compilers support that. Variables should be declared outside a
function, or at the beginning of a function or compound statement.
-Don't use anonymous unions; not all compilers support it.
+Don't use anonymous unions; not all compilers support them.
Example:
-typedef struct foo {
- guint32 foo;
- union {
- guint32 foo_l;
- guint16 foo_s;
- } u; /* have a name here */
-} foo_t;
+
+ typedef struct foo {
+ guint32 foo;
+ union {
+ guint32 foo_l;
+ guint16 foo_s;
+ } u; /* have a name here */
+ } foo_t;
Don't use "uchar", "u_char", "ushort", "u_short", "uint", "u_int",
"ulong", "u_long" or "boolean"; they aren't defined on all platforms.
11644473600ULL
+Don't assume that you can scan through a va_list initialized by va_start
+more than once without closing it with va_end and re-initalizing it with
+va_start. This applies even if you're not scanning through it yourself,
+but are calling a routine that scans through it, such as vfprintf() or
+one of the routines in Wireshark that takes a format and a va_list as an
+argument. You must do
+
+ va_start(ap, format);
+ call_routine1(xxx, format, ap);
+ va_end(ap);
+ va_start(ap, format);
+ call_routine2(xxx, format, ap);
+ va_end(ap);
+
+rather
+ va_start(ap, format);
+ call_routine1(xxx, format, ap);
+ call_routine2(xxx, format, ap);
+ va_end(ap);
+
Don't use a label without a statement following it. For example,
something such as
long, so that, if the length value is *very* large and adding it to the
offset causes an overflow, that overflow is detected.
+If you have a
+
+ for (i = {start}; i < {end}; i++)
+
+loop, make sure that the type of the loop index variable is large enough
+to hold the maximum {end} value plus 1; otherwise, the loop index
+variable can overflow before it ever reaches its maximum value. In
+particular, be very careful when using gint8, guint8, gint16, or guint16
+variables as loop indices; you almost always want to use an "int"/"gint"
+or "unsigned int"/"guint" as the loop index rather than a shorter type.
+
If you are fetching a length field from the buffer, corresponding to the
length of a portion of the packet, and subtracting from that length a
value corresponding to the length of, for example, a header in the
offset to the end of the packet. */
/* create display subtree for the protocol */
- ti = proto_tree_add_item(tree, proto_PROTOABBREV, tvb, 0, -1, FALSE);
+ ti = proto_tree_add_item(tree, proto_PROTOABBREV, tvb, 0, -1, ENC_NA);
PROTOABBREV_tree = proto_item_add_subtree(ti, ett_PROTOABBREV);
/* add an item to the subtree, see section 1.6 for more information */
proto_tree_add_item(PROTOABBREV_tree,
- hf_PROTOABBREV_FIELDABBREV, tvb, offset, len, FALSE);
+ hf_PROTOABBREV_FIELDABBREV, tvb, offset, len, ENC_xxx);
/* Continue adding tree items to process the packet here */
*/
PROTOABBREV_handle = new_create_dissector_handle(dissect_PROTOABBREV,
proto_PROTOABBREV);
- dissector_add("PARENT_SUBFIELD", ID_VALUE, PROTOABBREV_handle);
-
initialized = TRUE;
} else {
function (proto_reg_handoff).
*/
- dissector_delete("tcp.port", currentPort, PROTOABBREV_handle);
+ dissector_delete_uint("tcp.port", currentPort, PROTOABBREV_handle);
}
currentPort = gPORT_PREF;
- dissector_add("tcp.port", currentPort, PROTOABBREV_handle);
+ dissector_add_uint("tcp.port", currentPort, PROTOABBREV_handle);
}
*/
PROTOABBREV_handle = new_create_dissector_handle(dissect_PROTOABBREV,
proto_PROTOABBREV);
- dissector_add("PARENT_SUBFIELD", ID_VALUE, PROTOABBREV_handle);
+ dissector_add_uint("PARENT_SUBFIELD", ID_VALUE, PROTOABBREV_handle);
}
#endif
BASE_NONE
FIELDCONVERT VALS(x), RVALS(x), TFS(x), NULL
BITMASK Usually 0x0 unless using the TFS(x) field conversion.
-FIELDDESCR A brief description of the field, or NULL.
+FIELDDESCR A brief description of the field, or NULL. [Please do not use ""].
