dcerpc-netlogon: improve NetrLogonGetCapabilities dissection
[wireshark-sm.git] / epan / conversation.h
blob3d78e152f2c4feb8ae439d8bd73c53c1f5bdadcb
1 /* conversation.h
2 * Routines for building lists of packets that are part of a "conversation"
4 * Wireshark - Network traffic analyzer
5 * By Gerald Combs <gerald@wireshark.org>
6 * Copyright 1998 Gerald Combs
8 * SPDX-License-Identifier: GPL-2.0-or-later
9 */
11 #ifndef __CONVERSATION_H__
12 #define __CONVERSATION_H__
14 #include "ws_symbol_export.h"
16 #include "packet.h" /* for conversation dissector type */
17 #include <epan/wmem_scopes.h>
19 #ifdef __cplusplus
20 extern "C" {
21 #endif /* __cplusplus */
23 /**
24 * @file
25 * The conversation API lets you correlate packets based on values in a
26 * packet, typically address+port tuples. You can search for conversations
27 * based on their value tuples and attach data to them.
30 /**
31 * Flags to pass to "conversation_new()" to indicate that the address 2
32 * and/or port 2 values for the conversation should be wildcards.
33 * The CONVERSATION_TEMPLATE option tells that any of the other supplied
34 * port and / or address wildcards will be used to match an infinite number
35 * of new connections to the conversation(s) that have the CONVERSATION_-
36 * TEMPLATE flag set. Any conversation created without the CONVERSATION_-
37 * TEMPLATE flag will be altered once the first connections (connection
38 * oriented protocols only) to include the newly found information which
39 * matched the wildcard options.
41 #define NO_ADDR2 0x01
42 #define NO_PORT2 0x02
43 #define NO_PORT2_FORCE 0x04
44 #define CONVERSATION_TEMPLATE 0x08
45 #define NO_PORTS 0x010
47 /**
48 * Flags to pass to "find_conversation()" to indicate that the address B
49 * and/or port B search arguments are wildcards.
51 #define NO_MASK_B 0xFFFF0000
52 #define NO_ADDR_B 0x00010000
53 #define NO_PORT_B 0x00020000
54 #define NO_PORT_X 0x00040000
55 #define NO_ANC 0x00080000
57 /** Flags to handle endpoints */
58 #define USE_LAST_ENDPOINT 0x08 /**< Use last endpoint created, regardless of type */
60 /* Types of conversations Wireshark knows about. */
61 /* XXX: There should be a way to register conversation types used only
62 * within one dissector, similar to address types, instead of changing
63 * the global typedef.
65 typedef enum {
66 CONVERSATION_NONE, /* no conversation key */
67 CONVERSATION_SCTP, /* SCTP */
68 CONVERSATION_TCP, /* TCP address/port pairs */
69 CONVERSATION_UDP, /* UDP address/port pairs */
70 CONVERSATION_DCCP, /* DCCP */
71 CONVERSATION_IPX, /* IPX sockets */
72 CONVERSATION_NCP, /* NCP connection */
73 CONVERSATION_EXCHG, /* Fibre Channel exchange */
74 CONVERSATION_DDP, /* DDP AppleTalk address/port pair */
75 CONVERSATION_SBCCS, /* FICON */
76 CONVERSATION_IDP, /* XNS IDP sockets */
77 CONVERSATION_TIPC, /* TIPC PORT */
78 CONVERSATION_USB, /* USB endpoint 0xffff means the host */
79 CONVERSATION_I2C,
80 CONVERSATION_IBQP, /* Infiniband QP number */
81 CONVERSATION_BLUETOOTH,
82 CONVERSATION_TDMOP,
83 CONVERSATION_DVBCI,
84 CONVERSATION_ISO14443,
85 CONVERSATION_ISDN, /* ISDN channel number */
86 CONVERSATION_H223, /* H.223 logical channel number */
87 CONVERSATION_X25, /* X.25 logical channel number */
88 CONVERSATION_IAX2, /* IAX2 call id */
