL_TCID); p_ccb->lcid = mca_l2c_open_req(bd_addr, p_ccb->ctrl_vpsm, NULL); if (p_ccb->lcid) { p_tbl = mca_tc_tbl_calloc(p_ccb); if (p_tbl) { p_tbl->state = MCA_TC_ST_CONN; p_ccb->sec_mask = sec_mask; result = MCA_SUCCESS; } } } if (result != MCA_SUCCESS) mca_ccb_dealloc (p_ccb, NULL); } return result; } /******************************************************************************* ** ** Function MCA_DisconnectReq ** ** Description This function disconnect an MCAP control channel ** to the peer device. ** If associated data channel exists, they are disconnected. ** When the MCL is disconnected an MCA_DISCONNECT_IND_EVT is ** reported to the application via its control callback function. ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_DisconnectReq(tMCA_CL mcl) { tMCA_RESULT result = MCA_BAD_HANDLE; tMCA_CCB *p_ccb = mca_ccb_by_hdl(mcl); MCA_TRACE_API ("MCA_DisconnectReq: %d ", mcl); if (p_ccb) { result = MCA_SUCCESS; mca_ccb_event (p_ccb, MCA_CCB_API_DISCONNECT_EVT, NULL); } return result; } /******************************************************************************* ** ** Function MCA_CreateMdl ** ** Description This function sends a CREATE_MDL request to the peer device. ** When the response is received, a MCA_CREATE_CFM_EVT is reported ** with the given MDL ID. ** If the response is successful, a data channel is open ** with the given p_chnl_cfg ** If p_chnl_cfg is NULL, the data channel is not initiated until ** MCA_DataChnlCfg is called to provide the p_chnl_cfg. ** When the data channel is open successfully, a MCA_OPEN_CFM_EVT ** is reported. This data channel is identified as tMCA_DL. ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_CreateMdl(tMCA_CL mcl, tMCA_DEP dep, UINT16 data_psm, UINT16 mdl_id, UINT8 peer_dep_id, UINT8 cfg, const tMCA_CHNL_CFG *p_chnl_cfg) { tMCA_RESULT result = MCA_BAD_HANDLE; tMCA_CCB *p_ccb = mca_ccb_by_hdl(mcl); tMCA_DCB *p_dcb; MCA_TRACE_API ("MCA_CreateMdl: %d dep=%d mdl_id=%d peer_dep_id=%d", mcl, dep, mdl_id, peer_dep_id); if (p_ccb) { if (p_ccb->p_tx_req || p_ccb->p_rx_msg || p_ccb->cong) { MCA_TRACE_ERROR ("pending req"); return MCA_BUSY; } if ((peer_dep_id > MCA_MAX_MDEP_ID) || (!MCA_IS_VALID_MDL_ID(mdl_id))) { MCA_TRACE_ERROR ("bad peer dep id:%d or bad mdl id: %d ", peer_dep_id, mdl_id); return MCA_BAD_PARAMS; } if (mca_ccb_uses_mdl_id(p_ccb, mdl_id)) { MCA_TRACE_ERROR ("mdl id: %d is used in the control link", mdl_id); return MCA_BAD_MDL_ID; } p_dcb = mca_dcb_alloc(p_ccb, dep); result = MCA_NO_RESOURCES; if (p_dcb) { /* save the info required by dcb connection */ p_dcb->p_chnl_cfg = p_chnl_cfg; p_dcb->mdl_id = mdl_id; tMCA_CCB_MSG *p_evt_data = (tMCA_CCB_MSG *)osi_malloc(sizeof(tMCA_CCB_MSG)); if (!p_ccb->data_vpsm) p_ccb->data_vpsm = L2CA_Register (data_psm, (tL2CAP_APPL_INFO *)&mca_l2c_int_appl); if (p_ccb->data_vpsm) { p_evt_data->dcb_idx = mca_dcb_to_hdl (p_dcb); p_evt_data->mdep_id = peer_dep_id; p_evt_data->mdl_id = mdl_id; p_evt_data->param = cfg; p_evt_data->op_code = MCA_OP_MDL_CREATE_REQ; p_evt_data->hdr.event = MCA_CCB_API_REQ_EVT; p_evt_data->hdr.layer_specific = FALSE; mca_ccb_event(p_ccb, MCA_CCB_API_REQ_EVT, (tMCA_CCB_EVT *)p_evt_data); return MCA_SUCCESS; } else { osi_free(p_evt_data); } mca_dcb_dealloc(p_dcb, NULL); } } return result; } /******************************************************************************* ** ** Function MCA_CreateMdlRsp ** ** Description This function sends a CREATE_MDL response to the peer device ** in response to a received MCA_CREATE_IND_EVT. ** If the rsp_code is successful, a data channel is open ** with the given p_chnl_cfg ** When the data channel is open successfully, a MCA_OPEN_IND_EVT ** is reported. This data channel is identified as tMCA_DL. ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_CreateMdlRsp(tMCA_CL mcl, tMCA_DEP dep, UINT16 mdl_id, UINT8 cfg, UINT8 rsp_code, const tMCA_CHNL_CFG *p_chnl_cfg) { tMCA_RESULT result = MCA_BAD_HANDLE; tMCA_CCB *p_ccb = mca_ccb_by_hdl(mcl); tMCA_CCB_MSG evt_data; tMCA_DCB *p_dcb; MCA_TRACE_API ("MCA_CreateMdlRsp: %d dep=%d mdl_id=%d cfg=%d rsp_code=%d", mcl, dep, mdl_id, cfg, rsp_code); assert(p_chnl_cfg != NULL ); if (p_ccb) { if (p_ccb->cong) { MCA_TRACE_ERROR ("congested"); return MCA_BUSY; } if (p_ccb->p_rx_msg && (p_ccb->p_rx_msg->mdep_id == dep ) && (p_ccb->p_rx_msg->mdl_id == mdl_id) && (p_ccb->p_rx_msg->op_code == MCA_OP_MDL_CREATE_REQ)) { result = MCA_SUCCESS; evt_data.dcb_idx = 0; if (rsp_code == MCA_RSP_SUCCESS) { p_dcb = mca_dcb_alloc(p_ccb, dep); if (p_dcb) { evt_data.dcb_idx = mca_dcb_to_hdl(p_dcb); p_dcb->p_chnl_cfg = p_chnl_cfg; p_dcb->mdl_id = mdl_id; } else { rsp_code = MCA_RSP_MDEP_BUSY; result = MCA_NO_RESOURCES; } } if (result == MCA_SUCCESS) { evt_data.mdl_id = mdl_id; evt_data.param = cfg; evt_data.rsp_code = rsp_code; evt_data.op_code = MCA_OP_MDL_CREATE_RSP; mca_ccb_event(p_ccb, MCA_CCB_API_RSP_EVT, (tMCA_CCB_EVT *)&evt_data); } } else { MCA_TRACE_ERROR ("The given MCL is not expecting a MCA_CreateMdlRsp with the given parameters" ); result = MCA_BAD_PARAMS; } } return result; } /******************************************************************************* ** ** Function MCA_CloseReq ** ** Description Close a data channel. When the channel is closed, an ** MCA_CLOSE_CFM_EVT is sent to the application via the ** control callback function for this handle. ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_CloseReq(tMCA_DL mdl) { tMCA_RESULT result = MCA_BAD_HANDLE; tMCA_DCB *p_dcb = mca_dcb_by_hdl(mdl); MCA_TRACE_API ("MCA_CloseReq: %d ", mdl); if (p_dcb) { result = MCA_SUCCESS; mca_dcb_event(p_dcb, MCA_DCB_API_CLOSE_EVT, NULL); } return result; } /******************************************************************************* ** ** Function MCA_ReconnectMdl ** ** Description This function sends a RECONNECT_MDL request to the peer device. ** When the response is received, a MCA_RECONNECT_CFM_EVT is reported. ** If p_chnl_cfg is NULL, the data channel is not initiated until ** MCA_DataChnlCfg is called to provide the p_chnl_cfg. ** If the response is successful, a data channel is open. ** When the data channel is open successfully, a MCA_OPEN_CFM_EVT ** is reported. ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_ReconnectMdl(tMCA_CL mcl, tMCA_DEP dep, UINT16 data_psm, UINT16 mdl_id, const tMCA_CHNL_CFG *p_chnl_cfg) { tMCA_RESULT result = MCA_BAD_HANDLE; tMCA_CCB *p_ccb = mca_ccb_by_hdl(mcl); tMCA_DCB *p_dcb; MCA_TRACE_API ("MCA_ReconnectMdl: %d ", mcl); assert(p_chnl_cfg != NULL ); if (p_ccb) { if (p_ccb->p_tx_req || p_ccb->p_rx_msg || p_ccb->cong) { MCA_TRACE_ERROR ("pending req"); return MCA_BUSY; } if (!MCA_IS_VALID_MDL_ID(mdl_id)) { MCA_TRACE_ERROR ("bad mdl id: %d ", mdl_id); return MCA_BAD_PARAMS; } if (mca_ccb_uses_mdl_id(p_ccb, mdl_id)) { MCA_TRACE_ERROR ("mdl id: %d is used in the control link", mdl_id); return MCA_BAD_MDL_ID; } p_dcb = mca_dcb_alloc(p_ccb, dep); result = MCA_NO_RESOURCES; if (p_dcb) { tMCA_CCB_MSG *p_evt_data = (tMCA_CCB_MSG *)osi_malloc(sizeof(tMCA_CCB_MSG)); p_dcb->p_chnl_cfg = p_chnl_cfg; p_dcb->mdl_id = mdl_id; if (!p_ccb->data_vpsm) p_ccb->data_vpsm = L2CA_Register (data_psm, (tL2CAP_APPL_INFO *)&mca_l2c_int_appl); p_evt_data->dcb_idx = mca_dcb_to_hdl(p_dcb); p_evt_data->mdl_id = mdl_id; p_evt_data->op_code = MCA_OP_MDL_RECONNECT_REQ; p_evt_data->hdr.event = MCA_CCB_API_REQ_EVT; mca_ccb_event(p_ccb, MCA_CCB_API_REQ_EVT, (tMCA_CCB_EVT *)p_evt_data); return MCA_SUCCESS; } } return result; } /******************************************************************************* ** ** Function MCA_ReconnectMdlRsp ** ** Description This function sends a RECONNECT_MDL response to the peer device ** in response to a MCA_RECONNECT_IND_EVT event. ** If the response is successful, a data channel is open. ** When the data channel is open successfully, a MCA_OPEN_IND_EVT ** is reported. ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_ReconnectMdlRsp(tMCA_CL mcl, tMCA_DEP dep, UINT16 mdl_id, UINT8 rsp_code, const tMCA_CHNL_CFG *p_chnl_cfg) { tMCA_RESULT result = MCA_BAD_HANDLE; tMCA_CCB *p_ccb = mca_ccb_by_hdl(mcl); tMCA_CCB_MSG evt_data; tMCA_DCB *p_dcb; MCA_TRACE_API ("MCA_ReconnectMdlRsp: %d ", mcl); assert(p_chnl_cfg != NULL ); if (p_ccb) { if (p_ccb->cong) { MCA_TRACE_ERROR ("congested"); return MCA_BUSY; } if (p_ccb->p_rx_msg && (p_ccb->p_rx_msg->mdl_id == mdl_id) && (p_ccb->p_rx_msg->op_code == MCA_OP_MDL_RECONNECT_REQ)) { result = MCA_SUCCESS; evt_data.dcb_idx = 0; if (rsp_code == MCA_RSP_SUCCESS) { p_dcb = mca_dcb_alloc(p_ccb, dep); if (p_dcb) { evt_data.dcb_idx = mca_dcb_to_hdl(p_dcb); p_dcb->p_chnl_cfg = p_chnl_cfg; p_dcb->mdl_id = mdl_id; } else { MCA_TRACE_ERROR ("Out of MDL for this MDEP"); rsp_code = MCA_RSP_MDEP_BUSY; result = MCA_NO_RESOURCES; } } evt_data.mdl_id = mdl_id; evt_data.rsp_code = rsp_code; evt_data.op_code = MCA_OP_MDL_RECONNECT_RSP; mca_ccb_event(p_ccb, MCA_CCB_API_RSP_EVT, (tMCA_CCB_EVT *)&evt_data); } else { MCA_TRACE_ERROR ("The given MCL is not expecting a MCA_ReconnectMdlRsp with the given parameters" ); result = MCA_BAD_PARAMS; } } return result; } /******************************************************************************* ** ** Function MCA_DataChnlCfg ** ** Description This function initiates a data channel connection toward the ** connected peer device. ** When the data channel is open successfully, a MCA_OPEN_CFM_EVT ** is reported. This data channel is identified as tMCA_DL. ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_DataChnlCfg(tMCA_CL mcl, const tMCA_CHNL_CFG *p_chnl_cfg) { tMCA_RESULT result = MCA_BAD_HANDLE; tMCA_CCB *p_ccb = mca_ccb_by_hdl(mcl); tMCA_DCB *p_dcb; tMCA_TC_TBL *p_tbl; MCA_TRACE_API ("MCA_DataChnlCfg: %d ", mcl); assert(p_chnl_cfg != NULL ); if (p_ccb) { result = MCA_NO_RESOURCES; if ((p_ccb->p_tx_req == NULL) || (p_ccb->status != MCA_CCB_STAT_PENDING) || ((p_dcb = mca_dcb_by_hdl(p_ccb->p_tx_req->dcb_idx)) == NULL)) { MCA_TRACE_ERROR ("The given MCL is not expecting this API:%d", p_ccb->status); return result; } p_dcb->p_chnl_cfg = p_chnl_cfg; BTM_SetSecurityLevel(TRUE, "", BTM_SEC_SERVICE_MCAP_DATA, p_ccb->sec_mask, p_ccb->data_vpsm, BTM_SEC_PROTO_MCA, p_ccb->p_tx_req->dcb_idx); p_dcb->lcid = mca_l2c_open_req(p_ccb->peer_addr, p_ccb->data_vpsm, p_dcb->p_chnl_cfg); if (p_dcb->lcid) { p_tbl = mca_tc_tbl_dalloc(p_dcb); if (p_tbl) { p_tbl->state = MCA_TC_ST_CONN; result = MCA_SUCCESS; } } } return result; } /******************************************************************************* ** ** Function MCA_Abort ** ** Description This function sends a ABORT_MDL request to the peer device. ** When the response is received, a MCA_ABORT_CFM_EVT is reported. ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_Abort(tMCA_CL mcl) { tMCA_RESULT result = MCA_BAD_HANDLE; tMCA_CCB *p_ccb = mca_ccb_by_hdl(mcl); tMCA_DCB *p_dcb; MCA_TRACE_API ("MCA_Abort: %d", mcl); if (p_ccb) { result = MCA_NO_RESOURCES; /* verify that we are waiting for data channel to come up with the given mdl */ if ((p_ccb->p_tx_req == NULL) || (p_ccb->status != MCA_CCB_STAT_PENDING) || ((p_dcb = mca_dcb_by_hdl(p_ccb->p_tx_req->dcb_idx)) == NULL)) { MCA_TRACE_ERROR ("The given MCL is not expecting this API:%d", p_ccb->status); return result; } if (p_ccb->cong) { MCA_TRACE_ERROR ("congested"); return MCA_BUSY; } tMCA_CCB_MSG *p_evt_data = (tMCA_CCB_MSG *)osi_malloc(sizeof(tMCA_CCB_MSG)); result = MCA_SUCCESS; p_evt_data->op_code = MCA_OP_MDL_ABORT_REQ; p_evt_data->hdr.event = MCA_CCB_API_REQ_EVT; mca_ccb_event(p_ccb, MCA_CCB_API_REQ_EVT, (tMCA_CCB_EVT *)p_evt_data); } return result; } /******************************************************************************* ** ** Function MCA_Delete ** ** Description This function sends a DELETE_MDL request to the peer device. ** When the response is received, a MCA_DELETE_CFM_EVT is reported. ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_Delete(tMCA_CL mcl, UINT16 mdl_id) { tMCA_RESULT result = MCA_BAD_HANDLE; tMCA_CCB *p_ccb = mca_ccb_by_hdl(mcl); MCA_TRACE_API ("MCA_Delete: %d ", mcl); if (p_ccb) { if (p_ccb->cong) { MCA_TRACE_ERROR ("congested"); return MCA_BUSY; } if (!MCA_IS_VALID_MDL_ID(mdl_id) && (mdl_id != MCA_ALL_MDL_ID)) { MCA_TRACE_ERROR ("bad mdl id: %d ", mdl_id); return MCA_BAD_PARAMS; } tMCA_CCB_MSG *p_evt_data = (tMCA_CCB_MSG *)osi_malloc(sizeof(tMCA_CCB_MSG)); result = MCA_SUCCESS; p_evt_data->mdl_id = mdl_id; p_evt_data->op_code = MCA_OP_MDL_DELETE_REQ; p_evt_data->hdr.event = MCA_CCB_API_REQ_EVT; mca_ccb_event(p_ccb, MCA_CCB_API_REQ_EVT, (tMCA_CCB_EVT *)p_evt_data); } return result; } /******************************************************************************* ** ** Function MCA_WriteReq ** ** Description Send a data packet to the peer device. ** ** The application passes the packet using the BT_HDR structure. ** The offset field must be equal to or greater than L2CAP_MIN_OFFSET. ** This allows enough space in the buffer for the L2CAP header. ** ** The memory pointed to by p_pkt must be a GKI buffer ** allocated by the application. This buffer will be freed ** by the protocol stack; the application must not free ** this buffer. ** ** Returns MCA_SUCCESS if successful, otherwise error. ** *******************************************************************************/ tMCA_RESULT MCA_WriteReq(tMCA_DL mdl, BT_HDR *p_pkt) { tMCA_RESULT result = MCA_BAD_HANDLE; tMCA_DCB *p_dcb = mca_dcb_by_hdl(mdl); tMCA_DCB_EVT evt_data; MCA_TRACE_API ("MCA_WriteReq: %d ", mdl); if (p_dcb) { if (p_dcb->cong) { result = MCA_BUSY; } else { evt_data.p_pkt = p_pkt; result = MCA_SUCCESS; mca_dcb_event(p_dcb, MCA_DCB_API_WRITE_EVT, &evt_data); } } return result; } /******************************************************************************* ** ** Function MCA_GetL2CapChannel ** ** Description Get the L2CAP CID used by the given data channel handle. ** ** Returns L2CAP channel ID if successful, otherwise 0. ** *******************************************************************************/ UINT16 MCA_GetL2CapChannel (tMCA_DL mdl) { UINT16 lcid = 0; tMCA_DCB *p_dcb = mca_dcb_by_hdl(mdl); MCA_TRACE_API ("MCA_GetL2CapChannel: %d ", mdl); if (p_dcb) lcid = p_dcb->lcid; return lcid; }