PARENT_SUBFIELD Lower level protocol field used for lookup, i.e. "tcp.port"
ID_VALUE Lower level protocol field value that identifies this protocol
For example the TCP or UDP port number
String accessors:
guint8 *tvb_get_string(tvbuff_t*, gint offset, gint length);
+gchar *tvb_get_unicode_string(tvbuff_t *tvb, const gint offset, gint length, const guint encoding);
guint8 *tvb_get_ephemeral_string(tvbuff_t*, gint offset, gint length);
+gchar *tvb_get_ephemeral_unicode_string(tvbuff_t *tvb, const gint offset, gint length, const guint encoding);
guint8 *tvb_get_seasonal_string(tvbuff_t*, gint offset, gint length);
Returns a null-terminated buffer containing data from the specified
g_free() it when you are finished with the string. Failure to g_free() this
buffer will lead to memory leaks.
+tvb_get_unicode_string() is a unicode (UTF-16) version of above. This
+is intended for reading UTF-16 unicode strings out of a tvbuff and
+returning them as a UTF-8 string for use in Wireshark. The offset and
+returned length pointer are in bytes, not UTF-16 characters.
+
tvb_get_ephemeral_string() returns a buffer allocated from a special heap
with a lifetime until the next packet is dissected. You do not need to
free() this buffer, it will happen automatically once the next packet is
dissected.
+tvb_get_ephemeral_unicode_string() is a unicode (UTF-16) version of above.
+This is intended for reading UTF-16 unicode strings out of a tvbuff and
+returning them as a UTF-8 string for use in Wireshark. The offset and
+returned length pointer are in bytes, not UTF-16 characters.
+
tvb_get_seasonal_string() returns a buffer allocated from a special heap
with a lifetime of the current capture session. You do not need to
free() this buffer, it will happen automatically once the a new capture or
file is opened.
guint8 *tvb_get_stringz(tvbuff_t *tvb, gint offset, gint *lengthp);
+const guint8 *tvb_get_const stringz(tvbuff_t *tvb, gint offset, gint *lengthp);
guint8 *tvb_get_ephemeral_stringz(tvbuff_t *tvb, gint offset, gint *lengthp);
+gchar *tvb_get_ephemeral_unicode_stringz(tvbuff_t *tvb, const gint offset, gint *lengthp, const guint encoding);
guint8 *tvb_get_seasonal_stringz(tvbuff_t *tvb, gint offset, gint *lengthp);
-Returns a null-terminated buffer, allocated with "g_malloc()",
-containing data from the specified tvbuff, starting at the
-specified offset, and containing all characters from the tvbuff up to
-and including a terminating null character in the tvbuff. "*lengthp"
-will be set to the length of the string, including the terminating null.
+Returns a null-terminated buffer containing data from the specified tvbuff,
+starting at the specified offset, and containing all characters from the
+tvbuff up to and including a terminating null character in the tvbuff.
+"*lengthp" will be set to the length of the string, including the terminating
+null.
tvb_get_stringz() returns a buffer allocated by g_malloc() so you must
g_free() it when you are finished with the string. Failure to g_free() this
buffer will lead to memory leaks.
+
+tvb_get_const_stringz() returns a pointer to the (const) string in the tvbuff.
+You do not need to free() this buffer, it will happen automatically once the
+next packet is dissected. This function is slightly more efficient than the
+others because it does not allocate memory and copy the string.
+
tvb_get_ephemeral_stringz() returns a buffer allocated from a special heap
with a lifetime until the next packet is dissected. You do not need to
free() this buffer, it will happen automatically once the next packet is
dissected.
+tvb_get_ephemeral_unicode_stringz() is a unicode (UTF-16) version of
+above. This is intended for reading UTF-16 unicode strings out of a tvbuff
+and returning them as a UTF-8 string for use in Wireshark. The offset and
+returned length pointer are in bytes, not UTF-16 characters.
+
tvb_get_seasonal_stringz() returns a buffer allocated from a special heap
with a lifetime of the current capture session. You do not need to
free() this buffer, it will happen automatically once the a new capture or
file is opened.
-guint8 *tvb_fake_unicode(tvbuff_t*, gint offset, gint length, gboolean little_endian);
-guint8 *tvb_get_ephemeral_faked_unicode(tvbuff_t*, gint offset, gint length, gboolean little_endian);
+tvb_fake_unicode() has been superceded by tvb_get_unicode_string(), which
+properly handles Unicode (UTF-16) strings by converting them to UTF-8.
-Converts a 2-byte unicode string to an ASCII string.
