/* high-level RANAP messsage generation code */ /* (C) 2015 by Harald Welte * All Rights Reserved * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . * */ #include #include #include "asn1helpers.h" #include #include #include #include #define DRANAP _ranap_DRANAP /*! \brief allocate a new long and assing a value to it */ static long *new_long(long in) { long *out = CALLOC(1, sizeof(long)); *out = in; return out; } /*! \brief generate RANAP RESET message */ struct msgb *ranap_new_msg_reset(RANAP_CN_DomainIndicator_t domain, const RANAP_Cause_t *cause) { RANAP_ResetIEs_t ies; RANAP_Reset_t out; struct msgb *msg; int rc; memset(&ies, 0, sizeof(ies)); ies.cN_DomainIndicator = domain; if (cause) memcpy(&ies.cause, cause, sizeof(ies.cause)); memset(&out, 0, sizeof(out)); rc = ranap_encode_reseties(&out, &ies); if (rc < 0) { LOGP(DRANAP, LOGL_ERROR, "error encoding reset IEs: %d\n", rc); return NULL; } msg = ranap_generate_initiating_message(RANAP_ProcedureCode_id_Reset, RANAP_Criticality_reject, &asn_DEF_RANAP_Reset, &out); /* release dynamic allocations attached to dt */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_Reset, &out); return msg; } /*! \brief generate RANAP RESET ACK message */ struct msgb *ranap_new_msg_reset_ack(RANAP_CN_DomainIndicator_t domain, RANAP_GlobalRNC_ID_t *rnc_id) { RANAP_ResetAcknowledgeIEs_t ies; RANAP_ResetAcknowledge_t out; struct msgb *msg; int rc; memset(&ies, 0, sizeof(ies)); ies.cN_DomainIndicator = domain; /* The RNC shall include the globalRNC_ID in the RESET * ACKNOWLEDGE message to the CN */ if (rnc_id) { ies.presenceMask = RESETACKNOWLEDGEIES_RANAP_GLOBALRNC_ID_PRESENT; OCTET_STRING_noalloc(&ies.globalRNC_ID.pLMNidentity, rnc_id->pLMNidentity.buf, rnc_id->pLMNidentity.size); ies.globalRNC_ID.rNC_ID = rnc_id->rNC_ID; } /* FIXME: Do we need criticalityDiagnostics */ memset(&out, 0, sizeof(out)); rc = ranap_encode_resetacknowledgeies(&out, &ies); if (rc < 0) { LOGP(DRANAP, LOGL_ERROR, "error encoding reset ack IEs: %d\n", rc); return NULL; } msg = ranap_generate_successful_outcome(RANAP_ProcedureCode_id_Reset, RANAP_Criticality_reject, &asn_DEF_RANAP_ResetAcknowledge, &out); /* release dynamic allocations attached to dt */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_ResetAcknowledge, &out); return msg; } /*! \brief generate RANAP INITIAL UE message */ struct msgb *ranap_new_msg_initial_ue(uint32_t conn_id, int is_ps, RANAP_GlobalRNC_ID_t *rnc_id, uint8_t *nas_pdu, unsigned int nas_len) { RANAP_InitialUE_MessageIEs_t ies; RANAP_InitialUE_Message_t out; struct msgb *msg; uint32_t ctxidbuf; int rc; uint16_t buf0 = 0x2342; memset(&ies, 0, sizeof(ies)); if (is_ps) ies.cN_DomainIndicator = RANAP_CN_DomainIndicator_ps_domain; else ies.cN_DomainIndicator = RANAP_CN_DomainIndicator_cs_domain; OCTET_STRING_noalloc(&ies.lai.pLMNidentity, rnc_id->pLMNidentity.buf, rnc_id->pLMNidentity.size); OCTET_STRING_noalloc(&ies.lai.lAC, (uint8_t *)&buf0, sizeof(buf0)); OCTET_STRING_noalloc(&ies.sai.pLMNidentity, rnc_id->pLMNidentity.buf, rnc_id->pLMNidentity.size); OCTET_STRING_noalloc(&ies.sai.lAC, (uint8_t *)&buf0, sizeof(buf0)); OCTET_STRING_noalloc(&ies.sai.sAC, (uint8_t *)&buf0, sizeof(buf0)); OCTET_STRING_noalloc(&ies.nas_pdu, nas_pdu, nas_len); asn1_u24_to_bitstring(&ies.iuSigConId, &ctxidbuf, conn_id); OCTET_STRING_noalloc(&ies.globalRNC_ID.pLMNidentity, rnc_id->pLMNidentity.buf, rnc_id->pLMNidentity.size); ies.globalRNC_ID.rNC_ID = rnc_id->rNC_ID; memset(&out, 0, sizeof(out)); rc = ranap_encode_initialue_messageies(&out, &ies); if (rc < 0) { LOGP(DRANAP, LOGL_ERROR, "error encoding initial UE IEs: %d\n", rc); return NULL; } msg = ranap_generate_initiating_message(RANAP_ProcedureCode_id_InitialUE_Message, RANAP_Criticality_ignore, &asn_DEF_RANAP_InitialUE_Message, &out); /* release dynamic allocations attached to dt */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_InitialUE_Message, &out); return msg; } /*! \brief generate RANAP DIRECT TRANSFER message */ struct msgb *ranap_new_msg_dt(uint8_t sapi, const uint8_t *nas, unsigned int nas_len) { RANAP_DirectTransferIEs_t ies; RANAP_DirectTransfer_t dt; struct msgb *msg; int rc; memset(&ies, 0, sizeof(ies)); memset(&dt, 0, sizeof(dt)); /* only SAPI optional field shall be present for CN->RNC */ ies.presenceMask = DIRECTTRANSFERIES_RANAP_SAPI_PRESENT; if (sapi == 3) ies.sapi = RANAP_SAPI_sapi_3; else ies.sapi = RANAP_SAPI_sapi_0; /* Avoid copying + later freeing of OCTET STRING */ OCTET_STRING_noalloc(&ies.nas_pdu, nas, nas_len); /* ies -> dt */ rc = ranap_encode_directtransferies(&dt, &ies); if (rc < 0) { LOGP(DRANAP, LOGL_ERROR, "error encoding direct transfer IEs: %d\n", rc); return NULL; } /* dt -> msg */ msg = ranap_generate_initiating_message(RANAP_ProcedureCode_id_DirectTransfer, RANAP_Criticality_ignore, &asn_DEF_RANAP_DirectTransfer, &dt); /* release dynamic allocations attached to dt */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_DirectTransfer, &dt); return msg; } static const enum RANAP_IntegrityProtectionAlgorithm ip_alg[2] = { RANAP_IntegrityProtectionAlgorithm_standard_UMTS_integrity_algorithm_UIA1, RANAP_IntegrityProtectionAlgorithm_standard_UMTS_integrity_algorithm_UIA2, }; static const RANAP_EncryptionAlgorithm_t enc_alg[2] = { RANAP_EncryptionAlgorithm_standard_UMTS_encryption_algorith_UEA1, RANAP_EncryptionAlgorithm_standard_UMTS_encryption_algorithm_UEA2, }; /*! \brief generate RANAP SECURITY MODE COMMAND message */ struct msgb *ranap_new_msg_sec_mod_cmd(const uint8_t *ik, const uint8_t *ck, enum RANAP_KeyStatus status) { RANAP_SecurityModeCommandIEs_t ies; RANAP_SecurityModeCommand_t out; struct msgb *msg; int i, rc; memset(&ies, 0, sizeof(ies)); memset(&out, 0, sizeof(out)); for (i = 0; i < ARRAY_SIZE(ip_alg); i++) { /* needs to be dynamically allocated, as * SET_OF_free() will call FREEMEM() on it */ RANAP_IntegrityProtectionAlgorithm_t *alg = CALLOC(1, sizeof(*alg)); *alg = ip_alg[i]; ASN_SEQUENCE_ADD(&ies.integrityProtectionInformation.permittedAlgorithms, alg); } BIT_STRING_fromBuf(&ies.integrityProtectionInformation.key, ik, 16*8); if (ck) { ies.presenceMask = SECURITYMODECOMMANDIES_RANAP_ENCRYPTIONINFORMATION_PRESENT; for (i = 0; i < ARRAY_SIZE(ip_alg); i++) { /* needs to be dynamically allocated, as * SET_OF_free() will call FREEMEM() on it */ RANAP_EncryptionAlgorithm_t *alg = CALLOC(1, sizeof(*alg)); *alg = enc_alg[i]; ASN_SEQUENCE_ADD(&ies.encryptionInformation.permittedAlgorithms, alg); } BIT_STRING_fromBuf(&ies.encryptionInformation.key, ck, 16*8); } ies.keyStatus = status; /* ies -> out */ rc = ranap_encode_securitymodecommandies(&out, &ies); /* release dynamic allocations attached to ies */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_IntegrityProtectionInformation, &ies.integrityProtectionInformation); if (ck) ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_EncryptionInformation, &ies.encryptionInformation); if (rc < 0) { LOGP(DRANAP, LOGL_ERROR, "error encoding security mode command IEs: %d\n", rc); return NULL; } /* out -> msg */ msg = ranap_generate_initiating_message(RANAP_ProcedureCode_id_SecurityModeControl, RANAP_Criticality_reject, &asn_DEF_RANAP_SecurityModeCommand, &out); /* release dynamic allocations attached to out */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_SecurityModeCommand, &out); return