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|
/* packet-icep.c
* Routines for "The ICE Protocol" dissection
* Copyright 2004 _FF_
* Francesco Fondelli <fondelli dot francesco, tiscali dot it>
*
* Wireshark - Network traffic analyzer
* By Gerald Combs <gerald@wireshark.org>
* Copyright 1998 Gerald Combs
*
* SPDX-License-Identifier: GPL-2.0-or-later
*/
/*
TODO:
1) Dissect encoded data (do sth like idl2wrs for CORBA).
2) Add conversations.
*/
/*
NOTES:
1) p. 586 Chapter 23.2 of "The ICE Protocol"
"Data is always encoded using little-endian byte order for numeric types."
2) Information about Ice can be found here: http://www.zeroc.com
*/
#include "config.h"
#include <epan/packet.h>
#include <epan/expert.h>
#include <epan/prefs.h>
#include "packet-tcp.h"
void proto_register_icep(void);
void proto_reg_handoff_icep(void);
static dissector_handle_t icep_tcp_handle, icep_udp_handle;
#if 0
#define DBG(...) do {\
fprintf(stdout, \
"[%s][%s][%d]: ",\
__FILE__, \
__FUNCTION__, \
__LINE__); \
fflush(stdout); \
fprintf(stdout, __VA_ARGS__); \
} while (0)
#else
#define DBG(...)
#endif /* 0/1 */
/* fixed values taken from the standard */
static const guint8 icep_magic[] = { 'I', 'c', 'e', 'P' };
#define ICEP_HEADER_SIZE 14
#define ICEP_MIN_REPLY_SIZE 5
#define ICEP_MIN_PARAMS_SIZE 6
#define ICEP_MIN_COMMON_REQ_HEADER_SIZE 13
/* Initialize the protocol and registered fields */
static int proto_icep = -1;
/* Message Header */
static int hf_icep_protocol_major = -1;
static int hf_icep_protocol_minor = -1;
static int hf_icep_encoding_major = -1;
static int hf_icep_encoding_minor = -1;
static int hf_icep_message_type = -1;
static int hf_icep_compression_status = -1;
static int hf_icep_message_size = -1;
static int hf_icep_magic_number = -1;
/* [Batch] Request Message Body */
static int hf_icep_request_id = -1;
static int hf_icep_id_name = -1;
static int hf_icep_id_category = -1;
static int hf_icep_facet = -1;
static int hf_icep_operation = -1;
static int hf_icep_mode = -1;
static int hf_icep_context = -1;
static int hf_icep_params_size = -1;
static int hf_icep_params_major = -1;
static int hf_icep_params_minor = -1;
static int hf_icep_params_encapsulated = -1;
static int hf_icep_reply_data = -1;
static int hf_icep_invocation_key = -1;
static int hf_icep_invocation_value = -1;
/* Reply Message Body */
static int hf_icep_reply_status = -1;
/* Initialize the subtree pointers */
static gint ett_icep = -1;
static gint ett_icep_msg = -1;
static gint ett_icep_invocation_context = -1;
static expert_field ei_icep_params_size = EI_INIT;
static expert_field ei_icep_context_missing = EI_INIT;
static expert_field ei_icep_reply_data = EI_INIT;
static expert_field ei_icep_length = EI_INIT;
static expert_field ei_icep_facet_max_one_element = EI_INIT;
static expert_field ei_icep_string_too_long = EI_INIT;
static expert_field ei_icep_string_malformed = EI_INIT;
static expert_field ei_icep_message_type = EI_INIT;
static expert_field ei_icep_mode_missing = EI_INIT;
static expert_field ei_icep_params_encapsulated = EI_INIT;
static expert_field ei_icep_params_missing = EI_INIT;
static expert_field ei_icep_batch_requests = EI_INIT;
static expert_field ei_icep_empty_batch = EI_INIT;
static expert_field ei_icep_facet_missing = EI_INIT;
static expert_field ei_icep_context_too_long = EI_INIT;
/* Preferences */
static guint icep_max_batch_requests = 64;
