/****************************************************************************** * * Copyright 1999-2012 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 the SDP server functions. * This is mainly dealing with client requests * ******************************************************************************/ #define LOG_TAG "sdp_server" #include #include // memcpy #include #include "btif/include/btif_profile_storage.h" #include "btif/include/btif_storage.h" #include "common/init_flags.h" #include "device/include/interop.h" #include "device/include/interop_config.h" #include "internal_include/bt_target.h" #include "osi/include/allocator.h" #include "osi/include/properties.h" #include "stack/btm/btm_dev.h" #include "stack/btm/btm_sco_hfp_hal.h" #include "stack/btm/btm_sec.h" #include "stack/include/bt_hdr.h" #include "stack/include/bt_types.h" #include "stack/include/bt_uuid16.h" #include "stack/include/sdpdefs.h" #include "stack/sdp/sdpint.h" /* Maximum number of bytes to reserve out of SDP MTU for response data */ #define SDP_MAX_SERVICE_RSPHDR_LEN 12 #define SDP_MAX_SERVATTR_RSPHDR_LEN 10 #define SDP_MAX_ATTR_RSPHDR_LEN 10 #define PROFILE_VERSION_POSITION 7 #define SDP_PROFILE_DESC_LENGTH 8 #define HFP_PROFILE_MINOR_VERSION_6 0x06 #define HFP_PROFILE_MINOR_VERSION_7 0x07 #define HFP_PROFILE_MINOR_VERSION_9 0x09 #define PBAP_GOEP_L2CAP_PSM_LEN 0x06 #define PBAP_SUPP_FEA_LEN 0x08 #ifndef SDP_ENABLE_PTS_PBAP #define SDP_ENABLE_PTS_PBAP "bluetooth.pts.pbap" #endif #define PBAP_1_2 0x0102 #define PBAP_1_2_BL_LEN 14 using namespace bluetooth; /* Used to set PBAP local SDP device record for PBAP 1.2 upgrade */ typedef struct { int32_t rfcomm_channel_number; int32_t l2cap_psm; int32_t profile_version; uint32_t supported_features; uint32_t supported_repositories; } tSDP_PSE_LOCAL_RECORD; static tSDP_PSE_LOCAL_RECORD sdpPseLocalRecord; /******************************************************************************/ /* E R R O R T E X T S T R I N G S */ /* */ /* The default is to have no text string, but we allow the strings to be */ /* configured in target.h if people want them. */ /******************************************************************************/ #ifndef SDP_TEXT_BAD_HEADER #define SDP_TEXT_BAD_HEADER NULL #endif #ifndef SDP_TEXT_BAD_PDU #define SDP_TEXT_BAD_PDU NULL #endif #ifndef SDP_TEXT_BAD_UUID_LIST #define SDP_TEXT_BAD_UUID_LIST NULL #endif #ifndef SDP_TEXT_BAD_HANDLE #define SDP_TEXT_BAD_HANDLE NULL #endif #ifndef SDP_TEXT_BAD_ATTR_LIST #define SDP_TEXT_BAD_ATTR_LIST NULL #endif #ifndef SDP_TEXT_BAD_CONT_LEN #define SDP_TEXT_BAD_CONT_LEN NULL #endif #ifndef SDP_TEXT_BAD_CONT_INX #define SDP_TEXT_BAD_CONT_INX NULL #endif #ifndef SDP_TEXT_BAD_MAX_RECORDS_LIST #define SDP_TEXT_BAD_MAX_RECORDS_LIST NULL #endif /************************************************************************************* ** ** Function sdp_dynamic_change_hfp_version ** ** Description Checks if UUID is AG_HANDSFREE, attribute id ** is Profile descriptor list and remote BD address ** matches device Allow list, change hfp version to 1.7 ** ** Returns BOOLEAN ** +***************************************************************************************/ bool sdp_dynamic_change_hfp_version(const tSDP_ATTRIBUTE* p_attr, const RawAddress& remote_address) { if ((p_attr->id != ATTR_ID_BT_PROFILE_DESC_LIST) || (p_attr->len < SDP_PROFILE_DESC_LENGTH)) { return false; } /* As per current DB implementation UUID is condidered as 16 bit */ if (((p_attr->value_ptr[3] << SDP_PROFILE_DESC_LENGTH) | (p_attr->value_ptr[4])) != UUID_SERVCLASS_HF_HANDSFREE) { return false; } bool is_allowlisted_1_7 = interop_match_addr_or_name(INTEROP_HFP_1_7_ALLOWLIST, &remote_address, &btif_storage_get_remote_device_property); bool is_allowlisted_1_9 = interop_match_addr_or_name(INTEROP_HFP_1_9_ALLOWLIST, &remote_address, &btif_storage_get_remote_device_property); /* For PTS we should update AG's HFP version as 1.7 */ if (!(is_allowlisted_1_7) && !(is_allowlisted_1_9) && !(osi_property_get_bool("vendor.bt.pts.certification", false))) { return false; } if (hfp_hal_interface::get_swb_supported() && is_allowlisted_1_9) { p_attr->value_ptr[PROFILE_VERSION_POSITION] = HFP_PROFILE_MINOR_VERSION_9; } else { p_attr->value_ptr[PROFILE_VERSION_POSITION] = HFP_PROFILE_MINOR_VERSION_7; } log::verbose("SDP Change HFP Version = {} for {}", p_attr->value_ptr[PROFILE_VERSION_POSITION], remote_address); return true; } /****************************************************************************** * * Function hfp_fallback * * Description Update HFP version back to 1.6 * * Returns void * *****************************************************************************/ void hfp_fallback(bool& is_hfp_fallback, const tSDP_ATTRIBUTE* p_attr) { /* Update HFP version back to 1.6 */ p_attr->value_ptr[PROFILE_VERSION_POSITION] = HFP_PROFILE_MINOR_VERSION_6; log::verbose("Restore HFP version to 1.6"); is_hfp_fallback = false; } /******************************************************************************* * * Function process_service_search * * Description This function handles a service search request from the * client. It builds a reply message with info from the * database, and sends the reply back to the client. * * Returns