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|
/* packet-pn-rt.c
* Routines for pn-rt (PROFINET Real-Time) packet dissection.
* This is the base for other PROFINET protocols like IO, CBA, DCP, ...
* (the "content subdissectors" will register themselves using a heuristic)
*
* Wireshark - Network traffic analyzer
* By Gerald Combs <gerald@wireshark.org>
* Copyright 1999 Gerald Combs
*
* SPDX-License-Identifier: GPL-2.0-or-later
*/
#include "config.h"
#include <epan/packet.h>
#include <epan/reassemble.h>
#include <epan/prefs.h>
#include <epan/etypes.h>
#include <epan/expert.h>
#include <epan/crc16-tvb.h>
#include <epan/dissectors/packet-dcerpc.h>
#include <wsutil/crc16-plain.h>
#include "packet-pn.h"
void proto_register_pn_rt(void);
void proto_reg_handoff_pn_rt(void);
#define PROFINET_UDP_PORT 0x8892
/* Define the pn-rt proto */
static int proto_pn_rt;
static bool pnio_desegment = true;
static dissector_handle_t pn_rt_handle;
/* Define many header fields for pn-rt */
static int hf_pn_rt_frame_id;
static int hf_pn_rt_cycle_counter;
static int hf_pn_rt_transfer_status;
static int hf_pn_rt_data_status;
static int hf_pn_rt_data_status_ignore;
static int hf_pn_rt_frame_info_type;
static int hf_pn_rt_frame_info_function_meaning_input_conv;
static int hf_pn_rt_frame_info_function_meaning_output_conv;
static int hf_pn_rt_data_status_Reserved_2;
static int hf_pn_rt_data_status_ok;
static int hf_pn_rt_data_status_operate;
static int hf_pn_rt_data_status_res3;
static int hf_pn_rt_data_status_valid;
static int hf_pn_rt_data_status_redundancy;
static int hf_pn_rt_data_status_redundancy_output_cr;
static int hf_pn_rt_data_status_redundancy_input_cr_state_is_backup;
static int hf_pn_rt_data_status_redundancy_input_cr_state_is_primary;
static int hf_pn_rt_data_status_primary;
static int hf_pn_rt_sf_crc16;
static int hf_pn_rt_sf_crc16_status;
static int hf_pn_rt_sf;
static int hf_pn_rt_sf_position;
/* static int hf_pn_rt_sf_position_control; */
static int hf_pn_rt_sf_data_length;
static int hf_pn_rt_sf_cycle_counter;
static int hf_pn_rt_frag;
static int hf_pn_rt_frag_data_length;
static int hf_pn_rt_frag_status;
static int hf_pn_rt_frag_status_more_follows;
static int hf_pn_rt_frag_status_error;
static int hf_pn_rt_frag_status_fragment_number;
static int hf_pn_rt_frag_data;
/*
* Define the trees for pn-rt
* We need one tree for pn-rt itself and one for the pn-rt data status subtree
*/
static int ett_pn_rt;
static int ett_pn_rt_data_status;
static int ett_pn_rt_sf;
static int ett_pn_rt_frag;
static int ett_pn_rt_frag_status;
static expert_field ei_pn_rt_sf_crc16;
/*
* Here are the global variables associated with
* the various user definable characteristics of the dissection
*/
/* Place summary in proto tree */
static bool pn_rt_summary_in_tree = true;
/* heuristic to find the right pn-rt payload dissector */
static heur_dissector_list_t heur_subdissector_list;
#if 0
static const value_string pn_rt_position_control[] = {
{ 0x00, "CRC16 and CycleCounter shall not be checked" },
{ 0x80, "CRC16 and CycleCounter valid" },
{ 0, NULL }
};
#endif
static const true_false_string tfs_pn_rt_ds_redundancy_output_cr =
{ "Unknown", "Redundancy has no meaning for OutputCRs, it is set to the fixed value of zero" };
static const true_false_string tfs_pn_rt_ds_redundancy_input_cr_state_is_backup =
{ "None primary AR of a given AR-set is present", "Default - One primary AR of a given AR-set is present" };
static const true_false_string tfs_pn_rt_ds_redundancy_input_cr_state_is_primary =
{ "The ARState from the IO device point of view is Backup", "Default - The ARState from the IO device point of view is Primary" };
static const value_string pn_rt_frame_info_function_meaning_input_conv[] = {
{0x00, "Backup Acknowledge without actual data" },
{0x02, "Primary Missing without actual data" },
{0x04, "Backup Acknowledge with actual data independent from the Arstate" },
{0x05, "Primary Acknowledge"},
{0x06, "Primary Missing with actual data independent from the Arstate" },
{0x07, "Primary Fault" },
{0, NULL}
};
static const value_string pn_rt_frame_info_function_meaning_output_conv[] = {
{ 0x04, "Backup Request" },
{ 0x05, "Primary Request" },
{ 0, NULL }
};
static const true_false_string tfs_pn_rt_ds_redundancy =
{ "None primary AR of a given AR-set is present", "Redundancy has no meaning for OutputCRs / One primary AR of a given AR-set is present" };
static const value_string pn_rt_frag_status_error[] = {
{ 0x00, "reserved" },
{ 0x01, "reserved: invalid should be zero" },
{ 0, NULL }
};
