/****************************************************************************** * * Copyright 2000-2012 Broadcom Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ /****************************************************************************** * * This file contains functions that handle SCO connections. This includes * operations such as connect, disconnect, change supported packet types. * ******************************************************************************/ #include #include #include #include "device/include/controller.h" #include "device/include/esco_parameters.h" #include "osi/include/log.h" #include "osi/include/osi.h" #include "stack/btm/btm_sec.h" #include "stack/btm/security_device_record.h" #include "stack/include/acl_api.h" #include "stack/include/btm_api.h" #include "stack/include/btm_api_types.h" #include "stack/include/hci_error_code.h" #include "stack/include/hcimsgs.h" #include "types/class_of_device.h" #include "types/raw_address.h" extern tBTM_CB btm_cb; namespace { constexpr char kBtmLogTag[] = "SCO"; const bluetooth::legacy::hci::Interface& GetLegacyHciInterface() { return bluetooth::legacy::hci::GetInterface(); } }; // namespace /******************************************************************************/ /* L O C A L D A T A D E F I N I T I O N S */ /******************************************************************************/ #define BTM_SCO_PKT_TYPE_MASK \ (HCI_PKT_TYPES_MASK_HV1 | HCI_PKT_TYPES_MASK_HV2 | HCI_PKT_TYPES_MASK_HV3) /* MACROs to convert from SCO packet types mask to ESCO and back */ #define BTM_SCO_PKT_TYPE_MASK \ (HCI_PKT_TYPES_MASK_HV1 | HCI_PKT_TYPES_MASK_HV2 | HCI_PKT_TYPES_MASK_HV3) /* Mask defining only the SCO types of an esco packet type */ #define BTM_ESCO_PKT_TYPE_MASK \ (ESCO_PKT_TYPES_MASK_HV1 | ESCO_PKT_TYPES_MASK_HV2 | ESCO_PKT_TYPES_MASK_HV3) #define BTM_ESCO_2_SCO(escotype) \ ((uint16_t)(((escotype)&BTM_ESCO_PKT_TYPE_MASK) << 5)) /* Define masks for supported and exception 2.0 SCO packet types */ #define BTM_SCO_SUPPORTED_PKTS_MASK \ (ESCO_PKT_TYPES_MASK_HV1 | ESCO_PKT_TYPES_MASK_HV2 | \ ESCO_PKT_TYPES_MASK_HV3 | ESCO_PKT_TYPES_MASK_EV3 | \ ESCO_PKT_TYPES_MASK_EV4 | ESCO_PKT_TYPES_MASK_EV5) #define BTM_SCO_EXCEPTION_PKTS_MASK \ (ESCO_PKT_TYPES_MASK_NO_2_EV3 | ESCO_PKT_TYPES_MASK_NO_3_EV3 | \ ESCO_PKT_TYPES_MASK_NO_2_EV5 | ESCO_PKT_TYPES_MASK_NO_3_EV5) /******************************************************************************/ /* L O C A L F U N C T I O N P R O T O T Y P E S */ /******************************************************************************/ static uint16_t btm_sco_voice_settings_to_legacy(enh_esco_params_t* p_parms); /******************************************************************************* * * Function btm_sco_flush_sco_data * * Description This function is called to flush the SCO data for this * channel. * * Returns void * ******************************************************************************/ static void btm_sco_flush_sco_data(UNUSED_ATTR uint16_t sco_inx) {} /******************************************************************************* * * Function btm_esco_conn_rsp * * Description This function is called upon receipt of an (e)SCO connection * request event (BTM_ESCO_CONN_REQ_EVT) to accept or reject * the request. Parameters used to negotiate eSCO links. * If p_parms is NULL, then default values are used. * If the link type of the incoming request is SCO, then only * the tx_bw, max_latency, content format, and packet_types are * valid. The hci_status parameter should be * ([0x0] to accept, [0x0d..0x0f] to reject) * * Returns void * ******************************************************************************/ static void btm_esco_conn_rsp(uint16_t sco_inx, uint8_t hci_status, const RawAddress& bda, enh_esco_params_t* p_parms) { tSCO_CONN* p_sco = NULL; if (BTM_MAX_SCO_LINKS == 0) return; if (sco_inx < BTM_MAX_SCO_LINKS) p_sco = &btm_cb.sco_cb.sco_db[sco_inx]; /* Reject the connect request if refused by caller or wrong state */ if (hci_status != HCI_SUCCESS || p_sco == NULL) { if (p_sco) { p_sco->state = (p_sco->state == SCO_ST_W4_CONN_RSP) ? SCO_ST_LISTENING : SCO_ST_UNUSED; } if (!btm_cb.sco_cb.esco_supported) { btsnd_hcic_reject_conn(bda, hci_status); } else { btsnd_hcic_reject_esco_conn(bda, hci_status); } } else { /* Connection is being accepted */ p_sco->state = SCO_ST_CONNECTING; enh_esco_params_t* p_setup = &p_sco->esco.setup; /* If parameters not specified use the default */ if (p_parms) { *p_setup = *p_parms; } else { /* Use the last setup passed thru BTM_SetEscoMode (or defaults) */ *p_setup = btm_cb.sco_cb.def_esco_parms; } /* Use Enhanced Synchronous commands if supported */ if (controller_get_interface() ->supports_enhanced_setup_synchronous_connection()) { /* Use the saved SCO routing */ p_setup->input_data_path = p_setup->output_data_path = btm_cb.sco_cb.sco_route; BTM_TRACE_DEBUG( "%s: txbw 0x%x, rxbw 0x%x, lat 0x%x, retrans 0x%02x, " "pkt 0x%04x, path %u", __func__, p_setup->transmit_bandwidth, p_setup->receive_bandwidth, p_setup->max_latency_ms, p_setup->retransmission_effort, p_setup->packet_types, p_setup->input_data_path); btsnd_hcic_enhanced_accept_synchronous_connection(bda, p_setup); } else { /* Use legacy command if enhanced SCO setup is not supported */ uint16_t voice_content_format = btm_sco_voice_settings_to_legacy(p_setup); btsnd_hcic_accept_esco_conn( bda, p_setup->transmit_bandwidth, p_setup->receive_bandwidth, p_setup->max_latency_ms, voice_content_format, p_setup->retransmission_effort, p_setup->packet_types); } } } /******************************************************************************* * * Function