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|
/* packet-socketcan.c
* Routines for disassembly of packets from SocketCAN
* Felix Obenhuber <felix@obenhuber.de>
*
* Added support for the DeviceNet Dissector
* Hans-Joergen Gunnarsson <hag@hms.se>
* Copyright 2013
*
* 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/decode_as.h>
#include <epan/uat.h>
#include <wiretap/wtap.h>
#include "packet-sll.h"
#include "packet-socketcan.h"
void proto_register_socketcan(void);
void proto_reg_handoff_socketcan(void);
static int hf_can_len = -1;
static int hf_can_infoent_ext = -1;
static int hf_can_infoent_std = -1;
static int hf_can_extflag = -1;
static int hf_can_rtrflag = -1;
static int hf_can_errflag = -1;
static int hf_can_reserved = -1;
static int hf_can_padding = -1;
static int hf_can_err_tx_timeout = -1;
static int hf_can_err_lostarb = -1;
static int hf_can_err_ctrl = -1;
static int hf_can_err_prot = -1;
static int hf_can_err_trx = -1;
static int hf_can_err_ack = -1;
static int hf_can_err_busoff = -1;
static int hf_can_err_buserror = -1;
static int hf_can_err_restarted = -1;
static int hf_can_err_reserved = -1;
static int hf_can_err_lostarb_bit_number = -1;
static int hf_can_err_ctrl_rx_overflow = -1;
static int hf_can_err_ctrl_tx_overflow = -1;
static int hf_can_err_ctrl_rx_warning = -1;
static int hf_can_err_ctrl_tx_warning = -1;
static int hf_can_err_ctrl_rx_passive = -1;
static int hf_can_err_ctrl_tx_passive = -1;
static int hf_can_err_ctrl_active = -1;
static int hf_can_err_prot_error_type_bit = -1;
static int hf_can_err_prot_error_type_form = -1;
static int hf_can_err_prot_error_type_stuff = -1;
static int hf_can_err_prot_error_type_bit0 = -1;
static int hf_can_err_prot_error_type_bit1 = -1;
static int hf_can_err_prot_error_type_overload = -1;
static int hf_can_err_prot_error_type_active = -1;
static int hf_can_err_prot_error_type_tx = -1;
static int hf_can_err_prot_error_location = -1;
static int hf_can_err_trx_canh = -1;
static int hf_can_err_trx_canl = -1;
static int hf_can_err_ctrl_specific = -1;
static int hf_canxl_priority = -1;
static int hf_canxl_vcid = -1;
static int hf_canxl_secflag = -1;
static int hf_canxl_sdu_type = -1;
static int hf_canxl_len = -1;
static int hf_canxl_acceptance_field = -1;
static expert_field ei_can_err_dlc_mismatch = EI_INIT;
static int hf_canfd_brsflag = -1;
static int hf_canfd_esiflag = -1;
static gint ett_can = -1;
static gint ett_can_fd = -1;
static gint ett_can_xl = -1;
static int proto_can = -1;
static int proto_canfd = -1;
static int proto_canxl = -1;
static gboolean byte_swap = FALSE;
static gboolean heuristic_first = FALSE;
static heur_dissector_list_t heur_subdissector_list;
static heur_dtbl_entry_t *heur_dtbl_entry;
#define LINUX_CAN_STD 0
#define LINUX_CAN_EXT 1
#define LINUX_CAN_ERR 2
#define CAN_LEN_OFFSET 4
#define CAN_DATA_OFFSET 8
#define CANFD_FLAG_OFFSET 5
#define CANFD_BRS 0x01 /* bit rate switch (second bitrate for payload data) */
#define CANFD_ESI 0x02 /* error state indicator of the transmitting node */
#define CANXL_LEN_OFFSET 6
#define CANXL_DATA_OFFSET 12
static dissector_table_t can_id_dissector_table = NULL;
static dissector_table_t can_extended_id_dissector_table = NULL;
static dissector_table_t subdissector_table = NULL;
static dissector_table_t canxl_sdu_type_dissector_table = NULL;
static dissector_handle_t socketcan_classic_handle;
static dissector_handle_t socketcan_fd_handle;
static dissector_handle_t socketcan_xl_handle;
static dissector_handle_t socketcan_bigendian_handle;
static const value_string can_err_prot_error_location_vals[] = {
{ 0x00, "unspecified" },
{ 0x02, "ID bits 28 - 21 (SFF: 10 - 3)" },
{ 0x03, "start of frame" },
{ 0x04, "substitute RTR (SFF: RTR)" },
{ 0x05, "identifier extension" },
{ 0x06, "ID bits 20 - 18 (SFF: 2 - 0)" },
{ 0x07, "ID bits 17-13" },
{ 0x08, "CRC sequence" },
{ 0x09, "reserved bit 0" },
{ 0x0A, "data section" },
{ 0x0B, "data length code" },
{ 0x0C, "RTR" },
{ 0x0D, "reserved bit 1" },
{ 0x0E, "ID bits 4-0" },
{ 0x0F, "ID bits 12-5" },
{ 0x12, "intermission" },
{ 0x18, "CRC delimiter" },
{ 0x19, "ACK slot" },
{ 0x1A, "end of frame" },
{ 0x1B, "ACK delimiter" },
{ 0, NULL }
};
static const value_string can_err_trx_canh_vals[] = {
{ 0x00, "unspecified" },
{ 0x04, "no wire" },
{ 0x05, "short to BAT" },
{ 0x06, "short to VCC" },
{ 0x07, "short to GND" },
{ 0, NULL }
};
static const value_string can_err_trx_canl_vals[] = {
{ 0x00, "unspecified" },
{ 0x04, "no wire" },
{ 0x05, "short to BAT" },
{ 0x06, "short to VCC" },
{ 0x07, "short to GND" },
{ 0x08, "short to CANH" },
{ 0, NULL }
};
static const value_string canxl_sdu_type_vals[] = {
{ 0x00, "Reserved" },
{ CANXL_SDU_TYPE_CONTENT_BASED_ADDRESSING, "Content-based Addressing" },
{ 0x02, "Reserved for future use" },
{ CANXL_SDU_TYPE_CLASSICAL_CAN_AND_CAN_FD_MAPPED_TUNNELING, "Classical CAN/CAN FD mapped tunneling" },
{ CANXL_SDU_TYPE_IEEE_802_3_MAC_FRAME_TUNNELLING, "IEEE 802.3 (MAC frame) tunneling" },
{ CANXL_SDU_TYPE_IEEE_802_3_MAC_FRAME_MAPPED_TUNNELING, "IEEE 802.3 (MAC frame) mapped tunneling" },
{ CANXL_SDU_TYPE_CLASSICAL_CAN_MAPPED_TUNNELING, "Classical CAN mapped tunneling" },
{ CANXL_SDU_TYPE_CAN_FD_MAPPED_TUNNELING, "CAN FD mapped tunneling" },