static const value_string pn_rt_frag_status_more_follows[] = {
{ 0x00, "Last fragment" },
{ 0x01, "More fragments follow" },
{ 0, NULL }
};
/* Copied and renamed from proto.c because global value_strings don't work for plugins */
static const value_string plugin_proto_checksum_vals[] = {
{ PROTO_CHECKSUM_E_BAD, "Bad" },
{ PROTO_CHECKSUM_E_GOOD, "Good" },
{ PROTO_CHECKSUM_E_UNVERIFIED, "Unverified" },
{ PROTO_CHECKSUM_E_NOT_PRESENT, "Not present" },
{ 0, NULL }
};
static void
dissect_DataStatus(tvbuff_t *tvb, int offset, proto_tree *tree, packet_info *pinfo, uint8_t u8DataStatus)
{
proto_item *sub_item;
proto_tree *sub_tree;
uint8_t u8DataValid;
uint8_t u8Redundancy;
uint8_t u8State;
conversation_t *conversation;
bool inputFlag = false;
bool outputFlag = false;
apduStatusSwitch *apdu_status_switch;
u8State = (u8DataStatus & 0x01);
u8Redundancy = (u8DataStatus >> 1) & 0x01;
u8DataValid = (u8DataStatus >> 2) & 0x01;
/* if PN Connect Request has been read, IOC mac is dl_src and IOD mac is dl_dst */
conversation = find_conversation(pinfo->num, &pinfo->dl_src, &pinfo->dl_dst, CONVERSATION_UDP, 0, 0, 0);
if (conversation != NULL) {
apdu_status_switch = (apduStatusSwitch*)conversation_get_proto_data(conversation, proto_pn_io_apdu_status);
if (apdu_status_switch != NULL && apdu_status_switch->isRedundancyActive) {
/* IOC -> IOD: OutputCR */
if (addresses_equal(&(pinfo->dst), conversation_key_addr1(conversation->key_ptr)) && addresses_equal(&(pinfo->src), conversation_key_addr2(conversation->key_ptr))) {
outputFlag = true;
inputFlag = false;
}
/* IOD -> IOC: InputCR */
if (addresses_equal(&(pinfo->src), conversation_key_addr1(conversation->key_ptr)) && addresses_equal(&(pinfo->dst), conversation_key_addr2(conversation->key_ptr))) {
inputFlag = true;
outputFlag = false;
}
}
}
/* input conversation is found */
if (inputFlag)
{
proto_tree_add_string_format_value(tree, hf_pn_rt_frame_info_type, tvb,
offset, 0, "Input", "Input Frame (IO_Device -> IO_Controller)");
}
/* output conversation is found. */
else if (outputFlag)
{
proto_tree_add_string_format_value(tree, hf_pn_rt_frame_info_type, tvb,
offset, 0, "Output", "Output Frame (IO_Controller -> IO_Device)");
}
sub_item = proto_tree_add_uint_format(tree, hf_pn_rt_data_status,
tvb, offset, 1, u8DataStatus,
"DataStatus: 0x%02x (Frame: %s and %s, Provider: %s and %s)",
u8DataStatus,
(u8DataStatus & 0x04) ? "Valid" : "Invalid",
(u8DataStatus & 0x01) ? "Primary" : "Backup",
(u8DataStatus & 0x20) ? "Ok" : "Problem",
(u8DataStatus & 0x10) ? "Run" : "Stop");
sub_tree = proto_item_add_subtree(sub_item, ett_pn_rt_data_status);
proto_tree_add_uint(sub_tree, hf_pn_rt_data_status_ignore, tvb, offset, 1, u8DataStatus);
proto_tree_add_uint(sub_tree, hf_pn_rt_data_status_Reserved_2, tvb, offset, 1, u8DataStatus);
proto_tree_add_uint(sub_tree, hf_pn_rt_data_status_ok, tvb, offset, 1, u8DataStatus);
proto_tree_add_uint(sub_tree, hf_pn_rt_data_status_operate, tvb, offset, 1, u8DataStatus);
proto_tree_add_uint(sub_tree, hf_pn_rt_data_status_res3, tvb, offset, 1, u8DataStatus);
/* input conversation is found */
if (inputFlag)
{
proto_tree_add_uint(sub_tree, hf_pn_rt_data_status_valid, tvb, offset, 1, u8DataStatus);
proto_tree_add_uint(tree, hf_pn_rt_frame_info_function_meaning_input_conv, tvb, offset, 1, u8DataStatus);
if (u8State == 0 && u8Redundancy == 0 && u8DataValid == 1)
{
proto_tree_add_boolean(sub_tree, hf_pn_rt_data_status_redundancy_input_cr_state_is_backup, tvb, offset, 1, u8DataStatus);
}
else if (u8State == 0 && u8Redundancy == 0 && u8DataValid == 0)
{
proto_tree_add_boolean(sub_tree, hf_pn_rt_data_status_redundancy_input_cr_state_is_backup, tvb, offset, 1, u8DataStatus);
}
else if (u8State == 0 && u8Redundancy == 1 && u8DataValid == 1)
{
proto_tree_add_boolean(sub_tree, hf_pn_rt_data_status_redundancy_input_cr_state_is_backup, tvb, offset, 1, u8DataStatus);
}
else if (u8State == 0 && u8Redundancy == 1 && u8DataValid == 0)
{
proto_tree_add_boolean(sub_tree, hf_pn_rt_data_status_redundancy_input_cr_state_is_backup, tvb, offset, 1, u8DataStatus);
}
else if (u8State == 1 && u8Redundancy == 0 && u8DataValid == 1)
{
proto_tree_add_boolean(sub_tree, hf_pn_rt_data_status_redundancy_input_cr_state_is_primary, tvb, offset, 1, u8DataStatus);
}
else if (u8State == 1 && u8Redundancy == 1 && u8DataValid == 1)
{
proto_tree_add_boolean(sub_tree, hf_pn_rt_data_status_redundancy_input_cr_state_is_primary, tvb, offset, 1, u8DataStatus);
}
proto_tree_add_uint(sub_tree, hf_pn_rt_data_status_primary, tvb, offset, 1, u8DataStatus);
return;
}
// output conversation is found.
