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osmo-msc/src/libmsc/ran_msg_a.c

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/* BSSAP/BSSMAP encoding and decoding for MSC */
/*
* (C) 2019 by sysmocom - s.m.f.c. GmbH <info@sysmocom.de>
* All Rights Reserved
*
* Author: Neels Hofmeyr
*
* SPDX-License-Identifier: GPL-2.0+
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 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 General Public License for more details.
*/
#include <osmocom/core/byteswap.h>
#include <osmocom/crypt/auth.h>
#include <osmocom/crypt/kdf.h>
#include <osmocom/gsm/tlv.h>
#include <osmocom/gsm/gsm0808.h>
#include <osmocom/gsm/mncc.h>
#include <osmocom/gsm/gsm48.h>
#include <osmocom/msc/debug.h>
#include <osmocom/msc/ran_msg_a.h>
#include <osmocom/msc/sccp_ran.h>
#include <osmocom/msc/gsm_data.h>
#define LOG_RAN_A_DEC(RAN_DEC, level, fmt, args...) \
LOG_RAN_DEC(RAN_DEC, DBSSAP, level, "BSSMAP: " fmt, ## args)
/* Assumes presence of struct ran_dec *ran_dec and ran_dec_msg.msg_name (set) in the local scope. */
#define LOG_RAN_A_DEC_MSG(level, fmt, args...) \
LOG_RAN_DEC(ran_dec, DBSSAP, level, "%s: " fmt, ran_dec_msg.msg_name, ## args)
#define LOG_RAN_A_ENC(FI, level, fmt, args...) \
LOG_RAN_ENC(FI, DBSSAP, level, "BSSMAP: " fmt, ## args)
static int ran_a_decode_l3_compl(struct ran_dec *ran_dec, struct msgb *msg, struct tlv_parsed *tp)
{
struct gsm0808_cell_id_list2 cil;
struct gsm0808_cell_id cell_id;
struct tlv_p_entry *ie_cell_id = TLVP_GET(tp, GSM0808_IE_CELL_IDENTIFIER);
struct tlv_p_entry *ie_l3_info = TLVP_GET(tp, GSM0808_IE_LAYER_3_INFORMATION);
struct tlv_p_entry *ie_codec_list_bss_supported = TLVP_GET(tp, GSM0808_IE_SPEECH_CODEC_LIST);
struct gsm0808_speech_codec_list codec_list_bss_supported;
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_COMPL_L3,
.msg_name = "BSSMAP Complete Layer 3 Information",
.compl_l3 = {
.cell_id = &cell_id,
.msg = msg,
},
};
int rc;
if (!ie_cell_id) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Mandatory CELL IDENTIFIER not present, discarding message\n");
return -EINVAL;
}
if (!ie_l3_info) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Mandatory LAYER 3 INFORMATION not present, discarding message\n");
return -EINVAL;
}
/* Parse Cell ID element -- this should yield a cell identifier "list" with 1 element. */
rc = gsm0808_dec_cell_id_list2(&cil, ie_cell_id->val, ie_cell_id->len);
if (rc < 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Decoding CELL IDENTIFIER gave rc=%d\n", rc);
return -EINVAL;
}
if (cil.id_list_len != 1) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Unable to parse element CELL IDENTIFIER, discarding message\n");
return -EINVAL;
}
/* Sanity check the Cell Identity */
switch (cil.id_discr) {
case CELL_IDENT_WHOLE_GLOBAL:
case CELL_IDENT_LAI_AND_LAC:
case CELL_IDENT_LAC_AND_CI:
case CELL_IDENT_LAC:
break;
case CELL_IDENT_CI:
case CELL_IDENT_NO_CELL:
case CELL_IDENT_BSS:
default:
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "CELL IDENTIFIER does not specify a LAC, discarding message: %s\n",
gsm0808_cell_id_list_name(&cil));
return -EINVAL;
}
cell_id = (struct gsm0808_cell_id){
.id_discr = cil.id_discr,
.id = cil.id_list[0],
};
/* Parse Layer 3 Information element; point ran_dec_msg->compl_l3.msg to the L3 Info data */
msg->l3h = (uint8_t*)ie_l3_info->val;
msgb_l3trim(msg, ie_l3_info->len);
if (msgb_l3len(msg) < sizeof(struct gsm48_hdr)) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "too short L3 info (%d), discarding message\n", msgb_l3len(msg));
return -ENODATA;
}
/* Decode Codec List (BSS Supported) */
if (ie_codec_list_bss_supported) {
rc = gsm0808_dec_speech_codec_list(&codec_list_bss_supported,
ie_codec_list_bss_supported->val, ie_codec_list_bss_supported->len);
if (rc < 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR,
"Complete Layer 3 Information: unable to decode IE Codec List (BSS Supported)"
" (rc=%d), continuing anyway\n", rc);
/* This IE is not critical, do not abort with error. */
} else
ran_dec_msg.compl_l3.codec_list_bss_supported = &codec_list_bss_supported;
}
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_clear_request(struct ran_dec *ran_dec, struct msgb *msg, struct tlv_parsed *tp)
{
struct tlv_p_entry *ie_cause = TLVP_GET(tp, GSM0808_IE_CAUSE);
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_CLEAR_REQUEST,
.msg_name = "BSSMAP Clear Request",
};
if (!ie_cause) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Cause code is missing, using GSM0808_CAUSE_EQUIPMENT_FAILURE\n");
ran_dec_msg.clear_request.bssap_cause = GSM0808_CAUSE_EQUIPMENT_FAILURE;
} else {
ran_dec_msg.clear_request.bssap_cause = ie_cause->val[0];
}
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_clear_complete(struct ran_dec *ran_dec, struct msgb *msg, struct tlv_parsed *tp)
{
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_CLEAR_COMPLETE,
.msg_name = "BSSMAP Clear Complete",
};
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_classmark_update(struct ran_dec *ran_dec, struct msgb *msg, struct tlv_parsed *tp)
{
struct tlv_p_entry *ie_cm2 = TLVP_GET(tp, GSM0808_IE_CLASSMARK_INFORMATION_T2);
struct tlv_p_entry *ie_cm3 = TLVP_GET(tp, GSM0808_IE_CLASSMARK_INFORMATION_T3);
struct osmo_gsm48_classmark cm = {};
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_CLASSMARK_UPDATE,
.msg_name = "BSSMAP Classmark Update",
.classmark_update = {
.classmark = &cm,
},
};
if (!ie_cm2) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "mandatory Classmark Information Type 2 not present, discarding message\n");
return -EINVAL;
}
cm.classmark2_len = OSMO_MIN(sizeof(cm.classmark2), ie_cm2->len);
memcpy(&cm.classmark2, ie_cm2->val, cm.classmark2_len);
if (ie_cm3) {
cm.classmark3_len = OSMO_MIN(sizeof(cm.classmark3), ie_cm3->len);
memcpy(&cm.classmark3, ie_cm3->val, cm.classmark3_len);
}
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_cipher_mode_complete(struct ran_dec *ran_dec, struct msgb *msg, struct tlv_parsed *tp)
{
struct tlv_p_entry *ie_chosen_encr_alg = TLVP_GET(tp, GSM0808_IE_CHOSEN_ENCR_ALG);
struct tlv_p_entry *ie_l3_msg = TLVP_GET(tp, GSM0808_IE_LAYER_3_MESSAGE_CONTENTS);
int rc;
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_CIPHER_MODE_COMPLETE,
.msg_name = "BSSMAP Ciphering Mode Complete",
};
if (ie_chosen_encr_alg) {
uint8_t ie_val = ie_chosen_encr_alg->val[0];
/* 3GPP TS 48.008 3.2.2.44 Chosen Encryption Algorithm encodes as 1 = no encryption, 2 = A5/1, 4 = A5/3.