{ 0xFF, "Reserved" },
{ 0, NULL }
};
/********* UATs *********/
/* Interface Config UAT */
typedef struct _interface_config {
guint interface_id;
gchar *interface_name;
guint bus_id;
} interface_config_t;
#define DATAFILE_CAN_INTERFACE_MAPPING "CAN_interface_mapping"
static GHashTable *data_can_interfaces_by_id = NULL;
static GHashTable *data_can_interfaces_by_name = NULL;
static interface_config_t *interface_configs = NULL;
static guint interface_config_num = 0;
UAT_HEX_CB_DEF(interface_configs, interface_id, interface_config_t)
UAT_CSTRING_CB_DEF(interface_configs, interface_name, interface_config_t)
UAT_HEX_CB_DEF(interface_configs, bus_id, interface_config_t)
static void *
copy_interface_config_cb(void *n, const void *o, size_t size _U_) {
interface_config_t *new_rec = (interface_config_t *)n;
const interface_config_t *old_rec = (const interface_config_t *)o;
new_rec->interface_id = old_rec->interface_id;
new_rec->interface_name = g_strdup(old_rec->interface_name);
new_rec->bus_id = old_rec->bus_id;
return new_rec;
}
static bool
update_interface_config(void *r, char **err) {
interface_config_t *rec = (interface_config_t *)r;
if (rec->interface_id > 0xffffffff) {
*err = ws_strdup_printf("We currently only support 32 bit identifiers (ID: %i Name: %s)",
rec->interface_id, rec->interface_name);
return FALSE;
}
if (rec->bus_id > 0xffff) {
*err = ws_strdup_printf("We currently only support 16 bit bus identifiers (ID: %i Name: %s Bus-ID: %i)",
rec->interface_id, rec->interface_name, rec->bus_id);
return FALSE;
}
return TRUE;
}
static void
free_interface_config_cb(void *r) {
interface_config_t *rec = (interface_config_t *)r;
/* freeing result of g_strdup */
g_free(rec->interface_name);
rec->interface_name = NULL;
}
static interface_config_t *
ht_lookup_interface_config_by_id(unsigned int identifier) {
interface_config_t *tmp = NULL;
unsigned int *id = NULL;
if (interface_configs == NULL) {
return NULL;
}
id = wmem_new(wmem_epan_scope(), unsigned int);
*id = (unsigned int)identifier;
tmp = (interface_config_t *)g_hash_table_lookup(data_can_interfaces_by_id, id);
wmem_free(wmem_epan_scope(), id);
return tmp;
}
static interface_config_t *
ht_lookup_interface_config_by_name(const gchar *name) {
interface_config_t *tmp = NULL;
gchar *key = NULL;
if (interface_configs == NULL) {
return NULL;
}
key = wmem_strdup(wmem_epan_scope(), name);
tmp = (interface_config_t *)g_hash_table_lookup(data_can_interfaces_by_name, key);
wmem_free(wmem_epan_scope(), key);
return tmp;
}
static void
can_free_key(gpointer key) {
wmem_free(wmem_epan_scope(), key);
}
static void
post_update_can_interfaces_cb(void) {
guint i;
int *key_id = NULL;
gchar *key_name = NULL;
/* destroy old hash tables, if they exist */
if (data_can_interfaces_by_id) {
g_hash_table_destroy(data_can_interfaces_by_id);
data_can_interfaces_by_id = NULL;
}
if (data_can_interfaces_by_name) {
g_hash_table_destroy(data_can_interfaces_by_name);
data_can_interfaces_by_name = NULL;
}
/* create new hash table */
data_can_interfaces_by_id = g_hash_table_new_full(g_int_hash, g_int_equal, &can_free_key, NULL);
data_can_interfaces_by_name = g_hash_table_new_full(g_str_hash, g_str_equal, &can_free_key, NULL);
if (data_can_interfaces_by_id == NULL || data_can_interfaces_by_name == NULL || interface_configs == NULL || interface_config_num == 0) {
return;
}
for (i = 0; i < interface_config_num; i++) {
if (interface_configs[i].interface_id != 0xfffffff) {
key_id = wmem_new(wmem_epan_scope(), int);
*key_id = interface_configs[i].interface_id;
g_hash_table_insert(data_can_interfaces_by_id, key_id, &interface_configs[i]);
}
if (interface_configs[i].interface_name != NULL && interface_configs[i].interface_name[0] != 0) {
key_name = wmem_strdup(wmem_epan_scope(), interface_configs[i].interface_name);
g_hash_table_insert(data_can_interfaces_by_name, key_name, &interface_configs[i]);
}
}
}
/* We match based on the config in the following order:
* - interface_name matches and interface_id matches
* - interface_name matches and interface_id = 0xffffffff
* - interface_name = "" and interface_id matches
*/
static guint
get_bus_id(packet_info *pinfo) {
guint32 interface_id = pinfo->rec->rec_header.packet_header.interface_id;
const char *interface_name = epan_get_interface_name(pinfo->epan, interface_id);
interface_config_t *tmp = NULL;
if (!(pinfo->rec->presence_flags & WTAP_HAS_INTERFACE_ID)) {
return 0;
}
if (interface_name != NULL && interface_name[0] != 0) {
tmp = ht_lookup_interface_config_by_name(interface_name);
if (tmp != NULL && (tmp->interface_id == 0xffffffff || tmp->interface_id == interface_id)) {
/* name + id match or name match and id = any */
return tmp->bus_id;
}
tmp = ht_lookup_interface_config_by_id(interface_id);
if (tmp != NULL && (tmp->interface_name == NULL || tmp->interface_name[0] == 0)) {
/* id matches and name is any */
return tmp->bus_id;
}
}
/* we found nothing */
return 0;
}
/* Senders and Receivers UAT */
typedef struct _sender_receiver_config {
guint bus_id;
guint can_id;
gchar *sender_name;
gchar *receiver_name;
} sender_receiver_config_t;
#define DATAFILE_CAN_SENDER_RECEIVER "CAN_senders_receivers"
static GHashTable *data_sender_receiver = NULL;
