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|
/* packet-pdcp-nr.c
* Routines for nr PDCP
*
* Martin Mathieson
*
* Wireshark - Network traffic analyzer
* By Gerald Combs <gerald@wireshark.org>
* Copyright 1998 Gerald Combs
*
* SPDX-License-Identifier: GPL-2.0-or-later
*/
#include "config.h"
#include <epan/packet.h>
#include <epan/prefs.h>
#include <epan/expert.h>
#include <epan/uat.h>
#include <epan/proto_data.h>
#include <wsutil/wsgcrypt.h>
#include <wsutil/report_message.h>
/* Define these symbols if you have working implementations of SNOW3G/ZUC f8() and f9() available.
Note that the use of these algorithms is restricted, so a version of Wireshark with these
ciphering algorithms enabled would not be distributable. */
/* #define HAVE_SNOW3G */
/* #define HAVE_ZUC */
#include "packet-rlc-nr.h"
#include "packet-pdcp-nr.h"
void proto_register_pdcp_nr(void);
void proto_reg_handoff_pdcp_nr(void);
/* Described in:
* 3GPP TS 38.323 Technical Specification Group Radio Access Netowrk; NR;
* Packet Data Convergence Protocol (PDCP) specification (Release 15.1.0)
* 3GPP TS 37.324 Technical Specification Group Radio Access Network; E-UTRA and NR;
* Service Data Adaptation Protocol (SDAP) specification (Release 15)
*/
/* TODO:
- look into refactoring/sharing parts of deciphering/integrity with LTE implementation
*/
/* Initialize the protocol and registered fields. */
int proto_pdcp_nr;
extern int proto_rlc_nr;
/* Configuration (info known outside of PDU) */
static int hf_pdcp_nr_configuration;
static int hf_pdcp_nr_direction;
static int hf_pdcp_nr_ueid;
static int hf_pdcp_nr_bearer_type;
static int hf_pdcp_nr_bearer_id;
static int hf_pdcp_nr_plane;
static int hf_pdcp_nr_seqnum_length;
static int hf_pdcp_nr_maci_present;
static int hf_pdcp_nr_sdap;
static int hf_pdcp_nr_ciphering_disabled;
static int hf_pdcp_nr_rohc_compression;
static int hf_pdcp_nr_rohc_mode;
static int hf_pdcp_nr_rohc_rnd;
static int hf_pdcp_nr_rohc_udp_checksum_present;
static int hf_pdcp_nr_rohc_profile;
static int hf_pdcp_nr_cid_inclusion_info;
static int hf_pdcp_nr_large_cid_present;
/* PDCP header fields */
static int hf_pdcp_nr_control_plane_reserved;
static int hf_pdcp_nr_reserved3;
static int hf_pdcp_nr_seq_num_12;
static int hf_pdcp_nr_reserved5;
static int hf_pdcp_nr_seq_num_18;
static int hf_pdcp_nr_signalling_data;
static int hf_pdcp_nr_mac;
static int hf_pdcp_nr_data_control;
static int hf_pdcp_nr_user_plane_data;
static int hf_pdcp_nr_control_pdu_type;
static int hf_pdcp_nr_fmc;
static int hf_pdcp_nr_reserved4;
static int hf_pdcp_nr_bitmap;
static int hf_pdcp_nr_bitmap_byte;
/* Sequence Analysis */
static int hf_pdcp_nr_sequence_analysis;
static int hf_pdcp_nr_sequence_analysis_ok;
static int hf_pdcp_nr_sequence_analysis_previous_frame;
static int hf_pdcp_nr_sequence_analysis_next_frame;
static int hf_pdcp_nr_sequence_analysis_expected_sn;
static int hf_pdcp_nr_sequence_analysis_repeated;
static int hf_pdcp_nr_sequence_analysis_skipped;
/* Security Settings */
static int hf_pdcp_nr_security;
static int hf_pdcp_nr_security_setup_frame;
static int hf_pdcp_nr_security_integrity_algorithm;
static int hf_pdcp_nr_security_ciphering_algorithm;
static int hf_pdcp_nr_security_bearer;
static int hf_pdcp_nr_security_direction;
static int hf_pdcp_nr_security_count;
static int hf_pdcp_nr_security_cipher_key;
static int hf_pdcp_nr_security_integrity_key;
static int hf_pdcp_nr_security_cipher_key_setup_frame;
static int hf_pdcp_nr_security_integrity_key_setup_frame;
static int hf_pdcp_nr_security_deciphered_data;
static int hf_pdcp_nr_security_integrity_data;
/* Protocol subtree. */
static int ett_pdcp;
static int ett_pdcp_configuration;
static int ett_pdcp_packet;
static int ett_pdcp_nr_sequence_analysis;
static int ett_pdcp_report_bitmap;
static int ett_pdcp_security;
static expert_field ei_pdcp_nr_sequence_analysis_wrong_sequence_number_ul;
static expert_field ei_pdcp_nr_sequence_analysis_wrong_sequence_number_dl;
static expert_field ei_pdcp_nr_reserved_bits_not_zero;
static expert_field ei_pdcp_nr_sequence_analysis_sn_repeated_ul;
static expert_field ei_pdcp_nr_sequence_analysis_sn_repeated_dl;
static expert_field ei_pdcp_nr_sequence_analysis_sn_missing_ul;
static expert_field ei_pdcp_nr_sequence_analysis_sn_missing_dl;
static expert_field ei_pdcp_nr_digest_wrong;
static expert_field ei_pdcp_nr_unknown_udp_framing_tag;
static expert_field ei_pdcp_nr_missing_udp_framing_tag;
/*-------------------------------------
* UAT for UE Keys
*-------------------------------------
*/
/* UAT entry structure. */
typedef struct {
uint32_t ueid;
char *rrcCipherKeyString;
char *upCipherKeyString;
char *rrcIntegrityKeyString;
char *upIntegrityKeyString;
uint8_t rrcCipherBinaryKey[16];
bool rrcCipherKeyOK;
uint8_t upCipherBinaryKey[16];
bool upCipherKeyOK;
uint8_t rrcIntegrityBinaryKey[16];
bool rrcIntegrityKeyOK;
uint8_t upIntegrityBinaryKey[16];
bool upIntegrityKeyOK;
} uat_ue_keys_record_t;
/* N.B. this is an array/table of the struct above, where ueid is the key */
static uat_ue_keys_record_t *uat_ue_keys_records;
/* Entries added by UAT */
static uat_t * ue_keys_uat;
static unsigned num_ue_keys_uat;
/* Convert an ascii hex character into a digit. Should only be given valid
hex ascii characters */
static unsigned char hex_ascii_to_binary(char c)
{
if ((c >= '0') && (c <= '9')) {
return c - '0';
}
else if ((c >= 'a') && (c <= 'f')) {
return 10 + c - 'a';
}
else if ((c >= 'A') && (c <= 'F')) {
return 10 + c - 'A';
}
else {
return 0;
}
}
static void* uat_ue_keys_record_copy_cb(void* n, const void* o, size_t siz _U_) {
uat_ue_keys_record_t* new_rec = (uat_ue_keys_record_t *)n;
const uat_ue_keys_record_t* old_rec = (const uat_ue_keys_record_t *)o;
new_rec->ueid = old_rec->ueid;
new_rec->rrcCipherKeyString = g_strdup(old_rec->rrcCipherKeyString);
new_rec->upCipherKeyString = g_strdup(old_rec->upCipherKeyString);
new_rec->rrcIntegrityKeyString = g_strdup(old_rec->rrcIntegrityKeyString);
new_rec->upIntegrityKeyString = g_strdup(old_rec->upIntegrityKeyString);
return new_rec;
}
/* If raw_string is a valid key, set check_string & return true. Can be spaced out with ' ' or '-' */
static bool check_valid_key_string(const char* raw_string, char* checked_string, char **error)
{
unsigned n;
unsigned written = 0;
unsigned length = (int)strlen(raw_string);
/* Can't be valid if not long enough. */
if (length < 32) {
if (length > 0) {
*error = ws_strdup_printf("PDCP NR: Invalid key string (%s) - should include 32 ASCII hex characters (16 bytes) but only %u chars given",
raw_string, length);
}
return false;
}
for (n=0; (n < length) && (written < 32); n++) {
char c = raw_string[n];
/* Skipping past allowed 'padding' characters */
if ((c == ' ') || (c == '-')) {
continue;
}
/* Other characters must be hex digits, otherwise string is invalid */
if (((c >= '0') && (c <= '9')) ||
((c >= 'a') && (c <= 'f')) ||
((c >= 'A') && (c <= 'F'))) {
checked_string[written++] = c;
}
else {
*error = ws_strdup_printf("PDCP-NR: Invalid char '%c' given in key", c);
return false;
}
}
/* Must have found exactly 32 hex ascii chars for 16-byte key */
if (n<length) {
*error = ws_strdup_printf("PDCP-NR: Key (%s) should contain 32 hex characters (16 bytes) but more detected", raw_string);
return false;
}
if (written != 32) {
*error = ws_strdup_printf("PDCP-NR: Key (%s) should contain 32 hex characters (16 bytes) but %u detected", raw_string, written);
return false;
}
else {
return true;
}
}
/* Write binary key by converting each nibble from the string version */
static void update_key_from_string(const char *stringKey, uint8_t *binaryKey, bool *pKeyOK, char **error)
{
int n;
char cleanString[32];
if (!check_valid_key_string(stringKey, cleanString, error)) {
*pKeyOK = false;
}
else {
for (n=0; n < 32; n += 2) {
binaryKey[n/2] = (hex_ascii_to_binary(cleanString[n]) << 4) +
hex_ascii_to_binary(cleanString[n+1]);
}
*pKeyOK = true;
}
}
/* Update by checking whether the 3 key strings are valid or not, and storing result */
static bool uat_ue_keys_record_update_cb(void* record, char** error) {
uat_ue_keys_record_t* rec = (uat_ue_keys_record_t *)record;
/* Check and convert RRC cipher key */
update_key_from_string(rec->rrcCipherKeyString, rec->rrcCipherBinaryKey, &rec->rrcCipherKeyOK, error);
/* Check and convert User-plane cipher key */
update_key_from_string(rec->upCipherKeyString, rec->upCipherBinaryKey, &rec->upCipherKeyOK, error);
/* Check and convert RRC Integrity key */
update_key_from_string(rec->rrcIntegrityKeyString, rec->rrcIntegrityBinaryKey, &rec->rrcIntegrityKeyOK, error);
/* Check and convert User-plane Integrity key */
update_key_from_string(rec->upIntegrityKeyString, rec->upIntegrityBinaryKey, &rec->upIntegrityKeyOK, error);
/* Return true only if *error has not been set by checking code. */
return *error == NULL;
}
/* Free heap parts of record */
static void uat_ue_keys_record_free_cb(void*r) {
uat_ue_keys_record_t* rec = (uat_ue_keys_record_t*)r;
g_free(rec->rrcCipherKeyString);
g_free(rec->upCipherKeyString);
g_free(rec->rrcIntegrityKeyString);
g_free(rec->upIntegrityKeyString);
}
UAT_DEC_CB_DEF(uat_ue_keys_records, ueid, uat_ue_keys_record_t)
UAT_CSTRING_CB_DEF(uat_ue_keys_records, rrcCipherKeyString, uat_ue_keys_record_t)
UAT_CSTRING_CB_DEF(uat_ue_keys_records, upCipherKeyString, uat_ue_keys_record_t)
UAT_CSTRING_CB_DEF(uat_ue_keys_records, rrcIntegrityKeyString, uat_ue_keys_record_t)
UAT_CSTRING_CB_DEF(uat_ue_keys_records, upIntegrityKeyString, uat_ue_keys_record_t)
/* Also supporting a hash table with entries from these functions */
/* Table from ueid -> ue_key_entries_t* */
static wmem_map_t *pdcp_security_key_hash;
typedef enum {
rrc_cipher,
rrc_integrity,
up_cipher,
up_integrity
} ue_key_type_t;
typedef struct {
ue_key_type_t key_type;
char *keyString;
uint8_t binaryKey[16];
bool keyOK;
uint32_t setup_frame;
} key_entry_t;
/* List of key entries for an individual UE */
typedef struct {
#define MAX_KEY_ENTRIES_PER_UE 32
unsigned num_entries_set;
key_entry_t entries[MAX_KEY_ENTRIES_PER_UE];
} ue_key_entries_t;
void set_pdcp_nr_rrc_ciphering_key(uint16_t ueid, const char *key, uint32_t frame_num)
{
char *err = NULL;
/* Get or create struct for this UE */
ue_key_entries_t *key_entries = (ue_key_entries_t*)wmem_map_lookup(pdcp_security_key_hash,
GUINT_TO_POINTER((unsigned)ueid));
if (key_entries == NULL) {
/* Create and add to table */
key_entries = wmem_new0(wmem_file_scope(), ue_key_entries_t);
wmem_map_insert(pdcp_security_key_hash, GUINT_TO_POINTER((unsigned)ueid), key_entries);
}
if (key_entries->num_entries_set == MAX_KEY_ENTRIES_PER_UE) {
/* No more room.. */
return;
}
key_entry_t *new_key_entry = &key_entries->entries[key_entries->num_entries_set++];
new_key_entry->key_type = rrc_cipher;
new_key_entry->keyString = g_strdup(key);
new_key_entry->setup_frame = frame_num;
update_key_from_string(new_key_entry->keyString, new_key_entry->binaryKey, &new_key_entry->keyOK, &err);
if (err) {
report_failure("%s: (RRC Ciphering Key)", err);
g_free(err);
}
}
void set_pdcp_nr_rrc_integrity_key(uint16_t ueid, const char *key, uint32_t frame_num)
{
char *err = NULL;
/* Get or create struct for this UE */
ue_key_entries_t *key_entries = (ue_key_entries_t*)wmem_map_lookup(pdcp_security_key_hash,
GUINT_TO_POINTER((unsigned)ueid));
if (key_entries == NULL) {
/* Create and add to table */
key_entries = wmem_new0(wmem_file_scope(), ue_key_entries_t);
wmem_map_insert(pdcp_security_key_hash, GUINT_TO_POINTER((unsigned)ueid), key_entries);
}
if (key_entries->num_entries_set == MAX_KEY_ENTRIES_PER_UE) {
/* No more room.. */
return;
}
key_entry_t *new_key_entry = &key_entries->entries[key_entries->num_entries_set++];
new_key_entry->key_type = rrc_integrity;
new_key_entry->keyString = g_strdup(key);
new_key_entry->setup_frame = frame_num;
update_key_from_string(new_key_entry->keyString, new_key_entry->binaryKey, &new_key_entry->keyOK, &err);
if (err) {
report_failure("%s: (RRC Integrity Key)", err);
g_free(err);
}
}
void set_pdcp_nr_up_ciphering_key(uint16_t ueid, const char *key, uint32_t frame_num)
{
char *err = NULL;
/* Get or create struct for this UE */
ue_key_entries_t *key_entries = (ue_key_entries_t*)wmem_map_lookup(pdcp_security_key_hash,
GUINT_TO_POINTER((unsigned)ueid));
if (key_entries == NULL) {
/* Create and add to table */
key_entries = wmem_new0(wmem_file_scope(), ue_key_entries_t);
wmem_map_insert(pdcp_security_key_hash, GUINT_TO_POINTER((unsigned)ueid), key_entries);
}
if (key_entries->num_entries_set == MAX_KEY_ENTRIES_PER_UE) {
/* No more room.. */
return;
}
key_entry_t *new_key_entry = &key_entries->entries[key_entries->num_entries_set++];
new_key_entry->key_type = up_cipher;
new_key_entry->keyString = g_strdup(key);
new_key_entry->setup_frame = frame_num;
update_key_from_string(new_key_entry->keyString, new_key_entry->binaryKey, &new_key_entry->keyOK, &err);
if (err) {
report_failure("%s: (UP Cipher Key)", err);
g_free(err);
}
}
void set_pdcp_nr_up_integrity_key(uint16_t ueid, const char *key, uint32_t frame_num)
{
char *err = NULL;
/* Get or create struct for this UE */
ue_key_entries_t *key_entries = (ue_key_entries_t*)wmem_map_lookup(pdcp_security_key_hash,
GUINT_TO_POINTER((unsigned)ueid));
if (key_entries == NULL) {
/* Create and add to table */
key_entries = wmem_new0(wmem_file_scope(), ue_key_entries_t);
wmem_map_insert(pdcp_security_key_hash, GUINT_TO_POINTER((unsigned)ueid), key_entries);
}
if (key_entries->num_entries_set == MAX_KEY_ENTRIES_PER_UE) {
/* No more room.. */
return;
}
key_entry_t *new_key_entry = &key_entries->entries[key_entries->num_entries_set++];
new_key_entry->key_type = up_integrity;
new_key_entry->keyString = g_strdup(key);
new_key_entry->setup_frame = frame_num;
update_key_from_string(new_key_entry->keyString, new_key_entry->binaryKey, &new_key_entry->keyOK, &err);
if (err) {
report_failure("%s: (UP Integrity Key)", err);
g_free(err);
}
}
static const value_string direction_vals[] =
{
{ PDCP_NR_DIRECTION_UPLINK, "Uplink"},
{ PDCP_NR_DIRECTION_DOWNLINK, "Downlink"},
{ 0, NULL }
};
static const value_string pdcp_plane_vals[] = {
{ NR_SIGNALING_PLANE, "Signalling" },
{ NR_USER_PLANE, "User" },
{ 0, NULL }
};
static const value_string bearer_type_vals[] = {
{ Bearer_DCCH, "DCCH"},
{ Bearer_BCCH_BCH, "BCCH_BCH"},
{ Bearer_BCCH_DL_SCH, "BCCH_DL_SCH"},
{ Bearer_CCCH, "CCCH"},
{ Bearer_PCCH, "PCCH"},
{ 0, NULL}
};
static const value_string rohc_mode_vals[] = {
{ UNIDIRECTIONAL, "Unidirectional" },
{ OPTIMISTIC_BIDIRECTIONAL, "Optimistic Bidirectional" },
{ RELIABLE_BIDIRECTIONAL, "Reliable Bidirectional" },
{ 0, NULL }
};
/* Entries taken from Table 5.7.1-1.