89 CONVERSATION_DLCI, /* Frame Relay DLCI */
90 CONVERSATION_ISUP, /* ISDN User Part CIC */
91 CONVERSATION_BICC, /* BICC Circuit identifier */
92 CONVERSATION_GSMTAP,
93 CONVERSATION_IUUP,
94 CONVERSATION_DVBBBF, /* DVB Base Band Frame ISI/PLP_ID */
95 CONVERSATION_IWARP_MPA, /* iWarp MPA */
96 CONVERSATION_BT_UTP, /* BitTorrent uTP Connection ID */
97 CONVERSATION_LOG, /* Logging source */
98 CONVERSATION_LTP, /* LTP Engine ID and Session Number */
99 CONVERSATION_MCTP,
100 CONVERSATION_NVME_MI, /* NVMe management interface */
101 CONVERSATION_BP, /* Bundle Protocol endpoint IDs */
102 CONVERSATION_SNMP, /* SNMP */
103 CONVERSATION_QUIC, /* QUIC */
104 CONVERSATION_IDN,
105 CONVERSATION_IP, /* IP */
106 CONVERSATION_IPV6, /* IPv6 */
107 CONVERSATION_ETH, /* ETHERNET classic */
108 CONVERSATION_ETH_NN, /* ETHERNET deinterlaced Interface:N VLAN:N */
109 CONVERSATION_ETH_NV, /* ETHERNET deinterlaced Interface:N VLAN:Y */
110 CONVERSATION_ETH_IN, /* ETHERNET deinterlaced Interface:Y VLAN:N */
111 CONVERSATION_ETH_IV, /* ETHERNET deinterlaced Interface:Y VLAN:Y */
112 CONVERSATION_VSPC_VMOTION, /* VMware vSPC vMotion (Telnet) */
113 CONVERSATION_OPENVPN,
114 CONVERSATION_PROXY,
115 } conversation_type;
118 * XXX - for now, we just #define these to be the same as the
119 * corresponding CONVERSATION_ values, for backwards source
120 * compatibility.
122 * In the long term, we should make this into a separate enum,
123 * with elements corresponding to conversation types that do
124 * not have known endpoints removed.
126 /* Types of conversation endpoints Wireshark knows about. */
127 #define ENDPOINT_NONE CONVERSATION_NONE
128 #define ENDPOINT_SCTP CONVERSATION_SCTP
129 #define ENDPOINT_TCP CONVERSATION_TCP
130 #define ENDPOINT_UDP CONVERSATION_UDP
131 #define ENDPOINT_DCCP CONVERSATION_DCCP
132 #define ENDPOINT_IPX CONVERSATION_IPX
133 #define ENDPOINT_NCP CONVERSATION_NCP
134 #define ENDPOINT_EXCHG CONVERSATION_EXCHG
135 #define ENDPOINT_DDP CONVERSATION_DDP
136 #define ENDPOINT_SBCCS CONVERSATION_SBCCS
137 #define ENDPOINT_IDP CONVERSATION_IDP
138 #define ENDPOINT_TIPC CONVERSATION_TIPC
139 #define ENDPOINT_USB CONVERSATION_USB
140 #define ENDPOINT_I2C CONVERSATION_I2C
141 #define ENDPOINT_IBQP CONVERSATION_IBQP
142 #define ENDPOINT_BLUETOOTH CONVERSATION_BLUETOOTH
143 #define ENDPOINT_TDMOP CONVERSATION_TDMOP
144 #define ENDPOINT_DVBCI CONVERSATION_DVBCI
145 #define ENDPOINT_ISO14443 CONVERSATION_ISO14443
146 #define ENDPOINT_ISDN CONVERSATION_ISDN
147 #define ENDPOINT_H223 CONVERSATION_H223
148 #define ENDPOINT_X25 CONVERSATION_X25
149 #define ENDPOINT_IAX2 CONVERSATION_IAX2
150 #define ENDPOINT_DLCI CONVERSATION_DLCI
151 #define ENDPOINT_ISUP CONVERSATION_ISUP
152 #define ENDPOINT_BICC CONVERSATION_BICC
153 #define ENDPOINT_GSMTAP CONVERSATION_GSMTAP
154 #define ENDPOINT_IUUP CONVERSATION_IUUP
155 #define ENDPOINT_DVBBBF CONVERSATION_DVBBBF
156 #define ENDPOINT_IWARP_MPA CONVERSATION_IWARP_MPA
157 #define ENDPOINT_BT_UTP CONVERSATION_BT_UTP
158 #define ENDPOINT_LOG CONVERSATION_LOG
159 #define ENDPOINT_MCTP CONVERSATION_MCTP
160 #define ENDPOINT_NVME_MI CONVERSATION_NVME_MI
161 #define ENDPOINT_SNMP CONVERSATION_SNMP
163 typedef conversation_type endpoint_type;
166 * Conversation element type.
