/** * Copyright 2013-2021 Software Radio Systems Limited * * This file is part of srsRAN. * * srsRAN is free software: you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as * published by the Free Software Foundation, either version 3 of * the License, or (at your option) any later version. * * srsRAN is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Affero General Public License for more details. * * A copy of the GNU Affero General Public License can be found in * the LICENSE file in the top-level directory of this distribution * and at http://www.gnu.org/licenses/. * */ /******************************************************************************* * * 3GPP TS ASN1 RRC v15.11.0 (2020-09) * ******************************************************************************/ #ifndef SRSASN1_RRC_H #define SRSASN1_RRC_H #include "rrc/bcch_msg.h" #include "rrc/dl_ccch_msg.h" #include "rrc/ho_cmd.h" #include "rrc/ul_ccch_msg.h" #include "rrc/ul_dcch_msg.h" namespace asn1 { namespace rrc { /******************************************************************************* * Struct Definitions ******************************************************************************/ // MasterInformationBlock-MBMS-r14 ::= SEQUENCE struct mib_mbms_r14_s { struct dl_bw_mbms_r14_opts { enum options { n6, n15, n25, n50, n75, n100, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated dl_bw_mbms_r14_e_; // member variables dl_bw_mbms_r14_e_ dl_bw_mbms_r14; fixed_bitstring<6> sys_frame_num_r14; uint8_t add_non_mbsfn_sfs_r14 = 0; fixed_bitstring<13> spare; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // BCCH-BCH-MessageType-MBMS-r14 ::= MasterInformationBlock-MBMS-r14 using bcch_bch_msg_type_mbms_r14_s = mib_mbms_r14_s; // BCCH-BCH-Message-MBMS ::= SEQUENCE struct bcch_bch_msg_mbms_s { bcch_bch_msg_type_mbms_r14_s msg; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SystemInformation-MBMS-r14 ::= SystemInformation using sys_info_mbms_r14_s = sys_info_s; // BCCH-DL-SCH-MessageType-MBMS-r14 ::= CHOICE struct bcch_dl_sch_msg_type_mbms_r14_c { struct c1_c_ { struct types_opts { enum options { sys_info_mbms_r14, sib_type1_mbms_r14, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated types; // choice methods c1_c_() = default; c1_c_(const c1_c_& other); c1_c_& operator=(const c1_c_& other); ~c1_c_() { destroy_(); } void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters sys_info_mbms_r14_s& sys_info_mbms_r14() { assert_choice_type(types::sys_info_mbms_r14, type_, "c1"); return c.get(); } sib_type1_mbms_r14_s& sib_type1_mbms_r14() { assert_choice_type(types::sib_type1_mbms_r14, type_, "c1"); return c.get(); } const sys_info_mbms_r14_s& sys_info_mbms_r14() const { assert_choice_type(types::sys_info_mbms_r14, type_, "c1"); return c.get(); } const sib_type1_mbms_r14_s& sib_type1_mbms_r14() const { assert_choice_type(types::sib_type1_mbms_r14, type_, "c1"); return c.get(); } sys_info_mbms_r14_s& set_sys_info_mbms_r14(); sib_type1_mbms_r14_s& set_sib_type1_mbms_r14(); private: types type_; choice_buffer_t c; void destroy_(); }; struct types_opts { enum options { c1, msg_class_ext, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated types; // choice methods bcch_dl_sch_msg_type_mbms_r14_c() = default; void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters c1_c_& c1() { assert_choice_type(types::c1, type_, "BCCH-DL-SCH-MessageType-MBMS-r14"); return c; } const c1_c_& c1() const { assert_choice_type(types::c1, type_, "BCCH-DL-SCH-MessageType-MBMS-r14"); return c; } c1_c_& set_c1(); void set_msg_class_ext(); private: types type_; c1_c_ c; }; // BCCH-DL-SCH-Message-MBMS ::= SEQUENCE struct bcch_dl_sch_msg_mbms_s { bcch_dl_sch_msg_type_mbms_r14_c msg; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // ThresholdEUTRA-v1250 ::= INTEGER (0..97) using thres_eutra_v1250 = integer; // MBMS-SessionInfo-r9 ::= SEQUENCE struct mbms_session_info_r9_s { bool ext = false; bool session_id_r9_present = false; tmgi_r9_s tmgi_r9; fixed_octstring<1> session_id_r9; uint8_t lc_ch_id_r9 = 0; // ... // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MBMS-SessionInfoList-r9 ::= SEQUENCE (SIZE (0..29)) OF MBMS-SessionInfo-r9 using mbms_session_info_list_r9_l = dyn_array; // PMCH-Config-r12 ::= SEQUENCE struct pmch_cfg_r12_s { struct data_mcs_r12_c_ { struct types_opts { enum options { normal_r12, higer_order_r12, nulltype } value; const char* to_string() const; }; typedef enumerated types; // choice methods data_mcs_r12_c_() = default; data_mcs_r12_c_(const data_mcs_r12_c_& other); data_mcs_r12_c_& operator=(const data_mcs_r12_c_& other); ~data_mcs_r12_c_() { destroy_(); } void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters uint8_t& normal_r12() { assert_choice_type(types::normal_r12, type_, "dataMCS-r12"); return c.get(); } uint8_t& higer_order_r12() { assert_choice_type(types::higer_order_r12, type_, "dataMCS-r12"); return c.get(); } const uint8_t& normal_r12() const { assert_choice_type(types::normal_r12, type_, "dataMCS-r12"); return c.get(); } const uint8_t& higer_order_r12() const { assert_choice_type(types::higer_order_r12, type_, "dataMCS-r12"); return c.get(); } uint8_t& set_normal_r12(); uint8_t& set_higer_order_r12(); private: types type_; pod_choice_buffer_t c; void destroy_(); }; struct mch_sched_period_r12_opts { enum options { rf4, rf8, rf16, rf32, rf64, rf128, rf256, rf512, rf1024, nulltype } value; typedef uint16_t number_type; const char* to_string() const; uint16_t to_number() const; }; typedef enumerated mch_sched_period_r12_e_; struct mch_sched_period_v1430_opts { enum options { rf1, rf2, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated mch_sched_period_v1430_e_; // member variables bool ext = false; uint16_t sf_alloc_end_r12 = 0; data_mcs_r12_c_ data_mcs_r12; mch_sched_period_r12_e_ mch_sched_period_r12; // ... // group 0 bool mch_sched_period_v1430_present = false; mch_sched_period_v1430_e_ mch_sched_period_v1430; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // CommonSF-AllocPatternList-r14 ::= SEQUENCE (SIZE (1..8)) OF MBSFN-SubframeConfig-v1430 using common_sf_alloc_pattern_list_r14_l = dyn_array; // PMCH-InfoExt-r12 ::= SEQUENCE struct pmch_info_ext_r12_s { bool ext = false; pmch_cfg_r12_s pmch_cfg_r12; mbms_session_info_list_r9_l mbms_session_info_list_r12; // ... // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MBSFNAreaConfiguration-v1430-IEs ::= SEQUENCE struct mbsfn_area_cfg_v1430_ies_s { bool non_crit_ext_present = false; common_sf_alloc_pattern_list_r14_l common_sf_alloc_r14; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // PMCH-Config-r9 ::= SEQUENCE struct pmch_cfg_r9_s { struct mch_sched_period_r9_opts { enum options { rf8, rf16, rf32, rf64, rf128, rf256, rf512, rf1024, nulltype } value; typedef uint16_t number_type; const char* to_string() const; uint16_t to_number() const; }; typedef enumerated mch_sched_period_r9_e_; // member variables bool ext = false; uint16_t sf_alloc_end_r9 = 0; uint8_t data_mcs_r9 = 0; mch_sched_period_r9_e_ mch_sched_period_r9; // ... // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // PMCH-InfoListExt-r12 ::= SEQUENCE (SIZE (0..15)) OF PMCH-InfoExt-r12 using pmch_info_list_ext_r12_l = dyn_array; // CountingRequestInfo-r10 ::= SEQUENCE struct count_request_info_r10_s { bool ext = false; tmgi_r9_s tmgi_r10; // ... // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MBSFNAreaConfiguration-v1250-IEs ::= SEQUENCE struct mbsfn_area_cfg_v1250_ies_s { bool pmch_info_list_ext_r12_present = false; bool non_crit_ext_present = false; pmch_info_list_ext_r12_l pmch_info_list_ext_r12; mbsfn_area_cfg_v1430_ies_s non_crit_ext; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // PMCH-Info-r9 ::= SEQUENCE struct pmch_info_r9_s { bool ext = false; pmch_cfg_r9_s pmch_cfg_r9; mbms_session_info_list_r9_l mbms_session_info_list_r9; // ... // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // CommonSF-AllocPatternList-r9 ::= SEQUENCE (SIZE (1..8)) OF MBSFN-SubframeConfig using common_sf_alloc_pattern_list_r9_l = dyn_array; // CountingRequestList-r10 ::= SEQUENCE (SIZE (1..16)) OF CountingRequestInfo-r10 using count_request_list_r10_l = dyn_array; // MBSFNAreaConfiguration-v930-IEs ::= SEQUENCE struct mbsfn_area_cfg_v930_ies_s { bool late_non_crit_ext_present = false; bool non_crit_ext_present = false; dyn_octstring late_non_crit_ext; mbsfn_area_cfg_v1250_ies_s non_crit_ext; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // PMCH-InfoList-r9 ::= SEQUENCE (SIZE (0..15)) OF PMCH-Info-r9 using pmch_info_list_r9_l = dyn_array; // MBMSCountingRequest-r10 ::= SEQUENCE struct mbms_count_request_r10_s { bool late_non_crit_ext_present = false; bool non_crit_ext_present = false; count_request_list_r10_l count_request_list_r10; dyn_octstring late_non_crit_ext; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MBSFNAreaConfiguration-r9 ::= SEQUENCE struct mbsfn_area_cfg_r9_s { struct common_sf_alloc_period_r9_opts { enum options { rf4, rf8, rf16, rf32, rf64, rf128, rf256, nulltype } value; typedef uint16_t number_type; const char* to_string() const; uint16_t to_number() const; }; typedef enumerated common_sf_alloc_period_r9_e_; // member variables bool non_crit_ext_present = false; common_sf_alloc_pattern_list_r9_l common_sf_alloc_r9; common_sf_alloc_period_r9_e_ common_sf_alloc_period_r9; pmch_info_list_r9_l pmch_info_list_r9; mbsfn_area_cfg_v930_ies_s non_crit_ext; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MCCH-MessageType ::= CHOICE struct mcch_msg_type_c { struct c1_c_ { struct types_opts { enum options { mbsfn_area_cfg_r9, nulltype } value; const char* to_string() const; }; typedef enumerated types; // choice methods types type() const { return types::mbsfn_area_cfg_r9; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters mbsfn_area_cfg_r9_s& mbsfn_area_cfg_r9() { return c; } const mbsfn_area_cfg_r9_s& mbsfn_area_cfg_r9() const { return c; } private: mbsfn_area_cfg_r9_s c; }; struct later_c_ { struct c2_c_ { struct types_opts { enum options { mbms_count_request_r10, nulltype } value; const char* to_string() const; }; typedef enumerated types; // choice methods types type() const { return types::mbms_count_request_r10; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters mbms_count_request_r10_s& mbms_count_request_r10() { return c; } const mbms_count_request_r10_s& mbms_count_request_r10() const { return c; } private: mbms_count_request_r10_s c; }; struct types_opts { enum options { c2, msg_class_ext, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated types; // choice methods later_c_() = default; void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters c2_c_& c2() { assert_choice_type(types::c2, type_, "later"); return c; } const c2_c_& c2() const { assert_choice_type(types::c2, type_, "later"); return c; } c2_c_& set_c2(); void set_msg_class_ext(); private: types type_; c2_c_ c; }; struct types_opts { enum options { c1, later, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated types; // choice methods mcch_msg_type_c() = default; mcch_msg_type_c(const mcch_msg_type_c& other); mcch_msg_type_c& operator=(const mcch_msg_type_c& other); ~mcch_msg_type_c() { destroy_(); } void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters c1_c_& c1() { assert_choice_type(types::c1, type_, "MCCH-MessageType"); return c.get(); } later_c_& later() { assert_choice_type(types::later, type_, "MCCH-MessageType"); return c.get(); } const c1_c_& c1() const { assert_choice_type(types::c1, type_, "MCCH-MessageType"); return c.get(); } const later_c_& later() const { assert_choice_type(types::later, type_, "MCCH-MessageType"); return c.get(); } c1_c_& set_c1(); later_c_& set_later(); private: types type_; choice_buffer_t c; void destroy_(); }; // MCCH-Message ::= SEQUENCE struct mcch_msg_s { mcch_msg_type_c msg; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MBMSSessionInfo-r13 ::= SEQUENCE struct mbms_session_info_r13_s { bool session_id_r13_present = false; tmgi_r9_s tmgi_r13; fixed_octstring<1> session_id_r13; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SC-MTCH-SchedulingInfo-BR-r14 ::= SEQUENCE struct sc_mtch_sched_info_br_r14_s { struct on_dur_timer_scptm_r14_opts { enum options { psf300, psf400, psf500, psf600, psf800, psf1000, psf1200, psf1600, nulltype } value; typedef uint16_t number_type; const char* to_string() const; uint16_t to_number() const; }; typedef enumerated on_dur_timer_scptm_r14_e_; struct drx_inactivity_timer_scptm_r14_opts { enum options { psf0, psf1, psf2, psf4, psf8, psf16, psf32, psf64, psf128, psf256, ps512, psf1024, psf2048, psf4096, psf8192, psf16384, nulltype } value; typedef uint16_t number_type; const char* to_string() const; uint16_t to_number() const; }; typedef enumerated drx_inactivity_timer_scptm_r14_e_; struct sched_period_start_offset_scptm_r14_c_ { struct types_opts { enum options { sf10, sf20, sf32, sf40, sf64, sf80, sf128, sf160, sf256, sf320, sf512, sf640, sf1024, sf2048, sf4096, sf8192, nulltype } value; typedef uint16_t number_type; const char* to_string() const; uint16_t to_number() const; }; typedef enumerated types; // choice methods sched_period_start_offset_scptm_r14_c_() = default; sched_period_start_offset_scptm_r14_c_(const sched_period_start_offset_scptm_r14_c_& other); sched_period_start_offset_scptm_r14_c_& operator=(const sched_period_start_offset_scptm_r14_c_& other); ~sched_period_start_offset_scptm_r14_c_() { destroy_(); } void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters uint8_t& sf10() { assert_choice_type(types::sf10, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint8_t& sf20() { assert_choice_type(types::sf20, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint8_t& sf32() { assert_choice_type(types::sf32, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint8_t& sf40() { assert_choice_type(types::sf40, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint8_t& sf64() { assert_choice_type(types::sf64, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint8_t& sf80() { assert_choice_type(types::sf80, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint8_t& sf128() { assert_choice_type(types::sf128, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint8_t& sf160() { assert_choice_type(types::sf160, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint16_t& sf256() { assert_choice_type(types::sf256, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint16_t& sf320() { assert_choice_type(types::sf320, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint16_t& sf512() { assert_choice_type(types::sf512, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint16_t& sf640() { assert_choice_type(types::sf640, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint16_t& sf1024() { assert_choice_type(types::sf1024, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint16_t& sf2048() { assert_choice_type(types::sf2048, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint16_t& sf4096() { assert_choice_type(types::sf4096, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint16_t& sf8192() { assert_choice_type(types::sf8192, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint8_t& sf10() const { assert_choice_type(types::sf10, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint8_t& sf20() const { assert_choice_type(types::sf20, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint8_t& sf32() const { assert_choice_type(types::sf32, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint8_t& sf40() const { assert_choice_type(types::sf40, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint8_t& sf64() const { assert_choice_type(types::sf64, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint8_t& sf80() const { assert_choice_type(types::sf80, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint8_t& sf128() const { assert_choice_type(types::sf128, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint8_t& sf160() const { assert_choice_type(types::sf160, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint16_t& sf256() const { assert_choice_type(types::sf256, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint16_t& sf320() const { assert_choice_type(types::sf320, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint16_t& sf512() const { assert_choice_type(types::sf512, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint16_t& sf640() const { assert_choice_type(types::sf640, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint16_t& sf1024() const { assert_choice_type(types::sf1024, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint16_t& sf2048() const { assert_choice_type(types::sf2048, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint16_t& sf4096() const { assert_choice_type(types::sf4096, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } const uint16_t& sf8192() const { assert_choice_type(types::sf8192, type_, "schedulingPeriodStartOffsetSCPTM-r14"); return c.get(); } uint8_t& set_sf10(); uint8_t& set_sf20(); uint8_t& set_sf32(); uint8_t& set_sf40(); uint8_t& set_sf64(); uint8_t& set_sf80(); uint8_t& set_sf128(); uint8_t& set_sf160(); uint16_t& set_sf256(); uint16_t& set_sf320(); uint16_t& set_sf512(); uint16_t& set_sf640(); uint16_t& set_sf1024(); uint16_t& set_sf2048(); uint16_t& set_sf4096(); uint16_t& set_sf8192(); private: types type_; pod_choice_buffer_t c; void destroy_(); }; // member variables bool ext = false; on_dur_timer_scptm_r14_e_ on_dur_timer_scptm_r14; drx_inactivity_timer_scptm_r14_e_ drx_inactivity_timer_scptm_r14; sched_period_start_offset_scptm_r14_c_ sched_period_start_offset_scptm_r14; // ... // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SC-MTCH-SchedulingInfo-r13 ::= SEQUENCE struct sc_mtch_sched_info_r13_s { struct on_dur_timer_scptm_r13_opts { enum options { psf1, psf2, psf3, psf4, psf5, psf6, psf8, psf10, psf20, psf30, psf40, psf50, psf60, psf80, psf100, psf200, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated on_dur_timer_scptm_r13_e_; struct drx_inactivity_timer_scptm_r13_opts { enum options { psf0, psf1, psf2, psf4, psf8, psf10, psf20, psf40, psf80, psf160, ps320, psf640, psf960, psf1280, psf1920, psf2560, nulltype } value; typedef uint16_t number_type; const char* to_string() const; uint16_t to_number() const; }; typedef enumerated drx_inactivity_timer_scptm_r13_e_; struct sched_period_start_offset_scptm_r13_c_ { struct types_opts { enum options { sf10, sf20, sf32, sf40, sf64, sf80, sf128, sf160, sf256, sf320, sf512, sf640, sf1024, sf2048, sf4096, sf8192, nulltype } value; typedef uint16_t number_type; const char* to_string() const; uint16_t to_number() const; }; typedef enumerated types; // choice methods sched_period_start_offset_scptm_r13_c_() = default; sched_period_start_offset_scptm_r13_c_(const sched_period_start_offset_scptm_r13_c_& other); sched_period_start_offset_scptm_r13_c_& operator=(const sched_period_start_offset_scptm_r13_c_& other); ~sched_period_start_offset_scptm_r13_c_() { destroy_(); } void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters uint8_t& sf10() { assert_choice_type(types::sf10, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint8_t& sf20() { assert_choice_type(types::sf20, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint8_t& sf32() { assert_choice_type(types::sf32, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint8_t& sf40() { assert_choice_type(types::sf40, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint8_t& sf64() { assert_choice_type(types::sf64, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint8_t& sf80() { assert_choice_type(types::sf80, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint8_t& sf128() { assert_choice_type(types::sf128, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint8_t& sf160() { assert_choice_type(types::sf160, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint16_t& sf256() { assert_choice_type(types::sf256, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint16_t& sf320() { assert_choice_type(types::sf320, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint16_t& sf512() { assert_choice_type(types::sf512, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint16_t& sf640() { assert_choice_type(types::sf640, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint16_t& sf1024() { assert_choice_type(types::sf1024, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint16_t& sf2048() { assert_choice_type(types::sf2048, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint16_t& sf4096() { assert_choice_type(types::sf4096, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint16_t& sf8192() { assert_choice_type(types::sf8192, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint8_t& sf10() const { assert_choice_type(types::sf10, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint8_t& sf20() const { assert_choice_type(types::sf20, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint8_t& sf32() const { assert_choice_type(types::sf32, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint8_t& sf40() const { assert_choice_type(types::sf40, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint8_t& sf64() const { assert_choice_type(types::sf64, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint8_t& sf80() const { assert_choice_type(types::sf80, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint8_t& sf128() const { assert_choice_type(types::sf128, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint8_t& sf160() const { assert_choice_type(types::sf160, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint16_t& sf256() const { assert_choice_type(types::sf256, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint16_t& sf320() const { assert_choice_type(types::sf320, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint16_t& sf512() const { assert_choice_type(types::sf512, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint16_t& sf640() const { assert_choice_type(types::sf640, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint16_t& sf1024() const { assert_choice_type(types::sf1024, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint16_t& sf2048() const { assert_choice_type(types::sf2048, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint16_t& sf4096() const { assert_choice_type(types::sf4096, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } const uint16_t& sf8192() const { assert_choice_type(types::sf8192, type_, "schedulingPeriodStartOffsetSCPTM-r13"); return c.get(); } uint8_t& set_sf10(); uint8_t& set_sf20(); uint8_t& set_sf32(); uint8_t& set_sf40(); uint8_t& set_sf64(); uint8_t& set_sf80(); uint8_t& set_sf128(); uint8_t& set_sf160(); uint16_t& set_sf256(); uint16_t& set_sf320(); uint16_t& set_sf512(); uint16_t& set_sf640(); uint16_t& set_sf1024(); uint16_t& set_sf2048(); uint16_t& set_sf4096(); uint16_t& set_sf8192(); private: types type_; pod_choice_buffer_t c; void destroy_(); }; // member variables bool ext = false; on_dur_timer_scptm_r13_e_ on_dur_timer_scptm_r13; drx_inactivity_timer_scptm_r13_e_ drx_inactivity_timer_scptm_r13; sched_period_start_offset_scptm_r13_c_ sched_period_start_offset_scptm_r13; // ... // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // PCI-ARFCN-r13 ::= SEQUENCE struct pci_arfcn_r13_s { bool carrier_freq_r13_present = false; uint16_t pci_r13 = 0; uint32_t carrier_freq_r13 = 0; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SC-MTCH-Info-BR-r14 ::= SEQUENCE struct sc_mtch_info_br_r14_s { struct mpdcch_num_repeat_sc_mtch_r14_opts { enum options { r1, r2, r4, r8, r16, r32, r64, r128, r256, nulltype } value; typedef uint16_t number_type; const char* to_string() const; uint16_t to_number() const; }; typedef enumerated mpdcch_num_repeat_sc_mtch_r14_e_; struct mpdcch_start_sf_sc_mtch_r14_c_ { struct fdd_r14_opts { enum options { v1, v1dot5, v2, v2dot5, v4, v5, v8, v10, nulltype } value; typedef float number_type; const char* to_string() const; float to_number() const; const char* to_number_string() const; }; typedef enumerated fdd_r14_e_; struct tdd_r14_opts { enum options { v1, v2, v4, v5, v8, v10, v20, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated tdd_r14_e_; struct types_opts { enum options { fdd_r14, tdd_r14, nulltype } value; const char* to_string() const; }; typedef enumerated types; // choice methods mpdcch_start_sf_sc_mtch_r14_c_() = default; mpdcch_start_sf_sc_mtch_r14_c_(const mpdcch_start_sf_sc_mtch_r14_c_& other); mpdcch_start_sf_sc_mtch_r14_c_& operator=(const mpdcch_start_sf_sc_mtch_r14_c_& other); ~mpdcch_start_sf_sc_mtch_r14_c_() { destroy_(); } void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters fdd_r14_e_& fdd_r14() { assert_choice_type(types::fdd_r14, type_, "mpdcch-StartSF-SC-MTCH-r14"); return c.get(); } tdd_r14_e_& tdd_r14() { assert_choice_type(types::tdd_r14, type_, "mpdcch-StartSF-SC-MTCH-r14"); return c.get(); } const fdd_r14_e_& fdd_r14() const { assert_choice_type(types::fdd_r14, type_, "mpdcch-StartSF-SC-MTCH-r14"); return c.get(); } const tdd_r14_e_& tdd_r14() const { assert_choice_type(types::tdd_r14, type_, "mpdcch-StartSF-SC-MTCH-r14"); return c.get(); } fdd_r14_e_& set_fdd_r14(); tdd_r14_e_& set_tdd_r14(); private: types type_; pod_choice_buffer_t c; void destroy_(); }; struct mpdcch_pdsch_hop_cfg_sc_mtch_r14_opts { enum options { on, off, nulltype } value; const char* to_string() const; }; typedef enumerated mpdcch_pdsch_hop_cfg_sc_mtch_r14_e_; struct mpdcch_pdsch_cemode_cfg_sc_mtch_r14_opts { enum options { ce_mode_a, ce_mode_b, nulltype } value; const char* to_string() const; }; typedef enumerated mpdcch_pdsch_cemode_cfg_sc_mtch_r14_e_; struct mpdcch_pdsch_max_bw_sc_mtch_r14_opts { enum options { bw1dot4, bw5, nulltype } value; typedef float number_type; const char* to_string() const; float to_number() const; const char* to_number_string() const; }; typedef enumerated mpdcch_pdsch_max_bw_sc_mtch_r14_e_; struct mpdcch_offset_sc_mtch_r14_opts { enum options { zero, one_eighth, one_quarter, three_eighth, one_half, five_eighth, three_quarter, seven_eighth, nulltype } value; typedef float number_type; const char* to_string() const; float to_number() const; const char* to_number_string() const; }; typedef enumerated mpdcch_offset_sc_mtch_r14_e_; struct p_a_r14_opts { enum options { db_minus6, db_minus4dot77, db_minus3, db_minus1dot77, db0, db1, db2, db3, nulltype } value; typedef float number_type; const char* to_string() const; float to_number() const; const char* to_number_string() const; }; typedef enumerated p_a_r14_e_; // member variables bool ext = false; bool sc_mtch_sched_info_r14_present = false; bool sc_mtch_neighbour_cell_r14_present = false; bool p_a_r14_present = false; uint32_t sc_mtch_carrier_freq_r14 = 0; mbms_session_info_r13_s mbms_session_info_r14; fixed_bitstring<16> g_rnti_r14; sc_mtch_sched_info_br_r14_s sc_mtch_sched_info_r14; fixed_bitstring<8> sc_mtch_neighbour_cell_r14; uint8_t mpdcch_nb_sc_mtch_r14 = 1; mpdcch_num_repeat_sc_mtch_r14_e_ mpdcch_num_repeat_sc_mtch_r14; mpdcch_start_sf_sc_mtch_r14_c_ mpdcch_start_sf_sc_mtch_r14; mpdcch_pdsch_hop_cfg_sc_mtch_r14_e_ mpdcch_pdsch_hop_cfg_sc_mtch_r14; mpdcch_pdsch_cemode_cfg_sc_mtch_r14_e_ mpdcch_pdsch_cemode_cfg_sc_mtch_r14; mpdcch_pdsch_max_bw_sc_mtch_r14_e_ mpdcch_pdsch_max_bw_sc_mtch_r14; mpdcch_offset_sc_mtch_r14_e_ mpdcch_offset_sc_mtch_r14; p_a_r14_e_ p_a_r14; // ... // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SC-MTCH-Info-r13 ::= SEQUENCE struct sc_mtch_info_r13_s { struct p_a_r13_opts { enum options { db_minus6, db_minus4dot77, db_minus3, db_minus1dot77, db0, db1, db2, db3, nulltype } value; typedef float number_type; const char* to_string() const; float to_number() const; const char* to_number_string() const; }; typedef enumerated p_a_r13_e_; // member variables bool ext = false; bool sc_mtch_sched_info_r13_present = false; bool sc_mtch_neighbour_cell_r13_present = false; mbms_session_info_r13_s mbms_session_info_r13; fixed_bitstring<16> g_rnti_r13; sc_mtch_sched_info_r13_s sc_mtch_sched_info_r13; fixed_bitstring<8> sc_mtch_neighbour_cell_r13; // ... // group 0 bool p_a_r13_present = false; p_a_r13_e_ p_a_r13; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SC-MTCH-InfoList-BR-r14 ::= SEQUENCE (SIZE (0..128)) OF SC-MTCH-Info-BR-r14 using sc_mtch_info_list_br_r14_l = dyn_array; // SC-MTCH-InfoList-r13 ::= SEQUENCE (SIZE (0..1023)) OF SC-MTCH-Info-r13 using sc_mtch_info_list_r13_l = dyn_array; // SCPTM-NeighbourCellList-r13 ::= SEQUENCE (SIZE (1..8)) OF PCI-ARFCN-r13 using scptm_neighbour_cell_list_r13_l = dyn_array; // SCPTMConfiguration-v1340 ::= SEQUENCE struct scptm_cfg_v1340_s { bool p_b_r13_present = false; bool non_crit_ext_present = false; uint8_t p_b_r13 = 0; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SCPTMConfiguration-BR-r14 ::= SEQUENCE struct scptm_cfg_br_r14_s { bool scptm_neighbour_cell_list_r14_present = false; bool p_b_r14_present = false; bool late_non_crit_ext_present = false; bool non_crit_ext_present = false; sc_mtch_info_list_br_r14_l sc_mtch_info_list_r14; scptm_neighbour_cell_list_r13_l scptm_neighbour_cell_list_r14; uint8_t p_b_r14 = 0; dyn_octstring late_non_crit_ext; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SCPTMConfiguration-r13 ::= SEQUENCE struct scptm_cfg_r13_s { bool scptm_neighbour_cell_list_r13_present = false; bool late_non_crit_ext_present = false; bool non_crit_ext_present = false; sc_mtch_info_list_r13_l sc_mtch_info_list_r13; scptm_neighbour_cell_list_r13_l scptm_neighbour_cell_list_r13; dyn_octstring late_non_crit_ext; scptm_cfg_v1340_s non_crit_ext; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SC-MCCH-MessageType-r13 ::= CHOICE struct sc_mcch_msg_type_r13_c { struct c1_c_ { struct types_opts { enum options { scptm_cfg_r13, nulltype } value; const char* to_string() const; }; typedef enumerated types; // choice methods types type() const { return types::scptm_cfg_r13; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters scptm_cfg_r13_s& scptm_cfg_r13() { return c; } const scptm_cfg_r13_s& scptm_cfg_r13() const { return c; } private: scptm_cfg_r13_s c; }; struct msg_class_ext_c_ { struct c2_c_ { struct types_opts { enum options { scptm_cfg_br_r14, spare, nulltype } value; const char* to_string() const; }; typedef enumerated types; // choice methods c2_c_() = default; void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters scptm_cfg_br_r14_s& scptm_cfg_br_r14() { assert_choice_type(types::scptm_cfg_br_r14, type_, "c2"); return c; } const scptm_cfg_br_r14_s& scptm_cfg_br_r14() const { assert_choice_type(types::scptm_cfg_br_r14, type_, "c2"); return c; } scptm_cfg_br_r14_s& set_scptm_cfg_br_r14(); void set_spare(); private: types type_; scptm_cfg_br_r14_s c; }; struct types_opts { enum options { c2, msg_class_ext_future_r14, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated types; // choice methods msg_class_ext_c_() = default; void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters c2_c_& c2() { assert_choice_type(types::c2, type_, "messageClassExtension"); return c; } const c2_c_& c2() const { assert_choice_type(types::c2, type_, "messageClassExtension"); return c; } c2_c_& set_c2(); void set_msg_class_ext_future_r14(); private: types type_; c2_c_ c; }; struct types_opts { enum options { c1, msg_class_ext, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated types; // choice methods sc_mcch_msg_type_r13_c() = default; sc_mcch_msg_type_r13_c(const sc_mcch_msg_type_r13_c& other); sc_mcch_msg_type_r13_c& operator=(const sc_mcch_msg_type_r13_c& other); ~sc_mcch_msg_type_r13_c() { destroy_(); } void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters c1_c_& c1() { assert_choice_type(types::c1, type_, "SC-MCCH-MessageType-r13"); return c.get(); } msg_class_ext_c_& msg_class_ext() { assert_choice_type(types::msg_class_ext, type_, "SC-MCCH-MessageType-r13"); return c.get(); } const c1_c_& c1() const { assert_choice_type(types::c1, type_, "SC-MCCH-MessageType-r13"); return c.get(); } const msg_class_ext_c_& msg_class_ext() const { assert_choice_type(types::msg_class_ext, type_, "SC-MCCH-MessageType-r13"); return c.get(); } c1_c_& set_c1(); msg_class_ext_c_& set_msg_class_ext(); private: types type_; choice_buffer_t c; void destroy_(); }; // SC-MCCH-Message-r13 ::= SEQUENCE struct sc_mcch_msg_r13_s { sc_mcch_msg_type_r13_c msg; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // FailureReportSCG-v12d0 ::= SEQUENCE struct fail_report_scg_v12d0_s { bool meas_result_neigh_cells_v12d0_present = false; meas_result_list2_eutra_v9e0_l meas_result_neigh_cells_v12d0; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MIMO-WeightedLayersCapabilities-r13 ::= SEQUENCE struct mimo_weighted_layers_cap_r13_s { struct rel_weight_two_layers_r13_opts { enum options { v1, v1dot25, v1dot5, v1dot75, v2, v2dot5, v3, v4, nulltype } value; typedef float number_type; const char* to_string() const; float