else if (outputFlag)
{
proto_tree_add_uint(tree, hf_pn_rt_frame_info_function_meaning_output_conv, tvb, offset, 1, u8DataStatus);
proto_tree_add_uint(sub_tree, hf_pn_rt_data_status_valid, tvb, offset, 1, u8DataStatus);
proto_tree_add_boolean(sub_tree, hf_pn_rt_data_status_redundancy_output_cr, tvb, offset, 1, u8DataStatus);
proto_tree_add_uint(sub_tree, hf_pn_rt_data_status_primary, tvb, offset, 1, u8DataStatus);
return;
}
// If no conversation is found
proto_tree_add_uint(sub_tree, hf_pn_rt_data_status_valid, tvb, offset, 1, u8DataStatus);
proto_tree_add_boolean(sub_tree, hf_pn_rt_data_status_redundancy, tvb, offset, 1, u8DataStatus);
proto_tree_add_uint(sub_tree, hf_pn_rt_data_status_primary, tvb, offset, 1, u8DataStatus);
}
static bool
IsDFP_Frame(tvbuff_t *tvb, packet_info *pinfo, uint16_t u16FrameID)
{
uint16_t u16SFCRC16;
uint8_t u8SFPosition;
uint8_t u8SFDataLength = 255;
int offset = 0;
uint32_t u32SubStart;
uint16_t crc;
int tvb_len = 0;
unsigned char virtualFramebuffer[16];
/* try to build a temporary buffer for generating this CRC */
if (!pinfo->src.data || !pinfo->dst.data ||
pinfo->dst.type != AT_ETHER || pinfo->src.type != AT_ETHER) {
/* if we don't have src/dst mac addresses then we assume it's not
* to avoid various crashes */
return false;
}
memcpy(&virtualFramebuffer[0], pinfo->dst.data, 6);
memcpy(&virtualFramebuffer[6], pinfo->src.data, 6);
virtualFramebuffer[12] = 0x88;
virtualFramebuffer[13] = 0x92;
virtualFramebuffer[15] = (unsigned char) (u16FrameID &0xff);
virtualFramebuffer[14] = (unsigned char) (u16FrameID>>8);
crc = crc16_plain_init();
crc = crc16_plain_update(crc, &virtualFramebuffer[0], 16);
crc = crc16_plain_finalize(crc);
/* can check this CRC only by having built a temporary data buffer out of the pinfo data */
u16SFCRC16 = tvb_get_letohs(tvb, offset);
if (u16SFCRC16 != 0) /* no crc! */
{
if (u16SFCRC16 != crc)
{
return false;
}
}
/* end of first CRC check */
offset += 2; /*Skip first crc */
tvb_len = tvb_captured_length(tvb);
if (offset + 4 > tvb_len)
return false;
if (tvb_get_letohs(tvb, offset) == 0)
return false; /* no valid DFP frame */
while (1) {
u32SubStart = offset;
u8SFPosition = tvb_get_uint8(tvb, offset);
offset += 1;
u8SFDataLength = tvb_get_uint8(tvb, offset);
offset += 1;
if (u8SFDataLength == 0) {
break;
}
offset += 2;
offset += u8SFDataLength;
if (offset > tvb_len)
return /*true; */false;
u16SFCRC16 = tvb_get_letohs(tvb, offset);
if (u16SFCRC16 != 0) {
if (u8SFPosition & 0x80) {
crc = crc16_plain_tvb_offset_seed(tvb, u32SubStart, offset-u32SubStart, 0);
if (crc != u16SFCRC16) {
return false;
} else {
}
} else {
}
}
offset += 2;
}
return true;
}
/* possibly dissect a CSF_SDU related PN-RT packet */
bool
dissect_CSF_SDU_heur(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data)
{
/* the sub tvb will NOT contain the frame_id here! */
uint16_t u16FrameID = GPOINTER_TO_UINT(data);
uint16_t u16SFCRC16;
uint8_t u8SFPosition;
uint8_t u8SFDataLength = 255;
uint8_t u8SFCycleCounter;
uint8_t u8SFDataStatus;
int offset = 0;
uint32_t u32SubStart;
proto_item *sub_item;
proto_tree *sub_tree;
uint16_t crc;
/* possible FrameID ranges for DFP */
if ((u16FrameID < 0x0100) || (u16FrameID > 0x3FFF))
return false;
if (IsDFP_Frame(tvb, pinfo, u16FrameID)) {
/* can't check this CRC, as the checked data bytes are not available */
u16SFCRC16 = tvb_get_letohs(tvb, offset);
if (u16SFCRC16 != 0) {
/* Checksum verify will always succeed */
/* XXX - should we combine the two calls to always show "unverified"? */
proto_tree_add_checksum(tree, tvb, offset, hf_pn_rt_sf_crc16, hf_pn_rt_sf_crc16_status, &ei_pn_rt_sf_crc16, pinfo, u16SFCRC16,
ENC_LITTLE_ENDIAN, PROTO_CHECKSUM_VERIFY);
}
else {
proto_tree_add_checksum(tree, tvb, offset, hf_pn_rt_sf_crc16, hf_pn_rt_sf_crc16_status, &ei_pn_rt_sf_crc16, pinfo, 0,
ENC_LITTLE_ENDIAN, PROTO_CHECKSUM_NO_FLAGS);
}
offset += 2;
while (1) {
sub_item = proto_tree_add_item(tree, hf_pn_rt_sf, tvb, offset, 0, ENC_NA);
sub_tree = proto_item_add_subtree(sub_item, ett_pn_rt_sf);
u32SubStart = offset;
u8SFPosition = tvb_get_uint8(tvb, offset);
proto_tree_add_uint(sub_tree, hf_pn_rt_sf_position, tvb, offset, 1, u8SFPosition);
offset += 1;
u8SFDataLength = tvb_get_uint8(tvb, offset);
proto_tree_add_uint(sub_tree, hf_pn_rt_sf_data_length, tvb, offset, 1, u8SFDataLength);
offset += 1;
if (u8SFDataLength == 0) {
proto_item_append_text(sub_item, ": Pos:%u, Length:%u", u8SFPosition, u8SFDataLength);
proto_item_set_len(sub_item, offset - u32SubStart);
break;
}
u8SFCycleCounter = tvb_get_uint8(tvb, offset);
proto_tree_add_uint(sub_tree, hf_pn_rt_sf_cycle_counter, tvb, offset, 1, u8SFCycleCounter);
offset += 1;
u8SFDataStatus = tvb_get_uint8(tvb, offset);
dissect_DataStatus(tvb, offset, sub_tree, pinfo, u8SFDataStatus);
offset += 1;
offset = dissect_pn_user_data(tvb, offset, pinfo, sub_tree, u8SFDataLength, "DataItem");
u16SFCRC16 = tvb_get_letohs(tvb, offset);
if (u16SFCRC16 != 0 /* "old check": u8SFPosition & 0x80 */) {
crc = crc16_plain_tvb_offset_seed(tvb, u32SubStart, offset-u32SubStart, 0);
proto_tree_add_checksum(tree, tvb, offset, hf_pn_rt_sf_crc16, hf_pn_rt_sf_crc16_status, &ei_pn_rt_sf_crc16, pinfo, crc,
ENC_LITTLE_ENDIAN, PROTO_CHECKSUM_VERIFY);
} else {
proto_tree_add_checksum(tree, tvb, offset, hf_pn_rt_sf_crc16, hf_pn_rt_sf_crc16_status, &ei_pn_rt_sf_crc16, pinfo, 0,
ENC_LITTLE_ENDIAN, PROTO_CHECKSUM_NO_FLAGS);
}
offset += 2;
proto_item_append_text(sub_item, ": Pos:%u, Length:%u, Cycle:%u, Status: 0x%02x (%s,%s,%s,%s)",
u8SFPosition, u8SFDataLength, u8SFCycleCounter, u8SFDataStatus,
(u8SFDataStatus & 0x04) ? "Valid" : "Invalid",
(u8SFDataStatus & 0x01) ? "Primary" : "Backup",
(u8SFDataStatus & 0x20) ? "Ok" : "Problem",
(u8SFDataStatus & 0x10) ? "Run" : "Stop");
