Commit c1c71c38 authored by luhan Wang's avatar luhan Wang

add test ngap

parent 849196b0
...@@ -328,13 +328,30 @@ set(protobuf_generated_dir ${OPENAIR_BIN_DIR}) ...@@ -328,13 +328,30 @@ set(protobuf_generated_dir ${OPENAIR_BIN_DIR})
include_directories(${OPENAIR_DIR}/ngap/libngap) include_directories(${OPENAIR_DIR}/ngap/libngap)
include_directories(${OPENAIR_DIR}/ngap/ngapMsgs) include_directories(${OPENAIR_DIR}/ngap/ngapMsgs)
include_directories(${OPENAIR_DIR}/ngap/ngapIEs) include_directories(${OPENAIR_DIR}/ngap/ngapIEs)
include_directories(${OPENAIR_DIR}/test-ly)
include_directories(${OPENAIR_DIR}/nas/common)
include_directories(${OPENAIR_DIR}/nas/msgs)
include_directories(${OPENAIR_DIR}/nas/ies)
include_directories(${OPENAIR_DIR}/nas/utils)
include_directories(${OPENAIR_DIR}/utils)
include_directories(${OPENAIR_DIR}/utils/bstr)
file(GLOB NGAP_source ${OPENAIR_DIR}/ngap/libngap/*.c) file(GLOB NGAP_source ${OPENAIR_DIR}/ngap/libngap/*.c)
file(GLOB NGAP_Message ${OPENAIR_DIR}/ngap/ngapMsgs/*.cpp) file(GLOB NGAP_Message ${OPENAIR_DIR}/ngap/ngapMsgs/*.cpp)
file(GLOB NGAP_IE ${OPENAIR_DIR}/ngap/ngapIEs/*.cpp) file(GLOB NGAP_IE ${OPENAIR_DIR}/ngap/ngapIEs/*.cpp)
file(GLOB NAS_utils ${OPENAIR_DIR}/nas/utils/*.c)
file(GLOB NAS_msgs ${OPENAIR_DIR}/nas/msgs/*.cpp)
file(GLOB NAS_IE ${OPENAIR_DIR}/nas/ies/*.cpp)
file(GLOB UTILS_cpp ${OPENAIR_DIR}/utils/*.cpp)
file(GLOB UTILS_c ${OPENAIR_DIR}/utils/*.c)
file(GLOB UTILS_bstr ${OPENAIR_DIR}/utils/bstr/*.c)
#file(GLOB SCTP_SRC ${OPENAIR_DIR}/test-ly/ue_gnb.cpp)
file(GLOB SCTP_SRC ${OPENAIR_DIR}/test-ly/*.cpp)
add_library(NGAP_LIB add_library(NGAP_LIB
${NGAP_source} ${NGAP_source}
${NGAP_Message} ${NGAP_Message}
${NGAP_IE} ${NGAP_IE}
${SCTP_SRC}
) )
# RRC # RRC
...@@ -2761,6 +2778,7 @@ add_executable(nr-softmodem ...@@ -2761,6 +2778,7 @@ add_executable(nr-softmodem
${T_SOURCE} ${T_SOURCE}
${CONFIG_SOURCES} ${CONFIG_SOURCES}
${SHLIB_LOADER_SOURCES} ${SHLIB_LOADER_SOURCES}
#${OPENAIR_DIR}/test-ly/ue_gnb.cpp
) )
target_link_libraries (nr-softmodem target_link_libraries (nr-softmodem
......
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/*
* Copyright (c) 2017 Lev Walkin <vlm@lionet.info>. All rights reserved.
* Redistribution and modifications are permitted subject to BSD license.
*/
#ifndef OER_ENCODER_H
#define OER_ENCODER_H
#include <asn_application.h>
#ifdef __cplusplus
extern "C" {
#endif
struct asn_TYPE_descriptor_s; /* Forward declaration */
/*
* The Octet Encoding Rules (OER, X.696 08/2015) encoder for any type.
* This function may be invoked directly by the application.
* Produces CANONICAL-OER output compatible with CANONICAL-OER
* and BASIC-OER decoders.
*/
asn_enc_rval_t oer_encode(const struct asn_TYPE_descriptor_s *type_descriptor,
const void *struct_ptr, /* Structure to be encoded */
asn_app_consume_bytes_f *consume_bytes_cb,
void *app_key /* Arbitrary callback argument */
);
/* A variant of oer_encode() which encodes data into the pre-allocated buffer */
asn_enc_rval_t oer_encode_to_buffer(
const struct asn_TYPE_descriptor_s *type_descriptor,
const asn_oer_constraints_t *constraints,
const void *struct_ptr, /* Structure to be encoded */
void *buffer, /* Pre-allocated buffer */
size_t buffer_size /* Initial buffer size (maximum) */
);
/*
* Type of the generic OER encoder.
*/
typedef asn_enc_rval_t(oer_type_encoder_f)(
const struct asn_TYPE_descriptor_s *type_descriptor,
const asn_oer_constraints_t *constraints,
const void *struct_ptr, /* Structure to be encoded */
asn_app_consume_bytes_f *consume_bytes_cb, /* Callback */
void *app_key /* Arbitrary callback argument */
);
/*
* Write out the Open Type (X.696 (08/2015), #30).
* RETURN VALUES:
* -1: Fatal error encoding the type.
* >0: Number of bytes serialized.
*/
ssize_t oer_open_type_put(const struct asn_TYPE_descriptor_s *td,
const asn_oer_constraints_t *constraints,
const void *struct_ptr,
asn_app_consume_bytes_f *consume_bytes_cb,
void *app_key);
/*
* Length-prefixed buffer encoding for primitive types.
*/
oer_type_encoder_f oer_encode_primitive;
#ifdef __cplusplus
}
#endif
#endif /* OER_ENCODER_H */
...@@ -84,6 +84,8 @@ unsigned short config_frames[4] = {2,9,11,13}; ...@@ -84,6 +84,8 @@ unsigned short config_frames[4] = {2,9,11,13};
#include "NB_IoT_interface.h" #include "NB_IoT_interface.h"
#include "x2ap_eNB.h" #include "x2ap_eNB.h"
//extern "C" int ue_gnb_simulator();
pthread_cond_t nfapi_sync_cond; pthread_cond_t nfapi_sync_cond;
pthread_mutex_t nfapi_sync_mutex; pthread_mutex_t nfapi_sync_mutex;
int nfapi_sync_var=-1; //!< protected by mutex \ref nfapi_sync_mutex int nfapi_sync_var=-1; //!< protected by mutex \ref nfapi_sync_mutex
...@@ -795,6 +797,12 @@ void init_pdcp(void) { ...@@ -795,6 +797,12 @@ void init_pdcp(void) {
int main( int argc, char **argv ) int main( int argc, char **argv )
{ {
/**************************liuyu test*****************/
printf("-------------------------liuyu test ngap--------------------\n");
int ret = ue_gnb_simulator();
printf("-------------------------liuyu test ngap--------------------\n");
/**************************liuyu test*****************/
#if 0
int ru_id, CC_id = 0; int ru_id, CC_id = 0;
start_background_system(); start_background_system();
...@@ -974,6 +982,10 @@ if(!IS_SOFTMODEM_NOS1) ...@@ -974,6 +982,10 @@ if(!IS_SOFTMODEM_NOS1)
printf("ALL RUs ready - ALL gNBs ready\n"); printf("ALL RUs ready - ALL gNBs ready\n");
// connect the TX/RX buffers // connect the TX/RX buffers
printf("Sending sync to all threads\n"); printf("Sending sync to all threads\n");
pthread_mutex_lock(&sync_mutex); pthread_mutex_lock(&sync_mutex);
sync_var=0; sync_var=0;
...@@ -1012,7 +1024,7 @@ if(!IS_SOFTMODEM_NOS1) ...@@ -1012,7 +1024,7 @@ if(!IS_SOFTMODEM_NOS1)
} }
} }
#endif*/ //#endif*/
printf("stopping MODEM threads\n"); printf("stopping MODEM threads\n");
// cleanup // cleanup
stop_gNB(NB_gNB_INST); stop_gNB(NB_gNB_INST);
...@@ -1049,5 +1061,6 @@ if(!IS_SOFTMODEM_NOS1) ...@@ -1049,5 +1061,6 @@ if(!IS_SOFTMODEM_NOS1)
logClean(); logClean();
printf("Bye.\n"); printf("Bye.\n");
#endif
return 0; return 0;
} }
/*
* Copyright (c) 2017 Lev Walkin <vlm@lionet.info>. All rights reserved.
* Redistribution and modifications are permitted subject to BSD license.
*/
#ifndef OER_ENCODER_H
#define OER_ENCODER_H
#include <asn_application.h>
#ifdef __cplusplus
extern "C" {
#endif
struct asn_TYPE_descriptor_s; /* Forward declaration */
/*
* The Octet Encoding Rules (OER, X.696 08/2015) encoder for any type.
* This function may be invoked directly by the application.
* Produces CANONICAL-OER output compatible with CANONICAL-OER
* and BASIC-OER decoders.
*/
asn_enc_rval_t oer_encode(const struct asn_TYPE_descriptor_s *type_descriptor,
const void *struct_ptr, /* Structure to be encoded */
asn_app_consume_bytes_f *consume_bytes_cb,
void *app_key /* Arbitrary callback argument */
);
/* A variant of oer_encode() which encodes data into the pre-allocated buffer */
asn_enc_rval_t oer_encode_to_buffer(
const struct asn_TYPE_descriptor_s *type_descriptor,
const asn_oer_constraints_t *constraints,
const void *struct_ptr, /* Structure to be encoded */
void *buffer, /* Pre-allocated buffer */
size_t buffer_size /* Initial buffer size (maximum) */
);
/*
* Type of the generic OER encoder.
*/
typedef asn_enc_rval_t(oer_type_encoder_f)(
const struct asn_TYPE_descriptor_s *type_descriptor,
const asn_oer_constraints_t *constraints,
const void *struct_ptr, /* Structure to be encoded */
asn_app_consume_bytes_f *consume_bytes_cb, /* Callback */
void *app_key /* Arbitrary callback argument */
);
/*
* Write out the Open Type (X.696 (08/2015), #30).
* RETURN VALUES:
* -1: Fatal error encoding the type.
* >0: Number of bytes serialized.
*/
ssize_t oer_open_type_put(const struct asn_TYPE_descriptor_s *td,
const asn_oer_constraints_t *constraints,
const void *struct_ptr,
asn_app_consume_bytes_f *consume_bytes_cb,
void *app_key);
/*
* Length-prefixed buffer encoding for primitive types.
*/
oer_type_encoder_f oer_encode_primitive;
#ifdef __cplusplus
}
#endif
#endif /* OER_ENCODER_H */
#ifndef _3GPP_TS_24501_H_
#define _3GPP_TS_24501_H_
/********** epd type **************/
#define EPD_5GS_MM_MSG 0b01111110
#define EPD_5GS_SM_MSG 0b00101110
/********** security header type **************/
#define PLAIN_5GS_MSG 0b0000
#define INTEGRITY_PROTECTED 0b0001
#define INTEGRITY_PROTECTED_AND_CIPHERED 0b0010
#define INTEGRITY_PROTECTED_WITH_NEW_SECU_CTX 0b0011 // only for SECURITY MODE COMMAND
#define INTEGRITY_PROTECTED_AND_CIPHERED_WITH_NEW_SECU_CTX 0b0100 // only for SECURITY MODE COMPLETE
/********** message type ********************/
#define REGISTRATION_REQUEST 0b01000001
#define REGISTRATION_REJECT 0b01000100
#define AUTHENTICATION_REQUEST 0b01010110
#define AUTHENTICATION_RESPONSE 0b01010111
#define AUTHENTICATION_RESULT 0b01011010
#define AUTHENTICATION_FAILURE 0b01011001
#define AUTHENTICATION_REJECT 0b01011000
#define SECURITY_MODE_COMMAND 0b01011101
#define SECURITY_MODE_COMPLETE 0b01011110
#define SECURITY_MODE_REJECT 0b01011111
#define REGISTRATION_COMPLETE 0b01000011
#define REGISTRATION_ACCEPT 0b01000010
#define IDENTITY_REQUEST 0b01011011
#define IDENTITY_RESPONSE 0b01011100
#define UL_NAS_TRANSPORT 0b01100111
#define DL_NAS_TRANSPORT 0b01101000
#define SERVICE_REQUEST 0b01001100
#define SERVICE_REJECT 0b01001101
#define SERVICE_ACCEPT 0b01001110
#define UE_INIT_DEREGISTER 0b01000101
/********* registration type ***************/
#define NO_FOLLOW_ON_REQ_PENDING false
#define FOLLOW_ON_REQ_PENDING true
#define INITIAL_REGISTRATION 0b001
#define MOBILITY_REGISTRATION_UPDATING 0b010
#define PERIODIC_REGISTRATION_UPDATING 0b011
#define EMERGENCY_REGISTRATION 0b100
/********* NAS Key Set identifier **********/
#define NAS_KEY_SET_IDENTIFIER_NATIVE 0b0
#define NAS_KEY_SET_IDENTIFIER_MAPPED 0b1
#define NAS_KEY_SET_IDENTIFIER_NOT_AVAILABLE 0b111
/********* 5GSMobilityIdentity **********/
#define NO_IDENTITY 0b000
#define SUCI 0b001
#define _5G_GUTI 0b010
#define IMEI 0b011
#define _5G_S_TMSI 0b100
#define IMEISVI 0b101
#define MAC_ADDRESS 0b110
#define EVEN_IENTITY 0
#define ODD_IDENTITY 1
#define SUPI_FORMAT_IMSI 0b000
#define SUPI_FORMAT_NETWORK_SPECIFIC_IDENTIFIER 0b001
#define NULL_SCHEME 0b0000
#define ECIES_SCHEME_PROFILE_A 0b0001
#define ECIES_SCHEME_PROFILE_B 0b0010
#define HOME_NETWORK_PKI_0_WHEN_PSI_0 0b00000000
#define HOME_NETWORK_PKI_RESERVED 0b11111111
/************************** security algorithms ***********************************************************/
#define IA0_5G 0b000
#define IA1_128_5G 0b001
#define IA2_128_5G 0b010
#define EA0_5G 0b000
#define EA1_128_5G 0b001
#define EA2_128_5G 0b010
/************************** cause value for 5g mobility management(Annex A) ********************************/
#define _5GMM_CAUSE_ILLEGAL_UE 3
#define _5GMM_CAUSE_SYNCH_FAILURE 0b00010101
// A.5 Causes related to invalid messages
//------------------------------------------------------------------------------
#define _5GMM_CAUSE_SEMANTICALLY_INCORRECT 95
#define _5GMM_CAUSE_INVALID_MANDATORY_INFO 96
#define _5GMM_CAUSE_MESSAGE_TYPE_NOT_IMPLEMENTED 97
#define _5GMM_CAUSE_MESSAGE_TYPE_NOT_COMPATIBLE 98
#define _5GMM_CAUSE_IE_NOT_IMPLEMENTED 99
#define _5GMM_CAUSE_CONDITIONAL_IE_ERROR 100
#define _5GMM_CAUSE_MESSAGE_NOT_COMPATIBLE 101
#define _5GMM_CAUSE_PROTOCOL_ERROR 111
/********************* UL NAS TRANSPORT payload container type **************************/
#define N1_SM_INFORMATION 0x01
#define SMS_CONTAINER 0x02
#define LTE_POSITIONING_PROTOCOL 0x03
#define SOR_TRANSPARENT_CONTAINER 0x04
#define UE_POLICY_CONTAINER 0x05
#define UE_PARAMETERS_UPDATE 0x06
#define MULTIPLE_PAYLOADS 0x0f
#define PDU_SESSION_INITIAL_REQUEST 0b001
#define EXISTING_PDU_SESSION 0b010
#define PDU_SESSION_INITIAL_EMERGENCY_REQUEST 0b011
#define EXISTING_EMERGENCY_PDU_SESSION 0b100
#define PDU_SESSION_MODIFICATION_REQUEST 0b101
#define MA_PDU_REQUEST 0b110
#endif
/*
* Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The OpenAirInterface Software Alliance licenses this file to You under
* the OAI Public License, Version 1.1 (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.openairinterface.org/?page_id=698
*
* 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.