to_number() const; const char* to_number_string() const; }; typedef enumerated rel_weight_two_layers_r13_e_; struct rel_weight_four_layers_r13_opts { enum options { v1, v1dot25, v1dot5, v1dot75, v2, v2dot5, v3, v4, nulltype } value; typedef float number_type; const char* to_string() const; float to_number() const; const char* to_number_string() const; }; typedef enumerated rel_weight_four_layers_r13_e_; struct rel_weight_eight_layers_r13_opts { enum options { v1, v1dot25, v1dot5, v1dot75, v2, v2dot5, v3, v4, nulltype } value; typedef float number_type; const char* to_string() const; float to_number() const; const char* to_number_string() const; }; typedef enumerated rel_weight_eight_layers_r13_e_; // member variables bool rel_weight_four_layers_r13_present = false; bool rel_weight_eight_layers_r13_present = false; rel_weight_two_layers_r13_e_ rel_weight_two_layers_r13; rel_weight_four_layers_r13_e_ rel_weight_four_layers_r13; rel_weight_eight_layers_r13_e_ rel_weight_eight_layers_r13; uint8_t total_weighted_layers_r13 = 2; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MIMO-UE-Parameters-v13e0 ::= SEQUENCE struct mimo_ue_params_v13e0_s { bool mimo_weighted_layers_cap_r13_present = false; mimo_weighted_layers_cap_r13_s mimo_weighted_layers_cap_r13; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MeasResult3EUTRA-r15 ::= SEQUENCE struct meas_result3_eutra_r15_s { bool ext = false; bool meas_result_serving_cell_r15_present = false; bool meas_result_neigh_cell_list_r15_present = false; uint32_t carrier_freq_r15 = 0; meas_result_eutra_s meas_result_serving_cell_r15; meas_result_list_eutra_l meas_result_neigh_cell_list_r15; // ... // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MeasResultList3EUTRA-r15 ::= SEQUENCE (SIZE (1..8)) OF MeasResult3EUTRA-r15 using meas_result_list3_eutra_r15_l = dyn_array; // MeasResultSCG-FailureMRDC-r15 ::= SEQUENCE struct meas_result_scg_fail_mrdc_r15_s { bool ext = false; meas_result_list3_eutra_r15_l meas_result_freq_list_eutra_r15; // ... // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // PhyLayerParameters-v13e0 ::= SEQUENCE struct phy_layer_params_v13e0_s { mimo_ue_params_v13e0_s mimo_ue_params_v13e0; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SCGFailureInformation-v12d0b-IEs ::= SEQUENCE struct scg_fail_info_v12d0b_ies_s { bool fail_report_scg_v12d0_present = false; bool non_crit_ext_present = false; fail_report_scg_v12d0_s fail_report_scg_v12d0; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // UE-EUTRA-Capability-v13e0b-IEs ::= SEQUENCE struct ue_eutra_cap_v13e0b_ies_s { bool non_crit_ext_present = false; phy_layer_params_v13e0_s phy_layer_params_v13e0; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // CSI-RS-TriggeredList-r12 ::= SEQUENCE (SIZE (1..96)) OF INTEGER (1..96) using csi_rs_triggered_list_r12_l = dyn_array; // SSB-IndexList-r15 ::= SEQUENCE (SIZE (1..64)) OF INTEGER (0..63) using ssb_idx_list_r15_l = dyn_array; struct cells_triggered_list_item_c_ { struct pci_utra_c_ { struct types_opts { enum options { fdd, tdd, nulltype } value; const char* to_string() const; }; typedef enumerated types; // choice methods pci_utra_c_() = default; pci_utra_c_(const pci_utra_c_& other); pci_utra_c_& operator=(const pci_utra_c_& other); ~pci_utra_c_() { destroy_(); } void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters uint16_t& fdd() { assert_choice_type(types::fdd, type_, "physCellIdUTRA"); return c.get(); } uint8_t& tdd() { assert_choice_type(types::tdd, type_, "physCellIdUTRA"); return c.get(); } const uint16_t& fdd() const { assert_choice_type(types::fdd, type_, "physCellIdUTRA"); return c.get(); } const uint8_t& tdd() const { assert_choice_type(types::tdd, type_, "physCellIdUTRA"); return c.get(); } uint16_t& set_fdd(); uint8_t& set_tdd(); private: types type_; pod_choice_buffer_t c; void destroy_(); }; struct pci_geran_s_ { carrier_freq_geran_s carrier_freq; pci_geran_s pci; }; struct pci_nr_r15_s_ { bool rs_idx_list_r15_present = false; uint32_t carrier_freq = 0; uint16_t pci = 0; ssb_idx_list_r15_l rs_idx_list_r15; }; struct types_opts { enum options { pci_eutra, pci_utra, pci_geran, pci_cdma2000, wlan_ids_r13, pci_nr_r15, nulltype } value; typedef uint16_t number_type; const char* to_string() const; uint16_t to_number() const; }; typedef enumerated types; // choice methods cells_triggered_list_item_c_() = default; cells_triggered_list_item_c_(const cells_triggered_list_item_c_& other); cells_triggered_list_item_c_& operator=(const cells_triggered_list_item_c_& other); ~cells_triggered_list_item_c_() { destroy_(); } void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters uint16_t& pci_eutra() { assert_choice_type(types::pci_eutra, type_, "CellsTriggeredList-item"); return c.get(); } pci_utra_c_& pci_utra() { assert_choice_type(types::pci_utra, type_, "CellsTriggeredList-item"); return c.get(); } pci_geran_s_& pci_geran() { assert_choice_type(types::pci_geran, type_, "CellsTriggeredList-item"); return c.get(); } uint16_t& pci_cdma2000() { assert_choice_type(types::pci_cdma2000, type_, "CellsTriggeredList-item"); return c.get(); } wlan_ids_r12_s& wlan_ids_r13() { assert_choice_type(types::wlan_ids_r13, type_, "CellsTriggeredList-item"); return c.get(); } pci_nr_r15_s_& pci_nr_r15() { assert_choice_type(types::pci_nr_r15, type_, "CellsTriggeredList-item"); return c.get(); } const uint16_t& pci_eutra() const { assert_choice_type(types::pci_eutra, type_, "CellsTriggeredList-item"); return c.get(); } const pci_utra_c_& pci_utra() const { assert_choice_type(types::pci_utra, type_, "CellsTriggeredList-item"); return c.get(); } const pci_geran_s_& pci_geran() const { assert_choice_type(types::pci_geran, type_, "CellsTriggeredList-item"); return c.get(); } const uint16_t& pci_cdma2000() const { assert_choice_type(types::pci_cdma2000, type_, "CellsTriggeredList-item"); return c.get(); } const wlan_ids_r12_s& wlan_ids_r13() const { assert_choice_type(types::wlan_ids_r13, type_, "CellsTriggeredList-item"); return c.get(); } const pci_nr_r15_s_& pci_nr_r15() const { assert_choice_type(types::pci_nr_r15, type_, "CellsTriggeredList-item"); return c.get(); } uint16_t& set_pci_eutra(); pci_utra_c_& set_pci_utra(); pci_geran_s_& set_pci_geran(); uint16_t& set_pci_cdma2000(); wlan_ids_r12_s& set_wlan_ids_r13(); pci_nr_r15_s_& set_pci_nr_r15(); private: types type_; choice_buffer_t c; void destroy_(); }; // CellsTriggeredList ::= SEQUENCE (SIZE (1..32)) OF CellsTriggeredList-item using cells_triggered_list_l = dyn_array; // DRB-InfoSCG-r12 ::= SEQUENCE struct drb_info_scg_r12_s { struct drb_type_r12_opts { enum options { split, scg, nulltype } value; const char* to_string() const; }; typedef enumerated drb_type_r12_e_; // member variables bool ext = false; bool eps_bearer_id_r12_present = false; bool drb_type_r12_present = false; uint8_t eps_bearer_id_r12 = 0; uint8_t drb_id_r12 = 1; drb_type_r12_e_ drb_type_r12; // ... // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // DRB-InfoListSCG-r12 ::= SEQUENCE (SIZE (1..11)) OF DRB-InfoSCG-r12 using drb_info_list_scg_r12_l = dyn_array; // DRB-InfoListSCG-r15 ::= SEQUENCE (SIZE (1..15)) OF DRB-InfoSCG-r12 using drb_info_list_scg_r15_l = dyn_array; // LogMeasInfoList2-r10 ::= SEQUENCE (SIZE (1..4060)) OF LogMeasInfo-r10 using log_meas_info_list2_r10_l = dyn_array; // TDD-ConfigSL-r12 ::= SEQUENCE struct tdd_cfg_sl_r12_s { struct sf_assign_sl_r12_opts { enum options { none, sa0, sa1, sa2, sa3, sa4, sa5, sa6, nulltype } value; const char* to_string() const; }; typedef enumerated sf_assign_sl_r12_e_; // member variables sf_assign_sl_r12_e_ sf_assign_sl_r12; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MasterInformationBlock-SL ::= SEQUENCE struct mib_sl_s { struct sl_bw_r12_opts { enum options { n6, n15, n25, n50, n75, n100, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated sl_bw_r12_e_; // member variables sl_bw_r12_e_ sl_bw_r12; tdd_cfg_sl_r12_s tdd_cfg_sl_r12; fixed_bitstring<10> direct_frame_num_r12; uint8_t direct_sf_num_r12 = 0; bool in_coverage_r12 = false; fixed_bitstring<19> reserved_r12; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MasterInformationBlock-SL-V2X-r14 ::= SEQUENCE struct mib_sl_v2x_r14_s { struct sl_bw_r14_opts { enum options { n6, n15, n25, n50, n75, n100, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated sl_bw_r14_e_; // member variables sl_bw_r14_e_ sl_bw_r14; tdd_cfg_sl_r12_s tdd_cfg_sl_r14; fixed_bitstring<10> direct_frame_num_r14; uint8_t direct_sf_num_r14 = 0; bool in_coverage_r14 = false; fixed_bitstring<27> reserved_r14; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MeasResultRSSI-SCG-r13 ::= SEQUENCE struct meas_result_rssi_scg_r13_s { uint8_t serv_cell_id_r13 = 0; meas_result_for_rssi_r13_s meas_result_for_rssi_r13; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MeasResultListRSSI-SCG-r13 ::= SEQUENCE (SIZE (1..32)) OF MeasResultRSSI-SCG-r13 using meas_result_list_rssi_scg_r13_l = dyn_array; // MeasResultServCellSCG-r12 ::= SEQUENCE struct meas_result_serv_cell_scg_r12_s { struct meas_result_scell_r12_s_ { uint8_t rsrp_result_scell_r12 = 0; uint8_t rsrq_result_scell_r12 = 0; }; struct meas_result_scell_v1310_s_ { uint8_t rs_sinr_result_scell_r13 = 0; }; // member variables bool ext = false; uint8_t serv_cell_id_r12 = 0; meas_result_scell_r12_s_ meas_result_scell_r12; // ... // group 0 bool serv_cell_id_r13_present = false; uint8_t serv_cell_id_r13 = 0; copy_ptr meas_result_scell_v1310; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // MeasResultServCellListSCG-Ext-r13 ::= SEQUENCE (SIZE (1..32)) OF MeasResultServCellSCG-r12 using meas_result_serv_cell_list_scg_ext_r13_l = dyn_array; // MeasResultServCellListSCG-r12 ::= SEQUENCE (SIZE (1..5)) OF MeasResultServCellSCG-r12 using meas_result_serv_cell_list_scg_r12_l = dyn_array; // SBCCH-SL-BCH-MessageType ::= MasterInformationBlock-SL using sbcch_sl_bch_msg_type_s = mib_sl_s; // SBCCH-SL-BCH-Message ::= SEQUENCE struct sbcch_sl_bch_msg_s { sbcch_sl_bch_msg_type_s msg; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SBCCH-SL-BCH-MessageType-V2X-r14 ::= MasterInformationBlock-SL-V2X-r14 using sbcch_sl_bch_msg_type_v2x_r14_s = mib_sl_v2x_r14_s; // SBCCH-SL-BCH-Message-V2X-r14 ::= SEQUENCE struct sbcch_sl_bch_msg_v2x_r14_s { sbcch_sl_bch_msg_type_v2x_r14_s msg; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SCG-Config-v12i0b-IEs ::= SEQUENCE struct scg_cfg_v12i0b_ies_s { bool scg_radio_cfg_v12i0_present = false; bool non_crit_ext_present = false; scg_cfg_part_scg_v12f0_s scg_radio_cfg_v12i0; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SCG-ConfigInfo-v1530-IEs ::= SEQUENCE struct scg_cfg_info_v1530_ies_s { bool drb_to_add_mod_list_scg_r15_present = false; bool drb_to_release_list_scg_r15_present = false; bool non_crit_ext_present = false; drb_info_list_scg_r15_l drb_to_add_mod_list_scg_r15; drb_to_release_list_r15_l drb_to_release_list_scg_r15; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SCG-ConfigInfo-v1430-IEs ::= SEQUENCE struct scg_cfg_info_v1430_ies_s { bool make_before_break_scg_req_r14_present = false; bool meas_gap_cfg_per_cc_list_present = false; bool non_crit_ext_present = false; meas_gap_cfg_per_cc_list_r14_c meas_gap_cfg_per_cc_list; scg_cfg_info_v1530_ies_s non_crit_ext; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SCG-ConfigInfo-v1330-IEs ::= SEQUENCE struct scg_cfg_info_v1330_ies_s { bool meas_result_list_rssi_scg_r13_present = false; bool non_crit_ext_present = false; meas_result_list_rssi_scg_r13_l meas_result_list_rssi_scg_r13; scg_cfg_info_v1430_ies_s non_crit_ext; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SCG-ConfigInfo-v1310-IEs ::= SEQUENCE struct scg_cfg_info_v1310_ies_s { bool meas_result_sstd_r13_present = false; bool scell_to_add_mod_list_mcg_ext_r13_present = false; bool meas_result_serv_cell_list_scg_ext_r13_present = false; bool scell_to_add_mod_list_scg_ext_r13_present = false; bool scell_to_release_list_scg_ext_r13_present = false; bool non_crit_ext_present = false; meas_result_sstd_r13_s meas_result_sstd_r13; scell_to_add_mod_list_ext_r13_l scell_to_add_mod_list_mcg_ext_r13; meas_result_serv_cell_list_scg_ext_r13_l meas_result_serv_cell_list_scg_ext_r13; scell_to_add_mod_list_scg_ext_r13_l scell_to_add_mod_list_scg_ext_r13; scell_to_release_list_ext_r13_l scell_to_release_list_scg_ext_r13; scg_cfg_info_v1330_ies_s non_crit_ext; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SCG-ConfigRestrictInfo-r12 ::= SEQUENCE struct scg_cfg_restrict_info_r12_s { uint8_t max_sch_tb_bits_dl_r12 = 1; uint8_t max_sch_tb_bits_ul_r12 = 1; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SCG-ConfigInfo-r12-IEs ::= SEQUENCE struct scg_cfg_info_r12_ies_s { bool rr_cfg_ded_mcg_r12_present = false; bool scell_to_add_mod_list_mcg_r12_present = false; bool meas_gap_cfg_r12_present = false; bool pwr_coordination_info_r12_present = false; bool scg_radio_cfg_r12_present = false; bool eutra_cap_info_r12_present = false; bool scg_cfg_restrict_info_r12_present = false; bool mbms_interest_ind_r12_present = false; bool meas_result_serv_cell_list_scg_r12_present = false; bool drb_to_add_mod_list_scg_r12_present = false; bool drb_to_release_list_scg_r12_present = false; bool scell_to_add_mod_list_scg_r12_present = false; bool scell_to_release_list_scg_r12_present = false; bool p_max_r12_present = false; bool non_crit_ext_present = false; rr_cfg_ded_s rr_cfg_ded_mcg_r12; scell_to_add_mod_list_r10_l scell_to_add_mod_list_mcg_r12; meas_gap_cfg_c meas_gap_cfg_r12; pwr_coordination_info_r12_s pwr_coordination_info_r12; scg_cfg_part_scg_r12_s scg_radio_cfg_r12; dyn_octstring eutra_cap_info_r12; scg_cfg_restrict_info_r12_s scg_cfg_restrict_info_r12; dyn_octstring mbms_interest_ind_r12; meas_result_serv_cell_list_scg_r12_l meas_result_serv_cell_list_scg_r12; drb_info_list_scg_r12_l drb_to_add_mod_list_scg_r12; drb_to_release_list_l drb_to_release_list_scg_r12; scell_to_add_mod_list_scg_r12_l scell_to_add_mod_list_scg_r12; scell_to_release_list_r10_l scell_to_release_list_scg_r12; int8_t p_max_r12 = -30; scg_cfg_info_v1310_ies_s non_crit_ext; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SCG-ConfigInfo-r12 ::= SEQUENCE struct scg_cfg_info_r12_s { struct crit_exts_c_ { struct c1_c_ { struct types_opts { enum options { scg_cfg_info_r12, spare7, spare6, spare5, spare4, spare3, spare2, spare1, nulltype } value; const char* to_string() const; }; typedef enumerated types; // choice methods c1_c_() = default; void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters scg_cfg_info_r12_ies_s& scg_cfg_info_r12() { assert_choice_type(types::scg_cfg_info_r12, type_, "c1"); return c; } const scg_cfg_info_r12_ies_s& scg_cfg_info_r12() const { assert_choice_type(types::scg_cfg_info_r12, type_, "c1"); return c; } scg_cfg_info_r12_ies_s& set_scg_cfg_info_r12(); void set_spare7(); void set_spare6(); void set_spare5(); void set_spare4(); void set_spare3(); void set_spare2(); void set_spare1(); private: types type_; scg_cfg_info_r12_ies_s c; }; using types = c1_or_crit_ext_e; // choice methods crit_exts_c_() = default; void set(types::options e = types::nulltype); types type() const { return type_; } SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; // getters c1_c_& c1() { assert_choice_type(types::c1, type_, "criticalExtensions"); return c; } const c1_c_& c1() const { assert_choice_type(types::c1, type_, "criticalExtensions"); return c; } c1_c_& set_c1(); void set_crit_exts_future(); private: types type_; c1_c_ c; }; // member variables crit_exts_c_ crit_exts; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-PPPP-TxPreconfigIndex-r14 ::= SEQUENCE struct sl_pppp_tx_precfg_idx_r14_s { using tx_cfg_idx_list_r14_l_ = bounded_array; // member variables uint8_t prio_thres_r14 = 1; uint8_t default_tx_cfg_idx_r14 = 0; uint8_t cbr_cfg_idx_r14 = 0; tx_cfg_idx_list_r14_l_ tx_cfg_idx_list_r14; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-CBR-PPPP-TxPreconfigList-r14 ::= SEQUENCE (SIZE (1..8)) OF SL-PPPP-TxPreconfigIndex-r14 using sl_cbr_pppp_tx_precfg_list_r14_l = dyn_array; // SL-PPPP-TxPreconfigIndex-v1530 ::= SEQUENCE struct sl_pppp_tx_precfg_idx_v1530_s { using mcs_pssch_range_r15_l_ = dyn_array; // member variables bool mcs_pssch_range_r15_present = false; mcs_pssch_range_r15_l_ mcs_pssch_range_r15; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-CBR-PPPP-TxPreconfigList-v1530 ::= SEQUENCE (SIZE (1..8)) OF