Descriptions from http://www.iana.org/assignments/rohc-pro-ids/rohc-pro-ids.txt */
static const value_string rohc_profile_vals[] = {
{ 0x0000, "ROHC uncompressed" }, /* [RFC5795] */
{ 0x0001, "ROHC RTP" }, /* [RFC3095] */
{ 0x0002, "ROHC UDP" }, /* [RFC3095] */
{ 0x0003, "ROHC ESP" }, /* [RFC3095] */
{ 0x0004, "ROHC IP" }, /* [RFC3843] */
{ 0x0006, "ROHC TCP" }, /* [RFC4996] */
{ 0x0101, "ROHCv2 RTP" }, /* [RFC5225] */
{ 0x0102, "ROHCv2 UDP" }, /* [RFC5225] */
{ 0x0103, "ROHCv2 ESP" }, /* [RFC5225] */
{ 0x0104, "ROHCv2 IP" }, /* [RFC5225] */
{ 0, NULL }
};
static const value_string control_pdu_type_vals[] = {
{ 0, "PDCP status report" },
{ 1, "Interspersed ROHC feedback packet" },
{ 0, NULL }
};
static const value_string integrity_algorithm_vals[] = {
{ nia0, "NIA0 (NULL)" },
{ nia1, "NIA1 (SNOW3G)" },
{ nia2, "NIA2 (AES)" },
{ nia3, "NIA3 (ZUC)" },
{ 0, NULL }
};
static const value_string ciphering_algorithm_vals[] = {
{ nea0, "NEA0 (NULL)" },
{ nea1, "NEA1 (SNOW3G)" },
{ nea2, "NEA2 (AES)" },
{ nea3, "NEA3 (ZUC)" },
{ nea_disabled, "Ciphering disabled" },
{ 0, NULL }
};
/* SDAP header fields and tree */
static int proto_sdap;
static int hf_sdap_rdi;
static int hf_sdap_rqi;
static int hf_sdap_qfi;
static int hf_sdap_data_control;
static int hf_sdap_reserved;
static int ett_sdap;
static const true_false_string sdap_rdi = {
"To store QoS flow to DRB mapping rule",
"No action"
};
static const true_false_string sdap_rqi = {
"To inform NAS that RQI bit is set to 1",
"No action"
};
static dissector_handle_t ip_handle;
static dissector_handle_t ipv6_handle;
static dissector_handle_t rohc_handle;
static dissector_handle_t nr_rrc_ul_ccch;
static dissector_handle_t nr_rrc_ul_ccch1;
static dissector_handle_t nr_rrc_dl_ccch;
static dissector_handle_t nr_rrc_pcch;
static dissector_handle_t nr_rrc_bcch_bch;
static dissector_handle_t nr_rrc_bcch_dl_sch;
static dissector_handle_t nr_rrc_ul_dcch;
static dissector_handle_t nr_rrc_dl_dcch;
#define SEQUENCE_ANALYSIS_RLC_ONLY 1
#define SEQUENCE_ANALYSIS_PDCP_ONLY 2
/* Preference variables */
static bool global_pdcp_dissect_user_plane_as_ip = true;
static bool global_pdcp_dissect_signalling_plane_as_rrc = true;
static int global_pdcp_check_sequence_numbers = SEQUENCE_ANALYSIS_RLC_ONLY;
static bool global_pdcp_dissect_rohc;
/* Preference settings for deciphering and integrity checking. */
static bool global_pdcp_decipher_signalling = true;
static bool global_pdcp_decipher_userplane; /* Can be slow, so default to false */
static bool global_pdcp_check_integrity = true;
static bool global_pdcp_ignore_sec; /* Ignore Set Security Algo calls */
/* Use these values where we know the keys but may have missed the algorithm,
e.g. when handing over and RRCReconfigurationRequest goes to target cell only */
static enum nr_security_ciphering_algorithm_e global_default_ciphering_algorithm = nea0;
static enum nr_security_integrity_algorithm_e global_default_integrity_algorithm = nia0;
/* Which layer info to show in the info column */
enum layer_to_show {
ShowRLCLayer, ShowPDCPLayer, ShowTrafficLayer
};
static int global_pdcp_nr_layer_to_show = (int)ShowRLCLayer;
/* Function to be called from outside this module (e.g. in a plugin) to get per-packet data */
pdcp_nr_info *get_pdcp_nr_proto_data(packet_info *pinfo)
{
return (pdcp_nr_info *)p_get_proto_data(wmem_file_scope(), pinfo, proto_pdcp_nr, 0);
}
/* Function to be called from outside this module (e.g. in a plugin) to set per-packet data */
void set_pdcp_nr_proto_data(packet_info *pinfo, pdcp_nr_info *p_pdcp_nr_info)
{
p_add_proto_data(wmem_file_scope(), pinfo, proto_pdcp_nr, 0, p_pdcp_nr_info);
}
/**************************************************/
/* Sequence number analysis */
/* Bearer key */
typedef struct
{
/* Using bit fields to fit into 32 bits, so avoiding the need to allocate
heap memory for these structs */
unsigned ueId : 16;
unsigned plane : 2;
unsigned bearerId : 6;
unsigned direction : 1;
unsigned notUsed : 7;
} pdcp_bearer_hash_key;
/* Bearer state */
typedef struct
{
uint32_t previousSequenceNumber;
uint32_t previousFrameNum;
uint32_t hfn;
} pdcp_bearer_status;
/* The sequence analysis bearer hash table.
Maps key -> status */
static wmem_map_t *pdcp_sequence_analysis_bearer_hash;
/* Hash table types & functions for frame reports */
typedef struct {
uint32_t frameNumber;
uint32_t SN : 18;
uint32_t plane : 2;
uint32_t bearerId: 5;
uint32_t direction: 1;
uint32_t notUsed : 6;
} pdcp_result_hash_key;
static int pdcp_result_hash_equal(const void *v, const void *v2)
{
const pdcp_result_hash_key* val1 = (const pdcp_result_hash_key *)v;
const pdcp_result_hash_key* val2 = (const pdcp_result_hash_key *)v2;
/* All fields must match */
return (memcmp(val1, val2, sizeof(pdcp_result_hash_key)) == 0);
}
/* Compute a hash value for a given key. */
static unsigned pdcp_result_hash_func(const void *v)
{
const pdcp_result_hash_key* val1 = (const pdcp_result_hash_key *)v;
/* TODO: This is a bit random. */
return val1->frameNumber + (val1->bearerId<<7) +
(val1->plane<<12) +
(val1->SN<<14) +
(val1->direction<<6);
}
/* pdcp_bearer_hash_key fits into the pointer, so just copy the value into
a unsigned, cast to a pointer and return that as the key */
static void *get_bearer_hash_key(pdcp_bearer_hash_key *key)
{
unsigned asInt = 0;
/* TODO: assert that sizeof(pdcp_bearer_hash_key) <= sizeof(unsigned) ? */
memcpy(&asInt, key, sizeof(pdcp_bearer_hash_key));
return GUINT_TO_POINTER(asInt);
}
/* Convenience function to get a pointer for the hash_func to work with */
static void *get_report_hash_key(uint32_t SN, uint32_t frameNumber,
pdcp_nr_info *p_pdcp_nr_info,
bool do_persist)
{
static pdcp_result_hash_key key;
pdcp_result_hash_key *p_key;
/* Only allocate a struct when will be adding entry */
if (do_persist) {
p_key = wmem_new(wmem_file_scope(), pdcp_result_hash_key);
}
else {
memset(&key, 0, sizeof(pdcp_result_hash_key));
p_key = &key;
}
/* Fill in details, and return pointer */
p_key->frameNumber = frameNumber;
p_key->SN = SN;
p_key->plane = (uint8_t)p_pdcp_nr_info->plane;
p_key->bearerId = p_pdcp_nr_info->bearerId;
p_key->direction = p_pdcp_nr_info->direction;
p_key->notUsed = 0;
return p_key;
}
/* Info to attach to frame when first read, recording what to show about sequence */
typedef enum
{
SN_OK, SN_Repeated, SN_MAC_Retx, SN_Retx, SN_Missing
} sequence_state;
typedef struct
{
bool sequenceExpectedCorrect;
uint32_t sequenceExpected;
uint32_t previousFrameNum;
uint32_t nextFrameNum;
uint32_t firstSN;
uint32_t lastSN;
uint32_t hfn;
sequence_state state;
} pdcp_sequence_report_in_frame;
/* The sequence analysis frame report hash table.
Maps pdcp_result_hash_key* -> pdcp_sequence_report_in_frame* */
static wmem_map_t *pdcp_nr_sequence_analysis_report_hash;
/* Gather together security settings in order to be able to do deciphering */
typedef struct pdu_security_settings_t
{
enum nr_security_ciphering_algorithm_e ciphering;
enum nr_security_integrity_algorithm_e integrity;
uint8_t* cipherKey;
uint8_t* integrityKey;
bool cipherKeyValid;
bool integrityKeyValid;
uint32_t count;
uint8_t bearer;
uint8_t direction;
} pdu_security_settings_t;
static uat_ue_keys_record_t* look_up_keys_record(uint16_t ueid, uint32_t frame_num,
uint32_t *config_frame_rrc_cipher,
uint32_t *config_frame_rrc_integrity,
uint32_t *config_frame_up_cipher,
uint32_t *config_frame_up_integrity)
{
unsigned int record_id;
/* Try hash table first (among entries added by set_pdcp_nr_xxx_key() functions) */
ue_key_entries_t* key_record = (ue_key_entries_t*)wmem_map_lookup(pdcp_security_key_hash,
GUINT_TO_POINTER((unsigned)ueid));
if (key_record != NULL) {
/* Will build up and return usual type */
uat_ue_keys_record_t *keys = wmem_new0(wmem_file_scope(), uat_ue_keys_record_t);
/* Fill in details */
keys->ueid = ueid;
/* Walk entries backwards (want last entry before frame_num) */
for (int e=key_record->num_entries_set; e>0; e--) {
key_entry_t *entry = &key_record->entries[e-1];
if (frame_num > entry->setup_frame) {
/* This frame is after corresponding setup, so can adopt if don't have one */
switch (entry->key_type) {
case rrc_cipher:
if (!keys->rrcCipherKeyOK) {
keys->rrcCipherKeyString = entry->keyString;
memcpy(keys->rrcCipherBinaryKey, entry->binaryKey, 16);
keys->rrcCipherKeyOK = entry->keyOK;
*config_frame_rrc_cipher = entry->setup_frame;
}
break;
case rrc_integrity:
if (!keys->rrcIntegrityKeyOK) {
keys->rrcIntegrityKeyString = entry->keyString;
memcpy(keys->rrcIntegrityBinaryKey, entry->binaryKey, 16);
keys->rrcIntegrityKeyOK = entry->keyOK;
*config_frame_rrc_integrity = entry->setup_frame;
}
break;
case up_cipher:
if (!keys->upCipherKeyOK) {
keys->upCipherKeyString = entry->keyString;
memcpy(keys->upCipherBinaryKey, entry->binaryKey, 16);
keys->upCipherKeyOK = entry->keyOK;
*config_frame_up_cipher = entry->setup_frame;
}
break;
case up_integrity:
if (!keys->upIntegrityKeyOK) {
keys->upIntegrityKeyString = entry->keyString;
memcpy(keys->upIntegrityBinaryKey, entry->binaryKey, 16);
keys->upIntegrityKeyOK = entry->keyOK;
*config_frame_up_integrity = entry->setup_frame;
}
break;
}
}
}
/* Return this struct (even if doesn't have all/any keys set..) */
return keys;
}
/* Else look up UAT entries. N.B. linear search... */
for (record_id=0; record_id < num_ue_keys_uat; record_id++) {
if (uat_ue_keys_records[record_id].ueid == ueid) {
return &uat_ue_keys_records[record_id];
}
}
/* No match at all - return NULL */
return NULL;
}
/* Add to the tree values associated with sequence analysis for this frame */
static void addBearerSequenceInfo(pdcp_sequence_report_in_frame *p,
pdcp_nr_info *p_pdcp_nr_info,
uint32_t sequenceNumber,
packet_info *pinfo, proto_tree *tree, tvbuff_t *tvb,
proto_tree *security_tree,
pdu_security_settings_t *pdu_security)
{
proto_tree *seqnum_tree;
proto_item *seqnum_ti;
proto_item *ti_expected_sn;
proto_item *ti;
uat_ue_keys_record_t *keys_record;
/* Create subtree */
seqnum_ti = proto_tree_add_string_format(tree,
hf_pdcp_nr_sequence_analysis,
tvb, 0, 0,
"", "Sequence Analysis");
seqnum_tree = proto_item_add_subtree(seqnum_ti,
ett_pdcp_nr_sequence_analysis);
proto_item_set_generated(seqnum_ti);
/* Previous bearer frame */
if (p->previousFrameNum != 0) {
proto_tree_add_uint(seqnum_tree, hf_pdcp_nr_sequence_analysis_previous_frame,
tvb, 0, 0, p->previousFrameNum);
}
/* Expected sequence number */
ti_expected_sn = proto_tree_add_uint(seqnum_tree, hf_pdcp_nr_sequence_analysis_expected_sn,
tvb, 0, 0, p->sequenceExpected);
proto_item_set_generated(ti_expected_sn);
/* Make sure we have recognised SN length */
switch (p_pdcp_nr_info->seqnum_length) {
case PDCP_NR_SN_LENGTH_12_BITS:
case PDCP_NR_SN_LENGTH_18_BITS:
break;
default:
DISSECTOR_ASSERT_NOT_REACHED();
break;
}
switch (p->state) {
case SN_OK:
proto_item_set_hidden(ti_expected_sn);
ti = proto_tree_add_boolean(seqnum_tree, hf_pdcp_nr_sequence_analysis_ok,
tvb, 0, 0, true);
proto_item_set_generated(ti);
proto_item_append_text(seqnum_ti, " - OK");
/* Link to next SN in bearer (if known) */
if (p->nextFrameNum != 0) {
proto_tree_add_uint(seqnum_tree, hf_pdcp_nr_sequence_analysis_next_frame,
tvb, 0, 0, p->nextFrameNum);
}
break;
case SN_Missing:
ti = proto_tree_add_boolean(seqnum_tree, hf_pdcp_nr_sequence_analysis_ok,
tvb, 0, 0, false);
proto_item_set_generated(ti);
ti = proto_tree_add_boolean(seqnum_tree, hf_pdcp_nr_sequence_analysis_skipped,
tvb, 0, 0, true);
proto_item_set_generated(ti);
if (p->lastSN != p->firstSN) {
/* Range missing */
expert_add_info_format(pinfo, ti,
(p_pdcp_nr_info->direction == PDCP_NR_DIRECTION_UPLINK) ?