* Internally we handle without this weird off-by-one. */
if (ie_val < 1 || ie_val > 8)
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Unsupported value for 3.2.2.44 Chosen Encryption Algorithm: %u\n",
ie_val);
else
ran_dec_msg.cipher_mode_complete.alg_id = ie_chosen_encr_alg->val[0];
}
if (ie_l3_msg)
ran_dec_msg.cipher_mode_complete.l3_msg = ie_l3_msg;
rc = ran_decoded(ran_dec, &ran_dec_msg);
return rc;
}
static int ran_a_decode_cipher_mode_reject(struct ran_dec *ran_dec, struct msgb *msg, struct tlv_parsed *tp)
{
int rc;
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_CIPHER_MODE_REJECT,
.msg_name = "BSSMAP Ciphering Mode Reject",
};
rc = gsm0808_get_cause(tp);
if (rc < 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "failed to extract Cause\n");
ran_dec_msg.cipher_mode_reject.bssap_cause = GSM0808_CAUSE_EQUIPMENT_FAILURE;
} else {
ran_dec_msg.cipher_mode_reject.bssap_cause = (enum gsm0808_cause)rc;
}
return ran_decoded(ran_dec, &ran_dec_msg);
}
enum mgcp_codecs ran_a_mgcp_codec_from_sc(const struct gsm0808_speech_codec *sc)
{
switch (sc->type) {
case GSM0808_SCT_FR1:
return CODEC_GSM_8000_1;
break;
case GSM0808_SCT_FR2:
return CODEC_GSMEFR_8000_1;
break;
case GSM0808_SCT_FR3:
return CODEC_AMR_8000_1;
break;
case GSM0808_SCT_FR4:
return CODEC_AMRWB_16000_1;
break;
case GSM0808_SCT_FR5:
return CODEC_AMRWB_16000_1;
break;
case GSM0808_SCT_HR1:
return CODEC_GSMHR_8000_1;
break;
case GSM0808_SCT_HR3:
return CODEC_AMR_8000_1;
break;
case GSM0808_SCT_HR4:
return CODEC_AMRWB_16000_1;
break;
case GSM0808_SCT_HR6:
return CODEC_AMRWB_16000_1;
break;
default:
return CODEC_PCMU_8000_1;
break;
}
}
static int ran_a_decode_assignment_complete(struct ran_dec *ran_dec, struct msgb *msg, struct tlv_parsed *tp)
{
struct tlv_p_entry *ie_aoip_transp_addr = TLVP_GET(tp, GSM0808_IE_AOIP_TRASP_ADDR);
struct tlv_p_entry *ie_speech_codec = TLVP_GET(tp, GSM0808_IE_SPEECH_CODEC);
struct tlv_p_entry *ie_codec_list_bss_supported = TLVP_GET(tp, GSM0808_IE_SPEECH_CODEC_LIST);
struct tlv_p_entry *ie_osmux_cid = TLVP_GET(tp, GSM0808_IE_OSMO_OSMUX_CID);
struct sockaddr_storage rtp_addr;
struct gsm0808_speech_codec_list codec_list_bss_supported;
int rc;
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_ASSIGNMENT_COMPLETE,
.msg_name = "BSSMAP Assignment Complete",
};
if (ie_aoip_transp_addr) {
/* Decode AoIP transport address element */
rc = gsm0808_dec_aoip_trasp_addr(&rtp_addr, ie_aoip_transp_addr->val, ie_aoip_transp_addr->len);
if (rc < 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Unable to decode AoIP Transport Layer Address\n");
return -EINVAL;
}
if (osmo_sockaddr_str_from_sockaddr(&ran_dec_msg.assignment_complete.remote_rtp, &rtp_addr)) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Assignment Complete: unable to decode remote RTP IP address\n");
return -EINVAL;
}
}
if (ie_osmux_cid) {
rc = gsm0808_dec_osmux_cid(&ran_dec_msg.assignment_complete.osmux_cid, ie_osmux_cid->val, ie_osmux_cid->len);
if (rc < 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Unable to decode Osmux CID\n");
return -EINVAL;
}
ran_dec_msg.assignment_complete.osmux_present = true;
}
if (ie_speech_codec) {
/* Decode Speech Codec (Chosen) element */
rc = gsm0808_dec_speech_codec(&ran_dec_msg.assignment_complete.codec,
ie_speech_codec->val, ie_speech_codec->len);
if (rc < 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Assignment Complete: unable to decode IE Speech Codec (Chosen)"
" (rc=%d).\n", rc);
return -EINVAL;
}
ran_dec_msg.assignment_complete.codec_present = true;
}
if (ie_codec_list_bss_supported) {
/* Decode Codec List (BSS Supported) */
rc = gsm0808_dec_speech_codec_list(&codec_list_bss_supported,
ie_codec_list_bss_supported->val, ie_codec_list_bss_supported->len);
if (rc < 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR,
"Assignment Complete: unable to decode IE Codec List (BSS Supported)"
" (rc=%d), continuing anyway\n", rc);
/* This IE is not critical, do not abort with error. */
} else
ran_dec_msg.assignment_complete.codec_list_bss_supported = &codec_list_bss_supported;
}
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_assignment_failure(struct ran_dec *ran_dec, struct msgb *msg, struct tlv_parsed *tp)
{
struct tlv_p_entry *ie_cause = TLVP_GET(tp, GSM0808_IE_CAUSE);
struct tlv_p_entry *ie_rr_cause = TLVP_GET(tp, GSM0808_IE_RR_CAUSE);
struct tlv_p_entry *ie_speech_codec_list = TLVP_GET(tp, GSM0808_IE_SPEECH_CODEC_LIST);
struct gsm0808_speech_codec_list scl;
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_ASSIGNMENT_FAILURE,
.msg_name = "BSSMAP Assignment Failure",
.assignment_failure = {
.bssap_cause = GSM0808_CAUSE_EQUIPMENT_FAILURE,
.rr_cause = GSM48_RR_CAUSE_ABNORMAL_UNSPEC,
},
};
if (ie_cause)
ran_dec_msg.assignment_failure.bssap_cause = ie_cause->val[0];
if (ie_rr_cause)
ran_dec_msg.assignment_failure.rr_cause = ie_rr_cause->val[0];
if (ie_speech_codec_list
&& gsm0808_dec_speech_codec_list(&scl, ie_speech_codec_list->val, ie_speech_codec_list->len) == 0)
ran_dec_msg.assignment_failure.scl_bss_supported = &scl;
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_sapi_n_reject(struct ran_dec *ran_dec, struct msgb *msg, struct tlv_parsed *tp)
{
struct tlv_p_entry *ie_cause = TLVP_GET(tp, GSM0808_IE_CAUSE);
struct tlv_p_entry *ie_dlci = TLVP_GET(tp, GSM0808_IE_DLCI);
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_SAPI_N_REJECT,
.msg_name = "BSSMAP SAPI-N Reject",
};
/* Note: The MSC code seems not to care about the cause code, but by
* the specification it is mandatory, so we check its presence. See
* also 3GPP TS 48.008 3.2.1.34 SAPI "n" REJECT */
if (!ie_cause) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "SAPI-N Reject: cause code IE is missing, discarding message\n");
return -EINVAL;
}
ran_dec_msg.sapi_n_reject.bssap_cause = ie_cause->val[0];
if (!ie_dlci) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "SAPI-N Reject: DLCI IE is missing, discarding message\n");
return -EINVAL;
}
ran_dec_msg.sapi_n_reject.dlci = ie_dlci->val[0];
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_lcls_notification(struct ran_dec *ran_dec, const struct msgb *msg, const struct tlv_parsed *tp)
{
const struct tlv_p_entry *ie_lcls_bss_status = TLVP_GET(tp, GSM0808_IE_LCLS_BSS_STATUS);
const struct tlv_p_entry *ie_lcls_break_req = TLVP_GET(tp, GSM0808_IE_LCLS_BREAK_REQ);
struct ran_msg ran_dec_msg;
/* Either §3.2.2.119 LCLS-BSS-Status or §3.2.2.120 LCLS-Break-Request shall be present */
if (ie_lcls_bss_status && !ie_lcls_break_req) {
ran_dec_msg = (struct ran_msg){
.msg_type = RAN_MSG_LCLS_STATUS,
.msg_name = "BSSMAP LCLS Notification (LCLS Status)",
.lcls_status = {
.status = ie_lcls_bss_status->len ?