-Returns a null-terminated buffer containing data from the specified
-tvbuff, starting at the specified offset, and containing the specified
-length worth of characters (the length of the buffer will be length+1,
-as it includes a null character to terminate the string).
-
-tvb_fake_unicode() returns a buffer allocated by g_malloc() so you must
-g_free() it when you are finished with the string. Failure to g_free() this
-buffer will lead to memory leaks.
-tvb_get_ephemeral_faked_unicode() returns a buffer allocated from a special
-heap with a lifetime until the next packet is dissected. You do not need to
-free() this buffer, it will happen automatically once the next packet is
-dissected.
+tvb_get_ephemeral_faked_unicode() has been superceded by tvb_get_ephemeral_string(), which properly handles Unicode (UTF-16) strings by converting them
+to UTF-8.
Byte Array Accessors:
This function is similar to tvb_bytes_to_str(...) except that 'punct' is inserted
between the hex representation of each byte.
+gchar *tvb_bcd_dig_to_ep_str(tvbuff_t *tvb, const gint offset, const gint len, dgt_set_t *dgt, gboolean skip_first);
+
+Given a tvbuff, an offset into the tvbuff, and a length that starts
+at that offset (which may be -1 for "all the way to the end of the
+tvbuff"), fetch BCD encoded digits from a tvbuff starting from either
+the low or high half byte, formating the digits according to an input digit set,
+if NUll a default digit set of 0-9 returning "?" for overdecadic digits will be used.
+A pointer to the EP allocated string will be returned.
+Note: a tvbuff content of 0xf is considered a 'filler' and will end the conversion.
Copying memory:
guint8* tvb_memcpy(tvbuff_t*, guint8* target, gint offset, gint length);
strings
-------
+-- value_string
Some integer fields, of type FT_UINT*, need labels to represent the true
value of a field. You could think of those fields as having an
enumerated data type, rather than an integral data type.
If the field has a numeric rather than an enumerated type, the 'strings'
field would be set to NULL.
+-- Extended value strings
+You can also use an extended version of the value_string for faster lookups.
+It requires a value_string as input.
+If all of a contiguous range of values from min to max are present in the array
+the value will be used as as a direct index into a value_string array.
+
+If the values in the array are not contiguous (ie: there are "gaps"), but are in assending order
+a binary search will be used.
+
+Note: "gaps" in a value_string array can be filled with "empty" entries eg: {value, "Unknown"} so that
+direct access to the array is is possible.
+
+The init macro (see below) will perform a check on the value string
+the first time it is used to determine which search algorithm fits and fall back to a linear search
+if the value_string does not meet the criteria above.
+
+Use this macro to initialise the extended value_string at comile time:
+
+static value_string_ext valstringname_ext = VALUE_STRING_EXT_INIT(valstringname);
+
+Extended value strings can be created at runtime by calling
+ value_string_ext_new(<ptr to value_string array>,
+ <total number of entries in the value_string_array>, /* include {0, NULL} entry */
+ <value_string_name>);
+
+For hf[] array FT_(U)INT* fields that need a 'valstringname_ext' struct, the 'strings' field
+would be set to '&valstringname_ext)'. Furthermore, 'display' field must be
+ORed with 'BASE_EXT_STRING' (e.g. BASE_DEC|BASE_EXT_STRING).
+
+
+-- Ranges
If the field has a numeric type that might logically fit in ranges of values
one can use a range_string struct.
would be set to 'RVALS(rvalstringname)'. Furthermore, 'display' field must be
ORed with 'BASE_RANGE_STRING' (e.g. BASE_DEC|BASE_RANGE_STRING).
+-- Booleans
FT_BOOLEANs have a default map of 0 = "False", 1 (or anything else) = "True".
Sometimes it is useful to change the labels for boolean values (e.g.,
to "Yes"/"No", "Fast"/"Slow", etc.). For these mappings, a struct called
-----
This is a string giving a proper description of the field. It should be
at least one grammatically complete sentence, or NULL in which case the
-name field is used.
+name field is used. (Please do not use "").
It is meant to provide a more detailed description of the field than the
name alone provides. This information will be used in the man page, and
in a future GUI display-filter creation tool. We might also add tooltips
protocol or field labels to the proto_tree:
proto_item*
- proto_tree_add_item(tree, id, tvb, start, length, little_endian);
+ proto_tree_add_item(tree, id, tvb, start, length, encoding);
proto_item*
proto_tree_add_none_format(tree, id, tvb, start, length, format, ...);
proto_register_*() function) and a value. The value will be fetched
from the tvbuff by proto_tree_add_item(), based on the type of the field
and, for integral and Boolean fields, the byte order of the value; the
-byte order is specified by the 'little_endian' argument, which is TRUE
-if the value is little-endian and FALSE if it is big-endian.