static sender_receiver_config_t *sender_receiver_configs = NULL;
static guint sender_receiver_config_num = 0;
UAT_HEX_CB_DEF(sender_receiver_configs, bus_id, sender_receiver_config_t)
UAT_HEX_CB_DEF(sender_receiver_configs, can_id, sender_receiver_config_t)
UAT_CSTRING_CB_DEF(sender_receiver_configs, sender_name, sender_receiver_config_t)
UAT_CSTRING_CB_DEF(sender_receiver_configs, receiver_name, sender_receiver_config_t)
static void *
copy_sender_receiver_config_cb(void *n, const void *o, size_t size _U_) {
sender_receiver_config_t *new_rec = (sender_receiver_config_t *)n;
const sender_receiver_config_t *old_rec = (const sender_receiver_config_t *)o;
new_rec->bus_id = old_rec->bus_id;
new_rec->can_id = old_rec->can_id;
new_rec->sender_name = g_strdup(old_rec->sender_name);
new_rec->receiver_name = g_strdup(old_rec->receiver_name);
return new_rec;
}
static bool
update_sender_receiver_config(void *r, char **err) {
sender_receiver_config_t *rec = (sender_receiver_config_t *)r;
if (rec->bus_id > 0xffff) {
*err = ws_strdup_printf("We currently only support 16 bit bus identifiers (Bus ID: %i CAN ID: %i)", rec->bus_id, rec->can_id);
return FALSE;
}
return TRUE;
}
static void
free_sender_receiver_config_cb(void *r) {
sender_receiver_config_t *rec = (sender_receiver_config_t *)r;
/* freeing result of g_strdup */
g_free(rec->sender_name);
rec->sender_name = NULL;
g_free(rec->receiver_name);
rec->receiver_name = NULL;
}
static guint64
sender_receiver_key(guint16 bus_id, guint32 can_id) {
return ((guint64)bus_id << 32) | can_id;
}
static sender_receiver_config_t *
ht_lookup_sender_receiver_config(guint16 bus_id, guint32 can_id) {
sender_receiver_config_t *tmp = NULL;
guint64 key = 0;
if (sender_receiver_configs == NULL) {
return NULL;
}
key = sender_receiver_key(bus_id, can_id);
tmp = (sender_receiver_config_t *)g_hash_table_lookup(data_sender_receiver, &key);
if (tmp == NULL) {
key = sender_receiver_key(0, can_id);
tmp = (sender_receiver_config_t *)g_hash_table_lookup(data_sender_receiver, &key);
}
return tmp;
}
static void
sender_receiver_free_key(gpointer key) {
wmem_free(wmem_epan_scope(), key);
}
static void
post_update_sender_receiver_cb(void) {
guint i;
guint64 *key_id = NULL;
/* destroy old hash table, if it exist */
if (data_sender_receiver) {
g_hash_table_destroy(data_sender_receiver);
data_sender_receiver = NULL;
}
/* create new hash table */
data_sender_receiver = g_hash_table_new_full(g_int64_hash, g_int64_equal, &sender_receiver_free_key, NULL);
if (data_sender_receiver == NULL || sender_receiver_configs == NULL || sender_receiver_config_num == 0) {
return;
}
for (i = 0; i < sender_receiver_config_num; i++) {
key_id = wmem_new(wmem_epan_scope(), guint64);
*key_id = sender_receiver_key(sender_receiver_configs[i].bus_id, sender_receiver_configs[i].can_id);
g_hash_table_insert(data_sender_receiver, key_id, &sender_receiver_configs[i]);
}
}
gboolean
socketcan_set_source_and_destination_columns(packet_info *pinfo, can_info_t *caninfo) {
sender_receiver_config_t *tmp = ht_lookup_sender_receiver_config(caninfo->bus_id, caninfo->id);
if (tmp != NULL) {
/* remove all addresses to support CAN as payload (e.g., TECMP) */
clear_address(&pinfo->net_src);
clear_address(&pinfo->dl_src);
clear_address(&pinfo->src);
clear_address(&pinfo->net_dst);
clear_address(&pinfo->dl_dst);
clear_address(&pinfo->dst);
col_add_fstr(pinfo->cinfo, COL_DEF_SRC, "%s", tmp->sender_name);
col_add_fstr(pinfo->cinfo, COL_DEF_DST, "%s", tmp->receiver_name);
return true;
}
return false;
}
gboolean
socketcan_call_subdissectors(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, struct can_info *can_info, const gboolean use_heuristics_first) {
dissector_table_t effective_can_id_dissector_table = (can_info->id & CAN_EFF_FLAG) ? can_extended_id_dissector_table : can_id_dissector_table;
guint32 effective_can_id = (can_info->id & CAN_EFF_FLAG) ? can_info->id & CAN_EFF_MASK : can_info->id & CAN_SFF_MASK;
if (!dissector_try_uint_new(effective_can_id_dissector_table, effective_can_id, tvb, pinfo, tree, TRUE, can_info)) {
if (!use_heuristics_first) {
if (!dissector_try_payload_new(subdissector_table, tvb, pinfo, tree, TRUE, can_info)) {
if (!dissector_try_heuristic(heur_subdissector_list, tvb, pinfo, tree, &heur_dtbl_entry, can_info)) {
return FALSE;
}
}
} else {
if (!dissector_try_heuristic(heur_subdissector_list, tvb, pinfo, tree, &heur_dtbl_entry, can_info)) {
if (!dissector_try_payload_new(subdissector_table, tvb, pinfo, tree, FALSE, can_info)) {
return FALSE;
}
}
}
}
return TRUE;
}
/*
* Either:
*
* 1) a given SocketCAN frame is known to contain a classic CAN
* packet based on information outside the SocketCAN header;
*
* 2) a given SocketCAN frame is known to contain a CAN FD
* packet based on information outside the SocketCAN header;
*
* 3) a given SocketCAN frame is known to contain a CAN XL
* packet based on information outside the SocketCAN header;
*
* 4) we don't know whether the given SocketCAN frame is a
* classic CAN packet, a CAN FD packet, or a CAN XL packet,
* and will have to check the CANXL_XLF bit in the "Frame Length"
* field and the CANFD_FDF bit in the "FD flags" field of the
* SocketCAN header to determine that.