proto_item_set_len(sub_item, offset - u32SubStart);
}
return true;
}
else {
dissect_pn_user_data(tvb, offset, pinfo, tree, tvb_captured_length_remaining(tvb, offset),
"PROFINET IO Cyclic Service Data Unit");
}
return false;
}
/* for reassemble processing we need some inits.. */
/* Register PNIO defrag table init routine. */
static reassembly_table pdu_reassembly_table;
static GHashTable *reassembled_frag_table;
static dissector_table_t ethertype_subdissector_table;
static uint32_t start_frag_OR_ID[16];
static void
pnio_defragment_init(void)
{
uint32_t i;
for (i=0; i < 16; i++) /* init the reassemble help array */
start_frag_OR_ID[i] = 0;
reassembled_frag_table = g_hash_table_new(NULL, NULL);
}
static void
pnio_defragment_cleanup(void)
{
g_hash_table_destroy(reassembled_frag_table);
}
/* possibly dissect a FRAG_PDU related PN-RT packet */
static bool
dissect_FRAG_PDU_heur(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data)
{
/* the sub tvb will NOT contain the frame_id here! */
uint16_t u16FrameID = GPOINTER_TO_UINT(data);
int offset = 0;
/* possible FrameID ranges for FRAG_PDU */
if (u16FrameID >= 0xFF80 && u16FrameID <= 0xFF8F) {
proto_item *sub_item;
proto_tree *sub_tree;
proto_item *status_item;
proto_tree *status_tree;
uint8_t u8FragDataLength;
uint8_t u8FragStatus;
bool bMoreFollows;
uint8_t uFragNumber;
sub_item = proto_tree_add_item(tree, hf_pn_rt_frag, tvb, offset, 0, ENC_NA);
sub_tree = proto_item_add_subtree(sub_item, ett_pn_rt_frag);
u8FragDataLength = tvb_get_uint8(tvb, offset);
proto_tree_add_uint(sub_tree, hf_pn_rt_frag_data_length, tvb, offset, 1, u8FragDataLength);
offset += 1;
status_item = proto_tree_add_item(sub_tree, hf_pn_rt_frag_status, tvb, offset, 1, ENC_NA);
status_tree = proto_item_add_subtree(status_item, ett_pn_rt_frag_status);
u8FragStatus = tvb_get_uint8(tvb, offset);
proto_tree_add_uint(status_tree, hf_pn_rt_frag_status_more_follows, tvb, offset, 1, u8FragStatus);
proto_tree_add_uint(status_tree, hf_pn_rt_frag_status_error, tvb, offset, 1, u8FragStatus);
proto_tree_add_uint(status_tree, hf_pn_rt_frag_status_fragment_number, tvb, offset, 1, u8FragStatus);
offset += 1;
uFragNumber = u8FragStatus & 0x3F; /* bits 0 to 5 */
bMoreFollows = (u8FragStatus & 0x80) != 0;
proto_item_append_text(status_item, ": Number: %u, %s",
uFragNumber,
val_to_str_const( (u8FragStatus & 0x80) >> 7, pn_rt_frag_status_more_follows, "Unknown"));
/* Is this a string or a bunch of bytes? Should it be FT_BYTES? */
proto_tree_add_string_format(sub_tree, hf_pn_rt_frag_data, tvb, offset, tvb_captured_length_remaining(tvb, offset), "data",
"Fragment Length: %d bytes", tvb_captured_length_remaining(tvb, offset));
col_append_fstr(pinfo->cinfo, COL_INFO, " Fragment Length: %d bytes", tvb_captured_length_remaining(tvb, offset));
dissect_pn_user_data_bytes(tvb, offset, pinfo, sub_tree, tvb_captured_length_remaining(tvb, offset), FRAG_DATA);
if ((unsigned)tvb_captured_length_remaining(tvb, offset) < (unsigned)(u8FragDataLength *8)) {
proto_item_append_text(status_item, ": FragDataLength out of Framerange -> discarding!");
return true;
}
/* defragmentation starts here */
if (pnio_desegment)
{
uint32_t u32FragID;
uint32_t u32ReasembleID /*= 0xfedc ??*/;
fragment_head *pdu_frag;
u32FragID = (u16FrameID & 0xf);
if (uFragNumber == 0)
{ /* this is the first "new" fragment, so set up a new key Id */
uint32_t u32FrameKey;
u32FrameKey = (pinfo->num << 2) | u32FragID;
/* store it in the array */
start_frag_OR_ID[u32FragID] = u32FrameKey;
}
u32ReasembleID = start_frag_OR_ID[u32FragID];
/* use frame data instead of "pnio fraglen" which sets 8 octet steps */
pdu_frag = fragment_add_seq(&pdu_reassembly_table, tvb, offset,
pinfo, u32ReasembleID, NULL, uFragNumber,
(tvb_captured_length_remaining(tvb, offset))/*u8FragDataLength*8*/, bMoreFollows, 0);
if (pdu_frag && !bMoreFollows) /* PDU is complete! and last fragment */
{ /* store this fragment as the completed fragment in hash table */
g_hash_table_insert(reassembled_frag_table, GUINT_TO_POINTER(pinfo->num), pdu_frag);
start_frag_OR_ID[u32FragID] = 0; /* reset the starting frame counter */
}
if (!bMoreFollows) /* last fragment */
{
pdu_frag = (fragment_head *)g_hash_table_lookup(reassembled_frag_table, GUINT_TO_POINTER(pinfo->num));
if (pdu_frag) /* found a matching fragment; dissect it */
{
uint16_t type;
tvbuff_t *pdu_tvb;
/* create the new tvb for defragmented frame */
pdu_tvb = tvb_new_chain(tvb, pdu_frag->tvb_data);
/* add the defragmented data to the data source list */
add_new_data_source(pinfo, pdu_tvb, "Reassembled Profinet Frame");
/* PDU is complete: look for the Ethertype and give it to the appropriate dissection routine */
type = tvb_get_ntohs(pdu_tvb, 0);
pdu_tvb = tvb_new_subset_remaining(pdu_tvb, 2);
if (!dissector_try_uint(ethertype_subdissector_table, type, pdu_tvb, pinfo, tree))
call_data_dissector(pdu_tvb, pinfo, tree);
}
}
return true;
}
else
return true;
}
return false;
}
/*
* dissect_pn_rt - The dissector for the Soft-Real-Time protocol
*/
static int
dissect_pn_rt(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data _U_)
{
int pdu_len;
int data_len;
uint16_t u16FrameID;
uint8_t u8DataStatus;
uint8_t u8TransferStatus;
uint16_t u16CycleCounter;
const char *pszProtAddInfo;
const char *pszProtShort;
const char *pszProtSummary;
const char *pszProtComment;
proto_tree *pn_rt_tree, *ti;
char szFieldSummary[100];
tvbuff_t *next_tvb;
bool bCyclic;
heur_dtbl_entry_t *hdtbl_entry;
conversation_t* conversation;
uint8_t isTimeAware = false;
/* If the link-layer dissector for the protocol above us knows whether
* the packet, as handed to it, includes a link-layer FCS, what it
* hands to us should not include the FCS; if that's not the case,
* that's a bug in that dissector, and should be fixed there.