+byte order, for items for which that's relevant, is specified by the
+'encoding' argument, which is ENC_LITTLE_ENDIAN if the value is
+little-endian and ENC_BIG_ENDIAN if it is big-endian. If the byte order
+is not relevant, use ENC_NA (Not Applicable). In the future, other
+elements of the encoding, such as the character encoding for
+character strings, might be supported.
Now that definitions of fields have detailed information about bitfield
fields, you can use proto_tree_add_item() with no extra processing to
The code to add the FID to the tree would be;
- proto_tree_add_item(bf_tree, hf_sna_th_fid, tvb, offset, 1, TRUE);
+ proto_tree_add_item(bf_tree, hf_sna_th_fid, tvb, offset, 1,
+ ENC_BIG_ENDIAN);
The definition of the field already has the information about bitmasking
and bitshifting, so it does the work of masking and shifting for us!
for(i = 0; i < num_rings; i++) {
proto_item *pi;
- pi = proto_tree_add_item(tree, hf_tr_rif_ring, ..., FALSE);
+ pi = proto_tree_add_item(tree, hf_tr_rif_ring, ...,
+ ENC_BIG_ENDIAN);
PROTO_ITEM_SET_HIDDEN(pi);
}
for(i = 0; i < num_rings - 1; i++) {
proto_item *pi;
- pi = proto_tree_add_item(tree, hf_tr_rif_bridge, ..., FALSE);
+ pi = proto_tree_add_item(tree, hf_tr_rif_bridge, ...,
+ ENC_BIG_ENDIAN);
PROTO_ITEM_SET_HIDDEN(pi);
}
1.7 Utility routines.
-1.7.1 match_strval and val_to_str.
+1.7.1 match_strval, match_strval_ext, val_to_str and val_to_str_ext.
A dissector may need to convert a value to a string, using a
'value_string' structure, by hand, rather than by declaring a field with
col_add_fstr(COL_INFO, ", %s", val_to_str(val, table, "Unknown %d"));
+The match_strval_ext and val_to_str_ext functions are "extended" versions
+of match_strval and val_to_str. They should be used for large value-string
+arrays which contain many entries. They implement value to string conversions
+which will do either a direct access or a binary search of the
+value string array if possible. See "Extended Value Strings" under
+section 1.6 "Constructing the protocol tree" for more information.
+
+See epan/value_string.h for detailed information on the various value_string
+functions.
+
+
1.7.2 match_strrval and rval_to_str.
A dissector may need to convert a range of values to a string, using a
the packet. The same conversation will be returned for a packet bound from
ServerA:1000 to ClientA:2000 and the packet from ClientA:2000 to ServerA:1000.
-There are five routines that you will use to work with a conversation:
+2.2.1 Conversation Routines
+
+There are six routines that you will use to work with a conversation:
conversation_new, find_conversation, conversation_add_proto_data,
-conversation_get_proto_data, and conversation_delete_proto_data.
+conversation_get_proto_data, conversation_delete_proto_data,
+and conversation_set_dissector.
-2.2.1 The conversation_init function.
+2.2.1.1 The conversation_init function.
This is an internal routine for the conversation code. As such you
will not have to call this routine. Just be aware that this routine is
called at the start of each capture and before the packets are filtered
with a display filter. The routine will destroy all stored
conversations. This routine does NOT clean up any data pointers that are
-passed in the conversation_new 'data' variable. You are responsible for
-this clean up if you pass a malloc'ed pointer in this variable.
+passed in the conversation_add_proto_data 'data' variable. You are
+responsible for this clean up if you pass a malloc'ed pointer
+in this variable.
-See item 2.2.8 for more information about the 'data' pointer.
+See item 2.2.1.5 for more information about use of the 'data' pointer.
-2.2.2 The conversation_new function.
+2.2.1.2 The conversation_new function.
This routine will create a new conversation based upon two address/port
pairs. If you want to associate with the conversation a pointer to a
created using certain addresses and ports, in the case where the packet
doesn't specify the addresses and ports of both sides.
-2.2.3 The find_conversation function.
+2.2.1.3 The find_conversation function.
Call this routine to look up a conversation. If no conversation is found,
the routine will return a NULL value.
matching any "wildcarded" port.