void * ******************************************************************************/ static void process_service_search(tCONN_CB* p_ccb, uint16_t trans_num, uint16_t param_len, uint8_t* p_req, uint8_t* p_req_end) { uint16_t max_replies, cur_handles, rem_handles, cont_offset; tSDP_UUID_SEQ uid_seq; uint8_t *p_rsp, *p_rsp_start, *p_rsp_param_len; uint16_t rsp_param_len, num_rsp_handles, xx; uint32_t rsp_handles[SDP_MAX_RECORDS] = {0}; const tSDP_RECORD* p_rec = NULL; bool is_cont = false; p_req = sdpu_extract_uid_seq(p_req, param_len, &uid_seq); if ((!p_req) || (!uid_seq.num_uids)) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_REQ_SYNTAX, SDP_TEXT_BAD_UUID_LIST); return; } /* Get the max replies we can send. Cap it at our max anyways. */ if (p_req + sizeof(max_replies) + sizeof(uint8_t) > p_req_end) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_REQ_SYNTAX, SDP_TEXT_BAD_MAX_RECORDS_LIST); return; } BE_STREAM_TO_UINT16(max_replies, p_req); if (max_replies > SDP_MAX_RECORDS) max_replies = SDP_MAX_RECORDS; /* Get a list of handles that match the UUIDs given to us */ for (num_rsp_handles = 0; num_rsp_handles < max_replies;) { p_rec = sdp_db_service_search(p_rec, &uid_seq); if (p_rec) rsp_handles[num_rsp_handles++] = p_rec->record_handle; else break; } /* Check if this is a continuation request */ if (p_req + 1 > p_req_end) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_CONT_STATE, SDP_TEXT_BAD_CONT_LEN); return; } if (*p_req) { if (*p_req++ != SDP_CONTINUATION_LEN || (p_req + sizeof(cont_offset) > p_req_end)) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_CONT_STATE, SDP_TEXT_BAD_CONT_LEN); return; } BE_STREAM_TO_UINT16(cont_offset, p_req); if (cont_offset != p_ccb->cont_offset || num_rsp_handles < cont_offset) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_CONT_STATE, SDP_TEXT_BAD_CONT_INX); return; } rem_handles = num_rsp_handles - cont_offset; /* extract the remaining handles */ } else { rem_handles = num_rsp_handles; cont_offset = 0; p_ccb->cont_offset = 0; } /* Calculate how many handles will fit in one PDU */ cur_handles = (uint16_t)((p_ccb->rem_mtu_size - SDP_MAX_SERVICE_RSPHDR_LEN) / 4); if (rem_handles <= cur_handles) cur_handles = rem_handles; else /* Continuation is set */ { p_ccb->cont_offset += cur_handles; is_cont = true; } /* Get a buffer to use to build the response */ BT_HDR* p_buf = (BT_HDR*)osi_malloc(SDP_DATA_BUF_SIZE); p_buf->offset = L2CAP_MIN_OFFSET; p_rsp = p_rsp_start = (uint8_t*)(p_buf + 1) + L2CAP_MIN_OFFSET; /* Start building a rsponse */ UINT8_TO_BE_STREAM(p_rsp, SDP_PDU_SERVICE_SEARCH_RSP); UINT16_TO_BE_STREAM(p_rsp, trans_num); /* Skip the length, we need to add it at the end */ p_rsp_param_len = p_rsp; p_rsp += 2; /* Put in total and current number of handles, and handles themselves */ UINT16_TO_BE_STREAM(p_rsp, num_rsp_handles); UINT16_TO_BE_STREAM(p_rsp, cur_handles); /* log::verbose("SDP Service Rsp: tothdl {}, curhdlr {}, start {}, end {}, cont {}", num_rsp_handles, cur_handles, cont_offset, cont_offset + cur_handles-1, is_cont); */ for (xx = cont_offset; xx < cont_offset + cur_handles; xx++) UINT32_TO_BE_STREAM(p_rsp, rsp_handles[xx]); if (is_cont) { UINT8_TO_BE_STREAM(p_rsp, SDP_CONTINUATION_LEN); UINT16_TO_BE_STREAM(p_rsp, p_ccb->cont_offset); } else UINT8_TO_BE_STREAM(p_rsp, 0); /* Go back and put the parameter length into the buffer */ rsp_param_len = p_rsp - p_rsp_param_len - 2; UINT16_TO_BE_STREAM(p_rsp_param_len, rsp_param_len); /* Set the length of the SDP data in the buffer */ p_buf->len = p_rsp - p_rsp_start; /* Send the buffer through L2CAP */ if (L2CA_DataWrite(p_ccb->connection_id, p_buf) != L2CAP_DW_SUCCESS) { log::warn("Unable to write L2CAP data peer:{} cid:{} len:{}", p_ccb->device_address, p_ccb->connection_id, p_buf->len); } } /************************************************************************************* ** ** Function is_device_in_allowlist_for_pbap ** ** Description Checks if given PBAP device is in allowlist for PBAP PSE. ** ** Returns BOOLEAN ** ***************************************************************************************/ static bool is_device_in_allowlist_for_pbap(RawAddress remote_address, bool check_for_1_2) { if (!check_for_1_2 && interop_match_addr_or_name(INTEROP_ADV_PBAP_VER_1_1, &remote_address, &btif_storage_get_remote_device_property)) { log::verbose("device is in allowlist for pbap version < 1.2"); return true; } if (check_for_1_2) { if (btm_sec_is_a_bonded_dev(remote_address)) { if (interop_match_addr_or_name( INTEROP_ADV_PBAP_VER_1_2, &remote_address, &btif_storage_get_remote_device_property)) { log::verbose("device is in allowlist for pbap version 1.2"); return true; } } else { const char* p_name = BTM_SecReadDevName(remote_address); if ((p_name != NULL) && interop_match_name(INTEROP_ADV_PBAP_VER_1_2, p_name)) { log::verbose( "device is not paired & in allowlist for pbap version 1.2"); return true; } } } return false; } /************************************************************************************* ** ** Function sdp_upgrade_pbap_pse_record ** ** Description updates pbap record to pbap 1.2 record if remote supports *pbap 1.2 ** ** Returns the address of updated record ** ***************************************************************************************/ static const tSDP_RECORD* sdp_upgrade_pse_record(const tSDP_RECORD* p_rec, RawAddress remote_address) { static bool is_pbap_102_supported = FALSE; tSDP_ATTRIBUTE attr = p_rec->attribute[1]; if (!