*
* If the link-layer dissector for the protocol above us doesn't know
* whether the packet, as handed to us, includes a link-layer FCS,
* there are limits as to what can be done there; the dissector
* ultimately needs a "yes, it has an FCS" preference setting, which
* both the Ethernet and 802.11 dissectors do. If that's not the case
* for a dissector, that's a deficiency in that dissector, and should
* be fixed there.
*
* Therefore, we assume we are not handed a packet that includes an
* FCS. If we are ever handed such a packet, either the link-layer
* dissector needs to be fixed or the link-layer dissector's preference
* needs to be set for your capture (even if that means adding such
* a preference). This dissector (and other dissectors for protcols
* running atop the link layer) should not attempt to process the
* FCS themselves, as that will just break things. */
/* Initialize variables */
pn_rt_tree = NULL;
ti = NULL;
/*
* Set the columns now, so that they'll be set correctly if we throw
* an exception. We can set them (or append things) later again ....
*/
col_set_str(pinfo->cinfo, COL_PROTOCOL, "PN-RT");
col_set_str(pinfo->cinfo, COL_INFO, "PROFINET Real-Time");
pdu_len = tvb_reported_length(tvb);
if (pdu_len < 6) {
dissect_pn_malformed(tvb, 0, pinfo, tree, pdu_len);
return 0;
}
/* TimeAwareness Information needed for differentiating RTC3 - RTSteam frames */
conversation = find_conversation(pinfo->num, &pinfo->dl_src, &pinfo->dl_dst, CONVERSATION_NONE, 0, 0, 0);
if (conversation != NULL) {
isTimeAware = GPOINTER_TO_UINT(conversation_get_proto_data(conversation, proto_pn_io_time_aware_status));
}
/* build some "raw" data */
u16FrameID = tvb_get_ntohs(tvb, 0);
if (u16FrameID <= 0x001F) {
pszProtShort = "PN-RT";
pszProtAddInfo = "reserved, ";
pszProtSummary = "Real-Time";
pszProtComment = "0x0000-0x001F: Reserved ID";
bCyclic = false;
} else if (u16FrameID <= 0x0021) {
pszProtShort = "PN-PTCP";
pszProtAddInfo = "Synchronization, ";
pszProtSummary = "Real-Time";
pszProtComment = "0x0020-0x0021: Real-Time: Sync (with follow up)";
bCyclic = false;
} else if (u16FrameID <= 0x007F) {
pszProtShort = "PN-RT";
pszProtAddInfo = "reserved, ";
pszProtSummary = "Real-Time";
pszProtComment = "0x0022-0x007F: Reserved ID";
bCyclic = false;
} else if (u16FrameID <= 0x0081) {
pszProtShort = "PN-PTCP";
pszProtAddInfo = "Synchronization, ";
pszProtSummary = "Isochronous-Real-Time";
pszProtComment = "0x0080-0x0081: Real-Time: Sync (without follow up)";
bCyclic = false;
} else if (u16FrameID <= 0x00FF) {
pszProtShort = "PN-RT";
pszProtAddInfo = "reserved, ";
pszProtSummary = "Real-Time";
pszProtComment = "0x0082-0x00FF: Reserved ID";
bCyclic = false;
} else if (u16FrameID <= 0x6FF && !isTimeAware) {
pszProtShort = "PN-RTC3";
pszProtAddInfo = "RTC3, ";
pszProtSummary = "Isochronous-Real-Time";
pszProtComment = "0x0100-0x06FF: RED: Real-Time(class=3): non redundant, normal or DFP";
bCyclic = true;
} else if (u16FrameID <= 0x0FFF && !isTimeAware) {
pszProtShort = "PN-RTC3";
pszProtAddInfo = "RTC3, ";
pszProtSummary = "Isochronous-Real-Time";
pszProtComment = "0x0700-0x0FFF: RED: Real-Time(class=3): redundant, normal or DFP";
bCyclic = true;
} else if (u16FrameID <= 0x7FFF && !isTimeAware) {
pszProtShort = "PN-RT";
pszProtAddInfo = "reserved, ";
pszProtSummary = "Real-Time";
pszProtComment = "0x1000-0x7FFF: Reserved ID";
bCyclic = false;
} else if (u16FrameID <= 0x0FFF && isTimeAware) {
pszProtShort = "PN-RT";
pszProtAddInfo = "reserved, ";
pszProtSummary = "Real-Time";
pszProtComment = "0x0100-0x0FFF: Reserved ID";
bCyclic = false;
} else if (u16FrameID <= 0x2FFF && isTimeAware) {
pszProtShort = "PN-RTCS";
pszProtAddInfo = "RT_STREAM, ";
pszProtSummary = "Real-Time";
pszProtComment = "0x1000-0x2FFF: RT_CLASS_STREAM";
bCyclic = true;
} else if (u16FrameID <= 0x37FF && isTimeAware) {
pszProtShort = "PN-RT";
pszProtAddInfo = "reserved, ";
pszProtSummary = "Real-Time";
pszProtComment = "0x3000-0x37FF: Reserved ID";
bCyclic = false;
} else if (u16FrameID <= 0x3FFF && isTimeAware) {
pszProtShort = "PN-RTCS";
pszProtAddInfo = "RT_STREAM, ";
pszProtSummary = "Real-Time";
pszProtComment = "0x3800-0x3FFF: RT_CLASS_STREAM";
bCyclic = true;
} else if (u16FrameID <= 0xBBFF) {
pszProtShort = "PN-RTC1";
pszProtAddInfo = "RTC1, ";
pszProtSummary = "cyclic Real-Time";
pszProtComment = "0x8000-0xBBFF: Real-Time(class=1 unicast): non redundant, normal";
bCyclic = true;
} else if (u16FrameID <= 0xBFFF) {
pszProtShort = "PN-RTC1";
pszProtAddInfo = "RTC1, ";
pszProtSummary = "cyclic Real-Time";
pszProtComment = "0xBC00-0xBFFF: Real-Time(class=1 multicast): non redundant, normal";
bCyclic = true;
} else if (u16FrameID <= 0xF7FF) {