&ei_pdcp_nr_sequence_analysis_sn_missing_ul :
&ei_pdcp_nr_sequence_analysis_sn_missing_dl,
"PDCP SNs (%u to %u) missing for %s on UE %u (%s-%u)",
p->firstSN, p->lastSN,
val_to_str_const(p_pdcp_nr_info->direction, direction_vals, "Unknown"),
p_pdcp_nr_info->ueid,
val_to_str_const(p_pdcp_nr_info->bearerType, bearer_type_vals, "Unknown"),
p_pdcp_nr_info->bearerId);
proto_item_append_text(seqnum_ti, " - SNs missing (%u to %u)",
p->firstSN, p->lastSN);
}
else {
/* Single SN missing */
expert_add_info_format(pinfo, ti,
(p_pdcp_nr_info->direction == PDCP_NR_DIRECTION_UPLINK) ?
&ei_pdcp_nr_sequence_analysis_sn_missing_ul :
&ei_pdcp_nr_sequence_analysis_sn_missing_dl,
"PDCP SN (%u) missing for %s on UE %u (%s-%u)",
p->firstSN,
val_to_str_const(p_pdcp_nr_info->direction, direction_vals, "Unknown"),
p_pdcp_nr_info->ueid,
val_to_str_const(p_pdcp_nr_info->bearerType, bearer_type_vals, "Unknown"),
p_pdcp_nr_info->bearerId);
proto_item_append_text(seqnum_ti, " - SN missing (%u)",
p->firstSN);
}
break;
case SN_Repeated:
ti = proto_tree_add_boolean(seqnum_tree, hf_pdcp_nr_sequence_analysis_ok,
tvb, 0, 0, false);
proto_item_set_generated(ti);
ti = proto_tree_add_boolean(seqnum_tree, hf_pdcp_nr_sequence_analysis_repeated,
tvb, 0, 0, true);
proto_item_set_generated(ti);
expert_add_info_format(pinfo, ti,
(p_pdcp_nr_info->direction == PDCP_NR_DIRECTION_UPLINK) ?
&ei_pdcp_nr_sequence_analysis_sn_repeated_ul :
&ei_pdcp_nr_sequence_analysis_sn_repeated_dl,
"PDCP SN (%u) repeated for %s for UE %u (%s-%u)",
p->firstSN,
val_to_str_const(p_pdcp_nr_info->direction, direction_vals, "Unknown"),
p_pdcp_nr_info->ueid,
val_to_str_const(p_pdcp_nr_info->bearerType, bearer_type_vals, "Unknown"),
p_pdcp_nr_info->bearerId);
proto_item_append_text(seqnum_ti, "- SN %u Repeated",
p->firstSN);
break;
default:
/* Incorrect sequence number */
expert_add_info_format(pinfo, ti_expected_sn,
(p_pdcp_nr_info->direction == PDCP_NR_DIRECTION_UPLINK) ?
&ei_pdcp_nr_sequence_analysis_wrong_sequence_number_ul :
&ei_pdcp_nr_sequence_analysis_wrong_sequence_number_dl,
"Wrong Sequence Number for %s on UE %u (%s-%u) - got %u, expected %u",
val_to_str_const(p_pdcp_nr_info->direction, direction_vals, "Unknown"),
p_pdcp_nr_info->ueid,
val_to_str_const(p_pdcp_nr_info->bearerType, bearer_type_vals, "Unknown"),
p_pdcp_nr_info->bearerId,
sequenceNumber, p->sequenceExpected);
break;
}
/* May also be able to add key inputs to security tree here */
if ((pdu_security->ciphering != nea0) ||
(pdu_security->integrity != nia0)) {
uint32_t hfn_multiplier;
uint32_t count;
char *cipher_key = NULL;
char *integrity_key = NULL;
/* BEARER */
ti = proto_tree_add_uint(security_tree, hf_pdcp_nr_security_bearer,
tvb, 0, 0, p_pdcp_nr_info->bearerId-1);
proto_item_set_generated(ti);
pdu_security->bearer = p_pdcp_nr_info->bearerId-1;
/* DIRECTION */
ti = proto_tree_add_uint(security_tree, hf_pdcp_nr_security_direction,
tvb, 0, 0, p_pdcp_nr_info->direction);
proto_item_set_generated(ti);
/* COUNT (HFN * snLength^2 + SN) */
switch (p_pdcp_nr_info->seqnum_length) {
case PDCP_NR_SN_LENGTH_12_BITS:
hfn_multiplier = 4096;
break;
case PDCP_NR_SN_LENGTH_18_BITS:
hfn_multiplier = 262144;
break;
default:
DISSECTOR_ASSERT_NOT_REACHED();
break;
}
count = (p->hfn * hfn_multiplier) + sequenceNumber;
ti = proto_tree_add_uint(security_tree, hf_pdcp_nr_security_count,
tvb, 0, 0, count);
proto_item_set_generated(ti);
pdu_security->count = count;
/* KEY. Look this UE up among UEs that have keys configured */
uint32_t config_frame_rrc_cipher=0, config_frame_rrc_integrity=0,
config_frame_up_cipher=0, config_frame_up_integrity=0;
keys_record = look_up_keys_record(p_pdcp_nr_info->ueid, pinfo->num,
&config_frame_rrc_cipher, &config_frame_rrc_integrity,
&config_frame_up_cipher, &config_frame_up_integrity);
uint32_t config_frame_cipher=0, config_frame_integrity=0;
if (keys_record != NULL) {
if (p_pdcp_nr_info->plane == NR_SIGNALING_PLANE) {
/* Get RRC ciphering key */
if (keys_record->rrcCipherKeyOK) {
cipher_key = keys_record->rrcCipherKeyString;
pdu_security->cipherKey = &(keys_record->rrcCipherBinaryKey[0]);
pdu_security->cipherKeyValid = true;
config_frame_cipher = config_frame_rrc_cipher;
}
/* Get RRC integrity key */
if (keys_record->rrcIntegrityKeyOK) {
integrity_key = keys_record->rrcIntegrityKeyString;
pdu_security->integrityKey = &(keys_record->rrcIntegrityBinaryKey[0]);
pdu_security->integrityKeyValid = true;
config_frame_integrity = config_frame_rrc_integrity;
}
}
else {
/* Get userplane ciphering key */
if (keys_record->upCipherKeyOK) {
cipher_key = keys_record->upCipherKeyString;
pdu_security->cipherKey = &(keys_record->upCipherBinaryKey[0]);
pdu_security->cipherKeyValid = true;
config_frame_cipher = config_frame_up_cipher;
}
/* Get userplane integrity key */
if (keys_record->upIntegrityKeyOK) {
integrity_key = keys_record->upIntegrityKeyString;
pdu_security->integrityKey = &(keys_record->upIntegrityBinaryKey[0]);
pdu_security->integrityKeyValid = true;
config_frame_integrity = config_frame_up_integrity;
}
}
/* Show keys where known and valid */
if (cipher_key != NULL) {
ti = proto_tree_add_string(security_tree, hf_pdcp_nr_security_cipher_key,
tvb, 0, 0, cipher_key);
proto_item_set_generated(ti);
/* If came from frame, link to it */
if (config_frame_cipher != 0) {
ti = proto_tree_add_uint(security_tree, hf_pdcp_nr_security_cipher_key_setup_frame,
tvb, 0, 0, config_frame_cipher);
proto_item_set_generated(ti);
}
}
if (integrity_key != NULL) {
ti = proto_tree_add_string(security_tree, hf_pdcp_nr_security_integrity_key,
tvb, 0, 0, integrity_key);
proto_item_set_generated(ti);
/* If came from frame, link to it */
if (config_frame_integrity != 0) {
ti = proto_tree_add_uint(security_tree, hf_pdcp_nr_security_integrity_key_setup_frame,
tvb, 0, 0, config_frame_integrity);
proto_item_set_generated(ti);
}
}
pdu_security->direction = p_pdcp_nr_info->direction;
}
}
}
/* Update the bearer status and set report for this frame */
static void checkBearerSequenceInfo(packet_info *pinfo, tvbuff_t *tvb,
pdcp_nr_info *p_pdcp_nr_info,
uint32_t sequenceNumber,
proto_tree *tree,
proto_tree *security_tree,
pdu_security_settings_t *pdu_security)
{
pdcp_bearer_hash_key bearer_key;
pdcp_bearer_status *p_bearer_status;
pdcp_sequence_report_in_frame *p_report_in_frame = NULL;
bool createdBearer = false;
uint32_t expectedSequenceNumber = 0;
uint32_t snLimit = 0;
/* If find stat_report_in_frame already, use that and get out */
if (PINFO_FD_VISITED(pinfo)) {
p_report_in_frame =
(pdcp_sequence_report_in_frame*)wmem_map_lookup(pdcp_nr_sequence_analysis_report_hash,
get_report_hash_key(sequenceNumber,
pinfo->num,
p_pdcp_nr_info, false));
if (p_report_in_frame != NULL) {
addBearerSequenceInfo(p_report_in_frame, p_pdcp_nr_info,
sequenceNumber,
pinfo, tree, tvb, security_tree, pdu_security);
return;
}
else {
/* Give up - we must have tried already... */
return;
}
}
/**************************************************/
/* Create or find an entry for this bearer state */
bearer_key.ueId = p_pdcp_nr_info->ueid;
bearer_key.plane = p_pdcp_nr_info->plane;
bearer_key.bearerId = p_pdcp_nr_info->bearerId;
bearer_key.direction = p_pdcp_nr_info->direction;
bearer_key.notUsed = 0;
/* Do the table lookup */
p_bearer_status = (pdcp_bearer_status*)wmem_map_lookup(pdcp_sequence_analysis_bearer_hash,
get_bearer_hash_key(&bearer_key));
/* Create table entry if necessary */
if (p_bearer_status == NULL) {
createdBearer = true;
/* Allocate a new value and duplicate key contents */
p_bearer_status = wmem_new0(wmem_file_scope(), pdcp_bearer_status);
/* Add entry */
wmem_map_insert(pdcp_sequence_analysis_bearer_hash,
get_bearer_hash_key(&bearer_key), p_bearer_status);
}
/* Create space for frame state_report */
p_report_in_frame = wmem_new(wmem_file_scope(), pdcp_sequence_report_in_frame);
p_report_in_frame->nextFrameNum = 0;
switch (p_pdcp_nr_info->seqnum_length) {
case PDCP_NR_SN_LENGTH_12_BITS:
snLimit = 4096;
break;
case PDCP_NR_SN_LENGTH_18_BITS:
snLimit = 262144;
break;
default:
DISSECTOR_ASSERT_NOT_REACHED();
break;
}
/* Work out expected sequence number */
if (!createdBearer) {
expectedSequenceNumber = (p_bearer_status->previousSequenceNumber + 1) % snLimit;
}
else {
expectedSequenceNumber = sequenceNumber;
}
/* Set report for this frame */
/* For PDCP, sequence number is always expectedSequence number */
p_report_in_frame->sequenceExpectedCorrect = (sequenceNumber == expectedSequenceNumber);
p_report_in_frame->hfn = p_bearer_status->hfn;
/* For wrong sequence number... */
if (!p_report_in_frame->sequenceExpectedCorrect) {
/* Frames are not missing if we get an earlier sequence number again */
if (((snLimit + expectedSequenceNumber - sequenceNumber) % snLimit) > 15) {
p_report_in_frame->state = SN_Missing;
p_report_in_frame->firstSN = expectedSequenceNumber;
p_report_in_frame->lastSN = (snLimit + sequenceNumber - 1) % snLimit;
p_report_in_frame->sequenceExpected = expectedSequenceNumber;
p_report_in_frame->previousFrameNum = p_bearer_status->previousFrameNum;
/* Update Bearer status to remember *this* frame */
p_bearer_status->previousFrameNum = pinfo->num;
p_bearer_status->previousSequenceNumber = sequenceNumber;
}
else {
/* An SN has been repeated */
p_report_in_frame->state = SN_Repeated;
p_report_in_frame->firstSN = sequenceNumber;
p_report_in_frame->sequenceExpected = expectedSequenceNumber;
p_report_in_frame->previousFrameNum = p_bearer_status->previousFrameNum;
}
}
else {
/* SN was OK */
p_report_in_frame->state = SN_OK;
p_report_in_frame->sequenceExpected = expectedSequenceNumber;
p_report_in_frame->previousFrameNum = p_bearer_status->previousFrameNum;
/* SN has rolled around, inc hfn! */
if (!createdBearer && (sequenceNumber == 0)) {
/* Should handover before HFN needs to wrap, so don't worry about it */
p_bearer_status->hfn++;
p_report_in_frame->hfn = p_bearer_status->hfn;
}
/* Update Bearer status to remember *this* frame */
p_bearer_status->previousFrameNum = pinfo->num;
p_bearer_status->previousSequenceNumber = sequenceNumber;
if (p_report_in_frame->previousFrameNum != 0) {
/* Get report for previous frame */
pdcp_sequence_report_in_frame *p_previous_report;
p_previous_report = (pdcp_sequence_report_in_frame*)wmem_map_lookup(pdcp_nr_sequence_analysis_report_hash,
get_report_hash_key((sequenceNumber+262144) % 262144,
p_report_in_frame->previousFrameNum,
p_pdcp_nr_info,
false));
/* It really shouldn't be NULL... */
if (p_previous_report != NULL) {
/* Point it forward to this one */
p_previous_report->nextFrameNum = pinfo->num;
}
}
}
/* Associate with this frame number */
wmem_map_insert(pdcp_nr_sequence_analysis_report_hash,
get_report_hash_key(sequenceNumber, pinfo->num,
p_pdcp_nr_info, true),
p_report_in_frame);
/* Add state report for this frame into tree */
addBearerSequenceInfo(p_report_in_frame, p_pdcp_nr_info, sequenceNumber,
pinfo, tree, tvb, security_tree, pdu_security);
}
/* Hash table for security state for a UE during first pass.
