/****************************************************************************** * * Copyright (C) 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 module contains API of the audio/video distribution transport * protocol. * ******************************************************************************/ #include #include "bt_types.h" #include "bt_target.h" #include "avdt_api.h" #include "avdtc_api.h" #include "avdt_int.h" #include "l2c_api.h" #include "btm_api.h" #include "btu.h" /* Control block for AVDT */ #if AVDT_DYNAMIC_MEMORY == FALSE tAVDT_CB avdt_cb; #endif /******************************************************************************* ** ** Function avdt_process_timeout ** ** Description This function is called by BTU when an AVDTP timer ** expires. The function sends a timer event to the ** appropriate CCB or SCB state machine. ** ** This function is for use internal to the stack only. ** ** ** Returns void ** *******************************************************************************/ void avdt_process_timeout(TIMER_LIST_ENT *p_tle) { UINT8 event = 0; UINT8 err_code = AVDT_ERR_TIMEOUT; switch (p_tle->event) { case BTU_TTYPE_AVDT_CCB_RET: event = AVDT_CCB_RET_TOUT_EVT + AVDT_CCB_MKR; break; case BTU_TTYPE_AVDT_CCB_RSP: event = AVDT_CCB_RSP_TOUT_EVT + AVDT_CCB_MKR; break; case BTU_TTYPE_AVDT_CCB_IDLE: event = AVDT_CCB_IDLE_TOUT_EVT + AVDT_CCB_MKR; break; case BTU_TTYPE_AVDT_SCB_TC: event = AVDT_SCB_TC_TOUT_EVT; break; default: break; } if (event & AVDT_CCB_MKR) { avdt_ccb_event((tAVDT_CCB *) p_tle->param, (UINT8) (event & ~AVDT_CCB_MKR), (tAVDT_CCB_EVT *) &err_code); } else { avdt_scb_event((tAVDT_SCB *) p_tle->param, event, NULL); } } /******************************************************************************* ** ** Function AVDT_Register ** ** Description This is the system level registration function for the ** AVDTP protocol. This function initializes AVDTP and ** prepares the protocol stack for its use. This function ** must be called once by the system or platform using AVDTP ** before the other functions of the API an be used. ** ** ** Returns void ** *******************************************************************************/ void AVDT_Register(tAVDT_REG *p_reg, tAVDT_CTRL_CBACK *p_cback) { /* register PSM with L2CAP */ L2CA_Register(AVDT_PSM, (tL2CAP_APPL_INFO *) &avdt_l2c_appl); /* set security level */ BTM_SetSecurityLevel(TRUE, "", BTM_SEC_SERVICE_AVDTP, p_reg->sec_mask, AVDT_PSM, BTM_SEC_PROTO_AVDT, AVDT_CHAN_SIG); BTM_SetSecurityLevel(FALSE, "", BTM_SEC_SERVICE_AVDTP, p_reg->sec_mask, AVDT_PSM, BTM_SEC_PROTO_AVDT, AVDT_CHAN_SIG); /* do not use security on the media channel */ BTM_SetSecurityLevel(TRUE, "", BTM_SEC_SERVICE_AVDTP_NOSEC, BTM_SEC_NONE, AVDT_PSM, BTM_SEC_PROTO_AVDT, AVDT_CHAN_MEDIA); BTM_SetSecurityLevel(FALSE, "", BTM_SEC_SERVICE_AVDTP_NOSEC, BTM_SEC_NONE, AVDT_PSM, BTM_SEC_PROTO_AVDT, AVDT_CHAN_MEDIA); #if AVDT_REPORTING == TRUE /* do not use security on the reporting channel */ BTM_SetSecurityLevel(TRUE, "", BTM_SEC_SERVICE_AVDTP_NOSEC, BTM_SEC_NONE, AVDT_PSM, BTM_SEC_PROTO_AVDT, AVDT_CHAN_REPORT); BTM_SetSecurityLevel(FALSE, "", BTM_SEC_SERVICE_AVDTP_NOSEC, BTM_SEC_NONE, AVDT_PSM, BTM_SEC_PROTO_AVDT, AVDT_CHAN_REPORT); #endif /* initialize AVDTP data structures */ avdt_scb_init(); avdt_ccb_init(); avdt_ad_init(); /* copy registration struct */ memcpy(&avdt_cb.rcb, p_reg, sizeof(tAVDT_REG)); avdt_cb.p_conn_cback = p_cback; } /******************************************************************************* ** ** Function AVDT_Deregister ** ** Description This function is called to deregister use AVDTP protocol. ** It is called when AVDTP is no longer being used by any ** application in the system. Before this function can be ** called, all streams must be removed with AVDT_RemoveStream(). ** ** ** Returns void ** *******************************************************************************/ void AVDT_Deregister(void) { /* deregister PSM with L2CAP */ L2CA_Deregister(AVDT_PSM); } /******************************************************************************* ** ** Function AVDT_SINK_Activate ** ** Description Activate SEP of A2DP Sink. In Use parameter is adjusted. ** In Use will be made false in case of activation. A2DP SRC ** will receive in_use as false and can open A2DP Sink ** connection ** ** Returns void. ** *******************************************************************************/ void AVDT_SINK_Activate() { tAVDT_SCB *p_scb = &avdt_cb.scb[0]; int i; AVDT_TRACE_DEBUG("AVDT_SINK_Activate"); /* for all allocated scbs */ for (i = 0; i < AVDT_NUM_SEPS; i++, p_scb++) { if ((p_scb->allocated) && (p_scb->cs.tsep == AVDT_TSEP_SNK)) { AVDT_TRACE_DEBUG("AVDT_SINK_Activate found scb"); p_scb->sink_activated = TRUE; /* update in_use */ p_scb->in_use = FALSE; break; } } } /******************************************************************************* ** ** Function AVDT_SINK_Deactivate ** ** Description Deactivate SEP of A2DP Sink. In Use parameter is adjusted. ** In Use will be made TRUE in case of activation. A2DP SRC ** will receive in_use as true and will not open A2DP Sink ** connection ** ** Returns void. ** *******************************************************************************/ void AVDT_SINK_Deactivate() { tAVDT_SCB *p_scb = &avdt_cb.scb[0]; int i; AVDT_TRACE_DEBUG("AVDT_SINK_Deactivate"); /* for all allocated scbs */ for (i = 0; i < AVDT_NUM_SEPS; i++, p_scb++) { if ((p_scb->allocated) && (p_scb->cs.tsep == AVDT_TSEP_SNK)) { AVDT_TRACE_DEBUG("AVDT_SINK_Deactivate, found scb"); p_scb->sink_activated = FALSE; /* update in_use */ p_scb->in_use = TRUE; break; } } } void AVDT_AbortReq(UINT8 handle) { AVDT_TRACE_ERROR("%s", __func__); tAVDT_SCB *p_scb = avdt_scb_by_hdl(handle); if (p_scb != NULL) { avdt_scb_event(p_scb, AVDT_SCB_API_ABORT_REQ_EVT, NULL); } else { AVDT_TRACE_ERROR("%s Improper SCB, can not abort the stream", __func__); } } /******************************************************************************* ** ** Function AVDT_CreateStream ** ** Description Create a stream endpoint. After a stream endpoint is ** created an application can initiate a connection between ** this endpoint and an endpoint on a peer device. In ** addition, a peer device can discover, get the capabilities, ** and connect to this endpoint. ** ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_CreateStream(UINT8 *p_handle, tAVDT_CS *p_cs) { UINT16 result = AVDT_SUCCESS; tAVDT_SCB *p_scb; /* Verify parameters; if invalid, return failure */ if (((p_cs->cfg.psc_mask & (~AVDT_PSC)) != 0) || (p_cs->p_ctrl_cback == NULL)) { result = AVDT_BAD_PARAMS; } /* Allocate scb; if no scbs, return failure */ else if ((p_scb = avdt_scb_alloc(p_cs)) == NULL) { result = AVDT_NO_RESOURCES; } else { *p_handle = avdt_scb_to_hdl(p_scb); } return result; } /******************************************************************************* ** ** Function AVDT_RemoveStream ** ** Description Remove a stream endpoint. This function is called when ** the application is no longer using a stream endpoint. ** If this function is called when the endpoint is connected ** the connection is closed and then the stream endpoint ** is removed. ** ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_RemoveStream(UINT8 handle) { UINT16 result = AVDT_SUCCESS; tAVDT_SCB *p_scb; /* look up scb */ if ((p_scb = avdt_scb_by_hdl(handle)) == NULL) { result = AVDT_BAD_HANDLE; } else { /* send remove event to scb */ avdt_scb_event(p_scb, AVDT_SCB_API_REMOVE_EVT, NULL); } return result; } /******************************************************************************* ** ** Function AVDT_DiscoverReq ** ** Description This function initiates a connection to the AVDTP service ** on the peer device, if not already present, and discovers ** the stream endpoints on the peer device. (Please note ** that AVDTP discovery is unrelated to SDP discovery). ** This function can be called at any time regardless of whether ** there is an AVDTP connection to the peer device. ** ** When discovery is complete, an AVDT_DISCOVER_CFM_EVT ** is sent to the application via its callback function. ** The application must not call AVDT_GetCapReq() or ** AVDT_DiscoverReq() again to the same device until ** discovery is complete. ** ** The memory addressed by sep_info is allocated by the ** application. This memory is written to by AVDTP as part ** of the discovery procedure. This memory must remain ** accessible until the application receives the ** AVDT_DISCOVER_CFM_EVT. ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_DiscoverReq(BD_ADDR bd_addr, tAVDT_SEP_INFO *p_sep_info, UINT8 max_seps, tAVDT_CTRL_CBACK *p_cback) { tAVDT_CCB *p_ccb; UINT16 result = AVDT_SUCCESS; tAVDT_CCB_EVT evt; /* find channel control block for this bd addr; if none, allocate one */ if ((p_ccb = avdt_ccb_by_bd(bd_addr)) == NULL) { if ((p_ccb = avdt_ccb_alloc(bd_addr)) == NULL) { /* could not allocate channel control block */ result = AVDT_NO_RESOURCES; } } if (result == AVDT_SUCCESS) { /* make sure no discovery or get capabilities req already in progress */ if (p_ccb->proc_busy) { result = AVDT_BUSY; } /* send event to ccb */ else { evt.discover.p_sep_info = p_sep_info; evt.discover.num_seps = max_seps; evt.discover.p_cback = p_cback; avdt_ccb_event(p_ccb, AVDT_CCB_API_DISCOVER_REQ_EVT, &evt); } } return