*-------------------------------------------------------------------------------
* For more information about the OpenAirInterface (OAI) Software Alliance:
* contact@openairinterface.org
*/
/*! \file common_defs.h
\brief
\author Sebastien ROUX, Lionel Gauthier
\company Eurecom
\email: lionel.gauthier@eurecom.fr
*/
#ifndef FILE_COMMON_DEFS_SEEN
#define FILE_COMMON_DEFS_SEEN
#include <arpa/inet.h>
#include <stdint.h>
#define RETURNclear (int)2
#define RETURNerror (int)1
#define RETURNok (int)0
typedef enum {
/* Fatal errors - received message should not be processed */
TLV_MAC_MISMATCH = -14,
TLV_BUFFER_NULL = -13,
TLV_BUFFER_TOO_SHORT = -12,
TLV_PROTOCOL_NOT_SUPPORTED = -11,
TLV_WRONG_MESSAGE_TYPE = -10,
TLV_OCTET_STRING_TOO_LONG_FOR_IEI = -9,
TLV_VALUE_DOESNT_MATCH = -4,
TLV_MANDATORY_FIELD_NOT_PRESENT = -3,
TLV_UNEXPECTED_IEI = -2,
// RETURNerror = -1,
// RETURNok = 0,
TLV_ERROR_OK = RETURNok,
/* Defines error code limit below which received message should be discarded
* because it cannot be further processed */
TLV_FATAL_ERROR = TLV_VALUE_DOESNT_MATCH
} error_code_e;
//------------------------------------------------------------------------------
#define DECODE_U8(bUFFER, vALUE, sIZE) \
vALUE = *(uint8_t*)(bUFFER); \
sIZE += sizeof(uint8_t)
#define DECODE_U16(bUFFER, vALUE, sIZE) \
vALUE = ntohs(*(uint16_t*)(bUFFER)); \
sIZE += sizeof(uint16_t)
#define DECODE_U24(bUFFER, vALUE, sIZE) \
vALUE = ntohl(*(uint32_t*)(bUFFER)) >> 8; \
sIZE += sizeof(uint8_t) + sizeof(uint16_t)
#define DECODE_U32(bUFFER, vALUE, sIZE) \
vALUE = ntohl(*(uint32_t*)(bUFFER)); \
sIZE += sizeof(uint32_t)
#if (BYTE_ORDER == LITTLE_ENDIAN)
# define DECODE_LENGTH_U16(bUFFER, vALUE, sIZE) \
vALUE = ((*(bUFFER)) << 8) | (*((bUFFER) + 1)); \
sIZE += sizeof(uint16_t)
#else
# define DECODE_LENGTH_U16(bUFFER, vALUE, sIZE) \
vALUE = (*(bUFFER)) | (*((bUFFER) + 1) << 8); \
sIZE += sizeof(uint16_t)
#endif
#define ENCODE_U8(buffer, value, size) \
*(uint8_t*)(buffer) = value; \
size += sizeof(uint8_t)
#define ENCODE_U16(buffer, value, size) \
*(uint16_t*)(buffer) = htons(value); \
size += sizeof(uint16_t)
#define ENCODE_U24(buffer, value, size) \
*(uint32_t*)(buffer) = htonl(value); \
size += sizeof(uint8_t) + sizeof(uint16_t)
#define ENCODE_U32(buffer, value, size) \
*(uint32_t*)(buffer) = htonl(value); \
size += sizeof(uint32_t)
#define IPV4_STR_ADDR_TO_INT_NWBO(AdDr_StR,NwBo,MeSsAgE ) do {\
struct in_addr inp;\
if ( inet_aton(AdDr_StR, &inp ) < 0 ) {\
AssertFatal (0, MeSsAgE);\
} else {\
NwBo = inp.s_addr;\
}\
} while (0)
#define NIPADDR(addr) \
(uint8_t)(addr & 0x000000FF), \
(uint8_t)((addr & 0x0000FF00) >> 8), \
(uint8_t)((addr & 0x00FF0000) >> 16), \
(uint8_t)((addr & 0xFF000000) >> 24)
#define HIPADDR(addr) \
(uint8_t)((addr & 0xFF000000) >> 24),\
(uint8_t)((addr & 0x00FF0000) >> 16),\
(uint8_t)((addr & 0x0000FF00) >> 8), \
(uint8_t)(addr & 0x000000FF)
#define NIP6ADDR(addr) \
ntohs((addr)->s6_addr16[0]), \
ntohs((addr)->s6_addr16[1]), \
ntohs((addr)->s6_addr16[2]), \
ntohs((addr)->s6_addr16[3]), \
ntohs((addr)->s6_addr16[4]), \
ntohs((addr)->s6_addr16[5]), \
ntohs((addr)->s6_addr16[6]), \
ntohs((addr)->s6_addr16[7])
#define IN6_ARE_ADDR_MASKED_EQUAL(a,b,m) \
(((((__const uint32_t *) (a))[0] & (((__const uint32_t *) (m))[0])) == (((__const uint32_t *) (b))[0] & (((__const uint32_t *) (m))[0]))) \
&& ((((__const uint32_t *) (a))[1] & (((__const uint32_t *) (m))[1])) == (((__const uint32_t *) (b))[1] & (((__const uint32_t *) (m))[1]))) \
&& ((((__const uint32_t *) (a))[2] & (((__const uint32_t *) (m))[2])) == (((__const uint32_t *) (b))[2] & (((__const uint32_t *) (m))[2]))) \
&& ((((__const uint32_t *) (a))[3] & (((__const uint32_t *) (m))[3])) == (((__const uint32_t *) (b))[3] & (((__const uint32_t *) (m))[3]))))
////////////
#define IPV4_STR_ADDR_TO_INADDR(AdDr_StR,InAdDr,MeSsAgE ) do {\
if ( inet_aton(AdDr_StR, &InAdDr ) <= 0 ) {\
throw (MeSsAgE);\
}\
} while (0)
#ifndef UNUSED
#define UNUSED(x) (void)(x)
#endif
#endif /* FILE_COMMON_DEFS_SEEN */
#include "nas_mm_plain_header.hpp"
#include "5GSRegistrationType.hpp"
#include "NasKeySetIdentifier.hpp"
#include "5GSMobilityIdentity.hpp"
#include "5GMMCapability.hpp"
#include "UESecurityCapability.hpp"
#include "UENetworkCapability.hpp"
#include "UplinkDataStatus.hpp"
#include "NSSAI.hpp"
#include "_5GS_Tracking_Area_Identity.hpp"
#include "PDU_Session_Status.hpp"
#include "MICO_Indication.hpp"
#include "UE_Status.hpp"
#include "Allowed_PDU_Session_Status.hpp"
#include "UES_Usage_Setting.hpp"
#include "_5GS_DRX_arameters.hpp"
#include "EPS_NAS_Message_Container.hpp"
#include "LADN_Indication.hpp"
#include "Payload_Container_Type.hpp"
#include "Payload_Container.hpp"
#include "Network_Slicing_Indication.hpp"
#include "_5GS_Update_Type.hpp"
#include "NAS_Message_Container.hpp"
#include "EPS_Bearer_Context_Status.hpp"
#include "_5GMM_Cause.hpp"
#include "GPRS_Timer_2.hpp"
#include "EAP_Message.hpp"
#include "Rejected_NSSAI.hpp"
#include "ABBA.hpp"
#include "Authentication_Parameter_RAND.hpp"
#include "Authentication_Parameter_AUTN.hpp"
#include "Authentication_Response_Parameter.hpp"
#include "Authentication_Failure_Parameter.hpp"
#include "NAS_Security_Algorithms.hpp"
#include "IMEISV_Request.hpp"
#include "EPS_NAS_Security_Algorithms.hpp"
#include "Additional_5G_Security_Information.hpp"
#include "S1_UE_Security_Capability.hpp"
#include "SOR_Transparent_Container.hpp"
#include "_5GS_Registration_Result.hpp"
#include "GPRS_Timer_3.hpp"
#include "PLMN_List.hpp"
#include "_5GS_Network_Feature_Support.hpp"
#include "PDU_Session_Reactivation_Result.hpp"
#include "PDU_Session_Reactivation_Result_Error_Cause.hpp"
#include "NSSAI_Inclusion_Mode.hpp"
#include "Non_3GPP_NW_Provided_Policies.hpp"
#include "UE_Radio_Capability_ID.hpp"
#include "_5GS_Identity_Type.hpp"
#include "PDU_Session_Identity_2.hpp"
#include "Request_Type.hpp"
#include "S_NSSAI.hpp"
#include "DNN.hpp"
#include "Additional_Information.hpp"
#include "MA_PDU_Session_Information.hpp"
#include "Release_Assistance_Indication.hpp"
#include "Extended_DRX_Parameters.hpp"
#include "struct.hpp"
#include "ServiceType.hpp"
#include "_5GSTrackingAreaIdList.hpp"
#include "5GMMCapability.hpp"
#include "logger.hpp"
using namespace nas;
_5GMMCapability::_5GMMCapability(const uint8_t iei, uint8_t value){
m_iei = iei;
m_value = value;
length = 3;
}
_5GMMCapability::_5GMMCapability(){}
_5GMMCapability::~_5GMMCapability(){}
void _5GMMCapability::setValue(uint8_t iei, uint8_t value){
m_iei = iei;
m_value = value;
}
uint8_t _5GMMCapability::getValue(){
return m_value;
}
int _5GMMCapability::encode2buffer(uint8_t *buf, int len){
Logger::nas_mm().debug("encoding _5GMMCapability iei(0x%x)",m_iei);
if(len < length){
Logger::nas_mm().error("len is less than %d",length);
return 0;
}
int encoded_size = 0;
if(m_iei){
*(buf+encoded_size) = m_iei; encoded_size ++;
*(buf+encoded_size) = length - 2; encoded_size ++;
*(buf+encoded_size) = m_value; encoded_size ++;
}else{
*(buf+encoded_size) = length - 1; encoded_size ++;
*(buf+encoded_size) = m_value; encoded_size ++;
}
Logger::nas_mm().debug("encoded _5GMMCapability len(%d)",encoded_size);
return encoded_size;
}
int _5GMMCapability::decodefrombuffer(uint8_t *buf, int len, bool is_option){
Logger::nas_mm().debug("decoding _5GMMCapability iei(0x%x)",*buf);
int decoded_size = 0;
if(is_option){
decoded_size ++;
}
length = *(buf+decoded_size); decoded_size ++;
m_value = *(buf+decoded_size); decoded_size ++;
Logger::nas_mm().debug("decoded _5GMMCapability value(0x%x)",m_value);
Logger::nas_mm().debug("decoded _5GMMCapability len(%d)",decoded_size);
return decoded_size;
}
#ifndef __5GMMCapability_H_
#define __5GMMCapability_H_
#include <stdint.h>
namespace nas{
class _5GMMCapability{
public:
_5GMMCapability();
_5GMMCapability(const uint8_t iei, uint8_t value);
~_5GMMCapability();
void setValue(uint8_t iei, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
uint8_t getValue();
private:
uint8_t m_iei;
uint8_t m_value;
int length;
};
}
#endif
This diff is collapsed.