Maps UEId -> pdcp_security_info_t* */
static wmem_map_t *pdcp_security_hash;
typedef struct ueid_frame_t {
uint32_t framenum;
uint16_t ueid;
} ueid_frame_t;
/* Convenience function to get a pointer for the hash_func to work with */
static void *get_ueid_frame_hash_key(uint16_t ueid, uint32_t frameNumber,
bool do_persist)
{
static ueid_frame_t key;
ueid_frame_t *p_key;
/* Only allocate a struct when will be adding entry */
if (do_persist) {
p_key = wmem_new(wmem_file_scope(), ueid_frame_t);
}
else {
/* Only looking up, so just use static */
memset(&key, 0, sizeof(ueid_frame_t));
p_key = &key;
}
/* Fill in details, and return pointer */
p_key->framenum = frameNumber;
p_key->ueid = ueid;
return p_key;
}
static int pdcp_nr_ueid_frame_hash_equal(const void *v, const void *v2)
{
const ueid_frame_t *ueid_frame_1 = (const ueid_frame_t *)v;
const ueid_frame_t *ueid_frame_2 = (const ueid_frame_t *)v2;
return ((ueid_frame_1->framenum == ueid_frame_2->framenum) &&
(ueid_frame_1->ueid == ueid_frame_2->ueid));
}
static unsigned pdcp_nr_ueid_frame_hash_func(const void *v)
{
const ueid_frame_t *ueid_frame = (const ueid_frame_t *)v;
return ueid_frame->framenum + 100*ueid_frame->ueid;
}
/* Result is ueid_frame_t -> pdcp_security_info_t* */
static wmem_map_t *pdcp_security_result_hash;
/* Write the given formatted text to:
- the info column
- the top-level PDCP PDU item */
static void write_pdu_label_and_info(proto_item *pdu_ti,
packet_info *pinfo, const char *format, ...) G_GNUC_PRINTF(3, 4);
static void write_pdu_label_and_info(proto_item *pdu_ti,
packet_info *pinfo, const char *format, ...)
{
#define MAX_INFO_BUFFER 256
static char info_buffer[MAX_INFO_BUFFER];
va_list ap;
va_start(ap, format);
vsnprintf(info_buffer, MAX_INFO_BUFFER, format, ap);
va_end(ap);
/* Add to indicated places */
col_append_str(pinfo->cinfo, COL_INFO, info_buffer);
/* TODO: gets called a lot, so a shame there isn't a proto_item_append_string() */
proto_item_append_text(pdu_ti, "%s", info_buffer);
}
/***************************************************************/
/* Show in the tree the config info attached to this frame, as generated fields */
static void show_pdcp_config(packet_info *pinfo, tvbuff_t *tvb, proto_tree *tree,
pdcp_nr_info *p_pdcp_info)
{
proto_item *ti;
proto_tree *configuration_tree;
proto_item *configuration_ti = proto_tree_add_item(tree,
hf_pdcp_nr_configuration,
tvb, 0, 0, ENC_ASCII);
configuration_tree = proto_item_add_subtree(configuration_ti, ett_pdcp_configuration);
/* Direction */
ti = proto_tree_add_uint(configuration_tree, hf_pdcp_nr_direction, tvb, 0, 0,
p_pdcp_info->direction);
proto_item_set_generated(ti);
/* Plane */
ti = proto_tree_add_uint(configuration_tree, hf_pdcp_nr_plane, tvb, 0, 0,
p_pdcp_info->plane);
proto_item_set_generated(ti);
/* UEId */
if (p_pdcp_info->ueid != 0) {
ti = proto_tree_add_uint(configuration_tree, hf_pdcp_nr_ueid, tvb, 0, 0,
p_pdcp_info->ueid);
proto_item_set_generated(ti);
write_pdu_label_and_info(configuration_ti, pinfo, "UEId=%3u", p_pdcp_info->ueid);
}
/* Bearer type */
ti = proto_tree_add_uint(configuration_tree, hf_pdcp_nr_bearer_type, tvb, 0, 0,
p_pdcp_info->bearerType);
proto_item_set_generated(ti);
if (p_pdcp_info->bearerId != 0) {
/* Bearer id */
ti = proto_tree_add_uint(configuration_tree, hf_pdcp_nr_bearer_id, tvb, 0, 0,
p_pdcp_info->bearerId);
proto_item_set_generated(ti);
}
/* Show bearer type in root/Info */
if (p_pdcp_info->bearerType == Bearer_DCCH) {
write_pdu_label_and_info(configuration_ti, pinfo, " %s-%u ",
(p_pdcp_info->plane == NR_SIGNALING_PLANE) ? "SRB" : "DRB",
p_pdcp_info->bearerId);
}
else {
write_pdu_label_and_info(configuration_ti, pinfo, " %s",
val_to_str_const(p_pdcp_info->bearerType, bearer_type_vals, "Unknown"));
}
/* Seqnum length */
ti = proto_tree_add_uint(configuration_tree, hf_pdcp_nr_seqnum_length, tvb, 0, 0,
p_pdcp_info->seqnum_length);
proto_item_set_generated(ti);
/* MAC-I Present */
ti = proto_tree_add_boolean(configuration_tree, hf_pdcp_nr_maci_present, tvb, 0, 0,
p_pdcp_info->maci_present);
proto_item_set_generated(ti);
/* Ciphering disabled */
ti = proto_tree_add_boolean(configuration_tree, hf_pdcp_nr_ciphering_disabled, tvb, 0, 0,
p_pdcp_info->ciphering_disabled);
proto_item_set_generated(ti);
/* Hide unless set */
if (!p_pdcp_info->ciphering_disabled) {
proto_item_set_hidden(ti);
}
if (p_pdcp_info->plane == NR_USER_PLANE) {
/* SDAP */
ti = proto_tree_add_boolean(configuration_tree, hf_pdcp_nr_sdap, tvb, 0, 0,
(p_pdcp_info->direction == PDCP_NR_DIRECTION_UPLINK) ?
p_pdcp_info->sdap_header & PDCP_NR_UL_SDAP_HEADER_PRESENT :
p_pdcp_info->sdap_header & PDCP_NR_DL_SDAP_HEADER_PRESENT);
proto_item_set_generated(ti);
/* ROHC compression */
ti = proto_tree_add_boolean(configuration_tree, hf_pdcp_nr_rohc_compression, tvb, 0, 0,
p_pdcp_info->rohc.rohc_compression);
proto_item_set_generated(ti);
/* ROHC-specific settings */
if (p_pdcp_info->rohc.rohc_compression) {
/* Show ROHC mode */
ti = proto_tree_add_uint(configuration_tree, hf_pdcp_nr_rohc_mode, tvb, 0, 0,
p_pdcp_info->rohc.mode);
proto_item_set_generated(ti);
/* Show RND */
ti = proto_tree_add_boolean(configuration_tree, hf_pdcp_nr_rohc_rnd, tvb, 0, 0,
p_pdcp_info->rohc.rnd);
proto_item_set_generated(ti);
/* UDP Checksum */
ti = proto_tree_add_boolean(configuration_tree, hf_pdcp_nr_rohc_udp_checksum_present, tvb, 0, 0,
p_pdcp_info->rohc.udp_checksum_present);
proto_item_set_generated(ti);
/* ROHC profile */
ti = proto_tree_add_uint(configuration_tree, hf_pdcp_nr_rohc_profile, tvb, 0, 0,
p_pdcp_info->rohc.profile);
proto_item_set_generated(ti);
/* CID Inclusion Info */
ti = proto_tree_add_boolean(configuration_tree, hf_pdcp_nr_cid_inclusion_info, tvb, 0, 0,
p_pdcp_info->rohc.cid_inclusion_info);
proto_item_set_generated(ti);
/* Large CID */
ti = proto_tree_add_boolean(configuration_tree, hf_pdcp_nr_large_cid_present, tvb, 0, 0,
p_pdcp_info->rohc.large_cid_present);
proto_item_set_generated(ti);
}
}
/* Append summary to configuration root */
proto_item_append_text(configuration_ti, "(direction=%s, plane=%s",
val_to_str_const(p_pdcp_info->direction, direction_vals, "Unknown"),
val_to_str_const(p_pdcp_info->plane, pdcp_plane_vals, "Unknown"));
if (p_pdcp_info->rohc.rohc_compression) {
const char *mode = val_to_str_const(p_pdcp_info->rohc.mode, rohc_mode_vals, "Error");
proto_item_append_text(configuration_ti, ", mode=%c, profile=%s",
mode[0],
val_to_str_const(p_pdcp_info->rohc.profile, rohc_profile_vals, "Unknown"));
}
proto_item_append_text(configuration_ti, ")");
proto_item_set_generated(configuration_ti);
/* Show plane in info column */
col_append_fstr(pinfo->cinfo, COL_INFO, " %s: ",
val_to_str_const(p_pdcp_info->plane, pdcp_plane_vals, "Unknown"));
}
/* Look for an RRC dissector for signalling data (using Bearer type and direction) */
static dissector_handle_t lookup_rrc_dissector_handle(struct pdcp_nr_info *p_pdcp_info, uint32_t data_length)
{
dissector_handle_t rrc_handle = NULL;
switch (p_pdcp_info->bearerType)
{
case Bearer_CCCH:
if (p_pdcp_info->direction == PDCP_NR_DIRECTION_UPLINK) {
rrc_handle = (data_length == 8) ? nr_rrc_ul_ccch1 : nr_rrc_ul_ccch;
} else {
rrc_handle = nr_rrc_dl_ccch;
}
break;
case Bearer_PCCH:
rrc_handle = nr_rrc_pcch;
break;
case Bearer_BCCH_BCH:
rrc_handle = nr_rrc_bcch_bch;
break;
case Bearer_BCCH_DL_SCH:
rrc_handle = nr_rrc_bcch_dl_sch;
break;
case Bearer_DCCH:
if (p_pdcp_info->direction == PDCP_NR_DIRECTION_UPLINK) {
rrc_handle = nr_rrc_ul_dcch;
} else {
rrc_handle = nr_rrc_dl_dcch;
}
break;
default:
break;
}
return rrc_handle;
}
/* Called from control protocol to configure security algorithms for the given UE */
void set_pdcp_nr_security_algorithms(uint16_t ueid, pdcp_nr_security_info_t *security_info)
{
/* Use for this frame so can check integrity on SecurityCommandRequest frame */
/* N.B. won't work for internal, non-RRC signalling methods... */
pdcp_nr_security_info_t *p_frame_security;
/* Disable this entire sub-routine with the Preference */
/* Used when the capture is already deciphered */
if (global_pdcp_ignore_sec) {
return;
}
/* Create or update current settings, by UEID */
pdcp_nr_security_info_t* ue_security =
(pdcp_nr_security_info_t*)wmem_map_lookup(pdcp_security_hash,
GUINT_TO_POINTER((unsigned)ueid));
if (ue_security == NULL) {
/* Copy whole security struct */
ue_security = wmem_new(wmem_file_scope(), pdcp_nr_security_info_t);
*ue_security = *security_info;
/* And add into security table */
wmem_map_insert(pdcp_security_hash, GUINT_TO_POINTER((unsigned)ueid), ue_security);
}
else {
/* Just update existing entry already in table */
ue_security->previous_algorithm_configuration_frame = ue_security->algorithm_configuration_frame;
ue_security->previous_integrity = ue_security->integrity;
ue_security->previous_ciphering = ue_security->ciphering;
ue_security->algorithm_configuration_frame = security_info->algorithm_configuration_frame;
ue_security->integrity = security_info->integrity;
ue_security->ciphering = security_info->ciphering;
ue_security->seen_next_ul_pdu = false;
ue_security->dl_after_reest_request = false;
}
/* Also add an entry for this PDU already to use these settings, as otherwise it won't be present
when we query it on the first pass. */
p_frame_security = wmem_new(wmem_file_scope(), pdcp_nr_security_info_t);
/* Deep copy*/
*p_frame_security = *ue_security;
wmem_map_insert(pdcp_security_result_hash,
get_ueid_frame_hash_key(ueid, ue_security->algorithm_configuration_frame, true),
p_frame_security);
}
/* UE failed to process SecurityModeCommand so go back to previous security settings */
void set_pdcp_nr_security_algorithms_failed(uint16_t ueid)
{
/* Look up current state by UEID */
pdcp_nr_security_info_t* ue_security =
(pdcp_nr_security_info_t*)wmem_map_lookup(pdcp_security_hash,
GUINT_TO_POINTER((unsigned)ueid));
if (ue_security != NULL) {
/* TODO: could remove from table if previous_configuration_frame is 0 */
/* Go back to previous state */
ue_security->algorithm_configuration_frame = ue_security->previous_algorithm_configuration_frame;
ue_security->integrity = ue_security->previous_integrity;
ue_security->ciphering = ue_security->previous_ciphering;
}
}
/* Function to indicate rrcReestablishmentRequest.