ie_lcls_bss_status->val[0] : GSM0808_LCLS_STS_NA,
},
};
return ran_decoded(ran_dec, &ran_dec_msg);
} else if (ie_lcls_break_req && !ie_lcls_bss_status) {
ran_dec_msg = (struct ran_msg){
.msg_type = RAN_MSG_LCLS_BREAK_REQ,
.msg_name = "BSSMAP LCLS Notification (LCLS Break Req)",
.lcls_break_req = {
.todo = 23,
},
};
return ran_decoded(ran_dec, &ran_dec_msg);
}
LOG_RAN_A_DEC(ran_dec, LOGL_ERROR, "Ignoring broken LCLS Notification message\n");
return -EINVAL;
}
static int ran_a_decode_handover_required(struct ran_dec *ran_dec, const struct msgb *msg, const struct tlv_parsed *tp)
{
const struct tlv_p_entry *ie_cause = TLVP_GET(tp, GSM0808_IE_CAUSE);
const struct tlv_p_entry *ie_cil = TLVP_GET(tp, GSM0808_IE_CELL_IDENTIFIER_LIST);
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_HANDOVER_REQUIRED,
.msg_name = "BSSMAP Handover Required",
};
/* On decoding failures, dispatch an invalid RAN_MSG_HANDOVER_REQUIRED so msc_a can pass down a
* BSS_MAP_MSG_HANDOVER_REQUIRED_REJECT message. */
if (ie_cause)
ran_dec_msg.handover_required.cause = ie_cause->val[0];
else
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Cause IE missing\n");
if (!ie_cil
|| gsm0808_dec_cell_id_list2(&ran_dec_msg.handover_required.cil, ie_cil->val, ie_cil->len) <= 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "No or invalid Cell Identifier List IE\n");
ran_dec_msg.handover_required.cil = (struct gsm0808_cell_id_list2){};
}
return ran_decoded(ran_dec, &ran_dec_msg);
}
static uint8_t a5_encryption_mask_from_gsm0808_chosen_enc_alg(enum gsm0808_chosen_enc_alg val)
{
return 1 << val;
}
static int ran_a_decode_handover_request(struct ran_dec *ran_dec, const struct msgb *msg, const struct tlv_parsed *tp)
{
struct osmo_gsm48_classmark classmark = {};
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_HANDOVER_REQUEST,
.msg_name = "BSSMAP Handover Request",
.handover_request = {
.classmark = &classmark,
},
};
struct ran_handover_request *r = &ran_dec_msg.handover_request;
const struct tlv_p_entry *ie_channel_type = TLVP_GET(tp, GSM0808_IE_CHANNEL_TYPE);
const struct tlv_p_entry *ie_encryption_information = TLVP_GET(tp, GSM0808_IE_ENCRYPTION_INFORMATION);
const struct tlv_p_entry *ie_classmark1 = TLVP_GET(tp, GSM0808_IE_CLASSMARK_INFORMATION_TYPE_1);
const struct tlv_p_entry *ie_classmark2 = TLVP_GET(tp, GSM0808_IE_CLASSMARK_INFORMATION_T2);
const struct tlv_p_entry *ie_cell_id_serving = TLVP_GET(&tp[0], GSM0808_IE_CELL_IDENTIFIER);
const struct tlv_p_entry *ie_cell_id_target = TLVP_GET(&tp[1], GSM0808_IE_CELL_IDENTIFIER);
const struct tlv_p_entry *ie_cause = TLVP_GET(tp, GSM0808_IE_CAUSE);
const struct tlv_p_entry *ie_classmark3 = TLVP_GET(tp, GSM0808_IE_CLASSMARK_INFORMATION_T3);
const struct tlv_p_entry *ie_current_channel_type_1 = TLVP_GET(tp, GSM0808_IE_CURRENT_CHANNEL_TYPE_1);
const struct tlv_p_entry *ie_speech_version_used = TLVP_GET(tp, GSM0808_IE_SPEECH_VERSION);
const struct tlv_p_entry *ie_chosen_encr_alg_serving = TLVP_GET(tp, GSM0808_IE_CHOSEN_ENCR_ALG);
const struct tlv_p_entry *ie_old_bss_to_new_bss_info = TLVP_GET(tp, GSM0808_IE_OLD_BSS_TO_NEW_BSS_INFORMATION);
const struct tlv_p_entry *ie_imsi = TLVP_GET(tp, GSM0808_IE_IMSI);
const struct tlv_p_entry *ie_aoip_transp_addr = TLVP_GET(tp, GSM0808_IE_AOIP_TRASP_ADDR);
const struct tlv_p_entry *ie_codec_list_msc_preferred = TLVP_GET(tp, GSM0808_IE_SPEECH_CODEC_LIST);
const struct tlv_p_entry *ie_call_id = TLVP_GET(tp, GSM0808_IE_CALL_ID);
const struct tlv_p_entry *ie_kc128 = TLVP_GET(tp, GSM0808_IE_KC_128);
const struct tlv_p_entry *ie_global_call_ref = TLVP_GET(tp, GSM0808_IE_GLOBAL_CALL_REF);
struct gsm0808_channel_type channel_type;
struct gsm0808_encrypt_info encr_info;
struct gsm0808_speech_codec_list scl;
struct geran_encr geran_encr = {};
struct osmo_sockaddr_str rtp_ran_local;
if (!ie_channel_type) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Mandatory IE missing: Channel Type\n");
return -EINVAL;
}
if (gsm0808_dec_channel_type(&channel_type, ie_channel_type->val, ie_channel_type->len) <= 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Failed to decode Channel Type IE\n");
return -EINVAL;
}
r->geran.channel_type = &channel_type;
if (ie_encryption_information) {
int i;
if (gsm0808_dec_encrypt_info(&encr_info, ie_encryption_information->val, ie_encryption_information->len)
<= 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Failed to decode Encryption Information IE\n");
return -EINVAL;
}
for (i = 0; i < encr_info.perm_algo_len; i++) {
r->geran.a5_encryption_mask |=
a5_encryption_mask_from_gsm0808_chosen_enc_alg(encr_info.perm_algo[i]);
}
if (encr_info.key_len > sizeof(geran_encr.key)) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Failed to decode Encryption Information IE:"
" encryption key is too long: %u\n", geran_encr.key_len);
return -EINVAL;
}
if (encr_info.key_len) {
memcpy(geran_encr.key, encr_info.key, encr_info.key_len);
geran_encr.key_len = encr_info.key_len;
}
if (ie_kc128) {
memcpy(geran_encr.kc128, ie_kc128->val, 16);
geran_encr.kc128_present = true;
}
r->geran.chosen_encryption = &geran_encr;
}
if (!ie_classmark1 && !ie_classmark2) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Mandatory IE missing: either Classmark Information 1"
" or Classmark Information 2 must be included\n");
return -EINVAL;
}
if (ie_classmark1) {
if (ie_classmark1->len != sizeof(classmark.classmark1)) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Invalid size for Classmark 1: %u, expected %zu\n",
ie_classmark1->len, sizeof(classmark.classmark1));
return -EINVAL;
}
memcpy((uint8_t*)&classmark.classmark1, ie_classmark1->val, ie_classmark1->len);
classmark.classmark1_set = true;
}
if (ie_classmark2) {
uint8_t len = OSMO_MIN(ie_classmark2->len, sizeof(classmark.classmark2));
memcpy((uint8_t*)&classmark.classmark2, ie_classmark2->val, len);