#ifndef _5GSMobilityIdentity_H_
#define _5GSMobilityIdentity_H_
#include <iostream>
#include <stdint.h>
#include "struct.hpp"
extern "C" {
#include "bstrlib.h"
#include "TLVEncoder.h"
#include "TLVDecoder.h"
}
using namespace std;
namespace nas{
typedef struct _5G_GUTI_s{
string mcc;
string mnc;
uint8_t amf_region_id;
uint16_t amf_set_id;
uint16_t amf_pointer;
uint32_t _5g_tmsi;
}_5G_GUTI_t;
typedef struct IMEI_or_IMEISV_s{
uint8_t typeOfIdentity:3;
bool odd_even_indic;// for imei, even means bits 5 to 8 of last octet is "1111", for imeisv, bits 5 to 8 of last octet is "1111"
string identity;// "46011000001"
}IMEI_IMEISV_t;
typedef struct SUCI_imsi_s{
uint8_t supi_format:3;
string mcc;
string mnc;
string routingIndicator; //"1234"
uint8_t protectionSchemeId:4;// 0000
uint8_t homeNetworkPKI;// 00000000
string msin; // two types of coding; BCD & hexadecimal
}SUCI_imsi_t;// SUPI format "IMSI"
//don't define suci and supi format "Network specific identifier"
typedef struct _5G_S_TMSI_s{
uint16_t amf_set_id;
uint8_t amf_pointer;
string _5g_tmsi;
}_5G_S_TMSI_t;
class _5GSMobilityIdentity{
public:
_5GSMobilityIdentity(uint8_t _iei, const uint16_t amfSetId, const uint8_t amfPointer, const string tmsi);
_5GSMobilityIdentity(const string mcc, const string mnc, const string routingInd, uint8_t protection_sch_id, const string msin);
_5GSMobilityIdentity();
~_5GSMobilityIdentity();
void setIEI(uint8_t _iei);
int encode2buffer(uint8_t *buf, int len);
int suci_encode2buffer(uint8_t *buf, int len);
int _5g_guti_encode2buffer(uint8_t *buf, int len);
int encodeMssMnc2buffer(string mcc, string mnc, uint8_t *buf);
int encodeRoutid2buffer(string routid, uint8_t *buf);
int encodeMSIN2buffer(string msinstr, uint8_t *buf);
int _5g_s_tmsi_encode2buffer(uint8_t *buf, int len);
int _5g_s_tmsi_decodefrombuffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
int suci_decodefrombuffer(uint8_t *buf, int len, int length);
int _5g_guti_decodefrombuffer(uint8_t *buf, int len);
void set5GGUTI(const string mcc, const string mnc, uint8_t amf_region_id, uint16_t amf_set_id, uint8_t amf_pointer, const uint32_t _5g_tmsi);
void setSuciWithSupiImsi(const string &mcc, const string &mnc, const string &routingInd, uint8_t protecSchId ,uint8_t home_pki, const string &msin_digits);
void setSuciWithSupiImsi(const string &mcc, const string &mnc, const string &routingInd, uint8_t protecSchId ,const string &msin_digits);
void getSuciWithSupiImsi(SUCI_imsi_t &);
void get5GGUTI(_5G_GUTI_t &);
uint8_t gettypeOfIdentity() { return typeOfIdentity; };
bool get5G_S_TMSI(uint16_t &amfSetId, uint8_t &amfPointer, string &tmsi);
void setIMEISV(IMEISV_t imeisv);
void getIMEISV(IMEISV_t &imeisv);
int imeisv_encode2buffer(uint8_t *buf, int len);
int imeisv_decodefrombuffer(uint8_t *buf, int len);
private:
uint8_t iei;
_5G_GUTI_t *_5g_guti;
IMEI_IMEISV_t *imei_imeisv;
SUCI_imsi_t *supi_format_imsi;
_5G_S_TMSI_t *_5g_s_tmsi;
bool is_no_identity;
uint16_t length;
uint8_t typeOfIdentity:3;
IMEISV_t _IMEISV;
};
}
#endif
#include "5GSRegistrationType.hpp"
#include "3gpp_ts24501.hpp"
#include "logger.hpp"
using namespace nas;
_5GSRegistrationType::_5GSRegistrationType(){
iei = 0;
is_for = false;
reg_type = 0;
}
_5GSRegistrationType::_5GSRegistrationType(bool is_for, uint8_t type){
this->is_for = is_for;
this->reg_type = 0x07 & type;
this->iei = 0;
}
_5GSRegistrationType::_5GSRegistrationType(uint8_t iei, bool is_for, uint8_t type){
this->is_for = is_for;
this->reg_type = 0x07 & type;
this->iei = 0x0f & iei;
}
_5GSRegistrationType::~_5GSRegistrationType(){}
int _5GSRegistrationType::encode2buffer(uint8_t *buf, int len){
Logger::nas_mm().error("encoding 5gsregistrationtype IE");
if(len < 1) {
Logger::nas_mm().error("encoding 5gsregistrationtype error(len is less than one)");
return -1;
}
uint8_t octet = 0;
if(is_for)
octet = 0x08;
octet |= reg_type;
if(!(iei & 0x0f)){
*buf = 0x0f & octet;
Logger::nas_mm().debug("encoded 5GSRegistrationType IE(len(1/2 octet))");
return 0;
}else{
*buf = (iei<<4) | octet;
Logger::nas_mm().debug("encoded 5GSRegistrationType IE(len(1 octet))");
return 1;
}
}
int _5GSRegistrationType::decodefrombuffer(uint8_t *buf, int len, bool is_option){
if(is_option){
return -1;
}
Logger::nas_mm().debug("decoding 5GSRegistrationType");
uint8_t octet = *buf;
if(octet & 0x08)
is_for = FOLLOW_ON_REQ_PENDING;
else
is_for = NO_FOLLOW_ON_REQ_PENDING;
reg_type = 0x07 & octet;
Logger::nas_mm().debug("decoded 5GSRegistrationType len(1/2 octet)");
return 0;
}
void _5GSRegistrationType::setFollowOnReq(const bool is){
is_for = is;
}
void _5GSRegistrationType::setRegType(const uint8_t type){
reg_type = 0x07 & type;
}
bool _5GSRegistrationType::isFollowOnReq(){
return is_for;
}
uint8_t _5GSRegistrationType::getRegType(){
return reg_type;
}
#ifndef _5GS_REGISTRATION_TYPE_H_
#define _5GS_REGISTRATION_TYPE_H_
#include <stdint.h>
namespace nas{
class _5GSRegistrationType{
public:
_5GSRegistrationType();
_5GSRegistrationType(bool is_for, uint8_t type);
_5GSRegistrationType(uint8_t iei, bool is_for, uint8_t type);
~_5GSRegistrationType();
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
int encode2buffer(uint8_t *buf, int len);
void setFollowOnReq(const bool is);
void setRegType(const uint8_t type);
bool isFollowOnReq();
uint8_t getRegType();
private:
uint8_t iei:4;
bool is_for;
uint8_t reg_type:3;
};
}
#endif
#include "ABBA.hpp"
#include "logger.hpp"
using namespace nas;
ABBA::ABBA(uint8_t iei) {
_iei = iei;
}
ABBA::ABBA(const uint8_t iei, uint8_t length, uint8_t *value) {
_iei = iei;
for(int i=0;i<length;i++){
this->_value[i] =value[i];}
_length = length;
}
ABBA::ABBA() {}
ABBA::~ABBA() {}
uint8_t ABBA::getValue() {
for (int j = 0; j < _length; j++) {
Logger::nas_mm().debug("decoded ABBA value(0x%2x)", _value[j]);
}
return 1;
}
int ABBA::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding ABBA iei(0x%x)", _iei);
if (len < _length) {
Logger::nas_mm().error("len is less than %d", _length);
return 0;
}
int encoded_size = 0;
if (_iei) { //option
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = _length - 2; encoded_size++;
int i = 0;
while ((_length - 2) != 0) {
*(buf + encoded_size) = _value[i]; encoded_size++;
_length--; i++;
}
}
else {
Logger::nas_mm().debug("length(%d)", _length);
*(buf + encoded_size) = _length; encoded_size++;
int i = 0;
while (_length != 0) {
*(buf + encoded_size) = _value[i]; encoded_size++;
_length--; i++;
}
}
Logger::nas_mm().debug("encoded ABBA len(%d)", encoded_size);
return encoded_size;
}
int ABBA::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding ABBA iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
_length=0x00;
_value[255]={} ;
_length = *(buf + decoded_size); decoded_size++;
int i = 0;uint8_t Length=_length;
while (Length != 0) {
_value[i] = *(buf + decoded_size); decoded_size++;
Length--; i++;
}
for(int j=0;j<_length;j++){
Logger::nas_mm().debug("decoded ABBA value(0x%4x),length(0x%4x)", _value[j],_length);}
Logger::nas_mm().debug("decoded ABBA len(%d)", decoded_size);
return decoded_size;
}
#ifndef __ABBA_H_
#define __ABBA_H_
#include <stdint.h>
namespace nas {
class ABBA {
public:
ABBA();
ABBA(uint8_t iei);
ABBA(const uint8_t iei, uint8_t length, uint8_t *value);
~ABBA();
//void setValue(uint8_t iei, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
uint8_t getValue();
private:
uint8_t _iei;
uint8_t _length;
uint8_t _value[255];
};
}
#endif
#include "Additional_5G_Security_Information.hpp"
#include "logger.hpp"
using namespace nas;
Additional_5G_Security_Information::Additional_5G_Security_Information(uint8_t iei) {
_iei = iei;
}
Additional_5G_Security_Information::Additional_5G_Security_Information(const uint8_t iei, bool rinmr, bool hdp) {
_iei = iei;
RINMR = rinmr;
HDP = hdp;
}
Additional_5G_Security_Information::Additional_5G_Security_Information() {}
Additional_5G_Security_Information::~Additional_5G_Security_Information() {}
void Additional_5G_Security_Information::setRINMR(bool value) {
RINMR = value;
}
void Additional_5G_Security_Information::setHDP(bool value) {
HDP = value;
}
bool Additional_5G_Security_Information::getRINMR() {
return RINMR;
}
bool Additional_5G_Security_Information::getHDP() {
return HDP;
}
int Additional_5G_Security_Information::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding Additional_5G_Security_Information iei(0x%x)", _iei);
if (len < 3) {
Logger::nas_mm().error("len is less than 3");
return 0;
}
uint8_t octet = 0;
int encoded_size=0;
if(RINMR)
octet |= 0x02;
if(HDP)
octet |= 0x01;
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = 1; encoded_size++;
*(buf + encoded_size) = octet; encoded_size++;
Logger::nas_mm().debug("encoded Additional_5G_Security_Information IE(len(1 octet))");
return encoded_size;
}
int Additional_5G_Security_Information::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
if (len < 3) {
Logger::nas_mm().error("len is less than 3");
return 0;
}
else {
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
// length = *(buf + decoded_size);
decoded_size++;
uint8_t octet = *(buf + decoded_size); decoded_size++;
RINMR = octet&0x02;
HDP =octet& 0x01;
Logger::nas_mm().debug("decoded Additional_5G_Security_Information RINMR(0x%x) HDP(0x%x)", RINMR, HDP);
return decoded_size;
}
}
#ifndef __Additional_5G_Security_Information_H_
#define __Additional_5G_Security_Information_H_
#include <stdint.h>
namespace nas {
class Additional_5G_Security_Information {
public:
Additional_5G_Security_Information();
Additional_5G_Security_Information(uint8_t iei);
Additional_5G_Security_Information(const uint8_t iei, bool RINMR, bool HDP);
~Additional_5G_Security_Information();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void setRINMR(bool value);
void setHDP(bool value);
bool getRINMR();
bool getHDP();
private:
uint8_t _iei;
bool RINMR;
bool HDP;
};
}
#endif
#include "Additional_Information.hpp"
#include "logger.hpp"
using namespace nas;
Additional_Information::Additional_Information(uint8_t iei) {
_iei = iei;
}
Additional_Information::Additional_Information(const uint8_t iei, uint8_t _length, uint8_t value) {
_iei = iei;
_value = value;
length = _length;
}
Additional_Information::Additional_Information() {}
Additional_Information::~Additional_Information() {}
void Additional_Information::setValue(uint8_t iei, uint8_t value) {
_iei = iei;
_value = value;
}
uint8_t Additional_Information::getValue() {
return _value;
}
int Additional_Information::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding Additional_Information iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %d", length);
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = (length - 2); encoded_size++;
*(buf + encoded_size) = _value; encoded_size++;
}
else {
*(buf + encoded_size) = (length - 1); encoded_size++;
*(buf + encoded_size) = _value; encoded_size++;
}
Logger::nas_mm().debug("encoded Additional_Information len(%d)", encoded_size);
return encoded_size;
}
int Additional_Information::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding Additional_Information iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
_value = 0x00;
length = *(buf + decoded_size); decoded_size++;
_value = *(buf + decoded_size); decoded_size++;
Logger::nas_mm().debug("decoded Additional_Information value(0x%x)", _value);
Logger::nas_mm().debug("decoded Additional_Information len(%d)", decoded_size);
return decoded_size;
}
#ifndef __Additional_Information_H_
#define __Additional_Information_H_
#include <stdint.h>
namespace nas {
class Additional_Information {
public:
Additional_Information();
Additional_Information(uint8_t iei);
Additional_Information(const uint8_t iei, uint8_t _length, uint8_t value);
~Additional_Information();
void setValue(uint8_t iei, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
uint8_t getValue();
private:
uint8_t _iei;
uint8_t length;
uint8_t _value;
};
}
#endif
#include "Allowed_PDU_Session_Status.hpp"
#include "logger.hpp"
using namespace nas;
Allowed_PDU_Session_Status::Allowed_PDU_Session_Status(uint8_t iei) {
_iei = iei;
}
Allowed_PDU_Session_Status::Allowed_PDU_Session_Status(const uint8_t iei, uint16_t value) {
_iei = iei;
_value = value;
length = 4;
}
Allowed_PDU_Session_Status::Allowed_PDU_Session_Status() {}
Allowed_PDU_Session_Status::~Allowed_PDU_Session_Status() {}
void Allowed_PDU_Session_Status::setValue(uint8_t iei, uint16_t value) {
_iei = iei;
_value = value;
}
uint16_t Allowed_PDU_Session_Status::getValue() {
return _value;
}
int Allowed_PDU_Session_Status::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding Allowed_PDU_Session_Status iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %d", length);
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = length - 2; encoded_size++;
*(buf + encoded_size) = (_value&0x00ff); encoded_size++;
*(buf + encoded_size) = (_value&0xff00)>>8; encoded_size++;
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded Allowed_PDU_Session_Status len(%d)", encoded_size);
return encoded_size;
}
int Allowed_PDU_Session_Status::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding Allowed_PDU_Session_Status iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
_value = 0x0000;
length = *(buf + decoded_size); decoded_size++;