168 typedef enum {
169 CE_CONVERSATION_TYPE, /* CONVERSATION_ value */
170 CE_ADDRESS, /* address */
171 CE_PORT, /* unsigned integer representing a port */
172 CE_STRING, /* string */
173 CE_UINT, /* unsigned integer not representing a port */
174 CE_UINT64, /* 64-bit unsigned integer */
175 CE_INT, /* signed integer */
176 CE_INT64, /* signed integer */
177 CE_BLOB, /* arbitrary binary data */
178 } conversation_element_type;
181 * Elements used to identify conversations for *_full routines and
182 * pinfo->conv_elements.
183 * Arrays must be terminated with an element .type set to CE_CONVERSATION_TYPE.
185 * This is currently set only by conversation_set_elements_by_id(); it
186 * is not set for conversations identified by address/port endpoints.
188 * In find_conversation_pinfo() and find_or_create_conversation(), if
189 * any dissector has set this, then, unless some dissector has set the
190 * pair of address/port endpoints (see below), the array of elements
191 * is used to look up or create the conversation. Otherwise, the
192 * current addresses and ports in the packet_info structure are used.
194 * XXX - is there any reason why we shouldn't use an array of conversation
195 * elements, with the appropriate addresses and ports, and set it for
196 * all protocols that use conversations specified by a pair of address/port
197 * endpoints? That might simplify find_conversation_pinfo() by having
198 * them always use the array of elements if it's present, and just fail if
199 * it's not.
201 typedef struct conversation_element {
202 conversation_element_type type;
203 union {
204 conversation_type conversation_type_val;
205 address addr_val;
206 unsigned int port_val;
207 const char *str_val;
208 unsigned int uint_val;
209 uint64_t uint64_val;
210 int int_val;
211 int64_t int64_val;
212 struct {
213 const uint8_t *val;
214 size_t len;
215 } blob;
217 } conversation_element_t;
220 * Data structure representing a conversation.
222 typedef struct conversation {
223 struct conversation *next; /** pointer to next conversation on hash chain */
224 struct conversation *last; /** pointer to the last conversation on hash chain */
225 struct conversation *latest_found; /** pointer to the last conversation on hash chain */
226 uint32_t conv_index; /** unique ID for conversation */
227 uint32_t setup_frame; /** frame number that setup this conversation */
228 /* Assume that setup_frame is also the lowest frame number for now. */
229 uint32_t last_frame; /** highest frame number in this conversation */
230 wmem_tree_t *data_list; /** list of data associated with conversation */
231 wmem_tree_t *dissector_tree; /** tree containing protocol dissector client associated with conversation */
232 unsigned options; /** wildcard flags */
233 conversation_element_t *key_ptr; /** Keys are conversation element arrays terminated with a CE_CONVERSATION_TYPE */
234 } conversation_t;
237 * For some protocols, we store, in the packet_info structure, a pair
238 * of address/port endpoints, for use by code that might want to
239 * construct a conversation for that protocol.
241 * This appears to have been done in order to allow protocols to save
242 * that information *without* overwriting the addresses or ports in the
243 * packet_info structure, so that the other code that uses those values,
244 * such as the code that fills in the address and port columns in the
245 * packet summary, will pick up the values put there by protocols such
246 * as IP and UDP, rather than the values put there by protocols such as
247 * TDMoP, FCIP, TIPC, and DVB Dynamic Mode Adaptation. See commit
248 * 66b441f3d63e21949530d672bf1406dea94ed254 and issue #11340.