*/
typedef enum {
PACKET_TYPE_CAN,
PACKET_TYPE_CAN_FD,
PACKET_TYPE_CAN_XL,
PACKET_TYPE_UNKNOWN
} can_packet_type_t;
static int
dissect_socketcan_common(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, guint encoding, guint xl_encoding, can_packet_type_t can_packet_type) {
proto_tree *can_tree;
proto_item *ti;
guint8 frame_type;
can_info_t can_info;
int * const *can_flags_id;
static int * const can_std_flags_id[] = {
&hf_can_infoent_std,
&hf_can_extflag,
&hf_can_rtrflag,
&hf_can_errflag,
NULL,
};
static int * const can_ext_flags_id[] = {
&hf_can_infoent_ext,
&hf_can_extflag,
&hf_can_rtrflag,
&hf_can_errflag,
NULL,
};
static int * const canfd_std_flags_id[] = {
&hf_can_infoent_std,
&hf_can_extflag,
NULL,
};
static int * const canfd_ext_flags_id[] = {
&hf_can_infoent_ext,
&hf_can_extflag,
NULL,
};
static int * const canfd_flag_fields[] = {
&hf_canfd_brsflag,
&hf_canfd_esiflag,
NULL,
};
static int * const can_err_flags[] = {
&hf_can_errflag,
&hf_can_err_tx_timeout,
&hf_can_err_lostarb,
&hf_can_err_ctrl,
&hf_can_err_prot,
&hf_can_err_trx,
&hf_can_err_ack,
&hf_can_err_busoff,
&hf_can_err_buserror,
&hf_can_err_restarted,
&hf_can_err_reserved,
NULL,
};
static int * const canxl_prio_vcid_fields[] = {
&hf_canxl_priority,
&hf_canxl_vcid,
NULL,
};
static int * const canxl_flag_fields[] = {
&hf_canxl_secflag,
NULL,
};
/*
* If we weren't told the type of this frame, check
* whether the CANFD_FDF flag is set in the FD flags
* field of the header; if so, it's a CAN FD frame.
* otherwise, it's a CAN frame.
*
* However, trust the CANFD_FDF flag only if the only
* bits set in the FD flags field are the known bits,
* and the two bytes following that field are both
* zero. This is because some older LINKTYPE_CAN_SOCKETCAN
* frames had uninitialized junk in the FD flags field,
* so we treat a frame with what appears to be uninitialized
* junk as being CAN rather than CAN FD, under the assumption
* that the CANFD_FDF bit is set because the field is
* uninitialized, not because it was explicitly set because
* it's a CAN FD frame. At least some newer code that sets
* that flag also makes sure that the fields in question are
* initialized, so we assume that if they're not initialized
* the code is older code that didn't support CAN FD.
*/
if (can_packet_type == PACKET_TYPE_UNKNOWN) {
guint8 frame_length;
guint8 fd_flags;
/*
* Check whether the frame has the CANXL_XLF flag set in what
* is in the location of the frame length field of a CAN classic
* or CAN FD frame; if so, then it's a CAN XL frame (and that
* field is the flags field of that frame).
*/
frame_length = tvb_get_guint8(tvb, CAN_LEN_OFFSET);
if (frame_length & CANXL_XLF) {
can_packet_type = PACKET_TYPE_CAN_XL;
} else {
/*
* This is a CAN classic or CAN FD frame.
* Check whether the flags field has the CANFD_FDF
* flag set, has no unknown flag bits set, and has
* no bits set in the two reserved fields. If so,
* it's a CAN FD frame; otherwise, it's either a
* CAN classic frame, or a frame where the CANFD_FDF
* flag is set but where that might just be because
* that field contains uninitialized junk rather
* than because it's a CAN FD frame, so we treat it
* as a CAN classic frame.
*/
fd_flags = tvb_get_guint8(tvb, CANFD_FLAG_OFFSET);
if ((fd_flags & CANFD_FDF) &&
((fd_flags & ~(CANFD_BRS | CANFD_ESI | CANFD_FDF)) == 0) &&
tvb_get_guint8(tvb, CANFD_FLAG_OFFSET + 1) == 0 &&
tvb_get_guint8(tvb, CANFD_FLAG_OFFSET + 2) == 0) {
can_packet_type = PACKET_TYPE_CAN_FD;
} else {
if (tvb_reported_length(tvb) == 72)
can_packet_type = PACKET_TYPE_CAN_FD;
else
can_packet_type = PACKET_TYPE_CAN;
}
}
}
can_info.bus_id = get_bus_id(pinfo);
if (can_packet_type == PACKET_TYPE_CAN_XL) {
can_info.fd = CAN_TYPE_CAN_XL;
col_set_str(pinfo->cinfo, COL_PROTOCOL, "CANXL");
col_clear(pinfo->cinfo, COL_INFO);
can_info.id = 0; /* XXX - is there an "ID" for XL frames? */
ti = proto_tree_add_item(tree, proto_can, tvb, 0, -1, ENC_NA);
proto_item_set_hidden(ti);
ti = proto_tree_add_item(tree, proto_canxl, tvb, 0, -1, ENC_NA);
can_tree = proto_item_add_subtree(ti, ett_can_xl);
guint32 proto_vcid;
/*
* The priority/VCID field is big-endian in LINKTYPE_CAN_SOCKETCAN
* captures, for historical reasons. It's host-endian in
* Linux cooked captures. This means we use the non-XL encoding.
*/
proto_tree_add_bitmask_list(can_tree, tvb, 0, 4, canxl_prio_vcid_fields, encoding);
proto_vcid = tvb_get_guint32(tvb, 0, encoding);
col_add_fstr(pinfo->cinfo, COL_INFO, "Priority: %u (0x%03x), VCID: %u (0x%02X)", proto_vcid & 0x7FF, proto_vcid & 0x7FF, (proto_vcid >> 16) & 0xFF, (proto_vcid >> 16) & 0xFF);
proto_item_append_text(can_tree, ", Priority: %u (0x%03x), VCID: %u (0x%02X)", proto_vcid & 0x7FF, proto_vcid & 0x7FF, (proto_vcid >> 16) & 0xFF, (proto_vcid >> 16) & 0xFF);
proto_tree_add_bitmask_list(can_tree, tvb, 4, 1, canxl_flag_fields, xl_encoding);
socketcan_set_source_and_destination_columns(pinfo, &can_info);
guint32 sdu_type;
/*
* These fields are, if multi-byte, little-endian in
* LINKTYPE_CAN_SOCKETCAN captures, so use xl_encoding.