_value |= *(buf + decoded_size); decoded_size++;
_value |= (*(buf + decoded_size))<<8; decoded_size++;
Logger::nas_mm().debug("decoded Allowed_PDU_Session_Status value(0x%4x)", _value);
Logger::nas_mm().debug("decoded Allowed_PDU_Session_Status len(%d)", decoded_size);
return decoded_size;
}
#ifndef __Allowed_PDU_Session_Status_H_
#define __Allowed_PDU_Session_Status_H_
#include <stdint.h>
namespace nas {
class Allowed_PDU_Session_Status {
public:
Allowed_PDU_Session_Status();
Allowed_PDU_Session_Status(uint8_t iei);
Allowed_PDU_Session_Status(const uint8_t iei, uint16_t value);
~Allowed_PDU_Session_Status();
void setValue(uint8_t iei, uint16_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
uint16_t getValue();
private:
uint8_t _iei;
uint8_t length;
uint16_t _value;
};
}
#endif
#include "Authentication_Failure_Parameter.hpp"
#include "logger.hpp"
using namespace nas;
Authentication_Failure_Parameter::Authentication_Failure_Parameter(uint8_t iei) {
_iei = iei;
}
Authentication_Failure_Parameter::Authentication_Failure_Parameter(const uint8_t iei, bstring auts) {
_iei = iei;
value = bstrcpy(auts);
length = blength(auts) + 2;
}
Authentication_Failure_Parameter::Authentication_Failure_Parameter() {}
Authentication_Failure_Parameter::~Authentication_Failure_Parameter() {}
void Authentication_Failure_Parameter::getValue(bstring &auts) {
auts = bstrcpy(value);
}
int Authentication_Failure_Parameter::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding Authentication_Failure_Parameter iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %x",length);
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = length-2; encoded_size++;
int size = encode_bstring(value, (buf + encoded_size), len - encoded_size);
encoded_size += size;
return encoded_size;
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded Authentication_Failure_Parameter len(%d)", encoded_size);
return encoded_size;
}
int Authentication_Failure_Parameter::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding Authentication_Failure_Parameter iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
length = *(buf + decoded_size); decoded_size++;
Logger::nas_mm().debug("decoded IE Authentication_Failure_Parameter length(%d)", length);
decode_bstring(&value, length, (buf + decoded_size), len - decoded_size);
decoded_size += length;
for (int i = 0; i < length; i++) {
Logger::nas_mm().debug("decoded Authentication_Failure_Parameter value(0x%x)", (uint8_t*)value->data[i]);
}
Logger::nas_mm().debug("decoded Authentication_Failure_Parameter len(%d)", decoded_size);
return decoded_size;
}
#ifndef __Authentication_Failure_Parameter_H_
#define __Authentication_Failure_Parameter_H_
#include <iostream>
#include <stdint.h>
extern "C" {
#include "bstrlib.h"
#include "TLVEncoder.h"
#include "TLVDecoder.h"
}
namespace nas {
class Authentication_Failure_Parameter {
public:
Authentication_Failure_Parameter();
Authentication_Failure_Parameter(uint8_t iei);
Authentication_Failure_Parameter(const uint8_t iei, bstring auts);
~Authentication_Failure_Parameter();
//void setValue(uint8_t iei, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void getValue(bstring &auts);
private:
uint8_t _iei;
uint8_t length;
bstring value;
};
}
#endif
#include "Authentication_Parameter_AUTN.hpp"
#include "logger.hpp"
using namespace nas;
Authentication_Parameter_AUTN::Authentication_Parameter_AUTN(uint8_t iei) {
_iei = iei;
}
Authentication_Parameter_AUTN::Authentication_Parameter_AUTN(const uint8_t iei,uint8_t *value) {
_iei = iei;
for(int i=0;i<16;i++){
this->_value[i] =value[i];}
}
Authentication_Parameter_AUTN::Authentication_Parameter_AUTN() {}
Authentication_Parameter_AUTN::~Authentication_Parameter_AUTN() {}
uint8_t *Authentication_Parameter_AUTN::getValue() {
//for (int j = 0; j < 16; j++) {
// Logger::nas_mm().debug("decoded Authentication_Response_Parameter value(0x%2x)", _value[j]);
//}
return _value;}
int Authentication_Parameter_AUTN::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding Authentication_Parameter_AUTN iei(0x%x)", _iei);
if (len < 18) {
Logger::nas_mm().error("len is less than 18");
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = 16; encoded_size++;
for (int i = 0; i < 16;i++) {
*(buf + encoded_size) = _value[i]; encoded_size++;
}
return encoded_size;
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded Authentication_Parameter_AUTN len(%d)", encoded_size);
return encoded_size;
}
int Authentication_Parameter_AUTN::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding Authentication_Parameter_AUTN iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
decoded_size++;
for(int i=0;i<16;i++) {
_value[i] = *(buf + decoded_size); decoded_size++;
}
for(int j=0;j<16;j++){
Logger::nas_mm().debug("decoded Authentication_Parameter_AUTN value(0x%2x)", _value[j]);}
Logger::nas_mm().debug("decoded Authentication_Parameter_AUTN len(%d)", decoded_size);
return decoded_size;
}
#ifndef __Authentication_Parameter_AUTN_H_
#define __Authentication_Parameter_AUTN_H_
#include <stdint.h>
namespace nas {
class Authentication_Parameter_AUTN {
public:
Authentication_Parameter_AUTN();
Authentication_Parameter_AUTN(uint8_t iei);
Authentication_Parameter_AUTN(const uint8_t iei, uint8_t *value);
~Authentication_Parameter_AUTN();
//void setValue(uint8_t iei, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
uint8_t *getValue();
private:
uint8_t _iei;
uint8_t _value[16];
};
}
#endif
#include "Authentication_Parameter_RAND.hpp"
#include "logger.hpp"
using namespace nas;
Authentication_Parameter_RAND::Authentication_Parameter_RAND(uint8_t iei) {
_iei = iei;
}
Authentication_Parameter_RAND::Authentication_Parameter_RAND(const uint8_t iei, uint8_t *value) {
_iei = iei;
for(int i=0;i<16;i++){this->_value[i] = value[i];}
}
Authentication_Parameter_RAND::Authentication_Parameter_RAND() {}
Authentication_Parameter_RAND::~Authentication_Parameter_RAND() {}
uint8_t *Authentication_Parameter_RAND::getValue() {
return _value;
}
int Authentication_Parameter_RAND::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding Authentication_Parameter_RAND iei(0x%x)", _iei);
if (len < 17) {
Logger::nas_mm().error("len is less than 17");
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
memcpy((void*)(buf+encoded_size), (void*)_value, 16); encoded_size += 16;
//int i = 0;
//for (int i = 0; i < 16; i++) {
// *(buf + encoded_size) = _value[i]; encoded_size++;
//}
return encoded_size;
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded Authentication_Parameter_RAND len(%d)", encoded_size);
return encoded_size;
}
int Authentication_Parameter_RAND::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding Authentication_Parameter_RAND iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
for(int i=0;i<16;i++){
_value[i] = *(buf + decoded_size); decoded_size++;
}
for (int j = 0; j < 16; j++) {
Logger::nas_mm().debug("decoded Authentication_Parameter_RAND value(0x%2x)", _value[j]);
}
Logger::nas_mm().debug("decoded Authentication_Parameter_RAND len(%d)", decoded_size);
return decoded_size;
}
#ifndef __Authentication_Parameter_RAND_H_
#define __Authentication_Parameter_RAND_H_
#include <stdint.h>
namespace nas {
class Authentication_Parameter_RAND {
public:
Authentication_Parameter_RAND();
Authentication_Parameter_RAND(uint8_t iei);
Authentication_Parameter_RAND(const uint8_t iei, uint8_t *value);
~Authentication_Parameter_RAND();
//void setValue(uint8_t iei, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
uint8_t *getValue();
private:
uint8_t _iei;
uint8_t _value[16];
};
}
#endif
#include "Authentication_Response_Parameter.hpp"
#include "logger.hpp"
using namespace nas;
Authentication_Response_Parameter::Authentication_Response_Parameter(uint8_t iei) {
_iei = iei;
}
Authentication_Response_Parameter::Authentication_Response_Parameter(const uint8_t iei,bstring para) {
_iei = iei;
PARA = bstrcpy(para);
}
Authentication_Response_Parameter::Authentication_Response_Parameter() {}
Authentication_Response_Parameter::~Authentication_Response_Parameter() {}
void Authentication_Response_Parameter::getValue(bstring &para) {
para = bstrcpy(PARA);
}
int Authentication_Response_Parameter::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding Authentication_Response_Parameter iei(0x%x)", _iei);
if (len < 18) {
Logger::nas_mm().error("len is less than 18");
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = 16; encoded_size++;
int size = encode_bstring(PARA, (buf + encoded_size), len - encoded_size);
encoded_size += size;
return encoded_size;
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded Authentication_Response_Parameter len(%d)", encoded_size);
return encoded_size;
}
int Authentication_Response_Parameter::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding Authentication_Response_Parameter iei(0x%x)", *buf);
int decoded_size = 0;
uint8_t length = 0;
if (is_option) {
decoded_size++;
}
length = *(buf + decoded_size); decoded_size++;
decode_bstring(&PARA, length, (buf + decoded_size), len - decoded_size);
decoded_size += length;
for (int i = 0; i < length; i++) {
Logger::nas_mm().debug("decoded NAS_Message_Container value(0x%x)", (uint8_t*)PARA->data[i]);
}
Logger::nas_mm().debug("decoded Authentication_Response_Parameter len(%d)", decoded_size);
return decoded_size;
}
#ifndef __Authentication_Response_Parameter_H_
#define __Authentication_Response_Parameter_H_
#include <iostream>
#include <stdint.h>
extern "C"{
#include "bstrlib.h"
#include "TLVEncoder.h"
#include "TLVDecoder.h"
}
namespace nas {
class Authentication_Response_Parameter {
public:
Authentication_Response_Parameter();
Authentication_Response_Parameter(uint8_t iei);
Authentication_Response_Parameter(const uint8_t iei, bstring para);
~Authentication_Response_Parameter();
//void setValue(uint8_t iei, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void getValue(bstring &para);
private:
uint8_t _iei;
bstring PARA;
};
}
#endif
#include "DNN.hpp"
#include "logger.hpp"
using namespace nas;
DNN::DNN(uint8_t iei) {
_iei = iei;
}
DNN::DNN(const uint8_t iei, bstring dnn) {
_iei = iei;
_DNN = bstrcpy(dnn);
length = blength(dnn) + 2;
}
DNN::DNN() {}
DNN::~DNN() {}
/*void DNN::setValue(uint8_t iei, uint8_t value) {
_iei = iei;
_value = value;
}*/
void DNN::getValue(bstring &dnn) {
//dnn = _DNN;
//dnn = bstrcpy(_DNN);
dnn = blk2bstr((uint8_t*)bdata(_DNN)+1, blength(_DNN)-1);
}
int DNN::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding DNN iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %d", length);
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = (length - 2); encoded_size++;
int size = encode_bstring(_DNN, (buf + encoded_size), len - encoded_size);
encoded_size += size;
}
else {
*(buf + encoded_size) = (length - 1); encoded_size++;
int size = encode_bstring(_DNN, (buf + encoded_size), len - encoded_size);
encoded_size += size;
}
Logger::nas_mm().debug("encoded DNN len(%d)", encoded_size);
return encoded_size;
}
int DNN::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding DNN iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
length = *(buf + decoded_size); decoded_size++;
decode_bstring(&_DNN, length, (buf + decoded_size), len - decoded_size);
decoded_size += length;
for (int i = 0; i < blength(_DNN); i++) {
Logger::nas_mm().debug("decoded DNN value(0x%x)", (uint8_t*)bdata(_DNN)[i]);
//print_buffer("amf_n1", "decoded dnn bitstring", (uint8_t*)bdata(_DNN), blength(_DNN));
}
Logger::nas_mm().debug("decoded DNN len(%d)", decoded_size);
return decoded_size;
}
#ifndef __DNN_H_
#define __DNN_H_
#include <iostream>
#include <stdint.h>
extern "C" {
#include "bstrlib.h"
#include "TLVEncoder.h"
#include "TLVDecoder.h"
}
namespace nas {
class DNN {
public:
DNN();
DNN(uint8_t iei);
DNN(const uint8_t iei, bstring dnn);
~DNN();
//void setValue(uint8_t iei, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void getValue(bstring &dnn);
private:
uint8_t _iei;
uint8_t length;
bstring _DNN;
};
}
#endif
#include "EAP_Message.hpp"
#include "logger.hpp"
using namespace nas;
EAP_Message::EAP_Message(uint8_t iei) {
_iei = iei;
}
EAP_Message::EAP_Message(const uint8_t iei, bstring eap) {
_iei = iei;
EAP = bstrcpy(eap);
length = blength(eap) + 3;
}
EAP_Message::EAP_Message() {}
EAP_Message::~EAP_Message() {}
void EAP_Message::getValue(bstring &eap) {
eap = bstrcpy(EAP);
}
int EAP_Message::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding EAP_Message iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %d", length);
return 0;
}
int encoded_size = 0;
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = (length - 3)&0x00ff; encoded_size++;
*(buf + encoded_size) = ((length - 3) & 0xff00)>>8; encoded_size++;
int size = encode_bstring(EAP, (buf + encoded_size), len - encoded_size);
encoded_size += size;
Logger::nas_mm().debug("encoded EAP_Message len(%d)", encoded_size);
return encoded_size;
}
int EAP_Message::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding EAP_Message iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
length = 0;
length |= *(buf + decoded_size); decoded_size++;
length |= (*(buf + decoded_size)) << 8; decoded_size++;