btm_route_sco_data * * Description Route received SCO data. * * Returns void * ******************************************************************************/ void btm_route_sco_data(BT_HDR* p_msg) { osi_free(p_msg); } /******************************************************************************* * * Function btm_send_connect_request * * Description This function is called to respond to SCO connect * indications * * Returns void * ******************************************************************************/ static tBTM_STATUS btm_send_connect_request(uint16_t acl_handle, enh_esco_params_t* p_setup) { /* Send connect request depending on version of spec */ if (!btm_cb.sco_cb.esco_supported) { LOG(INFO) << __func__ << ": sending non-eSCO request for handle=" << unsigned(acl_handle); btsnd_hcic_add_SCO_conn(acl_handle, BTM_ESCO_2_SCO(p_setup->packet_types)); } else { uint16_t temp_packet_types = (p_setup->packet_types & static_cast(BTM_SCO_SUPPORTED_PKTS_MASK) & btm_cb.btm_sco_pkt_types_supported); /* OR in any exception packet types */ temp_packet_types |= ((p_setup->packet_types & BTM_SCO_EXCEPTION_PKTS_MASK) | (btm_cb.btm_sco_pkt_types_supported & BTM_SCO_EXCEPTION_PKTS_MASK)); /* Finally, remove EDR eSCO if the remote device doesn't support it */ /* UPF25: Only SCO was brought up in this case */ const RawAddress bd_addr = acl_address_from_handle(acl_handle); if (bd_addr != RawAddress::kEmpty) { if (!sco_peer_supports_esco_2m_phy(bd_addr)) { BTM_TRACE_DEBUG("BTM Remote does not support 2-EDR eSCO"); temp_packet_types |= (ESCO_PKT_TYPES_MASK_NO_2_EV3 | ESCO_PKT_TYPES_MASK_NO_2_EV5); } if (!sco_peer_supports_esco_3m_phy(bd_addr)) { BTM_TRACE_DEBUG("BTM Remote does not support 3-EDR eSCO"); temp_packet_types |= (ESCO_PKT_TYPES_MASK_NO_3_EV3 | ESCO_PKT_TYPES_MASK_NO_3_EV5); } /* Check to see if BR/EDR Secure Connections is being used ** If so, we cannot use SCO-only packet types (HFP 1.7) */ const bool local_supports_sc = controller_get_interface()->supports_secure_connections(); const bool remote_supports_sc = BTM_PeerSupportsSecureConnections(bd_addr); if (local_supports_sc && remote_supports_sc) { temp_packet_types &= ~(BTM_SCO_PKT_TYPE_MASK); if (temp_packet_types == 0) { LOG_ERROR( "SCO connection cannot support any packet types for " "acl_handle:0x%04x", acl_handle); return BTM_WRONG_MODE; } LOG_DEBUG( "Both local and remote controllers support SCO secure connections " "handle:0x%04x pkt_types:0x%04x", acl_handle, temp_packet_types); } else if (!local_supports_sc && !remote_supports_sc) { LOG_DEBUG( "Both local and remote controllers do not support secure " "connections for handle:0x%04x", acl_handle); } else if (remote_supports_sc) { LOG_DEBUG( "Only remote controller supports secure connections for " "handle:0x%04x", acl_handle); } else { LOG_DEBUG( "Only local controller supports secure connections for " "handle:0x%04x", acl_handle); } } else { LOG_ERROR("Received SCO connect from unknown peer:%s", PRIVATE_ADDRESS(bd_addr)); } /* Save the previous types in case command fails */ uint16_t saved_packet_types = p_setup->packet_types; p_setup->packet_types = temp_packet_types; /* Use Enhanced Synchronous commands if supported */ if (controller_get_interface() ->supports_enhanced_setup_synchronous_connection()) { LOG_INFO("Sending enhanced SCO connect request over handle:0x%04x", acl_handle); /* Use the saved SCO routing */ p_setup->input_data_path = p_setup->output_data_path = btm_cb.sco_cb.sco_route; LOG(INFO) << __func__ << std::hex << ": enhanced parameter list" << " txbw=0x" << unsigned(p_setup->transmit_bandwidth) << ", rxbw=0x" << unsigned(p_setup->receive_bandwidth) << ", latency_ms=0x" << unsigned(p_setup->max_latency_ms) << ", retransmit_effort=0x" << unsigned(p_setup->retransmission_effort) << ", pkt_type=0x" << unsigned(p_setup->packet_types) << ", path=0x" << unsigned(p_setup->input_data_path); btsnd_hcic_enhanced_set_up_synchronous_connection(acl_handle, p_setup); p_setup->packet_types = saved_packet_types; } else { /* Use older command */ LOG_INFO("Sending eSCO connect request over handle:0x%04x", acl_handle); uint16_t voice_content_format = btm_sco_voice_settings_to_legacy(p_setup); LOG(INFO) << __func__ << std::hex << ": legacy parameter list" << " txbw=0x" << unsigned(p_setup->transmit_bandwidth) << ", rxbw=0x" << unsigned(p_setup->receive_bandwidth) << ", latency_ms=0x" << unsigned(p_setup->max_latency_ms) << ", retransmit_effort=0x" << unsigned(p_setup->retransmission_effort) << ", voice_content_format=0x" << unsigned(voice_content_format) << ", pkt_type=0x" << unsigned(p_setup->packet_types); btsnd_hcic_setup_esco_conn( acl_handle, p_setup->transmit_bandwidth, p_setup->receive_bandwidth, p_setup->max_latency_ms, voice_content_format, p_setup->retransmission_effort, p_setup->packet_types); } } return (BTM_CMD_STARTED); } /******************************************************************************* * * Function BTM_CreateSco * * Description This function is called to create an SCO connection. If the * "is_orig" flag is true, the connection will be originated, * otherwise BTM will wait for the other side to connect. * * NOTE: If BTM_IGNORE_SCO_PKT_TYPE is passed in the pkt_types * parameter the default packet types is used. * * Returns BTM_UNKNOWN_ADDR if the ACL connection is not up * BTM_BUSY if another SCO being set up to * the same BD address * BTM_NO_RESOURCES if the max SCO limit has been reached * BTM_CMD_STARTED if the connection establishment is started. * In this case, "*p_sco_inx" is filled in * with the sco index used for the connection. * ******************************************************************************/ tBTM_STATUS BTM_CreateSco(const RawAddress* remote_bda, bool is_orig, uint16_t pkt_types, uint16_t* p_sco_inx, tBTM_SCO_CB* p_conn_cb, tBTM_SCO_CB* p_disc_cb) { enh_esco_params_t* p_setup; tSCO_CONN* p = &btm_cb.sco_cb.sco_db[0]; uint16_t xx; uint16_t acl_handle = HCI_INVALID_HANDLE; *p_sco_inx = BTM_INVALID_SCO_INDEX; if (BTM_MAX_SCO_LINKS == 0) { return BTM_NO_RESOURCES; } /* If originating, ensure that there is an ACL connection to the BD Address */ if (is_orig) { if (!remote_bda) { LOG(ERROR) << __func__ << ": remote_bda is null"; return BTM_ILLEGAL_VALUE; } acl_handle = BTM_GetHCIConnHandle(*remote_bda, BT_TRANSPORT_BR_EDR); if (acl_handle == HCI_INVALID_HANDLE) { LOG(ERROR) << __func__ << ": cannot find ACL handle for remote device " << remote_bda; return BTM_UNKNOWN_ADDR; } } if (remote_bda) { /* If any SCO is being established to the remote BD address, refuse this */ for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { if (((p->state == SCO_ST_CONNECTING) || (p->state == SCO_ST_LISTENING) || (p->state == SCO_ST_PEND_UNPARK)) && (p->esco.data.bd_addr == *remote_bda)) { LOG(ERROR) << __func__ << ": a sco connection is already going on for " << *remote_bda << ", at state " << unsigned(p->state); return BTM_BUSY; } } } else { /* Support only 1 wildcard BD address at a time */ for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { if ((p->state == SCO_ST_LISTENING) && (!p->rem_bd_known)) { LOG(ERROR) << __func__ << ": remote_bda is null and not known and we are still listening"; return BTM_BUSY; } } } /* Try to find an unused control block, and kick off the SCO establishment */ for (xx = 0, p = &btm_cb.sco_cb.sco_db[0]; xx < BTM_MAX_SCO_LINKS; xx++, p++) { if (p->state == SCO_ST_UNUSED) { if (remote_bda) { if (is_orig) { // can not create SCO link if in park mode tBTM_PM_STATE state; if (BTM_ReadPowerMode(*remote_bda, &state)) { if (state == BTM_PM_ST_SNIFF || state == BTM_PM_ST_PARK || state == BTM_PM_ST_PENDING) { LOG(INFO) << __func__ << ": " << *remote_bda << " in sniff, park or pending mode " << unsigned(state); if (!BTM_SetLinkPolicyActiveMode(*remote_bda)) { LOG_WARN("Unable to set link policy active"); } p->state = SCO_ST_PEND_UNPARK; } } else { LOG(ERROR) << __func__ << ": failed to read power mode for " << *remote_bda; } } p->esco.data.bd_addr = *remote_bda; p->rem_bd_known = true; } else p->rem_bd_known = false; p_setup = &p->esco.setup; *p_setup = btm_cb.sco_cb.def_esco_parms; /* Determine the packet types */ p_setup->packet_types = pkt_types & BTM_SCO_SUPPORTED_PKTS_MASK & btm_cb.btm_sco_pkt_types_supported; /* OR in any exception packet types */ if (controller_get_interface()->get_bt_version()->hci_version >= HCI_PROTO_VERSION_2_0) { p_setup->packet_types |= (pkt_types & BTM_SCO_EXCEPTION_PKTS_MASK) | (btm_cb.btm_sco_pkt_types_supported & BTM_SCO_EXCEPTION_PKTS_MASK); } p->p_conn_cb = p_conn_cb; p->p_disc_cb = p_disc_cb; p->hci_handle = HCI_INVALID_HANDLE; p->is_orig = is_orig; if (p->state != SCO_ST_PEND_UNPARK) { if (is_orig) { /* If role change is in progress, do not proceed with SCO setup * Wait till role change is complete */ if (!acl_is_switch_role_idle(*remote_bda, BT_TRANSPORT_BR_EDR)) { BTM_TRACE_API("Role Change is in progress for ACL handle 0x%04x", acl_handle); p->state = SCO_ST_PEND_ROLECHANGE; } } } if (p->state != SCO_ST_PEND_UNPARK && p->state != SCO_ST_PEND_ROLECHANGE) { if (is_orig) { LOG_DEBUG("Initiating (e)SCO link for ACL handle:0x%04x", acl_handle); if ((btm_send_connect_request(acl_handle, p_setup)) != BTM_CMD_STARTED) { LOG(ERROR) << __func__ << ": failed to send connect request for " << *remote_bda; return (BTM_NO_RESOURCES); } p->state = SCO_ST_CONNECTING; } else { LOG_DEBUG("Listening for (e)SCO on ACL handle:0x%04x", acl_handle); p->state = SCO_ST_LISTENING; } } *p_sco_inx = xx; LOG_DEBUG("SCO connection successfully requested"); if (p->state == SCO_ST_CONNECTING) { BTM_LogHistory( kBtmLogTag, *remote_bda, "Connecting", base::StringPrintf("local initiated acl:0x%04x", acl_handle)); } return BTM_CMD_STARTED; } } /* If here, all SCO blocks in use */ LOG(ERROR) << __func__ << ": all SCO control blocks are in use"; return BTM_NO_RESOURCES; } /******************************************************************************* * * Function btm_sco_chk_pend_unpark * * Description This function is called by BTIF when there is a mode change * event to see if there are SCO commands waiting for the * unpark. * * Returns void * ******************************************************************************/ void btm_sco_chk_pend_unpark(tHCI_STATUS hci_status, uint16_t hci_handle) { tSCO_CONN* p = &btm_cb.sco_cb.sco_db[0]; for (uint16_t xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { uint16_t acl_handle = BTM_GetHCIConnHandle(p->esco.data.bd_addr, BT_TRANSPORT_BR_EDR); if ((p->state == SCO_ST_PEND_UNPARK) && (acl_handle == hci_handle)) { LOG(INFO) << __func__ << ": " << p->esco.data.bd_addr << " unparked, sending connection request, acl_handle=" << unsigned(acl_handle) << ", hci_status=" << unsigned(hci_status); if (btm_send_connect_request(acl_handle, &p->esco.setup) == BTM_CMD_STARTED) { p->state = SCO_ST_CONNECTING; } else { LOG(ERROR) << __func__ << ": failed to send connection