* This results in the next DL SRB1 PDU not being decrypted */
void set_pdcp_nr_rrc_reestablishment_request(uint16_t ueid)
{
pdcp_nr_security_info_t *pdu_security = (pdcp_nr_security_info_t*)wmem_map_lookup(pdcp_security_hash,
GUINT_TO_POINTER(ueid));
/* Set flag if entry found */
if (pdu_security) {
pdu_security->dl_after_reest_request = true;
/* Also, will need to repeat securityCommand, so unset this flag */
pdu_security->seen_next_ul_pdu = false;
}
}
/* Decipher payload if algorithm is supported and plausible inputs are available */
static tvbuff_t *decipher_payload(tvbuff_t *tvb, packet_info *pinfo, int *offset,
pdu_security_settings_t *pdu_security_settings,
struct pdcp_nr_info *p_pdcp_info, unsigned sdap_length,
bool will_be_deciphered, bool *deciphered)
{
uint8_t* decrypted_data = NULL;
int payload_length = 0;
tvbuff_t *decrypted_tvb;
/* Nothing to do if NULL ciphering */
if (pdu_security_settings->ciphering == nea0 || pdu_security_settings->ciphering == nea_disabled) {
return tvb;
}
/* Nothing to do if don't have valid cipher key */
if (!pdu_security_settings->cipherKeyValid) {
return tvb;
}
/* Check whether algorithm supported (only drop through and process if we do) */
if (pdu_security_settings->ciphering == nea1) {
#ifndef HAVE_SNOW3G
return tvb;
#endif
}
else if (pdu_security_settings->ciphering == nea3) {
#ifndef HAVE_ZUC
return tvb;
#endif
}
else if (pdu_security_settings->ciphering != nea2) {
/* An algorithm we don't support at all! */
return tvb;
}
/* Don't decipher if turned off in preferences */
if (((p_pdcp_info->plane == NR_SIGNALING_PLANE) && !global_pdcp_decipher_signalling) ||
((p_pdcp_info->plane == NR_USER_PLANE) && !global_pdcp_decipher_userplane)) {
return tvb;
}
/* Don't decipher user-plane control messages */
if ((p_pdcp_info->plane == NR_USER_PLANE) && ((tvb_get_uint8(tvb, 0) & 0x80) == 0x00)) {
return tvb;
}
/* Don't decipher common control messages */
if ((p_pdcp_info->plane == NR_SIGNALING_PLANE) && (p_pdcp_info->bearerType != Bearer_DCCH)) {
return tvb;
}
/* Don't decipher if not yet past SecurityModeResponse */
if (!will_be_deciphered) {
return tvb;
}
/* AES */
if (pdu_security_settings->ciphering == nea2) {
unsigned char ctr_block[16];
gcry_cipher_hd_t cypher_hd;
int gcrypt_err;
/* TS 33.501 D.4.4 defers to TS 33.401 B.1.3 */
/* Set CTR */
memset(ctr_block, 0, 16);
/* Only first 5 bytes set */
ctr_block[0] = (pdu_security_settings->count & 0xff000000) >> 24;
ctr_block[1] = (pdu_security_settings->count & 0x00ff0000) >> 16;
ctr_block[2] = (pdu_security_settings->count & 0x0000ff00) >> 8;
ctr_block[3] = (pdu_security_settings->count & 0x000000ff);
ctr_block[4] = (pdu_security_settings->bearer << 3) + (pdu_security_settings->direction << 2);
/* Open gcrypt handle */
gcrypt_err = gcry_cipher_open(&cypher_hd, GCRY_CIPHER_AES128, GCRY_CIPHER_MODE_CTR, 0);
if (gcrypt_err != 0) {
return tvb;
}
/* Set the key */
gcrypt_err = gcry_cipher_setkey(cypher_hd, pdu_security_settings->cipherKey, 16);
if (gcrypt_err != 0) {
gcry_cipher_close(cypher_hd);
return tvb;
}
/* Set the CTR */
gcrypt_err = gcry_cipher_setctr(cypher_hd, ctr_block, 16);
if (gcrypt_err != 0) {
gcry_cipher_close(cypher_hd);
return tvb;
}
/* Extract the encrypted data into a buffer */
payload_length = tvb_captured_length_remaining(tvb, *offset+sdap_length);
decrypted_data = (uint8_t *)tvb_memdup(pinfo->pool, tvb, *offset+sdap_length, payload_length);
/* Decrypt the actual data */
gcrypt_err = gcry_cipher_decrypt(cypher_hd,
decrypted_data, payload_length,
NULL, 0);
if (gcrypt_err != 0) {
gcry_cipher_close(cypher_hd);
return tvb;
}
/* Close gcrypt handle */
gcry_cipher_close(cypher_hd);
}
#ifdef HAVE_SNOW3G
/* SNOW-3G */
if (pdu_security_settings->ciphering == nea1) {
/* TS 33.501 D.4.3 defers to RS 33.401 */
/* Extract the encrypted data into a buffer */
payload_length = tvb_captured_length_remaining(tvb, *offset+sdap_length);
decrypted_data = (uint8_t *)tvb_memdup(pinfo->pool, tvb, *offset+sdap_length, payload_length);
/* Do the algorithm */
snow3g_f8(pdu_security_settings->cipherKey,
pdu_security_settings->count,
pdu_security_settings->bearer,
pdu_security_settings->direction,
decrypted_data, payload_length*8);
}
#endif
#ifdef HAVE_ZUC
/* ZUC */
if (pdu_security_settings->ciphering == nea3) {
/* Extract the encrypted data into a buffer */
payload_length = tvb_captured_length_remaining(tvb, *offset+sdap_length);
decrypted_data = (uint8_t *)tvb_memdup(pinfo->pool, tvb, *offset+sdap_length, payload_length);
/* Do the algorithm. Assuming implementation works in-place */
zuc_f8(pdu_security_settings->cipherKey,
pdu_security_settings->count,
pdu_security_settings->bearer,
pdu_security_settings->direction,
payload_length*8, /* Length is in bits */
(uint32_t*)decrypted_data, (uint32_t*)decrypted_data);
}
#endif
/* Create tvb for resulting deciphered sdu */
decrypted_tvb = tvb_new_child_real_data(tvb, decrypted_data, payload_length, payload_length);
add_new_data_source(pinfo, decrypted_tvb, "Deciphered Payload");
/* Return deciphered data, i.e. beginning of new tvb */
*offset = 0;
*deciphered = true;
return decrypted_tvb;
}
/* Try to calculate digest to compare with that found in frame. */
static uint32_t calculate_digest(pdu_security_settings_t *pdu_security_settings, packet_info *pinfo, proto_tree *security_tree, tvbuff_t *header_tvb _U_,
tvbuff_t *tvb _U_, int offset _U_, unsigned sdap_length _U_, bool *calculated)
{
*calculated = false;
if (pdu_security_settings->integrity == nia0) {
/* Should be zero in this case */
*calculated = true;
return 0;
}
/* Can't calculate if don't have valid integrity key */
if (!pdu_security_settings->integrityKeyValid) {
return 0;
}
/* Can only do if indicated in preferences */
if (!global_pdcp_check_integrity) {
return 0;
}
switch (pdu_security_settings->integrity) {
#ifdef HAVE_SNOW3G
case nia1:
{
/* SNOW3G */
uint8_t *mac;
unsigned header_length = tvb_reported_length(header_tvb);
int message_length = tvb_captured_length_remaining(tvb, offset) - 4;
uint8_t *message_data = (uint8_t *)wmem_alloc0(pinfo->pool, header_length+message_length-sdap_length+4);
/* TS 33.401 B.2.2 */
/* Data is header bytes */
tvb_memcpy(header_tvb, message_data, 0, header_length);
/* Followed by the decrypted message (but not the digest bytes) */
tvb_memcpy(tvb, message_data+header_length, offset+sdap_length, message_length-sdap_length);
/* Show message data in security tree */
proto_item *integ_data_ti = proto_tree_add_bytes_with_length(security_tree, hf_pdcp_nr_security_integrity_data,
tvb, 0, 0, message_data,
message_length+1);
proto_item_set_generated(integ_data_ti);
mac = (u8*)snow3g_f9(pdu_security_settings->integrityKey,
pdu_security_settings->count,
/* 'Fresh' is the bearer bits then zeros */
pdu_security_settings->bearer << 27,
pdu_security_settings->direction,
message_data,
(message_length+1)*8);
*calculated = true;
return ((mac[0] << 24) | (mac[1] << 16) | (mac[2] << 8) | mac[3]);
}
#endif
case nia2:
{
/* AES */
gcry_mac_hd_t mac_hd;
int gcrypt_err;
unsigned header_length;
int message_length;
uint8_t *message_data;
uint8_t mac[4];
size_t read_digest_length = 4;
/* Open gcrypt handle */
gcrypt_err = gcry_mac_open(&mac_hd, GCRY_MAC_CMAC_AES, 0, NULL);
if (gcrypt_err != 0) {
return 0;
}
/* Set the key */
gcrypt_err = gcry_mac_setkey(mac_hd, pdu_security_settings->integrityKey, 16);
if (gcrypt_err != 0) {
gcry_mac_close(mac_hd);
return 0;
}
/* TS 33.501 D.4.3 defers to TS 33.401 B.2.3 */
/* Extract the encrypted data into a buffer */
header_length = tvb_reported_length(header_tvb);
message_length = tvb_captured_length_remaining(tvb, offset) - 4;
message_data = (uint8_t *)wmem_alloc0(pinfo->pool, 8+header_length+message_length-sdap_length);
message_data[0] = (pdu_security_settings->count & 0xff000000) >> 24;
message_data[1] = (pdu_security_settings->count & 0x00ff0000) >> 16;
message_data[2] = (pdu_security_settings->count & 0x0000ff00) >> 8;
message_data[3] = (pdu_security_settings->count & 0x000000ff);
message_data[4] = (pdu_security_settings->bearer << 3) + (pdu_security_settings->direction << 2);
/* rest of first 8 bytes are left as zeroes... */
/* Now the header bytes */
tvb_memcpy(header_tvb, message_data+8, 0, header_length);
/* Followed by the decrypted message (but not the digest bytes or any SDAP bytes) */
tvb_memcpy(tvb, message_data+8+header_length, offset+sdap_length, message_length-sdap_length);
/* Show message data in security tree */
proto_item *integ_data_ti = proto_tree_add_bytes_with_length(security_tree, hf_pdcp_nr_security_integrity_data,
tvb, 0, 0, message_data,
8+header_length+message_length-sdap_length);
proto_item_set_generated(integ_data_ti);
/* Pass in the message */
gcrypt_err = gcry_mac_write(mac_hd, message_data, 8+header_length+message_length-sdap_length);
if (gcrypt_err != 0) {
gcry_mac_close(mac_hd);
return 0;
}
/* Read out the digest */
gcrypt_err = gcry_mac_read(mac_hd, mac, &read_digest_length);
if (gcrypt_err != 0) {
gcry_mac_close(mac_hd);
return 0;
}
/* Now close the mac handle */
gcry_mac_close(mac_hd);
*calculated = true;
return ((mac[0] << 24) | (mac[1] << 16) | (mac[2] << 8) | mac[3]);
}
#ifdef HAVE_ZUC
case nia3:
{
/* ZUC */
uint32_t mac;
unsigned header_length = tvb_reported_length(header_tvb);
int message_length = tvb_captured_length_remaining(tvb, offset) - 4;
uint8_t *message_data = (uint8_t *)wmem_alloc0(pinfo->pool, header_length+message_length-sdap_length+4);
/* Data is header bytes */
tvb_memcpy(header_tvb, message_data, 0, header_length);
/* Followed by the decrypted message (but not the digest bytes) */
tvb_memcpy(tvb, message_data+header_length, offset+sdap_length, message_length-sdap_length);
/* Show message data in security tree */
proto_item *integ_data_ti = proto_tree_add_bytes_with_length(security_tree, hf_pdcp_nr_security_integrity_data,
tvb, 0, 0, message_data,
message_length+header_length);
proto_item_set_generated(integ_data_ti);
zuc_f9(pdu_security_settings->integrityKey,
pdu_security_settings->count,
pdu_security_settings->direction,
pdu_security_settings->bearer,
(message_length+header_length)*8,
(uint32_t*)message_data,
&mac);
*calculated = true;
return mac;
}
#endif
default:
/* Can't calculate */
*calculated = false;
return 0;
}
}
/* Forward declarations */
static int dissect_pdcp_nr(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data);
static void report_heur_error(proto_tree *tree, packet_info *pinfo, expert_field *eiindex,
tvbuff_t *tvb, int start, int length)
{
proto_item *ti;
proto_tree *subtree;
col_set_str(pinfo->cinfo, COL_PROTOCOL, "PDCP-NR");
col_clear(pinfo->cinfo, COL_INFO);
ti = proto_tree_add_item(tree, proto_pdcp_nr, tvb, 0, -1, ENC_NA);
subtree = proto_item_add_subtree(ti, ett_pdcp);
proto_tree_add_expert(subtree, pinfo, eiindex, tvb, start, length);
}
/* Heuristic dissector looks for supported framing protocol (see wiki page) */
static bool dissect_pdcp_nr_heur(tvbuff_t *tvb, packet_info *pinfo,
proto_tree *tree, void *data _U_)
{
int offset = 0;
struct pdcp_nr_info *p_pdcp_nr_info;
tvbuff_t *pdcp_tvb;
uint8_t tag = 0;
bool seqnumLengthTagPresent = false;
/* Needs to be at least as long as:
- the signature string
- fixed header byte(s)
- tag for data
- at least one byte of PDCP PDU payload.
However, let attempted dissection show if there are any tags at all. */
int min_length = (int)(strlen(PDCP_NR_START_STRING) + 3); /* signature */
if (tvb_captured_length_remaining(tvb, offset) < min_length) {
return false;
}
/* OK, compare with signature string */
if (tvb_strneql(tvb, offset, PDCP_NR_START_STRING, strlen(PDCP_NR_START_STRING)) != 0) {
return false;
}
offset += (int)strlen(PDCP_NR_START_STRING);
/* If redissecting, use previous info struct (if available) */
p_pdcp_nr_info = (pdcp_nr_info *)p_get_proto_data(wmem_file_scope(), pinfo, proto_pdcp_nr, 0);
if (p_pdcp_nr_info == NULL) {
/* Allocate new info struct for this frame */
p_pdcp_nr_info = wmem_new0(wmem_file_scope(), pdcp_nr_info);
/* Read fixed fields */
p_pdcp_nr_info->plane = (enum pdcp_nr_plane)tvb_get_uint8(tvb, offset++);
if (p_pdcp_nr_info->plane == NR_SIGNALING_PLANE) {
/* Signalling plane always has 12 SN bits */
p_pdcp_nr_info->seqnum_length = PDCP_NR_SN_LENGTH_12_BITS;
}
/* Read tagged fields */
while (tag != PDCP_NR_PAYLOAD_TAG) {
/* Process next tag */
tag = tvb_get_uint8(tvb, offset++);
switch (tag) {
case PDCP_NR_SEQNUM_LENGTH_TAG:
p_pdcp_nr_info->seqnum_length = tvb_get_uint8(tvb, offset);
offset++;
seqnumLengthTagPresent = true;
break;
case PDCP_NR_DIRECTION_TAG:
p_pdcp_nr_info->direction = tvb_get_uint8(tvb, offset);
offset++;
break;
case PDCP_NR_BEARER_TYPE_TAG:
p_pdcp_nr_info->bearerType = (NRBearerType)tvb_get_uint8(tvb, offset);
offset++;
break;
case PDCP_NR_BEARER_ID_TAG:
p_pdcp_nr_info->bearerId = tvb_get_uint8(tvb, offset);
offset++;
break;
case PDCP_NR_UEID_TAG:
p_pdcp_nr_info->ueid = tvb_get_ntohs(tvb, offset);
offset += 2;
break;
case PDCP_NR_ROHC_COMPRESSION_TAG:
p_pdcp_nr_info->rohc.rohc_compression = true;
break;
case PDCP_NR_ROHC_IP_VERSION_TAG:
p_pdcp_nr_info->rohc.rohc_ip_version = tvb_get_uint8(tvb, offset);
offset++;
break;
case PDCP_NR_ROHC_CID_INC_INFO_TAG:
p_pdcp_nr_info->rohc.cid_inclusion_info = true;
break;
case PDCP_NR_ROHC_LARGE_CID_PRES_TAG:
p_pdcp_nr_info->rohc.large_cid_present = true;