decode_bstring(&EAP, length, (buf + decoded_size), len - decoded_size);
decoded_size += length;
for (int i = 0; i < length; i++) {
Logger::nas_mm().debug("decoded EAP_Message value(0x%x)", (uint8_t*)EAP->data[i]);
}
Logger::nas_mm().debug("decoded EAP_Message len(%d)", decoded_size);
return decoded_size;
}
#ifndef __EAP_Message_H_
#define __EAP_Message_H_
#include <iostream>
#include <stdint.h>
extern "C"{
#include "bstrlib.h"
#include "TLVEncoder.h"
#include "TLVDecoder.h"
}
namespace nas {
class EAP_Message {
public:
EAP_Message();
EAP_Message(uint8_t iei);
EAP_Message(const uint8_t iei, bstring eap);
~EAP_Message();
//void setValue(uint8_t iei, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void getValue(bstring &eap);
private:
uint8_t _iei;
uint16_t length;
bstring EAP;
};
}
#endif
#include "EPS_Bearer_Context_Status.hpp"
#include "logger.hpp"
using namespace nas;
EPS_Bearer_Context_Status::EPS_Bearer_Context_Status(uint8_t iei) {
_iei = iei;
}
EPS_Bearer_Context_Status::EPS_Bearer_Context_Status(const uint8_t iei, uint16_t value) {
_iei = iei;
_value = value;
length = 4;
}
EPS_Bearer_Context_Status::EPS_Bearer_Context_Status() {}
EPS_Bearer_Context_Status::~EPS_Bearer_Context_Status() {}
void EPS_Bearer_Context_Status::setValue(uint8_t iei, uint16_t value) {
_iei = iei;
_value = value;
}
uint16_t EPS_Bearer_Context_Status::getValue() {
return _value;
}
int EPS_Bearer_Context_Status::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding EPS_Bearer_Context_Status iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %d", length);
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = length - 2; encoded_size++;
*(buf + encoded_size) = (_value&0x00ff); encoded_size++;
*(buf + encoded_size) = (_value&0xff00)>>8; encoded_size++;
}
else {
//*(buf + encoded_size) = length - 1; encoded_size++;
//*(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded EPS_Bearer_Context_Status len(%d)", encoded_size);
return encoded_size;
}
int EPS_Bearer_Context_Status::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding EPS_Bearer_Context_Status iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
_value = 0x0000;
length = *(buf + decoded_size); decoded_size++;
_value |= *(buf + decoded_size); decoded_size++;
_value |= (*(buf + decoded_size))<<8; decoded_size++;
Logger::nas_mm().debug("decoded EPS_Bearer_Context_Status value(0x%4x)", _value);
Logger::nas_mm().debug("decoded EPS_Bearer_Context_Status len(%d)", decoded_size);
return decoded_size;
}
#ifndef __EPS_Bearer_Context_Status_H_
#define __EPS_Bearer_Context_Status_H_
#include <stdint.h>
namespace nas {
class EPS_Bearer_Context_Status {
public:
EPS_Bearer_Context_Status();
EPS_Bearer_Context_Status(uint8_t iei);
EPS_Bearer_Context_Status(const uint8_t iei, uint16_t value);
~EPS_Bearer_Context_Status();
void setValue(uint8_t iei, uint16_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
uint16_t getValue();
private:
uint8_t _iei;
uint8_t length;
uint16_t _value;
};
}
#endif
#include "EPS_NAS_Message_Container.hpp"
#include "logger.hpp"
using namespace nas;
EPS_NAS_Message_Container::EPS_NAS_Message_Container(uint8_t iei) {
_iei = iei;
}
EPS_NAS_Message_Container::EPS_NAS_Message_Container(const uint8_t iei, bstring value) {
_iei = iei;
_value = bstrcpy(value);
length = blength(value) + 3;
}
EPS_NAS_Message_Container::EPS_NAS_Message_Container() {}
EPS_NAS_Message_Container::~EPS_NAS_Message_Container() {}
void EPS_NAS_Message_Container::setValue(uint8_t iei, uint8_t value) {
_iei = iei;
//_value = value;
}
void EPS_NAS_Message_Container::getValue(bstring &value) {
value = bstrcpy(_value);
}
int EPS_NAS_Message_Container::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding EPS_NAS_Message_Container iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %d", length);
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
* (buf + encoded_size) = (length - 3) & 0x00ff; encoded_size++;
* (buf + encoded_size) = ((length - 3) & 0xff000) >> 8; encoded_size++;
int size = encode_bstring(_value, (buf + encoded_size), len - encoded_size);
encoded_size += size;
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded EPS_NAS_Message_Container len(%d)", encoded_size);
return encoded_size;
}
int EPS_NAS_Message_Container::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding EPS_NAS_Message_Container iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
length = 0;
length |= *(buf + decoded_size); decoded_size++;
length |= (*(buf + decoded_size)) << 8; decoded_size++;
decode_bstring(&_value, length, (buf + decoded_size), len - decoded_size);
decoded_size += length;
for (int i = 0; i < length; i++) {
Logger::nas_mm().debug("decoded EPS_NAS_Message_Container value(0x%x)", (uint8_t*)_value->data[i]);
}
Logger::nas_mm().debug("decoded EPS_NAS_Message_Container len(%d)", decoded_size);
return decoded_size;
}
#ifndef __EPS_NAS_Message_Container_H_
#define __EPS_NAS_Message_Container_H_
#include <iostream>
#include <stdint.h>
extern "C" {
#include "bstrlib.h"
#include "TLVEncoder.h"
#include "TLVDecoder.h"
}
namespace nas {
class EPS_NAS_Message_Container {
public:
EPS_NAS_Message_Container();
EPS_NAS_Message_Container(uint8_t iei);
EPS_NAS_Message_Container(const uint8_t iei, bstring value);
~EPS_NAS_Message_Container();
void setValue(uint8_t iei, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void getValue(bstring &value);
private:
uint8_t _iei;
uint16_t length;
bstring _value;
};
}
#endif
#include "EPS_NAS_Security_Algorithms.hpp"
#include "logger.hpp"
#include <iostream>
using namespace nas;
using namespace std;
EPS_NAS_Security_Algorithms::EPS_NAS_Security_Algorithms() {}
EPS_NAS_Security_Algorithms::~EPS_NAS_Security_Algorithms() {}
EPS_NAS_Security_Algorithms::EPS_NAS_Security_Algorithms(uint8_t iei, uint8_t ciphering, uint8_t integrity_protection)
{
_iei = iei;
CIPHERING = ciphering;
INTEGRITY_PROTECTION = integrity_protection;
}
void EPS_NAS_Security_Algorithms::setCIPHERING(uint8_t value) { CIPHERING = value; }
void EPS_NAS_Security_Algorithms::setINTEGRITY_PROTECTION(uint8_t value) { INTEGRITY_PROTECTION = value; }
uint8_t EPS_NAS_Security_Algorithms::getCIPHERING() { return CIPHERING; }
uint8_t EPS_NAS_Security_Algorithms::getINTEGRITY_PROTECTION() { return INTEGRITY_PROTECTION; }
int EPS_NAS_Security_Algorithms::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding EPS_NAS_Security_Algorithms iei(0x%x)", _iei);
int encoded_size = 0;
if (len < 2) {
Logger::nas_mm().error("len is less than 2");
return -1;
}
else {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = ((CIPHERING&0x07)<<4)|(INTEGRITY_PROTECTION&0x07); encoded_size++;
Logger::nas_mm().debug("encoded EPS_NAS_Security_Algorithms IE 0x%x", *buf);
}
return encoded_size;
}
int EPS_NAS_Security_Algorithms::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding EPS_NAS_Security_Algorithms IE");
if (len < 2) {
Logger::nas_mm().error("len is less than 2");
return 0;
}
else {
int decoded_size = 0;
decoded_size++;
CIPHERING = (*(buf+decoded_size)&0x70)>>4;
INTEGRITY_PROTECTION = *(buf+decoded_size) & 0x07;
decoded_size++;
Logger::nas_mm().debug("decoded NAS_Security_Algorithms len 1 octet,CIPHERING=0x%x,INTEGRITY_PROTECTION=0x%x", CIPHERING, INTEGRITY_PROTECTION);
return decoded_size;
}
}
#ifndef __EPS_NAS_Security_Algorithms_H
#define __EPS_NAS_Security_Algorithms_H
#include <stdint.h>
namespace nas {
class EPS_NAS_Security_Algorithms {
public:
EPS_NAS_Security_Algorithms();
~EPS_NAS_Security_Algorithms();
EPS_NAS_Security_Algorithms(uint8_t iei, uint8_t ciphering, uint8_t integrity_protection);
void setCIPHERING(uint8_t value);
void setINTEGRITY_PROTECTION(uint8_t value);
uint8_t getCIPHERING();
uint8_t getINTEGRITY_PROTECTION();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
private:
uint8_t _iei;
uint8_t CIPHERING;
uint8_t INTEGRITY_PROTECTION;
};
}
#endif
#include "ExtendedProtocolDiscriminator.hpp"
using namespace nas;
void ExtendedProtocolDiscriminator::setValue(const uint8_t epd){
m_epd = epd;
}
uint8_t ExtendedProtocolDiscriminator::getValue(){
return m_epd;
}
void ExtendedProtocolDiscriminator::encode2buffer(uint8_t *buf, int len){
}
#ifndef _EPD_H_
#define _EPD_H_
#include<stdint.h>
namespace nas{
class ExtendedProtocolDiscriminator{
public:
void encode2buffer(uint8_t *buf, int len);
void setValue(const uint8_t epd);
uint8_t getValue();
private:
uint8_t m_epd;
};
}
#endif
#include "Extended_DRX_Parameters.hpp"
#include "logger.hpp"
using namespace nas;
Extended_DRX_Parameters::Extended_DRX_Parameters(uint8_t iei) {
_iei = iei;
}
Extended_DRX_Parameters::Extended_DRX_Parameters(const uint8_t iei, uint8_t paging_time, uint8_t value) {
_iei = iei;
_paging_time = paging_time & 0x0F;
_value = value&0x0F;
}
Extended_DRX_Parameters::Extended_DRX_Parameters() {}
Extended_DRX_Parameters::~Extended_DRX_Parameters() {}
void Extended_DRX_Parameters::setValue(uint8_t value) {
_value = value&0x0F;
}
void Extended_DRX_Parameters::setPaging_time(uint8_t value) {
_paging_time = value & 0x0F;
}
uint8_t Extended_DRX_Parameters::getValue() {
return _value;
}
uint8_t Extended_DRX_Parameters::getPaging_time() {
return _paging_time;
}
int Extended_DRX_Parameters::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding Extended_DRX_Parameters iei(0x%x)", _iei);
if (len < 3) {
Logger::nas_mm().error("len is less than 3");
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = 1; encoded_size++;
*(buf + encoded_size) = (0x0F& _value)| ((_paging_time&0x0f)<<4); encoded_size++;
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded Extended_DRX_Parameters len(%d)", encoded_size);
return encoded_size;
}
int Extended_DRX_Parameters::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding Extended_DRX_Parameters iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
_value=0x00;
// length = *(buf + decoded_size);
decoded_size++;
_value = *(buf + decoded_size) & 0x0f;
_paging_time = *(buf + decoded_size) & 0xf0; decoded_size++;
Logger::nas_mm().debug("decoded Extended_DRX_Parameters paging_time(0x%x) value(0x%x) ", _paging_time, _value);
Logger::nas_mm().debug("decoded Extended_DRX_Parameters len(%d)", decoded_size);
return decoded_size;
}
#ifndef __Extended_DRX_Parameters_H_
#define __Extended_DRX_Parameters_H_
#include <stdint.h>
namespace nas {
class Extended_DRX_Parameters {
public:
Extended_DRX_Parameters();
Extended_DRX_Parameters(uint8_t iei);
Extended_DRX_Parameters(const uint8_t iei, uint8_t paging_time, uint8_t value);
~Extended_DRX_Parameters();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void setValue(uint8_t value);
uint8_t getValue();
void setPaging_time(uint8_t value);
uint8_t getPaging_time();
private:
uint8_t _iei;
uint8_t _paging_time;
uint8_t _value;
};
}
#endif
#include "GPRS_Timer_2.hpp"
#include "logger.hpp"
using namespace nas;
GPRS_Timer_2::GPRS_Timer_2(uint8_t iei) {
_iei = iei;
}
GPRS_Timer_2::GPRS_Timer_2(const uint8_t iei, uint8_t value) {
_iei = iei;
_value = value;
}
GPRS_Timer_2::GPRS_Timer_2() {}
GPRS_Timer_2::~GPRS_Timer_2() {}
void GPRS_Timer_2::setIEI(uint8_t iei) {
_iei = iei;
}
void GPRS_Timer_2::setValue(uint8_t value) {
_value = value;
}
uint8_t GPRS_Timer_2::getValue() {
return _value;
}
int GPRS_Timer_2::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding GPRS_Timer_2 iei(0x%x)", _iei);
if (len < 3) {
Logger::nas_mm().error("len is less than 3");
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = 1; encoded_size++;
*(buf + encoded_size) = _value; encoded_size++;
Logger::nas_mm().debug("encoded GPRS_Timer_2 _value(0x%x),iei(0x%x)", *(buf+encoded_size-1),_iei);
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded GPRS_Timer_2 len(%d)", encoded_size);
return encoded_size;
}
int GPRS_Timer_2::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding GPRS_Timer_2 iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
_iei=*buf;
decoded_size++;
}
_value=0x00;
// length = *(buf + decoded_size);
decoded_size++;
_value = *(buf + decoded_size); decoded_size++;
Logger::nas_mm().debug("decoded GPRS_Timer_2 _value(0x%x),iei(0x%x)", _value,_iei);
Logger::nas_mm().debug("decoded GPRS_Timer_2 len(%d)", decoded_size);
return decoded_size;
}
#ifndef __GPRS_Timer_2_H_
#define __GPRS_Timer_2_H_
#include <stdint.h>
namespace nas {
class GPRS_Timer_2 {
public:
GPRS_Timer_2();
GPRS_Timer_2(uint8_t iei);
GPRS_Timer_2(const uint8_t iei, uint8_t value);
~GPRS_Timer_2();
void setIEI(uint8_t iei);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void setValue(uint8_t value);
uint8_t getValue();
private:
uint8_t _iei;
uint8_t _value;
};
}
#endif
#include "GPRS_Timer_3.hpp"
#include "logger.hpp"
using namespace nas;
GPRS_Timer_3::GPRS_Timer_3(uint8_t iei) {
_iei = iei;
}
GPRS_Timer_3::GPRS_Timer_3(const uint8_t iei,uint8_t unit, uint8_t value) {
_iei = iei;
UNIT = unit;
_value = value;
}
GPRS_Timer_3::GPRS_Timer_3() {}
GPRS_Timer_3::~GPRS_Timer_3() {}
void GPRS_Timer_3::setValue(uint8_t unit,uint8_t value) {
UNIT = unit;
_value = value;
}
uint8_t GPRS_Timer_3::getUnit() {
return UNIT;
}
uint8_t GPRS_Timer_3::getValue() {
return _value;
}
int GPRS_Timer_3::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding GPRS_Timer_3 iei(0x%x)", _iei);
if (len < 3) {