request for " << p->esco.data.bd_addr; } } } } /******************************************************************************* * * Function btm_sco_chk_pend_rolechange * * Description This function is called by BTIF when there is a role change * event to see if there are SCO commands waiting for the role * change. * * Returns void * ******************************************************************************/ void btm_sco_chk_pend_rolechange(uint16_t hci_handle) { uint16_t xx; uint16_t acl_handle; tSCO_CONN* p = &btm_cb.sco_cb.sco_db[0]; for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { if ((p->state == SCO_ST_PEND_ROLECHANGE) && ((acl_handle = BTM_GetHCIConnHandle( p->esco.data.bd_addr, BT_TRANSPORT_BR_EDR)) == hci_handle)) { BTM_TRACE_API( "btm_sco_chk_pend_rolechange -> (e)SCO Link for ACL handle 0x%04x", acl_handle); if ((btm_send_connect_request(acl_handle, &p->esco.setup)) == BTM_CMD_STARTED) p->state = SCO_ST_CONNECTING; } } } /******************************************************************************* * * Function btm_sco_disc_chk_pend_for_modechange * * Description This function is called by btm when there is a mode change * event to see if there are SCO disconnect commands waiting * for the mode change. * * Returns void * ******************************************************************************/ void btm_sco_disc_chk_pend_for_modechange(uint16_t hci_handle) { tSCO_CONN* p = &btm_cb.sco_cb.sco_db[0]; LOG_DEBUG( "Checking for SCO pending mode change events hci_handle:0x%04x " "p->state:%s", hci_handle, sco_state_text(p->state).c_str()); for (uint16_t xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { if ((p->state == SCO_ST_PEND_MODECHANGE) && (BTM_GetHCIConnHandle(p->esco.data.bd_addr, BT_TRANSPORT_BR_EDR)) == hci_handle) { LOG_DEBUG("Removing SCO Link handle 0x%04x", p->hci_handle); BTM_RemoveSco(xx); } } } /******************************************************************************* * * Function btm_sco_conn_req * * Description This function is called by BTU HCIF when an SCO connection * request is received from a remote. * * Returns void * ******************************************************************************/ void btm_sco_conn_req(const RawAddress& bda, const DEV_CLASS& dev_class, uint8_t link_type) { tSCO_CB* p_sco = &btm_cb.sco_cb; tSCO_CONN* p = &p_sco->sco_db[0]; tBTM_ESCO_CONN_REQ_EVT_DATA evt_data = {}; for (uint16_t sco_index = 0; sco_index < BTM_MAX_SCO_LINKS; sco_index++, p++) { /* * If the sco state is in the SCO_ST_CONNECTING state, we still need * to return accept sco to avoid race conditon for sco creation */ bool rem_bd_matches = p->rem_bd_known && p->esco.data.bd_addr == bda; if (((p->state == SCO_ST_CONNECTING) && rem_bd_matches) || ((p->state == SCO_ST_LISTENING) && (rem_bd_matches || !p->rem_bd_known))) { /* If this was a wildcard, it is not one any more */ p->rem_bd_known = true; p->esco.data.link_type = link_type; p->state = SCO_ST_W4_CONN_RSP; p->esco.data.bd_addr = bda; /* If no callback, auto-accept the connection if packet types match */ if (!p->esco.p_esco_cback) { /* If requesting eSCO reject if default parameters are SCO only */ if ((link_type == BTM_LINK_TYPE_ESCO && !(p_sco->def_esco_parms.packet_types & BTM_ESCO_LINK_ONLY_MASK) && ((p_sco->def_esco_parms.packet_types & BTM_SCO_EXCEPTION_PKTS_MASK) == BTM_SCO_EXCEPTION_PKTS_MASK)) /* Reject request if SCO is desired but no SCO packets delected */ || (link_type == BTM_LINK_TYPE_SCO && !(p_sco->def_esco_parms.packet_types & BTM_SCO_LINK_ONLY_MASK))) { btm_esco_conn_rsp(sco_index, HCI_ERR_HOST_REJECT_RESOURCES, bda, nullptr); } else { /* Accept the request */ btm_esco_conn_rsp(sco_index, HCI_SUCCESS, bda, nullptr); } } else { /* Notify upper layer of connect indication */ evt_data.bd_addr = bda; memcpy(evt_data.dev_class, dev_class, DEV_CLASS_LEN); evt_data.link_type = link_type; evt_data.sco_inx = sco_index; tBTM_ESCO_EVT_DATA btm_esco_evt_data = {}; btm_esco_evt_data.conn_evt = evt_data; p->esco.p_esco_cback(BTM_ESCO_CONN_REQ_EVT, &btm_esco_evt_data); } return; } } /* TCS usage */ if (btm_cb.sco_cb.app_sco_ind_cb) { /* Now, try to find an unused control block */ uint16_t sco_index; for (sco_index = 0, p = &btm_cb.sco_cb.sco_db[0]; sco_index < BTM_MAX_SCO_LINKS; sco_index++, p++) { if (p->state == SCO_ST_UNUSED) { p->is_orig = false; p->state = SCO_ST_LISTENING; p->esco.data.link_type = link_type; p->esco.data.bd_addr = bda; p->rem_bd_known = true; break; } } if (sco_index < BTM_MAX_SCO_LINKS) { btm_cb.sco_cb.app_sco_ind_cb(sco_index); return; } } /* If here, no one wants the SCO connection. Reject it */ BTM_TRACE_WARNING("%s: rejecting SCO for %s", __func__, bda.ToString().c_str()); btm_esco_conn_rsp(BTM_MAX_SCO_LINKS, HCI_ERR_HOST_REJECT_RESOURCES, bda, nullptr); } /******************************************************************************* * * Function btm_sco_connected * * Description This function is called by BTIF when an (e)SCO connection * is connected. * * Returns void * ******************************************************************************/ void btm_sco_connected(tHCI_STATUS hci_status, const RawAddress& bda, uint16_t hci_handle, tBTM_ESCO_DATA* p_esco_data) { tSCO_CONN* p = &btm_cb.sco_cb.sco_db[0]; uint16_t xx; bool spt = false; tBTM_CHG_ESCO_PARAMS parms = {}; for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { if (((p->state == SCO_ST_CONNECTING) || (p->state == SCO_ST_LISTENING) || (p->state == SCO_ST_W4_CONN_RSP)) && (p->rem_bd_known) && (p->esco.data.bd_addr == bda)) { if (hci_status != HCI_SUCCESS) { /* Report the error if originator, otherwise remain in Listen mode */ if (p->is_orig) { LOG_DEBUG("SCO initiating connection failed handle:0x%04x reason:%s", hci_handle, hci_error_code_text(hci_status).c_str()); switch (hci_status) { case HCI_ERR_ROLE_SWITCH_PENDING: /* If role switch is pending, we need try again after role switch * is complete */ p->state = SCO_ST_PEND_ROLECHANGE; break; case HCI_ERR_LMP_ERR_TRANS_COLLISION: /* Avoid calling disconnect callback because of sco creation race */ break; default: /* Notify client about SCO failure */ p->state = SCO_ST_UNUSED; (*p->p_disc_cb)(xx); } BTM_LogHistory( kBtmLogTag, bda, "Connection failed", base::StringPrintf( "locally_initiated reason:%s", hci_reason_code_text(static_cast(hci_status)) .c_str())); } else { LOG_DEBUG("SCO terminating connection failed handle:0x%04x reason:%s", hci_handle, hci_error_code_text(hci_status).c_str()); if (p->state == SCO_ST_CONNECTING) { p->state = SCO_ST_UNUSED; (*p->p_disc_cb)(xx); } else p->state = SCO_ST_LISTENING; BTM_LogHistory( kBtmLogTag, bda, "Connection failed", base::StringPrintf( "remote_initiated reason:%s", hci_reason_code_text(static_cast(hci_status)) .c_str())); } return; } BTM_LogHistory( kBtmLogTag, bda, "Connection created", base::StringPrintf("sco_idx:%hu handle:0x%04x ", xx, hci_handle)); if (p->state == SCO_ST_LISTENING) spt = true; p->state = SCO_ST_CONNECTED; p->hci_handle = hci_handle; if (hci_status == HCI_SUCCESS) { BTM_LogHistory(kBtmLogTag, bda, "Connection success", base::StringPrintf("handle:0x%04x %s", hci_handle, (spt) ? "listener" : "initiator")); } else { BTM_LogHistory( kBtmLogTag, bda, "Connection failed", base::StringPrintf( "reason:%s", hci_reason_code_text(static_cast(hci_status)) .c_str())); } if (!btm_cb.sco_cb.esco_supported) { p->esco.data.link_type = BTM_LINK_TYPE_SCO; if (spt) { parms.packet_types = p->esco.setup.packet_types; /* Keep the other parameters the same for SCO */ parms.max_latency_ms = p->esco.setup.max_latency_ms; parms.retransmission_effort = p->esco.setup.retransmission_effort; BTM_ChangeEScoLinkParms(xx, &parms); } } else { if (p_esco_data) p->esco.data = *p_esco_data; } (*p->p_conn_cb)(xx); return; } } } /******************************************************************************* * * Function BTM_RemoveSco * * Description This function is called to remove a specific SCO connection. * * Returns status of the operation * ******************************************************************************/ tBTM_STATUS BTM_RemoveSco(uint16_t sco_inx) { tSCO_CONN* p = &btm_cb.sco_cb.sco_db[sco_inx]; tBTM_PM_STATE state = BTM_PM_ST_INVALID; BTM_TRACE_DEBUG("%s", __func__); if (BTM_MAX_SCO_LINKS == 0) { return BTM_NO_RESOURCES; } /* Validity check */ if ((sco_inx >= BTM_MAX_SCO_LINKS) || (p->state == SCO_ST_UNUSED)) return (BTM_UNKNOWN_ADDR); /* If no HCI handle, simply drop the connection and return */ if (p->hci_handle == HCI_INVALID_HANDLE || p->state == SCO_ST_PEND_UNPARK) { p->hci_handle = HCI_INVALID_HANDLE; p->state = SCO_ST_UNUSED; p->esco.p_esco_cback = NULL; /* Deregister the eSCO event callback */ return (BTM_SUCCESS); } if (BTM_ReadPowerMode(p->esco.data.bd_addr, &state) && (state == BTM_PM_ST_PENDING)) { BTM_TRACE_DEBUG("%s: BTM_PM_ST_PENDING for ACL mapped with SCO Link 0x%04x", __func__, p->hci_handle); p->state = SCO_ST_PEND_MODECHANGE; return (BTM_CMD_STARTED); } tSCO_STATE old_state = p->state; p->state = SCO_ST_DISCONNECTING; GetLegacyHciInterface().Disconnect(p->Handle(), HCI_ERR_PEER_USER); LOG_DEBUG("Disconnecting link sco_handle:0x%04x peer:%s", p->Handle(), PRIVATE_ADDRESS(p->esco.data.bd_addr)); BTM_LogHistory( kBtmLogTag, p->esco.data.bd_addr, "Disconnecting", base::StringPrintf("local initiated handle:0x%04x previous_state:%s", p->Handle(), sco_state_text(old_state).c_str())); return (BTM_CMD_STARTED); } void BTM_RemoveSco(const RawAddress& bda) { tSCO_CONN* p = &btm_cb.sco_cb.sco_db[0]; uint16_t xx; for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { if (p->rem_bd_known && p->esco.data.bd_addr == bda) { BTM_RemoveSco(xx); } } } /******************************************************************************* * * Function btm_sco_removed * * Description This function is called by lower layers when an * disconnect is received. * * Returns true if the link is known about, else false * ******************************************************************************/ bool btm_sco_removed(uint16_t hci_handle, tHCI_REASON reason) { tSCO_CONN* p = &btm_cb.sco_cb.sco_db[0]; uint16_t xx; p = &btm_cb.sco_cb.sco_db[0]; for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { if ((p->state != SCO_ST_UNUSED) && (p->state != SCO_ST_LISTENING) && (p->hci_handle == hci_handle)) { btm_sco_flush_sco_data(xx); p->state = SCO_ST_UNUSED; p->hci_handle = HCI_INVALID_HANDLE; p->rem_bd_known = false; p->esco.p_esco_cback = NULL; /* Deregister eSCO callback */ (*p->p_disc_cb)(xx); LOG_DEBUG("Disconnected SCO link handle:%hu reason:%s", hci_handle, hci_reason_code_text(reason).c_str()); return true; } } return false; } void btm_sco_on_esco_connect_request( const RawAddress& bda, const bluetooth::types::ClassOfDevice& cod) { LOG_DEBUG("Remote ESCO connect request remote:%s cod:%s", PRIVATE_ADDRESS(bda), cod.ToString().c_str()); btm_sco_conn_req(bda, cod.cod, BTM_LINK_TYPE_ESCO); } void btm_sco_on_sco_connect_request( const RawAddress& bda, const bluetooth::types::ClassOfDevice& cod) { LOG_DEBUG("Remote SCO connect