classmark.classmark2_len = len;
}
if (!ie_cell_id_serving) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Mandatory IE missing: Cell Identifier (Serving)\n");
return -EINVAL;
}
if (gsm0808_dec_cell_id(&r->cell_id_serving, ie_cell_id_serving->val,
ie_cell_id_serving->len) <= 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Failed to decode Cell Identifier (Serving) IE\n");
return -EINVAL;
}
if (!ie_cell_id_target) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Mandatory IE missing: Cell Identifier (Target)\n");
return -EINVAL;
}
if (gsm0808_dec_cell_id(&r->cell_id_target, ie_cell_id_target->val,
ie_cell_id_target->len) <= 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "Failed to decode Cell Identifier (Target) IE\n");
return -EINVAL;
}
if (ie_cause)
r->bssap_cause = ie_cause->val[0];
if (ie_classmark3) {
uint8_t len = OSMO_MIN(ie_classmark3->len, sizeof(classmark.classmark3));
memcpy(classmark.classmark3, ie_classmark3->val, len);
classmark.classmark3_len = len;
}
if (ie_current_channel_type_1) {
r->current_channel_type_1 = ie_current_channel_type_1->val[0];
r->current_channel_type_1_present = true;
}
if (ie_speech_version_used) {
r->speech_version_used = ie_speech_version_used->val[0];
}
if (ie_chosen_encr_alg_serving && ie_chosen_encr_alg_serving->len) {
geran_encr.alg_id = ie_chosen_encr_alg_serving->val[0];
r->geran.chosen_encryption = &geran_encr;
}
if (ie_old_bss_to_new_bss_info) {
r->old_bss_to_new_bss_info_raw = ie_old_bss_to_new_bss_info->val;
r->old_bss_to_new_bss_info_raw_len = ie_old_bss_to_new_bss_info->len;
}
if (ie_imsi) {
struct osmo_mobile_identity mi;
if (osmo_mobile_identity_decode(&mi, ie_imsi->val, ie_imsi->len, false)
|| mi.type != GSM_MI_TYPE_IMSI)
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "IE IMSI: cannot decode IMSI identity\n");
else
r->imsi = mi.imsi;
}
if (ie_aoip_transp_addr) {
struct sockaddr_storage rtp_addr;
if (gsm0808_dec_aoip_trasp_addr(&rtp_addr, ie_aoip_transp_addr->val, ie_aoip_transp_addr->len) < 0)
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "unable to decode AoIP transport address\n");
else if (osmo_sockaddr_str_from_sockaddr(&rtp_ran_local, &rtp_addr) < 0)
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "unable to decode remote RTP IP address\n");
else
r->rtp_ran_local = &rtp_ran_local;
}
if (ie_codec_list_msc_preferred
&& gsm0808_dec_speech_codec_list(&scl, ie_codec_list_msc_preferred->val,
ie_codec_list_msc_preferred->len) == 0)
r->codec_list_msc_preferred = &scl;
if (ie_call_id && ie_call_id->len == 4) {
r->call_id = osmo_load32le(ie_call_id->val);
r->call_id_present = true;
}
if (ie_global_call_ref) {
r->global_call_reference = ie_global_call_ref->val;
r->global_call_reference_len = ie_global_call_ref->len;
}
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_handover_request_ack(struct ran_dec *ran_dec, const struct msgb *msg, const struct tlv_parsed *tp)
{
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_HANDOVER_REQUEST_ACK,
.msg_name = "BSSMAP Handover Request Acknowledge",
};
const struct tlv_p_entry *ie_l3_info = TLVP_GET(tp, GSM0808_IE_LAYER_3_INFORMATION);
const struct tlv_p_entry *ie_aoip_transp_addr = TLVP_GET(tp, GSM0808_IE_AOIP_TRASP_ADDR);
const struct tlv_p_entry *ie_speech_codec = TLVP_GET(tp, GSM0808_IE_SPEECH_CODEC);
const struct tlv_p_entry *ie_chosen_channel = TLVP_GET(tp, GSM0808_IE_CHOSEN_CHANNEL);
const struct tlv_p_entry *ie_chosen_encr_alg = TLVP_GET(tp, GSM0808_IE_CHOSEN_ENCR_ALG);
const struct tlv_p_entry *ie_chosen_speech_version = TLVP_GET(tp, GSM0808_IE_SPEECH_VERSION);
/* On missing mandatory IEs, dispatch an invalid RAN_MSG_HANDOVER_REQUEST_ACK so msc_a can act on the failure. */
if (ie_l3_info) {
ran_dec_msg.handover_request_ack.rr_ho_command = ie_l3_info->val;
ran_dec_msg.handover_request_ack.rr_ho_command_len = ie_l3_info->len;
}
if (ie_chosen_channel) {
ran_dec_msg.handover_request_ack.chosen_channel_present = true;
ran_dec_msg.handover_request_ack.chosen_channel = *ie_chosen_channel->val;
}
if (ie_chosen_encr_alg) {
ran_dec_msg.handover_request_ack.chosen_encr_alg = *ie_chosen_encr_alg->val;
if (ran_dec_msg.handover_request_ack.chosen_encr_alg < 1
|| ran_dec_msg.handover_request_ack.chosen_encr_alg > 8) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "invalid Chosen Encryption Algorithm: %u\n",
ran_dec_msg.handover_request_ack.chosen_encr_alg);
}
}
if (ie_chosen_speech_version) {
struct gsm0808_speech_codec sc;
ran_dec_msg.handover_request_ack.chosen_speech_version = ie_chosen_speech_version->val[0];
/* the codec may be extrapolated from this Speech Version or below from Speech Codec */
gsm0808_speech_codec_from_chan_type(&sc, ran_dec_msg.handover_request_ack.chosen_speech_version);
ran_dec_msg.handover_request_ack.codec_present = true;
ran_dec_msg.handover_request_ack.codec = ran_a_mgcp_codec_from_sc(&sc);
}
if (ie_aoip_transp_addr) {
struct sockaddr_storage rtp_addr;
if (gsm0808_dec_aoip_trasp_addr(&rtp_addr, ie_aoip_transp_addr->val, ie_aoip_transp_addr->len) < 0) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "unable to decode AoIP transport address\n");
} else if (osmo_sockaddr_str_from_sockaddr(&ran_dec_msg.handover_request_ack.remote_rtp,
&rtp_addr)) {
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "unable to decode remote RTP IP address\n");
ran_dec_msg.handover_request_ack.remote_rtp = (struct osmo_sockaddr_str){};
}
}
if (ie_speech_codec) {
struct gsm0808_speech_codec sc;
if (gsm0808_dec_speech_codec(&sc, ie_speech_codec->val, ie_speech_codec->len) < 0)
LOG_RAN_A_DEC_MSG(LOGL_ERROR, "unable to decode IE Speech Codec (Chosen)\n");
else {
/* the codec may be extrapolated from above Speech Version or from this Speech Codec */
ran_dec_msg.handover_request_ack.codec_present = true;
ran_dec_msg.handover_request_ack.codec = ran_a_mgcp_codec_from_sc(&sc);