break;
case PDCP_NR_ROHC_MODE_TAG:
p_pdcp_nr_info->rohc.mode = (enum rohc_mode)tvb_get_uint8(tvb, offset);
offset++;
break;
case PDCP_NR_ROHC_RND_TAG:
p_pdcp_nr_info->rohc.rnd = true;
break;
case PDCP_NR_ROHC_UDP_CHECKSUM_PRES_TAG:
p_pdcp_nr_info->rohc.udp_checksum_present = true;
break;
case PDCP_NR_ROHC_PROFILE_TAG:
p_pdcp_nr_info->rohc.profile = tvb_get_ntohs(tvb, offset);
offset += 2;
break;
case PDCP_NR_MACI_PRES_TAG:
p_pdcp_nr_info->maci_present = true;
break;
case PDCP_NR_SDAP_HEADER_TAG:
p_pdcp_nr_info->sdap_header = tvb_get_uint8(tvb, offset) & 0x03;
offset++;
break;
case PDCP_NR_CIPHER_DISABLED_TAG:
p_pdcp_nr_info->ciphering_disabled = true;
break;
case PDCP_NR_PAYLOAD_TAG:
/* Have reached data, so get out of loop */
p_pdcp_nr_info->pdu_length = tvb_reported_length_remaining(tvb, offset);
continue;
default:
/* It must be a recognised tag */
report_heur_error(tree, pinfo, &ei_pdcp_nr_unknown_udp_framing_tag, tvb, offset-1, 1);
wmem_free(wmem_file_scope(), p_pdcp_nr_info);
return true;
}
}
if ((p_pdcp_nr_info->plane == NR_USER_PLANE) && (seqnumLengthTagPresent == false)) {
/* Conditional field is not present */
report_heur_error(tree, pinfo, &ei_pdcp_nr_missing_udp_framing_tag, tvb, 0, offset);
wmem_free(wmem_file_scope(), p_pdcp_nr_info);
return true;
}
/* Store info in packet */
p_add_proto_data(wmem_file_scope(), pinfo, proto_pdcp_nr, 0, p_pdcp_nr_info);
}
else {
offset = tvb_reported_length(tvb) - p_pdcp_nr_info->pdu_length;
}
/**************************************/
/* OK, now dissect as PDCP nr */
/* Create tvb that starts at actual PDCP PDU */
pdcp_tvb = tvb_new_subset_remaining(tvb, offset);
dissect_pdcp_nr(pdcp_tvb, pinfo, tree, data);
return true;
}
/******************************/
/* Main dissection function. */
static int dissect_pdcp_nr(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data)
{
const char *mode;
proto_tree *pdcp_tree = NULL;
proto_item *root_ti = NULL;
proto_item *ti;
int offset = 0;
struct pdcp_nr_info *p_pdcp_info;
tvbuff_t *rohc_tvb = NULL;
pdcp_nr_security_info_t *current_security = NULL; /* current security for this UE */
pdcp_nr_security_info_t *pdu_security; /* security in place for this PDU */
proto_tree *security_tree = NULL;
proto_item *security_ti;
tvbuff_t *payload_tvb;
pdu_security_settings_t pdu_security_settings;
bool payload_deciphered = false;
/* Initialise security settings */
memset(&pdu_security_settings, 0, sizeof(pdu_security_settings));
/* Set protocol name. */
col_set_str(pinfo->cinfo, COL_PROTOCOL, "PDCP-NR");
/* Look for attached packet info! */
p_pdcp_info = (struct pdcp_nr_info *)p_get_proto_data(wmem_file_scope(), pinfo, proto_pdcp_nr, 0);
/* Can't dissect anything without it... */
if (p_pdcp_info == NULL) {
if (!data) {
return 0;
}
p_pdcp_info = (struct pdcp_nr_info *)data;
}
/* Even if no RLC layer in this frame, query RLC table for configured drb settings */
/* Signalling plane is always 12 bits SN */
if (p_pdcp_info->plane == NR_SIGNALING_PLANE && p_pdcp_info->bearerType == Bearer_DCCH) {
p_pdcp_info->seqnum_length = PDCP_NR_SN_LENGTH_12_BITS;
}
/* If DRB channel, query rlc mappings (hopefully set from RRC) */
else if (p_pdcp_info->plane == NR_USER_PLANE) {
pdcp_bearer_parameters *params = get_rlc_nr_drb_pdcp_mapping(p_pdcp_info->ueid, p_pdcp_info->bearerId);
if (params) {
if (p_pdcp_info->direction == DIRECTION_UPLINK) {
p_pdcp_info->seqnum_length = params->pdcp_sn_bits_ul;
if (params->pdcp_sdap_ul) {
p_pdcp_info->sdap_header |= PDCP_NR_UL_SDAP_HEADER_PRESENT;
}
}
else {
p_pdcp_info->seqnum_length = params->pdcp_sn_bits_dl;
if (params->pdcp_sdap_dl) {
p_pdcp_info->sdap_header |= PDCP_NR_DL_SDAP_HEADER_PRESENT;
}
}
p_pdcp_info->maci_present = params->pdcp_integrity;
p_pdcp_info->ciphering_disabled = params->pdcp_ciphering_disabled;
}
}
/* Don't want to overwrite the RLC Info column if configured not to */
if ((global_pdcp_nr_layer_to_show == ShowRLCLayer) &&
(p_get_proto_data(wmem_file_scope(), pinfo, proto_rlc_nr, 0) != NULL)) {
col_set_writable(pinfo->cinfo, COL_INFO, false);
}
else {
/* TODO: won't help with multiple PDCP-or-traffic PDUs / frame... */
col_clear(pinfo->cinfo, COL_INFO);
col_set_writable(pinfo->cinfo, COL_INFO, true);
}
/* MACI always present for SRBs */
if ((p_pdcp_info->plane == NR_SIGNALING_PLANE) && (p_pdcp_info->bearerType == Bearer_DCCH)) {
p_pdcp_info->maci_present = true;
}
/* Create pdcp tree. */
if (tree) {
root_ti = proto_tree_add_item(tree, proto_pdcp_nr, tvb, offset, -1, ENC_NA);
pdcp_tree = proto_item_add_subtree(root_ti, ett_pdcp);
}
/* Set mode string */
mode = val_to_str_const(p_pdcp_info->rohc.mode, rohc_mode_vals, "Error");
/*****************************************************/
/* Show configuration (attached packet) info in tree */
if (pdcp_tree) {
show_pdcp_config(pinfo, tvb, pdcp_tree, p_pdcp_info);
}
/* Show ROHC mode */
if (p_pdcp_info->rohc.rohc_compression) {
col_append_fstr(pinfo->cinfo, COL_INFO, " (mode=%c)", mode[0]);
}
/***************************************/
/* UE security algorithms */
if (!PINFO_FD_VISITED(pinfo)) {
/* Look up current state by UEID */
current_security = (pdcp_nr_security_info_t*)wmem_map_lookup(pdcp_security_hash,
GUINT_TO_POINTER((unsigned)p_pdcp_info->ueid));
if (current_security != NULL) {
/* Store any result for this frame in the result table */
pdcp_nr_security_info_t *security_to_store = wmem_new(wmem_file_scope(), pdcp_nr_security_info_t);
/* Take a deep copy of the settings */
*security_to_store = *current_security;
/* But ciphering may be turned off for this channel */
if (p_pdcp_info->ciphering_disabled) {
security_to_store->ciphering = nea_disabled;
}
wmem_map_insert(pdcp_security_result_hash,
get_ueid_frame_hash_key(p_pdcp_info->ueid, pinfo->num, true),
security_to_store);
}
else {
/* No entry added from RRC, but still use configured defaults */
if ((global_default_ciphering_algorithm != nea0) ||
(global_default_integrity_algorithm != nia0)) {
/* Copy algorithms from preference defaults into new entry. */
pdcp_nr_security_info_t *security_to_store = wmem_new0(wmem_file_scope(), pdcp_nr_security_info_t);
security_to_store->ciphering = global_default_ciphering_algorithm;
security_to_store->integrity = global_default_integrity_algorithm;
security_to_store->seen_next_ul_pdu = false;
wmem_map_insert(pdcp_security_result_hash,
get_ueid_frame_hash_key(p_pdcp_info->ueid, pinfo->num, true),
security_to_store);
}
}
}
/* Show security settings for this PDU */
pdu_security = (pdcp_nr_security_info_t*)wmem_map_lookup(pdcp_security_result_hash,
get_ueid_frame_hash_key(p_pdcp_info->ueid, pinfo->num, false));
if (pdu_security != NULL) {
/* Create subtree */
security_ti = proto_tree_add_string_format(pdcp_tree,
hf_pdcp_nr_security,
tvb, 0, 0,
"", "UE Security");
security_tree = proto_item_add_subtree(security_ti, ett_pdcp_security);
proto_item_set_generated(security_ti);
/* Setup frame */
if (pdu_security->algorithm_configuration_frame &&
pinfo->num > pdu_security->algorithm_configuration_frame) {
/* Must be set, and be seen before this frame */
ti = proto_tree_add_uint(security_tree, hf_pdcp_nr_security_setup_frame,
tvb, 0, 0, pdu_security->algorithm_configuration_frame);
proto_item_set_generated(ti);
}
/* Ciphering */
ti = proto_tree_add_uint(security_tree, hf_pdcp_nr_security_ciphering_algorithm,
tvb, 0, 0, pdu_security->ciphering);
proto_item_set_generated(ti);
/* Integrity */
ti = proto_tree_add_uint(security_tree, hf_pdcp_nr_security_integrity_algorithm,
tvb, 0, 0, pdu_security->integrity);
proto_item_set_generated(ti);
/* Show algorithms in security root */
proto_item_append_text(security_ti, " (ciphering=%s, integrity=%s)",
val_to_str_const(pdu_security->ciphering, ciphering_algorithm_vals, "Unknown"),
val_to_str_const(pdu_security->integrity, integrity_algorithm_vals, "Unknown"));
pdu_security_settings.ciphering = pdu_security->ciphering;
pdu_security_settings.integrity = pdu_security->integrity;
}
/***********************************/
/* Handle PDCP header */
uint32_t seqnum = 0;
bool seqnum_set = false;
uint8_t first_byte = tvb_get_uint8(tvb, offset);
/*****************************/
/* Signalling plane messages */
if (p_pdcp_info->plane == NR_SIGNALING_PLANE) {
if (p_pdcp_info->seqnum_length != 0) {
/* Always 12 bits SN */
/* Verify 4 reserved bits are 0 */
uint8_t reserved = (first_byte & 0xf0) >> 4;
ti = proto_tree_add_item(pdcp_tree, hf_pdcp_nr_control_plane_reserved,
tvb, offset, 1, ENC_BIG_ENDIAN);
if (reserved != 0) {
expert_add_info_format(pinfo, ti, &ei_pdcp_nr_reserved_bits_not_zero,
"PDCP signalling header reserved bits not zero");
}
/* 12-bit sequence number */
proto_tree_add_item_ret_uint(pdcp_tree, hf_pdcp_nr_seq_num_12, tvb, offset, 2, ENC_BIG_ENDIAN, &seqnum);
seqnum_set = true;
write_pdu_label_and_info(root_ti, pinfo, " (SN=%-4u)", seqnum);
offset += 2;
if (tvb_captured_length_remaining(tvb, offset) == 0) {
/* Only PDCP header was captured, stop dissection here */
return offset;
}
}
}
else if (p_pdcp_info->plane == NR_USER_PLANE) {
/**********************************/
/* User-plane messages */
bool is_user_plane;
/* Data/Control flag */
proto_tree_add_item_ret_boolean(pdcp_tree, hf_pdcp_nr_data_control, tvb, offset, 1, ENC_BIG_ENDIAN, &is_user_plane);
if (is_user_plane) {
/*****************************/
/* User-plane Data */
uint32_t reserved_value;
/* Number of sequence number bits depends upon config */
switch (p_pdcp_info->seqnum_length) {
case PDCP_NR_SN_LENGTH_12_BITS:
/* 3 reserved bits */
ti = proto_tree_add_item_ret_uint(pdcp_tree, hf_pdcp_nr_reserved3, tvb, offset, 1, ENC_BIG_ENDIAN, &reserved_value);
/* Complain if not 0 */
if (reserved_value != 0) {
expert_add_info_format(pinfo, ti, &ei_pdcp_nr_reserved_bits_not_zero,
"Reserved bits have value 0x%x - should be 0x0",
reserved_value);
}
/* 12-bit sequence number */
proto_tree_add_item_ret_uint(pdcp_tree, hf_pdcp_nr_seq_num_12, tvb, offset, 2, ENC_BIG_ENDIAN, &seqnum);
seqnum_set = true;
offset += 2;
break;
case PDCP_NR_SN_LENGTH_18_BITS:
/* 5 reserved bits */
ti = proto_tree_add_item_ret_uint(pdcp_tree, hf_pdcp_nr_reserved5, tvb, offset, 1, ENC_BIG_ENDIAN, &reserved_value);
/* Complain if not 0 */
if (reserved_value != 0) {
expert_add_info_format(pinfo, ti, &ei_pdcp_nr_reserved_bits_not_zero,
"Reserved bits have value 0x%x - should be 0x0",
reserved_value);
}
/* 18-bit sequence number */
proto_tree_add_item_ret_uint(pdcp_tree, hf_pdcp_nr_seq_num_18, tvb, offset, 3, ENC_BIG_ENDIAN, &seqnum);
seqnum_set = true;
offset += 3;
break;
default:
/* Not a recognised data format!!!!! */
return 1;
}
write_pdu_label_and_info(root_ti, pinfo, " (SN=%-6u)", seqnum);
}
else {
/*******************************/
/* User-plane Control messages */
uint32_t control_pdu_type;
proto_tree_add_item_ret_uint(pdcp_tree, hf_pdcp_nr_control_pdu_type, tvb, offset, 1, ENC_BIG_ENDIAN, &control_pdu_type);
switch (control_pdu_type) {
case 0: /* PDCP status report */
{
uint32_t fmc;
unsigned not_received = 0;
unsigned i, j, l;
uint32_t len, bit_offset;
proto_tree *bitmap_tree;
proto_item *bitmap_ti = NULL;
char *buff = NULL;
#define BUFF_SIZE 89
uint32_t reserved_value;
/* 4 bits reserved */
ti = proto_tree_add_item_ret_uint(pdcp_tree, hf_pdcp_nr_reserved4, tvb, offset, 1, ENC_BIG_ENDIAN, &reserved_value);
/* Complain if not 0 */
if (reserved_value != 0) {
expert_add_info_format(pinfo, ti, &ei_pdcp_nr_reserved_bits_not_zero,
"Reserved bits have value 0x%x - should be 0x0",
reserved_value);
}
offset++;
/* First-Missing-Count */
proto_tree_add_item_ret_uint(pdcp_tree, hf_pdcp_nr_fmc, tvb, offset, 4, ENC_BIG_ENDIAN, &fmc);
offset += 4;
/* Bitmap tree */
if (tvb_reported_length_remaining(tvb, offset) > 0) {
bitmap_ti = proto_tree_add_item(pdcp_tree, hf_pdcp_nr_bitmap, tvb,
offset, -1, ENC_NA);
bitmap_tree = proto_item_add_subtree(bitmap_ti, ett_pdcp_report_bitmap);
buff = (char *)wmem_alloc(pinfo->pool, BUFF_SIZE);
len = tvb_reported_length_remaining(tvb, offset);
bit_offset = offset<<3;
/* For each byte... */
for (i=0; i<len; i++) {
uint8_t bits = tvb_get_bits8(tvb, bit_offset, 8);
for (l=0, j=0; l<8; l++) {
if ((bits << l) & 0x80) {
if (bitmap_tree) {
/* TODO: better to do mod and show as SN instead? */
j += snprintf(&buff[j], BUFF_SIZE-j, "%10u,", (unsigned)(fmc+(8*i)+l+1));
}
} else {
if (bitmap_tree) {
j += (unsigned)g_strlcpy(&buff[j], " ,", BUFF_SIZE-j);
}
not_received++;
}
}
if (bitmap_tree) {
proto_tree_add_uint_format(bitmap_tree, hf_pdcp_nr_bitmap_byte, tvb, bit_offset/8, 1, bits, "%s", buff);
}
bit_offset += 8;
}
}
if (bitmap_ti != NULL) {
proto_item_append_text(bitmap_ti, " (%u SNs not received)", not_received);
}
write_pdu_label_and_info(root_ti, pinfo, " Status Report (fmc=%u) not-received=%u",
fmc, not_received);
}
return 1;
case 1: /* ROHC Feedback */
offset++;
break; /* Drop-through to dissect feedback */
}
}
}
else {
/* Invalid plane setting...! */
write_pdu_label_and_info(root_ti, pinfo, " - INVALID PLANE (%u)",
p_pdcp_info->plane);
return 1;
}
/* Have reached the end of the header (for data frames) */
int header_length = offset;
/* Do sequence analysis if configured to. */
if (seqnum_set) {
bool do_analysis = false;
switch (global_pdcp_check_sequence_numbers) {
case false:
break;
case SEQUENCE_ANALYSIS_RLC_ONLY:
if ((p_get_proto_data(wmem_file_scope(), pinfo, proto_rlc_nr, 0) != NULL) &&
