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/* packet-lbm.h
* Definitions for LBM packet dissection
*
* Copyright (c) 2005-2014 Informatica Corporation. All Rights Reserved.
*
* Wireshark - Network traffic analyzer
* By Gerald Combs <gerald@wireshark.org>
* Copyright 1998 Gerald Combs
*
* SPDX-License-Identifier: GPL-2.0-or-later
*/
#ifndef PACKET_LBM_H_INCLUDED
#define PACKET_LBM_H_INCLUDED
/* A list of the taps etc. made available by these dissectors:
Taps:
lbm_stream
- A packet is queued for each UIM (unicast immediate message) LBMC message (or fragment)
- The data associated with each tap entry is described by lbm_uim_stream_tap_info_t
- A single packet may generate multiple tap entries (in the case that a single packet
contains multiple LBMC messages)
- An LBMC message that spans multiple packets will cause a single entry to be queued,
corresponding to the last packet spanned
lbm_uim
- A packet is queued for each complete (possibly reassembled) UIM message
- The data associated with each tap entry is described by lbm_uim_stream_info_t
- A single packet may generate multiple tap entries (in the case that a single packet
contains multiple complete UIM messages)
- An complete UIM message that spans multiple packets will cause a single entry to be queued,
corresponding to the last packet spanned
lbm_lbmr_topic_advertisement
- A packet is queued for each LBMR topic advertisement (TIR)
- The data associated with each tap entry is described by lbm_lbmr_topic_advertisement_tap_info_t
- A single LBMR message (which may span multiple IP frames, reassembled into a single UDP packet)
may generate multiple tap entries (in the case that a single LBMR message contains multiple topic
advertisements)
lbm_lbmr_topic_query
- A packet is queued for each LBMR topic query (TQR)
- The data associated with each tap entry is described by lbm_lbmr_topic_query_tap_info_t
- A single LBMR message (which may span multiple IP frames, reassembled into a single UDP packet)
may generate multiple tap entries (in the case that a single LBMR message contains multiple topic
queries)
lbm_lbmr_pattern_query
- A packet is queued for each LBMR pattern query (TQR specifying a pattern)
- The data associated with each tap entry is described by lbm_lbmr_pattern_query_tap_info_t
- A single LBMR message (which may span multiple IP frames, reassembled into a single UDP packet)
may generate multiple tap entries (in the case that a single LBMR message contains multiple pattern
queries)
lbm_lbmr_queue_advertisement
- A packet is queued for each LBMR queue advertisement (QIR)
- The data associated with each tap entry is described by lbm_lbmr_queue_advertisement_tap_info_t
- A single LBMR message (which may span multiple IP frames, reassembled into a single UDP packet)
may generate multiple tap entries (in the case that a single LBMR message contains multiple queue
advertisements)
lbm_lbmr_queue_query
- A packet is queued for each LBMR queue query (QQR)
- The data associated with each tap entry is described by lbm_lbmr_queue_query_tap_info_t
- A single LBMR message (which may span multiple IP frames, reassembled into a single UDP packet)
may generate multiple tap entries (in the case that a single LBMR message contains multiple queue
queries)
lbm_lbtrm
- A packet is queued for each LBTRM transport message
- The data associated with each tap entry is described by lbm_lbtrm_tap_info_t
- A single LBTRM transport message (which may span multiple IP frames, reassembled into a single UDP
packet) will generate a single tap entry
lbm_lbtru
- A packet is queued for each LBTRU transport message
- The data associated with each tap entry is described by lbm_lbtru_tap_info_t
- A single LBTRU transport message (which may span multiple IP frames, reassembled into a single UDP
packet) will generate a single tap entry
Heuristic subdissector tables:
lbm_msg_payload
- If the LBMC preference "Use heuristic sub-dissectors" is enabled, the dissector will call any dissector
registered in this table via heur_dissector_add(). This allows a customer plugin to dissect the
actual payload of their messages.