request remote:%s cod:%s", PRIVATE_ADDRESS(bda), cod.ToString().c_str()); btm_sco_conn_req(bda, cod.cod, BTM_LINK_TYPE_SCO); } void btm_sco_on_disconnected(uint16_t hci_handle, tHCI_REASON reason) { tSCO_CONN* p_sco = btm_cb.sco_cb.get_sco_connection_from_handle(hci_handle); if (p_sco == nullptr) { LOG_ERROR("Unable to find sco connection"); return; } if (!p_sco->is_active()) { LOG_ERROR("Connection is not active handle:0x%04x reason:%s", hci_handle, hci_reason_code_text(reason).c_str()); return; } if (p_sco->state == SCO_ST_LISTENING) { LOG_ERROR("Connection is in listening state handle:0x%04x reason:%s", hci_handle, hci_reason_code_text(reason).c_str()); return; } const RawAddress bd_addr(p_sco->esco.data.bd_addr); p_sco->state = SCO_ST_UNUSED; p_sco->hci_handle = HCI_INVALID_HANDLE; p_sco->rem_bd_known = false; p_sco->esco.p_esco_cback = NULL; /* Deregister eSCO callback */ (*p_sco->p_disc_cb)(btm_cb.sco_cb.get_index(p_sco)); LOG_DEBUG("Disconnected SCO link handle:%hu reason:%s", hci_handle, hci_reason_code_text(reason).c_str()); BTM_LogHistory(kBtmLogTag, bd_addr, "Disconnected", base::StringPrintf("handle:0x%04x reason:%s", hci_handle, hci_reason_code_text(reason).c_str())); } /******************************************************************************* * * Function btm_sco_acl_removed * * Description This function is called when an ACL connection is * removed. If the BD address is NULL, it is assumed that * the local device is down, and all SCO links are removed. * If a specific BD address is passed, only SCO connections * to that BD address are removed. * * Returns void * ******************************************************************************/ void btm_sco_acl_removed(const RawAddress* bda) { tSCO_CONN* p = &btm_cb.sco_cb.sco_db[0]; uint16_t xx; for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { if (p->state != SCO_ST_UNUSED) { if ((!bda) || (p->esco.data.bd_addr == *bda && p->rem_bd_known)) { btm_sco_flush_sco_data(xx); p->state = SCO_ST_UNUSED; p->esco.p_esco_cback = NULL; /* Deregister eSCO callback */ (*p->p_disc_cb)(xx); } } } } /******************************************************************************* * * Function BTM_ReadScoBdAddr * * Description This function is read the remote BD Address for a specific * SCO connection, * * Returns pointer to BD address or NULL if not known * ******************************************************************************/ const RawAddress* BTM_ReadScoBdAddr(uint16_t sco_inx) { tSCO_CONN* p = &btm_cb.sco_cb.sco_db[sco_inx]; /* Validity check */ if ((sco_inx < BTM_MAX_SCO_LINKS) && (p->rem_bd_known)) return &(p->esco.data.bd_addr); else return (NULL); } /******************************************************************************* * * Function BTM_SetEScoMode * * Description This function sets up the negotiated parameters for SCO or * eSCO, and sets as the default mode used for outgoing calls * to BTM_CreateSco. It does not change any currently active * (e)SCO links. * Note: Incoming (e)SCO connections will always use packet * types supported by the controller. If eSCO is not * desired the feature should be disabled in the * controller's feature mask. * * Returns BTM_SUCCESS if the successful. * BTM_BUSY if there are one or more active (e)SCO links. * ******************************************************************************/ tBTM_STATUS BTM_SetEScoMode(enh_esco_params_t* p_parms) { ASSERT_LOG(p_parms != nullptr, "eSCO parameters must have a value"); enh_esco_params_t* p_def = &btm_cb.sco_cb.def_esco_parms; if (btm_cb.sco_cb.esco_supported) { *p_def = *p_parms; LOG_DEBUG( "Setting eSCO mode parameters txbw:0x%08x rxbw:0x%08x max_lat:0x%04x" " pkt:0x%04x rtx_effort:0x%02x", p_def->transmit_bandwidth, p_def->receive_bandwidth, p_def->max_latency_ms, p_def->packet_types, p_def->retransmission_effort); } else { /* Load defaults for SCO only */ *p_def = esco_parameters_for_codec(SCO_CODEC_CVSD_D1); LOG_WARN("eSCO not supported so setting SCO parameters instead"); LOG_DEBUG( "Setting SCO mode parameters txbw:0x%08x rxbw:0x%08x max_lat:0x%04x" " pkt:0x%04x rtx_effort:0x%02x", p_def->transmit_bandwidth, p_def->receive_bandwidth, p_def->max_latency_ms, p_def->packet_types, p_def->retransmission_effort); } return BTM_SUCCESS; } /******************************************************************************* * * Function BTM_RegForEScoEvts * * Description This function registers a SCO event callback with the * specified instance. It should be used to received * connection indication events and change of link parameter * events. * * Returns BTM_SUCCESS if the successful. * BTM_ILLEGAL_VALUE if there is an illegal sco_inx * BTM_MODE_UNSUPPORTED if controller version is not BT1.2 or * later or does not support eSCO. * ******************************************************************************/ tBTM_STATUS BTM_RegForEScoEvts(uint16_t sco_inx, tBTM_ESCO_CBACK* p_esco_cback) { if (BTM_MAX_SCO_LINKS == 0) { return BTM_MODE_UNSUPPORTED; } if (!btm_cb.sco_cb.esco_supported) { btm_cb.sco_cb.sco_db[sco_inx].esco.p_esco_cback = NULL; return (BTM_MODE_UNSUPPORTED); } if (sco_inx < BTM_MAX_SCO_LINKS && btm_cb.sco_cb.sco_db[sco_inx].state != SCO_ST_UNUSED) { btm_cb.sco_cb.sco_db[sco_inx].esco.p_esco_cback = p_esco_cback; return (BTM_SUCCESS); } return (BTM_ILLEGAL_VALUE); } /******************************************************************************* * * Function BTM_ChangeEScoLinkParms * * Description This function requests renegotiation of the parameters