static guint icep_max_ice_string_len = 512;
static guint icep_max_ice_context_pairs = 64;
static const value_string icep_msgtype_vals[] = {
{0x0, "Request"},
{0x1, "Batch request"},
{0x2, "Reply"},
{0x3, "Validate connection"},
{0x4, "Close connection"},
{0, NULL}
};
static const value_string icep_zipstatus_vals[] = {
{0x0, "Uncompressed, sender cannot accept a compressed reply"},
{0x1, "Uncompressed, sender can accept a compressed reply"},
{0x2, "Compressed, sender can accept a compressed reply"},
{0, NULL}
};
static const value_string icep_replystatus_vals[] = {
{0x0, "Success"},
{0x1, "User exception"},
{0x2, "Object does not exist"},
{0x3, "Facet does not exist"},
{0x4, "Operation does not exist"},
{0x5, "Unknown Ice local exception"},
{0x6, "Unknown Ice user exception"},
{0x7, "Unknown exception"},
{0, NULL}
};
static const value_string icep_mode_vals[] = {
{0x0, "normal"},
{0x1, "nonmutating"},
{0x2, "idempotent"},
{0, NULL}
};
/*
* This function dissects an "Ice string", adds hf to "tree" and returns consumed
* bytes in "*consumed", if errors "*consumed" is -1.
*
* "*dest" is a null terminated version of the dissected Ice string.
*/
static void dissect_ice_string(packet_info *pinfo, proto_tree *tree, proto_item *item, int hf_icep,
tvbuff_t *tvb, guint32 offset, gint32 *consumed, const guint8 **dest)
{
/* p. 586 chapter 23.2.1 and p. 588 chapter 23.2.5
* string == Size + content
* string = 1byte (0..254) + string not null terminated
* or
* string = 1byte (255) + 1int (255..2^32-1) + string not null terminated
*/
guint32 Size = 0;
const guint8 *s = NULL;
(*consumed) = 0;
/* check for first byte */
if ( !tvb_bytes_exist(tvb, offset, 1) ) {
expert_add_info_format(pinfo, item, &ei_icep_string_malformed, "1st byte of Size missing");
col_append_str(pinfo->cinfo, COL_INFO, " (1st byte of Size missing)");
(*consumed) = -1;
return;
}
/* get the Size */
Size = tvb_get_guint8(tvb, offset);
offset++;
(*consumed)++;
if ( Size == 255 ) {
/* check for next 4 bytes */
if ( !tvb_bytes_exist(tvb, offset, 4) ) {
expert_add_info_format(pinfo, item, &ei_icep_string_malformed, "second field of Size missing");
col_append_str(pinfo->cinfo, COL_INFO, " (second field of Size missing)");
(*consumed) = -1;
return;
}
/* get second field of Size */
Size = tvb_get_letohl(tvb, offset);
offset += 4;
(*consumed) += 4;
}
DBG("string.Size --> %d\n", Size);
/* check if the string exists */
if ( !tvb_bytes_exist(tvb, offset, Size) ) {
expert_add_info_format(pinfo, item, &ei_icep_string_malformed, "missing or truncated string");
col_append_str(pinfo->cinfo, COL_INFO, " (missing or truncated string)");
(*consumed) = -1;
return;
}
if ( Size > icep_max_ice_string_len ) {
expert_add_info(pinfo, item, &ei_icep_string_too_long);
col_append_str(pinfo->cinfo, COL_INFO, " (string too long)");
(*consumed) = -1;
return;
}
if ( Size != 0 ) {
proto_tree_add_item_ret_string(tree, hf_icep, tvb, offset, Size, ENC_ASCII, pinfo->pool, &s);
} else {
s = wmem_strdup(pinfo->pool, "(empty)");
/* display the 0x00 Size byte when click on a empty ice_string */
proto_tree_add_string(tree, hf_icep, tvb, offset - 1, 1, s);
}
if ( dest != NULL )
*dest = s;
/*offset += Size;*/
(*consumed) += Size;
return;
}
/*
* This function dissects an "Ice facet", adds hf(s) to "tree" and returns consumed
* bytes in "*consumed", if errors "*consumed" is -1.