*/
#if defined(__FreeBSD__)
#include <sys/types.h>
#include <netinet/in.h>
#endif
#include <stddef.h>
#ifdef HAVE_NETINET_IN_H
# include <netinet/in.h>
#endif
#ifdef _WIN32
#include <winsock2.h>
#endif
#include <epan/tfs.h>
typedef uint8_t lbm_uint8_t;
typedef uint16_t lbm_uint16_t;
typedef uint32_t lbm_uint32_t;
typedef uint64_t lbm_uint64_t;
#define SIZEOF(TYPE, MEMBER) (int)(sizeof(((TYPE *)0)->MEMBER))
#define OFFSETOF(TYPE, MEMBER) (int)(offsetof(TYPE, MEMBER))
#define STRINGIZE(a) #a
#define MAKESTRING(a) STRINGIZE(a)
#define LBM_OTID_BLOCK_SZ 32
#define LBM_CONTEXT_INSTANCE_BLOCK_SZ 8
#define LBM_HMAC_BLOCK_SZ 20
/* UAT macros for IPV4 fields. */
#define UAT_IPV4_CB_DEF(basename,field_name,rec_t) \
static bool basename ## _ ## field_name ## _chk_cb(void * u1 _U_, const char * strptr, unsigned len _U_, const void * u2 _U_, const void * u3 _U_, char ** err) \
{ \
uint32_t addr; \
if (!ws_inet_pton4(strptr, &addr)) \
{ \
*err = g_strdup("invalid address"); \
return false; \
} \
return true; \
} \
static void basename ## _ ## field_name ## _set_cb(void* rec, const char* buf, unsigned len, const void* u1 _U_, const void* u2 _U_) \
{ \
uint32_t addr; \
char* new_buf = g_strndup(buf,len); \
g_free((((rec_t*)rec)->field_name)); \
(((rec_t*)rec)->field_name) = new_buf; \
ws_inet_pton4(new_buf, &addr); \
(((rec_t*)rec)->field_name ## _val_h) = g_ntohl(addr); \
} \
static void basename ## _ ## field_name ## _tostr_cb(void* rec, char** out_ptr, unsigned* out_len, const void* u1 _U_, const void* u2 _U_) \
{\
if (((rec_t*)rec)->field_name ) \
{ \
*out_ptr = g_strdup((((rec_t*)rec)->field_name)); \
*out_len = (unsigned)strlen((((rec_t*)rec)->field_name)); \
} \
else \
{ \
*out_ptr = g_strdup(""); \
*out_len = 0; \
} \
}
#define UAT_FLD_IPV4(basename,field_name,title,desc) \
{#field_name, title, PT_TXTMOD_STRING,{basename ## _ ## field_name ## _chk_cb,basename ## _ ## field_name ## _set_cb,basename ## _ ## field_name ## _tostr_cb},{0,0,0},0,desc,FLDFILL}
/* UAT macros for IPV4 Multicast fields. */
#define UAT_IPV4_MC_CB_DEF(basename,field_name,rec_t) \
static bool basename ## _ ## field_name ## _chk_cb(void * u1 _U_, const char * strptr, unsigned len _U_, const void * u2 _U_, const void * u3 _U_, char ** err) \
{ \
uint32_t addr; \
if (!ws_inet_pton4(strptr, &addr)) \
{ \
*err = g_strdup("invalid address"); \
return false; \
} \
if (!IN_MULTICAST(g_ntohl(addr)) && (g_ntohl(addr) != 0)) \
{ \
*err = g_strdup("invalid multicast address"); \
return false; \
} \
return true; \
} \
static void basename ## _ ## field_name ## _set_cb(void* rec, const char* buf, unsigned len, const void* u1 _U_, const void* u2 _U_) \
{ \
uint32_t addr; \
char* new_buf = g_strndup(buf,len); \
g_free((((rec_t*)rec)->field_name)); \
(((rec_t*)rec)->field_name) = new_buf; \
ws_inet_pton4(new_buf, &addr); \
(((rec_t*)rec)->field_name ## _val_h) = g_ntohl(addr); \
} \
static void basename ## _ ## field_name ## _tostr_cb(void* rec, char** out_ptr, unsigned* out_len, const void* u1 _U_, const void* u2 _U_) \
{\
if (((rec_t*)rec)->field_name ) \
{ \
*out_ptr = g_strdup((((rec_t*)rec)->field_name)); \
*out_len = (unsigned)strlen((((rec_t*)rec)->field_name)); \
} \
else \
{ \
*out_ptr = g_strdup(""); \
*out_len = 0; \
} \
}
#define UAT_FLD_IPV4_MC(basename,field_name,title,desc) \