}
}
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_handover_detect(struct ran_dec *ran_dec, const struct msgb *msg, const struct tlv_parsed *tp)
{
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_HANDOVER_DETECT,
.msg_name = "BSSMAP Handover Detect",
};
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_handover_succeeded(struct ran_dec *ran_dec, const struct msgb *msg, const struct tlv_parsed *tp)
{
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_HANDOVER_SUCCEEDED,
.msg_name = "BSSMAP Handover Succeeded",
};
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_handover_complete(struct ran_dec *ran_dec, const struct msgb *msg, const struct tlv_parsed *tp)
{
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_HANDOVER_COMPLETE,
.msg_name = "BSSMAP Handover Complete",
};
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_handover_failure(struct ran_dec *ran_dec, const struct msgb *msg, const struct tlv_parsed *tp)
{
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_HANDOVER_FAILURE,
.msg_name = "BSSMAP Handover Failure",
};
return ran_decoded(ran_dec, &ran_dec_msg);
}
static int ran_a_decode_bssmap(struct ran_dec *ran_dec, struct msgb *bssmap)
{
struct tlv_parsed tp[2];
int rc;
struct bssmap_header *h = msgb_l2(bssmap);
uint8_t msg_type;
bssmap->l3h = bssmap->l2h + sizeof(*h);
if (msgb_l3len(bssmap) < 1) {
LOG_RAN_A_DEC(ran_dec, LOGL_ERROR, "No data received, discarding message\n");
return -1;
}
if (msgb_l3len(bssmap) < h->length) {
LOG_RAN_A_DEC(ran_dec, LOGL_ERROR, "BSSMAP data truncated, discarding message:"
" msgb_l3len(bssmap) == %u < bssmap_header->length == %u\n",
msgb_l3len(bssmap), h->length);
return -1;
}
if (msgb_l3len(bssmap) > h->length) {
LOG_RAN_A_DEC(ran_dec, LOGL_NOTICE, "There are %u extra bytes after the BSSMAP data, truncating:"
" msgb_l3len(bssmap) == %u > bssmap_header->length == %u\n",
msgb_l3len(bssmap) - h->length,
msgb_l3len(bssmap), h->length);
msgb_l3trim(bssmap, h->length);
}
/* h->type == BSSAP_MSG_BSS_MANAGEMENT; h->length is the data length,
* which starts with the MAP msg_type, followed by IEs. */
msg_type = bssmap->l3h[0];
rc = osmo_bssap_tlv_parse2(tp, ARRAY_SIZE(tp), bssmap->l3h + 1, h->length - 1);
if (rc < 0) {
LOG_RAN_A_DEC(ran_dec, LOGL_ERROR, "Failed parsing TLV, discarding message\n");
return -EINVAL;
}
LOG_RAN_A_DEC(ran_dec, LOGL_DEBUG, "%s\n", gsm0808_bssmap_name(msg_type));
switch (msg_type) {
case BSS_MAP_MSG_COMPLETE_LAYER_3:
return ran_a_decode_l3_compl(ran_dec, bssmap, tp);
case BSS_MAP_MSG_CLEAR_RQST:
return ran_a_decode_clear_request(ran_dec, bssmap, tp);
case BSS_MAP_MSG_CLEAR_COMPLETE:
return ran_a_decode_clear_complete(ran_dec, bssmap, tp);
case BSS_MAP_MSG_CLASSMARK_UPDATE:
return ran_a_decode_classmark_update(ran_dec, bssmap, tp);
case BSS_MAP_MSG_CIPHER_MODE_COMPLETE:
return ran_a_decode_cipher_mode_complete(ran_dec, bssmap, tp);
case BSS_MAP_MSG_CIPHER_MODE_REJECT:
return ran_a_decode_cipher_mode_reject(ran_dec, bssmap, tp);
case BSS_MAP_MSG_ASSIGMENT_COMPLETE:
rc = ran_a_decode_assignment_complete(ran_dec, bssmap, tp);
if (rc < 0) {
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_ASSIGNMENT_FAILURE,
.msg_name = "BSSMAP Assignment Complete but failed to decode",
.clear_request = {
.bssap_cause = GSM0808_CAUSE_EQUIPMENT_FAILURE,
},
};
ran_decoded(ran_dec, &ran_dec_msg);
}
return rc;
case BSS_MAP_MSG_ASSIGMENT_FAILURE:
return ran_a_decode_assignment_failure(ran_dec, bssmap, tp);
case BSS_MAP_MSG_SAPI_N_REJECT:
return ran_a_decode_sapi_n_reject(ran_dec, bssmap, tp);
case BSS_MAP_MSG_LCLS_NOTIFICATION:
return ran_a_decode_lcls_notification(ran_dec, bssmap, tp);
/* From current RAN peer, the Handover origin: */
case BSS_MAP_MSG_HANDOVER_REQUIRED:
return ran_a_decode_handover_required(ran_dec, bssmap, tp);
/* From current MSC to remote handover target MSC */
case BSS_MAP_MSG_HANDOVER_RQST:
return ran_a_decode_handover_request(ran_dec, bssmap, tp);
/* From potential new RAN peer, the Handover target: */
case BSS_MAP_MSG_HANDOVER_RQST_ACKNOWLEDGE:
return ran_a_decode_handover_request_ack(ran_dec, bssmap, tp);
case BSS_MAP_MSG_HANDOVER_DETECT:
return ran_a_decode_handover_detect(ran_dec, bssmap, tp);
case BSS_MAP_MSG_HANDOVER_SUCCEEDED:
return ran_a_decode_handover_succeeded(ran_dec, bssmap, tp);
case BSS_MAP_MSG_HANDOVER_COMPLETE:
return ran_a_decode_handover_complete(ran_dec, bssmap, tp);
/* From any Handover peer: */
case BSS_MAP_MSG_HANDOVER_FAILURE:
return ran_a_decode_handover_failure(ran_dec, bssmap, tp);
default:
LOG_RAN_A_DEC(ran_dec, LOGL_ERROR, "Unimplemented msg type: %s\n", gsm0808_bssmap_name(msg_type));
return -EINVAL;
}
return -EINVAL;
}
static int ran_a_decode_l3(struct ran_dec *ran_dec, struct msgb *l3)
{
struct dtap_header *dtap = msgb_l2(l3);
struct ran_msg ran_dec_msg = {
.msg_type = RAN_MSG_DTAP,
.msg_name = "BSSAP DTAP",
.dtap = l3,
};
l3->l3h = l3->l2h + sizeof(struct dtap_header);
OMSC_LINKID_CB(l3) = dtap->link_id;
return ran_decoded(ran_dec, &ran_dec_msg);
}
int ran_a_decode_l2(struct ran_dec *ran_dec, struct msgb *bssap)
{
uint8_t bssap_type;
OSMO_ASSERT(bssap);
if (!msgb_l2(bssap) || !msgb_l2len(bssap)) {
LOG_RAN_A_DEC(ran_dec, LOGL_ERROR, "Cannot decode L2, msg->l2h is unset / empty: %s\n",
msgb_hexdump(bssap));
return -EINVAL;
}
if (msgb_l2len(bssap) < sizeof(struct bssmap_header)) {
LOG_RAN_A_DEC(ran_dec, LOGL_ERROR, "The header is too short -- discarding message\n");
return -EINVAL;
}
bssap_type = bssap->l2h[0];
switch (bssap_type) {
case BSSAP_MSG_BSS_MANAGEMENT:
return ran_a_decode_bssmap(ran_dec, bssap);
case BSSAP_MSG_DTAP:
return ran_a_decode_l3(ran_dec, bssap);
default:
LOG_RAN_A_DEC(ran_dec, LOGL_ERROR, "Unimplemented BSSAP msg type: %s\n", gsm0808_bssap_name(bssap_type));
return -EINVAL;
}
}
static struct msgb *ran_a_wrap_dtap(struct msgb *dtap)
{