/* check if udp frame on PNIO port */
if (pinfo->destport == 0x8892)
{ /* UDP frame */
pszProtShort = "PN-RTCUDP,";
pszProtAddInfo = "RT_CLASS_UDP, ";
pszProtComment = "0xC000-0xF7FF: Real-Time(UDP unicast): Cyclic";
}
else
{ /* layer 2 frame */
pszProtShort = "PN-RT";
pszProtAddInfo = "RTC1(legacy), ";
pszProtComment = "0xC000-0xF7FF: Real-Time(class=1 unicast): Cyclic";
}
pszProtSummary = "cyclic Real-Time";
bCyclic = true;
} else if (u16FrameID <= 0xFBFF) {
if (pinfo->destport == 0x8892)
{ /* UDP frame */
pszProtShort = "PN-RTCUDP,";
pszProtAddInfo = "RT_CLASS_UDP, ";
pszProtComment = "0xF800-0xFBFF:: Real-Time(UDP multicast): Cyclic";
}
else
{ /* layer 2 frame */
pszProtShort = "PN-RT";
pszProtAddInfo = "RTC1(legacy), ";
pszProtComment = "0xF800-0xFBFF: Real-Time(class=1 multicast): Cyclic";
}
pszProtSummary = "cyclic Real-Time";
bCyclic = true;
} else if (u16FrameID <= 0xFDFF) {
pszProtShort = "PN-RTA";
pszProtAddInfo = "Reserved, ";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "0xFC00-0xFDFF: Reserved";
bCyclic = false;
if (u16FrameID == 0xfc01) {
pszProtShort = "PN-RTA";
pszProtAddInfo = "Alarm High, ";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "Real-Time: Acyclic PN-IO Alarm high priority";
}
} else if (u16FrameID <= 0xFEFF) {
pszProtShort = "PN-RTA";
pszProtAddInfo = "Reserved, ";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "0xFE00-0xFEFF: Real-Time: Reserved";
bCyclic = false;
if (u16FrameID == 0xFE01) {
pszProtShort = "PN-RTA";
pszProtAddInfo = "Alarm Low, ";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "Real-Time: Acyclic PN-IO Alarm low priority";
}
if (u16FrameID == 0xFE02) {
pszProtShort = "PN-RSI";
pszProtAddInfo = "";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "Real-Time: Acyclic PN-IO RSI";
}
if (u16FrameID == FRAME_ID_DCP_HELLO) {
pszProtShort = "PN-RTA";
pszProtAddInfo = "";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "Real-Time: DCP (Dynamic Configuration Protocol) hello";
}
if (u16FrameID == FRAME_ID_DCP_GETORSET) {
pszProtShort = "PN-RTA";
pszProtAddInfo = "";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "Real-Time: DCP (Dynamic Configuration Protocol) get/set";
}
if (u16FrameID == FRAME_ID_DCP_IDENT_REQ) {
pszProtShort = "PN-RTA";
pszProtAddInfo = "";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "Real-Time: DCP (Dynamic Configuration Protocol) identify multicast request";
}
if (u16FrameID == FRAME_ID_DCP_IDENT_RES) {
pszProtShort = "PN-RTA";
pszProtAddInfo = "";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "Real-Time: DCP (Dynamic Configuration Protocol) identify response";
}
} else if (u16FrameID <= 0xFF01) {
pszProtShort = "PN-PTCP";
pszProtAddInfo = "RTA Sync, ";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "0xFF00-0xFF01: PTCP Announce";
bCyclic = false;
} else if (u16FrameID <= 0xFF1F) {
pszProtShort = "PN-PTCP";
pszProtAddInfo = "RTA Sync, ";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "0xFF02-0xFF1F: Reserved";
bCyclic = false;
} else if (u16FrameID <= 0xFF21) {
pszProtShort = "PN-PTCP";
pszProtAddInfo = "Follow Up, ";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "0xFF20-0xFF21: PTCP Follow Up";
bCyclic = false;
} else if (u16FrameID <= 0xFF22) {
pszProtShort = "PN-PTCP";
pszProtAddInfo = "Follow Up, ";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "0xFF22-0xFF3F: Reserved";
bCyclic = false;
} else if (u16FrameID <= 0xFF43) {
pszProtShort = "PN-PTCP";
pszProtAddInfo = "Delay, ";
pszProtSummary = "acyclic Real-Time";
pszProtComment = "0xFF40-0xFF43: Acyclic Real-Time: Delay";
bCyclic = false;
} else if (u16FrameID <= 0xFF7F) {
pszProtShort = "PN-RT";
pszProtAddInfo = "Reserved, ";
pszProtSummary = "Real-Time";
pszProtComment = "0xFF44-0xFF7F: reserved ID";
bCyclic = false;
} else if (u16FrameID <= 0xFF8F) {
pszProtShort = "PN-RT";
pszProtAddInfo = "";
pszProtSummary = "Fragmentation";
pszProtComment = "0xFF80-0xFF8F: Fragmentation";
bCyclic = false;
} else {
pszProtShort = "PN-RT";
pszProtAddInfo = "Reserved, ";
pszProtSummary = "Real-Time";
pszProtComment = "0xFF90-0xFFFF: reserved ID";
bCyclic = false;
}
/* decode optional cyclic fields at the packet end and build the summary line */
if (bCyclic) {
/* cyclic transfer has cycle counter, data status and transfer status fields at the end */
u16CycleCounter = tvb_get_ntohs(tvb, pdu_len - 4);
u8DataStatus = tvb_get_uint8(tvb, pdu_len - 2);
u8TransferStatus = tvb_get_uint8(tvb, pdu_len - 1);
snprintf (szFieldSummary, sizeof(szFieldSummary),
"%sID:0x%04x, Len:%4u, Cycle:%5u (%s,%s,%s,%s)",
pszProtAddInfo, u16FrameID, pdu_len - 2 - 4, u16CycleCounter,
(u8DataStatus & 0x04) ? "Valid" : "Invalid",
(u8DataStatus & 0x01) ? "Primary" : "Backup",