((attr.id == ATTR_ID_SERVICE_CLASS_ID_LIST) && (((attr.value_ptr[1] << 8) | (attr.value_ptr[2])) == UUID_SERVCLASS_PBAP_PSE))) { // Not a PBAP PSE Record return p_rec; } /* Check if remote supports PBAP 1.2 */ is_pbap_102_supported = btif_storage_is_pce_version_102(remote_address); bool is_pbap_101_allowlisted = is_device_in_allowlist_for_pbap(remote_address, false); bool is_pbap_102_allowlisted = is_device_in_allowlist_for_pbap(remote_address, true); bool running_pts = osi_property_get_bool(SDP_ENABLE_PTS_PBAP, false); log::verbose( "remote BD Addr : {} is_pbap_102_supported : {} is_pbap_101_allowlisted " "= {} is_pbap_102_allowlisted = {} running_pts = {}", remote_address, is_pbap_102_supported, is_pbap_101_allowlisted, is_pbap_102_allowlisted, running_pts); if (is_pbap_101_allowlisted || (!is_pbap_102_supported && !is_pbap_102_allowlisted && !running_pts)) { // Send 1.1 SDP Record return p_rec; } static tSDP_RECORD pbap_102_sdp_rec = {}; const tSDP_ATTRIBUTE* p_attr = &p_rec->attribute[0]; uint8_t temp[4], j; uint8_t* p_temp = temp; bool status = true; /* Copying contents of the PBAP 1.1 PSE record to a new 1.2 record */ for (j = 0; j < p_rec->num_attributes; j++, p_attr++) { SDP_AddAttributeToRecord(&pbap_102_sdp_rec, p_attr->id, p_attr->type, p_attr->len, p_attr->value_ptr); } /* Add supported repositories 1 byte */ status &= SDP_AddAttributeToRecord( &pbap_102_sdp_rec, ATTR_ID_SUPPORTED_REPOSITORIES, UINT_DESC_TYPE, (uint32_t)1, (uint8_t*)&sdpPseLocalRecord.supported_repositories); /* Add in the Bluetooth Profile Descriptor List */ status &= SDP_AddProfileDescriptorListToRecord( &pbap_102_sdp_rec, UUID_SERVCLASS_PHONE_ACCESS, sdpPseLocalRecord.profile_version); /* Add PBAP 1.2 supported features 4 */ UINT32_TO_BE_STREAM(p_temp, sdpPseLocalRecord.supported_features); status &= SDP_AddAttributeToRecord(&pbap_102_sdp_rec, ATTR_ID_PBAP_SUPPORTED_FEATURES, UINT_DESC_TYPE, (uint32_t)4, temp); /* Add the L2CAP PSM */ p_temp = temp; // The macro modifies p_temp, hence rewind. UINT16_TO_BE_STREAM(p_temp, sdpPseLocalRecord.l2cap_psm); status &= SDP_AddAttributeToRecord(&pbap_102_sdp_rec, ATTR_ID_GOEP_L2CAP_PSM, UINT_DESC_TYPE, (uint32_t)2, temp); if (!status) { log::error("FAILED"); return p_rec; } return &pbap_102_sdp_rec; } /******************************************************************************* * * Function process_service_attr_req * * Description This function handles an attribute request from the client. * It builds a reply message with info from the database, * and sends the reply back to the client. * * Returns void * ******************************************************************************/ static void process_service_attr_req(tCONN_CB* p_ccb, uint16_t trans_num, uint16_t param_len, uint8_t* p_req, uint8_t* p_req_end) { uint16_t max_list_len, len_to_send, cont_offset; int16_t rem_len; tSDP_ATTR_SEQ attr_seq, attr_seq_sav; uint8_t *p_rsp, *p_rsp_start, *p_rsp_param_len; uint16_t rsp_param_len, xx; uint32_t rec_handle; const tSDP_RECORD* p_rec; const tSDP_ATTRIBUTE* p_attr; bool is_cont = false; bool is_hfp_fallback = false; uint16_t attr_len; if (p_req + sizeof(rec_handle) + sizeof(max_list_len) > p_req_end) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_SERV_REC_HDL, SDP_TEXT_BAD_HANDLE); return; } /* Extract the record handle */ BE_STREAM_TO_UINT32(rec_handle, p_req); param_len -= sizeof(rec_handle); /* Get the max list length we can send. Cap it at MTU size minus overhead */ BE_STREAM_TO_UINT16(max_list_len, p_req); param_len -= sizeof(max_list_len); if (max_list_len > (p_ccb->rem_mtu_size - SDP_MAX_ATTR_RSPHDR_LEN)) max_list_len = p_ccb->rem_mtu_size - SDP_MAX_ATTR_RSPHDR_LEN; p_req = sdpu_extract_attr_seq(p_req, param_len, &attr_seq); if ((!p_req) || (!attr_seq.num_attr) || (p_req + sizeof(uint8_t) > p_req_end)) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_REQ_SYNTAX, SDP_TEXT_BAD_ATTR_LIST); return; } memcpy(&attr_seq_sav, &attr_seq, sizeof(tSDP_ATTR_SEQ)); /* Find a record with the record handle */ p_rec = sdp_db_find_record(rec_handle); if (!p_rec) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_SERV_REC_HDL, SDP_TEXT_BAD_HANDLE); return; } if (max_list_len < 4) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_ILLEGAL_PARAMETER, NULL); return; } if (bluetooth::common::init_flags:: pbap_pse_dynamic_version_upgrade_is_enabled()) { p_rec = sdp_upgrade_pse_record(p_rec, p_ccb->device_address); } else { log::warn("PBAP PSE dynamic version upgrade is not enabled"); } /* Free and reallocate buffer */ osi_free(p_ccb->rsp_list); p_ccb->rsp_list = (uint8_t*)osi_malloc(max_list_len); /* Check if this is a continuation request */ if (p_req + 1 > p_req_end) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_CONT_STATE, SDP_TEXT_BAD_CONT_LEN); return; } if (*p_req) { if (*p_req++ != SDP_CONTINUATION_LEN || (p_req + sizeof(cont_offset) > p_req_end)) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_CONT_STATE, SDP_TEXT_BAD_CONT_LEN); return; } BE_STREAM_TO_UINT16(cont_offset, p_req); if (cont_offset != p_ccb->cont_offset) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_CONT_STATE, SDP_TEXT_BAD_CONT_INX); return; } is_cont = true; /* Initialise for continuation response */ p_rsp = &p_ccb->rsp_list[0]; attr_seq.attr_entry[p_ccb->cont_info.next_attr_index].start = p_ccb->cont_info.next_attr_start_id; } else { p_ccb->cont_offset = 0; p_rsp = &p_ccb->rsp_list[3]; /* Leave space for data elem descr */ /* Reset continuation parameters in p_ccb */ p_ccb->cont_info.prev_sdp_rec = NULL; p_ccb->cont_info.next_attr_index = 0; p_ccb->cont_info.attr_offset = 0; } bool is_service_avrc_target = false; const tSDP_ATTRIBUTE* p_attr_service_id; const tSDP_ATTRIBUTE* p_attr_profile_desc_list_id; uint16_t avrc_sdp_version = 0; p_attr_service_id = sdp_db_find_attr_in_rec( p_rec, ATTR_ID_SERVICE_CLASS_ID_LIST, ATTR_ID_SERVICE_CLASS_ID_LIST); p_attr_profile_desc_list_id = sdp_db_find_attr_in_rec( p_rec, ATTR_ID_BT_PROFILE_DESC_LIST, ATTR_ID_BT_PROFILE_DESC_LIST); if (p_attr_service_id) { is_service_avrc_target = sdpu_is_service_id_avrc_target(p_attr_service_id); } /* Search for attributes that match the list given to us */ for (xx = p_ccb->cont_info.next_attr_index; xx < attr_seq.num_attr; xx++) { p_attr = sdp_db_find_attr_in_rec(p_rec, attr_seq.attr_entry[xx].start, attr_seq.attr_entry[xx].end); if (p_attr) { if (is_service_avrc_target) { sdpu_set_avrc_target_version(p_attr, &(p_ccb->device_address)); if (p_attr->id == ATTR_ID_SUPPORTED_FEATURES && bluetooth::common::init_flags:: dynamic_avrcp_version_enhancement_is_enabled()) { avrc_sdp_version = sdpu_is_avrcp_profile_description_list( p_attr_profile_desc_list_id); log::error("avrc_sdp_version in SDP records {:x}", avrc_sdp_version); sdpu_set_avrc_target_features(p_attr, &(p_ccb->device_address), avrc_sdp_version); } } if (bluetooth::common::init_flags::hfp_dynamic_version_is_enabled()) { is_hfp_fallback = sdp_dynamic_change_hfp_version(p_attr, p_ccb->device_address); } /* Check if attribute fits. Assume 3-byte value type/length */ rem_len = max_list_len - (int16_t)(p_rsp - &p_ccb->rsp_list[0]); /* just in case */ if (rem_len <= 0) { p_ccb->cont_info.next_attr_index = xx; p_ccb->cont_info.next_attr_start_id = p_attr->id; break; } attr_len = sdpu_get_attrib_entry_len(p_attr); /* if there is a partial attribute pending to be sent */ if (p_ccb->cont_info.attr_offset) { if (attr_len < p_ccb->cont_info.attr_offset) { log::error("offset is bigger than attribute length"); sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_CONT_STATE, SDP_TEXT_BAD_CONT_LEN); return; } p_rsp = sdpu_build_partial_attrib_entry(p_rsp, p_attr, rem_len, &p_ccb->cont_info.attr_offset); /* If the partial attrib could not been fully added yet */ if (p_ccb->cont_info.attr_offset != attr_len) break; else /* If the partial attrib has been added in full by now */ p_ccb->cont_info.attr_offset = 0; /* reset attr_offset */ } else if (rem_len < attr_len) /* Not enough space for attr... so add partially */ { if (attr_len >= SDP_MAX_ATTR_LEN) { log::error("SDP attr too big: max_list_len={},attr_len={}", max_list_len, attr_len); sdpu_build_n_send_error(p_ccb, trans_num, SDP_NO_RESOURCES, NULL); return; } /* add the partial attribute if possible */ p_rsp = sdpu_build_partial_attrib_entry( p_rsp, p_attr, (uint16_t)rem_len, &p_ccb->cont_info.attr_offset); p_ccb->cont_info.next_attr_index = xx; p_ccb->cont_info.next_attr_start_id = p_attr->id; break; } else /* build the whole attribute */ p_rsp = sdpu_build_attrib_entry(p_rsp, p_attr); /* If doing a range, stick with this one till no more attributes found */ if (attr_seq.attr_entry[xx].start != attr_seq.attr_entry[xx].end) { /* Update for next time through */ attr_seq.attr_entry[xx].start = p_attr->id + 1; xx--; } if (is_hfp_fallback) { hfp_fallback(is_hfp_fallback, p_attr); } } } if (is_hfp_fallback) { hfp_fallback(is_hfp_fallback, p_attr); } /* If all the attributes have been accomodated in p_rsp, reset next_attr_index */ if (xx == attr_seq.num_attr) p_ccb->cont_info.next_attr_index = 0; len_to_send = (uint16_t)(p_rsp - &p_ccb->rsp_list[0]); cont_offset = 0; if (!is_cont) { p_ccb->list_len = sdpu_get_attrib_seq_len(p_rec, &attr_seq_sav) + 3; /* Put in the sequence header (2 or 3 bytes) */ if (p_ccb->list_len > 255) { p_ccb->rsp_list[0] = (uint8_t)((DATA_ELE_SEQ_DESC_TYPE << 3) | SIZE_IN_NEXT_WORD); p_ccb->rsp_list[1] = (uint8_t)((p_ccb->list_len - 3) >> 8); p_ccb->rsp_list[2] = (uint8_t)(p_ccb->list_len - 3); } else { cont_offset = 1; p_ccb->rsp_list[1] = (uint8_t)((DATA_ELE_SEQ_DESC_TYPE << 3) | SIZE_IN_NEXT_BYTE); p_ccb->rsp_list[2] = (uint8_t)(p_ccb->list_len - 3); p_ccb->list_len--; len_to_send--; } } /* Get a buffer to use to build the response */ BT_HDR* p_buf = (BT_HDR*)osi_malloc(SDP_DATA_BUF_SIZE); p_buf->offset = L2CAP_MIN_OFFSET; p_rsp = p_rsp_start = (uint8_t*)(p_buf + 1) + L2CAP_MIN_OFFSET; /* Start building a rsponse */ UINT8_TO_BE_STREAM(p_rsp, SDP_PDU_SERVICE_ATTR_RSP); UINT16_TO_BE_STREAM(p_rsp, trans_num); /* Skip the parameter length, add it when we know the length */ p_rsp_param_len = p_rsp; p_rsp += 2; UINT16_TO_BE_STREAM(p_rsp, len_to_send); memcpy(p_rsp, &p_ccb->rsp_list[cont_offset], len_to_send); p_rsp += len_to_send; p_ccb->cont_offset += len_to_send; /* If