struct msgb *an_apdu;
dtap->l3h = dtap->data;
an_apdu = gsm0808_create_dtap(dtap, OMSC_LINKID_CB(dtap));
an_apdu->l2h = an_apdu->data;
msgb_free(dtap);
return an_apdu;
}
static int ran_a_channel_type_to_speech_codec_list(struct gsm0808_speech_codec_list *scl, const struct gsm0808_channel_type *ct)
{
unsigned int i;
int rc;
memset(scl, 0, sizeof(*scl));
for (i = 0; i < ct->perm_spch_len; i++) {
rc = gsm0808_speech_codec_from_chan_type(&scl->codec[i], ct->perm_spch[i]);
if (rc != 0)
return -EINVAL;
}
scl->len = i;
return 0;
}
static void _gsm0808_assignment_extend_osmux(struct msgb *msg, uint8_t cid)
{
OSMO_ASSERT(msg->l3h[1] == msgb_l3len(msg) - 2); /*TL not in len */
msgb_tv_put(msg, GSM0808_IE_OSMO_OSMUX_CID, cid);
msg->l3h[1] = msgb_l3len(msg) - 2;
}
/* Compose a BSSAP Assignment Command.
* Passing an RTP address is optional.
* The msub is passed merely for error logging. */
static struct msgb *ran_a_make_assignment_command(struct osmo_fsm_inst *log_fi,
const struct ran_assignment_command *ac)
{
struct gsm0808_speech_codec_list scl;
struct gsm0808_speech_codec_list *use_scl = NULL;
struct sockaddr_storage rtp_addr;
struct sockaddr_storage *use_rtp_addr = NULL;
struct msgb *msg;
const uint32_t *call_id = NULL;
int rc;
if (!ac->channel_type) {
LOG_RAN_A_ENC(log_fi, LOGL_ERROR, "Assignment Command: missing Channel Type\n");
return NULL;
}
if (ac->channel_type->ch_indctr == GSM0808_CHAN_SPEECH) {
rc = ran_a_channel_type_to_speech_codec_list(&scl, ac->channel_type);
if (rc < 0) {
LOG_RAN_A_ENC(log_fi, LOGL_ERROR, "Assignment Command: Cannot translate Channel Type to Speech Codec List\n");
return NULL;
}
use_scl = &scl;
/* Package RTP-Address data */
if (osmo_sockaddr_str_is_nonzero(ac->cn_rtp)) {
struct sockaddr_in *sin;
struct sockaddr_in6 *sin6;
int family = osmo_ip_str_type(ac->cn_rtp->ip);
switch (family) {
case AF_INET:
sin = (struct sockaddr_in *)&rtp_addr;
sin->sin_family = AF_INET;
sin->sin_port = osmo_htons(ac->cn_rtp->port);
if (inet_pton(AF_INET, ac->cn_rtp->ip, &sin->sin_addr) != 1) {
LOG_RAN_A_ENC(log_fi, LOGL_ERROR,
"Assignment Command: Invalid RTP-Address %s\n",
ac->cn_rtp->ip);
return NULL;
}
if (sin->sin_port == 0) {
LOG_RAN_A_ENC(log_fi, LOGL_ERROR,
"Assignment Command: Invalid RTP-Port\n");
return NULL;
}
break;
case AF_INET6:
sin6 = (struct sockaddr_in6 *)&rtp_addr;
sin6->sin6_family = AF_INET6;
sin6->sin6_port = osmo_htons(ac->cn_rtp->port);
if (inet_pton(AF_INET6, ac->cn_rtp->ip, &sin6->sin6_addr) != 1) {
LOG_RAN_A_ENC(log_fi, LOGL_ERROR,
"Assignment Command: Invalid RTP-Address %s\n",
ac->cn_rtp->ip);
return NULL;
}
if (sin6->sin6_port == 0) {
LOG_RAN_A_ENC(log_fi, LOGL_ERROR,
"Assignment Command: Invalid RTP-Port\n");
return NULL;
}
break;
default:
LOG_RAN_A_ENC(log_fi, LOGL_ERROR,
"Assignment Command: Invalid RTP-Address type for %s\n",
ac->cn_rtp->ip);
return NULL;
}
use_rtp_addr = &rtp_addr;
}
}
if(ac->call_id_present == true)
call_id = &ac->call_id;
msg = gsm0808_create_ass2(ac->channel_type, NULL, use_rtp_addr, use_scl, call_id,
NULL, ac->lcls);
if (ac->osmux_present)
_gsm0808_assignment_extend_osmux(msg, ac->osmux_cid);
return msg;
}
/* For an A5/N number a5_n set dst to the matching GSM0808_ALG_ID_A5_<n>. */
static int a5_n_to_gsm0808_chosen_enc_alg(uint8_t *dst, int a5_n)
{
switch (a5_n) {
case 0:
*dst = GSM0808_ALG_ID_A5_0;
return 0;
case 1:
*dst = GSM0808_ALG_ID_A5_1;
return 0;
case 2:
*dst = GSM0808_ALG_ID_A5_2;
return 0;
case 3:
*dst = GSM0808_ALG_ID_A5_3;
return 0;
case 4:
*dst = GSM0808_ALG_ID_A5_4;
return 0;
default:
return -ENOTSUP;
}
}
static int make_encrypt_info_perm_algo(struct osmo_fsm_inst *fi, struct gsm0808_encrypt_info *ei,
uint8_t a5_encryption_mask, const struct osmo_gsm48_classmark *cm)
{
int i;
int j = 0;
for (i = 0; i < 8; i++) {
int supported;
/* A5/n permitted by osmo-msc.cfg? */
if (!(a5_encryption_mask & (1 << i)))
continue;
/* A5/n supported by MS? */
supported = osmo_gsm48_classmark_supports_a5(cm, i);
if (supported != 1)
continue;
if (a5_n_to_gsm0808_chosen_enc_alg(&ei->perm_algo[j], i)) {
LOG_RAN_A_ENC(fi, LOGL_ERROR, "Not supported: A5/%d algorithm\n", i);
return -1;
}
j++;
ei->perm_algo_len = j;
}
return 0;
}
/* For ran_a_make_cipher_mode_command(), for
* memcpy(ei.key, cm->vec->kc, sizeof(cm->vec->kc));
*/
osmo_static_assert(sizeof(((struct gsm0808_encrypt_info*)0)->key) >= sizeof(((struct osmo_auth_vector*)0)->kc),
gsm0808_encrypt_info_key_fits_osmo_auth_vec_kc);
static struct msgb *ran_a_make_cipher_mode_command(struct osmo_fsm_inst *fi, const struct ran_cipher_mode_command *cm)
{
struct gsm0808_cipher_mode_command cmc = {
.cipher_response_mode_present = true,
.cipher_response_mode = 1, /* 1: include IMEISV (3GPP TS 48.008 3.2.2.34) */
};
struct gsm0808_encrypt_info *ei = &cmc.ei;
char buf[16 * 2 + 1];
if (make_encrypt_info_perm_algo(fi, ei, cm->geran.a5_encryption_mask, cm->classmark))
return NULL;
if (ei->perm_algo_len == 0) {
LOG_RAN_A_ENC(fi, LOGL_ERROR, "cannot start ciphering, no intersection between MSC-configured"
" and MS-supported A5 algorithms. MSC: 0x%02x MS: %s\n",
cm->geran.a5_encryption_mask, osmo_gsm48_classmark_a5_name(cm->classmark));
return NULL;
}
/* In case of UMTS AKA, the Kc for ciphering must be derived from the 3G auth
* tokens. vec->kc was calculated from the GSM algorithm and is not
* necessarily a match for the UMTS AKA tokens. */
if (cm->geran.umts_aka) {
int i;
osmo_auth_c3(ei->key, cm->vec->ck, cm->vec->ik);
for (i = 0; i < ei->perm_algo_len; i++) {
if (ei->perm_algo[i] != GSM0808_ALG_ID_A5_4)
continue;
/* A5/4 is included, so need to generate Kc128 */
osmo_kdf_kc128(cm->vec->ck, cm->vec->ik, cmc.kc128);
cmc.kc128_present = true;
break;
}
} else {
memcpy(ei->key, cm->vec->kc, sizeof(cm->vec->kc));
}
ei->key_len = sizeof(cm->vec->kc);
/* Store chosen GERAN key where the caller asked it to be stored.