{#field_name, title, PT_TXTMOD_STRING,{basename ## _ ## field_name ## _chk_cb,basename ## _ ## field_name ## _set_cb,basename ## _ ## field_name ## _tostr_cb},{0,0,0},0,desc,FLDFILL}
typedef struct
{
uint32_t domain;
address addr;
uint16_t port;
} lbm_uim_stream_destination_t;
typedef struct
{
uint8_t ctxinst[LBM_CONTEXT_INSTANCE_BLOCK_SZ];
} lbm_uim_stream_ctxinst_t;
typedef enum
{
lbm_uim_instance_stream,
lbm_uim_domain_stream
} lbm_uim_stream_type_t;
typedef struct
{
lbm_uim_stream_type_t type;
union
{
lbm_uim_stream_destination_t dest;
lbm_uim_stream_ctxinst_t ctxinst;
} stream_info;
} lbm_uim_stream_endpoint_t;
typedef struct
{
uint64_t channel;
uint32_t substream_id;
uint32_t bytes;
lbm_uim_stream_endpoint_t endpoint_a;
lbm_uim_stream_endpoint_t endpoint_b;
} lbm_uim_stream_tap_info_t;
typedef struct
{
char * transport;
uint8_t type;
bool retransmission;
uint32_t sqn;
uint8_t ncf_reason;
uint16_t num_sqns;
uint32_t * sqns;
} lbm_lbtrm_tap_info_t;
typedef struct
{
char * transport;
uint8_t type;
bool retransmission;
uint32_t sqn;
uint8_t ncf_reason;
uint16_t num_sqns;
uint16_t creq_type;
uint16_t rst_type;
uint32_t * sqns;
} lbm_lbtru_tap_info_t;
typedef struct
{
uint16_t size;
uint8_t topic_length;
uint8_t source_length;
uint32_t topic_index;
char topic[256];
char source[256];
} lbm_lbmr_topic_advertisement_tap_info_t;
typedef struct
{
uint16_t size;
uint8_t topic_length;
char topic[256];
} lbm_lbmr_topic_query_tap_info_t;
typedef struct
{
uint16_t size;
uint8_t type;
uint8_t pattern_length;
char pattern[256];
} lbm_lbmr_pattern_query_tap_info_t;
#define LBMR_WILDCARD_PATTERN_TYPE_PCRE 1
#define LBMR_WILDCARD_PATTERN_TYPE_REGEX 2
typedef struct
{
uint16_t size;
uint16_t port;
uint8_t queue_length;
uint8_t topic_length;
char queue[256];
char topic[256];
} lbm_lbmr_queue_advertisement_tap_info_t;
typedef struct
{
uint16_t size;
uint8_t queue_length;
char queue[256];
} lbm_lbmr_queue_query_tap_info_t;
#define LBM_TOPIC_OPT_EXFUNC_FFLAG_LJ 0x00000001
#define LBM_TOPIC_OPT_EXFUNC_FFLAG_UME 0x00000002
#define LBM_TOPIC_OPT_EXFUNC_FFLAG_UMQ 0x00000004
#define LBM_TOPIC_OPT_EXFUNC_FFLAG_ULB 0x00000008
/* LBT-RM packet types */
#define LBTRM_PACKET_TYPE_DATA 0x00
#define LBTRM_PACKET_TYPE_SM 0x02
#define LBTRM_PACKET_TYPE_NAK 0x03
#define LBTRM_PACKET_TYPE_NCF 0x04
/* LBT-RM NCF reason types */
#define LBTRM_NCF_REASON_NO_RETRY 0x0
#define LBTRM_NCF_REASON_IGNORED 0x1
#define LBTRM_NCF_REASON_RX_DELAY 0x2
#define LBTRM_NCF_REASON_SHED 0x3
/* LBT-RU packet types */
#define LBTRU_PACKET_TYPE_DATA 0x00
#define LBTRU_PACKET_TYPE_SM 0x02
#define LBTRU_PACKET_TYPE_NAK 0x03
#define LBTRU_PACKET_TYPE_NCF 0x04
#define LBTRU_PACKET_TYPE_ACK 0x05
#define LBTRU_PACKET_TYPE_CREQ 0x06
#define LBTRU_PACKET_TYPE_RST 0x07
/* LBT-RU NCF reason types */
#define LBTRU_NCF_REASON_NO_RETRY 0x0
#define LBTRU_NCF_REASON_IGNORED 0x1
#define LBTRU_NCF_REASON_RX_DELAY 0x2
#define LBTRU_NCF_REASON_SHED 0x3
/* LBT-RU CREQ types */
#define LBTRU_CREQ_REQUEST_SYN 0x0
/* LBT-RU RST reasons */
#define LBTRU_RST_REASON_DEFAULT 0x0
bool lbmc_test_lbmc_header(tvbuff_t * tvb, int offset);
int lbmc_dissect_lbmc_packet(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree, const char * tag_name, uint64_t channel);
int lbmc_get_minimum_length(void);
uint16_t lbmc_get_message_length(tvbuff_t * tvb, int offset);