(u8DataStatus & 0x20) ? "Ok" : "Problem",
(u8DataStatus & 0x10) ? "Run" : "Stop");
/* user data length is packet len - frame id - optional cyclic status fields */
data_len = pdu_len - 2 - 4;
} else {
/* satisfy the gcc compiler, so it won't throw an "uninitialized" warning */
u16CycleCounter = 0;
u8DataStatus = 0;
u8TransferStatus = 0;
/* acyclic transfer has no fields at the end */
snprintf (szFieldSummary, sizeof(szFieldSummary),
"%sID:0x%04x, Len:%4u",
pszProtAddInfo, u16FrameID, pdu_len - 2);
/* user data length is packet len - frame id field */
data_len = pdu_len - 2;
}
/* build protocol tree only, if tree is really used */
if (tree) {
/* build pn_rt protocol tree with summary line */
if (pn_rt_summary_in_tree) {
ti = proto_tree_add_protocol_format(tree, proto_pn_rt, tvb, 0, pdu_len,
"PROFINET %s, %s", pszProtSummary, szFieldSummary);
} else {
ti = proto_tree_add_item(tree, proto_pn_rt, tvb, 0, pdu_len, ENC_NA);
}
pn_rt_tree = proto_item_add_subtree(ti, ett_pn_rt);
/* add frame ID */
proto_tree_add_uint_format(pn_rt_tree, hf_pn_rt_frame_id, tvb,
0, 2, u16FrameID, "FrameID: 0x%04x (%s)", u16FrameID, pszProtComment);
if (bCyclic) {
/* add cycle counter */
proto_tree_add_uint_format(pn_rt_tree, hf_pn_rt_cycle_counter, tvb,
pdu_len - 4, 2, u16CycleCounter, "CycleCounter: %u", u16CycleCounter);
/* add data status subtree */
dissect_DataStatus(tvb, pdu_len - 2, pn_rt_tree, pinfo, u8DataStatus);
/* add transfer status */
if (u8TransferStatus) {
proto_tree_add_uint_format(pn_rt_tree, hf_pn_rt_transfer_status, tvb,
pdu_len - 1, 1, u8TransferStatus,
"TransferStatus: 0x%02x (ignore this frame)", u8TransferStatus);
} else {
proto_tree_add_uint_format(pn_rt_tree, hf_pn_rt_transfer_status, tvb,
pdu_len - 1, 1, u8TransferStatus,
"TransferStatus: 0x%02x (OK)", u8TransferStatus);
}
}
}
/* update column info now */
if (u16FrameID == 0xFE02)
{
snprintf(szFieldSummary, sizeof(szFieldSummary), "%s", "");
}
col_add_str(pinfo->cinfo, COL_INFO, szFieldSummary);
col_set_str(pinfo->cinfo, COL_PROTOCOL, pszProtShort);
/* get frame user data tvb (without header and footer) */
next_tvb = tvb_new_subset_length(tvb, 2, data_len);
/* ask heuristics, if some sub-dissector is interested in this packet payload */
if (!dissector_try_heuristic(heur_subdissector_list, next_tvb, pinfo, tree, &hdtbl_entry, GUINT_TO_POINTER( (uint32_t) u16FrameID))) {
/*col_set_str(pinfo->cinfo, COL_INFO, "Unknown");*/
/* Oh, well, we don't know this; dissect it as data. */
dissect_pn_undecoded(next_tvb, 0, pinfo, tree, tvb_captured_length(next_tvb));
}
return tvb_captured_length(tvb);
}
/* Register all the bits needed by the filtering engine */
void
proto_register_pn_rt(void)
{
static hf_register_info hf[] = {
{ &hf_pn_rt_frame_id,
{ "FrameID", "pn_rt.frame_id",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_pn_rt_cycle_counter,
{ "CycleCounter", "pn_rt.cycle_counter",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_pn_rt_data_status,
{ "DataStatus", "pn_rt.ds",
FT_UINT8, BASE_HEX, 0, 0x0,
NULL, HFILL }},
{ &hf_pn_rt_data_status_ignore,
{ "Ignore (1:Ignore/0:Evaluate)", "pn_rt.ds_ignore", FT_UINT8, BASE_HEX, 0, 0x80,
NULL, HFILL }},
{ &hf_pn_rt_frame_info_type,
{ "PN Frame Type", "pn_rt.ds_frame_info_type", FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_pn_rt_frame_info_function_meaning_input_conv,
{ "Function/Meaning", "pn_rt.ds_frame_info_meaning",
FT_UINT8, BASE_HEX, VALS(pn_rt_frame_info_function_meaning_input_conv), 0x7,
NULL, HFILL } },
{ &hf_pn_rt_frame_info_function_meaning_output_conv,
{ "Function/Meaning", "pn_rt.ds_frame_info_meaning",
FT_UINT8, BASE_HEX, VALS(pn_rt_frame_info_function_meaning_output_conv), 0x7,
NULL, HFILL } },
{ &hf_pn_rt_data_status_Reserved_2,
{ "Reserved_2 (should be zero)", "pn_rt.ds_Reserved_2",
FT_UINT8, BASE_HEX, 0, 0x40,
NULL, HFILL }},
{ &hf_pn_rt_data_status_ok,
{ "StationProblemIndicator (1:Ok/0:Problem)", "pn_rt.ds_ok",
FT_UINT8, BASE_HEX, 0, 0x20,
NULL, HFILL }},
{ &hf_pn_rt_data_status_operate,
{ "ProviderState (1:Run/0:Stop)", "pn_rt.ds_operate",
FT_UINT8, BASE_HEX, 0, 0x10,
NULL, HFILL }},
{ &hf_pn_rt_data_status_res3,
{ "Reserved_3 (should be zero)", "pn_rt.ds_res3",
FT_UINT8, BASE_HEX, 0, 0x08,
NULL, HFILL }},
{ &hf_pn_rt_data_status_valid,
{ "DataValid (1:Valid/0:Invalid)", "pn_rt.ds_valid",
FT_UINT8, BASE_HEX, 0, 0x04,
NULL, HFILL }},
{ &hf_pn_rt_data_status_redundancy,
{ "Redundancy", "pn_rt.ds_redundancy",
FT_BOOLEAN, 8, TFS(&tfs_pn_rt_ds_redundancy), 0x02,
NULL, HFILL }},
{ &hf_pn_rt_data_status_redundancy_output_cr,
{ "Redundancy", "pn_rt.ds_redundancy",
FT_BOOLEAN, 8, TFS(&tfs_pn_rt_ds_redundancy_output_cr), 0x02,
NULL, HFILL }},
{ &hf_pn_rt_data_status_redundancy_input_cr_state_is_backup,