250 * That is set by conversation_set_conv_addr_port_endpoints().
252 * In find_conversation_pinfo() and find_or_create_conversation(), if
253 * any dissector has set this, that address/port endpoint pair is used
254 * to look up or create the conversation.
256 * Prior to 4.0, conversations identified by a single integer value
257 * (such as a circuit ID) were handled by creating a pair of address/port
258 * endpoints with null addresses, the first port equal to the integer
259 * value, the second port missing, and a port type being an ENDPOINT_
260 * type specifying the protocol for the conversation. Now we use an
261 * array of elements, with a CE_UINT value for the integer followed
262 * by a CE_CONVERSATION_TYPE value specifying the protocol for the
263 * conversation.
265 * XXX - is there any reason why we shouldn't use an array of conversation
266 * elements, with the appropriate addresses and ports, instead of this
267 * structure? It would at least simplify find_conversation_pinfo() and
268 * find_or_create_conversation().
270 struct conversation_addr_port_endpoints;
271 typedef struct conversation_addr_port_endpoints* conversation_addr_port_endpoints_t;
273 WS_DLL_PUBLIC const address* conversation_key_addr1(const conversation_element_t *key);
274 WS_DLL_PUBLIC uint32_t conversation_key_port1(const conversation_element_t *key);
275 WS_DLL_PUBLIC const address* conversation_key_addr2(const conversation_element_t *key);
276 WS_DLL_PUBLIC uint32_t conversation_key_port2(const conversation_element_t *key);
279 * Create a new hash tables for conversations.
281 extern void conversation_init(void);
284 * Initialize some variables every time a file is loaded or re-loaded.
286 extern void conversation_epan_reset(void);
289 * Create a new conversation identified by a list of elements.
290 * @param setup_frame The first frame in the conversation.
291 * @param elements An array of element types and values. Must not be NULL. Must be terminated with a CE_CONVERSATION_TYPE element.
292 * @return The new conversation.
294 WS_DLL_PUBLIC WS_RETNONNULL conversation_t *conversation_new_full(const uint32_t setup_frame, conversation_element_t *elements);
297 * Given two address/port pairs for a packet, create a new conversation
298 * identified by address/port pairs.
300 * The options field is used to specify whether the address 2 value
301 * and/or port 2 value are not given and any value is acceptable
302 * when searching for this conversation. Null address values will
303 * be replaced with empty (AT_NONE) addresses.
305 * @param setup_frame The first frame in the conversation.
306 * @param addr1 The first address in the identifying tuple.
307 * @param addr2 The second address in the identifying tuple.
308 * @param ctype The conversation type.
309 * @param port1 The first port in the identifying tuple.
310 * @param port2 The second port in the identifying tuple.
311 * @param options NO_ADDR2, NO_PORT2, NO_PORT2_FORCE, or CONVERSATION_TEMPLATE.
312 * Options except for NO_PORT2 and NO_PORT2_FORCE can be ORed.
313 * @return The new conversation.
315 WS_DLL_PUBLIC WS_RETNONNULL conversation_t *conversation_new(const uint32_t setup_frame, const address *addr1, const address *addr2,
316 const conversation_type ctype, const uint32_t port1, const uint32_t port2, const unsigned options);
318 WS_DLL_PUBLIC WS_RETNONNULL conversation_t *conversation_new_by_id(const uint32_t setup_frame, const conversation_type ctype, const uint32_t id);
323 WS_DLL_PUBLIC WS_RETNONNULL conversation_t *conversation_new_deinterlaced(const uint32_t setup_frame, const address *addr1, const address *addr2,
324 const conversation_type ctype, const uint32_t port1, const uint32_t port2, const uint32_t anchor, const unsigned options);
327 * Create a deinterlacer conversation, based on two addresses,
328 * a type, and several keys (VLAN, Mac, Interface).
330 * @param setup_frame The first frame in the conversation.