-2.2.4 The conversation_add_proto_data function.
+2.2.1.4 The find_or_create_conversation function.
+
+This convenience function will create find an existing conversation (by calling
+find_conversation()) and, if a conversation does not already exist, create a
+new conversation by calling conversation_new().
+
+The find_or_create_conversation prototype:
+
+ extern conversation_t *find_or_create_conversation(packet_info *pinfo);
+
+Where:
+ packet_info *pinfo = the packet_info structure
+
+The frame number and the addresses necessary for find_conversation() and
+conversation_new() are taken from the pinfo structure (as is commonly done)
+and no 'options' are used.
+
+
+2.2.1.5 The conversation_add_proto_data function.
Once you have created a conversation with conversation_new, you can
associate data with it using this function.
unique protocol number created with proto_register_protocol. Protocols
are typically registered in the proto_register_XXXX section of your
dissector. "data" is a pointer to the data you wish to associate with the
-conversation. Using the protocol number allows several dissectors to
+conversation. "data" usually points to "se_alloc'd" memory; the
+memory will be automatically freed each time a new dissection begins
+and thus need not be managed (freed) by the dissector.
+Using the protocol number allows several dissectors to
associate data with a given conversation.
-2.2.5 The conversation_get_proto_data function.
+2.2.1.6 The conversation_get_proto_data function.
After you have located a conversation with find_conversation, you can use
this function to retrieve any data associated with it.
returns a pointer to the data requested, or NULL if no data was found.
-2.2.6 The conversation_delete_proto_data function.
+2.2.1.7 The conversation_delete_proto_data function.
After you are finished with a conversation, you can remove your association
with this function. Please note that ONLY the conversation entry is
-removed. If you have allocated any memory for your data, you must free it
-as well.
+removed. If you have allocated any memory for your data (other than with se_alloc),
+ you must free it as well.
The conversation_delete_proto_data prototype:
is a unique protocol number created with proto_register_protocol,
typically in the proto_register_XXXX portion of a dissector.
+2.2.1.8 The conversation_set_dissector function
+
+This function sets the protocol dissector to be invoked whenever
+conversation parameters (addresses, port_types, ports, etc) are matched
+during the dissection of a packet.
+
+The conversation_set_dissector prototype:
+
+ void conversation_set_dissector(conversation_t *conversation, const dissector_handle_t handle);
+
+Where:
+ conversation_t *conv = the conversation in question
+ const dissector_handle_t handle = the dissector handle.
-2.2.7 Using timestamps relative to the conversation
+
+2.2.2 Using timestamps relative to the conversation
There is a framework to calculate timestamps relative to the start of the
conversation. First of all the timestamp of the first packet that has been
the tcp-dissector.
-2.2.8 The example conversation code with GMemChunk's.
+2.2.3 The example conversation code using se_alloc'd memory.
For a conversation between two IP addresses and ports you can use this as an
-example. This example uses the GMemChunk to allocate memory and stores the data
+example. This example uses se_alloc() to allocate memory and stores the data
pointer in the conversation 'data' variable.
-NOTE: Remember to register the init routine (my_dissector_init) in the
-protocol_register routine.
-
-
/************************ Global values ************************/
-/* the number of entries in the memory chunk array */
-#define my_init_count 10
-
/* define your structure here */
typedef struct {
} my_entry_t;
-/* the GMemChunk base structure */
-static GMemChunk *my_vals = NULL;
-
/* Registered protocol number */
static int my_proto = -1;
-
/********************* in the dissector routine *********************/
/* the local variables in the dissector */
/* new conversation create local data structure */
- data_ptr = g_mem_chunk_alloc(my_vals);
+ data_ptr = se_alloc(sizeof(my_entry_t));
/*** add your code here to setup the new data structure ***/
/* at this point the conversation data is ready */
-
-/******************* in the dissector init routine *******************/
-
-#define my_init_count 20
-
-static void
-my_dissector_init(void)
-{
-
- /* destroy memory chunks if needed */
-
- if (my_vals)
- g_mem_chunk_destroy(my_vals);
-
- /* now create memory chunks */
-
- my_vals = g_mem_chunk_new("my_proto_vals",
- sizeof(my_entry_t),
- my_init_count * sizeof(my_entry_t),
- G_ALLOC_AND_FREE);
-}
-
/***************** in the protocol register routine *****************/
-/* register re-init routine */
-
-register_init_routine(&my_dissector_init);
-
my_proto = proto_register_protocol("My Protocol", "My Protocol", "my_proto");
-2.2.9 An example conversation code that starts at a specific frame number.