*/
proto_tree_add_item_ret_uint(can_tree, hf_canxl_sdu_type, tvb, 5, 1, ENC_NA, &sdu_type);
proto_tree_add_item_ret_uint(can_tree, hf_canxl_len, tvb, CANXL_LEN_OFFSET, 2, xl_encoding, &can_info.len);
col_append_fstr(pinfo->cinfo, COL_INFO, ", Length: %u", can_info.len);
proto_item_append_text(can_tree, ", Length: %u", can_info.len);
proto_tree_add_item(can_tree, hf_canxl_acceptance_field, tvb, CANXL_LEN_OFFSET+2, 4, xl_encoding);
tvbuff_t *next_tvb;
next_tvb = tvb_new_subset_length(tvb, CANXL_DATA_OFFSET, can_info.len);
if (!dissector_try_uint_new(canxl_sdu_type_dissector_table, sdu_type, next_tvb, pinfo, tree, TRUE, &can_info)) {
call_data_dissector(next_tvb, pinfo, tree);
}
if (tvb_captured_length_remaining(tvb, CANXL_DATA_OFFSET+can_info.len) > 0) {
proto_tree_add_item(can_tree, hf_can_padding, tvb, CANXL_DATA_OFFSET+can_info.len, -1, ENC_NA);
}
} else {
if (can_packet_type == PACKET_TYPE_CAN_FD) {
can_info.fd = CAN_TYPE_CAN_FD;
col_set_str(pinfo->cinfo, COL_PROTOCOL, "CANFD");
} else {
can_info.fd = CAN_TYPE_CAN_CLASSIC;
col_set_str(pinfo->cinfo, COL_PROTOCOL, "CAN");
}
col_clear(pinfo->cinfo, COL_INFO);
ti = proto_tree_add_item(tree, proto_can, tvb, 0, -1, ENC_NA);
if (can_packet_type == PACKET_TYPE_CAN_FD) {
proto_item_set_hidden(ti);
ti = proto_tree_add_item(tree, proto_canfd, tvb, 0, -1, ENC_NA);
}
can_tree = proto_item_add_subtree(ti, (can_packet_type == PACKET_TYPE_CAN_FD) ? ett_can_fd : ett_can);
/* Get the ID and flags field */
can_info.id = tvb_get_guint32(tvb, 0, encoding);
/* Error Message Frames are only encapsulated in Classic CAN frames */
if (can_packet_type == PACKET_TYPE_CAN && (can_info.id & CAN_ERR_FLAG)) {
frame_type = LINUX_CAN_ERR;
can_flags_id = can_err_flags;
} else if (can_info.id & CAN_EFF_FLAG) {
frame_type = LINUX_CAN_EXT;
can_info.id &= (CAN_EFF_MASK | CAN_FLAG_MASK);
can_flags_id = (can_packet_type == PACKET_TYPE_CAN_FD) ? canfd_ext_flags_id : can_ext_flags_id;
} else {
frame_type = LINUX_CAN_STD;
can_info.id &= (CAN_SFF_MASK | CAN_FLAG_MASK);
can_flags_id = (can_packet_type == PACKET_TYPE_CAN_FD) ? canfd_std_flags_id : can_std_flags_id;
}
socketcan_set_source_and_destination_columns(pinfo, &can_info);
proto_tree_add_bitmask_list(can_tree, tvb, 0, 4, can_flags_id, encoding);
if (can_info.id & CAN_EFF_FLAG) {
col_add_fstr(pinfo->cinfo, COL_INFO, "Ext. ID: %u (0x%08x)", can_info.id & CAN_EFF_MASK, can_info.id & CAN_EFF_MASK);
proto_item_append_text(can_tree, ", Ext. ID: %u (0x%08x)", can_info.id & CAN_EFF_MASK, can_info.id & CAN_EFF_MASK);
} else {
col_add_fstr(pinfo->cinfo, COL_INFO, "ID: %u (0x%03x)", can_info.id & CAN_SFF_MASK, can_info.id & CAN_SFF_MASK);
proto_item_append_text(can_tree, ", ID: %u (0x%03x)", can_info.id & CAN_SFF_MASK, can_info.id & CAN_SFF_MASK);
}
proto_tree_add_item_ret_uint(can_tree, hf_can_len, tvb, CAN_LEN_OFFSET, 1, ENC_NA, &can_info.len);
col_append_fstr(pinfo->cinfo, COL_INFO, ", Length: %u", can_info.len);
proto_item_append_text(can_tree, ", Length: %u", can_info.len);
if (frame_type == LINUX_CAN_ERR && can_info.len != CAN_ERR_DLC) {
proto_tree_add_expert(tree, pinfo, &ei_can_err_dlc_mismatch, tvb, CAN_LEN_OFFSET, 1);
}
if (can_packet_type == PACKET_TYPE_CAN_FD) {
proto_tree_add_bitmask_list(can_tree, tvb, CANFD_FLAG_OFFSET, 1, canfd_flag_fields, ENC_NA);
proto_tree_add_item(can_tree, hf_can_reserved, tvb, CANFD_FLAG_OFFSET+1, 2, ENC_NA);
} else {
proto_tree_add_item(can_tree, hf_can_reserved, tvb, CANFD_FLAG_OFFSET, 3, ENC_NA);
}
if (frame_type == LINUX_CAN_ERR) {
int * const *flag;
const char *sepa = ": ";
col_set_str(pinfo->cinfo, COL_INFO, "ERR");
for (flag = can_err_flags; *flag; flag++) {
header_field_info *hfi;
hfi = proto_registrar_get_nth(**flag);
if (!hfi)
continue;
if ((can_info.id & hfi->bitmask & ~CAN_FLAG_MASK) == 0)
continue;
col_append_sep_str(pinfo->cinfo, COL_INFO, sepa, hfi->name);
sepa = ", ";
}
if (can_info.id & CAN_ERR_LOSTARB) {
proto_tree_add_item(can_tree, hf_can_err_lostarb_bit_number, tvb, CAN_DATA_OFFSET + 0, 1, ENC_NA);
}
if (can_info.id & CAN_ERR_CTRL) {
static int * const can_err_ctrl_flags[] = {
&hf_can_err_ctrl_rx_overflow,
&hf_can_err_ctrl_tx_overflow,
&hf_can_err_ctrl_rx_warning,
&hf_can_err_ctrl_tx_warning,
&hf_can_err_ctrl_rx_passive,
&hf_can_err_ctrl_tx_passive,
&hf_can_err_ctrl_active,
NULL,
};
proto_tree_add_bitmask_list(can_tree, tvb, CAN_DATA_OFFSET+1, 1, can_err_ctrl_flags, ENC_NA);
}
if (can_info.id & CAN_ERR_PROT) {
static int * const can_err_prot_error_type_flags[] = {
&hf_can_err_prot_error_type_bit,