*/
static void dissect_ice_facet(packet_info *pinfo, proto_tree *tree, proto_item *item, int hf_icep,
tvbuff_t *tvb, guint32 offset, gint32 *consumed)
{
/* p. 588, chapter 23.2.6:
* "facet" is a StringSeq, a StringSeq is a:
* sequence<string>
*
*
* sequence == Size + SizeElements
* sequence = 1byte (0..254) + SizeElements
* or
* sequence = 1byte (255) + 1int (255..2^32-1) + SizeElements
*
*
* p.613. chapter 23.3.2
* "facet has either zero elements (empty) or one element"
*
*
*/
guint32 Size = 0; /* number of elements in the sequence */
(*consumed) = 0;
/* check first byte */
if ( !tvb_bytes_exist(tvb, offset, 1) ) {
expert_add_info(pinfo, item, &ei_icep_facet_missing);
col_append_str(pinfo->cinfo, COL_INFO, " (facet field missing)");
(*consumed) = -1;
return;
}
/* get first byte of Size */
Size = tvb_get_guint8(tvb, offset);
offset++;
(*consumed)++;
if ( Size == 0 ) {
/* display the 0x00 Size byte when click on a empty ice_string */
proto_tree_add_string(tree, hf_icep, tvb, offset - 1, 1, "(empty)");
return;
}
if ( Size == 1 ) {
gint32 consumed_facet = 0;
dissect_ice_string(pinfo, tree, item, hf_icep, tvb, offset, &consumed_facet, NULL);
if ( consumed_facet == -1 ) {
(*consumed) = -1;
return;
}
/*offset += consumed_facet;*/
(*consumed) += consumed_facet;
return;
}
/* if here => Size > 1 => not possible */
/* display the XX Size byte when click here */
expert_add_info(pinfo, item, &ei_icep_facet_max_one_element);
col_append_str(pinfo->cinfo, COL_INFO, " (facet can be max one element)");
(*consumed) = -1;
return;
}
/*
* This function dissects an "Ice context", adds hf(s) to "tree" and returns consumed
* bytes in "*consumed", if errors "*consumed" is -1.
*/
static void dissect_ice_context(packet_info *pinfo, proto_tree *tree, proto_item *item,
tvbuff_t *tvb, guint32 offset, gint32 *consumed)
{
/* p. 588, chapter 23.2.7 and p. 613, 23.3.2:
* "context" is a dictionary<string, string>
*
* dictionary<string, string> == Size + SizeKeyValuePairs
* dictionary<string, string> = 1byte (0..254) + SizeKeyValuePairs
* or
* dictionary<string, string>= 1byte (255) + 1int (255..2^32-1)+SizeKeyValuePairs
*
*/
guint32 Size = 0; /* number of key-value in the dictionary */
guint32 i = 0;
const char *s = NULL;
(*consumed) = 0;
/* check first byte */
if ( !tvb_bytes_exist(tvb, offset, 1) ) {
expert_add_info_format(pinfo, item, &ei_icep_context_missing, "context missing");
col_append_str(pinfo->cinfo, COL_INFO, " (context missing)");
(*consumed) = -1;
return;
}
/* get first byte of Size */
Size = tvb_get_guint8(tvb, offset);
offset++;
(*consumed)++;
if ( Size == 255 ) {
/* check for next 4 bytes */
if ( !tvb_bytes_exist(tvb, offset, 4) ) {
expert_add_info_format(pinfo, item, &ei_icep_context_missing, "second field of Size missing");
col_append_str(pinfo->cinfo, COL_INFO, " (second field of Size missing)");
(*consumed) = -1;
return;
}
/* get second field of Size */
Size = tvb_get_letohl(tvb, offset);
offset += 4;
(*consumed) += 4;
}
DBG("context.Size --> %d\n", Size);
if ( Size > icep_max_ice_context_pairs ) {