Logger::nas_mm().error("len is less than 3");
return 0;
}
uint8_t octet=0;
int encoded_size = 0;
octet = (UNIT<<5)| (_value & 0x1f);
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = 1; encoded_size++;
*(buf + encoded_size) = octet; encoded_size++;
Logger::nas_mm().debug("encoded GPRS_Timer_3 conent(0x%x)", octet);
}
else {
*(buf + encoded_size) = 1; encoded_size++;
*(buf + encoded_size) = octet; encoded_size++;
}
Logger::nas_mm().debug("encoded GPRS_Timer_3 len(%d)", encoded_size);
return encoded_size;
}
int GPRS_Timer_3::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding GPRS_Timer_3 iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
_iei=*buf;
decoded_size++;
}
uint8_t octet=0;
// length = *(buf + decoded_size);
decoded_size++;
octet = *(buf + decoded_size); decoded_size++;
UNIT = (octet & 0xe0) >> 5;
_value = octet & 0x1f;
Logger::nas_mm().debug("decoded GPRS_Timer_3 conent(0x%x)", octet);
Logger::nas_mm().debug("decoded GPRS_Timer_3 len(%d)", decoded_size);
return decoded_size;
}
#ifndef __GPRS_Timer_3_H_
#define __GPRS_Timer_3_H_
#include <stdint.h>
namespace nas {
class GPRS_Timer_3 {
public:
GPRS_Timer_3();
GPRS_Timer_3(uint8_t iei);
GPRS_Timer_3(const uint8_t iei,uint8_t unit, uint8_t value);
~GPRS_Timer_3();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void setValue(uint8_t unit,uint8_t value);
uint8_t getValue();
uint8_t getUnit();
private:
uint8_t _iei;
uint8_t UNIT;
uint8_t _value;
};
}
#endif
#include "IMEISV_Request.hpp"
#include "logger.hpp"
using namespace nas;
IMEISV_Request::IMEISV_Request(uint8_t iei) {
_iei = iei;
}
IMEISV_Request::IMEISV_Request(const uint8_t iei,uint8_t value) {
_iei = iei;
_value = value;
}
IMEISV_Request::IMEISV_Request() {}
IMEISV_Request::~IMEISV_Request() {}
void IMEISV_Request::setValue(uint8_t value) {
_value = value;
}
uint8_t IMEISV_Request::getValue() {
return _value;
}
int IMEISV_Request::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding IMEISV_Request iei(0x%x)", _iei);
if (len < 1) {
Logger::nas_mm().error("len is less than 1");
return 0;
}
uint8_t octet = 0;
if (!(_iei & 0x0f)) {
//octet = (0x0f) & ((tsc << 3) | key_id);
//*buf = octet;
//Logger::nas_mm().debug("encoded Payload_Container_Type IE(len(1/2 octet))");
//return 0;
}
else {
octet = (_iei << 4) | (_value&0x07);
*buf = octet;
Logger::nas_mm().debug("encoded IMEISV_Request IE(len(1 octet))");
return 1;
}
}
int IMEISV_Request::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
if (len < 1) {
Logger::nas_mm().error("len is less than one");
return 0;
}
else {
uint8_t octet = (*buf);
if (is_option) {
_iei = (octet & 0xf0) >> 4;
}
else {
_iei = 0;
}
_value =octet& 0x07;
Logger::nas_mm().debug("decoded IMEISV_Request value(0x%x)", _value);
return 1;
}
}
#ifndef __IMEISV_Request_H_
#define __IMEISV_Request_H_
#include <stdint.h>
namespace nas {
class IMEISV_Request {
public:
IMEISV_Request();
IMEISV_Request(uint8_t iei);
IMEISV_Request(const uint8_t iei, uint8_t value);
~IMEISV_Request();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void setValue(uint8_t value);
uint8_t getValue();
private:
uint8_t _iei;
uint8_t _value;
};
}
#endif
#include "LADN_Indication.hpp"
#include "logger.hpp"
using namespace nas;
LADN_Indication::LADN_Indication(uint8_t iei) {
_iei = iei;
}
LADN_Indication::LADN_Indication(const uint8_t iei, std::vector<bstring> ladn) {
_iei = iei;
length = 3;
LADN.assign(ladn.begin(), ladn.end());
for (int i = 0; i < ladn.size(); i++) {
length = length + 1+blength(ladn.at(i));
}
}
LADN_Indication::LADN_Indication() {}
LADN_Indication::~LADN_Indication() {}
void LADN_Indication::setValue(uint8_t iei, uint8_t value) {
_iei = iei;
//_value = value;
}
bool LADN_Indication::getValue(std::vector<bstring> &ladn){
ladn.assign(LADN.begin(), LADN.end());
return 0;
}
int LADN_Indication::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding LADN_Indication iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %d", length);
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = (length - 3)&0x00ff; encoded_size++;
*(buf + encoded_size) = ((length - 3) & 0xff00)>>8; encoded_size++;
for (int i = 0; i < LADN.size(); i++) {
*(buf + encoded_size) = blength(LADN.at(i));encoded_size++;
encoded_size+=encode_bstring(LADN.at(i), (buf + encoded_size), len - encoded_size);
}
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded LADN_Indication len(%d)", encoded_size);
return encoded_size;
}
int LADN_Indication::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding LADN_Indication iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
length = 0;
length |= *(buf + decoded_size); decoded_size++;
length |= (*(buf + decoded_size))<<8; decoded_size++;
Logger::nas_mm().debug("decoded LADN_Indication len(%d)", length);
int LEAGTH = length;
uint8_t len_dnn;
bstring dnn;
while (LEAGTH) {
len_dnn= *(buf + decoded_size); decoded_size++; LEAGTH--;
decode_bstring(&dnn, len_dnn, (buf + decoded_size), len - decoded_size);
decoded_size += len_dnn;
LEAGTH-= len_dnn;
LADN.insert(LADN.end(), dnn);
}
for (int i = 0; i < LADN.size(); i++) {
for (int j = 0; j < blength(LADN.at(i)); j++) {
Logger::nas_mm().debug("decoded LADN_Indication value(0x%x)", (uint8_t*)LADN.at(i)->data[j]);
}
}
Logger::nas_mm().debug("decoded LADN_Indication len(%d)", decoded_size);
return decoded_size;
}
#ifndef __LADN_Indication_H_
#define __LADN_Indication_H_
#include <iostream>
#include <vector>
#include <stdint.h>
extern "C" {
#include "bstrlib.h"
#include "TLVEncoder.h"
#include "TLVDecoder.h"
}
using namespace std;
namespace nas {
class LADN_Indication {
public:
LADN_Indication();
LADN_Indication(uint8_t iei);
LADN_Indication(const uint8_t iei, std::vector<bstring> ladn);
~LADN_Indication();
void setValue(uint8_t iei, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
bool getValue(std::vector<bstring> &ladn);
private:
uint8_t _iei;
uint16_t length;
std::vector<bstring> LADN;
};
}
#endif
#include "MA_PDU_Session_Information.hpp"
#include "logger.hpp"
using namespace nas;
MA_PDU_Session_Information::MA_PDU_Session_Information(uint8_t iei) {
_iei = iei;
}
MA_PDU_Session_Information::MA_PDU_Session_Information(const uint8_t iei, uint8_t value) {
_iei = iei;
_value = value;
}
MA_PDU_Session_Information::MA_PDU_Session_Information() {}
MA_PDU_Session_Information::~MA_PDU_Session_Information() {}
void MA_PDU_Session_Information::setValue(uint8_t value) {
_value = value;
}
uint8_t MA_PDU_Session_Information::getValue() {
return _value;
}
int MA_PDU_Session_Information::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding MA_PDU_Session_Information iei(0x%x)", _iei);
if (len < 1) {
Logger::nas_mm().error("len is less than 1");
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = ((_iei&0x0f)<<4)|(_value&0x0f); encoded_size++;
}
else {
*(buf + encoded_size) = _value & 0x0f; encoded_size++;
}
Logger::nas_mm().debug("encoded MA_PDU_Session_Information len(%d)", encoded_size);
return encoded_size;
}
int MA_PDU_Session_Information::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding MA_PDU_Session_Information iei(0x%x)", *buf);
int decoded_size = 0;
uint8_t octet = 0;
if (is_option) {
octet =*buf;
decoded_size++;
}
_value=0x00;
_value = octet &0x0f;
Logger::nas_mm().debug("decoded MA_PDU_Session_Information _value(0x%x)", _value);
Logger::nas_mm().debug("decoded MA_PDU_Session_Information len(%d)", decoded_size);
return decoded_size;
}
#ifndef __MA_PDU_Session_Information_H_
#define __MA_PDU_Session_Information_H_
#include <stdint.h>
namespace nas {
class MA_PDU_Session_Information {
public:
MA_PDU_Session_Information();
MA_PDU_Session_Information(uint8_t iei);
MA_PDU_Session_Information(const uint8_t iei, uint8_t value);
~MA_PDU_Session_Information();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void setValue(uint8_t value);
uint8_t getValue();
private:
uint8_t _iei;
uint8_t _value;
};
}
#endif
#include "MICO_Indication.hpp"
#include "logger.hpp"
using namespace nas;
MICO_Indication::MICO_Indication(const uint8_t _iei, bool sprti, bool raai) {
iei = _iei;
RAAI = raai;
SPRTI = sprti;
}
MICO_Indication::MICO_Indication(bool sprti, bool raai) {
this->iei = 0;
this->RAAI = raai;
this->SPRTI = sprti;
}
MICO_Indication::MICO_Indication() {
}
MICO_Indication::~MICO_Indication() {};
int MICO_Indication::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding MICO_Indication IE iei(0x%x)", iei);
if (len < 1) {
Logger::nas_mm().error("len is less than one");
return -1;
}
else {
uint8_t octet = 0;
if (!(iei & 0x0f)) {
//octet = (0x0f) & ((tsc << 3) | key_id);
//*buf = octet;
//Logger::nas_mm().debug("encoded NasKeySetIdentifier IE(len(1/2 octet))");
//return 0;
}
else {
octet = (iei << 4) | (SPRTI << 1) | RAAI;
*buf = octet;
Logger::nas_mm().debug("encoded MICO_Indication IE(len(1 octet))");
return 1;
}
}
}
int MICO_Indication::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding MICO_Indication IE");
if (len < 1) {
Logger::nas_mm().error("len is less than one");
return 0;
}
else {
uint8_t octet = (*buf);
if (is_option) {
iei = (octet & 0xf0) >> 4;
}
else {
iei = 0;
}
SPRTI = octet & 0x02;
RAAI = octet & 0x01;
Logger::nas_mm().debug("decoded MICO_Indication iei(0x%x) sprti(0x%x) raai(0x%x)", iei,SPRTI,RAAI);
return 1;
}
}
void MICO_Indication::setSPRTI(bool value) {
SPRTI = value;
}
void MICO_Indication::setRAAI(bool value) {
RAAI = value;
}
bool MICO_Indication::getSPRTI() {
return SPRTI;
}
bool MICO_Indication::getRAAI() {
return RAAI;
}
#ifndef _MICO_Indication_H
#define _MICO_Indication_H
#include <stdint.h>
namespace nas {
class MICO_Indication {
public:
MICO_Indication();
MICO_Indication(const uint8_t _iei, bool sprti, bool raai);
MICO_Indication(bool sprti, bool raai);
~MICO_Indication();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void setSPRTI(bool value);
void setRAAI(bool value);
bool getRAAI();
bool getSPRTI();
private:
uint8_t iei;
bool SPRTI;
bool RAAI;
};
}
#endif
#include "NAS_Message_Container.hpp"
#include "logger.hpp"
using namespace nas;
NAS_Message_Container::NAS_Message_Container(uint8_t iei) {
_iei = iei;
}
NAS_Message_Container::NAS_Message_Container(const uint8_t iei, bstring value) {
_iei = iei;
_value = bstrcpy(value);
length = blength(value) + 3;
}
NAS_Message_Container::NAS_Message_Container() {}
NAS_Message_Container::~NAS_Message_Container() {}
void NAS_Message_Container::setValue(uint8_t iei, uint8_t value) {
_iei = iei;
//_value = value;
}
void NAS_Message_Container::getValue(bstring &value) {
value = bstrcpy(_value);
}
int NAS_Message_Container::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding NAS_Message_Container iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %d", length);
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
* (buf + encoded_size) = (length - 3) & 0x00ff; encoded_size++;
* (buf + encoded_size) = ((length - 3) & 0xff000) >> 8; encoded_size++;
int size = encode_bstring(_value, (buf + encoded_size), len - encoded_size);
encoded_size += size;
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded NAS_Message_Container len(%d)", encoded_size);
return encoded_size;
}
int NAS_Message_Container::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding NAS_Message_Container iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
length = 0;
length |= (*(buf + decoded_size))<<8; decoded_size++;
length |= *(buf + decoded_size); decoded_size++;
decode_bstring(&_value, length, (buf + decoded_size), len - decoded_size);
decoded_size += length;
for (int i = 0; i < length; i++) {
Logger::nas_mm().debug("decoded NAS_Message_Container value(0x%x)", (uint8_t*)_value->data[i]);
}
Logger::nas_mm().debug("decoded NAS_Message_Container len(%d)", decoded_size);
return decoded_size;
}
#ifndef __NAS_Message_Container_H_
#define __NAS_Message_Container_H_
#include <iostream>
#include <stdint.h>
extern "C"{
#include "bstrlib.h"
#include "TLVEncoder.h"
#include "TLVDecoder.h"
}
namespace nas {
class NAS_Message_Container {
public:
NAS_Message_Container();
NAS_Message_Container(uint8_t iei);
NAS_Message_Container(const uint8_t iei, bstring value);
~NAS_Message_Container();
void setValue(uint8_t iei, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void getValue(bstring &value);
private:
uint8_t _iei;
uint16_t length;
bstring _value;
};
}
#endif
#include "NAS_Security_Algorithms.hpp"
#include "logger.hpp"
#include <iostream>
using namespace nas;
using namespace std;
NAS_Security_Algorithms::NAS_Security_Algorithms() {}
NAS_Security_Algorithms::~NAS_Security_Algorithms() {}
NAS_Security_Algorithms::NAS_Security_Algorithms(uint8_t ciphering, uint8_t integrity_protection)
{
CIPHERING = ciphering;
INTEGRITY_PROTECTION = integrity_protection;
}
void NAS_Security_Algorithms::setCIPHERING(uint8_t value) { CIPHERING = value; }
void NAS_Security_Algorithms::setINTEGRITY_PROTECTION(uint8_t value) { INTEGRITY_PROTECTION = value; }
uint8_t NAS_Security_Algorithms::getCIPHERING() { return CIPHERING; }
uint8_t NAS_Security_Algorithms::getINTEGRITY_PROTECTION() { return INTEGRITY_PROTECTION; }
int NAS_Security_Algorithms::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding NAS_Security_Algorithms ");
if (len < 1) {
Logger::nas_mm().error("len is less than one");