!p_pdcp_info->is_retx) {
do_analysis = true;
}
break;
case SEQUENCE_ANALYSIS_PDCP_ONLY:
if (p_get_proto_data(wmem_file_scope(), pinfo, proto_rlc_nr, 0) == NULL) {
do_analysis = true;
}
break;
}
if (do_analysis) {
checkBearerSequenceInfo(pinfo, tvb, p_pdcp_info,
seqnum, pdcp_tree, security_tree,
&pdu_security_settings);
}
}
/*******************************************************/
/* Now deal with the payload */
/*******************************************************/
/* Any SDAP bytes (between header and payload) are ignored for integrity/encryption */
unsigned sdap_length = 0;
if (p_pdcp_info->plane == NR_USER_PLANE) {
if ((p_pdcp_info->direction == PDCP_NR_DIRECTION_UPLINK && (p_pdcp_info->sdap_header & PDCP_NR_UL_SDAP_HEADER_PRESENT)) ||
(p_pdcp_info->direction == PDCP_NR_DIRECTION_DOWNLINK && (p_pdcp_info->sdap_header & PDCP_NR_DL_SDAP_HEADER_PRESENT))) {
/* Currently, all SDAP message bytes are 1 byte long */
sdap_length = 1;
}
}
/* Decipher payload if necessary */
bool should_decipher = false;
if (pdu_security && !p_pdcp_info->ciphering_disabled) {
if (p_pdcp_info->plane == NR_USER_PLANE) {
/* Should decipher DRBs if have key */
should_decipher = true;
}
else {
/* Control plane */
/* Decipher if past securityModeComplete, snf not on DL after reestRequest */
should_decipher = pdu_security->seen_next_ul_pdu && !pdu_security->dl_after_reest_request;
}
}
int pdcp_offset = offset;
payload_tvb = decipher_payload(tvb, pinfo, &offset, &pdu_security_settings, p_pdcp_info, sdap_length,
should_decipher,
&payload_deciphered);
/* Add deciphered data as a filterable field */
if (payload_deciphered) {
proto_tree_add_item(pdcp_tree, hf_pdcp_nr_security_deciphered_data,
payload_tvb, 0, tvb_reported_length(payload_tvb), ENC_NA);
}
if ((p_pdcp_info->direction == PDCP_NR_DIRECTION_DOWNLINK) && current_security && (current_security->dl_after_reest_request)) {
/* Have passed DL frame following reestRequest, so set back again */
current_security->dl_after_reest_request = false;
}
proto_item *mac_ti = NULL;
uint32_t calculated_digest = 0;
bool digest_was_calculated = false;
/* Try to calculate digest so we can check it */
if (global_pdcp_check_integrity && p_pdcp_info->maci_present) {
calculated_digest = calculate_digest(&pdu_security_settings, pinfo, security_tree,
tvb_new_subset_length(tvb, 0, header_length),
payload_tvb,
offset, sdap_length, &digest_was_calculated);
}
if (p_pdcp_info->plane == NR_SIGNALING_PLANE) {
/* Compute payload length (no MAC on common control Bearers) */
uint32_t data_length = tvb_reported_length_remaining(payload_tvb, offset);
if (p_pdcp_info->maci_present) {
data_length -= 4;
}
/* Call nr-rrc dissector (according to direction and Bearer type) if we have valid data */
if ((global_pdcp_dissect_signalling_plane_as_rrc) &&
((pdu_security == NULL) || (pdu_security->ciphering == nea0) || payload_deciphered ||
p_pdcp_info->ciphering_disabled || !pdu_security->seen_next_ul_pdu || pdu_security->dl_after_reest_request)) {
/* Get appropriate dissector handle */
dissector_handle_t rrc_handle = lookup_rrc_dissector_handle(p_pdcp_info, data_length);
if (rrc_handle != NULL) {
/* Call RRC dissector if have one */
tvbuff_t *rrc_payload_tvb = tvb_new_subset_length(payload_tvb, offset, data_length);
bool was_writable = col_get_writable(pinfo->cinfo, COL_INFO);
/* We always want to see this in the info column */
col_set_writable(pinfo->cinfo, COL_INFO, true);
/* N.B. Have seen some cases where RRC dissector throws an exception and doesn't return here, or show as malformed... */
/* Have attempted to TRY CATCH etc, but with no joy */
call_dissector_only(rrc_handle, rrc_payload_tvb, pinfo, pdcp_tree, NULL);
/* Restore to whatever it was */
col_set_writable(pinfo->cinfo, COL_INFO, was_writable);
}
else {
/* Just show data */
proto_tree_add_item(pdcp_tree, hf_pdcp_nr_signalling_data, payload_tvb, offset,
data_length, ENC_NA);
}
/* After payload - have we seen SecurityModResponse? */
if (!PINFO_FD_VISITED(pinfo) &&
(current_security != NULL) && !current_security->seen_next_ul_pdu &&
p_pdcp_info->direction == PDCP_NR_DIRECTION_UPLINK)
{
/* i.e. we have now seen SecurityModeComplete ! */
/* Set current security for UE, but not value stored for this PDU */
current_security->seen_next_ul_pdu = true;
}
}
else {
/* Just show as unparsed data */
proto_tree_add_item(pdcp_tree, hf_pdcp_nr_signalling_data, payload_tvb, offset,
data_length, ENC_NA);
}
}
else if (tvb_captured_length_remaining(payload_tvb, offset)) {
/* User-plane payload here. */
int payload_length = tvb_reported_length_remaining(payload_tvb, offset) - ((p_pdcp_info->maci_present) ? 4 : 0);
if (sdap_length) {
/* SDAP (not to be taken from decrypted payload) */
proto_item *sdap_ti;
proto_tree *sdap_tree;
uint32_t qfi;
/* Protocol subtree */
sdap_ti = proto_tree_add_item(pdcp_tree, proto_sdap, tvb, pdcp_offset, 1, ENC_NA);
sdap_tree = proto_item_add_subtree(sdap_ti, ett_sdap);
if (p_pdcp_info->direction == PDCP_NR_DIRECTION_UPLINK) {
bool data_control;
proto_tree_add_item_ret_boolean(sdap_tree, hf_sdap_data_control, tvb, pdcp_offset, 1, ENC_NA, &data_control);
proto_tree_add_item(sdap_tree, hf_sdap_reserved, tvb, pdcp_offset, 1, ENC_NA);
proto_item_append_text(sdap_ti, " (%s", tfs_get_string(data_control, &tfs_data_pdu_control_pdu));
} else {
bool rdi, rqi;
proto_tree_add_item_ret_boolean(sdap_tree, hf_sdap_rdi, tvb, pdcp_offset, 1, ENC_NA, &rdi);
proto_tree_add_item_ret_boolean(sdap_tree, hf_sdap_rqi, tvb, pdcp_offset, 1, ENC_NA, &rqi);
proto_item_append_text(sdap_ti, " (RDI=%s, RQI=%s",
tfs_get_string(rdi, &sdap_rdi), tfs_get_string(rqi, &sdap_rqi));
}
/* QFI is common to both directions */
proto_tree_add_item_ret_uint(sdap_tree, hf_sdap_qfi, tvb, pdcp_offset, 1, ENC_NA, &qfi);
/* Did SDAP come out of main tvb? If ciphered, was already taken off the front.. */
if (!payload_deciphered) {
offset += sdap_length;
payload_length -= sdap_length;
}
proto_item_append_text(sdap_ti, " QFI=%u)", qfi);
}
if (payload_length > 0) {
/* If not compressed with ROHC, show as user-plane data */
if (!p_pdcp_info->rohc.rohc_compression) {
/* Not attempting to decode payload if payload ciphered and we did decipher */
if (global_pdcp_dissect_user_plane_as_ip &&
((pdu_security == NULL) || (pdu_security->ciphering == nea0) || payload_deciphered)) {
tvbuff_t *ip_payload_tvb = tvb_new_subset_length(payload_tvb, offset, payload_length);
/* Don't update info column for ROHC unless configured to */
if (global_pdcp_nr_layer_to_show != ShowTrafficLayer) {
col_set_writable(pinfo->cinfo, COL_INFO, false);
}
switch (tvb_get_uint8(ip_payload_tvb, 0) & 0xf0) {
case 0x40:
call_dissector_only(ip_handle, ip_payload_tvb, pinfo, pdcp_tree, NULL);
break;
case 0x60:
call_dissector_only(ipv6_handle, ip_payload_tvb, pinfo, pdcp_tree, NULL);
break;
default:
call_data_dissector(ip_payload_tvb, pinfo, pdcp_tree);
break;
}
/* Freeze the columns again because we don't want other layers writing to info */
if (global_pdcp_nr_layer_to_show == ShowTrafficLayer) {
col_set_writable(pinfo->cinfo, COL_INFO, false);
}
}
else {
proto_tree_add_item(pdcp_tree, hf_pdcp_nr_user_plane_data, payload_tvb, offset, payload_length, ENC_NA);
}
}
else {
/***************************/
/* ROHC packets */
/***************************/
/* Only attempt ROHC if configured to */
if (!global_pdcp_dissect_rohc) {
col_append_fstr(pinfo->cinfo, COL_PROTOCOL, "|ROHC(%s)",
val_to_str_const(p_pdcp_info->rohc.profile, rohc_profile_vals, "Unknown"));
proto_tree_add_item(pdcp_tree, hf_pdcp_nr_user_plane_data, payload_tvb, offset, payload_length, ENC_NA);
}
else {
rohc_tvb = tvb_new_subset_length(payload_tvb, offset, payload_length);
/* Only enable writing to column if configured to show ROHC */
if (global_pdcp_nr_layer_to_show != ShowTrafficLayer) {
col_set_writable(pinfo->cinfo, COL_INFO, false);
}
else {
col_clear(pinfo->cinfo, COL_INFO);
}
/* Call the ROHC dissector */
call_dissector_with_data(rohc_handle, rohc_tvb, pinfo, tree, &p_pdcp_info->rohc);
}
}
}
}
/* MAC */
if (p_pdcp_info->maci_present) {
/* Last 4 bytes are MAC */
int mac_offset = tvb_reported_length(payload_tvb)-4;
uint32_t mac;
mac_ti = proto_tree_add_item_ret_uint(pdcp_tree, hf_pdcp_nr_mac, payload_tvb, mac_offset, 4, ENC_BIG_ENDIAN, &mac);
offset += 4;
if (digest_was_calculated) {
/* Compare what was found with calculated value! */
if (mac != calculated_digest) {
expert_add_info_format(pinfo, mac_ti, &ei_pdcp_nr_digest_wrong,
"MAC-I Digest wrong - calculated %08x but found %08x",
calculated_digest, mac);
proto_item_append_text(mac_ti, " (but calculated 0x%08x !)", calculated_digest);
}
else {
proto_item_append_text(mac_ti, " [Matches calculated result]");
}
}
col_append_fstr(pinfo->cinfo, COL_INFO, " MAC=0x%08x", mac);
}
/* Let RLC write to columns again */
col_set_writable(pinfo->cinfo, COL_INFO, global_pdcp_nr_layer_to_show == ShowRLCLayer);
return tvb_captured_length(tvb);
}
void proto_register_pdcp_nr(void)
{
static hf_register_info hf_pdcp[] =
{
{ &hf_pdcp_nr_configuration,
{ "Configuration",
"pdcp-nr.configuration", FT_STRING, BASE_NONE, NULL, 0x0,
"Configuration info passed into dissector", HFILL
}
},
{ &hf_pdcp_nr_direction,
{ "Direction",
"pdcp-nr.direction", FT_UINT8, BASE_DEC, VALS(direction_vals), 0x0,
"Direction of message", HFILL
}
},
{ &hf_pdcp_nr_ueid,
{ "UE",
"pdcp-nr.ueid", FT_UINT16, BASE_DEC, 0, 0x0,
"UE Identifier", HFILL
}
},
{ &hf_pdcp_nr_bearer_type,
{ "Bearer type",
"pdcp-nr.Bearer-type", FT_UINT8, BASE_DEC, VALS(bearer_type_vals), 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_bearer_id,
{ "Bearer Id",
"pdcp-nr.bearer-id", FT_UINT8, BASE_DEC, 0, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_plane,
{ "Plane",
"pdcp-nr.plane", FT_UINT8, BASE_DEC, VALS(pdcp_plane_vals), 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_seqnum_length,
{ "Seqnum length",
"pdcp-nr.seqnum_length", FT_UINT8, BASE_DEC, NULL, 0x0,
"Sequence Number Length", HFILL
}
},
{ &hf_pdcp_nr_maci_present,
{ "MAC-I Present",
"pdcp-nr.maci_present", FT_BOOLEAN, BASE_NONE, NULL, 0x0,
"Indicates whether MAC-I digest bytes are expected", HFILL
}
},
{ &hf_pdcp_nr_sdap,
{ "SDAP header",
"pdcp-nr.sdap", FT_BOOLEAN, BASE_NONE, TFS(&tfs_present_not_present), 0x0,
"Indicates whether SDAP appears after PDCP headers", HFILL
}
},
{ &hf_pdcp_nr_ciphering_disabled,
{ "Ciphering disabled",
"pdcp-nr.ciphering-disabled", FT_BOOLEAN, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_rohc_compression,
{ "ROHC Compression",
"pdcp-nr.rohc.compression", FT_BOOLEAN, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_rohc_mode,
{ "ROHC Mode",
"pdcp-nr.rohc.mode", FT_UINT8, BASE_DEC, VALS(rohc_mode_vals), 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_rohc_rnd,
{ "RND",
"pdcp-nr.rohc.rnd", FT_BOOLEAN, BASE_NONE, NULL, 0x0,
"RND of outer ip header", HFILL
}
},
{ &hf_pdcp_nr_rohc_udp_checksum_present,
{ "UDP Checksum",
"pdcp-nr.rohc.checksum-present", FT_BOOLEAN, BASE_NONE, NULL, 0x0,
"UDP Checksum present", HFILL
}
},
{ &hf_pdcp_nr_rohc_profile,
{ "ROHC profile",
"pdcp-nr.rohc.profile", FT_UINT16, BASE_DEC, VALS(rohc_profile_vals), 0x0,
"ROHC Mode", HFILL
}
},
{ &hf_pdcp_nr_cid_inclusion_info,
{ "CID Inclusion Info",
"pdcp-nr.cid-inclusion-info", FT_BOOLEAN, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_large_cid_present,
{ "Large CID Present",
"pdcp-nr.large-cid-present", FT_BOOLEAN, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_control_plane_reserved,
{ "Reserved",
"pdcp-nr.reserved", FT_UINT8, BASE_DEC, NULL, 0xf0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_reserved3,
{ "Reserved",
"pdcp-nr.reserved3", FT_UINT8, BASE_HEX, NULL, 0x70,
"3 reserved bits", HFILL
}
},
{ &hf_pdcp_nr_seq_num_12,
{ "Seq Num",
"pdcp-nr.seq-num", FT_UINT16, BASE_DEC, NULL, 0x0fff,
"PDCP Seq num", HFILL
}
},
{ &hf_pdcp_nr_reserved5,
{ "Reserved",
"pdcp-nr.reserved5", FT_UINT8, BASE_HEX, NULL, 0x7c,
"5 reserved bits", HFILL
}
},
{ &hf_pdcp_nr_seq_num_18,
{ "Seq Num",
"pdcp-nr.seq-num", FT_UINT24, BASE_DEC, NULL, 0x03ffff,
"PDCP Seq num", HFILL
}
},
{ &hf_pdcp_nr_signalling_data,
{ "Signalling Data",
"pdcp-nr.signalling-data", FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_mac,
{ "MAC",
"pdcp-nr.mac", FT_UINT32, BASE_HEX, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_data_control,
{ "PDU Type",
"pdcp-nr.pdu-type", FT_BOOLEAN, 8, TFS(&tfs_data_pdu_control_pdu), 0x80,
NULL, HFILL
}
},
{ &hf_pdcp_nr_user_plane_data,
{ "User-Plane Data",
"pdcp-nr.user-data", FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_control_pdu_type,
{ "Control PDU Type",
"pdcp-nr.control-pdu-type", FT_UINT8, BASE_HEX, VALS(control_pdu_type_vals), 0x70,
NULL, HFILL
}
},
{ &hf_pdcp_nr_fmc,
{ "First Missing Count",
"pdcp-nr.fmc", FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_reserved4,
{ "Reserved",
"pdcp-nr.reserved4", FT_UINT8, BASE_HEX, NULL, 0x0f,
"4 reserved bits", HFILL
}
},
{ &hf_pdcp_nr_bitmap,
{ "Bitmap",
"pdcp-nr.bitmap", FT_NONE, BASE_NONE, NULL, 0x0,
"Status report bitmap (0=error, 1=OK)", HFILL
}
},
{ &hf_pdcp_nr_bitmap_byte,
{ "Bitmap byte",
"pdcp-nr.bitmap.byte", FT_UINT8, BASE_HEX, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_sequence_analysis,
{ "Sequence Analysis",