* alg_id remains unknown until we receive a Cipher Mode Complete from the BSC */
if (cm->geran.chosen_key) {
*cm->geran.chosen_key = (struct geran_encr){0};
if (ei->key_len > sizeof(cm->geran.chosen_key->key)) {
LOG_RAN_A_ENC(fi, LOGL_ERROR, "Chosen key is larger than I can store\n");
return NULL;
}
memcpy(cm->geran.chosen_key->key, ei->key, ei->key_len);
cm->geran.chosen_key->key_len = ei->key_len;
if (cmc.kc128_present) {
memcpy(cm->geran.chosen_key->kc128, cmc.kc128, 16);
cm->geran.chosen_key->kc128_present = true;
}
}
LOG_RAN_A_ENC(fi, LOGL_DEBUG, "Tx BSSMAP CIPHER MODE COMMAND to BSC, %u ciphers (%s) key %s\n",
ei->perm_algo_len, osmo_hexdump_nospc(ei->perm_algo, ei->perm_algo_len),
osmo_hexdump_buf(buf, sizeof(buf), ei->key, ei->key_len, NULL, false));
return gsm0808_create_cipher2(&cmc);
}
struct msgb *ran_a_make_handover_request(struct osmo_fsm_inst *log_fi, const struct ran_handover_request *n)
{
struct sockaddr_storage ss;
struct gsm0808_handover_request r = {
.cell_identifier_serving = n->cell_id_serving,
.cell_identifier_target = n->cell_id_target,
.cause = n->bssap_cause,
.current_channel_type_1_present = n->current_channel_type_1_present,
.current_channel_type_1 = n->current_channel_type_1,
.speech_version_used = n->speech_version_used,
.old_bss_to_new_bss_info_raw = n->old_bss_to_new_bss_info_raw,
.old_bss_to_new_bss_info_raw_len = n->old_bss_to_new_bss_info_raw_len,
.imsi = n->imsi,
.codec_list_msc_preferred = n->codec_list_msc_preferred,
.call_id_present = n->call_id_present,
.call_id = n->call_id,
.global_call_reference = n->global_call_reference,
.global_call_reference_len = n->global_call_reference_len,
};
if (!n->geran.channel_type) {
LOG_RAN_A_ENC(log_fi, LOGL_ERROR, "Channel Type required for encoding Handover Request in BSSAP\n");
return NULL;
}
r.channel_type = *n->geran.channel_type;
/* Encryption Information */
make_encrypt_info_perm_algo(log_fi, &r.encryption_information, n->geran.a5_encryption_mask, n->classmark);
if (n->geran.chosen_encryption && n->geran.chosen_encryption->key_len) {
/* Prevent both source / destination buffer overrun / overflow */
if (n->geran.chosen_encryption->key_len > sizeof(r.encryption_information.key)
|| n->geran.chosen_encryption->key_len > sizeof(n->geran.chosen_encryption->key)) {
LOG_RAN_A_ENC(log_fi, LOGL_ERROR, "Handover Request: invalid chosen encryption key size %u\n",
n->geran.chosen_encryption->key_len);
return NULL;
}
memcpy(r.encryption_information.key,
n->geran.chosen_encryption->key, n->geran.chosen_encryption->key_len);
r.encryption_information.key_len = n->geran.chosen_encryption->key_len;
r.chosen_encryption_algorithm_serving = n->geran.chosen_encryption->alg_id;
if (n->geran.chosen_encryption->kc128_present) {
r.more_items = true;
memcpy(r.kc128, n->geran.chosen_encryption->kc128, sizeof(r.kc128));
r.kc128_present = true;
}
}
if (n->classmark)
r.classmark_information = *n->classmark;
if (osmo_sockaddr_str_is_nonzero(n->rtp_ran_local)) {
if (osmo_sockaddr_str_to_sockaddr(n->rtp_ran_local, &ss)) {
LOG_RAN_A_ENC(log_fi, LOGL_ERROR,
"Handover Request: invalid AoIP Transport Layer address/port: "
OSMO_SOCKADDR_STR_FMT "\n", OSMO_SOCKADDR_STR_FMT_ARGS(n->rtp_ran_local));
return NULL;
}
r.aoip_transport_layer = &ss;
}
return gsm0808_create_handover_request(&r);
}
static struct msgb *ran_a_make_handover_request_ack(struct osmo_fsm_inst *caller_fi, const struct ran_handover_request_ack *r)
{
struct sockaddr_storage ss;
struct gsm0808_handover_request_ack params = {
.l3_info = r->rr_ho_command,
.l3_info_len = r->rr_ho_command_len,
.chosen_channel_present = r->chosen_channel_present,
.chosen_channel = r->chosen_channel,
.chosen_encr_alg = r->chosen_encr_alg,
.chosen_speech_version = r->chosen_speech_version,
};
if (osmo_sockaddr_str_is_nonzero(&r->remote_rtp)) {
osmo_sockaddr_str_to_sockaddr(&r->remote_rtp, &ss);
params.aoip_transport_layer = &ss;
}
return gsm0808_create_handover_request_ack2(&params);
}
struct msgb *ran_a_make_handover_command(struct osmo_fsm_inst *log_fi, const struct ran_handover_command *n)
{
struct gsm0808_handover_command c = {
.l3_info = n->rr_ho_command,
.l3_info_len = n->rr_ho_command_len,
};
return gsm0808_create_handover_command(&c);
}
struct msgb *ran_a_make_handover_failure(struct osmo_fsm_inst *log_fi, const struct ran_msg *msg)
{
struct gsm0808_handover_failure params = {
.cause = msg->handover_failure.cause,
};
return gsm0808_create_handover_failure(&params);
}
static struct msgb *_ran_a_encode(struct osmo_fsm_inst *caller_fi, const struct ran_msg *ran_enc_msg)
{
LOG_RAN_A_ENC(caller_fi, LOGL_DEBUG, "%s\n", ran_msg_type_name(ran_enc_msg->msg_type));
switch (ran_enc_msg->msg_type) {
case RAN_MSG_DTAP:
return ran_a_wrap_dtap(ran_enc_msg->dtap);
case RAN_MSG_CLASSMARK_REQUEST:
return gsm0808_create_classmark_request();
case RAN_MSG_CLEAR_COMMAND:
return gsm0808_create_clear_command2(ran_enc_msg->clear_command.gsm0808_cause,
ran_enc_msg->clear_command.csfb_ind);
case RAN_MSG_ASSIGNMENT_COMMAND:
return ran_a_make_assignment_command(caller_fi, &ran_enc_msg->assignment_command);
case RAN_MSG_COMMON_ID:
return gsm0808_create_common_id(ran_enc_msg->common_id.imsi, NULL,
ran_enc_msg->common_id.last_eutran_plmn_present ?
