/** * Copyright (c) 2014 - 2018, Nordic Semiconductor ASA * * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form, except as embedded into a Nordic * Semiconductor ASA integrated circuit in a product or a software update for * such product, must reproduce the above copyright notice, this list of * conditions and the following disclaimer in the documentation and/or other * materials provided with the distribution. * * 3. Neither the name of Nordic Semiconductor ASA nor the names of its * contributors may be used to endorse or promote products derived from this * software without specific prior written permission. * * 4. This software, with or without modification, must only be used with a * Nordic Semiconductor ASA integrated circuit. * * 5. Any software provided in binary form under this license must not be reverse * engineered, decompiled, modified and/or disassembled. * * THIS SOFTWARE IS PROVIDED BY NORDIC SEMICONDUCTOR ASA "AS IS" AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY, NONINFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL NORDIC SEMICONDUCTOR ASA OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ #include #include #include "ble_app.h" #include "ble_serialization.h" #include "ble_struct_serialization.h" #include "ble_gap_struct_serialization.h" #include "ble_gatt_struct_serialization.h" #include "ble_gattc_struct_serialization.h" #include "ble_gatts_struct_serialization.h" #include "ble_l2cap_struct_serialization.h" #include "cond_field_serialization.h" #include "app_util.h" #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION < 4 uint32_t ble_enable_req_enc(ble_enable_params_t * p_ble_enable_params, uint8_t * const p_buf, uint32_t * const p_buf_len) { SER_REQ_ENC_BEGIN(SD_BLE_ENABLE); SER_PUSH_COND(p_ble_enable_params, ble_enable_params_t_enc); SER_REQ_ENC_END; } #else uint32_t ble_enable_req_enc(uint8_t * const p_buf, uint32_t * const p_buf_len) { SER_REQ_ENC_BEGIN(SD_BLE_ENABLE); SER_REQ_ENC_END; } #endif uint32_t ble_enable_rsp_dec(uint8_t const * const p_buf, uint32_t packet_len, uint32_t * const p_result_code) { SER_RSP_DEC_RESULT_ONLY(SD_BLE_ENABLE); } uint32_t ble_opt_get_req_enc(uint32_t opt_id, ble_opt_t const * const p_opt, uint8_t * const p_buf, uint32_t * const p_buf_len) { SER_REQ_ENC_BEGIN(SD_BLE_OPT_GET); SER_PUSH_uint32(&opt_id); SER_PUSH_COND(p_opt, NULL); SER_REQ_ENC_END; } uint32_t ble_opt_get_rsp_dec(uint8_t const * const p_buf, uint32_t packet_len, uint32_t * const p_opt_id, ble_opt_t * const p_opt, uint32_t * const p_result_code) { SER_RSP_DEC_BEGIN(SD_BLE_OPT_GET); SER_PULL_uint32(p_opt_id); field_decoder_handler_t fp_decoder = NULL; void * p_struct = NULL; switch (*p_opt_id) { #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION < 4 case BLE_COMMON_OPT_CONN_BW: fp_decoder = ble_common_opt_conn_bw_t_dec; p_struct = &(p_opt->common_opt.conn_bw); break; #endif case BLE_COMMON_OPT_PA_LNA: fp_decoder = ble_common_opt_pa_lna_t_dec; p_struct = &(p_opt->common_opt.pa_lna); break; case BLE_COMMON_OPT_CONN_EVT_EXT: fp_decoder = ble_common_opt_conn_evt_ext_t_dec; p_struct = &(p_opt->common_opt.conn_evt_ext); break; case BLE_GAP_OPT_CH_MAP: fp_decoder = ble_gap_opt_ch_map_t_dec; p_struct =&(p_opt->gap_opt.ch_map); break; case BLE_GAP_OPT_LOCAL_CONN_LATENCY: fp_decoder = ble_gap_opt_local_conn_latency_t_dec; p_struct = &(p_opt->gap_opt.local_conn_latency); break; case BLE_GAP_OPT_PASSKEY: fp_decoder = ble_gap_opt_passkey_t_dec; p_struct = &(p_opt->gap_opt.passkey); break; case BLE_GAP_OPT_AUTH_PAYLOAD_TIMEOUT: fp_decoder = ble_gap_opt_auth_payload_timeout_t_dec; p_struct = &(p_opt->gap_opt.auth_payload_timeout); break; #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION < 4 case BLE_GAP_OPT_EXT_LEN: fp_decoder = ble_gap_opt_ext_len_t_dec; p_struct = &(p_opt->gap_opt.ext_len); break; #endif #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION < 6 case BLE_GAP_OPT_SCAN_REQ_REPORT: fp_decoder = ble_gap_opt_scan_req_report_t_dec; p_struct = &(p_opt->gap_opt.scan_req_report); break; #endif #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION < 4 case BLE_GAP_OPT_COMPAT_MODE: fp_decoder = ble_gap_opt_compat_mode_t_dec; p_struct = &(p_opt->gap_opt.compat_mode); break; #else #ifndef S112 case BLE_GAP_OPT_COMPAT_MODE_1: fp_decoder = ble_gap_opt_compat_mode_1_t_dec; p_struct = &(p_opt->gap_opt.compat_mode_1); break; #endif #endif #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION == 4 case BLE_GAP_OPT_COMPAT_MODE_2: fp_decoder = ble_gap_opt_compat_mode_2_t_dec; p_struct = &(p_opt->gap_opt.compat_mode_2); break; #endif default: SER_ASSERT(NRF_ERROR_INVALID_PARAM, NRF_ERROR_INVALID_PARAM); break; } SER_PULL_FIELD(p_struct, fp_decoder); SER_RSP_DEC_END; } uint32_t ble_opt_set_req_enc(uint32_t const opt_id, ble_opt_t const * const p_opt, uint8_t * const p_buf, uint32_t * const p_buf_len) { SER_REQ_ENC_BEGIN(SD_BLE_OPT_SET); SER_PUSH_uint32(&opt_id); field_encoder_handler_t fp_encoder = NULL; void const * p_struct = NULL; SER_PUSH_COND(p_opt, NULL); if (p_opt) { switch (opt_id) { #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION < 4 case BLE_COMMON_OPT_CONN_BW: fp_encoder = ble_common_opt_conn_bw_t_enc; p_struct = &(p_opt->common_opt.conn_bw); break; #endif case BLE_COMMON_OPT_PA_LNA: fp_encoder = ble_common_opt_pa_lna_t_enc; p_struct = &(p_opt->common_opt.pa_lna); break; case BLE_COMMON_OPT_CONN_EVT_EXT: fp_encoder = ble_common_opt_conn_evt_ext_t_enc; p_struct = &(p_opt->common_opt.conn_evt_ext); break; case BLE_GAP_OPT_CH_MAP: fp_encoder = ble_gap_opt_ch_map_t_enc; p_struct = &(p_opt->gap_opt.ch_map); break; case BLE_GAP_OPT_LOCAL_CONN_LATENCY: fp_encoder = ble_gap_opt_local_conn_latency_t_enc; p_struct = &(p_opt->gap_opt.local_conn_latency); break; case BLE_GAP_OPT_PASSKEY: fp_encoder = ble_gap_opt_passkey_t_enc; p_struct = &(p_opt->gap_opt.passkey); break; case BLE_GAP_OPT_AUTH_PAYLOAD_TIMEOUT: fp_encoder = ble_gap_opt_auth_payload_timeout_t_enc; p_struct = &(p_opt->gap_opt.auth_payload_timeout); break; #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION < 4 case BLE_GAP_OPT_EXT_LEN: fp_encoder = ble_gap_opt_ext_len_t_enc; p_struct = &(p_opt->gap_opt.ext_len); break; #endif #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION < 6 case BLE_GAP_OPT_SCAN_REQ_REPORT: fp_encoder = ble_gap_opt_scan_req_report_t_enc; p_struct = &(p_opt->gap_opt.scan_req_report); break; #endif #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION < 4 case BLE_GAP_OPT_COMPAT_MODE: fp_encoder = ble_gap_opt_compat_mode_t_enc; p_struct = &(p_opt->gap_opt.compat_mode); break; #else #ifndef S112 case BLE_GAP_OPT_COMPAT_MODE_1: fp_encoder = ble_gap_opt_compat_mode_1_t_enc; p_struct = &(p_opt->gap_opt.compat_mode_1); break; #endif case BLE_GAP_OPT_SLAVE_LATENCY_DISABLE: fp_encoder = ble_gap_opt_slave_latency_disable_t_enc; p_struct = &(p_opt->gap_opt.slave_latency_disable); break; #endif #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION == 4 case BLE_GAP_OPT_COMPAT_MODE_2: fp_encoder = ble_gap_opt_compat_mode_2_t_enc; p_struct = &(p_opt->gap_opt.compat_mode_2); break; #endif default: SER_ASSERT(NRF_ERROR_INVALID_PARAM,NRF_ERROR_INVALID_PARAM); break; } SER_PUSH_FIELD(p_struct, fp_encoder); } SER_REQ_ENC_END; } uint32_t ble_opt_set_rsp_dec(uint8_t const * const p_buf, uint32_t packet_len, uint32_t * const p_result_code) { SER_RSP_DEC_RESULT_ONLY(SD_BLE_OPT_SET); } #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION < 4 uint32_t ble_tx_packet_count_get_req_enc(uint16_t conn_handle, uint8_t const * const p_count, uint8_t * const p_buf, uint32_t * const p_buf_len) { SER_REQ_ENC_BEGIN(SD_BLE_TX_PACKET_COUNT_GET); SER_PUSH_uint16(&conn_handle); SER_PUSH_COND(p_count, NULL); SER_REQ_ENC_END; } uint32_t ble_tx_packet_count_get_rsp_dec(uint8_t const * const p_buf, uint32_t packet_len, uint8_t * * const pp_count, uint32_t * const p_result_code) { SER_RSP_DEC_BEGIN(SD_BLE_TX_PACKET_COUNT_GET); SER_PULL_COND(pp_count, uint8_t_dec); SER_RSP_DEC_END; } #endif uint32_t ble_user_mem_reply_req_enc(uint16_t conn_handle, ble_user_mem_block_t const * p_block, uint8_t * const p_buf, uint32_t * const p_buf_len) { SER_REQ_ENC_BEGIN(SD_BLE_USER_MEM_REPLY); SER_PUSH_uint16(&conn_handle); SER_PUSH_COND(p_block, ble_user_mem_block_t_enc); SER_REQ_ENC_END; } uint32_t ble_user_mem_reply_rsp_dec(uint8_t const * const p_buf, uint32_t packet_len, uint32_t * const p_result_code) { SER_RSP_DEC_RESULT_ONLY(SD_BLE_USER_MEM_REPLY); } uint32_t ble_uuid_decode_req_enc(uint8_t uuid_le_len, uint8_t const * const p_uuid_le, ble_uuid_t * const p_uuid, uint8_t * const p_buf, uint32_t * const p_buf_len) { SER_REQ_ENC_BEGIN(SD_BLE_UUID_DECODE); SER_PUSH_len8data(p_uuid_le, uuid_le_len); SER_PUSH_COND(p_uuid, NULL); SER_REQ_ENC_END; } uint32_t ble_uuid_decode_rsp_dec(uint8_t const * const p_buf, uint32_t packet_len, ble_uuid_t * * const pp_uuid, uint32_t * const p_result_code) { SER_RSP_DEC_BEGIN(SD_BLE_UUID_DECODE); SER_PULL_COND(pp_uuid, ble_uuid_t_dec); SER_RSP_DEC_END; } uint32_t ble_uuid_encode_req_enc(ble_uuid_t const * const p_uuid, uint8_t const * const p_uuid_le_len, uint8_t const * const p_uuid_le, uint8_t * const p_buf, uint32_t * const p_buf_len) { SER_REQ_ENC_BEGIN(SD_BLE_UUID_ENCODE); SER_PUSH_COND(p_uuid, ble_uuid_t_enc); SER_PUSH_COND(p_uuid_le_len, NULL); SER_PUSH_COND(p_uuid_le, NULL); SER_REQ_ENC_END; } uint32_t ble_uuid_encode_rsp_dec(uint8_t const * const p_buf, uint32_t packet_len, uint8_t * const p_uuid_le_len, uint8_t * const p_uuid_le, uint32_t * const p_result_code) { SER_RSP_DEC_BEGIN(SD_BLE_UUID_ENCODE); uint8_t uuid_le_len; SER_PULL_uint8(&uuid_le_len); if (p_uuid_le_len) { *p_uuid_le_len = uuid_le_len; if (p_uuid_le) { SER_PULL_uint8array(p_uuid_le, uuid_le_len); } } SER_RSP_DEC_END; } uint32_t ble_uuid_vs_add_req_enc(ble_uuid128_t const * const p_vs_uuid, uint8_t * const p_uuid_type, uint8_t * const p_buf, uint32_t * const p_buf_len) { SER_REQ_ENC_BEGIN(SD_BLE_UUID_VS_ADD); SER_PUSH_COND(p_vs_uuid, ble_uuid128_t_enc); SER_PUSH_COND(p_uuid_type, NULL); SER_REQ_ENC_END; } uint32_t ble_uuid_vs_add_rsp_dec(uint8_t const * const p_buf, uint32_t packet_len, uint8_t * * const pp_uuid_type, uint32_t * const p_result_code) { SER_RSP_DEC_BEGIN(SD_BLE_UUID_VS_ADD); SER_ASSERT_NOT_NULL(pp_uuid_type); SER_PULL_COND(pp_uuid_type, uint8_t_dec); SER_RSP_DEC_END; } uint32_t ble_version_get_req_enc(ble_version_t const * const p_version, uint8_t * const p_buf, uint32_t * const p_buf_len) { SER_REQ_ENC_BEGIN(SD_BLE_VERSION_GET); SER_PUSH_COND(p_version, NULL); SER_REQ_ENC_END; } uint32_t ble_version_get_rsp_dec(uint8_t const * const p_buf, uint32_t packet_len, ble_version_t * p_version, uint32_t * const p_result_code) { SER_RSP_DEC_BEGIN(SD_BLE_VERSION_GET); SER_PULL_FIELD(p_version, ble_version_t_dec); SER_RSP_DEC_END; } #if NRF_SD_BLE_API_VERSION >= 4 uint32_t ble_cfg_set_req_enc(uint32_t cfg_id, ble_cfg_t const * p_cfg, uint8_t * const p_buf, uint32_t * const p_buf_len) { SER_REQ_ENC_BEGIN(SD_BLE_CFG_SET); SER_PUSH_uint32(&cfg_id); field_encoder_handler_t fp_encoder = NULL; void const * p_struct = NULL; SER_PUSH_COND(p_cfg, NULL); if (p_cfg) { switch (cfg_id) { case BLE_CONN_CFG_GAP: fp_encoder = ble_gap_conn_cfg_t_enc; p_struct = &(p_cfg->conn_cfg.params.gap_conn_cfg); break; case BLE_CONN_CFG_GATTC: fp_encoder = ble_gattc_conn_cfg_t_enc; p_struct = &(p_cfg->conn_cfg.params.gattc_conn_cfg); break; case BLE_CONN_CFG_GATTS: fp_encoder = ble_gatts_conn_cfg_t_enc; p_struct = &(p_cfg->conn_cfg.params.gatts_conn_cfg); break; case BLE_CONN_CFG_GATT: fp_encoder = ble_gatt_conn_cfg_t_enc; p_struct = &(p_cfg->conn_cfg.params.gatt_conn_cfg); break; #if defined(NRF_SD_BLE_API_VERSION) && NRF_SD_BLE_API_VERSION >= 5 && !defined(S112) case BLE_CONN_CFG_L2CAP: fp_encoder = ble_l2cap_conn_cfg_t_enc; p_struct = &(p_cfg->conn_cfg.params.l2cap_conn_cfg); break; #endif case BLE_COMMON_CFG_VS_UUID: fp_encoder = ble_common_cfg_vs_uuid_t_enc; p_struct = &(p_cfg->common_cfg.vs_uuid_cfg); break; case BLE_GAP_CFG_ROLE_COUNT: fp_encoder = ble_gap_cfg_role_count_t_enc; p_struct = &(p_cfg->gap_cfg.role_count_cfg); break; case BLE_GAP_CFG_DEVICE_NAME: fp_encoder = ble_gap_cfg_device_name_t_enc; p_struct = &(p_cfg->gap_cfg.device_name_cfg); break; case BLE_GATTS_CFG_SERVICE_CHANGED: fp_encoder = ble_gatts_cfg_service_changed_t_enc; p_struct = &(p_cfg->gatts_cfg.service_changed); break; case BLE_GATTS_CFG_ATTR_TAB_SIZE: fp_encoder = ble_gatts_cfg_attr_tab_size_t_enc; p_struct = &(p_cfg->gatts_cfg.attr_tab_size); break; } if (cfg_id >= BLE_CONN_CFG_BASE && cfg_id <= BLE_CONN_CFG_GATT) { SER_PUSH_uint8(&p_cfg->conn_cfg.conn_cfg_tag); } SER_PUSH_FIELD(p_struct, fp_encoder); } SER_REQ_ENC_END; } uint32_t ble_cfg_set_rsp_dec(uint8_t const * const p_buf, uint32_t packet_len, uint32_t * const p_result_code) { SER_RSP_DEC_RESULT_ONLY(SD_BLE_CFG_SET); } #endif //NRF_SD_BLE_API_VERSION >= 4