msg; } /*! \brief generate RANAP SECURITY MODE COMPLETE message */ struct msgb *ranap_new_msg_sec_mod_compl( RANAP_ChosenIntegrityProtectionAlgorithm_t chosen_ip_alg, RANAP_ChosenEncryptionAlgorithm_t chosen_enc_alg) { RANAP_SecurityModeCompleteIEs_t ies; RANAP_SecurityModeComplete_t out; struct msgb *msg; int rc; memset(&ies, 0, sizeof(ies)); memset(&out, 0, sizeof(out)); ies.presenceMask = SECURITYMODECOMPLETEIES_RANAP_CHOSENENCRYPTIONALGORITHM_PRESENT; ies.chosenIntegrityProtectionAlgorithm = chosen_ip_alg; ies.chosenEncryptionAlgorithm = chosen_enc_alg; /* ies -> out */ rc = ranap_encode_securitymodecompleteies(&out, &ies); if (rc < 0) { LOGP(DRANAP, LOGL_ERROR, "error encoding security mode complete IEs: %d\n", rc); return NULL; } /* out -> msg */ msg = ranap_generate_successful_outcome(RANAP_ProcedureCode_id_SecurityModeControl, RANAP_Criticality_reject, &asn_DEF_RANAP_SecurityModeComplete, &out); /* release dynamic allocations attached to out */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_SecurityModeComplete, &out); return msg; } /*! \brief generate RANAP COMMON ID message */ struct msgb *ranap_new_msg_common_id(const char *imsi) { RANAP_CommonID_IEs_t ies; RANAP_CommonID_t out; struct msgb *msg; int rc; memset(&ies, 0, sizeof(ies)); memset(&out, 0, sizeof(out)); if (imsi) { uint8_t *imsi_buf = CALLOC(1, 16); rc = ranap_imsi_encode(imsi_buf, 16, imsi); ies.permanentNAS_UE_ID.present = RANAP_PermanentNAS_UE_ID_PR_iMSI; ies.permanentNAS_UE_ID.choice.iMSI.buf = imsi_buf; ies.permanentNAS_UE_ID.choice.iMSI.size = rc; } else ies.permanentNAS_UE_ID.present = RANAP_PermanentNAS_UE_ID_PR_NOTHING; /* ies -> out */ rc = ranap_encode_commonid_ies(&out, &ies); /* release dynamic allocations attached to ies */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_PermanentNAS_UE_ID, &ies.permanentNAS_UE_ID); if (rc < 0) { LOGP(DRANAP, LOGL_ERROR, "error encoding common id IEs: %d\n", rc); return NULL; } /* out -> msg */ msg = ranap_generate_initiating_message(RANAP_ProcedureCode_id_CommonID, RANAP_Criticality_ignore, &asn_DEF_RANAP_CommonID, &out); /* release dynamic allocations attached to out */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_CommonID, &out); return msg; } /*! \brief generate RANAP IU RELEASE COMMAND message */ struct msgb *ranap_new_msg_iu_rel_cmd(const RANAP_Cause_t *cause_in) { RANAP_Iu_ReleaseCommandIEs_t ies; RANAP_Iu_ReleaseCommand_t out; struct msgb *msg; int rc; memset(&ies, 0, sizeof(ies)); memset(&out, 0, sizeof(out)); memcpy(&ies.cause, cause_in, sizeof(ies.cause)); /* ies -> out */ rc = ranap_encode_iu_releasecommandies(&out, &ies); if (rc < 0) { LOGP(DRANAP, LOGL_ERROR, "error encoding release command IEs: %d\n", rc); return NULL; } /* out -> msg */ msg = ranap_generate_initiating_message(RANAP_ProcedureCode_id_Iu_Release, RANAP_Criticality_reject, &asn_DEF_RANAP_Iu_ReleaseCommand, &out); /* release dynamic allocations attached to out */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_Iu_ReleaseCommand, &out); return msg; } /*! \brief generate RAPAP IU RELEASE COMPLETE message */ struct msgb *ranap_new_msg_iu_rel_compl(void) { RANAP_Iu_ReleaseCompleteIEs_t ies; RANAP_Iu_ReleaseComplete_t out; struct msgb *msg; int rc; memset(&ies, 0, sizeof(ies)); memset(&out, 0, sizeof(out)); /* ies -> out */ rc = ranap_encode_iu_releasecompleteies(&out, &ies); if (rc < 0) { LOGP(DRANAP, LOGL_ERROR, "error encoding release complete IEs: %d\n", rc); return NULL; } /* out -> msg */ msg = ranap_generate_successful_outcome(RANAP_ProcedureCode_id_Iu_Release, RANAP_Criticality_reject, &asn_DEF_RANAP_Iu_ReleaseComplete, &out); /* release