&ran_enc_msg->common_id.last_eutran_plmn :
NULL
);
case RAN_MSG_CIPHER_MODE_COMMAND:
return ran_a_make_cipher_mode_command(caller_fi, &ran_enc_msg->cipher_mode_command);
case RAN_MSG_HANDOVER_REQUIRED_REJECT:
return gsm0808_create_handover_required_reject(&ran_enc_msg->handover_required_reject);
case RAN_MSG_HANDOVER_REQUEST:
return ran_a_make_handover_request(caller_fi, &ran_enc_msg->handover_request);
case RAN_MSG_HANDOVER_REQUEST_ACK:
return ran_a_make_handover_request_ack(caller_fi, &ran_enc_msg->handover_request_ack);
case RAN_MSG_HANDOVER_COMMAND:
return ran_a_make_handover_command(caller_fi, &ran_enc_msg->handover_command);
case RAN_MSG_HANDOVER_SUCCEEDED:
return gsm0808_create_handover_succeeded();
case RAN_MSG_HANDOVER_FAILURE:
return ran_a_make_handover_failure(caller_fi, ran_enc_msg);
default:
LOG_RAN_A_ENC(caller_fi, LOGL_ERROR, "Unimplemented RAN-encode message type: %s\n",
ran_msg_type_name(ran_enc_msg->msg_type));
return NULL;
}
}
struct msgb *ran_a_encode(struct osmo_fsm_inst *caller_fi, const struct ran_msg *ran_enc_msg)
{
struct msgb *msg = _ran_a_encode(caller_fi, ran_enc_msg);
if (!msg)
return NULL;
msg->l2h = msg->data;
/* some consistency checks to ensure we don't send invalid length */
switch (msg->l2h[0]) {
case BSSAP_MSG_DTAP:
OSMO_ASSERT(msgb_l2len(msg) == msg->l2h[2] + 3);
break;
case BSSAP_MSG_BSS_MANAGEMENT:
OSMO_ASSERT(msgb_l2len(msg) == msg->l2h[1] + 2);
break;
default:
break;
}
return msg;
}
static void cl_parse_osmux(struct osmo_fsm_inst *log_fi, struct msgb *msg, int *supports_osmux)
{
struct tlv_parsed tp;
int rc;
if (supports_osmux == NULL)
return;
rc = tlv_parse(&tp, gsm0808_att_tlvdef(), msgb_l3(msg) + 1, msgb_l3len(msg) - 1, 0, 0);
if (rc < 0) {
LOGPFSMSL(log_fi, DBSSAP, LOGL_ERROR, "BSSMAP: Failed parsing TLV looking for Osmux support\n");
return;
}
if (TLVP_PRESENT(&tp, GSM0808_IE_OSMO_OSMUX_SUPPORT)) {
*supports_osmux = true;
} else {
*supports_osmux = false;
}
}
/* Return 1 for a RESET, 2 for a RESET ACK message, 0 otherwise.
* In supports_osmux, return 0 for no information, 1 for support detected, -1 for non-support detected. */
enum reset_msg_type bssmap_is_reset_msg(const struct sccp_ran_inst *sri, struct osmo_fsm_inst *log_fi,
struct msgb *l2, int *supports_osmux)
{
struct bssmap_header *bs = (struct bssmap_header *)msgb_l2(l2);
if (supports_osmux != NULL)
*supports_osmux = 0;
if (!bs
|| msgb_l2len(l2) < (sizeof(*bs) + 1)
|| bs->type != BSSAP_MSG_BSS_MANAGEMENT)
return SCCP_RAN_MSG_NON_RESET;
l2->l3h = l2->l2h + sizeof(struct bssmap_header);
switch (l2->l3h[0]) {
case BSS_MAP_MSG_RESET:
cl_parse_osmux(log_fi, l2, supports_osmux);
return SCCP_RAN_MSG_RESET;
case BSS_MAP_MSG_RESET_ACKNOWLEDGE:
cl_parse_osmux(log_fi, l2, supports_osmux);
return SCCP_RAN_MSG_RESET_ACK;
default:
return SCCP_RAN_MSG_NON_RESET;
}
}
/* Patch regular BSSMAP RESET to add extra T to announce Osmux support (osmocom extension) */
static void _gsm0808_extend_announce_osmux(struct msgb *msg)
{
OSMO_ASSERT(msg->l3h[1] == msgb_l3len(msg) - 2); /*TL not in len */
msgb_put_u8(msg, GSM0808_IE_OSMO_OSMUX_SUPPORT);
msg->l3h[1] = msgb_l3len(msg) - 2;
}
struct msgb *bssmap_make_reset_msg(const struct sccp_ran_inst *sri, enum reset_msg_type type)
{
struct gsm_network *net = sri->user_data;
struct msgb *msg;
switch (type) {
case SCCP_RAN_MSG_RESET:
msg = gsm0808_create_reset();
break;
case SCCP_RAN_MSG_RESET_ACK:
msg = gsm0808_create_reset_ack();
break;
default:
return NULL;
}
if (!msg)
return NULL;
if (net->use_osmux != OSMUX_USAGE_OFF)
_gsm0808_extend_announce_osmux(msg);
return msg;
}
struct msgb *bssmap_make_paging_msg(const struct sccp_ran_inst *sri, const struct gsm0808_cell_id *page_cell_id,
const char *imsi, uint32_t tmsi, enum paging_cause cause)
{
struct gsm0808_cell_id_list2 cil;
gsm0808_cell_id_to_list(&cil, page_cell_id);
return gsm0808_create_paging2(imsi, tmsi == GSM_RESERVED_TMSI ? NULL : &tmsi, &cil, NULL);
}
const char *bssmap_msg_name(const struct sccp_ran_inst *sri, const struct msgb *l2)
{
struct bssmap_header *bs;
if (!l2->l2h)
return "?";
bs = (struct bssmap_header *)msgb_l2(l2);
switch (bs->type) {
case BSSAP_MSG_BSS_MANAGEMENT:
return gsm0808_bssmap_name(l2->l2h[0]);
case BSSAP_MSG_DTAP:
return "DTAP";
default:
return "?";
}
}
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