331 * @param addr1 The first address in the identifying tuple.
332 * @param addr2 The second address in the identifying tuple.
333 * @param ctype The conversation type.
334 * @param key1 The first key in the identifying tuple.
335 * @param key2 The second key in the identifying tuple.
336 * @param key3 The third key in the identifying tuple.
337 * @return The new conversation.
339 WS_DLL_PUBLIC WS_RETNONNULL conversation_t *conversation_new_deinterlacer(const uint32_t setup_frame, const address *addr1, const address *addr2,
340 const conversation_type ctype, const uint32_t key1, const uint32_t key2, const uint32_t key3);
343 * A helper function for creating conversations according to the runtime deinterlacing strategy,
344 * which means the returned conversation is either a classic (historical) object, or a deinterlaced one.
346 * @param pinfo Packet info.
347 * @param ctype The conversation type.
348 * @param options NO_ADDR2, NO_PORT2, NO_PORT2_FORCE, or CONVERSATION_TEMPLATE.
349 * Options except for NO_PORT2 and NO_PORT2_FORCE can be ORed.
350 * @return The new conversation.
352 WS_DLL_PUBLIC WS_RETNONNULL conversation_t *conversation_new_strat(packet_info *pinfo, const conversation_type ctype, const unsigned options);
355 * Search for a conversation based on the structure and values of an element list.
356 * @param frame_num Frame number. Must be greater than or equal to the conversation's initial frame number.
357 * @param elements An array of element types and values. Must not be NULL. Must be terminated with a CE_CONVERSATION_TYPE element.
358 * @return The matching conversation if found, otherwise NULL.
360 WS_DLL_PUBLIC conversation_t *find_conversation_full(const uint32_t frame_num, conversation_element_t *elements);
363 * Given two address/port pairs for a packet, search for a conversation
364 * containing packets between those address/port pairs. Returns NULL if
365 * not found.
367 * We try to find the most exact match that we can, and then proceed to
368 * try wildcard matches on the "addr_b" and/or "port_b" argument if a more
369 * exact match failed.
371 * Either or both of the "addr_b" and "port_b" arguments may be specified as
372 * a wildcard by setting the NO_ADDR_B or NO_PORT_B flags in the "options"
373 * argument. We do only wildcard matches on addresses and ports specified
374 * as wildcards.
376 * I.e.:
378 * if neither "addr_b" nor "port_b" were specified as wildcards, we
379 * do an exact match (addr_a/port_a and addr_b/port_b) and, if that
380 * succeeds, we return a pointer to the matched conversation;
382 * otherwise, if "port_b" wasn't specified as a wildcard, we try to
383 * match any address 2 with the specified port 2 (addr_a/port_a and
384 * {any}/addr_b) and, if that succeeds, we return a pointer to the
385 * matched conversation;
387 * otherwise, if "addr_b" wasn't specified as a wildcard, we try to
388 * match any port 2 with the specified address 2 (addr_a/port_a and
389 * addr_b/{any}) and, if that succeeds, we return a pointer to the
390 * matched conversation;
392 * otherwise, we try to match any address 2 and any port 2
393 * (addr_a/port_a and {any}/{any}) and, if that succeeds, we return
394 * a pointer to the matched conversation;
396 * otherwise, we found no matching conversation, and return NULL.
398 * Null address values will be replaced with empty (AT_NONE) addresses.
400 * @param frame_num Frame number. Must be greater than or equal to the conversation's initial frame number.
401 * @param addr_a The first address in the identifying tuple.
402 * @param addr_b The second address in the identifying tuple.
403 * @param ctype The conversation type.
404 * @param port_a The first port in the identifying tuple.
405 * @param port_b The second port in the identifying tuple.
406 * @param options Wildcard options as described above.
407 * @return The matching conversation if found, otherwise NULL.