dynamic allocations attached to out */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_Iu_ReleaseComplete, &out); return msg; } /*! \brief generate RANAP PAGING COMMAND message */ struct msgb *ranap_new_msg_paging_cmd(const char *imsi, const uint32_t *tmsi, int is_ps, uint32_t cause) { RANAP_PagingIEs_t ies; RANAP_Paging_t out; struct msgb *msg; uint8_t *imsi_buf = CALLOC(1, 16); int rc; memset(&ies, 0, sizeof(ies)); memset(&out, 0, sizeof(out)); /* put together the 'ies' */ if (is_ps) ies.cN_DomainIndicator = RANAP_CN_DomainIndicator_ps_domain; else ies.cN_DomainIndicator = RANAP_CN_DomainIndicator_cs_domain; rc = ranap_imsi_encode(imsi_buf, 16, imsi); ies.permanentNAS_UE_ID.present = RANAP_PermanentNAS_UE_ID_PR_iMSI; ies.permanentNAS_UE_ID.choice.iMSI.buf = imsi_buf; ies.permanentNAS_UE_ID.choice.iMSI.size = rc; if (tmsi) { uint32_t *tmsi_buf = CALLOC(1, sizeof(*tmsi_buf)); ies.presenceMask |= PAGINGIES_RANAP_TEMPORARYUE_ID_PRESENT; if (is_ps) { ies.temporaryUE_ID.present = RANAP_TemporaryUE_ID_PR_p_TMSI; asn1_u32_to_str(&ies.temporaryUE_ID.choice.tMSI, tmsi_buf, *tmsi); } else { ies.temporaryUE_ID.present = RANAP_TemporaryUE_ID_PR_tMSI; asn1_u32_to_str(&ies.temporaryUE_ID.choice.p_TMSI, tmsi_buf, *tmsi); } } if (cause) { ies.presenceMask |= PAGINGIES_RANAP_PAGINGCAUSE_PRESENT; ies.pagingCause = cause; } /* ies -> out */ rc = ranap_encode_pagingies(&out, &ies); /* release dynamic allocation attached to ies */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_PermanentNAS_UE_ID, &ies.permanentNAS_UE_ID); ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_TemporaryUE_ID, &ies.temporaryUE_ID); if (rc < 0) { LOGP(DRANAP, LOGL_ERROR, "error encoding paging IEs: %d\n", rc); return NULL; } /* out -> msg */ msg = ranap_generate_initiating_message(RANAP_ProcedureCode_id_Paging, RANAP_Criticality_ignore, &asn_DEF_RANAP_Paging, &out); /* release dynamic allocations attached to out */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_Paging, &out); return msg; } static RANAP_SDU_ErrorRatio_t *new_sdu_error_ratio(long mantissa, long exponent) { RANAP_SDU_ErrorRatio_t *err = CALLOC(1, sizeof(*err)); err->mantissa = mantissa; err->exponent = exponent; return err; } static RANAP_SDU_FormatInformationParameterItem_t * new_format_info_pars(long sdu_size) { RANAP_SDU_FormatInformationParameterItem_t *fmti = CALLOC(1, sizeof(*fmti)); fmti->subflowSDU_Size = new_long(sdu_size); return fmti; } enum sdu_par_profile { SDUPAR_P_VOICE0, SDUPAR_P_VOICE1, SDUPAR_P_VOICE2, SDUPAR_P_DATA, }; /* See Chapter 5 of TS 26.102 */ static RANAP_SDU_ParameterItem_t *new_sdu_par_item(enum sdu_par_profile profile) { RANAP_SDU_ParameterItem_t *sdui = CALLOC(1, sizeof(*sdui)); RANAP_SDU_FormatInformationParameters_t *fmtip = CALLOC(1, sizeof(*fmtip)); RANAP_SDU_FormatInformationParameterItem_t *fmti; switch (profile) { case SDUPAR_P_VOICE0: sdui->sDU_ErrorRatio = new_sdu_error_ratio(1, 5); sdui->residualBitErrorRatio.mantissa = 1; sdui->residualBitErrorRatio.exponent = 6; sdui->deliveryOfErroneousSDU = RANAP_DeliveryOfErroneousSDU_yes; sdui->sDU_FormatInformationParameters = fmtip; fmti = new_format_info_pars(81); ASN_SEQUENCE_ADD(fmtip, fmti); fmti = new_format_info_pars(39); ASN_SEQUENCE_ADD(fmtip, fmti); /* FIXME: could be 10 SDU descriptors for AMR! */ break; case SDUPAR_P_VOICE1: sdui->residualBitErrorRatio.mantissa = 1; sdui->residualBitErrorRatio.exponent = 3; sdui->deliveryOfErroneousSDU = RANAP_DeliveryOfErroneousSDU_no_error_detection_consideration; sdui->sDU_FormatInformationParameters = fmtip; fmti = new_format_info_pars(103); ASN_SEQUENCE_ADD(fmtip, fmti); fmti = new_format_info_pars(0); ASN_SEQUENCE_ADD(fmtip, fmti); /* FIXME: could be 10 SDU descriptors for AMR! */ break; case SDUPAR_P_VOICE2: sdui->residualBitErrorRatio.mantissa = 5; sdui->residualBitErrorRatio.exponent = 3; sdui->deliveryOfErroneousSDU = RANAP_DeliveryOfErroneousSDU_no_error_detection_consideration; sdui->sDU_FormatInformationParameters = fmtip; fmti = new_format_info_pars(60); ASN_SEQUENCE_ADD(fmtip, fmti); fmti = new_format_info_pars(0); ASN_SEQUENCE_ADD(fmtip, fmti); /* FIXME: could be 10 SDU descriptors for AMR! */ break; case SDUPAR_P_DATA: sdui->sDU_ErrorRatio = new_sdu_error_ratio(1, 4); sdui->residualBitErrorRatio.mantissa = 1; sdui->residualBitErrorRatio.exponent = 5; sdui->deliveryOfErroneousSDU = RANAP_DeliveryOfErroneousSDU_no; FREEMEM(fmtip); break; } return sdui; } static RANAP_AllocationOrRetentionPriority_t * new_alloc_ret_prio(RANAP_PriorityLevel_t level, int capability, int vulnerability, int queueing_allowed) { RANAP_AllocationOrRetentionPriority_t *arp = CALLOC(1, sizeof(*arp)); arp->priorityLevel = level; if (capability) arp->pre_emptionCapability = RANAP_Pre_emptionCapability_may_trigger_pre_emption; else arp->pre_emptionCapability = RANAP_Pre_emptionCapability_shall_not_trigger_pre_emption; if (vulnerability) arp->pre_emptionVulnerability = RANAP_Pre_emptionVulnerability_pre_emptable; else arp->pre_emptionVulnerability = RANAP_Pre_emptionVulnerability_not_pre_emptable; if (queueing_allowed) arp->queuingAllowed = RANAP_QueuingAllowed_queueing_allowed; else arp->queuingAllowed = RANAP_QueuingAllowed_queueing_not_allowed; return arp; } /* See Chapter 5 of TS 26.102 */ static RANAP_RAB_Parameters_t *new_rab_par_voice(long bitrate_guaranteed, long bitrate_max) { RANAP_RAB_Parameters_t *rab = CALLOC(1, sizeof(*rab)); RANAP_SDU_ParameterItem_t *sdui; rab->trafficClass = RANAP_TrafficClass_conversational; rab->rAB_AsymmetryIndicator = RANAP_RAB_AsymmetryIndicator_symmetric_bidirectional; ASN_SEQUENCE_ADD(&rab->maxBitrate.list, new_long(bitrate_max)); rab->guaranteedBitRate = CALLOC(1, sizeof(*rab->guaranteedBitRate)); ASN_SEQUENCE_ADD(rab->guaranteedBitRate, new_long(bitrate_guaranteed)); rab->deliveryOrder = RANAP_DeliveryOrder_delivery_order_requested; rab->maxSDU_Size = 244; sdui = new_sdu_par_item(SDUPAR_P_VOICE0); ASN_SEQUENCE_ADD(&rab->sDU_Parameters, sdui); sdui = new_sdu_par_item(SDUPAR_P_VOICE1); ASN_SEQUENCE_ADD(&rab->sDU_Parameters, sdui); sdui = new_sdu_par_item(SDUPAR_P_VOICE2); ASN_SEQUENCE_ADD(&rab->sDU_Parameters, sdui); rab->transferDelay = new_long(80); rab->allocationOrRetentionPriority = new_alloc_ret_prio(RANAP_PriorityLevel_no_priority, 0, 1, 0); rab->sourceStatisticsDescriptor = new_long(RANAP_SourceStatisticsDescriptor_speech); return rab; } static RANAP_NAS_SynchronisationIndicator_t *new_rab_nas_sync_ind(int val) { uint8_t val_buf = (val / 10) << 4; RANAP_NAS_SynchronisationIndicator_t *nsi = CALLOC(1, sizeof(*nsi)); BIT_STRING_fromBuf(nsi, &val_buf, 4); return nsi; } static RANAP_RAB_Parameters_t *new_rab_par_data(uint32_t dl_max_bitrate, uint32_t ul_max_bitrate) { RANAP_RAB_Parameters_t *rab = CALLOC(1, sizeof(*rab)); RANAP_SDU_ParameterItem_t *sdui; rab->trafficClass = RANAP_TrafficClass_background; rab->rAB_AsymmetryIndicator = RANAP_RAB_AsymmetryIndicator_asymmetric_bidirectional; ASN_SEQUENCE_ADD(&rab->maxBitrate.list, new_long(dl_max_bitrate)); ASN_SEQUENCE_ADD(&rab->maxBitrate.list, new_long(ul_max_bitrate)); rab->deliveryOrder = RANAP_DeliveryOrder_delivery_order_requested; rab->maxSDU_Size = 8000; sdui = new_sdu_par_item(SDUPAR_P_DATA); ASN_SEQUENCE_ADD(&rab->sDU_Parameters, sdui); rab->allocationOrRetentionPriority = new_alloc_ret_prio(RANAP_PriorityLevel_no_priority, 0, 0, 0); RANAP_ProtocolExtensionField_t *pxf = CALLOC(1, sizeof(*pxf)); pxf->id = RANAP_ProtocolIE_ID_id_RAB_Parameter_ExtendedMaxBitrateList; pxf->criticality = RANAP_Criticality_ignore; RANAP_RAB_Parameter_ExtendedMaxBitrateList_t *rab_mbrlist = CALLOC(1, sizeof(*rab_mbrlist)); RANAP_ExtendedMaxBitrate_t *xmbr = CALLOC(1, sizeof(*xmbr)); *xmbr = 42000000; ASN_SEQUENCE_ADD(&rab_mbrlist->list, xmbr); ANY_fromType_aper(&pxf->value, &asn_DEF_RANAP_RAB_Parameter_ExtendedMaxBitrateList, rab_mbrlist); ASN_STRUCT_FREE(asn_DEF_RANAP_RAB_Parameter_ExtendedMaxBitrateList, rab_mbrlist); rab->iE_Extensions = CALLOC(1, sizeof(*rab->iE_Extensions)); ASN_SEQUENCE_ADD(&rab->iE_Extensions->list, pxf); return rab; } static void new_transp_layer_addr(BIT_STRING_t *out, uint32_t ip, bool use_x213_nsap) { uint8_t *buf; unsigned int len; uint32_t ip_h = ntohl(ip); if (use_x213_nsap) { len = 160/8; buf = CALLOC(len, sizeof(uint8_t)); buf[0] = 0x35; /* AFI For IANA ICP */ buf[1] = 0x00; /* See A.5.2.1.2.7 of X.213 */ buf[2] = 0x01; memcpy(&buf[3], &ip_h, sizeof(ip_h)); } else { len = sizeof(ip_h); buf = CALLOC(len, sizeof(uint8_t)); memcpy(buf, &ip_h, sizeof(ip_h)); } out->buf = buf; out->size = len; out->bits_unused = 0; } static RANAP_TransportLayerInformation_t *new_transp_info_rtp(uint32_t ip, uint16_t port, bool use_x213_nsap) { RANAP_TransportLayerInformation_t *tli = CALLOC(1, sizeof(*tli)); uint8_t binding_id[4]; binding_id[0] = port >> 8; binding_id[1] = port & 0xff; binding_id[2] = binding_id[3] = 0; new_transp_layer_addr(&tli->transportLayerAddress, ip, use_x213_nsap); tli->iuTransportAssociation.present = RANAP_IuTransportAssociation_PR_bindingID; OCTET_STRING_fromBuf(&tli->iuTransportAssociation.choice.bindingID, (const char *) binding_id, sizeof(binding_id)); return tli; } static RANAP_TransportLayerInformation_t *new_transp_info_gtp(uint32_t ip, uint32_t tei, bool use_x213_nsap) { RANAP_TransportLayerInformation_t *tli = CALLOC(1, sizeof(*tli)); uint32_t binding_buf = htonl(tei); new_transp_layer_addr(&tli->transportLayerAddress, ip, use_x213_nsap); tli->iuTransportAssociation.present = RANAP_IuTransportAssociation_PR_gTP_TEI; OCTET_STRING_fromBuf(&tli->iuTransportAssociation.choice.gTP_TEI, (const char *) &binding_buf, sizeof(binding_buf)); return tli; } static RANAP_UserPlaneInformation_t *new_upi(long mode, uint8_t mode_versions) { RANAP_UserPlaneInformation_t *upi = CALLOC(1, sizeof(*upi)); uint16_t *buf = CALLOC(1, sizeof(*buf)); *buf = ntohs(mode_versions); upi->userPlaneMode = mode; upi->uP_ModeVersions.buf = (uint8_t *) buf; upi->uP_ModeVersions.size = sizeof(*buf); upi->uP_ModeVersions.bits_unused = 0; return upi; } static void assign_new_ra_id(RANAP_RAB_ID_t *id, uint8_t rab_id) { uint8_t *buf = CALLOC(1, sizeof(*buf)); *buf = rab_id; id->buf = buf; id->size = 1; id->bits_unused = 0; } /*! \brief generate RANAP RAB ASSIGNMENT REQUEST message for CS (voice). * See 3GPP TS 25.413 8.2. * RAB ID: 3GPP TS 25.413 9.2.1.2. * \param rtp_ip MGW's RTP IPv4 address in *network* byte order. */ struct msgb *ranap_new_msg_rab_assign_voice(uint8_t rab_id, uint32_t rtp_ip, uint16_t rtp_port, bool use_x213_nsap) { RANAP_ProtocolIE_FieldPair_t *pair; RANAP_RAB_AssignmentRequestIEs_t ies; RANAP_RAB_AssignmentRequest_t out; struct msgb *msg; int rc; memset(&ies, 0, sizeof(ies)); memset(&out, 0, sizeof(out)); /* only assingnment is present, no release */ ies.presenceMask = RAB_ASSIGNMENTREQUESTIES_RANAP_RAB_SETUPORMODIFYLIST_PRESENT; /* put together the 'First' part */ RANAP_RAB_SetupOrModifyItemFirst_t