/* display the XX Size byte when click here */
expert_add_info(pinfo, item, &ei_icep_context_too_long);
col_append_str(pinfo->cinfo, COL_INFO, " (too long context)");
(*consumed) = -1;
return;
}
if (Size == 0) {
s = "(empty)";
/* display the 0x00 Size byte when click on a empty context */
proto_tree_add_string(tree, hf_icep_context, tvb, offset - 1, 1, s);
return;
}
/* looping through the dictionary */
for ( i = 0; i < Size; i++ ) {
/* key */
gint32 consumed_key = 0;
const guint8 *str_key = NULL;
/* value */
gint32 consumed_value = 0;
const guint8 *str_value = NULL;
proto_item *ti;
proto_tree *context_tree;
DBG("looping through context dictionary, loop #%d\n", i);
context_tree = proto_tree_add_subtree(tree, tvb, offset, -1, ett_icep_invocation_context, &ti, "Invocation Context");
dissect_ice_string(pinfo, context_tree, ti, hf_icep_invocation_key, tvb, offset, &consumed_key, &str_key);
if ( consumed_key == -1 ) {
(*consumed) = -1;
return;
}
offset += consumed_key;
(*consumed) += consumed_key;
dissect_ice_string(pinfo, context_tree, ti, hf_icep_invocation_value, tvb, offset, &consumed_value, &str_value);
if ( consumed_value == -1 ) {
(*consumed) = -1;
return;
}
offset += consumed_value;
(*consumed) += consumed_value;
if (ti)
proto_item_set_len(ti, (consumed_key + consumed_value) + 1);
}
}
/*
* This function dissects an "Ice params", adds hf(s) to "tree" and returns consumed
* bytes in "*consumed", if errors "*consumed" is -1.
*/
static void dissect_ice_params(packet_info *pinfo, proto_tree *tree, proto_item *item, tvbuff_t *tvb,
guint32 offset, gint32 *consumed)
{
/* p. 612, chapter 23.3.2 and p. 587, 23.2.2:
* "params" is an Encapsulation
*
* struct Encapsulation {
* int size;
* byte major;
* byte minor;
* //(size - 6) bytes of data
* }
*
*/
gint32 size = 0;
gint tvb_data_remained = 0;
(*consumed) = 0;
/* check first 6 bytes */
if ( !tvb_bytes_exist(tvb, offset, ICEP_MIN_PARAMS_SIZE) ) {
expert_add_info(pinfo, item, &ei_icep_params_missing);
col_append_str(pinfo->cinfo, COL_INFO, " (params missing)");
(*consumed) = -1;
return;
}
/* get the size */
size = tvb_get_letohl(tvb, offset);
DBG("params.size --> %d\n", size);
if ( size < ICEP_MIN_PARAMS_SIZE ) {
expert_add_info(pinfo, item, &ei_icep_params_size);
col_append_str(pinfo->cinfo, COL_INFO, " (params size too small)");
(*consumed) = -1;
return;
}
if ( tree ) {
proto_tree_add_item(tree, hf_icep_params_size, tvb, offset, 4, ENC_LITTLE_ENDIAN);
offset += 4;
(*consumed) += 4;
proto_tree_add_item(tree, hf_icep_params_major, tvb, offset, 1, ENC_LITTLE_ENDIAN);
offset += 1;
(*consumed)++;
proto_tree_add_item(tree, hf_icep_params_minor, tvb, offset, 1, ENC_LITTLE_ENDIAN);
offset += 1;
(*consumed)++;
} else {
/* skip size, major, minor */
offset += 6;
(*consumed) += 6;
}
if( size == ICEP_MIN_PARAMS_SIZE ) /* no encapsulatd data present, it's normal */
return;
/* check if I got all encapsulated data */
tvb_data_remained = tvb_reported_length_remaining(tvb, offset);
if ( tvb_data_remained < ( size - ICEP_MIN_PARAMS_SIZE ) ) {