409 WS_DLL_PUBLIC conversation_t *find_conversation(const uint32_t frame_num, const address *addr_a, const address *addr_b,
410 const conversation_type ctype, const uint32_t port_a, const uint32_t port_b, const unsigned options);
412 WS_DLL_PUBLIC conversation_t *find_conversation_deinterlaced(const uint32_t frame_num, const address *addr_a, const address *addr_b,
413 const conversation_type ctype, const uint32_t port_a, const uint32_t port_b, const uint32_t anchor, const unsigned options);
415 WS_DLL_PUBLIC conversation_t *find_conversation_deinterlacer(const uint32_t frame_num, const address *addr_a, const address *addr_b,
416 const conversation_type ctype, const uint32_t key_a, const uint32_t key_b, const uint32_t key_c);
418 /** A wrapper function of find_conversation_deinterlacer() using data from pinfo,
419 * which evaluates the execution context first (user preference, VLAN, interface,..),
420 * and then calls find_conversation_deinterlacer().
421 * The frame number and addresses are taken from pinfo.
423 WS_DLL_PUBLIC conversation_t *find_conversation_deinterlacer_pinfo(const packet_info *pinfo);
425 WS_DLL_PUBLIC conversation_t *find_conversation_by_id(const uint32_t frame, const conversation_type ctype, const uint32_t id);
427 /** A helper function that calls find_conversation() using data from pinfo,
428 * and returns a conversation according to the runtime deinterlacing strategy.
429 * The frame number and addresses are taken from pinfo.
431 WS_DLL_PUBLIC conversation_t *find_conversation_strat(const packet_info *pinfo, const conversation_type ctype, const unsigned options);
433 /** A helper function that calls find_conversation() using data from pinfo
434 * The frame number and addresses are taken from pinfo.
436 WS_DLL_PUBLIC conversation_t *find_conversation_pinfo(const packet_info *pinfo, const unsigned options);
438 /** A helper function that calls find_conversation() using data from pinfo.
439 * It's a simplified version of find_conversation_pinfo() to avoid
440 * unnecessary checks and be limited to read-only, which is the minimal
441 * need for displaying packets in packet_list.
442 * The frame number and addresses are taken from pinfo.
444 WS_DLL_PUBLIC conversation_t *find_conversation_pinfo_ro(const packet_info *pinfo, const unsigned options);
447 * A helper function that calls find_conversation() and, if a conversation is
448 * not found, calls conversation_new().
449 * The frame number and addresses are taken from pinfo.
450 * No options are used, though we could extend this API to include an options
451 * parameter.
453 * @param pinfo Packet info.
454 * @return The existing or new conversation.
456 WS_DLL_PUBLIC WS_RETNONNULL conversation_t *find_or_create_conversation(packet_info *pinfo);
458 /** A helper function that calls find_conversation_by_id() and, if a
459 * conversation is not found, calls conversation_new_by_id().
460 * The frame number is taken from pinfo.
462 WS_DLL_PUBLIC WS_RETNONNULL conversation_t *find_or_create_conversation_by_id(packet_info *pinfo, const conversation_type ctype, const uint32_t id);
464 /** Associate data with a conversation.
465 * @param conv Conversation. Must not be NULL.
466 * @param proto Protocol ID.
467 * @param proto_data Pointer to the data to associate.
469 WS_DLL_PUBLIC void conversation_add_proto_data(conversation_t *conv, const int proto, void *proto_data);
471 /** Fetch data associated with a conversation.
472 * @param conv Conversation. Must not be NULL.
473 * @param proto Protocol ID.
474 * @return The data previously set with conversation_add_proto_data, otherwise NULL.
476 WS_DLL_PUBLIC void *conversation_get_proto_data(const conversation_t *conv, const int proto);
478 /** Remove data associated with a conversation.
479 * @param conv Conversation. Must not be NULL.
480 * @param proto Protocol ID.
482 WS_DLL_PUBLIC void conversation_delete_proto_data(conversation_t *conv, const int proto);
484 WS_DLL_PUBLIC void conversation_set_dissector(conversation_t *conversation, const dissector_handle_t handle);
486 WS_DLL_PUBLIC void conversation_set_dissector_from_frame_number(conversation_t *conversation,
487 const uint32_t starting_frame_num, const dissector_handle_t handle);
489 WS_DLL_PUBLIC dissector_handle_t conversation_get_dissector(conversation_t *conversation, const uint32_t frame_num);
492 * Save address+port information in the current packet info; it can be matched
493 * by find_conversation_pinfo or find_conversation.