first; memset(&first, 0, sizeof(first)); assign_new_ra_id(&first.rAB_ID, rab_id); first.nAS_SynchronisationIndicator = new_rab_nas_sync_ind(60); first.rAB_Parameters = new_rab_par_voice(6700, 12200); first.userPlaneInformation = new_upi(RANAP_UserPlaneMode_support_mode_for_predefined_SDU_sizes, 1); /* 2? */ first.transportLayerInformation = new_transp_info_rtp(rtp_ip, rtp_port, use_x213_nsap); /* put together the 'Second' part */ RANAP_RAB_SetupOrModifyItemSecond_t second; memset(&second, 0, sizeof(second)); /* Build an IE Pair out of first and second part: * (first, second) -> pair */ pair = ranap_new_ie_pair(RANAP_ProtocolIE_ID_id_RAB_SetupOrModifyItem, RANAP_Criticality_reject, &asn_DEF_RANAP_RAB_SetupOrModifyItemFirst, &first, RANAP_Criticality_ignore, &asn_DEF_RANAP_RAB_SetupOrModifyItemSecond, &second); /* the pair has been made, we can release any of its elements */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_RAB_SetupOrModifyItemFirst, &first); ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_RAB_SetupOrModifyItemSecond, &second); RANAP_ProtocolIE_ContainerPair_t *container_pair = CALLOC(1, sizeof(*container_pair)); /* Add the pair to the list of IEs of the RAB ass.req */ ASN_SEQUENCE_ADD(container_pair, pair); ASN_SEQUENCE_ADD(&ies.raB_SetupOrModifyList.list, container_pair); /* encode the IEs into the actual assignment request: * ies -> out */ rc = ranap_encode_rab_assignmentrequesties(&out, &ies); /* 'out' has been generated, we can now release the input */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_RAB_SetupOrModifyList, &ies.raB_SetupOrModifyList); if (rc < 0) return NULL; /* generate an Initiating Mesasage: out -> msg */ msg = ranap_generate_initiating_message(RANAP_ProcedureCode_id_RAB_Assignment, RANAP_Criticality_reject, &asn_DEF_RANAP_RAB_AssignmentRequest, &out); /* 'msg' has been generated, we cann now release the input 'out' */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_RAB_AssignmentRequest, &out); return msg; } /*! \brief generate RANAP RAB ASSIGNMENT REQUEST message for PS (data) * \param gtp_ip SGSN's GTP IPv4 address in *network* byte order. */ struct msgb *ranap_new_msg_rab_assign_data(uint8_t rab_id, uint32_t gtp_ip, uint32_t gtp_tei, bool use_x213_nsap) { RANAP_ProtocolIE_FieldPair_t *pair; RANAP_RAB_AssignmentRequestIEs_t ies; RANAP_RAB_AssignmentRequest_t out; RANAP_DataVolumeReportingIndication_t *dat_vol_ind; struct msgb *msg; int rc; memset(&ies, 0, sizeof(ies)); memset(&out, 0, sizeof(out)); /* only assingnment is present, no release */ ies.presenceMask = RAB_ASSIGNMENTREQUESTIES_RANAP_RAB_SETUPORMODIFYLIST_PRESENT; /* put together the 'First' part */ RANAP_RAB_SetupOrModifyItemFirst_t first; memset(&first, 0, sizeof(first)); assign_new_ra_id(&first.rAB_ID, rab_id); //first.nAS_SynchronisationIndicator = FIXME; first.rAB_Parameters = new_rab_par_data(1600000, 800000); first.userPlaneInformation = new_upi(RANAP_UserPlaneMode_transparent_mode, 1); first.transportLayerInformation = new_transp_info_gtp(gtp_ip, gtp_tei, use_x213_nsap); /* put together the 'Second' part */ RANAP_RAB_SetupOrModifyItemSecond_t second; memset(&second, 0, sizeof(second)); second.pDP_TypeInformation = CALLOC(1, sizeof(*second.pDP_TypeInformation)); ASN_SEQUENCE_ADD(second.pDP_TypeInformation, new_long(RANAP_PDP_Type_ipv4)); dat_vol_ind = CALLOC(1, sizeof(*dat_vol_ind)); *dat_vol_ind = RANAP_DataVolumeReportingIndication_do_not_report; second.dataVolumeReportingIndication = dat_vol_ind; second.dl_GTP_PDU_SequenceNumber = new_long(0); second.ul_GTP_PDU_SequenceNumber = new_long(0); /* Build an IE Pair out of first and