bool lbmpdm_verify_payload(tvbuff_t * tvb, int offset, int * encoding, int * length);
int lbmpdm_dissect_lbmpdm_payload(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree, uint64_t channel);
int lbmpdm_get_minimum_length(void);
int lbmr_dissect_umq_qmgmt(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree);
extern const true_false_string lbm_ignore_flag;
extern const value_string lbm_wildcard_pattern_type[];
extern const value_string lbm_wildcard_pattern_type_short[];
/*----------------------------------------------------------------------------*/
/* Channel interface. */
/*----------------------------------------------------------------------------*/
#define LBM_CHANNEL_NO_CHANNEL (~((uint64_t) 0))
#define LBM_CHANNEL_TRANSPORT_LBTTCP 0x00
#define LBM_CHANNEL_TRANSPORT_LBTRU 0x01
#define LBM_CHANNEL_TRANSPORT_LBTRM 0x02
#define LBM_CHANNEL_TRANSPORT_LBTIPC 0x03
#define LBM_CHANNEL_TRANSPORT_LBTRDMA 0x04
#define LBM_CHANNEL_TRANSPORT_LBTSMX 0x05
#define LBM_CHANNEL_STREAM_TCP 0x10
#define LBM_CHANNEL_TCP 0x20
#define LBM_CHANNEL_VALUE_MASK UINT64_C(0xfffffffffffff000)
#define LBM_CHANNEL_VALUE_SHIFT_COUNT 12
void lbm_channel_reset(void);
uint64_t lbm_channel_assign(uint8_t channel_type);
bool lbm_channel_is_transport(uint64_t channel);
uint8_t lbm_channel_type(uint64_t channel);
uint64_t lbm_channel_assign_unknown_transport_source_lbttcp(void);
uint64_t lbm_channel_assign_unknown_transport_client_lbttcp(void);
uint64_t lbm_channel_assign_unknown_stream_tcp(void);
bool lbm_channel_is_unknown_transport_lbttcp(uint64_t channel);
bool lbm_channel_is_unknown_transport_source_lbttcp(uint64_t channel);
bool lbm_channel_is_unknown_transport_client_lbttcp(uint64_t channel);
bool lbm_channel_is_unknown_stream_tcp(uint64_t channel);
bool lbm_channel_is_known(uint64_t channel);
#define LBM_CHANNEL_ID(ch) ((ch & LBM_CHANNEL_VALUE_MASK) >> LBM_CHANNEL_VALUE_SHIFT_COUNT)
/*----------------------------------------------------------------------------*/
/* Frame/SQN interface. */
/*----------------------------------------------------------------------------*/
typedef struct
{
uint32_t frame;
uint8_t type;
uint32_t sqn;
uint32_t previous_frame;
uint32_t previous_type_frame;
uint32_t next_frame;
uint32_t next_type_frame;
bool retransmission;
uint32_t sqn_gap;
uint32_t ooo_gap;
bool duplicate;
} lbm_transport_frame_t;
typedef struct
{
uint32_t frame;
bool retransmission;
} lbm_transport_sqn_frame_t;
typedef struct
{
uint32_t sqn;
uint32_t frame_count;
wmem_tree_t * frame; /* List of lbm_transport_sqn_frame_t */
} lbm_transport_sqn_t;
lbm_transport_frame_t * lbm_transport_frame_add(wmem_tree_t * list, uint8_t type, uint32_t frame, uint32_t sqn, bool retransmission);
lbm_transport_sqn_t * lbm_transport_sqn_add(wmem_tree_t * list, lbm_transport_frame_t * frame);
/*----------------------------------------------------------------------------*/
/* Topic interface. */
/*----------------------------------------------------------------------------*/
void lbm_topic_init(void);
const char * lbm_topic_find(uint64_t channel, uint32_t topic_index);
void lbm_topic_add(uint64_t channel, uint32_t topic_index, const char * name);
#endif
/*
* 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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