"pdcp-nr.sequence-analysis", FT_STRING, BASE_NONE, 0, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_sequence_analysis_ok,
{ "OK",
"pdcp-nr.sequence-analysis.ok", FT_BOOLEAN, BASE_NONE, 0, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_sequence_analysis_previous_frame,
{ "Previous frame for Bearer",
"pdcp-nr.sequence-analysis.previous-frame", FT_FRAMENUM, BASE_NONE, 0, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_sequence_analysis_next_frame,
{ "Next frame for Bearer",
"pdcp-nr.sequence-analysis.next-frame", FT_FRAMENUM, BASE_NONE, 0, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_sequence_analysis_expected_sn,
{ "Expected SN",
"pdcp-nr.sequence-analysis.expected-sn", FT_UINT32, BASE_DEC, 0, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_sequence_analysis_skipped,
{ "Skipped frames",
"pdcp-nr.sequence-analysis.skipped-frames", FT_BOOLEAN, BASE_NONE, 0, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_sequence_analysis_repeated,
{ "Repeated frame",
"pdcp-nr.sequence-analysis.repeated-frame", FT_BOOLEAN, BASE_NONE, 0, 0x0,
NULL, HFILL
}
},
/* Security fields */
{ &hf_pdcp_nr_security,
{ "Security Config",
"pdcp-nr.security-config", FT_STRING, BASE_NONE, 0, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_security_setup_frame,
{ "Configuration frame",
"pdcp-nr.security-config.setup-frame", FT_FRAMENUM, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_security_integrity_algorithm,
{ "Integrity Algorithm",
"pdcp-nr.security-config.integrity", FT_UINT16, BASE_DEC, VALS(integrity_algorithm_vals), 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_security_ciphering_algorithm,
{ "Ciphering Algorithm",
"pdcp-nr.security-config.ciphering", FT_UINT16, BASE_DEC, VALS(ciphering_algorithm_vals), 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_security_bearer,
{ "BEARER",
"pdcp-nr.security-config.bearer", FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_security_direction,
{ "DIRECTION",
"pdcp-nr.security-config.direction", FT_UINT8, BASE_DEC, VALS(direction_vals), 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_security_count,
{ "COUNT",
"pdcp-nr.security-config.count", FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_security_cipher_key,
{ "CIPHER KEY",
"pdcp-nr.security-config.cipher-key", FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_security_integrity_key,
{ "INTEGRITY KEY",
"pdcp-nr.security-config.integrity-key", FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_security_cipher_key_setup_frame,
{ "CIPHER KEY setup",
"pdcp-nr.security-config.cipher-key.setup-frame", FT_FRAMENUM, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_security_integrity_key_setup_frame,
{ "INTEGRITY KEY setup",
"pdcp-nr.security-config.integrity-key.setup-frame", FT_FRAMENUM, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_security_deciphered_data,
{ "Deciphered Data",
"pdcp-nr.deciphered-data", FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_pdcp_nr_security_integrity_data,
{ "Integrity Data",
"pdcp-nr.integrity-data", FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
};
static hf_register_info hf_sdap[] =
{
{ &hf_sdap_rdi,
{ "RDI",
"sdap.rdi", FT_BOOLEAN, 8, TFS(&sdap_rdi), 0x80,
"Reflective QoS flow to DRB mapping Indication", HFILL
}
},
{ &hf_sdap_rqi,
{ "RQI",
"sdap.rqi", FT_BOOLEAN, 8, TFS(&sdap_rqi), 0x40,
"Reflective QoS Indication", HFILL
}
},
{ &hf_sdap_qfi,
{ "QFI",
"sdap.qfi", FT_UINT8, BASE_DEC, NULL, 0x3f,
"QoS Flow ID", HFILL
}
},
{ &hf_sdap_data_control,
{ "PDU Type",
"sdap.pdu-type", FT_BOOLEAN, 8, TFS(&tfs_data_pdu_control_pdu), 0x80,
NULL, HFILL
}
},
{ &hf_sdap_reserved,
{ "Reserved",
"sdap.reserved", FT_UINT8, BASE_HEX, NULL, 0x40,
NULL, HFILL
}
}
};
static int *ett[] =
{
&ett_pdcp,
&ett_pdcp_configuration,
&ett_pdcp_packet,
&ett_pdcp_nr_sequence_analysis,
&ett_pdcp_report_bitmap,
&ett_sdap,
&ett_pdcp_security
};
static ei_register_info ei[] = {
{ &ei_pdcp_nr_sequence_analysis_sn_missing_ul, { "pdcp-nr.sequence-analysis.sn-missing-ul", PI_SEQUENCE, PI_WARN, "UL PDCP SNs missing", EXPFILL }},
{ &ei_pdcp_nr_sequence_analysis_sn_missing_dl, { "pdcp-nr.sequence-analysis.sn-missing-dl", PI_SEQUENCE, PI_WARN, "DL PDCP SNs missing", EXPFILL }},
{ &ei_pdcp_nr_sequence_analysis_sn_repeated_ul, { "pdcp-nr.sequence-analysis.sn-repeated-ul", PI_SEQUENCE, PI_WARN, "UL PDCP SNs repeated", EXPFILL }},
{ &ei_pdcp_nr_sequence_analysis_sn_repeated_dl, { "pdcp-nr.sequence-analysis.sn-repeated-dl", PI_SEQUENCE, PI_WARN, "DL PDCP SNs repeated", EXPFILL }},
{ &ei_pdcp_nr_sequence_analysis_wrong_sequence_number_ul, { "pdcp-nr.sequence-analysis.wrong-sequence-number-ul", PI_SEQUENCE, PI_WARN, "UL Wrong Sequence Number", EXPFILL }},
{ &ei_pdcp_nr_sequence_analysis_wrong_sequence_number_dl, { "pdcp-nr.sequence-analysis.wrong-sequence-number-dl", PI_SEQUENCE, PI_WARN, "DL Wrong Sequence Number", EXPFILL }},
{ &ei_pdcp_nr_reserved_bits_not_zero, { "pdcp-nr.reserved-bits-not-zero", PI_MALFORMED, PI_ERROR, "Reserved bits not zero", EXPFILL }},
{ &ei_pdcp_nr_digest_wrong, { "pdcp-nr.maci-wrong", PI_SEQUENCE, PI_ERROR, "MAC-I doesn't match expected value", EXPFILL }},
{ &ei_pdcp_nr_unknown_udp_framing_tag, { "pdcp-nr.unknown-udp-framing-tag", PI_UNDECODED, PI_WARN, "Unknown UDP framing tag, aborting dissection", EXPFILL }},
{ &ei_pdcp_nr_missing_udp_framing_tag, { "pdcp-nr.missing-udp-framing-tag", PI_UNDECODED, PI_WARN, "Missing UDP framing conditional tag, aborting dissection", EXPFILL }}
};
static const enum_val_t sequence_analysis_vals[] = {
{"no-analysis", "No-Analysis", false},
{"rlc-only", "Only-RLC-frames", SEQUENCE_ANALYSIS_RLC_ONLY},
{"pdcp-only", "Only-PDCP-frames", SEQUENCE_ANALYSIS_PDCP_ONLY},
{NULL, NULL, -1}
};
static const enum_val_t show_info_col_vals[] = {
{"show-rlc", "RLC Info", ShowRLCLayer},
{"show-pdcp", "PDCP Info", ShowPDCPLayer},
{"show-traffic", "Traffic Info", ShowTrafficLayer},
{NULL, NULL, -1}
};
static const enum_val_t default_ciphering_algorithm_vals[] = {
{"nea0", "NEA0 (NULL)", nea0},
{"nea1", "NEA1 (SNOW3G)", nea1},
{"nea2", "NEA2 (AES)", nea2},
{"nea3", "NEA3 (ZUC)", nea3},
{NULL, NULL, -1}
};
static const enum_val_t default_integrity_algorithm_vals[] = {
{"nia0", "NIA0 (NULL)", nia0},
{"nia1", "NIA1 (SNOW3G)", nia1},
{"nia2", "NIA2 (AES)", nia2},
{"nia3", "NIA3 (ZUC)", nia3},
{NULL, NULL, -1}
};
static uat_field_t ue_keys_uat_flds[] = {
UAT_FLD_DEC(uat_ue_keys_records, ueid, "UEId", "UE Identifier of UE associated with keys"),
UAT_FLD_CSTRING(uat_ue_keys_records, rrcCipherKeyString, "RRC Cipher Key", "Key for deciphering signalling messages"),
UAT_FLD_CSTRING(uat_ue_keys_records, upCipherKeyString, "User-Plane Cipher Key", "Key for deciphering user-plane messages"),
UAT_FLD_CSTRING(uat_ue_keys_records, rrcIntegrityKeyString, "RRC Integrity Key", "Key for calculating signalling integrity MAC"),
UAT_FLD_CSTRING(uat_ue_keys_records, upIntegrityKeyString, "User-Plane Integrity Key", "Key for calculating user-plane integrity MAC"),
UAT_END_FIELDS
};
module_t *pdcp_nr_module;
expert_module_t* expert_pdcp_nr;
/* Register protocol. */
proto_pdcp_nr = proto_register_protocol("PDCP-NR", "PDCP-NR", "pdcp-nr");
proto_register_field_array(proto_pdcp_nr, hf_pdcp, array_length(hf_pdcp));
proto_register_subtree_array(ett, array_length(ett));
expert_pdcp_nr = expert_register_protocol(proto_pdcp_nr);
expert_register_field_array(expert_pdcp_nr, ei, array_length(ei));
proto_sdap = proto_register_protocol("SDAP", "SDAP", "sdap");
proto_register_field_array(proto_sdap, hf_sdap, array_length(hf_sdap));
/* Allow other dissectors to find this one by name. */
register_dissector("pdcp-nr", dissect_pdcp_nr, proto_pdcp_nr);
pdcp_nr_module = prefs_register_protocol(proto_pdcp_nr, NULL);
/* Dissect uncompressed user-plane data as IP */
prefs_register_bool_preference(pdcp_nr_module, "show_user_plane_as_ip",
"Show uncompressed User-Plane data as IP",
"Show uncompressed User-Plane data as IP",
&global_pdcp_dissect_user_plane_as_ip);
/* Dissect unciphered signalling data as RRC */
prefs_register_bool_preference(pdcp_nr_module, "show_signalling_plane_as_rrc",
"Show unciphered Signalling-Plane data as RRC",
"Show unciphered Signalling-Plane data as RRC",
&global_pdcp_dissect_signalling_plane_as_rrc);
/* Check for missing sequence numbers */
prefs_register_enum_preference(pdcp_nr_module, "check_sequence_numbers",
"Do sequence number analysis",
"Do sequence number analysis",
&global_pdcp_check_sequence_numbers, sequence_analysis_vals, false);
/* Attempt to dissect ROHC messages */
prefs_register_bool_preference(pdcp_nr_module, "dissect_rohc",
"Attempt to decode ROHC data",
"Attempt to decode ROHC data",
&global_pdcp_dissect_rohc);
prefs_register_obsolete_preference(pdcp_nr_module, "heuristic_pdcp_nr_over_udp");
prefs_register_enum_preference(pdcp_nr_module, "layer_to_show",
"Which layer info to show in Info column",
"Can show RLC, PDCP or Traffic layer info in Info column",
&global_pdcp_nr_layer_to_show, show_info_col_vals, false);
ue_keys_uat = uat_new("PDCP UE security keys",
sizeof(uat_ue_keys_record_t), /* record size */
"pdcp_nr_ue_keys", /* filename */
true, /* from_profile */
&uat_ue_keys_records, /* data_ptr */
&num_ue_keys_uat, /* numitems_ptr */
UAT_AFFECTS_DISSECTION, /* affects dissection of packets, but not set of named fields */
NULL, /* help */
uat_ue_keys_record_copy_cb, /* copy callback */
uat_ue_keys_record_update_cb, /* update callback */
uat_ue_keys_record_free_cb, /* free callback */
NULL, /* post update callback */
NULL, /* reset callback */
ue_keys_uat_flds); /* UAT field definitions */
prefs_register_uat_preference(pdcp_nr_module,
"ue_keys_table",
"PDCP UE Keys",
"Preconfigured PDCP keys",
ue_keys_uat);
prefs_register_enum_preference(pdcp_nr_module, "default_ciphering_algorithm",
"Ciphering algorithm to use if not signalled",
"If RRC Security Info not seen, e.g. in Handover",
(int*)&global_default_ciphering_algorithm, default_ciphering_algorithm_vals, false);
prefs_register_enum_preference(pdcp_nr_module, "default_integrity_algorithm",
"Integrity algorithm to use if not signalled",
"If RRC Security Info not seen, e.g. in Handover",
(int*)&global_default_integrity_algorithm, default_integrity_algorithm_vals, false);
/* Attempt to decipher RRC messages */
prefs_register_bool_preference(pdcp_nr_module, "decipher_signalling",
"Attempt to decipher Signalling (RRC) SDUs",
"N.B. only possible if build with algorithm support, and have key available and configured",
&global_pdcp_decipher_signalling);
/* Attempt to decipher user-plane messages */
prefs_register_bool_preference(pdcp_nr_module, "decipher_userplane",
"Attempt to decipher User-plane (IP) SDUs",
"N.B. only possible if build with algorithm support, and have key available and configured",
&global_pdcp_decipher_userplane);
/* Attempt to verify RRC integrity/authentication digest */
prefs_register_bool_preference(pdcp_nr_module, "verify_integrity",
"Attempt to check integrity calculation",
"N.B. only possible if build with algorithm support, and have key available and configured",
&global_pdcp_check_integrity);
prefs_register_bool_preference(pdcp_nr_module, "ignore_rrc_sec_params",
"Ignore RRC security parameters",
"Ignore the NR RRC security algorithm configuration, to be used when PDCP is already deciphered in the capture",
&global_pdcp_ignore_sec);
pdcp_sequence_analysis_bearer_hash = wmem_map_new_autoreset(wmem_epan_scope(), wmem_file_scope(), g_direct_hash, g_direct_equal);
pdcp_nr_sequence_analysis_report_hash = wmem_map_new_autoreset(wmem_epan_scope(), wmem_file_scope(), pdcp_result_hash_func, pdcp_result_hash_equal);
pdcp_security_hash = wmem_map_new_autoreset(wmem_epan_scope(), wmem_file_scope(), g_direct_hash, g_direct_equal);
pdcp_security_result_hash = wmem_map_new_autoreset(wmem_epan_scope(), wmem_file_scope(), pdcp_nr_ueid_frame_hash_func, pdcp_nr_ueid_frame_hash_equal);
pdcp_security_key_hash = wmem_map_new_autoreset(wmem_epan_scope(), wmem_file_scope(), g_direct_hash, g_direct_equal);
}
void proto_reg_handoff_pdcp_nr(void)
{
/* Add as a heuristic UDP dissector */
heur_dissector_add("udp", dissect_pdcp_nr_heur, "PDCP-NR over UDP", "pdcp_nr_udp", proto_pdcp_nr, HEURISTIC_DISABLE);
ip_handle = find_dissector_add_dependency("ip", proto_pdcp_nr);
ipv6_handle = find_dissector_add_dependency("ipv6", proto_pdcp_nr);
rohc_handle = find_dissector_add_dependency("rohc", proto_pdcp_nr);
nr_rrc_ul_ccch = find_dissector_add_dependency("nr-rrc.ul.ccch", proto_pdcp_nr);
nr_rrc_ul_ccch1 = find_dissector_add_dependency("nr-rrc.ul.ccch1", proto_pdcp_nr);
nr_rrc_dl_ccch = find_dissector_add_dependency("nr-rrc.dl.ccch", proto_pdcp_nr);
nr_rrc_pcch = find_dissector_add_dependency("nr-rrc.pcch", proto_pdcp_nr);
nr_rrc_bcch_bch = find_dissector_add_dependency("nr-rrc.bcch.bch", proto_pdcp_nr);
nr_rrc_bcch_dl_sch = find_dissector_add_dependency("nr-rrc.bcch.dl.sch", proto_pdcp_nr);
nr_rrc_ul_dcch = find_dissector_add_dependency("nr-rrc.ul.dcch", proto_pdcp_nr);
nr_rrc_dl_dcch = find_dissector_add_dependency("nr-rrc.dl.dcch", proto_pdcp_nr);
}
/*
* Editor modelines
*
* Local Variables:
* c-basic-offset: 4
* tab-width: 8
* indent-tabs-mode: nil
* End:
*
* ex: set shiftwidth=4 tabstop=8 expandtab:
* :indentSize=4:tabSize=8:noTabs=true:
*/
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