second part: * (first, second) -> pair */ pair = ranap_new_ie_pair(RANAP_ProtocolIE_ID_id_RAB_SetupOrModifyItem, RANAP_Criticality_reject, &asn_DEF_RANAP_RAB_SetupOrModifyItemFirst, &first, RANAP_Criticality_ignore, &asn_DEF_RANAP_RAB_SetupOrModifyItemSecond, &second); /* the pair has been made, we can release any of its elements */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_RAB_SetupOrModifyItemFirst, &first); ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_RAB_SetupOrModifyItemSecond, &second); RANAP_ProtocolIE_ContainerPair_t *container_pair = CALLOC(1, sizeof(*container_pair)); /* Add the pair to the list of IEs of the RAB ass.req */ ASN_SEQUENCE_ADD(&container_pair->list, pair); /* Add the pair to the list of IEs of the RAB ass.req */ ASN_SEQUENCE_ADD(&ies.raB_SetupOrModifyList.list, container_pair); /* encode the IEs into the actual assignment request: * ies -> out */ rc = ranap_encode_rab_assignmentrequesties(&out, &ies); /* 'out' has been generated, we can now release the input */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_RAB_SetupOrModifyList, &ies.raB_SetupOrModifyList); if (rc < 0) return NULL; /* generate an Initiating Mesasage: out -> msg */ msg = ranap_generate_initiating_message(RANAP_ProcedureCode_id_RAB_Assignment, RANAP_Criticality_reject, &asn_DEF_RANAP_RAB_AssignmentRequest, &out); /* 'msg' has been generated, we cann now release the input 'out' */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_RAB_AssignmentRequest, &out); return msg; } struct msgb *ranap_new_msg_iu_rel_req(const RANAP_Cause_t *cause) { RANAP_Iu_ReleaseRequestIEs_t ies; RANAP_Iu_ReleaseRequest_t out; struct msgb *msg; int rc; memset(&ies, 0, sizeof(ies)); memset(&out, 0, sizeof(out)); memcpy(&ies.cause, cause, sizeof(ies.cause)); rc = ranap_encode_iu_releaserequesties(&out, &ies); if (rc < 0) { LOGP(DRANAP, LOGL_ERROR, "error encoding release request IEs: %d\n", rc); ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_Iu_ReleaseRequest, &out); return NULL; } /* encode the output into the msgb */ msg = ranap_generate_initiating_message(RANAP_ProcedureCode_id_Iu_ReleaseRequest, RANAP_Criticality_ignore, &asn_DEF_RANAP_Iu_ReleaseRequest, &out); ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_Iu_ReleaseRequest, &out); return msg; } struct msgb *ranap_new_msg_rab_rel_req(uint8_t rab_id, const RANAP_Cause_t *cause) { RANAP_RAB_ReleaseItemIEs_t item_ies; RANAP_RAB_ReleaseRequestIEs_t ies; RANAP_RAB_ReleaseRequest_t out; struct msgb *msg; int rc; memset(&item_ies, 0, sizeof(item_ies)); memset(&ies, 0, sizeof(ies)); memset(&out, 0, sizeof(out)); /* put together the ReleaseItem */ assign_new_ra_id(&item_ies.raB_ReleaseItem.rAB_ID, rab_id); memcpy(&item_ies.raB_ReleaseItem.cause, cause, sizeof(item_ies.raB_ReleaseItem.cause)); /* add to the list */ rc = ranap_encode_rab_releaseitemies(&ies.raB_ReleaseList, &item_ies); if (rc < 0) return NULL; ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_RAB_ReleaseItem, &item_ies.raB_ReleaseItem); /* encoe the list IEs into the output */ rc = ranap_encode_rab_releaserequesties(&out, &ies); /* 'out' has been generated, we can release the input */ ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_RAB_ReleaseList, &ies.raB_ReleaseList); if (rc < 0) { LOGP(DRANAP, LOGL_ERROR, "error encoding release request IEs: %d\n", rc); return NULL; } /* encode the output into the msgb */ msg = ranap_generate_initiating_message(RANAP_ProcedureCode_id_RAB_ReleaseRequest, RANAP_Criticality_ignore, &asn_DEF_RANAP_RAB_ReleaseRequest, &out); ASN_STRUCT_FREE_CONTENTS_ONLY(asn_DEF_RANAP_RAB_ReleaseRequest, &out); return msg; }