SL-PPPP-TxPreconfigIndex-v1530 using sl_cbr_pppp_tx_precfg_list_v1530_l = dyn_array; // SL-CBR-PreconfigTxConfigList-r14 ::= SEQUENCE struct sl_cbr_precfg_tx_cfg_list_r14_s { using cbr_range_common_cfg_list_r14_l_ = dyn_array; using sl_cbr_pssch_tx_cfg_list_r14_l_ = dyn_array; // member variables cbr_range_common_cfg_list_r14_l_ cbr_range_common_cfg_list_r14; sl_cbr_pssch_tx_cfg_list_r14_l_ sl_cbr_pssch_tx_cfg_list_r14; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-PreconfigCommPool-r12 ::= SEQUENCE struct sl_precfg_comm_pool_r12_s { bool ext = false; sl_cp_len_r12_e sc_cp_len_r12; sl_period_comm_r12_e sc_period_r12; sl_tf_res_cfg_r12_s sc_tf_res_cfg_r12; int8_t sc_tx_params_r12 = -126; sl_cp_len_r12_e data_cp_len_r12; sl_tf_res_cfg_r12_s data_tf_res_cfg_r12; sl_hop_cfg_comm_r12_s data_hop_cfg_r12; int8_t data_tx_params_r12 = -126; bounded_bitstring<3, 5> trpt_subset_r12; // ... // group 0 copy_ptr prio_list_r13; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-PreconfigCommPoolList4-r12 ::= SEQUENCE (SIZE (1..4)) OF SL-PreconfigCommPool-r12 using sl_precfg_comm_pool_list4_r12_l = dyn_array; // SL-PreconfigCommRxPoolList-r13 ::= SEQUENCE (SIZE (1..12)) OF SL-PreconfigCommPool-r12 using sl_precfg_comm_rx_pool_list_r13_l = dyn_array; // SL-PreconfigCommTxPoolList-r13 ::= SEQUENCE (SIZE (1..7)) OF SL-PreconfigCommPool-r12 using sl_precfg_comm_tx_pool_list_r13_l = dyn_array; // SL-PreconfigDiscPool-r13 ::= SEQUENCE struct sl_precfg_disc_pool_r13_s { struct disc_period_r13_opts { enum options { rf4, rf6, rf7, rf8, rf12, rf14, rf16, rf24, rf28, rf32, rf64, rf128, rf256, rf512, rf1024, spare, nulltype } value; typedef uint16_t number_type; const char* to_string() const; uint16_t to_number() const; }; typedef enumerated disc_period_r13_e_; struct tx_params_r13_s_ { struct tx_probability_r13_opts { enum options { p25, p50, p75, p100, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated tx_probability_r13_e_; // member variables int8_t tx_params_general_r13 = -126; tx_probability_r13_e_ tx_probability_r13; }; // member variables bool ext = false; bool tx_params_r13_present = false; sl_cp_len_r12_e cp_len_r13; disc_period_r13_e_ disc_period_r13; uint8_t num_retx_r13 = 0; uint8_t num_repeat_r13 = 1; sl_tf_res_cfg_r12_s tf_res_cfg_r13; tx_params_r13_s_ tx_params_r13; // ... // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-PreconfigDiscRxPoolList-r13 ::= SEQUENCE (SIZE (1..16)) OF SL-PreconfigDiscPool-r13 using sl_precfg_disc_rx_pool_list_r13_l = dyn_array; // SL-PreconfigDiscTxPoolList-r13 ::= SEQUENCE (SIZE (1..4)) OF SL-PreconfigDiscPool-r13 using sl_precfg_disc_tx_pool_list_r13_l = dyn_array; // SL-PreconfigGeneral-r12 ::= SEQUENCE struct sl_precfg_general_r12_s { struct rohc_profiles_r12_s_ { bool profile0x0001_r12 = false; bool profile0x0002_r12 = false; bool profile0x0004_r12 = false; bool profile0x0006_r12 = false; bool profile0x0101_r12 = false; bool profile0x0102_r12 = false; bool profile0x0104_r12 = false; }; struct sl_bw_r12_opts { enum options { n6, n15, n25, n50, n75, n100, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated sl_bw_r12_e_; // member variables bool ext = false; rohc_profiles_r12_s_ rohc_profiles_r12; uint32_t carrier_freq_r12 = 0; int8_t max_tx_pwr_r12 = -30; uint8_t add_spec_emission_r12 = 1; sl_bw_r12_e_ sl_bw_r12; tdd_cfg_sl_r12_s tdd_cfg_sl_r12; fixed_bitstring<19> reserved_r12; // ... // group 0 bool add_spec_emission_v1440_present = false; uint16_t add_spec_emission_v1440 = 33; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-PreconfigRelay-r13 ::= SEQUENCE struct sl_precfg_relay_r13_s { resel_info_relay_r13_s resel_info_oo_c_r13; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-PreconfigSync-r12 ::= SEQUENCE struct sl_precfg_sync_r12_s { struct sync_ref_min_hyst_r12_opts { enum options { db0, db3, db6, db9, db12, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated sync_ref_min_hyst_r12_e_; struct sync_ref_diff_hyst_r12_opts { enum options { db0, db3, db6, db9, db12, dbinf, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated sync_ref_diff_hyst_r12_e_; // member variables bool ext = false; sl_cp_len_r12_e sync_cp_len_r12; uint8_t sync_offset_ind1_r12 = 0; uint8_t sync_offset_ind2_r12 = 0; int8_t sync_tx_params_r12 = -126; uint8_t sync_tx_thresh_oo_c_r12 = 0; filt_coef_e filt_coef_r12; sync_ref_min_hyst_r12_e_ sync_ref_min_hyst_r12; sync_ref_diff_hyst_r12_e_ sync_ref_diff_hyst_r12; // ... // group 0 bool sync_tx_periodic_r13_present = false; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-V2X-PreconfigCommPool-r14 ::= SEQUENCE struct sl_v2x_precfg_comm_pool_r14_s { struct size_subch_r14_opts { enum options { n4, n5, n6, n8, n9, n10, n12, n15, n16, n18, n20, n25, n30, n48, n50, n72, n75, n96, n100, spare13, spare12, spare11, spare10, spare9, spare8, spare7, spare6, spare5, spare4, spare3, spare2, spare1, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated size_subch_r14_e_; struct num_subch_r14_opts { enum options { n1, n3, n5, n8, n10, n15, n20, spare1, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated num_subch_r14_e_; // member variables bool ext = false; bool sl_offset_ind_r14_present = false; bool start_rb_pscch_pool_r14_present = false; bool zone_id_r14_present = false; bool thresh_s_rssi_cbr_r14_present = false; bool cbr_pssch_tx_cfg_list_r14_present = false; bool res_sel_cfg_p2_x_r14_present = false; bool sync_allowed_r14_present = false; bool restrict_res_reserv_period_r14_present = false; sl_offset_ind_r12_c sl_offset_ind_r14; sf_bitmap_sl_r14_c sl_sf_r14; bool adjacency_pscch_pssch_r14 = false; size_subch_r14_e_ size_subch_r14; num_subch_r14_e_ num_subch_r14; uint8_t start_rb_subch_r14 = 0; uint8_t start_rb_pscch_pool_r14 = 0; int8_t data_tx_params_r14 = -126; uint8_t zone_id_r14 = 0; uint8_t thresh_s_rssi_cbr_r14 = 0; sl_cbr_pppp_tx_precfg_list_r14_l cbr_pssch_tx_cfg_list_r14; sl_p2_x_res_sel_cfg_r14_s res_sel_cfg_p2_x_r14; sl_sync_allowed_r14_s sync_allowed_r14; sl_restrict_res_reserv_period_list_r14_l restrict_res_reserv_period_r14; // ... // group 0 copy_ptr sl_min_t2_value_list_r15; copy_ptr cbr_pssch_tx_cfg_list_v1530; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-PreconfigV2X-RxPoolList-r14 ::= SEQUENCE (SIZE (1..16)) OF SL-V2X-PreconfigCommPool-r14 using sl_precfg_v2x_rx_pool_list_r14_l = dyn_array; // SL-V2X-SyncOffsetIndicators-r14 ::= SEQUENCE struct sl_v2x_sync_offset_inds_r14_s { bool sync_offset_ind3_r14_present = false; uint8_t sync_offset_ind1_r14 = 0; uint8_t sync_offset_ind2_r14 = 0; uint8_t sync_offset_ind3_r14 = 0; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-PreconfigV2X-Sync-r14 ::= SEQUENCE struct sl_precfg_v2x_sync_r14_s { struct sync_ref_min_hyst_r14_opts { enum options { db0, db3, db6, db9, db12, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated sync_ref_min_hyst_r14_e_; struct sync_ref_diff_hyst_r14_opts { enum options { db0, db3, db6, db9, db12, dbinf, nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated sync_ref_diff_hyst_r14_e_; // member variables bool ext = false; sl_v2x_sync_offset_inds_r14_s sync_offset_inds_r14; int8_t sync_tx_params_r14 = -126; uint8_t sync_tx_thresh_oo_c_r14 = 0; filt_coef_e filt_coef_r14; sync_ref_min_hyst_r14_e_ sync_ref_min_hyst_r14; sync_ref_diff_hyst_r14_e_ sync_ref_diff_hyst_r14; // ... // group 0 bool slss_tx_disabled_r15_present = false; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-PreconfigV2X-TxPoolList-r14 ::= SEQUENCE (SIZE (1..8)) OF SL-V2X-PreconfigCommPool-r14 using sl_precfg_v2x_tx_pool_list_r14_l = dyn_array; // SL-Preconfiguration-r12 ::= SEQUENCE struct sl_precfg_r12_s { struct precfg_comm_v1310_s_ { bool comm_tx_pool_list_r13_present = false; sl_precfg_comm_rx_pool_list_r13_l comm_rx_pool_list_r13; sl_precfg_comm_tx_pool_list_r13_l comm_tx_pool_list_r13; }; struct precfg_disc_r13_s_ { bool disc_tx_pool_list_r13_present = false; sl_precfg_disc_rx_pool_list_r13_l disc_rx_pool_list_r13; sl_precfg_disc_tx_pool_list_r13_l disc_tx_pool_list_r13; }; // member variables bool ext = false; sl_precfg_general_r12_s precfg_general_r12; sl_precfg_sync_r12_s precfg_sync_r12; sl_precfg_comm_pool_list4_r12_l precfg_comm_r12; // ... // group 0 copy_ptr precfg_comm_v1310; copy_ptr