&hf_can_err_prot_error_type_form,
&hf_can_err_prot_error_type_stuff,
&hf_can_err_prot_error_type_bit0,
&hf_can_err_prot_error_type_bit1,
&hf_can_err_prot_error_type_overload,
&hf_can_err_prot_error_type_active,
&hf_can_err_prot_error_type_tx,
NULL
};
proto_tree_add_bitmask_list(can_tree, tvb, CAN_DATA_OFFSET+2, 1, can_err_prot_error_type_flags, ENC_NA);
proto_tree_add_item(can_tree, hf_can_err_prot_error_location, tvb, CAN_DATA_OFFSET+3, 1, ENC_NA);
}
if (can_info.id & CAN_ERR_TRX) {
proto_tree_add_item(can_tree, hf_can_err_trx_canh, tvb, CAN_DATA_OFFSET+4, 1, ENC_NA);
proto_tree_add_item(can_tree, hf_can_err_trx_canl, tvb, CAN_DATA_OFFSET+4, 1, ENC_NA);
}
proto_tree_add_item(can_tree, hf_can_err_ctrl_specific, tvb, CAN_DATA_OFFSET+5, 3, ENC_NA);
} else {
tvbuff_t *next_tvb;
if (can_info.id & CAN_RTR_FLAG) {
col_append_str(pinfo->cinfo, COL_INFO, "(Remote Transmission Request)");
}
next_tvb = tvb_new_subset_length(tvb, CAN_DATA_OFFSET, can_info.len);
if (!socketcan_call_subdissectors(next_tvb, pinfo, tree, &can_info, heuristic_first)) {
call_data_dissector(next_tvb, pinfo, tree);
}
}
if (tvb_captured_length_remaining(tvb, CAN_DATA_OFFSET+can_info.len) > 0) {
proto_tree_add_item(can_tree, hf_can_padding, tvb, CAN_DATA_OFFSET+can_info.len, -1, ENC_NA);
}
}
return tvb_captured_length(tvb);
}
static int
dissect_socketcan_bigendian(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) {
return dissect_socketcan_common(tvb, pinfo, tree,
byte_swap ? ENC_LITTLE_ENDIAN : ENC_BIG_ENDIAN,
ENC_LITTLE_ENDIAN,
PACKET_TYPE_UNKNOWN);
}
static int
dissect_socketcan_classic(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) {
return dissect_socketcan_common(tvb, pinfo, tree,
byte_swap ? ENC_ANTI_HOST_ENDIAN : ENC_HOST_ENDIAN,
ENC_HOST_ENDIAN, /* Not used, as this is CAN classic, not CAN XL */
PACKET_TYPE_CAN);
}
static int
dissect_socketcan_fd(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) {
return dissect_socketcan_common(tvb, pinfo, tree,
byte_swap ? ENC_ANTI_HOST_ENDIAN : ENC_HOST_ENDIAN,
ENC_HOST_ENDIAN, /* Not used, as this is CAN FD, not CAN XL */
PACKET_TYPE_CAN_FD);
}
static int
dissect_socketcan_xl(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) {
return dissect_socketcan_common(tvb, pinfo, tree,
byte_swap ? ENC_ANTI_HOST_ENDIAN : ENC_HOST_ENDIAN,
ENC_HOST_ENDIAN,
PACKET_TYPE_CAN_XL);
}
void
proto_register_socketcan(void) {
static hf_register_info hf[] = {
{ &hf_can_infoent_ext, {
"ID", "can.id", FT_UINT32, BASE_DEC_HEX, NULL, CAN_EFF_MASK, NULL, HFILL } },
{ &hf_can_infoent_std, {
"ID", "can.id", FT_UINT32, BASE_DEC_HEX, NULL, CAN_SFF_MASK, NULL, HFILL } },
{ &hf_can_extflag, {
"Extended Flag", "can.flags.xtd", FT_BOOLEAN, 32, NULL, CAN_EFF_FLAG, NULL, HFILL } },
{ &hf_can_rtrflag, {
"Remote Transmission Request Flag", "can.flags.rtr", FT_BOOLEAN, 32, NULL, CAN_RTR_FLAG, NULL, HFILL } },
{ &hf_can_errflag, {
"Error Message Flag", "can.flags.err", FT_BOOLEAN, 32, NULL, CAN_ERR_FLAG, NULL, HFILL } },
{ &hf_can_len, {
"Frame-Length", "can.len", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } },
{ &hf_can_reserved, {
"Reserved", "can.reserved", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } },
{ &hf_can_padding, {
"Padding", "can.padding", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } },
{ &hf_canfd_brsflag, {
"Bit Rate Setting", "canfd.flags.brs", FT_BOOLEAN, 8, NULL, CANFD_BRS, NULL, HFILL } },
{ &hf_canfd_esiflag, {
"Error State Indicator", "canfd.flags.esi", FT_BOOLEAN, 8, NULL, CANFD_ESI, NULL, HFILL } },
{ &hf_can_err_tx_timeout, {
"Transmit timeout", "can.err.tx_timeout", FT_BOOLEAN, 32, NULL, CAN_ERR_TX_TIMEOUT, NULL, HFILL } },
{ &hf_can_err_lostarb, {
"Lost arbitration", "can.err.lostarb", FT_BOOLEAN, 32, NULL, CAN_ERR_LOSTARB, NULL, HFILL } },
{ &hf_can_err_ctrl, {
"Controller problems", "can.err.ctrl", FT_BOOLEAN, 32, NULL, CAN_ERR_CTRL, NULL, HFILL } },
{ &hf_can_err_prot, {
"Protocol violation", "can.err.prot", FT_BOOLEAN, 32, NULL, CAN_ERR_PROT, NULL, HFILL } },
{ &hf_can_err_trx, {
"Transceiver status", "can.err.trx", FT_BOOLEAN, 32, NULL, CAN_ERR_TRX, NULL, HFILL } },
{ &hf_can_err_ack, {
"No acknowledgment", "can.err.ack", FT_BOOLEAN, 32, NULL, CAN_ERR_ACK, NULL, HFILL } },
{ &hf_can_err_busoff, {
"Bus off", "can.err.busoff", FT_BOOLEAN, 32, NULL, CAN_ERR_BUSOFF, NULL, HFILL } },
{ &hf_can_err_buserror, {
"Bus error", "can.err.buserror", FT_BOOLEAN, 32, NULL, CAN_ERR_BUSERROR, NULL, HFILL } },
{ &hf_can_err_restarted, {
"Controller restarted", "can.err.restarted", FT_BOOLEAN, 32, NULL, CAN_ERR_RESTARTED, NULL, HFILL } },