return -1;
}
else {
*buf = ((CIPHERING&0x0f)<<4)|(INTEGRITY_PROTECTION&0x0f);
Logger::nas_mm().debug("encoded NAS_Security_Algorithms IE 0x%x", *buf);
}
return 1;
}
int NAS_Security_Algorithms::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding NAS_Security_Algorithms IE");
if (len < 1) {
Logger::nas_mm().error("len is less than one");
return 0;
}
else {
CIPHERING = (*buf&0xf0)>>4;
INTEGRITY_PROTECTION = *buf & 0x0f;
Logger::nas_mm().debug("decoded NAS_Security_Algorithms len 1 octet,CIPHERING=0x%x,INTEGRITY_PROTECTION=0x%x", CIPHERING, INTEGRITY_PROTECTION);
return 1;
}
}
#ifndef __NAS_Security_Algorithms_H
#define __NAS_Security_Algorithms_H
#include <stdint.h>
namespace nas {
class NAS_Security_Algorithms {
public:
NAS_Security_Algorithms();
~NAS_Security_Algorithms();
NAS_Security_Algorithms(uint8_t ciphering, uint8_t integrity_protection);
void setCIPHERING(uint8_t value);
void setINTEGRITY_PROTECTION(uint8_t value);
uint8_t getCIPHERING();
uint8_t getINTEGRITY_PROTECTION();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
private:
uint8_t CIPHERING;
uint8_t INTEGRITY_PROTECTION;
};
}
#endif
#include "NSSAI.hpp"
#include <vector>
#include "logger.hpp"
using namespace nas;
using namespace std;
NSSAI::NSSAI(uint8_t iei) {
_iei = iei;
}
NSSAI::NSSAI(const uint8_t iei, std::vector<struct SNSSAI_s> nssai) {
_iei = iei;
length = 0;
S_NSSAI.assign(nssai.begin(), nssai.end());
for(int i=0; i<nssai.size(); i++){
length += 2;//for sst
if(nssai[i].sd != -1) length += 3;
if(nssai[i].mHplmnSst != -1) length += 1;
if(nssai[i].mHplmnSd != -1) length += 3;
}
}
NSSAI::NSSAI() {}
NSSAI::~NSSAI() {}
void NSSAI::setS_NAASI(uint8_t SST) {
}
bool NSSAI::getValue(std::vector<struct SNSSAI_s> &nssai)
{
nssai.assign(S_NSSAI.begin(), S_NSSAI.end());
}
int NSSAI::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding NSSAI iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %d", length);
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = length; encoded_size++;
for(int i =0;i< S_NSSAI.size(); i++){
int len_s_nssai = 1; encoded_size ++;
*(buf + encoded_size) = S_NSSAI.at(i).sst; encoded_size++;
if (S_NSSAI.at(i).sd != -1)
{
len_s_nssai += 3;
*(buf + encoded_size) = (S_NSSAI.at(i).sd & 0x00ff0000)>> 16; encoded_size++;
Logger::nas_mm().debug("decoded NSSAI len(%x)", *(buf + encoded_size-1));
*(buf + encoded_size) = (S_NSSAI.at(i).sd & 0x0000ff00)>>8; encoded_size++;
Logger::nas_mm().debug("decoded NSSAI len(%x)", *(buf + encoded_size-1));
*(buf + encoded_size) = S_NSSAI.at(i).sd & 0x000000ff; encoded_size++;
Logger::nas_mm().debug("decoded NSSAI len(%x)", *(buf + encoded_size-1));
}
if (S_NSSAI.at(i).mHplmnSst != -1)
{
len_s_nssai += 1;
*(buf + encoded_size) = S_NSSAI.at(i).mHplmnSst; encoded_size++;
}
if (S_NSSAI.at(i).mHplmnSd != -1)
{
len_s_nssai += 3;
*(buf + encoded_size) = (S_NSSAI.at(i).mHplmnSd & 0x00ff0000) >> 16; encoded_size++;
*(buf + encoded_size) = (S_NSSAI.at(i).mHplmnSd & 0x0000ff00) >> 8; encoded_size++;
*(buf + encoded_size) = S_NSSAI.at(i).mHplmnSd & 0x000000ff; encoded_size++;
}
*(buf + encoded_size - len_s_nssai - 1) = len_s_nssai;
}
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded NSSAI len(%d)", encoded_size);
return encoded_size;
}
int NSSAI::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding NSSAI iei(0x%x)", *buf);
int decoded_size = 0;
SNSSAI_s a = {0,0,0,0};
if (is_option) {
decoded_size++;
}
length = *(buf + decoded_size); decoded_size++;
int LEAGTH = length;
while (LEAGTH) {
switch (*(buf + decoded_size))
{
case 1: {
decoded_size++;//snssai—leagth
LEAGTH--;
a.sst = *(buf + decoded_size); decoded_size++;//无 sd
LEAGTH--;
a.sd = -1;
a.mHplmnSst = -1;
a.mHplmnSd = -1;
}break;
case 4: {
decoded_size++; LEAGTH--;
a.sst = *(buf + decoded_size); decoded_size++; LEAGTH--;
a.sd |= *(buf + decoded_size); decoded_size++; LEAGTH--;//有 sd
a.sd << 8;
a.sd |= *(buf + decoded_size); decoded_size++; LEAGTH--;//有 sd
a.sd << 8;
a.sd |= *(buf + decoded_size); decoded_size++; LEAGTH--;//有 sd
a.mHplmnSst = -1;
a.mHplmnSd = -1;
}break;
case 5: {
decoded_size++; LEAGTH--;
a.sst = *(buf + decoded_size); decoded_size++; LEAGTH--;
a.sd |= *(buf + decoded_size); decoded_size++; LEAGTH--;//有 sd
a.sd << 8;
a.sd |= *(buf + decoded_size); decoded_size++; LEAGTH--;//有 sd
a.sd << 8;
a.sd |= *(buf + decoded_size); decoded_size++; LEAGTH--;//有 sd
a.mHplmnSst = *(buf + decoded_size); decoded_size++; LEAGTH--;
a.mHplmnSd = -1;
}break;
case 8: {
decoded_size++; LEAGTH--;
a.sst = *(buf + decoded_size); decoded_size++; LEAGTH--;
a.sd |= *(buf + decoded_size); decoded_size++; LEAGTH--;//有 sd
a.sd << 8;
a.sd |= *(buf + decoded_size); decoded_size++; LEAGTH--;//有 sd
a.sd << 8;
a.sd |= *(buf + decoded_size); decoded_size++; LEAGTH--;//有 sd
a.mHplmnSst = *(buf + decoded_size); decoded_size++; LEAGTH--;
a.mHplmnSd |= *(buf + decoded_size); decoded_size++; LEAGTH--;//有 sd
a.mHplmnSd << 16;
a.mHplmnSd |= *(buf + decoded_size); decoded_size++; LEAGTH--;//有 sd
a.mHplmnSd << 8;
a.mHplmnSd |= *(buf + decoded_size); decoded_size++; LEAGTH--;//有 sd
}break;
}
S_NSSAI.insert(S_NSSAI.end(),a);
a={0,0,0,0};
}
for(int i =0;i< S_NSSAI.size(); i++){
Logger::nas_mm().debug("decoded NSSAI SST(0x%x) SD(0x%x) hplmnSST(0x%x) hplmnSD(%d)",S_NSSAI.at(i).sst,S_NSSAI.at(i).sd, S_NSSAI.at(i).mHplmnSst, S_NSSAI.at(i).mHplmnSd); }
Logger::nas_mm().debug("decoded NSSAI len(%d)", decoded_size);
return decoded_size;
}
#ifndef __NSSAI_H_
#define __NSSAI_H_
#include <vector>
#include "nas_ie_header.hpp"
#include <stdint.h>
namespace nas {
class NSSAI{
public:
NSSAI();
NSSAI(uint8_t iei);
NSSAI(const uint8_t iei, std::vector<struct SNSSAI_s> nssai);
~NSSAI();
void setS_NAASI(uint8_t SST);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
bool getValue(std::vector<struct SNSSAI_s> &nssai);
private:
uint8_t _iei;
uint8_t length;
std::vector<struct SNSSAI_s> S_NSSAI;
};
}
#endif
#include "NSSAI_Inclusion_Mode.hpp"
#include "logger.hpp"
using namespace nas;
NSSAI_Inclusion_Mode::NSSAI_Inclusion_Mode(const uint8_t iei, uint8_t value) {
_iei = iei;
_value = value;
}
NSSAI_Inclusion_Mode::NSSAI_Inclusion_Mode() {}
NSSAI_Inclusion_Mode::~NSSAI_Inclusion_Mode() {};
void NSSAI_Inclusion_Mode::setValue(const uint8_t value) {
_value = value;
}
uint8_t NSSAI_Inclusion_Mode::getValue() {
return _value;
}
int NSSAI_Inclusion_Mode::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding NSSAI_Inclusion_Mode IE iei(0x%x)", _iei);
if (len < 1) {
Logger::nas_mm().error("len is less than one");
return -1;
}
else {
uint8_t octet = 0;
if (!(_iei & 0x0f)) {
//octet = (0x0f) & ((tsc << 3) | key_id);
//*buf = octet;
//Logger::nas_mm().debug("encoded Payload_Container_Type IE(len(1/2 octet))");
//return 0;
}
else {
octet = (_iei << 4) | (_value&0x0f);
*buf = octet;
Logger::nas_mm().debug("encoded NSSAI_Inclusion_Mode IE(len(1 octet))");
return 1;
}
}
}
int NSSAI_Inclusion_Mode::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding NSSAI_Inclusion_Mode IE");
if (len < 1) {
Logger::nas_mm().error("len is less than one");
return 0;
}
else {
uint8_t octet = (*buf);
if (is_option) {
_iei = (octet & 0xf0) >> 4;
}
else {
_iei = 0;
}
_value= octet & 0x0f;
Logger::nas_mm().debug("decoded NSSAI_Inclusion_Mode iei(0x%x) value(0x%x)", _iei,_value);
return 1;
}
}
#ifndef _NSSAI_Inclusion_Mode_H
#define _NSSAI_Inclusion_Mode_H
#include <stdint.h>
namespace nas {
class NSSAI_Inclusion_Mode {
public:
NSSAI_Inclusion_Mode();
NSSAI_Inclusion_Mode(const uint8_t iei, uint8_t value);
~NSSAI_Inclusion_Mode();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void setValue(const uint8_t value);
uint8_t getValue();
private:
uint8_t _iei;
uint8_t _value;
};
}
#endif
#include "NasKeySetIdentifier.hpp"
#include "logger.hpp"
using namespace nas;
NasKeySetIdentifier::NasKeySetIdentifier(const uint8_t m_iei, uint8_t m_tsc, uint8_t m_key_id){
iei = m_iei;
tsc = 0x01 & m_tsc;
key_id = 0x07 & m_key_id;
Logger::nas_mm().debug("encoding NasKeySetIdentifier ...");
}
NasKeySetIdentifier::NasKeySetIdentifier(uint8_t tsc, uint8_t key_id){
this->iei = 0;
this->tsc = 0x01 & tsc;
this->key_id = 0x07 & key_id;
Logger::nas_mm().debug("encoding NasKeySetIdentifier???");
}
NasKeySetIdentifier::NasKeySetIdentifier(){
}
NasKeySetIdentifier::~NasKeySetIdentifier(){};
int NasKeySetIdentifier::encode2buffer(uint8_t *buf, int len){
Logger::nas_mm().debug("encoding NasKeySetIdentifier IE iei(0x%x)",iei);
if(len < 1){
Logger::nas_mm().error("len is less than one");
return -1;
}else{
uint8_t octet = 0;
if(!(iei&0x0f)){
octet = (0x0f) & ((tsc<<3) | key_id);
*buf = octet;
Logger::nas_mm().debug("encoded NasKeySetIdentifier IE tsc(0x%x),key_id(0x%x)", tsc, key_id);
return 1;
}else{
octet = (iei<<4) | (tsc<<3) | key_id;
*buf = octet;
Logger::nas_mm().debug("encoded NasKeySetIdentifier IE(len(1 octet))");
Logger::nas_mm().debug("encoded NasKeySetIdentifier IE tsc(0x%x),key_id(0x%x)", tsc, key_id);
return 1;
}
}
}
int NasKeySetIdentifier::decodefrombuffer(uint8_t *buf, int len, bool is_option, bool is_high){
Logger::nas_mm().debug("decoding NasKeySetIdentifier IE");
if(len < 1){
Logger::nas_mm().error("len is less than one");
return -1;
}else{
uint8_t octet = (*buf);
if(is_option){
iei = (octet&0xf0)>>4;
}else{
iei = 0;
}
if(!is_high){
tsc = octet&0x08;
key_id = octet&0x07;
}else{
tsc = (octet&0x80)>>4;
key_id = (octet&0x70)>>4;
}
Logger::nas_mm().debug("decoded NasKeySetIdentifier IE tsc(0x%x),key_id(0x%x)", tsc, key_id);
if(iei) return 1;
else return 0;
}
}
void NasKeySetIdentifier::setTypeOfSecurityContext(uint8_t type){
tsc = 0x01 & type;
}
void NasKeySetIdentifier::setNasKeyIdentifier(uint8_t id){
key_id = 0x07 & id;
}
uint8_t NasKeySetIdentifier::getTypeOfSecurityContext(){
return tsc;
}
uint8_t NasKeySetIdentifier::getasKeyIdentifier(){
return key_id;
}
#ifndef _NasKeySetIdentifier_H
#define _NasKeySetIdentifier_H
#include <stdint.h>
namespace nas{
class NasKeySetIdentifier{
public:
NasKeySetIdentifier();
NasKeySetIdentifier(const uint8_t iei, uint8_t tsc, uint8_t key_id);
NasKeySetIdentifier(uint8_t tsc, uint8_t key_id);
~NasKeySetIdentifier();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option, bool is_high);
void setTypeOfSecurityContext(uint8_t type);
void setNasKeyIdentifier(uint8_t id);
uint8_t getTypeOfSecurityContext();
uint8_t getasKeyIdentifier();
private:
uint8_t iei;
uint8_t tsc;
uint8_t key_id;
};
}
#endif
#include "NasMessageType.hpp"
using namespace nas;
void NasMessageType::setValue(const uint8_t type){
m_type = type;
}
uint8_t NasMessageType::getValue(){
return m_type;
}
#ifndef _MESSAGE_TYPE_H_
#define _MESSAGE_TYPE_H_
#include<stdint.h>
namespace nas{
class NasMessageType{
public:
void setValue(const uint8_t type);
uint8_t getValue();
private:
uint8_t m_type;
};
}
#endif
#include "Network_Slicing_Indication.hpp"
#include "logger.hpp"
using namespace nas;
Network_Slicing_Indication::Network_Slicing_Indication(uint8_t iei) {
_iei = iei;
}
Network_Slicing_Indication::Network_Slicing_Indication(const uint8_t iei, bool dcni, bool nssci) {
_iei = iei;
DCNI= dcni;
NSSCI = nssci;
}
Network_Slicing_Indication::Network_Slicing_Indication() {}
Network_Slicing_Indication::~Network_Slicing_Indication() {}
void Network_Slicing_Indication::setDCNI(bool value) {
DCNI = value;
}
void Network_Slicing_Indication::setNSSCI(bool value) {
NSSCI = value;
}
bool Network_Slicing_Indication::getDCNI() {
return DCNI;
}
bool Network_Slicing_Indication::getNSSCI() {
return NSSCI;
}
int Network_Slicing_Indication::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding Network_Slicing_Indication iei(0x%x)", _iei);
if (len < 1) {
// Logger::nas_mm().error("len is less than %d", length);
return 0;
}
uint8_t octet = 0;
if (!(_iei & 0x0f)) {
//octet = (0x0f) & ((tsc << 3) | key_id);
//*buf = octet;
//Logger::nas_mm().debug("encoded Payload_Container_Type IE(len(1/2 octet))");
//return 0;
}
else {
octet = (_iei << 4) | (DCNI<<1)|NSSCI;
Logger::nas_mm().debug("decoded Network_Slicing_Indication DCNI(0x%x) NSSCI(0x%x)", octet,NSSCI);
*buf = octet;
Logger::nas_mm().debug("encoded Network_Slicing_Indication IE(len(1 octet))");
return 1;
}
}
int Network_Slicing_Indication::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
if (len < 1) {
Logger::nas_mm().error("len is less than one");
return 0;
}
else {
uint8_t octet = (*buf);
if (is_option) {
_iei = (octet & 0xf0) >> 4;
}
else {
_iei = 0;
}
DCNI = 0; NSSCI = 0;
DCNI = octet&0x02;
NSSCI =octet& 0x01;
Logger::nas_mm().debug("decoded Network_Slicing_Indication DCNI(0x%x) NSSCI(0x%x)", DCNI,NSSCI);
return 1;
}
}
#ifndef __Network_Slicing_Indication_H_
#define __Network_Slicing_Indication_H_
#include <stdint.h>
namespace nas {
class Network_Slicing_Indication {
public:
Network_Slicing_Indication();
Network_Slicing_Indication(uint8_t iei);
Network_Slicing_Indication(const uint8_t iei, bool dcni, bool nssci);
~Network_Slicing_Indication();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void setDCNI(bool value);
void setNSSCI(bool value);
bool getDCNI();
bool getNSSCI();
private:
uint8_t _iei;
bool NSSCI;
bool DCNI;
};
}
#endif
#include "Non_3GPP_NW_Provided_Policies.hpp"
#include "logger.hpp"
using namespace nas;