+2.2.4 An example conversation code that starts at a specific frame number.
Sometimes a dissector has determined that a new conversation is needed that
starts at a specific frame number, when a capture session encompasses multiple
}
-2.2.10 The example conversation code using conversation index field.
+2.2.5 The example conversation code using conversation index field.
Sometimes the conversation isn't enough to define a unique data storage
value for the network traffic. For example if you are storing information
/* then used the conversation index, and request data to find data */
/* in the local hash table */
- conversation = find_conversation(pinfo->fd->num, &pinfo->src, &pinfo->dst,
- pinfo->ptype, pinfo->srcport, pinfo->destport, 0);
- if (conversation == NULL) {
- /* It's not part of any conversation - create a new one. */
- conversation = conversation_new(pinfo->fd->num, &pinfo->src,
- &pinfo->dst, pinfo->ptype, pinfo->srcport, pinfo->destport,
- NULL, 0);
- }
+ conversation = find_or_create_conversation(pinfo);
request_key.conversation = conversation->index;
request_key.service = pntohs(&rxh->serviceId);
opcode = 0;
if (!request_val && !reply)
{
- new_request_key = g_mem_chunk_alloc(afs_request_keys);
+ new_request_key = se_alloc(sizeof(struct afs_request_key));
*new_request_key = request_key;
- request_val = g_mem_chunk_alloc(afs_request_vals);
+ request_val = se_alloc(sizeof(struct afs_request_val));
request_val -> opcode = pntohl(&afsh->opcode);
opcode = request_val->opcode;
*/
conversation = find_conversation(pinfo->fd->num,
&pinfo->src, &pinfo->dst, protocol,
- src_port, dst_port, new_conv_info, 0);
+ src_port, dst_port, 0);
/* If there is no such conversation, or if there is one but for
someone else's protocol then we just create a new conversation
*/
if ( (conversation == NULL) ||
(conversation->dissector_handle != sub_dissector_handle) ) {
- new_conv_info = g_mem_chunk_alloc(new_conv_vals);
+ new_conv_info = se_alloc(sizeof(struct _new_conv_info));
new_conv_info->data1 = value1;
/* create the conversation for the dynamic port */
/* if conversation has a data field, create it and load structure */
- new_conv_info = g_mem_chunk_alloc(new_conv_vals);
+ new_conv_info = se_alloc(sizeof(struct _new_conv_info));
new_conv_info->data1 = value1;
/* create the conversation for the dynamic server address and port */
the preference file will already have it
title - Field title in the preferences dialog
description - Comments added to the preference file above the
- preference value
+ preference value and shown as tooltip in the GUI, or NULL
var - pointer to the storage location that is updated when the
- field is changed in the preference dialog box
+ field is changed in the preference dialog box. Note that
+ with string preferences the given pointer is overwritten
+ with a pointer to a new copy of the string during the
+ preference registration. The passed-in string may be
+ freed, but you must keep another pointer to the string
+ in order to free it.
base - Base that the unsigned integer is expected to be in,
see strtoul(3).
enumvals - an array of enum_val_t structures. This must be
mdns_udp_handle = create_dissector_handle(dissect_mdns_udp,
proto_dns);
- dissector_add("udp.port", UDP_PORT_DNS, dns_udp_handle);
- dissector_add("tcp.port", TCP_PORT_DNS, dns_tcp_handle);
- dissector_add("udp.port", UDP_PORT_MDNS, mdns_udp_handle);
- dissector_add("tcp.port", TCP_PORT_MDNS, dns_tcp_handle);
+ dissector_add_uint("udp.port", UDP_PORT_DNS, dns_udp_handle);
+ dissector_add_uint("tcp.port", TCP_PORT_DNS, dns_tcp_handle);
+ dissector_add_uint("udp.port", UDP_PORT_MDNS, mdns_udp_handle);
+ dissector_add_uint("tcp.port", TCP_PORT_MDNS, dns_tcp_handle);
The dissect_dns_udp function does very little work and calls
dissect_dns_common, while dissect_dns_tcp calls tcp_dissect_pdus with a
len += 1; /* Add one for the '\0' */
if (tree) {
- proto_tree_add_item(tree, hf_cstring, tvb, offset, len, FALSE);
+ proto_tree_add_item(tree, hf_cstring, tvb, offset, len,
+ ENC_NA);
}
offset += (guint)len;
}