on * the current eSCO Link. If any of the changes are accepted * by the controllers, the BTM_ESCO_CHG_EVT event is sent in * the tBTM_ESCO_CBACK function with the current settings of * the link. The callback is registered through the call to * BTM_SetEScoMode. * * Note: If called over a SCO link (including 1.1 controller), * a change packet type request is sent out instead. * * Returns BTM_CMD_STARTED if command is successfully initiated. * BTM_NO_RESOURCES - not enough resources to initiate command. * BTM_WRONG_MODE if no connection with a peer device or bad * sco_inx. * ******************************************************************************/ tBTM_STATUS BTM_ChangeEScoLinkParms(uint16_t sco_inx, tBTM_CHG_ESCO_PARAMS* p_parms) { if (BTM_MAX_SCO_LINKS == 0) { return BTM_WRONG_MODE; } /* Make sure sco handle is valid and on an active link */ if (sco_inx >= BTM_MAX_SCO_LINKS || btm_cb.sco_cb.sco_db[sco_inx].state != SCO_ST_CONNECTED) return (BTM_WRONG_MODE); tSCO_CONN* p_sco = &btm_cb.sco_cb.sco_db[sco_inx]; enh_esco_params_t* p_setup = &p_sco->esco.setup; /* Save the previous types in case command fails */ uint16_t saved_packet_types = p_setup->packet_types; /* If SCO connection OR eSCO not supported just send change packet types */ if (p_sco->esco.data.link_type == BTM_LINK_TYPE_SCO || !btm_cb.sco_cb.esco_supported) { p_setup->packet_types = p_parms->packet_types & (btm_cb.btm_sco_pkt_types_supported & BTM_SCO_LINK_ONLY_MASK); BTM_TRACE_API("%s: SCO Link for handle 0x%04x, pkt 0x%04x", __func__, p_sco->hci_handle, p_setup->packet_types); BTM_TRACE_API("%s: SCO Link for handle 0x%04x, pkt 0x%04x", __func__, p_sco->hci_handle, p_setup->packet_types); btsnd_hcic_change_conn_type(p_sco->hci_handle, BTM_ESCO_2_SCO(p_setup->packet_types)); } else /* eSCO is supported and the link type is eSCO */ { uint16_t temp_packet_types = (p_parms->packet_types & BTM_SCO_SUPPORTED_PKTS_MASK & btm_cb.btm_sco_pkt_types_supported); /* OR in any exception packet types */ temp_packet_types |= ((p_parms->packet_types & BTM_SCO_EXCEPTION_PKTS_MASK) | (btm_cb.btm_sco_pkt_types_supported & BTM_SCO_EXCEPTION_PKTS_MASK)); p_setup->packet_types = temp_packet_types; BTM_TRACE_API("%s -> eSCO Link for handle 0x%04x", __func__, p_sco->hci_handle); BTM_TRACE_API( " txbw 0x%x, rxbw 0x%x, lat 0x%x, retrans 0x%02x, pkt 0x%04x", p_setup->transmit_bandwidth, p_setup->receive_bandwidth, p_parms->max_latency_ms, p_parms->retransmission_effort, temp_packet_types); /* Use Enhanced Synchronous commands if supported */ if (controller_get_interface() ->supports_enhanced_setup_synchronous_connection()) { /* Use the saved SCO routing */ p_setup->input_data_path = p_setup->output_data_path = btm_cb.sco_cb.sco_route; btsnd_hcic_enhanced_set_up_synchronous_connection(p_sco->hci_handle, p_setup); p_setup->packet_types = saved_packet_types; } else { /* Use older command */ uint16_t voice_content_format = btm_sco_voice_settings_to_legacy(p_setup); /* When changing an existing link, only change latency, retrans, and * pkts */ btsnd_hcic_setup_esco_conn(p_sco->hci_handle, p_setup->transmit_bandwidth, p_setup->receive_bandwidth, p_parms->max_latency_ms, voice_content_format, p_parms->retransmission_effort, p_setup->packet_types); } BTM_TRACE_API( "%s: txbw 0x%x, rxbw 0x%x, lat 0x%x, retrans 0x%02x, pkt 0x%04x", __func__, p_setup->transmit_bandwidth, p_setup->receive_bandwidth, p_parms->max_latency_ms, p_parms->retransmission_effort, temp_packet_types); } return (BTM_CMD_STARTED); } /******************************************************************************* * * Function BTM_EScoConnRsp * * Description This function is called upon receipt of an (e)SCO connection * request event (BTM_ESCO_CONN_REQ_EVT) to accept or reject * the request. Parameters used to negotiate eSCO links. * If p_parms is NULL, then values set through BTM_SetEScoMode * are used. * If the link type of the incoming request is SCO, then only * the tx_bw, max_latency, content format, and packet_types are * valid. The hci_status parameter should be * ([0x0] to accept, [0x0d..0x0f] to reject) * * * Returns void * ******************************************************************************/ void BTM_EScoConnRsp(uint16_t sco_inx, uint8_t hci_status, enh_esco_params_t* p_parms) { if (sco_inx < BTM_MAX_SCO_LINKS && btm_cb.sco_cb.sco_db[sco_inx].state == SCO_ST_W4_CONN_RSP) { btm_esco_conn_rsp(sco_inx, hci_status, btm_cb.sco_cb.sco_db[sco_inx].esco.data.bd_addr, p_parms); } } /******************************************************************************* * * Function btm_esco_proc_conn_chg * * Description This function is called by BTIF when an SCO connection * is changed. * * Returns void * ******************************************************************************/ void btm_esco_proc_conn_chg(uint8_t status, uint16_t handle, uint8_t tx_interval, uint8_t retrans_window, uint16_t rx_pkt_len, uint16_t tx_pkt_len) { tSCO_CONN* p = &btm_cb.sco_cb.sco_db[0]; tBTM_CHG_ESCO_EVT_DATA data; uint16_t xx; BTM_TRACE_EVENT("btm_esco_proc_conn_chg -> handle 0x%04x, status 0x%02x", handle, status); for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { if (p->state == SCO_ST_CONNECTED && handle == p->hci_handle) { /* If upper layer wants notification */ if (p->esco.p_esco_cback) { data.bd_addr = p->esco.data.bd_addr; data.hci_status = status; data.sco_inx = xx; data.rx_pkt_len = p->esco.data.rx_pkt_len = rx_pkt_len; data.tx_pkt_len = p->esco.data.tx_pkt_len = tx_pkt_len; data.tx_interval = p->esco.data.tx_interval = tx_interval; data.retrans_window = p->esco.data.retrans_window = retrans_window; tBTM_ESCO_EVT_DATA btm_esco_evt_data; btm_esco_evt_data.chg_evt = data; (*p->esco.p_esco_cback)(BTM_ESCO_CHG_EVT, &btm_esco_evt_data); } return; } } } /******************************************************************************* * * Function btm_is_sco_active * * Description This function is called to see if a SCO handle is already in * use. * * Returns bool * ******************************************************************************/ bool btm_is_sco_active(uint16_t handle) { uint16_t xx; tSCO_CONN* p = &btm_cb.sco_cb.sco_db[0]; for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { if (handle == p->hci_handle && p->state == SCO_ST_CONNECTED) return (true); } return (false); } /******************************************************************************* * * Function BTM_GetNumScoLinks * * Description This function returns the number of active sco links. * * Returns uint8_t * ******************************************************************************/ uint8_t BTM_GetNumScoLinks(void) { tSCO_CONN* p = &btm_cb.sco_cb.sco_db[0]; uint16_t xx; uint8_t num_scos = 0; for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { switch (p->state) { case SCO_ST_W4_CONN_RSP: case SCO_ST_CONNECTING: case SCO_ST_CONNECTED: case SCO_ST_DISCONNECTING: case SCO_ST_PEND_UNPARK: num_scos++; break; default: break; } } return (num_scos); } /******************************************************************************* * * Function BTM_IsScoActiveByBdaddr * * Description This function is called to see if a SCO connection is active * for a bd address. * * Returns bool * ******************************************************************************/ bool BTM_IsScoActiveByBdaddr(const RawAddress& remote_bda) { uint8_t xx; tSCO_CONN* p = &btm_cb.sco_cb.sco_db[0]; /* If any SCO is being established to the remote BD address, refuse this */ for (xx = 0; xx < BTM_MAX_SCO_LINKS; xx++, p++) { if (p->esco.data.bd_addr == remote_bda && p->state == SCO_ST_CONNECTED) { return (true); } } return (false); } /******************************************************************************* * * Function btm_sco_voice_settings_2_legacy * * Description This function is called to convert the Enhanced eSCO * parameters into voice setting parameter mask used * for legacy setup synchronous connection HCI commands * * Returns UINT16 - 16-bit mask for voice settings * * HCI_INP_CODING_LINEAR 0x0000 (0000000000) * HCI_INP_CODING_U_LAW 0x0100 (0100000000) * HCI_INP_CODING_A_LAW 0x0200 (1000000000) * HCI_INP_CODING_MASK 0x0300 (1100000000) * * HCI_INP_DATA_FMT_1S_COMPLEMENT 0x0000 (0000000000) * HCI_INP_DATA_FMT_2S_COMPLEMENT 0x0040 (0001000000) * HCI_INP_DATA_FMT_SIGN_MAGNITUDE 0x0080 (0010000000) * HCI_INP_DATA_FMT_UNSIGNED 0x00c0 (0011000000) * HCI_INP_DATA_FMT_MASK 0x00c0 (0011000000) * * HCI_INP_SAMPLE_SIZE_8BIT 0x0000 (0000000000) * HCI_INP_SAMPLE_SIZE_16BIT 0x0020 (0000100000) * HCI_INP_SAMPLE_SIZE_MASK 0x0020 (0000100000) * * HCI_INP_LINEAR_PCM_BIT_POS_MASK 0x001c (0000011100) * HCI_INP_LINEAR_PCM_BIT_POS_OFFS 2 * * HCI_AIR_CODING_FORMAT_CVSD 0x0000 (0000000000) * HCI_AIR_CODING_FORMAT_U_LAW 0x0001 (0000000001) * HCI_AIR_CODING_FORMAT_A_LAW 0x0002 (0000000010) * HCI_AIR_CODING_FORMAT_TRANSPNT 0x0003 (0000000011) * HCI_AIR_CODING_FORMAT_MASK 0x0003 (0000000011) * * default (0001100000) * HCI_DEFAULT_VOICE_SETTINGS (HCI_INP_CODING_LINEAR \ * | HCI_INP_DATA_FMT_2S_COMPLEMENT \ * | HCI_INP_SAMPLE_SIZE_16BIT \ * | HCI_AIR_CODING_FORMAT_CVSD) * ******************************************************************************/ static uint16_t btm_sco_voice_settings_to_legacy(enh_esco_params_t* p_params) { uint16_t voice_settings = 0; /* Convert Input Coding Format: If no uLaw or aLAW then Linear will be used * (0) */ if (p_params->input_coding_format.coding_format == ESCO_CODING_FORMAT_ULAW) voice_settings |= HCI_INP_CODING_U_LAW; else if (p_params->input_coding_format.coding_format == ESCO_CODING_FORMAT_ALAW) voice_settings |= HCI_INP_CODING_A_LAW; /* else default value of '0 is good 'Linear' */ /* Convert Input Data Format. Use 2's Compliment as the default */ switch (p_params->input_pcm_data_format) { case ESCO_PCM_DATA_FORMAT_1_COMP: /* voice_settings |= HCI_INP_DATA_FMT_1S_COMPLEMENT; value is '0' * already */ break; case ESCO_PCM_DATA_FORMAT_SIGN: voice_settings |= HCI_INP_DATA_FMT_SIGN_MAGNITUDE; break; case ESCO_PCM_DATA_FORMAT_UNSIGN: voice_settings |= HCI_INP_DATA_FMT_UNSIGNED; break; default: /* 2's Compliment */ voice_settings |= HCI_INP_DATA_FMT_2S_COMPLEMENT; break; } /* Convert Over the Air Coding. Use CVSD as the default */ switch (p_params->transmit_coding_format.coding_format) { case ESCO_CODING_FORMAT_ULAW: voice_settings |= HCI_AIR_CODING_FORMAT_U_LAW; break; case ESCO_CODING_FORMAT_ALAW: voice_settings |= HCI_AIR_CODING_FORMAT_A_LAW; break; case ESCO_CODING_FORMAT_MSBC: voice_settings |= HCI_AIR_CODING_FORMAT_TRANSPNT; break; default: /* CVSD (0) */ break; } /* Convert PCM payload MSB position (0000011100) */ voice_settings |= (uint16_t)(((p_params->input_pcm_payload_msb_position & 0x7) << HCI_INP_LINEAR_PCM_BIT_POS_OFFS)); /* Convert Input Sample Size (0000011100) */ if (p_params->input_coded_data_size == 16) voice_settings |= HCI_INP_SAMPLE_SIZE_16BIT; else /* Use 8 bit for all others */ voice_settings |= HCI_INP_SAMPLE_SIZE_8BIT; BTM_TRACE_DEBUG("%s: voice setting for legacy 0x%03x", __func__, voice_settings); return (voice_settings); }