/****************************************************************************** * * Copyright (C) 2006-2012 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 implementation of the JAVA API for Bluetooth Wireless * Technology (JABWT) as specified by the JSR82 specificiation * ******************************************************************************/ #include "bta/bta_api.h" #include "bta/bta_sys.h" #include "bta/bta_jv_api.h" #include "bta_jv_int.h" #include "osi/allocator.h" #include #include "stack/port_api.h" #include "stack/sdp_api.h" #include "bta/utl.h" #include "stack/gap_api.h" #include "common/bt_target.h" #include "stack/sdp_api.h" #if (defined BTA_JV_INCLUDED && BTA_JV_INCLUDED == TRUE) /***************************************************************************** ** Constants *****************************************************************************/ static const tBTA_SYS_REG bta_jv_reg = { bta_jv_sm_execute, NULL }; /******************************************************************************* ** ** Function BTA_JvEnable ** ** Description Enable the Java I/F service. When the enable ** operation is complete the callback function will be ** called with a BTA_JV_ENABLE_EVT. This function must ** be called before other function in the JV API are ** called. ** ** Returns BTA_JV_SUCCESS if successful. ** BTA_JV_FAIL if internal failure. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvEnable(tBTA_JV_DM_CBACK *p_cback) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_ENABLE *p_buf; int i; APPL_TRACE_API( "BTA_JvEnable"); #if BTA_DYNAMIC_MEMORY == TRUE /* Malloc buffer for JV configuration structure */ p_bta_jv_cfg->p_sdp_raw_data = (UINT8 *)osi_malloc(p_bta_jv_cfg->sdp_raw_size); p_bta_jv_cfg->p_sdp_db = (tSDP_DISCOVERY_DB *)osi_malloc(p_bta_jv_cfg->sdp_db_size); if (p_bta_jv_cfg->p_sdp_raw_data == NULL || p_bta_jv_cfg->p_sdp_db == NULL) { return BTA_JV_NO_DATA; } #endif if (p_cback && FALSE == bta_sys_is_register(BTA_ID_JV)) { memset(&bta_jv_cb, 0, sizeof(tBTA_JV_CB)); /* set handle to invalid value by default */ for (i = 0; i < BTA_JV_PM_MAX_NUM; i++) { bta_jv_cb.pm_cb[i].handle = BTA_JV_PM_HANDLE_CLEAR; } /* register with BTA system manager */ bta_sys_register(BTA_ID_JV, &bta_jv_reg); if (p_cback && (p_buf = (tBTA_JV_API_ENABLE *) osi_malloc(sizeof(tBTA_JV_API_ENABLE))) != NULL) { p_buf->hdr.event = BTA_JV_API_ENABLE_EVT; p_buf->p_cback = p_cback; bta_sys_sendmsg(p_buf); status = BTA_JV_SUCCESS; } } else if (p_cback == NULL) { APPL_TRACE_ERROR("No p_cback."); } else { APPL_TRACE_WARNING("No need to Init again."); status = BTA_JV_ALREADY_DONE; } return (status); } /******************************************************************************* ** ** Function BTA_JvDisable ** ** Description Disable the Java I/F ** ** Returns void ** *******************************************************************************/ void BTA_JvDisable(tBTA_JV_RFCOMM_CBACK *p_cback) { tBTA_JV_API_DISABLE *p_buf; APPL_TRACE_API( "BTA_JvDisable"); bta_sys_deregister(BTA_ID_JV); if ((p_buf = (tBTA_JV_API_DISABLE *) osi_malloc(sizeof(tBTA_JV_API_DISABLE))) != NULL) { p_buf->hdr.event = BTA_JV_API_DISABLE_EVT; p_buf->p_cback = p_cback; bta_sys_sendmsg(p_buf); } } /******************************************************************************* ** ** Function BTA_JvFree ** ** Description Free JV configuration ** ** Returns void ** *******************************************************************************/ void BTA_JvFree(void) { #if BTA_DYNAMIC_MEMORY == TRUE /* Free buffer for JV configuration structure */ osi_free(p_bta_jv_cfg->p_sdp_raw_data); osi_free(p_bta_jv_cfg->p_sdp_db); p_bta_jv_cfg->p_sdp_raw_data = NULL; p_bta_jv_cfg->p_sdp_db = NULL; #endif } /******************************************************************************* ** ** Function BTA_JvIsEnable ** ** Description Get the JV registration status. ** ** Returns TRUE, if registered ** *******************************************************************************/ BOOLEAN BTA_JvIsEnable(void) { return bta_sys_is_register(BTA_ID_JV); } /******************************************************************************* ** ** Function BTA_JvIsEncrypted ** ** Description This function checks if the link to peer device is encrypted ** ** Returns TRUE if encrypted. ** FALSE if not. ** *******************************************************************************/ BOOLEAN BTA_JvIsEncrypted(BD_ADDR bd_addr) { BOOLEAN is_encrypted = FALSE; UINT8 sec_flags, le_flags; if (BTM_GetSecurityFlags(bd_addr, &sec_flags) && BTM_GetSecurityFlagsByTransport(bd_addr, &le_flags, BT_TRANSPORT_LE)) { if (sec_flags & BTM_SEC_FLAG_ENCRYPTED || le_flags & BTM_SEC_FLAG_ENCRYPTED) { is_encrypted = TRUE; } } return is_encrypted; } /******************************************************************************* ** ** Function BTA_JvGetChannelId ** ** Description This function reserves a SCN (server channel number) for ** applications running over RFCOMM, L2CAP of L2CAP_LE. ** It is primarily called by server profiles/applications to ** register their SCN into the SDP database. The SCN is reported ** by the tBTA_JV_DM_CBACK callback with a BTA_JV_GET_SCN_EVT ** for RFCOMM channels and BTA_JV_GET_PSM_EVT for L2CAP and LE. ** If the SCN/PSM reported is 0, that means all resources are ** exhausted. ** Parameters ** conn_type one of BTA_JV_CONN_TYPE_ ** user_data Any uservalue - will be returned in the resulting event. ** channel Only used for RFCOMM - to try to allocate a specific RFCOMM ** channel. ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvGetChannelId(int conn_type, void *user_data, INT32 channel) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_ALLOC_CHANNEL *p_msg; APPL_TRACE_API( "%s", __func__); if ((p_msg = (tBTA_JV_API_ALLOC_CHANNEL *)osi_malloc(sizeof(tBTA_JV_API_ALLOC_CHANNEL))) != NULL) { p_msg->hdr.event = BTA_JV_API_GET_CHANNEL_EVT; p_msg->type = conn_type; p_msg->channel = channel; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvFreeChannel ** ** Description This function frees a server channel number that was used ** by an application running over RFCOMM. ** Parameters ** channel The channel to free ** conn_type one of BTA_JV_CONN_TYPE_ ** p_cback tBTA_JV_RFCOMM_CBACK is called with when server ** user_data indicate the RFCOMM server status ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvFreeChannel(UINT16 channel, int conn_type, tBTA_JV_RFCOMM_CBACK *p_cback, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_FREE_CHANNEL *p_msg; APPL_TRACE_API( "%s", __func__); if ((p_msg = (tBTA_JV_API_FREE_CHANNEL *)osi_malloc(sizeof(tBTA_JV_API_FREE_CHANNEL))) != NULL) { p_msg->hdr.event = BTA_JV_API_FREE_SCN_EVT; p_msg->scn = channel; p_msg->type = conn_type; p_msg->p_cback = p_cback; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvStartDiscovery ** ** Description This function performs service discovery for the services ** provided by the given peer device. When the operation is ** complete the tBTA_JV_DM_CBACK callback function will be ** called with a BTA_JV_DISCOVERY_COMP_EVT. ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvStartDiscovery(BD_ADDR bd_addr, UINT16 num_uuid, tSDP_UUID *p_uuid_list, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_START_DISCOVERY *p_msg; APPL_TRACE_API( "BTA_JvStartDiscovery"); if ((p_msg = (tBTA_JV_API_START_DISCOVERY *)osi_malloc(sizeof(tBTA_JV_API_START_DISCOVERY))) != NULL) { p_msg->hdr.event = BTA_JV_API_START_DISCOVERY_EVT; bdcpy(p_msg->bd_addr, bd_addr); p_msg->num_uuid = num_uuid; memcpy(p_msg->uuid_list, p_uuid_list, num_uuid * sizeof(tSDP_UUID)); p_msg->num_attr = 0; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvCreateRecord ** ** Description Create a service record in the local SDP database. ** When the operation is complete the tBTA_JV_DM_CBACK callback ** function will be called with a BTA_JV_CREATE_RECORD_EVT. ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvCreateRecordByUser(const char *name, UINT32 channel, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_CREATE_RECORD *p_msg; APPL_TRACE_API( "BTA_JvCreateRecordByUser"); if ((p_msg = (tBTA_JV_API_CREATE_RECORD *)osi_malloc(sizeof(tBTA_JV_API_CREATE_RECORD))) != NULL) { p_msg->hdr.event = BTA_JV_API_CREATE_RECORD_EVT; p_msg->user_data = user_data; strcpy(p_msg->name, name); p_msg->channel = channel; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvDeleteRecord ** ** Description Delete a service record in the local SDP database. ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvDeleteRecord(UINT32 handle) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_ADD_ATTRIBUTE *p_msg; APPL_TRACE_API( "BTA_JvDeleteRecord"); if ((p_msg = (tBTA_JV_API_ADD_ATTRIBUTE *)osi_malloc(sizeof(tBTA_JV_API_ADD_ATTRIBUTE))) != NULL) { p_msg->hdr.event = BTA_JV_API_DELETE_RECORD_EVT; p_msg->handle = handle; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } #if BTA_JV_L2CAP_INCLUDED /******************************************************************************* ** ** Function BTA_JvL2capConnectLE ** ** Description Initiate an LE connection as a L2CAP client to the given BD ** Address. ** When the connection is initiated or failed to initiate, ** tBTA_JV_L2CAP_CBACK is called with BTA_JV_L2CAP_CL_INIT_EVT ** When the connection is established or failed, ** tBTA_JV_L2CAP_CBACK is called with BTA_JV_L2CAP_OPEN_EVT ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvL2capConnectLE(tBTA_SEC sec_mask, tBTA_JV_ROLE role, const tL2CAP_ERTM_INFO *ertm_info, UINT16 remote_chan, UINT16 rx_mtu, tL2CAP_CFG_INFO *cfg, BD_ADDR peer_bd_addr, tBTA_JV_L2CAP_CBACK *p_cback, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_L2CAP_CONNECT *p_msg; APPL_TRACE_API( "%s", __func__); if (p_cback && (p_msg = (tBTA_JV_API_L2CAP_CONNECT *)osi_malloc(sizeof(tBTA_JV_API_L2CAP_CONNECT))) != NULL) { p_msg->hdr.event = BTA_JV_API_L2CAP_CONNECT_LE_EVT; p_msg->sec_mask = sec_mask; p_msg->role = role; p_msg->remote_chan = remote_chan; p_msg->rx_mtu = rx_mtu; if (cfg != NULL) { p_msg->has_cfg = TRUE; p_msg->cfg = *cfg; } else { p_msg->has_cfg = FALSE; } if (ertm_info != NULL) { p_msg->has_ertm_info = TRUE; p_msg->ertm_info = *ertm_info; } else { p_msg->has_ertm_info = FALSE; } memcpy(p_msg->peer_bd_addr, peer_bd_addr, sizeof(BD_ADDR)); p_msg->p_cback = p_cback; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvL2capConnect ** ** Description Initiate a connection as a L2CAP client to the given BD ** Address. ** When the connection is initiated or failed to initiate, ** tBTA_JV_L2CAP_CBACK is called with BTA_JV_L2CAP_CL_INIT_EVT ** When the connection is established or failed, ** tBTA_JV_L2CAP_CBACK is called with BTA_JV_L2CAP_OPEN_EVT ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvL2capConnect(tBTA_SEC sec_mask, tBTA_JV_ROLE role, const tL2CAP_ERTM_INFO *ertm_info, UINT16 remote_psm, UINT16 rx_mtu, tL2CAP_CFG_INFO *cfg, BD_ADDR peer_bd_addr, tBTA_JV_L2CAP_CBACK *p_cback, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_L2CAP_CONNECT *p_msg; APPL_TRACE_API( "%s", __func__); if (p_cback && (p_msg = (tBTA_JV_API_L2CAP_CONNECT *)osi_malloc(sizeof(tBTA_JV_API_L2CAP_CONNECT))) != NULL) { p_msg->hdr.event = BTA_JV_API_L2CAP_CONNECT_EVT; p_msg->sec_mask = sec_mask; p_msg->role = role; p_msg->remote_psm = remote_psm; p_msg->rx_mtu = rx_mtu; if (cfg != NULL) { p_msg->has_cfg = TRUE; p_msg->cfg = *cfg; } else { p_msg->has_cfg = FALSE; } if (ertm_info != NULL) { p_msg->has_ertm_info = TRUE; p_msg->ertm_info = *ertm_info; } else { p_msg->has_ertm_info = FALSE; } memcpy(p_msg->peer_bd_addr, peer_bd_addr, sizeof(BD_ADDR)); p_msg->p_cback = p_cback; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvL2capClose ** ** Description This function closes an L2CAP client connection ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvL2capClose(UINT32 handle, tBTA_JV_L2CAP_CBACK *p_cback, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_L2CAP_CLOSE *p_msg; APPL_TRACE_API( "%s", __func__); if (handle < BTA_JV_MAX_L2C_CONN && bta_jv_cb.l2c_cb[handle].p_cback && (p_msg = (tBTA_JV_API_L2CAP_CLOSE *)osi_malloc(sizeof(tBTA_JV_API_L2CAP_CLOSE))) != NULL) { p_msg->hdr.event = BTA_JV_API_L2CAP_CLOSE_EVT; p_msg->handle = handle; p_msg->p_cb = &bta_jv_cb.l2c_cb[handle]; p_msg->p_cback = p_cback; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvL2capCloseLE ** ** Description This function closes an L2CAP client connection for Fixed Channels ** Function is idempotent and no callbacks are called! ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvL2capCloseLE(UINT32 handle) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_L2CAP_CLOSE *p_msg; APPL_TRACE_API( "%s", __func__); if ((p_msg = (tBTA_JV_API_L2CAP_CLOSE *)osi_malloc(sizeof(tBTA_JV_API_L2CAP_CLOSE))) != NULL) { p_msg->hdr.event = BTA_JV_API_L2CAP_CLOSE_FIXED_EVT; p_msg->handle = handle; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvL2capStartServer ** ** Description This function starts an L2CAP server and listens for an L2CAP ** connection from a remote Bluetooth device. When the server ** is started successfully, tBTA_JV_L2CAP_CBACK is called with ** BTA_JV_L2CAP_START_EVT. When the connection is established, ** tBTA_JV_L2CAP_CBACK is called with BTA_JV_L2CAP_OPEN_EVT. ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvL2capStartServer(tBTA_SEC sec_mask, tBTA_JV_ROLE role, const tL2CAP_ERTM_INFO *ertm_info, UINT16 local_psm, UINT16 rx_mtu, tL2CAP_CFG_INFO *cfg, tBTA_JV_L2CAP_CBACK *p_cback, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_L2CAP_SERVER *p_msg; APPL_TRACE_API( "%s", __func__); if (p_cback && (p_msg = (tBTA_JV_API_L2CAP_SERVER *)osi_malloc(sizeof(tBTA_JV_API_L2CAP_SERVER))) != NULL) { p_msg->hdr.event = BTA_JV_API_L2CAP_START_SERVER_EVT; p_msg->sec_mask = sec_mask; p_msg->role = role; p_msg->local_psm = local_psm; p_msg->rx_mtu = rx_mtu; if (cfg != NULL) { p_msg->has_cfg = TRUE; p_msg->cfg = *cfg; } else { p_msg->has_cfg = FALSE; } if (ertm_info != NULL) { p_msg->has_ertm_info = TRUE; p_msg->ertm_info = *ertm_info; } else { p_msg->has_ertm_info = FALSE; } p_msg->p_cback = p_cback; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvL2capStartServerLE ** ** Description This function starts an LE L2CAP server and listens for an L2CAP ** connection from a remote Bluetooth device. When the server ** is started successfully, tBTA_JV_L2CAP_CBACK is called with ** BTA_JV_L2CAP_START_EVT. When the connection is established, ** tBTA_JV_L2CAP_CBACK is called with BTA_JV_L2CAP_OPEN_EVT. ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvL2capStartServerLE(tBTA_SEC sec_mask, tBTA_JV_ROLE role, const tL2CAP_ERTM_INFO *ertm_info, UINT16 local_chan, UINT16 rx_mtu, tL2CAP_CFG_INFO *cfg, tBTA_JV_L2CAP_CBACK *p_cback, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_L2CAP_SERVER *p_msg; APPL_TRACE_API( "%s", __func__); if (p_cback && (p_msg = (tBTA_JV_API_L2CAP_SERVER *)osi_malloc(sizeof(tBTA_JV_API_L2CAP_SERVER))) != NULL) { p_msg->hdr.event = BTA_JV_API_L2CAP_START_SERVER_LE_EVT; p_msg->sec_mask = sec_mask; p_msg->role = role; p_msg->local_chan = local_chan; p_msg->rx_mtu = rx_mtu; if (cfg != NULL) { p_msg->has_cfg = TRUE; p_msg->cfg = *cfg; } else { p_msg->has_cfg = FALSE; } if (ertm_info != NULL) { p_msg->has_ertm_info = TRUE; p_msg->ertm_info = *ertm_info; } else { p_msg->has_ertm_info = FALSE; } p_msg->p_cback = p_cback; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvL2capStopServer ** ** Description This function stops the L2CAP server. If the server has an ** active connection, it would be closed. ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvL2capStopServer(UINT16 local_psm, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_L2CAP_SERVER *p_msg; APPL_TRACE_API( "%s", __func__); if ((p_msg = (tBTA_JV_API_L2CAP_SERVER *)osi_malloc(sizeof(tBTA_JV_API_L2CAP_SERVER))) != NULL) { p_msg->hdr.event = BTA_JV_API_L2CAP_STOP_SERVER_EVT; p_msg->local_psm = local_psm; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvL2capStopServerLE ** ** Description This function stops the LE L2CAP server. If the server has an ** active connection, it would be closed. ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvL2capStopServerLE(UINT16 local_chan, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_L2CAP_SERVER *p_msg; APPL_TRACE_API( "%s", __func__); if ((p_msg = (tBTA_JV_API_L2CAP_SERVER *)osi_malloc(sizeof(tBTA_JV_API_L2CAP_SERVER))) != NULL) { p_msg->hdr.event = BTA_JV_API_L2CAP_STOP_SERVER_LE_EVT; p_msg->local_chan = local_chan; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvL2capRead ** ** Description This function reads data from an L2CAP connecti; tBTA_JV_RFC_CB *p_cb = rc->p_cb; on ** When the operation is complete, tBTA_JV_L2CAP_CBACK is ** called with BTA_JV_L2CAP_READ_EVT. ** ** Returns Length of read data. ** *******************************************************************************/ int BTA_JvL2capRead(UINT32 handle, UINT32 req_id, UINT8 *p_data, UINT16 len) { tBTA_JV_L2CAP_READ evt_data; APPL_TRACE_API( "%s", __func__); if (handle < BTA_JV_MAX_L2C_CONN && bta_jv_cb.l2c_cb[handle].p_cback) { evt_data.status = BTA_JV_FAILURE; evt_data.handle = handle; evt_data.req_id = req_id; evt_data.p_data = p_data; evt_data.len = 0; if (BT_PASS == GAP_ConnReadData((UINT16)handle, p_data, len, &evt_data.len)) { evt_data.status = BTA_JV_SUCCESS; } bta_jv_cb.l2c_cb[handle].p_cback( BTA_JV_L2CAP_READ_EVT, (tBTA_JV *)&evt_data, bta_jv_cb.l2c_cb[handle].user_data); } return (evt_data.len); } /******************************************************************************* ** ** Function BTA_JvL2capReceive ** ** Description This function reads data from an L2CAP connection ** When the operation is complete, tBTA_JV_L2CAP_CBACK is ** called with BTA_JV_L2CAP_RECEIVE_EVT. ** If there are more data queued in L2CAP than len, the extra data will be discarded. ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvL2capReceive(UINT32 handle, UINT32 req_id, UINT8 *p_data, UINT16 len) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_L2CAP_RECEIVE evt_data; UINT32 left_over = 0; UINT16 max_len, read_len; APPL_TRACE_API( "%s", __func__); if (handle < BTA_JV_MAX_L2C_CONN && bta_jv_cb.l2c_cb[handle].p_cback) { status = BTA_JV_SUCCESS; evt_data.status = BTA_JV_FAILURE; evt_data.handle = handle; evt_data.req_id = req_id; evt_data.p_data = p_data; evt_data.len = 0; if (BT_PASS == GAP_ConnReadData((UINT16)handle, p_data, len, &evt_data.len)) { evt_data.status = BTA_JV_SUCCESS; GAP_GetRxQueueCnt ((UINT16)handle, &left_over); while (left_over) { max_len = (left_over > 0xFFFF) ? 0xFFFF : left_over; GAP_ConnReadData ((UINT16)handle, NULL, max_len, &read_len); left_over -= read_len; } } bta_jv_cb.l2c_cb[handle].p_cback( BTA_JV_L2CAP_RECEIVE_EVT, (tBTA_JV *)&evt_data, bta_jv_cb.l2c_cb[handle].user_data); } return (status); } /******************************************************************************* ** ** Function BTA_JvL2capReady ** ** Description This function determined if there is data to read from ** an L2CAP connection ** ** Returns BTA_JV_SUCCESS, if data queue size is in *p_data_size. ** BTA_JV_FAILURE, if error. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvL2capReady(UINT32 handle, UINT32 *p_data_size) { tBTA_JV_STATUS status = BTA_JV_FAILURE; APPL_TRACE_API( "%s: %d", __func__, handle); if (p_data_size && handle < BTA_JV_MAX_L2C_CONN && bta_jv_cb.l2c_cb[handle].p_cback) { *p_data_size = 0; if (BT_PASS == GAP_GetRxQueueCnt((UINT16)handle, p_data_size) ) { status = BTA_JV_SUCCESS; } } return (status); } /******************************************************************************* ** ** Function BTA_JvL2capWrite ** ** Description This function writes data to an L2CAP connection ** When the operation is complete, tBTA_JV_L2CAP_CBACK is ** called with BTA_JV_L2CAP_WRITE_EVT. Works for ** PSM-based connections ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvL2capWrite(UINT32 handle, UINT32 req_id, UINT8 *p_data, UINT16 len, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_L2CAP_WRITE *p_msg; APPL_TRACE_API( "%s", __func__); if (handle < BTA_JV_MAX_L2C_CONN && bta_jv_cb.l2c_cb[handle].p_cback && (p_msg = (tBTA_JV_API_L2CAP_WRITE *)osi_malloc(sizeof(tBTA_JV_API_L2CAP_WRITE))) != NULL) { p_msg->hdr.event = BTA_JV_API_L2CAP_WRITE_EVT; p_msg->handle = handle; p_msg->req_id = req_id; p_msg->p_data = p_data; p_msg->p_cb = &bta_jv_cb.l2c_cb[handle]; p_msg->len = len; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvL2capWriteFixed ** ** Description This function writes data to an L2CAP connection ** When the operation is complete, tBTA_JV_L2CAP_CBACK is ** called with BTA_JV_L2CAP_WRITE_EVT. Works for ** fixed-channel connections ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvL2capWriteFixed(UINT16 channel, BD_ADDR *addr, UINT32 req_id, tBTA_JV_L2CAP_CBACK *p_cback, UINT8 *p_data, UINT16 len, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_L2CAP_WRITE_FIXED *p_msg; APPL_TRACE_API( "%s", __func__); if ((p_msg = (tBTA_JV_API_L2CAP_WRITE_FIXED *)osi_malloc(sizeof(tBTA_JV_API_L2CAP_WRITE_FIXED))) != NULL) { p_msg->hdr.event = BTA_JV_API_L2CAP_WRITE_FIXED_EVT; p_msg->channel = channel; memcpy(p_msg->addr, addr, sizeof(p_msg->addr)); p_msg->req_id = req_id; p_msg->p_data = p_data; p_msg->p_cback = p_cback; p_msg->len = len; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } #endif /* BTA_JV_L2CAP_INCLUDED */ #if BTA_JV_RFCOMM_INCLUDED /******************************************************************************* ** ** Function BTA_JvRfcommConnect ** ** Description This function makes an RFCOMM conection to a remote BD ** Address. ** When the connection is initiated or failed to initiate, ** tBTA_JV_RFCOMM_CBACK is called with BTA_JV_RFCOMM_CL_INIT_EVT ** When the connection is established or failed, ** tBTA_JV_RFCOMM_CBACK is called with BTA_JV_RFCOMM_OPEN_EVT ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvRfcommConnect(tBTA_SEC sec_mask, tBTA_JV_ROLE role, UINT8 remote_scn, BD_ADDR peer_bd_addr, tBTA_JV_RFCOMM_CBACK *p_cback, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_RFCOMM_CONNECT *p_msg; APPL_TRACE_API( "BTA_JvRfcommConnect"); if (p_cback && (p_msg = (tBTA_JV_API_RFCOMM_CONNECT *)osi_malloc(sizeof(tBTA_JV_API_RFCOMM_CONNECT))) != NULL) { p_msg->hdr.event = BTA_JV_API_RFCOMM_CONNECT_EVT; p_msg->sec_mask = sec_mask; p_msg->role = role; p_msg->remote_scn = remote_scn; memcpy(p_msg->peer_bd_addr, peer_bd_addr, sizeof(BD_ADDR)); p_msg->p_cback = p_cback; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvRfcommClose ** ** Description This function closes an RFCOMM connection ** When the connection is established or failed, ** tBTA_JV_RFCOMM_CBACK is called with BTA_JV_RFCOMM_CLOSE_EVT ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvRfcommClose(UINT32 handle, tBTA_JV_RFCOMM_CBACK *p_cback, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_RFCOMM_CLOSE *p_msg; UINT32 hi = ((handle & BTA_JV_RFC_HDL_MASK) & ~BTA_JV_RFCOMM_MASK) - 1; UINT32 si = BTA_JV_RFC_HDL_TO_SIDX(handle); APPL_TRACE_API( "%s", __func__); if (hi < BTA_JV_MAX_RFC_CONN && bta_jv_cb.rfc_cb[hi].p_cback && si < BTA_JV_MAX_RFC_SR_SESSION && bta_jv_cb.rfc_cb[hi].rfc_hdl[si] && (p_msg = (tBTA_JV_API_RFCOMM_CLOSE *)osi_malloc(sizeof(tBTA_JV_API_RFCOMM_CLOSE))) != NULL) { p_msg->hdr.event = BTA_JV_API_RFCOMM_CLOSE_EVT; p_msg->handle = handle; p_msg->p_cb = &bta_jv_cb.rfc_cb[hi]; p_msg->p_pcb = &bta_jv_cb.port_cb[p_msg->p_cb->rfc_hdl[si] - 1]; p_msg->p_cback = p_cback; p_msg->user_data = user_data; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvRfcommStartServer ** ** Description This function starts listening for an RFCOMM connection ** request from a remote Bluetooth device. When the server is ** started successfully, tBTA_JV_RFCOMM_CBACK is called ** with BTA_JV_RFCOMM_START_EVT. ** When the connection is established, tBTA_JV_RFCOMM_CBACK ** is called with BTA_JV_RFCOMM_OPEN_EVT. ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvRfcommStartServer(tBTA_SEC sec_mask, tBTA_JV_ROLE role, UINT8 local_scn, UINT8 max_session, tBTA_JV_RFCOMM_CBACK *p_cback, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_RFCOMM_SERVER *p_msg; APPL_TRACE_API( "BTA_JvRfcommStartServer"); if (p_cback && (p_msg = (tBTA_JV_API_RFCOMM_SERVER *)osi_malloc(sizeof(tBTA_JV_API_RFCOMM_SERVER))) != NULL) { if (max_session == 0) { max_session = 1; } if (max_session > BTA_JV_MAX_RFC_SR_SESSION) { APPL_TRACE_DEBUG( "max_session (%d) is too big. use max (%d)", max_session, BTA_JV_MAX_RFC_SR_SESSION); max_session = BTA_JV_MAX_RFC_SR_SESSION; } p_msg->hdr.event = BTA_JV_API_RFCOMM_START_SERVER_EVT; p_msg->sec_mask = sec_mask; p_msg->role = role; p_msg->local_scn = local_scn; p_msg->max_session = max_session; p_msg->p_cback = p_cback; p_msg->user_data = user_data; //caller's private data bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvRfcommStopServer ** ** Description This function stops the RFCOMM server. If the server has an ** active connection, it would be closed. ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvRfcommStopServer(UINT32 handle, void *user_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_RFCOMM_SERVER *p_msg; APPL_TRACE_API( "BTA_JvRfcommStopServer"); if ((p_msg = (tBTA_JV_API_RFCOMM_SERVER *)osi_malloc(sizeof(tBTA_JV_API_RFCOMM_SERVER))) != NULL) { p_msg->hdr.event = BTA_JV_API_RFCOMM_STOP_SERVER_EVT; p_msg->handle = handle; p_msg->user_data = user_data; //caller's private data bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvRfcommRead ** ** Description This function reads data from an RFCOMM connection ** The actual size of data read is returned in p_len. ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvRfcommRead(UINT32 handle, UINT32 req_id, UINT8 *p_data, UINT16 len) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_RFCOMM_READ *p_msg; UINT32 hi = ((handle & BTA_JV_RFC_HDL_MASK) & ~BTA_JV_RFCOMM_MASK) - 1; UINT32 si = BTA_JV_RFC_HDL_TO_SIDX(handle); APPL_TRACE_API( "BTA_JvRfcommRead"); if (hi < BTA_JV_MAX_RFC_CONN && bta_jv_cb.rfc_cb[hi].p_cback && si < BTA_JV_MAX_RFC_SR_SESSION && bta_jv_cb.rfc_cb[hi].rfc_hdl[si] && (p_msg = (tBTA_JV_API_RFCOMM_READ *)osi_malloc(sizeof(tBTA_JV_API_RFCOMM_READ))) != NULL) { p_msg->hdr.event = BTA_JV_API_RFCOMM_READ_EVT; p_msg->handle = handle; p_msg->req_id = req_id; p_msg->p_data = p_data; p_msg->len = len; p_msg->p_cb = &bta_jv_cb.rfc_cb[hi]; p_msg->p_pcb = &bta_jv_cb.port_cb[p_msg->p_cb->rfc_hdl[si] - 1]; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvRfcommGetPortHdl ** ** Description This function fetches the rfcomm port handle ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ UINT16 BTA_JvRfcommGetPortHdl(UINT32 handle) { UINT32 hi = ((handle & BTA_JV_RFC_HDL_MASK) & ~BTA_JV_RFCOMM_MASK) - 1; UINT32 si = BTA_JV_RFC_HDL_TO_SIDX(handle); if (hi < BTA_JV_MAX_RFC_CONN && si < BTA_JV_MAX_RFC_SR_SESSION && bta_jv_cb.rfc_cb[hi].rfc_hdl[si]) { return bta_jv_cb.port_cb[bta_jv_cb.rfc_cb[hi].rfc_hdl[si] - 1].port_handle; } else { return 0xffff; } } /******************************************************************************* ** ** Function BTA_JvRfcommReady ** ** Description This function determined if there is data to read from ** an RFCOMM connection ** ** Returns BTA_JV_SUCCESS, if data queue size is in *p_data_size. ** BTA_JV_FAILURE, if error. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvRfcommReady(UINT32 handle, UINT32 *p_data_size) { tBTA_JV_STATUS status = BTA_JV_FAILURE; UINT16 size = 0; UINT32 hi = ((handle & BTA_JV_RFC_HDL_MASK) & ~BTA_JV_RFCOMM_MASK) - 1; UINT32 si = BTA_JV_RFC_HDL_TO_SIDX(handle); APPL_TRACE_API( "BTA_JvRfcommReady"); if (hi < BTA_JV_MAX_RFC_CONN && bta_jv_cb.rfc_cb[hi].p_cback && si < BTA_JV_MAX_RFC_SR_SESSION && bta_jv_cb.rfc_cb[hi].rfc_hdl[si]) { if (PORT_GetRxQueueCnt(bta_jv_cb.rfc_cb[hi].rfc_hdl[si], &size) == PORT_SUCCESS) { status = BTA_JV_SUCCESS; } } *p_data_size = size; return (status); } /******************************************************************************* ** ** Function BTA_JvRfcommWrite ** ** Description This function writes data to an RFCOMM connection ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvRfcommWrite(UINT32 handle, UINT32 req_id, int len, UINT8 *p_data) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_RFCOMM_WRITE *p_msg; UINT32 hi = ((handle & BTA_JV_RFC_HDL_MASK) & ~BTA_JV_RFCOMM_MASK) - 1; UINT32 si = BTA_JV_RFC_HDL_TO_SIDX(handle); APPL_TRACE_API( "BTA_JvRfcommWrite"); APPL_TRACE_DEBUG( "handle:0x%x, hi:%d, si:%d", handle, hi, si); if (hi < BTA_JV_MAX_RFC_CONN && bta_jv_cb.rfc_cb[hi].p_cback && si < BTA_JV_MAX_RFC_SR_SESSION && bta_jv_cb.rfc_cb[hi].rfc_hdl[si] && (p_msg = (tBTA_JV_API_RFCOMM_WRITE *)osi_malloc(sizeof(tBTA_JV_API_RFCOMM_WRITE))) != NULL) { p_msg->hdr.event = BTA_JV_API_RFCOMM_WRITE_EVT; p_msg->handle = handle; p_msg->req_id = req_id; p_msg->p_cb = &bta_jv_cb.rfc_cb[hi]; p_msg->p_pcb = &bta_jv_cb.port_cb[p_msg->p_cb->rfc_hdl[si] - 1]; p_msg->p_data = p_data; p_msg->len = len; APPL_TRACE_API( "write ok"); bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } /******************************************************************************* ** ** Function BTA_JvRfcommFlowControl ** ** Description This function gives credits to the peer ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvRfcommFlowControl(UINT32 handle, UINT16 credits_given) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_RFCOMM_FLOW_CONTROL *p_msg; UINT32 hi = ((handle & BTA_JV_RFC_HDL_MASK) & ~BTA_JV_RFCOMM_MASK) - 1; UINT32 si = BTA_JV_RFC_HDL_TO_SIDX(handle); APPL_TRACE_API( "BTA_JvRfcommFlowControl"); APPL_TRACE_DEBUG( "handle:0x%x, hi:%d, si:%d", handle, hi, si); if (hi < BTA_JV_MAX_RFC_CONN && bta_jv_cb.rfc_cb[hi].p_cback && si < BTA_JV_MAX_RFC_SR_SESSION && bta_jv_cb.rfc_cb[hi].rfc_hdl[si] && (p_msg = (tBTA_JV_API_RFCOMM_FLOW_CONTROL *)osi_malloc(sizeof(tBTA_JV_API_RFCOMM_FLOW_CONTROL))) != NULL) { p_msg->hdr.event = BTA_JV_API_RFCOMM_FLOW_CONTROL_EVT; p_msg->p_cb = &bta_jv_cb.rfc_cb[hi]; p_msg->p_pcb = &bta_jv_cb.port_cb[p_msg->p_cb->rfc_hdl[si] - 1]; p_msg->credits_given = credits_given; APPL_TRACE_API( "credits given %d", credits_given); bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } #endif /* BTA_JV_RFCOMM_INCLUDED */ /******************************************************************************* ** ** Function BTA_JVSetPmProfile ** ** Description This function set or free power mode profile for different JV application ** ** Parameters: handle, JV handle from RFCOMM or L2CAP ** app_id: app specific pm ID, can be BTA_JV_PM_ALL, see bta_dm_cfg.c for details ** BTA_JV_PM_ID_CLEAR: removes pm management on the handle. init_st is ignored and ** BTA_JV_CONN_CLOSE is called implicitely ** init_st: state after calling this API. typically it should be BTA_JV_CONN_OPEN ** ** Returns BTA_JV_SUCCESS, if the request is being processed. ** BTA_JV_FAILURE, otherwise. ** ** NOTE: BTA_JV_PM_ID_CLEAR: In general no need to be called as jv pm calls automatically ** BTA_JV_CONN_CLOSE to remove in case of connection close! ** *******************************************************************************/ tBTA_JV_STATUS BTA_JvSetPmProfile(UINT32 handle, tBTA_JV_PM_ID app_id, tBTA_JV_CONN_STATE init_st) { tBTA_JV_STATUS status = BTA_JV_FAILURE; tBTA_JV_API_SET_PM_PROFILE *p_msg; APPL_TRACE_API("BTA_JVSetPmProfile handle:0x%x, app_id:%d", handle, app_id); if ((p_msg = (tBTA_JV_API_SET_PM_PROFILE *)osi_malloc(sizeof(tBTA_JV_API_SET_PM_PROFILE))) != NULL) { p_msg->hdr.event = BTA_JV_API_SET_PM_PROFILE_EVT; p_msg->handle = handle; p_msg->app_id = app_id; p_msg->init_st = init_st; bta_sys_sendmsg(p_msg); status = BTA_JV_SUCCESS; } return (status); } #endif ///defined BTA_JV_INCLUDED && BTA_JV_INCLUDED == TRUE