{ &hf_can_err_reserved, {
"Reserved", "can.err.reserved", FT_UINT32, BASE_HEX, NULL, CAN_ERR_RESERVED, NULL, HFILL } },
{ &hf_can_err_lostarb_bit_number, {
"Lost arbitration in bit number", "can.err.lostarb.bitnum", FT_UINT8, BASE_DEC, NULL, 0, NULL, HFILL } },
{ &hf_can_err_ctrl_rx_overflow, {
"RX buffer overflow", "can.err.ctrl.rx_overflow", FT_BOOLEAN, 8, NULL, 0x01, NULL, HFILL } },
{ &hf_can_err_ctrl_tx_overflow, {
"TX buffer overflow", "can.err.ctrl.tx_overflow", FT_BOOLEAN, 8, NULL, 0x02, NULL, HFILL } },
{ &hf_can_err_ctrl_rx_warning, {
"Reached warning level for RX errors", "can.err.ctrl.rx_warning", FT_BOOLEAN, 8, NULL, 0x04, NULL, HFILL } },
{ &hf_can_err_ctrl_tx_warning, {
"Reached warning level for TX errors", "can.err.ctrl.tx_warning", FT_BOOLEAN, 8, NULL, 0x08, NULL, HFILL } },
{ &hf_can_err_ctrl_rx_passive, {
"Reached error passive status RX", "can.err.ctrl.rx_passive", FT_BOOLEAN, 8, NULL, 0x10, NULL, HFILL } },
{ &hf_can_err_ctrl_tx_passive, {
"Reached error passive status TX", "can.err.ctrl.tx_passive", FT_BOOLEAN, 8, NULL, 0x20, NULL, HFILL } },
{ &hf_can_err_ctrl_active, {
"Recovered to error active state", "can.err.ctrl.active", FT_BOOLEAN, 8, NULL, 0x40, NULL, HFILL } },
{ &hf_can_err_prot_error_type_bit, {
"Single bit error", "can.err.prot.type.bit", FT_BOOLEAN, 8, NULL, CAN_ERR_PROT_BIT, NULL, HFILL } },
{ &hf_can_err_prot_error_type_form, {
"Frame format error", "can.err.prot.type.form", FT_BOOLEAN, 8, NULL, CAN_ERR_PROT_FORM, NULL, HFILL } },
{ &hf_can_err_prot_error_type_stuff, {
"Bit stuffing error", "can.err.prot.type.stuff", FT_BOOLEAN, 8, NULL, CAN_ERR_PROT_STUFF, NULL, HFILL } },
{ &hf_can_err_prot_error_type_bit0, {
"Unable to send dominant bit", "can.err.prot.type.bit0", FT_BOOLEAN, 8, NULL, CAN_ERR_PROT_BIT0, NULL, HFILL } },
{ &hf_can_err_prot_error_type_bit1, {
"Unable to send recessive bit", "can.err.prot.type.bit1", FT_BOOLEAN, 8, NULL, CAN_ERR_PROT_BIT1, NULL, HFILL } },
{ &hf_can_err_prot_error_type_overload, {
"Bus overload", "can.err.prot.type.overload", FT_BOOLEAN, 8, NULL, CAN_ERR_PROT_OVERLOAD, NULL, HFILL } },
{ &hf_can_err_prot_error_type_active, {
"Active error announcement", "can.err.prot.type.active", FT_BOOLEAN, 8, NULL, CAN_ERR_PROT_ACTIVE, NULL, HFILL } },
{ &hf_can_err_prot_error_type_tx, {
"Error occurred on transmission", "can.err.prot.type.tx", FT_BOOLEAN, 8, NULL, CAN_ERR_PROT_TX, NULL, HFILL } },
{ &hf_can_err_prot_error_location, {
"Protocol error location", "can.err.prot.location", FT_UINT8, BASE_DEC, VALS(can_err_prot_error_location_vals), 0, NULL, HFILL } },
{ &hf_can_err_trx_canh, {
"Transceiver CANH status", "can.err.trx.canh", FT_UINT8, BASE_DEC, VALS(can_err_trx_canh_vals), 0x0F, NULL, HFILL } },
{ &hf_can_err_trx_canl, {
"Transceiver CANL status", "can.err.trx.canl", FT_UINT8, BASE_DEC, VALS(can_err_trx_canl_vals), 0xF0, NULL, HFILL } },
{ &hf_can_err_ctrl_specific, {
"Controller specific data", "can.err.ctrl_specific", FT_BYTES, SEP_SPACE, NULL, 0, NULL, HFILL } },
{ &hf_canxl_priority, {
"Priority", "canxl.priority", FT_UINT32, BASE_DEC, NULL, 0x0000FFFF, NULL, HFILL } },
{ &hf_canxl_vcid, {
"VCID", "canxl.vcid", FT_UINT32, BASE_DEC, NULL, 0x00FF0000, NULL, HFILL } },
{ &hf_canxl_secflag, {
"Simple Extended Context", "canxl.flags.sec", FT_BOOLEAN, 8, NULL, CANXL_SEC, NULL, HFILL } },
{ &hf_canxl_sdu_type, {
"SDU type", "canxl.sdu_type", FT_UINT8, BASE_HEX, VALS(canxl_sdu_type_vals), 0, NULL, HFILL } },
{ &hf_canxl_len, {
"Frame-Length", "canxl.len", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } },
{ &hf_canxl_acceptance_field, {
"Acceptance field", "canxl.acceptance_field", FT_UINT32, BASE_DEC_HEX, NULL, 0, NULL, HFILL } },
};
uat_t *can_interface_uat = NULL;
uat_t *sender_receiver_uat = NULL;
/* Setup protocol subtree array */
static gint *ett[] = {
&ett_can,
&ett_can_fd,
&ett_can_xl
};
static ei_register_info ei[] = {
{ &ei_can_err_dlc_mismatch, {
"can.err.dlc_mismatch", PI_MALFORMED, PI_ERROR, "ERROR: DLC mismatch", EXPFILL } }
};
module_t *can_module;
proto_can = proto_register_protocol("Controller Area Network", "CAN", "can");
/*
* "can-hostendian" is a legacy name (there never was, in any libpcap
* release, a SocketCAN LINKTYPE_ value for a host-endian CAN ID
* and flags field); we need to keep it around in case some candump
* or Busmaster capture that was saved as a pcap or pcapng file,
* as those use a linktype of LINKTYPE_WIRESHARK_UPPER_PDU with
* "can-hostendian" as the dissector name.