Non_3GPP_NW_Provided_Policies::Non_3GPP_NW_Provided_Policies(const uint8_t iei, uint8_t value) {
_iei = iei;
_value = value;
}
Non_3GPP_NW_Provided_Policies::Non_3GPP_NW_Provided_Policies() {}
Non_3GPP_NW_Provided_Policies::~Non_3GPP_NW_Provided_Policies() {};
void Non_3GPP_NW_Provided_Policies::setValue(const uint8_t value) {
_value = value;
}
uint8_t Non_3GPP_NW_Provided_Policies::getValue() {
return _value;
}
int Non_3GPP_NW_Provided_Policies::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding Non_3GPP_NW_Provided_Policies IE iei(0x%x)", _iei);
if (len < 1) {
Logger::nas_mm().error("len is less than one");
return -1;
}
else {
uint8_t octet = 0;
if (!(_iei & 0x0f)) {
//octet = (0x0f) & ((tsc << 3) | key_id);
//*buf = octet;
//Logger::nas_mm().debug("encoded Payload_Container_Type IE(len(1/2 octet))");
//return 0;
}
else {
octet = (_iei << 4) | (_value&0x0f);
*buf = octet;
Logger::nas_mm().debug("encoded Non_3GPP_NW_Provided_Policies IE(len(1 octet))");
return 1;
}
}
}
int Non_3GPP_NW_Provided_Policies::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding Non_3GPP_NW_Provided_Policies IE");
if (len < 1) {
Logger::nas_mm().error("len is less than one");
return 0;
}
else {
uint8_t octet = (*buf);
if (is_option) {
_iei = (octet & 0xf0) >> 4;
}
else {
_iei = 0;
}
_value= octet & 0x0f;
Logger::nas_mm().debug("decoded Non_3GPP_NW_Provided_Policies iei(0x%x) value(0x%x)", _iei,_value);
return 1;
}
}
#ifndef _Non_3GPP_NW_Provided_Policies_H
#define _Non_3GPP_NW_Provided_Policies_H
#include <stdint.h>
namespace nas {
class Non_3GPP_NW_Provided_Policies {
public:
Non_3GPP_NW_Provided_Policies();
Non_3GPP_NW_Provided_Policies(const uint8_t iei, uint8_t value);
~Non_3GPP_NW_Provided_Policies();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void setValue(const uint8_t value);
uint8_t getValue();
private:
uint8_t _iei;
uint8_t _value;
};
}
#endif
#include "PDU_Session_Identity_2.hpp"
#include "logger.hpp"
using namespace nas;
PDU_Session_Identity_2::PDU_Session_Identity_2(uint8_t iei) {
_iei = iei;
}
PDU_Session_Identity_2::PDU_Session_Identity_2(const uint8_t iei, uint8_t value) {
_iei = iei;
_value = value;
}
PDU_Session_Identity_2::PDU_Session_Identity_2() {}
PDU_Session_Identity_2::~PDU_Session_Identity_2() {}
void PDU_Session_Identity_2::setValue(uint8_t value) {
_value = value;
}
uint8_t PDU_Session_Identity_2::getValue() {
return _value;
}
int PDU_Session_Identity_2::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding PDU_Session_Identity_2 iei(0x%x)", _iei);
if (len < 2) {
Logger::nas_mm().error("len is less than 2");
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = _value; encoded_size++;
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded PDU_Session_Identity_2 len(%d)", encoded_size);
return encoded_size;
}
int PDU_Session_Identity_2::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding PDU_Session_Identity_2 iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
_value=0x00;
_value = *(buf + decoded_size); decoded_size++;
Logger::nas_mm().debug("decoded PDU_Session_Identity_2 value(0x%x)", _value);
Logger::nas_mm().debug("decoded PDU_Session_Identity_2 len(%d)", decoded_size);
return decoded_size;
}
#ifndef ___PDU_Session_Identity_2_H_
#define ___PDU_Session_Identity_2_H_
#include <stdint.h>
namespace nas {
class PDU_Session_Identity_2 {
public:
PDU_Session_Identity_2();
PDU_Session_Identity_2(uint8_t iei);
PDU_Session_Identity_2(const uint8_t iei, uint8_t value);
~PDU_Session_Identity_2();
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
void setValue(uint8_t value);
uint8_t getValue();
private:
uint8_t _iei;
uint8_t _value;
};
}
#endif
#include "PDU_Session_Reactivation_Result.hpp"
#include "logger.hpp"
using namespace nas;
PDU_Session_Reactivation_Result::PDU_Session_Reactivation_Result(uint8_t iei) {
_iei = iei;
}
PDU_Session_Reactivation_Result::PDU_Session_Reactivation_Result(const uint8_t iei, uint16_t value) {
_iei = iei;
_value = value;
length = 4;
}
PDU_Session_Reactivation_Result::PDU_Session_Reactivation_Result() {}
PDU_Session_Reactivation_Result::~PDU_Session_Reactivation_Result() {}
void PDU_Session_Reactivation_Result::setValue(uint8_t iei, uint16_t value) {
_iei = iei;
_value = value;
}
uint16_t PDU_Session_Reactivation_Result::getValue() {
return _value;
}
int PDU_Session_Reactivation_Result::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding PDU_Session_Reactivation_Result iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %d", length);
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = length - 2; encoded_size++;
*(buf + encoded_size) = (_value&0x00ff); encoded_size++;
*(buf + encoded_size) = (_value&0xff00)>>8; encoded_size++;
}
else {
//*(buf + encoded_size) = length - 1; encoded_size++;
//*(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded PDU_Session_Reactivation_Result len(%d)", encoded_size);
return encoded_size;
}
int PDU_Session_Reactivation_Result::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding PDU_Session_Reactivation_Result iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
_value = 0x0000;
length = *(buf + decoded_size); decoded_size++;
_value |= *(buf + decoded_size); decoded_size++;
_value |= (*(buf + decoded_size))<<8; decoded_size++;
Logger::nas_mm().debug("decoded PDU_Session_Reactivation_Result value(0x%4x)", _value);
Logger::nas_mm().debug("decoded PDU_Session_Reactivation_Result len(%d)", decoded_size);
return decoded_size;
}
#ifndef __PDU_Session_Reactivation_Result_H_
#define __PDU_Session_Reactivation_Result_H_
#include <stdint.h>
namespace nas {
class PDU_Session_Reactivation_Result {
public:
PDU_Session_Reactivation_Result();
PDU_Session_Reactivation_Result(uint8_t iei);
PDU_Session_Reactivation_Result(const uint8_t iei, uint16_t value);
~PDU_Session_Reactivation_Result();
void setValue(uint8_t iei, uint16_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
uint16_t getValue();
private:
uint8_t _iei;
uint8_t length;
uint16_t _value;
};
}
#endif
#include "PDU_Session_Reactivation_Result_Error_Cause.hpp"
#include "logger.hpp"
using namespace nas;
PDU_Session_Reactivation_Result_Error_Cause::PDU_Session_Reactivation_Result_Error_Cause(uint8_t iei) {
_iei = iei;
}
PDU_Session_Reactivation_Result_Error_Cause::PDU_Session_Reactivation_Result_Error_Cause(const uint8_t iei,uint8_t session_id, uint8_t value) {
_iei = iei;
_value = value;
SESSION_ID = session_id;
length = 5;
}
PDU_Session_Reactivation_Result_Error_Cause::PDU_Session_Reactivation_Result_Error_Cause() {}
PDU_Session_Reactivation_Result_Error_Cause::~PDU_Session_Reactivation_Result_Error_Cause() {}
void PDU_Session_Reactivation_Result_Error_Cause::setValue(uint8_t session_id, uint8_t value) {
SESSION_ID = session_id;
_value = value;
}
uint8_t PDU_Session_Reactivation_Result_Error_Cause::getValue() {
return _value;
}
int PDU_Session_Reactivation_Result_Error_Cause::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding PDU_Session_Reactivation_Result_Error_Cause iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %d", length);
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = (length - 3)&0x00ff; encoded_size++;
*(buf + encoded_size) = ((length - 3) & 0xff00)>>8; encoded_size++;
*(buf + encoded_size) = SESSION_ID; encoded_size++;
*(buf + encoded_size) = _value; encoded_size++;
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded PDU_Session_Reactivation_Result_Error_Cause len(%d)", encoded_size);
return encoded_size;
}
int PDU_Session_Reactivation_Result_Error_Cause::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding PDU_Session_Reactivation_Result_Error_Cause iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
_value = 0x00;
length |= *(buf + decoded_size); decoded_size++;
length |= (*(buf + decoded_size))<<8; decoded_size++;
SESSION_ID = *(buf + decoded_size); decoded_size++;
_value = *(buf + decoded_size); decoded_size++;
Logger::nas_mm().debug("decoded PDU_Session_Reactivation_Result_Error_Cause value(0x%x)", _value);
Logger::nas_mm().debug("decoded PDU_Session_Reactivation_Result_Error_Cause len(%d)", decoded_size);
return decoded_size;
}
#ifndef __PDU_Session_Reactivation_Result_Error_Cause_H_
#define __PDU_Session_Reactivation_Result_Error_Cause_H_
#include <stdint.h>
namespace nas {
class PDU_Session_Reactivation_Result_Error_Cause {
public:
PDU_Session_Reactivation_Result_Error_Cause();
PDU_Session_Reactivation_Result_Error_Cause(uint8_t iei);
PDU_Session_Reactivation_Result_Error_Cause(const uint8_t iei,uint8_t session_id, uint8_t value);
~PDU_Session_Reactivation_Result_Error_Cause();
void setValue(uint8_t session_id, uint8_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
uint8_t getValue();
private:
uint8_t _iei;
uint16_t length;
uint8_t SESSION_ID;
uint8_t _value;
};
}
#endif
#include "PDU_Session_Status.hpp"
#include "logger.hpp"
using namespace nas;
PDU_Session_Status::PDU_Session_Status(uint8_t iei) {
_iei = iei;
}
PDU_Session_Status::PDU_Session_Status(const uint8_t iei, uint16_t value) {
_iei = iei;
_value = value;
length = 4;
}
PDU_Session_Status::PDU_Session_Status() {}
PDU_Session_Status::~PDU_Session_Status() {}
void PDU_Session_Status::setValue(uint8_t iei, uint16_t value) {
_iei = iei;
_value = value;
}
uint16_t PDU_Session_Status::getValue() {
return _value;
}
int PDU_Session_Status::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding PDU_Session_Status iei(0x%x)", _iei);
if (len < length) {
Logger::nas_mm().error("len is less than %d", length);
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = length - 2; encoded_size++;
*(buf + encoded_size) = (_value&0xff00)>>8; encoded_size++;
*(buf + encoded_size) = (_value&0x00ff); encoded_size++;
}
else {
//*(buf + encoded_size) = length - 1; encoded_size++;
//*(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded PDU_Session_Status len(%d)", encoded_size);
return encoded_size;
}
int PDU_Session_Status::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding PDU_Session_Status iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
_value = 0x0000;
length = *(buf + decoded_size); decoded_size++;
_value |= *(buf + decoded_size); decoded_size++;
_value |= (*(buf + decoded_size))<<8; decoded_size++;
Logger::nas_mm().debug("decoded PDU_Session_Status value(0x%4x)", _value);
Logger::nas_mm().debug("decoded PDU_Session_Status len(%d)", decoded_size);
return decoded_size;
}
#ifndef __PDU_Session_Status_H_
#define __PDU_Session_Status_H_
#include <stdint.h>
namespace nas {
class PDU_Session_Status {
public:
PDU_Session_Status();
PDU_Session_Status(uint8_t iei);
PDU_Session_Status(const uint8_t iei, uint16_t value);
~PDU_Session_Status();
void setValue(uint8_t iei, uint16_t value);
int encode2buffer(uint8_t *buf, int len);
int decodefrombuffer(uint8_t *buf, int len, bool is_option);
uint16_t getValue();
private:
uint8_t _iei;
uint8_t length;
uint16_t _value;
};
}
#endif
#include "PLMN_List.hpp"
#include "logger.hpp"
using namespace nas;
PLMN_List::PLMN_List(uint8_t iei) {
_iei = iei;
}
PLMN_List::PLMN_List(const uint8_t iei, uint8_t MNC_MCC1, uint8_t MNC_MCC2, uint8_t MNC_MCC3) {
_iei = iei;
_MNC_MCC1 = MNC_MCC1;
_MNC_MCC2 = MNC_MCC2;
_MNC_MCC3 = MNC_MCC3;
}
PLMN_List::PLMN_List() {}
PLMN_List::~PLMN_List() {}
void PLMN_List::setMNC_MCC1(uint8_t iei, uint8_t value) {
_iei = iei;
_MNC_MCC1 = value;
}
void PLMN_List::setMNC_MCC2(uint8_t iei, uint8_t value) {
_iei = iei;
_MNC_MCC2 = value;
}
void PLMN_List::setMNC_MCC3(uint8_t iei, uint8_t value) {
_iei = iei;
_MNC_MCC3 = value;
}
uint8_t PLMN_List::getMNC_MCC1() {
return _MNC_MCC1;
}
uint8_t PLMN_List::getMNC_MCC2() {
return _MNC_MCC2;
}
uint8_t PLMN_List::getMNC_MCC3() {
return _MNC_MCC3;
}
int PLMN_List::encode2buffer(uint8_t *buf, int len) {
Logger::nas_mm().debug("encoding PLMN_List iei(0x%x)", _iei);
if (len < 5) {
Logger::nas_mm().error("len is less than 5");
return 0;
}
int encoded_size = 0;
if (_iei) {
*(buf + encoded_size) = _iei; encoded_size++;
*(buf + encoded_size) = 3; encoded_size++;
*(buf + encoded_size) = (_MNC_MCC1 & 0x0F)|((_MNC_MCC2 & 0x0F)<<4); encoded_size++;
*(buf + encoded_size) = _MNC_MCC3; encoded_size++;
*(buf + encoded_size) = ((_MNC_MCC1 & 0xF0)>>4) | (_MNC_MCC2 & 0xF0); encoded_size++;
}
else {
// *(buf + encoded_size) = length - 1; encoded_size++;
// *(buf + encoded_size) = _value; encoded_size++; encoded_size++;
}
Logger::nas_mm().debug("encoded PLMN_List len(%d)", encoded_size);
return encoded_size;
}
int PLMN_List::decodefrombuffer(uint8_t *buf, int len, bool is_option) {
Logger::nas_mm().debug("decoding PLMN_List iei(0x%x)", *buf);
int decoded_size = 0;
if (is_option) {
decoded_size++;
}
decoded_size++;
_MNC_MCC1 = 0x00;
_MNC_MCC2 = 0x00;
_MNC_MCC3 = 0x00;
_MNC_MCC1 |= *(buf + decoded_size) & 0x0F;
_MNC_MCC2 |=( *(buf + decoded_size) & 0xF0)>>4; decoded_size++;
_MNC_MCC3 = *(buf + decoded_size); decoded_size++;
_MNC_MCC1 |= (*(buf + decoded_size) & 0x0F)<<4;
_MNC_MCC2 |= *(buf + decoded_size) & 0xF0; decoded_size++;
Logger::nas_mm().debug("decoded PLMN_List MNC_MCC1(0x%x),MNC_MCC2(0x%x),MNC_MCC3(0x%x)", _MNC_MCC1,_MNC_MCC2,_MNC_MCC3);
Logger::nas_mm().debug("decoded PLMN_List len(%d)", decoded_size);
return decoded_size;
}
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