expert_add_info_format(pinfo, item, &ei_icep_params_encapsulated, "missing encapsulated data (%d bytes)", size - ICEP_MIN_PARAMS_SIZE - tvb_data_remained);
col_append_fstr(pinfo->cinfo, COL_INFO,
" (missing encapsulated data (%d bytes))",
size - ICEP_MIN_PARAMS_SIZE - tvb_data_remained);
(*consumed) = -1;
return;
}
/* encapsulated params */
proto_tree_add_item(tree, hf_icep_params_encapsulated, tvb, offset, (size - ICEP_MIN_PARAMS_SIZE), ENC_NA);
(*consumed) += (size - ICEP_MIN_PARAMS_SIZE);
}
static void dissect_icep_request_common(tvbuff_t *tvb, guint32 offset,
packet_info *pinfo, proto_tree *icep_sub_tree, proto_item* icep_sub_item, gint32 *total_consumed)
{
/* p. 613, chapter 23.3.3 and p. 612 chapter 23.3.2:
* Request and BatchRequest differ only in the first 4 bytes (requestID)
* so them share this part
*
* Ice::Identity id;
* Ice::StringSeq facet;
* string operation;
* byte mode;
* Ice::Context context;
* Encapsulation params;
* }
*/
gint32 consumed = 0;
const guint8 *namestr = NULL;
const guint8 *opstr = NULL;
(*total_consumed) = 0;
/* check common header (i.e. the batch request one)*/
if ( !tvb_bytes_exist(tvb, offset, ICEP_MIN_COMMON_REQ_HEADER_SIZE) ) {
expert_add_info_format(pinfo, icep_sub_item, &ei_icep_length, "too short header");
col_append_str(pinfo->cinfo, COL_INFO, " (too short header)");
goto error;
}
/* got at least 15 bytes */
/* "id" is a:
* struct Identity {
* string name;
* string category;
* }
*/
dissect_ice_string(pinfo, icep_sub_tree, icep_sub_item, hf_icep_id_name, tvb, offset, &consumed, &namestr);
if ( consumed == -1 )
goto error;
offset += consumed; DBG("consumed --> %d\n", consumed);
(*total_consumed) += consumed;
dissect_ice_string(pinfo, icep_sub_tree, icep_sub_item, hf_icep_id_category, tvb, offset, &consumed, NULL);
if ( consumed == -1 )
goto error;
offset += consumed; DBG("consumed --> %d\n", consumed);
(*total_consumed) += consumed;
/* "facet" is a:
* sequence<string> StringSeq
*
*/
dissect_ice_facet(pinfo, icep_sub_tree, icep_sub_item, hf_icep_facet, tvb, offset, &consumed);
if ( consumed == -1 )
goto error;
offset += consumed; DBG("consumed --> %d\n", consumed);
(*total_consumed) += consumed;
/* "operation" is an ice_string
*
*/
dissect_ice_string(pinfo, icep_sub_tree, icep_sub_item, hf_icep_operation, tvb, offset, &consumed, &opstr);
if ( consumed == -1 )
goto error;
else {
offset += consumed; DBG("consumed --> %d\n", consumed);
(*total_consumed) += consumed;
if ( opstr && namestr ) {
DBG("operation --> %s.%s()\n", namestr, opstr);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s.%s()",
namestr, opstr);
opstr = NULL;
namestr = NULL;
}
}
/* check and get mode byte */
if ( !tvb_bytes_exist(tvb, offset, 1) ) {
expert_add_info(pinfo, icep_sub_item, &ei_icep_mode_missing);
col_append_str(pinfo->cinfo, COL_INFO, " (mode field missing)");
goto error;
}
proto_tree_add_item(icep_sub_tree, hf_icep_mode, tvb, offset, 1, ENC_LITTLE_ENDIAN);
offset++; DBG("consumed --> 1\n");
(*total_consumed)++;
/* "context" is a dictionary<string, string>
*
*/