precfg_disc_r13; copy_ptr precfg_relay_r13; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-V2X-PreconfigFreqInfo-r14 ::= SEQUENCE struct sl_v2x_precfg_freq_info_r14_s { struct sync_prio_r14_opts { enum options { gnss, enb, nulltype } value; const char* to_string() const; }; typedef enumerated sync_prio_r14_e_; // member variables bool ext = false; bool v2x_comm_precfg_sync_r14_present = false; bool v2x_res_sel_cfg_r14_present = false; bool zone_cfg_r14_present = false; bool thres_sl_tx_prioritization_r14_present = false; bool offset_dfn_r14_present = false; sl_precfg_general_r12_s v2x_comm_precfg_general_r14; sl_precfg_v2x_sync_r14_s v2x_comm_precfg_sync_r14; sl_precfg_v2x_rx_pool_list_r14_l v2x_comm_rx_pool_list_r14; sl_precfg_v2x_tx_pool_list_r14_l v2x_comm_tx_pool_list_r14; sl_precfg_v2x_tx_pool_list_r14_l p2x_comm_tx_pool_list_r14; sl_comm_tx_pool_sensing_cfg_r14_s v2x_res_sel_cfg_r14; sl_zone_cfg_r14_s zone_cfg_r14; sync_prio_r14_e_ sync_prio_r14; uint8_t thres_sl_tx_prioritization_r14 = 1; uint16_t offset_dfn_r14 = 0; // ... // group 0 copy_ptr v2x_freq_sel_cfg_list_r15; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // SL-V2X-PreconfigFreqList-r14 ::= SEQUENCE (SIZE (1..8)) OF SL-V2X-PreconfigFreqInfo-r14 using sl_v2x_precfg_freq_list_r14_l = dyn_array; // SL-V2X-TxProfile-r15 ::= ENUMERATED struct sl_v2x_tx_profile_r15_opts { enum options { rel14, rel15, spare6, spare5, spare4, spare3, spare2, spare1, /*...*/ nulltype } value; typedef uint8_t number_type; const char* to_string() const; uint8_t to_number() const; }; typedef enumerated sl_v2x_tx_profile_r15_e; // SL-V2X-TxProfileList-r15 ::= SEQUENCE (SIZE (1..256)) OF SL-V2X-TxProfile-r15 using sl_v2x_tx_profile_list_r15_l = dyn_array; // SL-V2X-Preconfiguration-r14 ::= SEQUENCE struct sl_v2x_precfg_r14_s { bool ext = false; bool anchor_carrier_freq_list_r14_present = false; bool cbr_precfg_list_r14_present = false; sl_v2x_precfg_freq_list_r14_l v2x_precfg_freq_list_r14; sl_anchor_carrier_freq_list_v2x_r14_l anchor_carrier_freq_list_r14; sl_cbr_precfg_tx_cfg_list_r14_s cbr_precfg_list_r14; // ... // group 0 bool slss_tx_multi_freq_r15_present = false; copy_ptr v2x_packet_dupl_cfg_r15; copy_ptr sync_freq_list_r15; copy_ptr v2x_tx_profile_list_r15; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarConnEstFailReport-r11 ::= SEQUENCE struct var_conn_est_fail_report_r11_s { conn_est_fail_report_r11_s conn_est_fail_report_r11; plmn_id_s plmn_id_r11; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarLogMeasConfig-r10 ::= SEQUENCE struct var_log_meas_cfg_r10_s { bool area_cfg_r10_present = false; area_cfg_r10_c area_cfg_r10; logging_dur_r10_e logging_dur_r10; logging_interv_r10_e logging_interv_r10; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarLogMeasConfig-r11 ::= SEQUENCE struct var_log_meas_cfg_r11_s { bool area_cfg_r10_present = false; bool area_cfg_v1130_present = false; area_cfg_r10_c area_cfg_r10; area_cfg_v1130_s area_cfg_v1130; logging_dur_r10_e logging_dur_r10; logging_interv_r10_e logging_interv_r10; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarLogMeasConfig-r12 ::= SEQUENCE struct var_log_meas_cfg_r12_s { bool area_cfg_r10_present = false; bool area_cfg_v1130_present = false; bool target_mbsfn_area_list_r12_present = false; area_cfg_r10_c area_cfg_r10; area_cfg_v1130_s area_cfg_v1130; logging_dur_r10_e logging_dur_r10; logging_interv_r10_e logging_interv_r10; target_mbsfn_area_list_r12_l target_mbsfn_area_list_r12; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarLogMeasConfig-r15 ::= SEQUENCE struct var_log_meas_cfg_r15_s { bool area_cfg_r10_present = false; bool area_cfg_v1130_present = false; bool target_mbsfn_area_list_r12_present = false; bool bt_name_list_r15_present = false; bool wlan_name_list_r15_present = false; area_cfg_r10_c area_cfg_r10; area_cfg_v1130_s area_cfg_v1130; logging_dur_r10_e logging_dur_r10; logging_interv_r10_e logging_interv_r10; target_mbsfn_area_list_r12_l target_mbsfn_area_list_r12; bt_name_list_r15_l bt_name_list_r15; wlan_name_list_r15_l wlan_name_list_r15; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarLogMeasReport-r10 ::= SEQUENCE struct var_log_meas_report_r10_s { trace_ref_r10_s trace_ref_r10; fixed_octstring<2> trace_recording_session_ref_r10; fixed_octstring<1> tce_id_r10; plmn_id_s plmn_id_r10; fixed_bitstring<48> absolute_time_info_r10; log_meas_info_list2_r10_l log_meas_info_list_r10; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarLogMeasReport-r11 ::= SEQUENCE struct var_log_meas_report_r11_s { trace_ref_r10_s trace_ref_r10; fixed_octstring<2> trace_recording_session_ref_r10; fixed_octstring<1> tce_id_r10; plmn_id_list3_r11_l plmn_id_list_r11; fixed_bitstring<48> absolute_time_info_r10; log_meas_info_list2_r10_l log_meas_info_list_r10; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarMeasIdleConfig-r15 ::= SEQUENCE struct var_meas_idle_cfg_r15_s { struct meas_idle_dur_r15_opts { enum options { sec10, sec30, sec60, sec120, sec180, sec240, sec300, nulltype } value; typedef uint16_t number_type; const char* to_string() const; uint16_t to_number() const; }; typedef enumerated meas_idle_dur_r15_e_; // member variables bool meas_idle_carrier_list_eutra_r15_present = false; eutra_carrier_list_r15_l meas_idle_carrier_list_eutra_r15; meas_idle_dur_r15_e_ meas_idle_dur_r15; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarMeasIdleReport-r15 ::= SEQUENCE struct var_meas_idle_report_r15_s { meas_result_list_idle_r15_l meas_report_idle_r15; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarMeasReport ::= SEQUENCE struct var_meas_report_s { bool meas_id_v1250_present = false; bool cells_triggered_list_present = false; bool csi_rs_triggered_list_r12_present = false; bool pools_triggered_list_r14_present = false; uint8_t meas_id = 1; uint8_t meas_id_v1250 = 33; cells_triggered_list_l cells_triggered_list; csi_rs_triggered_list_r12_l csi_rs_triggered_list_r12; tx_res_pool_meas_list_r14_l pools_triggered_list_r14; int64_t nof_reports_sent = 0; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarMeasReportList ::= SEQUENCE (SIZE (1..32)) OF VarMeasReport using var_meas_report_list_l = dyn_array; // VarMeasReportList-r12 ::= SEQUENCE (SIZE (1..64)) OF VarMeasReport using var_meas_report_list_r12_l = dyn_array; // VarMobilityHistoryReport-r12 ::= VisitedCellInfoList-r12 using var_mob_history_report_r12_l = visited_cell_info_list_r12_l; // VarRLF-Report-r10 ::= SEQUENCE struct var_rlf_report_r10_s { rlf_report_r9_s rlf_report_r10; plmn_id_s plmn_id_r10; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarRLF-Report-r11 ::= SEQUENCE struct var_rlf_report_r11_s { rlf_report_r9_s rlf_report_r10; plmn_id_list3_r11_l plmn_id_list_r11; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarShortINACTIVE-MAC-Input-r15 ::= SEQUENCE struct var_short_inactive_mac_input_r15_s { fixed_bitstring<28> cell_id_r15; uint16_t pci_r15 = 0; fixed_bitstring<16> c_rnti_r15; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarShortMAC-Input-NB-r13 ::= VarShortMAC-Input using var_short_mac_input_nb_r13_s = var_short_mac_input_s; // VarShortResumeMAC-Input-r13 ::= SEQUENCE struct var_short_resume_mac_input_r13_s { fixed_bitstring<28> cell_id_r13; uint16_t pci_r13 = 0; fixed_bitstring<16> c_rnti_r13; fixed_bitstring<1> resume_discriminator_r13; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarShortResumeMAC-Input-NB-r13 ::= VarShortResumeMAC-Input-r13 using var_short_resume_mac_input_nb_r13_s = var_short_resume_mac_input_r13_s; // VarWLAN-MobilityConfig ::= SEQUENCE struct var_wlan_mob_cfg_s { bool wlan_mob_set_r13_present = false; bool success_report_requested_present = false; bool wlan_suspend_cfg_r14_present = false; wlan_id_list_r13_l wlan_mob_set_r13; wlan_suspend_cfg_r14_s wlan_suspend_cfg_r14; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; // VarWLAN-Status-r13 ::= SEQUENCE struct var_wlan_status_r13_s { bool status_r14_present = false; wlan_status_r13_e status_r13; wlan_status_v1430_e status_r14; // sequence methods SRSASN_CODE pack(bit_ref& bref) const; SRSASN_CODE unpack(cbit_ref& bref); void to_json(json_writer& j) const; }; } // namespace rrc } // namespace asn1 #endif // SRSASN1_RRC_H