{ "Redundancy", "pn_rt.ds_redundancy",
FT_BOOLEAN, 8, TFS(&tfs_pn_rt_ds_redundancy_input_cr_state_is_backup), 0x02,
NULL, HFILL }},
{ &hf_pn_rt_data_status_redundancy_input_cr_state_is_primary,
{ "Redundancy", "pn_rt.ds_redundancy",
FT_BOOLEAN, 8, TFS(&tfs_pn_rt_ds_redundancy_input_cr_state_is_primary), 0x02,
NULL, HFILL }},
{ &hf_pn_rt_data_status_primary,
{ "State (1:Primary/0:Backup)", "pn_rt.ds_primary",
FT_UINT8, BASE_HEX, 0, 0x01,
NULL, HFILL }},
{ &hf_pn_rt_transfer_status,
{ "TransferStatus", "pn_rt.transfer_status",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_pn_rt_sf,
{ "SubFrame", "pn_rt.sf",
FT_NONE, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_pn_rt_sf_crc16,
{ "SFCRC16", "pn_rt.sf.crc16",
FT_UINT16, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_pn_rt_sf_crc16_status,
{ "SFCRC16 status", "pn_rt.sf.crc16.status",
FT_UINT8, BASE_NONE, VALS(plugin_proto_checksum_vals), 0x0,
NULL, HFILL }},
{ &hf_pn_rt_sf_position,
{ "Position", "pn_rt.sf.position",
FT_UINT8, BASE_DEC, NULL, 0x7F,
NULL, HFILL }},
#if 0
{ &hf_pn_rt_sf_position_control,
{ "Control", "pn_rt.sf.position_control",
FT_UINT8, BASE_DEC, VALS(pn_rt_position_control), 0x80,
NULL, HFILL }},
#endif
{ &hf_pn_rt_sf_data_length,
{ "DataLength", "pn_rt.sf.data_length",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_pn_rt_sf_cycle_counter,
{ "CycleCounter", "pn_rt.sf.cycle_counter",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_pn_rt_frag,
{ "PROFINET Fragment", "pn_rt.frag",
FT_NONE, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_pn_rt_frag_data_length,
{ "FragDataLength", "pn_rt.frag_data_length",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_pn_rt_frag_status,
{ "FragStatus", "pn_rt.frag_status",
FT_NONE, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_pn_rt_frag_status_more_follows,
{ "MoreFollows", "pn_rt.frag_status.more_follows",
FT_UINT8, BASE_HEX, VALS(pn_rt_frag_status_more_follows), 0x80,
NULL, HFILL }},
{ &hf_pn_rt_frag_status_error,
{ "Reserved", "pn_rt.frag_status.error",
FT_UINT8, BASE_HEX, VALS(pn_rt_frag_status_error), 0x40,
NULL, HFILL }},
{ &hf_pn_rt_frag_status_fragment_number,
{ "FragmentNumber (zero based)", "pn_rt.frag_status.fragment_number",
FT_UINT8, BASE_DEC, NULL, 0x3F,
NULL, HFILL }},
/* Is this a string or a bunch of bytes? Should it be FT_BYTES? */
{ &hf_pn_rt_frag_data,
{ "FragData", "pn_rt.frag_data",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
};
static int *ett[] = {
&ett_pn_rt,
&ett_pn_rt_data_status,
&ett_pn_rt_sf,
&ett_pn_rt_frag,
&ett_pn_rt_frag_status
};
static ei_register_info ei[] = {
{ &ei_pn_rt_sf_crc16, { "pn_rt.sf.crc16_bad", PI_CHECKSUM, PI_ERROR, "Bad checksum", EXPFILL }},
};
module_t *pn_rt_module;
expert_module_t* expert_pn_rt;
proto_pn_rt = proto_register_protocol("PROFINET Real-Time Protocol",
"PN-RT", "pn_rt");
pn_rt_handle = register_dissector("pn_rt", dissect_pn_rt, proto_pn_rt);
proto_register_field_array(proto_pn_rt, hf, array_length(hf));
proto_register_subtree_array(ett, array_length(ett));
expert_pn_rt = expert_register_protocol(proto_pn_rt);
expert_register_field_array(expert_pn_rt, ei, array_length(ei));
/* Register our configuration options */
pn_rt_module = prefs_register_protocol(proto_pn_rt, NULL);
prefs_register_bool_preference(pn_rt_module, "summary_in_tree",
"Show PN-RT summary in protocol tree",
"Whether the PN-RT summary line should be shown in the protocol tree",
&pn_rt_summary_in_tree);
prefs_register_bool_preference(pn_rt_module, "desegment",
"reassemble PNIO Fragments",
"Reassemble PNIO Fragments and get them decoded",
&pnio_desegment);
/* register heuristics anchor for payload dissectors */
heur_subdissector_list = register_heur_dissector_list_with_description("pn_rt", "PROFINET RT payload", proto_pn_rt);
init_pn (proto_pn_rt);
register_init_routine(pnio_defragment_init);
register_cleanup_routine(pnio_defragment_cleanup);
reassembly_table_register(&pdu_reassembly_table,
&addresses_reassembly_table_functions);
}
/* The registration hand-off routine is called at startup */
void
proto_reg_handoff_pn_rt(void)
{
dissector_add_uint("ethertype", ETHERTYPE_PROFINET, pn_rt_handle);
dissector_add_uint_with_preference("udp.port", PROFINET_UDP_PORT, pn_rt_handle);
heur_dissector_add("pn_rt", dissect_CSF_SDU_heur, "PROFINET CSF_SDU IO", "pn_csf_sdu_pn_rt", proto_pn_rt, HEURISTIC_ENABLE);
heur_dissector_add("pn_rt", dissect_FRAG_PDU_heur, "PROFINET Frag PDU IO", "pn_frag_pn_rt", proto_pn_rt, HEURISTIC_ENABLE);
ethertype_subdissector_table = find_dissector_table("ethertype");
}
/*
* 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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