anything left to send, continuation needed */ if (p_ccb->cont_offset < p_ccb->list_len) { is_cont = true; UINT8_TO_BE_STREAM(p_rsp, SDP_CONTINUATION_LEN); UINT16_TO_BE_STREAM(p_rsp, p_ccb->cont_offset); } else UINT8_TO_BE_STREAM(p_rsp, 0); /* Go back and put the parameter length into the buffer */ rsp_param_len = p_rsp - p_rsp_param_len - 2; UINT16_TO_BE_STREAM(p_rsp_param_len, rsp_param_len); /* Set the length of the SDP data in the buffer */ p_buf->len = p_rsp - p_rsp_start; /* Send the buffer through L2CAP */ if (L2CA_DataWrite(p_ccb->connection_id, p_buf) != L2CAP_DW_SUCCESS) { log::warn("Unable to write L2CAP data peer:{} cid:{} len:{}", p_ccb->device_address, p_ccb->connection_id, p_buf->len); } } /************************************************************************************* ** ** Function sdp_pbap_pse_dynamic_attributes_len_update ** ** Description length of the attributes need to be added in final sdp *response len ** ** Returns returns the length of denylisted attributes. ** ***************************************************************************************/ static uint16_t sdp_pbap_pse_dynamic_attributes_len_update( tCONN_CB* p_ccb, tSDP_ATTR_SEQ* attr_seq, tSDP_UUID_SEQ* uid_seq) { if (!p_ccb || !attr_seq || !uid_seq) return 0; const tSDP_RECORD* p_rec; p_ccb->pse_dynamic_attributes_len = 0; // Check to validate if 1.2 record is getting sent bool is_pbap_102_supported = btif_storage_is_pce_version_102(p_ccb->device_address); bool is_pbap_101_allowlisted = is_device_in_allowlist_for_pbap(p_ccb->device_address, false); bool is_pbap_102_allowlisted = is_device_in_allowlist_for_pbap(p_ccb->device_address, true); bool running_pts = osi_property_get_bool(SDP_ENABLE_PTS_PBAP, false); log::verbose( "remote BD Addr : {} is_pbap_102_supported = {} is_pbap_101_allowlisted " "= {} is_pbap_102_allowlisted = {} running_pts = {}", p_ccb->device_address, is_pbap_102_supported, is_pbap_101_allowlisted, is_pbap_102_allowlisted, running_pts); if (is_pbap_101_allowlisted || (!is_pbap_102_supported && !is_pbap_102_allowlisted && !running_pts)) { // Send Length without any update return p_ccb->pse_dynamic_attributes_len; } int xx; tSDP_ATTRIBUTE attr; for (p_rec = (tSDP_RECORD*)sdp_db_service_search(NULL, uid_seq); p_rec; p_rec = (tSDP_RECORD*)sdp_db_service_search(p_rec, uid_seq)) { attr = p_rec->attribute[1]; if ((attr.id == ATTR_ID_SERVICE_CLASS_ID_LIST) && (((attr.value_ptr[1] << 8) | (attr.value_ptr[2])) == UUID_SERVCLASS_PBAP_PSE)) { // PBAP PSE Record p_rec = sdp_upgrade_pse_record(p_rec, p_ccb->device_address); log::verbose("response has PBAP PSE record for allowlist device"); int att_index; bool l2cap_psm_len_included = false, supp_attr_len_included = false; for (xx = p_ccb->cont_info.next_attr_index; xx < attr_seq->num_attr; xx++) { log::verbose( "xx = {} attr_seq->num_attr = {}, attr_seq->attr_entry[xx].start = " "{} , attr_seq->attr_entry[xx].end = {}", xx, attr_seq->num_attr, attr_seq->attr_entry[xx].start, attr_seq->attr_entry[xx].end); for (att_index = 0; att_index < p_rec->num_attributes; att_index++) { tSDP_ATTRIBUTE cur_attr = p_rec->attribute[att_index]; if (cur_attr.id == ATTR_ID_GOEP_L2CAP_PSM && !l2cap_psm_len_included && cur_attr.id >= attr_seq->attr_entry[xx].start && cur_attr.id <= attr_seq->attr_entry[xx].end) { l2cap_psm_len_included = true; p_ccb->pse_dynamic_attributes_len += PBAP_GOEP_L2CAP_PSM_LEN; log::error( "ATTR_ID_GOEP_L2CAP_PSM requested, need to change length by {}", p_ccb->pse_dynamic_attributes_len); } else if (cur_attr.id == ATTR_ID_PBAP_SUPPORTED_FEATURES && !supp_attr_len_included && cur_attr.id >= attr_seq->attr_entry[xx].start && cur_attr.id <= attr_seq->attr_entry[xx].end) { supp_attr_len_included = true; p_ccb->pse_dynamic_attributes_len += PBAP_SUPP_FEA_LEN; log::verbose( "ATTR_ID_PBAP_SUPPORTED_FEATURES requested, need to change " "length by {}", p_ccb->pse_dynamic_attributes_len); } } if (p_ccb->pse_dynamic_attributes_len == PBAP_1_2_BL_LEN) break; } break; } } log::verbose("pse_dynamic_attributes_len = {}", p_ccb->pse_dynamic_attributes_len); return p_ccb->pse_dynamic_attributes_len; } /******************************************************************************* * * Function process_service_search_attr_req * * Description This function handles a combined service search and * attribute read request from the client. It builds a reply * message with info from the database, and sends the reply * back to the client. * * Returns void * ******************************************************************************/ static void process_service_search_attr_req(tCONN_CB* p_ccb, uint16_t trans_num, uint16_t param_len, uint8_t* p_req, uint8_t* p_req_end) { uint16_t max_list_len; int16_t rem_len; uint16_t len_to_send, cont_offset; tSDP_UUID_SEQ uid_seq; uint8_t *p_rsp, *p_rsp_start, *p_rsp_param_len; uint16_t rsp_param_len, xx; const tSDP_RECORD* p_rec; tSDP_RECORD* p_prev_rec; tSDP_ATTR_SEQ attr_seq, attr_seq_sav; const tSDP_ATTRIBUTE* p_attr; bool maxxed_out = false, is_cont = false; uint8_t* p_seq_start; bool is_hfp_fallback = false; uint16_t seq_len, attr_len; /* Extract the UUID sequence to search for */ p_req = sdpu_extract_uid_seq(p_req, param_len, &uid_seq); if ((!p_req) || (!uid_seq.num_uids) || (p_req + sizeof(uint16_t) > p_req_end)) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_REQ_SYNTAX, SDP_TEXT_BAD_UUID_LIST); return; } /* Get the max list length we can send. Cap it at our max list length. */ BE_STREAM_TO_UINT16(max_list_len, p_req); if (max_list_len > (p_ccb->rem_mtu_size - SDP_MAX_SERVATTR_RSPHDR_LEN)) max_list_len = p_ccb->rem_mtu_size - SDP_MAX_SERVATTR_RSPHDR_LEN; param_len = static_cast(p_req_end - p_req); p_req = sdpu_extract_attr_seq(p_req, param_len, &attr_seq); if ((!p_req) || (!attr_seq.num_attr) || (p_req + sizeof(uint8_t) > p_req_end)) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_REQ_SYNTAX, SDP_TEXT_BAD_ATTR_LIST); return; } memcpy(&attr_seq_sav, &attr_seq, sizeof(tSDP_ATTR_SEQ)); if (max_list_len < 4) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_ILLEGAL_PARAMETER, NULL); return; } /* Free and reallocate buffer */ osi_free(p_ccb->rsp_list); p_ccb->rsp_list = (uint8_t*)osi_malloc(max_list_len); /* Check if this is a continuation request */ if (p_req + 1 > p_req_end) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_CONT_STATE, SDP_TEXT_BAD_CONT_LEN); return; } if (*p_req) { if (*p_req++ != SDP_CONTINUATION_LEN || (p_req + sizeof(uint16_t) > p_req_end)) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_CONT_STATE, SDP_TEXT_BAD_CONT_LEN); return; } BE_STREAM_TO_UINT16(cont_offset, p_req); if (cont_offset != p_ccb->cont_offset) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_CONT_STATE, SDP_TEXT_BAD_CONT_INX); return; } is_cont = true; /* Initialise for continuation response */ p_rsp = &p_ccb->rsp_list[0]; attr_seq.attr_entry[p_ccb->cont_info.next_attr_index].start = p_ccb->cont_info.next_attr_start_id; } else { p_ccb->cont_offset = 0; p_rsp = &p_ccb->rsp_list[3]; /* Leave space for data elem descr */ /* Reset continuation parameters in p_ccb */ p_ccb->cont_info.prev_sdp_rec = NULL; p_ccb->cont_info.next_attr_index = 0; p_ccb->cont_info.last_attr_seq_desc_sent = false; p_ccb->cont_info.attr_offset = 0; } /* Get a list of handles that match the UUIDs given to us */ for (p_rec = sdp_db_service_search(p_ccb->cont_info.prev_sdp_rec, &uid_seq); p_rec; p_rec = sdp_db_service_search(p_rec, &uid_seq)) { /* Store the actual record pointer which would be reused later */ p_prev_rec = (tSDP_RECORD*)p_rec; if (bluetooth::common::init_flags:: pbap_pse_dynamic_version_upgrade_is_enabled()) { p_rec = sdp_upgrade_pse_record(p_rec, p_ccb->device_address); } else { log::warn("PBAP PSE dynamic version upgrade is not enabled"); } /* Allow space for attribute sequence type and length */ p_seq_start = p_rsp; if (!p_ccb->cont_info.last_attr_seq_desc_sent) { /* See if there is enough room to include a new service in the current * response */ rem_len = max_list_len - (int16_t)(p_rsp - &p_ccb->rsp_list[0]); if (rem_len < 3) { /* Not enough room. Update continuation info for next response */ p_ccb->cont_info.next_attr_index = 0; p_ccb->cont_info.next_attr_start_id = attr_seq.attr_entry[0].start; break; } p_rsp += 3; } bool is_service_avrc_target = false; const tSDP_ATTRIBUTE* p_attr_service_id; const tSDP_ATTRIBUTE* p_attr_profile_desc_list_id; uint16_t avrc_sdp_version = 0; p_attr_service_id = sdp_db_find_attr_in_rec( p_rec, ATTR_ID_SERVICE_CLASS_ID_LIST, ATTR_ID_SERVICE_CLASS_ID_LIST); p_attr_profile_desc_list_id = sdp_db_find_attr_in_rec( p_rec, ATTR_ID_BT_PROFILE_DESC_LIST, ATTR_ID_BT_PROFILE_DESC_LIST); if (p_attr_service_id) { is_service_avrc_target = sdpu_is_service_id_avrc_target(p_attr_service_id); } /* Get a list of handles that match the UUIDs given to us */ for (xx = p_ccb->cont_info.next_attr_index; xx < attr_seq.num_attr; xx++) { p_attr = sdp_db_find_attr_in_rec(p_rec, attr_seq.attr_entry[xx].start, attr_seq.attr_entry[xx].end); if (p_attr) { if (is_service_avrc_target) { sdpu_set_avrc_target_version(p_attr, &(p_ccb->device_address)); if (p_attr->id == ATTR_ID_SUPPORTED_FEATURES && bluetooth::common::init_flags:: dynamic_avrcp_version_enhancement_is_enabled() && p_attr_profile_desc_list_id != nullptr) { avrc_sdp_version = sdpu_is_avrcp_profile_description_list( p_attr_profile_desc_list_id); log::error("avrc_sdp_version in SDP records {:x}", avrc_sdp_version); sdpu_set_avrc_target_features(p_attr, &(p_ccb->device_address), avrc_sdp_version); } } if (bluetooth::common::init_flags::hfp_dynamic_version_is_enabled()) { is_hfp_fallback = sdp_dynamic_change_hfp_version(p_attr, p_ccb->device_address); } /* Check if attribute fits. Assume 3-byte value type/length */ rem_len = max_list_len - (int16_t)(p_rsp - &p_ccb->rsp_list[0]); /* just in case */ if (rem_len <= 0) { p_ccb->cont_info.next_attr_index = xx; p_ccb->cont_info.next_attr_start_id = p_attr->id; maxxed_out = true; break; } attr_len = sdpu_get_attrib_entry_len(p_attr); /* if there is a partial attribute pending to be sent */ if (p_ccb->cont_info.attr_offset) { if (attr_len < p_ccb->cont_info.attr_offset) { log::error("offset is bigger than attribute length"); sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_CONT_STATE, SDP_TEXT_BAD_CONT_LEN); return; } p_rsp = sdpu_build_partial_attrib_entry( p_rsp, p_attr, rem_len, &p_ccb->cont_info.attr_offset); /* If the partial attrib could not been fully added yet */ if (p_ccb->cont_info.attr_offset != attr_len) { maxxed_out = true; break; } else /* If the partial attrib has been added in full by now */ p_ccb->cont_info.attr_offset = 0; /* reset attr_offset */ } else if (rem_len < attr_len) /* Not enough space for attr... so add partially */ { if (attr_len >= SDP_MAX_ATTR_LEN) { log::error("SDP attr too big: max_list_len={},attr_len={}", max_list_len, attr_len); sdpu_build_n_send_error(p_ccb, trans_num, SDP_NO_RESOURCES, NULL); return; } /* add the partial attribute if possible */ p_rsp = sdpu_build_partial_attrib_entry( p_rsp, p_attr, (uint16_t)rem_len, &p_ccb->cont_info.attr_offset); p_ccb->cont_info.next_attr_index = xx; p_ccb->cont_info.next_attr_start_id = p_attr->id; maxxed_out = true; break; } else /* build the whole attribute */ p_rsp = sdpu_build_attrib_entry(p_rsp, p_attr); /* If doing a range, stick with this one till no more attributes found */ if (attr_seq.attr_entry[xx].start != attr_seq.attr_entry[xx].end) { /* Update for next time through */ attr_seq.attr_entry[xx].start = p_attr->id + 1; xx--; } if (is_hfp_fallback) { hfp_fallback(is_hfp_fallback, p_attr); } } } if (is_hfp_fallback) { hfp_fallback(is_hfp_fallback, p_attr); } /* Go back and put the type and length into the buffer */ if (!p_ccb->cont_info.last_attr_seq_desc_sent) { seq_len = sdpu_get_attrib_seq_len(p_rec, &attr_seq_sav); if (seq_len != 0) { UINT8_TO_BE_STREAM(p_seq_start, (DATA_ELE_SEQ_DESC_TYPE << 3) | SIZE_IN_NEXT_WORD); UINT16_TO_BE_STREAM(p_seq_start, seq_len); if (maxxed_out) p_ccb->cont_info.last_attr_seq_desc_sent = true; } else p_rsp = p_seq_start; } if (maxxed_out) break; /* Restore the attr_seq to look for in the next sdp record */ memcpy(&attr_seq, &attr_seq_sav, sizeof(tSDP_ATTR_SEQ)); /* Reset the next attr index */ p_ccb->cont_info.next_attr_index = 0; /* restore the record pointer.*/ p_rec = p_prev_rec; p_ccb->cont_info.prev_sdp_rec = p_rec; p_ccb->cont_info.last_attr_seq_desc_sent = false; } /* response length */ len_to_send = (uint16_t)(p_rsp - &p_ccb->rsp_list[0]); cont_offset = 0; // The current SDP server design has a critical flaw where it can run into // an infinite request/response loop with the client. Here's the scenario: // - client makes SDP request // - server returns the first fragment of the response with a continuation // token // - an SDP record is deleted from the server // - client issues another request with previous continuation token // - server has nothing to send back because the record is unavailable but // in the first fragment, it had specified more response bytes than are // now available // - server sends back no additional response bytes and returns the same // continuation token // - client issues another request with the continuation token, and the // process repeats // // We work around this design flaw here by checking if we will make forward // progress (i.e. we will send > 0 response bytes) on a continued request. // If not, we must have run into the above situation and we tell the peer an // error occurred. // // TODO(sharvil): rewrite SDP server. if (is_cont && len_to_send == 0) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_CONT_STATE, NULL); return; } /* If first response, insert sequence header */ if (!is_cont) { /* Get the total list length for requested uid and attribute sequence */ p_ccb->list_len = sdpu_get_list_len(&uid_seq, &attr_seq_sav) + 3; /* Get the length of denylisted attributes to be updated if device is * denylisted */ if (bluetooth::common::init_flags:: pbap_pse_dynamic_version_upgrade_is_enabled()) { p_ccb->pse_dynamic_attributes_len = sdp_pbap_pse_dynamic_attributes_len_update(p_ccb, &attr_seq_sav, &uid_seq); } else { log::warn("PBAP PSE dynamic version upgrade is not enabled"); p_ccb->pse_dynamic_attributes_len = 0; } log::verbose("p_ccb->list_len = {} pse_dynamic_attributes_len = {}", p_ccb->list_len, p_ccb->pse_dynamic_attributes_len); /* Put in the sequence header (2 or 3 bytes) */ if (p_ccb->list_len > 255) { p_ccb->rsp_list[0] = (uint8_t)((DATA_ELE_SEQ_DESC_TYPE << 3) | SIZE_IN_NEXT_WORD); p_ccb->rsp_list[1] = (uint8_t)((p_ccb->list_len - 3 + p_ccb->pse_dynamic_attributes_len) >> 8); p_ccb->rsp_list[2] = (uint8_t)(p_ccb->list_len - 3 + p_ccb->pse_dynamic_attributes_len); } else { cont_offset = 1; p_ccb->rsp_list[1] = (uint8_t)((DATA_ELE_SEQ_DESC_TYPE << 3) | SIZE_IN_NEXT_BYTE); p_ccb->rsp_list[2] = (uint8_t)(p_ccb->list_len - 3 + p_ccb->pse_dynamic_attributes_len); p_ccb->list_len--; len_to_send--; } } /* Get a buffer to use to build the response */ BT_HDR* p_buf = (BT_HDR*)osi_malloc(SDP_DATA_BUF_SIZE); p_buf->offset = L2CAP_MIN_OFFSET; p_rsp = p_rsp_start = (uint8_t*)(p_buf + 1) + L2CAP_MIN_OFFSET; /* Start building a rsponse */ UINT8_TO_BE_STREAM(p_rsp, SDP_PDU_SERVICE_SEARCH_ATTR_RSP); UINT16_TO_BE_STREAM(p_rsp, trans_num); /* Skip the parameter length, add it when we know the length */ p_rsp_param_len = p_rsp; p_rsp += 2; /* Stream the list length to send */ UINT16_TO_BE_STREAM(p_rsp, len_to_send); /* copy from rsp_list to the actual buffer to be sent */ memcpy(p_rsp, &p_ccb->rsp_list[cont_offset], len_to_send); p_rsp += len_to_send; p_ccb->cont_offset += len_to_send; log::verbose( "p_ccb->pse_dynamic_attributes_len {}, cont_offset = {}, p_ccb->list_len " "= {}", p_ccb->pse_dynamic_attributes_len, p_ccb->cont_offset, p_ccb->list_len + p_ccb->pse_dynamic_attributes_len); /* If anything left to send, continuation needed */ if (p_ccb->cont_offset < (p_ccb->list_len + p_ccb->pse_dynamic_attributes_len)) { is_cont = true; UINT8_TO_BE_STREAM(p_rsp, SDP_CONTINUATION_LEN); UINT16_TO_BE_STREAM(p_rsp, p_ccb->cont_offset); } else { UINT8_TO_BE_STREAM(p_rsp, 0); if (p_ccb->pse_dynamic_attributes_len) { p_ccb->pse_dynamic_attributes_len = 0; } } /* Go back and put the parameter length into the buffer */ rsp_param_len = p_rsp - p_rsp_param_len - 2; UINT16_TO_BE_STREAM(p_rsp_param_len, rsp_param_len); /* Set the length of the SDP data in the buffer */ p_buf->len = p_rsp - p_rsp_start; /* Send the buffer through L2CAP */ if (L2CA_DataWrite(p_ccb->connection_id, p_buf) != L2CAP_DW_SUCCESS) { log::warn("Unable to write L2CAP data peer:{} cid:{} len:{}", p_ccb->device_address, p_ccb->connection_id, p_buf->len); } } /******************************************************************************* * * Function sdp_server_handle_client_req * * Description This is the main dispatcher of the SDP server. It is called * when any data is received from L2CAP, and dispatches the * request to the appropriate handler. * * Returns void * ******************************************************************************/ void sdp_server_handle_client_req(tCONN_CB* p_ccb, BT_HDR* p_msg) { uint8_t* p_req = (uint8_t*)(p_msg + 1) + p_msg->offset; uint8_t* p_req_end = p_req + p_msg->len; uint8_t pdu_id; uint16_t trans_num, param_len; /* Start inactivity timer */ alarm_set_on_mloop(p_ccb->sdp_conn_timer, SDP_INACT_TIMEOUT_MS, sdp_conn_timer_timeout, p_ccb); if (p_req + sizeof(pdu_id) + sizeof(trans_num) > p_req_end) { trans_num = 0; sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_REQ_SYNTAX, SDP_TEXT_BAD_HEADER); return; } /* The first byte in the message is the pdu type */ pdu_id = *p_req++; /* Extract the transaction number and parameter length */ BE_STREAM_TO_UINT16(trans_num, p_req); if (p_req + sizeof(param_len) > p_req_end) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_REQ_SYNTAX, SDP_TEXT_BAD_HEADER); return; } BE_STREAM_TO_UINT16(param_len, p_req); if ((p_req + param_len) != p_req_end) { sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_PDU_SIZE, SDP_TEXT_BAD_HEADER); return; } switch (pdu_id) { case SDP_PDU_SERVICE_SEARCH_REQ: process_service_search(p_ccb, trans_num, param_len, p_req, p_req_end); break; case SDP_PDU_SERVICE_ATTR_REQ: process_service_attr_req(p_ccb, trans_num, param_len, p_req, p_req_end); break; case SDP_PDU_SERVICE_SEARCH_ATTR_REQ: process_service_search_attr_req(p_ccb, trans_num, param_len, p_req, p_req_end); break; default: sdpu_build_n_send_error(p_ccb, trans_num, SDP_INVALID_REQ_SYNTAX, SDP_TEXT_BAD_PDU); log::warn("SDP - server got unknown PDU: 0x{:x}", pdu_id); break; } } /************************************************************************************* ** ** Function update_pce_entry_to_interop_database ** ** Description Update PCE 1.2 entry to dynamic interop database ** ***************************************************************************************/ void update_pce_entry_to_interop_database(RawAddress remote_addr) { if (!interop_match_addr_or_name(INTEROP_ADV_PBAP_VER_1_2, &remote_addr, &btif_storage_get_remote_device_property)) { interop_database_add_addr(INTEROP_ADV_PBAP_VER_1_2, &remote_addr, 3); log::verbose("device: {} is added into interop list", remote_addr); } else { log::warn("device: {} is already found on interop list", remote_addr); } } /************************************************************************************* ** ** Function is_sdp_pbap_pce_disabled ** ** Description Checks if given PBAP record is for PBAP PSE and SDP *denylisted ** ** Returns BOOLEAN ** ***************************************************************************************/ bool is_sdp_pbap_pce_disabled(RawAddress remote_address) { if (interop_match_addr_or_name(INTEROP_DISABLE_PCE_SDP_AFTER_PAIRING, &remote_address, &btif_storage_get_remote_device_property)) { log::verbose("device is denylisted for PCE SDP"); return true; } else { return false; } } /************************************************************************************* ** ** Function sdp_save_local_pse_record_attributes_val ** ** Description Save pbap 1.2 sdp record attributes values, which would be *used for dynamic version upgrade. ** ** Returns BOOLEAN ** ***************************************************************************************/ void sdp_save_local_pse_record_attributes(int32_t rfcomm_channel_number, int32_t l2cap_psm, int32_t profile_version, uint32_t supported_features, uint32_t supported_repositories) { log::warn( "rfcomm_channel_number: 0x{:x}, l2cap_psm: 0x{:x} profile_version: " "0x{:x}supported_features: 0x{:x} supported_repositories: 0x{:x}", rfcomm_channel_number, l2cap_psm, profile_version, supported_features, supported_repositories); sdpPseLocalRecord.rfcomm_channel_number = rfcomm_channel_number; sdpPseLocalRecord.l2cap_psm = l2cap_psm; sdpPseLocalRecord.profile_version = profile_version; sdpPseLocalRecord.supported_features = supported_features; sdpPseLocalRecord.supported_repositories = supported_repositories; }