494 * Supports wildcarding.
495 * @param pinfo Packet info.
496 * @param addr1 The first address in the identifying tuple.
497 * @param addr2 The second address in the identifying tuple.
498 * @param ctype The conversation type.
499 * @param port1 The first port in the identifying tuple.
500 * @param port2 The second port in the identifying tuple.
502 WS_DLL_PUBLIC void conversation_set_conv_addr_port_endpoints(struct _packet_info *pinfo, address* addr1, address* addr2,
503 conversation_type ctype, uint32_t port1, uint32_t port2);
506 * Save conversation elements including ID information in the current
507 * packet info which can be matched by conversation_get_id_from_elements.
508 * Does not support wildcarding.
509 * @param pinfo Packet info.
510 * @param ctype The conversation type.
511 * @param id A unique ID.
513 WS_DLL_PUBLIC void conversation_set_elements_by_id(struct _packet_info *pinfo,
514 conversation_type ctype, uint32_t id);
517 * @brief Get the ID value from the conversation elements in the packet info.
518 * @param pinfo Packet info.
519 * @param ctype The conversation type.
520 * @param options USE_LAST_ENDPOINT or 0.
521 * @return The ID value from the elements if successful, or 0
522 * on failure.
524 WS_DLL_PUBLIC uint32_t conversation_get_id_from_elements(struct _packet_info *pinfo,
525 conversation_type ctype, const unsigned options);
528 * Given two address/port pairs for a packet, search for a matching
529 * conversation and, if found and it has a conversation dissector,
530 * call that dissector and return true, otherwise return false.
532 * This helper uses call_dissector_only which will NOT call the default
533 * "data" dissector if the packet was rejected.
534 * Our caller is responsible to call the data dissector explicitly in case
535 * this function returns false.
537 WS_DLL_PUBLIC bool try_conversation_dissector(const address *addr_a, const address *addr_b, const conversation_type ctype,
538 const uint32_t port_a, const uint32_t port_b, tvbuff_t *tvb, packet_info *pinfo,
539 proto_tree *tree, void* data, const unsigned options);
541 WS_DLL_PUBLIC bool try_conversation_dissector_by_id(const conversation_type ctype, const uint32_t id, tvbuff_t *tvb,
542 packet_info *pinfo, proto_tree *tree, void* data);
544 /* These routines are used to set undefined values for a conversation */
547 * Set the second port in a conversation created with conversation_new.
548 * @param conv Conversation. Must be created with conversation_new.
549 * @param port The second port to set.
551 WS_DLL_PUBLIC void conversation_set_port2(conversation_t *conv, const uint32_t port);
554 * Set the second address in a conversation created with conversation_new.
555 * @param conv Conversation. Must be created with conversation_new.
556 * @param addr The second address to set.
558 WS_DLL_PUBLIC void conversation_set_addr2(conversation_t *conv, const address *addr);
561 * @brief Get a hash table of conversation hash table.
563 * @return A wmem_map_t * of (const char *: wmem_map_t *).
564 * Each value is a wmem_map_t * of (const conversation_element_t *: void *).
566 WS_DLL_PUBLIC wmem_map_t *get_conversation_hashtables(void);
568 /* Temporary function to handle port_type to conversation_type conversion
569 For now it's a 1-1 mapping, but the intention is to remove
570 many of the port_type instances in favor of conversation_type
572 WS_DLL_PUBLIC conversation_type conversation_pt_to_conversation_type(port_type pt);
574 /* Temporary function to handle port_type to endpoint_type conversion
575 For now it's a 1-1 mapping, but the intention is to remove
576 many of the port_type instances in favor of endpoint_type
578 WS_DLL_PUBLIC endpoint_type conversation_pt_to_endpoint_type(port_type pt);
580 #ifdef __cplusplus
582 #endif /* __cplusplus */
584 #endif /* conversation.h */