result; } /******************************************************************************* ** ** Function avdt_get_cap_req ** ** Description internal function to serve both AVDT_GetCapReq and ** AVDT_GetAllCapReq ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ static UINT16 avdt_get_cap_req(BD_ADDR bd_addr, tAVDT_CCB_API_GETCAP *p_evt) { tAVDT_CCB *p_ccb = NULL; UINT16 result = AVDT_SUCCESS; /* verify SEID */ if ((p_evt->single.seid < AVDT_SEID_MIN) || (p_evt->single.seid > AVDT_SEID_MAX)) { AVDT_TRACE_ERROR("seid: %d", p_evt->single.seid); result = AVDT_BAD_PARAMS; } /* find channel control block for this bd addr; if none, allocate one */ else if ((p_ccb = avdt_ccb_by_bd(bd_addr)) == NULL) { if ((p_ccb = avdt_ccb_alloc(bd_addr)) == NULL) { /* could not allocate channel control block */ result = AVDT_NO_RESOURCES; } } if (result == AVDT_SUCCESS) { /* make sure no discovery or get capabilities req already in progress */ if (p_ccb->proc_busy) { result = AVDT_BUSY; } /* send event to ccb */ else { avdt_ccb_event(p_ccb, AVDT_CCB_API_GETCAP_REQ_EVT, (tAVDT_CCB_EVT *)p_evt); } } return result; } /******************************************************************************* ** ** Function AVDT_GetCapReq ** ** Description This function initiates a connection to the AVDTP service ** on the peer device, if not already present, and gets the ** capabilities of a stream endpoint on the peer device. ** This function can be called at any time regardless of ** whether there is an AVDTP connection to the peer device. ** ** When the procedure is complete, an AVDT_GETCAP_CFM_EVT is ** sent to the application via its callback function. The ** application must not call AVDT_GetCapReq() or ** AVDT_DiscoverReq() again until the procedure is complete. ** ** The memory pointed to by p_cfg is allocated by the ** application. This memory is written to by AVDTP as part ** of the get capabilities procedure. This memory must ** remain accessible until the application receives ** the AVDT_GETCAP_CFM_EVT. ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_GetCapReq(BD_ADDR bd_addr, UINT8 seid, tAVDT_CFG *p_cfg, tAVDT_CTRL_CBACK *p_cback) { tAVDT_CCB_API_GETCAP getcap; getcap.single.seid = seid; getcap.single.sig_id = AVDT_SIG_GETCAP; getcap.p_cfg = p_cfg; getcap.p_cback = p_cback; return avdt_get_cap_req (bd_addr, &getcap); } /******************************************************************************* ** ** Function AVDT_GetAllCapReq ** ** Description This function initiates a connection to the AVDTP service ** on the peer device, if not already present, and gets the ** capabilities of a stream endpoint on the peer device. ** This function can be called at any time regardless of ** whether there is an AVDTP connection to the peer device. ** ** When the procedure is complete, an AVDT_GETCAP_CFM_EVT is ** sent to the application via its callback function. The ** application must not call AVDT_GetCapReq() or ** AVDT_DiscoverReq() again until the procedure is complete. ** ** The memory pointed to by p_cfg is allocated by the ** application. This memory is written to by AVDTP as part ** of the get capabilities procedure. This memory must ** remain accessible until the application receives ** the AVDT_GETCAP_CFM_EVT. ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_GetAllCapReq(BD_ADDR bd_addr, UINT8 seid, tAVDT_CFG *p_cfg, tAVDT_CTRL_CBACK *p_cback) { tAVDT_CCB_API_GETCAP getcap; getcap.single.seid = seid; getcap.single.sig_id = AVDT_SIG_GET_ALLCAP; getcap.p_cfg = p_cfg; getcap.p_cback = p_cback; return avdt_get_cap_req (bd_addr, &getcap); } /******************************************************************************* ** ** Function AVDT_DelayReport ** ** Description This functions sends a Delay Report to the peer device ** that is associated with a particular SEID. ** This function is called by SNK device. ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_DelayReport(UINT8 handle, UINT8 seid, UINT16 delay) { tAVDT_SCB *p_scb; UINT16 result = AVDT_SUCCESS; tAVDT_SCB_EVT evt; /* map handle to scb */ if ((p_scb = avdt_scb_by_hdl(handle)) == NULL) { result = AVDT_BAD_HANDLE; } else /* send event to scb */ { evt.apidelay.hdr.seid = seid; evt.apidelay.delay = delay; avdt_scb_event(p_scb, AVDT_SCB_API_DELAY_RPT_REQ_EVT, &evt); } return result; } /******************************************************************************* ** ** Function AVDT_OpenReq ** ** Description This function initiates a connection to the AVDTP service ** on the peer device, if not already present, and connects ** to a stream endpoint on a peer device. When the connection ** is completed, an AVDT_OPEN_CFM_EVT is sent to the ** application via the control callback function for this handle. ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_OpenReq(UINT8 handle, BD_ADDR bd_addr, UINT8 seid, tAVDT_CFG *p_cfg) { tAVDT_CCB *p_ccb = NULL; tAVDT_SCB *p_scb = NULL; UINT16 result = AVDT_SUCCESS; tAVDT_SCB_EVT evt; /* verify SEID */ if ((seid < AVDT_SEID_MIN) || (seid > AVDT_SEID_MAX)) { result = AVDT_BAD_PARAMS; } /* map handle to scb */ else if ((p_scb = avdt_scb_by_hdl(handle)) == NULL) { result = AVDT_BAD_HANDLE; } /* find channel control block for this bd addr; if none, allocate one */ else if ((p_ccb = avdt_ccb_by_bd(bd_addr)) == NULL) { if ((p_ccb = avdt_ccb_alloc(bd_addr)) == NULL) { /* could not allocate channel control block */ result = AVDT_NO_RESOURCES; } } /* send event to scb */ if (result == AVDT_SUCCESS) { evt.msg.config_cmd.hdr.seid = seid; evt.msg.config_cmd.hdr.ccb_idx = avdt_ccb_to_idx(p_ccb); evt.msg.config_cmd.int_seid = handle; evt.msg.config_cmd.p_cfg = p_cfg; avdt_scb_event(p_scb, AVDT_SCB_API_SETCONFIG_REQ_EVT, &evt); } return result; } /******************************************************************************* ** ** Function AVDT_ConfigRsp ** ** Description Respond to a configure request from the peer device. This ** function must be called if the application receives an ** AVDT_CONFIG_IND_EVT through its control callback. ** ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_ConfigRsp(UINT8 handle, UINT8 label, UINT8 error_code, UINT8 category) { tAVDT_SCB *p_scb; tAVDT_SCB_EVT evt; UINT16 result = AVDT_SUCCESS; UINT8 event_code; /* map handle to scb */ if ((p_scb = avdt_scb_by_hdl(handle)) == NULL) { result = AVDT_BAD_HANDLE; } /* handle special case when this function is called but peer has not send ** a configuration cmd; ignore and return error result */ else if (!p_scb->in_use) { result = AVDT_BAD_HANDLE; } /* send event to scb */ else { evt.msg.hdr.err_code = error_code; evt.msg.hdr.err_param = category; evt.msg.hdr.label = label; if (error_code == 0) { event_code = AVDT_SCB_API_SETCONFIG_RSP_EVT; } else { event_code = AVDT_SCB_API_SETCONFIG_REJ_EVT; } avdt_scb_event(p_scb, event_code, &evt); } return result; } /******************************************************************************* ** ** Function AVDT_StartReq ** ** Description Start one or more stream endpoints. This initiates the ** transfer of media packets for the streams. All stream ** endpoints must previously be opened. When the streams ** are started, an AVDT_START_CFM_EVT is sent to the ** application via the control callback function for each stream. ** ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_StartReq(UINT8 *p_handles, UINT8 num_handles) { tAVDT_SCB *p_scb = NULL; tAVDT_CCB_EVT evt; UINT16 result = AVDT_SUCCESS; int i; if ((num_handles == 0) || (num_handles > AVDT_NUM_SEPS)) { result = AVDT_BAD_PARAMS; } else { /* verify handles */ for (i = 0; i < num_handles; i++) { if ((p_scb = avdt_scb_by_hdl(p_handles[i])) == NULL) { result = AVDT_BAD_HANDLE; break; } } } if (result == AVDT_SUCCESS) { if (p_scb->p_ccb == NULL) { result = AVDT_BAD_HANDLE; } else { /* send event to ccb */ memcpy(evt.msg.multi.seid_list, p_handles, num_handles); evt.msg.multi.num_seps = num_handles; avdt_ccb_event(p_scb->p_ccb, AVDT_CCB_API_START_REQ_EVT, &evt); } } return result; } /******************************************************************************* ** ** Function AVDT_SuspendReq ** ** Description Suspend one or more stream endpoints. This suspends the ** transfer of media packets for the streams. All stream ** endpoints must previously be open and started. When the ** streams are suspended, an AVDT_SUSPEND_CFM_EVT is sent to ** the application via the control callback function for ** each stream. ** ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_SuspendReq(UINT8 *p_handles, UINT8 num_handles) { tAVDT_SCB *p_scb = NULL; tAVDT_CCB_EVT evt; UINT16 result = AVDT_SUCCESS; int i; if ((num_handles == 0) || (num_handles > AVDT_NUM_SEPS)) { result = AVDT_BAD_PARAMS; } else { /* verify handles */ for (i = 0; i < num_handles; i++) { if ((p_scb = avdt_scb_by_hdl(p_handles[i])) == NULL) { result = AVDT_BAD_HANDLE; break; } } } if (result == AVDT_SUCCESS) { if (p_scb->p_ccb == NULL) { result = AVDT_BAD_HANDLE; } else { /* send event to ccb */ memcpy(evt.msg.multi.seid_list, p_handles, num_handles); evt.msg.multi.num_seps = num_handles; avdt_ccb_event(p_scb->p_ccb, AVDT_CCB_API_SUSPEND_REQ_EVT, &evt); } } return result; } /******************************************************************************* ** ** Function AVDT_CloseReq ** ** Description