*
* "can-bigendian" is also a legacy name (fpr CAN XL frames, the
* fields in the header are in *little-endian* order); we keep it
* around for the same reason. It's used for the dissector for
* LINKTYPE_CAN_SOCKETCAN.
*/
socketcan_classic_handle = register_dissector("can-hostendian", dissect_socketcan_classic, proto_can);
socketcan_bigendian_handle = register_dissector("can-bigendian", dissect_socketcan_bigendian, proto_can);
proto_canfd = proto_register_protocol("Controller Area Network FD", "CANFD", "canfd");
socketcan_fd_handle = register_dissector("canfd", dissect_socketcan_fd, proto_canfd);
proto_canxl = proto_register_protocol("Controller Area Network XL", "CANXL", "canxl");
socketcan_xl_handle = register_dissector("canxl", dissect_socketcan_xl, proto_canxl);
proto_register_field_array(proto_can, hf, array_length(hf));
proto_register_subtree_array(ett, array_length(ett));
expert_register_field_array(expert_register_protocol(proto_can), ei, array_length(ei));
can_module = prefs_register_protocol(proto_can, NULL);
prefs_register_obsolete_preference(can_module, "protocol");
prefs_register_bool_preference(can_module, "byte_swap", "Byte-swap the CAN ID/flags field",
"Whether the CAN ID/flags field should be byte-swapped in CAN classic and CAN FD packets",
&byte_swap);
prefs_register_bool_preference(can_module, "try_heuristic_first", "Try heuristic sub-dissectors first",
"Try to decode a packet using an heuristic sub-dissector before using a sub-dissector registered to \"decode as\"",
&heuristic_first);
can_id_dissector_table = register_dissector_table("can.id", "CAN ID", proto_can, FT_UINT32, BASE_DEC);
can_extended_id_dissector_table = register_dissector_table("can.extended_id", "CAN Extended ID", proto_can, FT_UINT32, BASE_DEC);
subdissector_table = register_decode_as_next_proto(proto_can, "can.subdissector", "CAN next level dissector", NULL);
canxl_sdu_type_dissector_table = register_dissector_table("canxl.sdu_type", "CAN XL SDU type", proto_canxl, FT_UINT8, BASE_HEX);
heur_subdissector_list = register_heur_dissector_list("can", proto_can);
static uat_field_t can_interface_mapping_uat_fields[] = {
UAT_FLD_HEX(interface_configs, interface_id, "Interface ID", "ID of the Interface with 0xffffffff = any (hex uint32 without leading 0x)"),
UAT_FLD_CSTRING(interface_configs, interface_name, "Interface Name", "Name of the Interface, empty = any (string)"),
UAT_FLD_HEX(interface_configs, bus_id, "Bus ID", "Bus ID of the Interface (hex uint16 without leading 0x)"),
UAT_END_FIELDS
};
can_interface_uat = uat_new("CAN Interface Mapping",
sizeof(interface_config_t), /* record size */
DATAFILE_CAN_INTERFACE_MAPPING, /* filename */
TRUE, /* from profile */
(void**)&interface_configs, /* data_ptr */
&interface_config_num, /* numitems_ptr */
UAT_AFFECTS_DISSECTION, /* but not fields */
NULL, /* help */
copy_interface_config_cb, /* copy callback */
update_interface_config, /* update callback */
free_interface_config_cb, /* free callback */
post_update_can_interfaces_cb, /* post update callback */
NULL, /* reset callback */
can_interface_mapping_uat_fields /* UAT field definitions */
);
prefs_register_uat_preference(can_module, "_can_interface_mapping", "Interface Mapping",
"A table to define the mapping between interface and Bus ID.", can_interface_uat);
static uat_field_t sender_receiver_mapping_uat_fields[] = {
UAT_FLD_HEX(sender_receiver_configs, bus_id, "Bus ID", "Bus ID of the Interface with 0 meaning any (hex uint16 without leading 0x)."),
UAT_FLD_HEX(sender_receiver_configs, can_id, "CAN ID", "ID of the CAN Message (hex uint32 without leading 0x)"),
UAT_FLD_CSTRING(sender_receiver_configs, sender_name, "Sender Name", "Name of Sender(s)"),
UAT_FLD_CSTRING(sender_receiver_configs, receiver_name, "Receiver Name", "Name of Receiver(s)"),
UAT_END_FIELDS
};
sender_receiver_uat = uat_new("Sender Receiver Config",
sizeof(sender_receiver_config_t), /* record size */
DATAFILE_CAN_SENDER_RECEIVER, /* filename */
TRUE, /* from profile */
(void**)&sender_receiver_configs, /* data_ptr */
&sender_receiver_config_num, /* numitems_ptr */
UAT_AFFECTS_DISSECTION, /* but not fields */
NULL, /* help */
copy_sender_receiver_config_cb, /* copy callback */
update_sender_receiver_config, /* update callback */
free_sender_receiver_config_cb, /* free callback */
post_update_sender_receiver_cb, /* post update callback */
NULL, /* reset callback */
sender_receiver_mapping_uat_fields /* UAT field definitions */
);
prefs_register_uat_preference(can_module, "_sender_receiver_config", "Sender Receiver Config",
"A table to define the mapping between Bus ID and CAN ID to Sender and Receiver.", sender_receiver_uat);
}
void
proto_reg_handoff_socketcan(void) {
dissector_add_uint("wtap_encap", WTAP_ENCAP_SOCKETCAN, socketcan_bigendian_handle);
dissector_add_uint("sll.ltype", LINUX_SLL_P_CAN, socketcan_classic_handle);
dissector_add_uint("sll.ltype", LINUX_SLL_P_CANFD, socketcan_fd_handle);
dissector_add_uint("sll.ltype", LINUX_SLL_P_CANXL, socketcan_xl_handle);
}
/*
* Editor modelines - https://www.wireshark.org/tools/modelines.html
*
* Local variables:
* c-basic-offset: 4
* tab-width: 8
* indent-tabs-mode: nil
* End:
*
* vi: set shiftwidth=4 tabstop=8 expandtab:
* :indentSize=4:tabSize=8:noTabs=true:
*/
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