Close a stream endpoint. This stops the transfer of media ** packets and closes the transport channel associated with ** this stream endpoint. When the stream is closed, an ** AVDT_CLOSE_CFM_EVT is sent to the application via the ** control callback function for this handle. ** ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_CloseReq(UINT8 handle) { tAVDT_SCB *p_scb; UINT16 result = AVDT_SUCCESS; /* map handle to scb */ if ((p_scb = avdt_scb_by_hdl(handle)) == NULL) { result = AVDT_BAD_HANDLE; } else /* send event to scb */ { avdt_scb_event(p_scb, AVDT_SCB_API_CLOSE_REQ_EVT, NULL); } return result; } /******************************************************************************* ** ** Function AVDT_ReconfigReq ** ** Description Reconfigure a stream endpoint. This allows the application ** to change the codec or content protection capabilities of ** a stream endpoint after it has been opened. This function ** can only be called if the stream is opened but not started ** or if the stream has been suspended. When the procedure ** is completed, an AVDT_RECONFIG_CFM_EVT is sent to the ** application via the control callback function for this handle. ** ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_ReconfigReq(UINT8 handle, tAVDT_CFG *p_cfg) { tAVDT_SCB *p_scb; UINT16 result = AVDT_SUCCESS; tAVDT_SCB_EVT evt; /* map handle to scb */ if ((p_scb = avdt_scb_by_hdl(handle)) == NULL) { result = AVDT_BAD_HANDLE; } /* send event to scb */ else { /* force psc_mask to zero */ p_cfg->psc_mask = 0; evt.msg.reconfig_cmd.p_cfg = p_cfg; avdt_scb_event(p_scb, AVDT_SCB_API_RECONFIG_REQ_EVT, &evt); } return result; } /******************************************************************************* ** ** Function AVDT_ReconfigRsp ** ** Description Respond to a reconfigure request from the peer device. ** This function must be called if the application receives ** an AVDT_RECONFIG_IND_EVT through its control callback. ** ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_ReconfigRsp(UINT8 handle, UINT8 label, UINT8 error_code, UINT8 category) { tAVDT_SCB *p_scb; tAVDT_SCB_EVT evt; UINT16 result = AVDT_SUCCESS; /* map handle to scb */ if ((p_scb = avdt_scb_by_hdl(handle)) == NULL) { result = AVDT_BAD_HANDLE; } /* send event to scb */ else { evt.msg.hdr.err_code = error_code; evt.msg.hdr.err_param = category; evt.msg.hdr.label = label; avdt_scb_event(p_scb, AVDT_SCB_API_RECONFIG_RSP_EVT, &evt); } return result; } /******************************************************************************* ** ** Function AVDT_SecurityReq ** ** Description Send a security request to the peer device. When the ** security procedure is completed, an AVDT_SECURITY_CFM_EVT ** is sent to the application via the control callback function ** for this handle. (Please note that AVDTP security procedures ** are unrelated to Bluetooth link level security.) ** ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_SecurityReq(UINT8 handle, UINT8 *p_data, UINT16 len) { tAVDT_SCB *p_scb; UINT16 result = AVDT_SUCCESS; tAVDT_SCB_EVT evt; /* map handle to scb */ if ((p_scb = avdt_scb_by_hdl(handle)) == NULL) { result = AVDT_BAD_HANDLE; } /* send event to scb */ else { evt.msg.security_rsp.p_data = p_data; evt.msg.security_rsp.len = len; avdt_scb_event(p_scb, AVDT_SCB_API_SECURITY_REQ_EVT, &evt); } return result; } /******************************************************************************* ** ** Function AVDT_SecurityRsp ** ** Description Respond to a security request from the peer device. ** This function must be called if the application receives ** an AVDT_SECURITY_IND_EVT through its control callback. ** (Please note that AVDTP security procedures are unrelated ** to Bluetooth link level security.) ** ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_SecurityRsp(UINT8 handle, UINT8 label, UINT8 error_code, UINT8 *p_data, UINT16 len) { tAVDT_SCB *p_scb; UINT16 result = AVDT_SUCCESS; tAVDT_SCB_EVT evt; /* map handle to scb */ if ((p_scb = avdt_scb_by_hdl(handle)) == NULL) { result = AVDT_BAD_HANDLE; } /* send event to scb */ else { evt.msg.security_rsp.hdr.err_code = error_code; evt.msg.security_rsp.hdr.label = label; evt.msg.security_rsp.p_data = p_data; evt.msg.security_rsp.len = len; avdt_scb_event(p_scb, AVDT_SCB_API_SECURITY_RSP_EVT, &evt); } return result; } /******************************************************************************* ** ** Function AVDT_WriteReqOpt ** ** Description Send a media packet to the peer device. The stream must ** be started before this function is called. Also, this ** function can only be called if the stream is a SRC. ** ** When AVDTP has sent the media packet and is ready for the ** next packet, an AVDT_WRITE_CFM_EVT is sent to the ** application via the control callback. The application must ** wait for the AVDT_WRITE_CFM_EVT before it makes the next ** call to AVDT_WriteReq(). If the applications calls ** AVDT_WriteReq() before it receives the event the packet ** will not be sent. The application may make its first call ** to AVDT_WriteReq() after it receives an AVDT_START_CFM_EVT ** or AVDT_START_IND_EVT. ** ** The application passes the packet using the BT_HDR structure. ** This structure is described in section 2.1. The offset ** field must be equal to or greater than AVDT_MEDIA_OFFSET ** (if NO_RTP is specified, L2CAP_MIN_OFFSET can be used). ** This allows enough space in the buffer for the L2CAP and ** AVDTP headers. ** ** 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. ** ** The opt parameter allows passing specific options like: ** - NO_RTP : do not add the RTP header to buffer ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_WriteReqOpt(UINT8 handle, BT_HDR *p_pkt, UINT32 time_stamp, UINT8 m_pt, tAVDT_DATA_OPT_MASK opt) { tAVDT_SCB *p_scb; tAVDT_SCB_EVT evt; UINT16 result = AVDT_SUCCESS; /* map handle to scb */ if ((p_scb = avdt_scb_by_hdl(handle)) == NULL) { result = AVDT_BAD_HANDLE; } else { evt.apiwrite.p_buf = p_pkt; evt.apiwrite.time_stamp = time_stamp; evt.apiwrite.m_pt = m_pt; evt.apiwrite.opt = opt; #if AVDT_MULTIPLEXING == TRUE GKI_init_q (&evt.apiwrite.frag_q); #endif avdt_scb_event(p_scb, AVDT_SCB_API_WRITE_REQ_EVT, &evt); } return result; } /******************************************************************************* ** ** Function AVDT_WriteReq ** ** Description Send a media packet to the peer device. The stream must ** be started before this function is called. Also, this ** function can only be called if the stream is a SRC. ** ** When AVDTP has sent the media packet and is ready for the ** next packet, an AVDT_WRITE_CFM_EVT is sent to the ** application via the control callback. The application must ** wait for the AVDT_WRITE_CFM_EVT before it makes the next ** call to AVDT_WriteReq(). If the applications calls ** AVDT_WriteReq() before it receives the event the packet ** will not be sent. The application may make its first call ** to AVDT_WriteReq() after it receives an AVDT_START_CFM_EVT ** or AVDT_START_IND_EVT. ** ** The application passes the packet using the BT_HDR structure. ** This structure is described in section 2.1. The offset ** field must be equal to or greater than AVDT_MEDIA_OFFSET. ** This allows enough space in the buffer for the L2CAP and ** AVDTP headers. ** ** 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 AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_WriteReq(UINT8 handle, BT_HDR *p_pkt, UINT32 time_stamp, UINT8 m_pt) { return AVDT_WriteReqOpt(handle, p_pkt, time_stamp, m_pt, AVDT_DATA_OPT_NONE); } /******************************************************************************* ** ** Function AVDT_ConnectReq ** ** Description This function initiates an AVDTP signaling connection ** to the peer device. When the connection is completed, an ** AVDT_CONNECT_IND_EVT is sent to the application via its ** control callback function. If the connection attempt fails ** an AVDT_DISCONNECT_IND_EVT is sent. The security mask ** parameter overrides the outgoing security mask set in ** AVDT_Register(). ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_ConnectReq(BD_ADDR bd_addr, UINT8 sec_mask, tAVDT_CTRL_CBACK *p_cback) { tAVDT_CCB *p_ccb = NULL; UINT16 result = AVDT_SUCCESS; tAVDT_CCB_EVT evt; /* find channel control block for this bd addr; if none, allocate one */ if ((p_ccb = avdt_ccb_by_bd(bd_addr)) == NULL) { if ((p_ccb = avdt_ccb_alloc(bd_addr)) == NULL) { /* could not allocate channel control block */ result = AVDT_NO_RESOURCES; } } else if (p_ccb->ll_opened == FALSE) { AVDT_TRACE_WARNING("AVDT_ConnectReq: CCB LL is in the middle of opening"); /* ccb was already allocated for the incoming signalling. */ result = AVDT_BUSY; } if (result == AVDT_SUCCESS) { /* send event to ccb */ evt.connect.p_cback = p_cback; evt.connect.sec_mask = sec_mask; avdt_ccb_event(p_ccb, AVDT_CCB_API_CONNECT_REQ_EVT, &evt); } return result; } /******************************************************************************* ** ** Function AVDT_DisconnectReq ** ** Description This function disconnect an AVDTP signaling connection ** to the peer device. When disconnected an ** AVDT_DISCONNECT_IND_EVT is sent to the application via its ** control callback function. ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ UINT16 AVDT_DisconnectReq(BD_ADDR bd_addr, tAVDT_CTRL_CBACK *p_cback) { tAVDT_CCB *p_ccb = NULL; UINT16 result = AVDT_SUCCESS; tAVDT_CCB_EVT evt; /* find channel control block for this bd addr; if none, error */ if ((p_ccb = avdt_ccb_by_bd(bd_addr)) == NULL) { result = AVDT_BAD_PARAMS; } if (result == AVDT_SUCCESS) { /* send event to ccb */ evt.disconnect.p_cback = p_cback; avdt_ccb_event(p_ccb, AVDT_CCB_API_DISCONNECT_REQ_EVT, &evt); } return result; } /******************************************************************************* ** ** Function AVDT_GetL2CapChannel ** ** Description Get the L2CAP CID used by the handle. ** ** Returns CID if successful, otherwise 0. ** *******************************************************************************/ UINT16 AVDT_GetL2CapChannel(UINT8 handle) { tAVDT_SCB *p_scb; tAVDT_CCB *p_ccb; UINT8 tcid; UINT16 lcid = 0; /* map handle to scb */ if (((p_scb = avdt_scb_by_hdl(handle)) != NULL) && ((p_ccb = p_scb->p_ccb) != NULL)) { /* get tcid from type, scb */ tcid = avdt_ad_type_to_tcid(AVDT_CHAN_MEDIA, p_scb); lcid = avdt_cb.ad.rt_tbl[avdt_ccb_to_idx(p_ccb)][tcid].lcid; } return (lcid); } /******************************************************************************* ** ** Function AVDT_GetSignalChannel ** ** Description Get the L2CAP CID used by the signal channel of the given handle. ** ** Returns CID if successful, otherwise 0. ** *******************************************************************************/ UINT16 AVDT_GetSignalChannel(UINT8 handle, BD_ADDR bd_addr) { tAVDT_SCB *p_scb; tAVDT_CCB *p_ccb; UINT8 tcid = 0; /* tcid is always 0 for signal channel */ UINT16 lcid = 0; /* map handle to scb */ if (((p_scb = avdt_scb_by_hdl(handle)) != NULL) && ((p_ccb = p_scb->p_ccb) != NULL)) { lcid = avdt_cb.ad.rt_tbl[avdt_ccb_to_idx(p_ccb)][tcid].lcid; } else if ((p_ccb = avdt_ccb_by_bd(bd_addr)) != NULL) { lcid = avdt_cb.ad.rt_tbl[avdt_ccb_to_idx(p_ccb)][tcid].lcid; } return (lcid); } #if AVDT_MULTIPLEXING == TRUE /******************************************************************************* ** ** Function AVDT_WriteDataReq ** ** Description Send a media packet to the peer device. The stream must ** be started before this function is called. Also, this ** function can only be called if the stream is a SRC. ** ** When AVDTP has sent the media packet and is ready for the ** next packet, an AVDT_WRITE_CFM_EVT is sent to the ** application via the control callback. The application must ** wait for the AVDT_WRITE_CFM_EVT before it makes the next ** call to AVDT_WriteDataReq(). If the applications calls ** AVDT_WriteDataReq() before it receives the event the packet ** will not be sent. The application may make its first call ** to AVDT_WriteDataReq() after it receives an ** AVDT_START_CFM_EVT or AVDT_START_IND_EVT. ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ extern UINT16 AVDT_WriteDataReq(UINT8 handle, UINT8 *p_data, UINT32 data_len, UINT32 time_stamp, UINT8 m_pt, UINT8 marker) { tAVDT_SCB *p_scb; tAVDT_SCB_EVT evt; UINT16 result = AVDT_SUCCESS; do { /* check length of media frame */ if(data_len > AVDT_MAX_MEDIA_SIZE) { result = AVDT_BAD_PARAMS; break; } /* map handle to scb */ if ((p_scb = avdt_scb_by_hdl(handle)) == NULL) { result = AVDT_BAD_HANDLE; break; } AVDT_TRACE_WARNING("mux_tsid_media:%d", p_scb->curr_cfg.mux_tsid_media); if (p_scb->p_pkt != NULL || p_scb->p_ccb == NULL || !GKI_queue_is_empty(&p_scb->frag_q) || p_scb->frag_off != 0 || p_scb->curr_cfg.mux_tsid_media == 0) { result = AVDT_ERR_BAD_STATE; AVDT_TRACE_WARNING("p_scb->p_pkt=%x, p_scb->p_ccb=%x, IsQueueEmpty=%x, p_scb->frag_off=%x", p_scb->p_pkt, p_scb->p_ccb, GKI_queue_is_empty(&p_scb->frag_q), p_scb->frag_off); break; } evt.apiwrite.p_buf = 0; /* it will indicate using of fragments queue frag_q */ /* create queue of media fragments */ GKI_init_q (&evt.apiwrite.frag_q); /* compose fragments from media payload and put fragments into gueue */ avdt_scb_queue_frags(p_scb, &p_data, &data_len, &evt.apiwrite.frag_q); if(GKI_queue_is_empty(&evt.apiwrite.frag_q)) { AVDT_TRACE_WARNING("AVDT_WriteDataReq out of GKI buffers"); result = AVDT_ERR_RESOURCE; break; } evt.apiwrite.data_len = data_len; evt.apiwrite.p_data = p_data; /* process the fragments queue */ evt.apiwrite.time_stamp = time_stamp; evt.apiwrite.m_pt = m_pt | (marker<<7); avdt_scb_event(p_scb, AVDT_SCB_API_WRITE_REQ_EVT, &evt); } while (0); #if (BT_USE_TRACES == TRUE) if(result != AVDT_SUCCESS) { AVDT_TRACE_WARNING("*** AVDT_WriteDataReq failed result=%d",result); } #endif return result; } #endif #if AVDT_MULTIPLEXING == TRUE /******************************************************************************* ** ** Function AVDT_SetMediaBuf ** ** Description Assigns buffer for media packets or forbids using of assigned ** buffer if argument p_buf is NULL. This function can only ** be called if the stream is a SNK. ** ** AVDTP uses this buffer to reassemble fragmented media packets. ** When AVDTP receives a complete media packet, it calls the ** p_media_cback assigned by AVDT_CreateStream(). ** This function can be called during callback to assign a ** different buffer for next media packet or can leave the current ** buffer for next packet. ** ** Returns AVDT_SUCCESS if successful, otherwise error. ** *******************************************************************************/ extern UINT16 AVDT_SetMediaBuf(UINT8 handle, UINT8 *p_buf, UINT32 buf_len) { tAVDT_SCB *p_scb; UINT16 result = AVDT_SUCCESS; /* map handle to scb */ if ((p_scb = avdt_scb_by_hdl(handle)) == NULL) { result = AVDT_BAD_HANDLE; } else { if(p_buf && p_scb->cs.p_media_cback == NULL) result = AVDT_NO_RESOURCES; else { p_scb->p_media_buf = p_buf; p_scb->media_buf_len = buf_len; } } return result; } #endif #if AVDT_REPORTING == TRUE /******************************************************************************* ** ** Function AVDT_SendReport ** ** Description ** ** ** ** Returns ** *******************************************************************************/ UINT16 AVDT_SendReport(UINT8 handle, AVDT_REPORT_TYPE type, tAVDT_REPORT_DATA *p_data) { tAVDT_SCB *p_scb; UINT16 result = AVDT_BAD_PARAMS; BT_HDR *p_pkt; tAVDT_TC_TBL *p_tbl; UINT8 *p, *plen, *pm1, *p_end; #if AVDT_MULTIPLEXING == TRUE UINT8 *p_al=NULL, u; #endif UINT32 ssrc; UINT16 len; /* map handle to scb && verify parameters */ if (((p_scb = avdt_scb_by_hdl(handle)) != NULL) && (p_scb->p_ccb != NULL) && (((type == AVDT_RTCP_PT_SR) && (p_scb->cs.tsep == AVDT_TSEP_SRC)) || ((type == AVDT_RTCP_PT_RR) && (p_scb->cs.tsep == AVDT_TSEP_SNK)) || (type == AVDT_RTCP_PT_SDES)) ) { result = AVDT_NO_RESOURCES; /* build SR - assume fit in one packet */ p_tbl = avdt_ad_tc_tbl_by_type(AVDT_CHAN_REPORT, p_scb->p_ccb, p_scb); if((p_tbl->state == AVDT_AD_ST_OPEN) && (p_pkt = (BT_HDR *)GKI_getbuf(p_tbl->peer_mtu)) != NULL) { p_pkt->offset = L2CAP_MIN_OFFSET; p = (UINT8 *)(p_pkt + 1) + p_pkt->offset; #if AVDT_MULTIPLEXING == TRUE if(p_scb->curr_cfg.psc_mask & AVDT_PSC_MUX) { /* Adaptation Layer header later */ p_al = p; p += 2; } #endif pm1 = p; *p++ = AVDT_MEDIA_OCTET1 | 1; *p++ = type; /* save the location for length */ plen = p; p+= 2; ssrc = avdt_scb_gen_ssrc(p_scb); UINT32_TO_BE_STREAM(p, ssrc); switch(type) { case AVDT_RTCP_PT_SR: /* Sender Report */ *pm1 = AVDT_MEDIA_OCTET1; UINT32_TO_BE_STREAM(p, p_data->sr.ntp_sec); UINT32_TO_BE_STREAM(p, p_data->sr.ntp_frac); UINT32_TO_BE_STREAM(p, p_data->sr.rtp_time); UINT32_TO_BE_STREAM(p, p_data->sr.pkt_count); UINT32_TO_BE_STREAM(p, p_data->sr.octet_count); break; case AVDT_RTCP_PT_RR: /* Receiver Report */ *p++ = p_data->rr.frag_lost; AVDT_TRACE_API("packet_lost: %d", p_data->rr.packet_lost); p_data->rr.packet_lost &= 0xFFFFFF; AVDT_TRACE_API("packet_lost: %d", p_data->rr.packet_lost); UINT24_TO_BE_STREAM(p, p_data->rr.packet_lost); UINT32_TO_BE_STREAM(p, p_data->rr.seq_num_rcvd); UINT32_TO_BE_STREAM(p, p_data->rr.jitter); UINT32_TO_BE_STREAM(p, p_data->rr.lsr); UINT32_TO_BE_STREAM(p, p_data->rr.dlsr); break; case AVDT_RTCP_PT_SDES: /* Source Description */ *p++ = AVDT_RTCP_SDES_CNAME; len = strlen((char *)p_data->cname); if(len > AVDT_MAX_CNAME_SIZE) len = AVDT_MAX_CNAME_SIZE; *p++ = (UINT8)len; BCM_STRNCPY_S((char *)p, len+1, (char *)p_data->cname, len+1); p += len; break; } p_end = p; len = p - pm1 - 1; UINT16_TO_BE_STREAM(plen, len); #if AVDT_MULTIPLEXING == TRUE if(p_scb->curr_cfg.psc_mask & AVDT_PSC_MUX) { /* Adaptation Layer header */ p = p_al; len++; UINT16_TO_BE_STREAM(p_al, len ); /* TSID, no-fragment bit and coding of length(9-bit length field) */ u = *p; *p = (p_scb->curr_cfg.mux_tsid_report<<3) | AVDT_ALH_LCODE_9BITM0; if(u) *p |= AVDT_ALH_LCODE_9BITM1; } #endif /* set the actual payload length */ p_pkt->len = p_end - p; /* send the packet */ if(L2CAP_DW_FAILED != avdt_ad_write_req(AVDT_CHAN_REPORT, p_scb->p_ccb, p_scb, p_pkt)) result = AVDT_SUCCESS; } } return result; } #endif /****************************************************************************** ** ** Function AVDT_SetTraceLevel ** ** Description Sets the trace level for AVDT. If 0xff is passed, the ** current trace level is returned. ** ** Input Parameters: ** new_level: The level to set the AVDT 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 AVDT_SetTraceLevel (UINT8 new_level) { if (new_level != 0xFF) avdt_cb.trace_level = new_level; return (avdt_cb.trace_level); }