dissect_ice_context(pinfo, icep_sub_tree, icep_sub_item, tvb, offset, &consumed);
if ( consumed == -1 )
goto error;
offset += consumed; DBG("consumed --> %d\n", consumed);
(*total_consumed) += consumed;
/* "params" is a Encapsulation
*
*/
dissect_ice_params(pinfo, icep_sub_tree, icep_sub_item, tvb, offset, &consumed);
if ( consumed == -1 )
goto error;
/*offset += consumed;*/
DBG("consumed --> %d\n", consumed);
(*total_consumed) += consumed;
return;
error:
(*total_consumed) = -1;
}
static void dissect_icep_request(tvbuff_t *tvb, guint32 offset,
packet_info *pinfo, proto_tree *icep_tree, proto_item* icep_item)
{
/* p. 612, chapter 23.3.2:
*
* struct RequestData {
* int requestID;
* Ice::Identity id;
* Ice::StringSeq facet;
* string operation;
* byte mode;
* Ice::Context context;
* Encapsulation params;
* }
*/
proto_item *ti = NULL;
proto_tree *icep_sub_tree = NULL;
gint32 consumed = 0;
guint32 reqid = 0;
DBG("dissect request\n");
/* check for req id */
if ( !tvb_bytes_exist(tvb, offset, 4) ) {
expert_add_info_format(pinfo, icep_item, &ei_icep_length, "too short header");
col_append_str(pinfo->cinfo, COL_INFO, " (too short header)");
return;
}
/* got at least 4 bytes */
/* create display subtree for this message type */
reqid = tvb_get_letohl(tvb, offset);
icep_sub_tree = proto_tree_add_subtree(icep_tree, tvb, offset, -1, ett_icep_msg, &ti, "Request Message Body");
proto_tree_add_item(icep_sub_tree, hf_icep_request_id, tvb, offset, 4, ENC_LITTLE_ENDIAN);
if ( reqid != 0 ) {
col_append_fstr(pinfo->cinfo, COL_INFO, "(%d):", tvb_get_letohl(tvb, offset));
} else
col_append_str(pinfo->cinfo, COL_INFO, "(oneway):");
offset += 4;
DBG("consumed --> 4\n");
dissect_icep_request_common(tvb, offset, pinfo, icep_sub_tree, ti, &consumed);
if ( consumed == -1 )
return;
/*offset += consumed;*/
DBG("consumed --> %d\n", consumed);
}
static void dissect_icep_batch_request(tvbuff_t *tvb, guint32 offset,
packet_info *pinfo, proto_tree *icep_tree, proto_item* icep_item)
{
/* p. 613, chapter 23.3.3
* A batch request msg is a "sequence" of batch request
* Sequence is Size + elements
*
* struct BatchRequestData {
* Ice::Identity id;
* Ice::StringSeq facet;
* string operation;
* byte mode;
* Ice::Context context;
* Encapsulation params;
* }
*
* NOTE!!!:
* The only real implementation of the Ice protocol puts a 32bit count in front
* of a Batch Request, *not* an Ice::Sequence (as the standard says). Basically the
* same people wrote both code and standard so I'll follow the code.
*/
proto_item *ti = NULL;
proto_tree *icep_sub_tree = NULL;
guint32 num_reqs = 0;
guint32 i = 0;
gint32 consumed = 0;
DBG("dissect batch request\n");
/* check for first 4 byte */
if ( !tvb_bytes_exist(tvb, offset, 4) ) {
expert_add_info_format(pinfo, icep_item, &ei_icep_length, "counter of batch requests missing");
col_append_str(pinfo->cinfo, COL_INFO, " (counter of batch requests missing)");
return;
}
num_reqs = tvb_get_letohl(tvb, offset);
offset += 4;
DBG("batch_requests.count --> %d\n", num_reqs);
if ( num_reqs > icep_max_batch_requests ) {
expert_add_info_format(pinfo, icep_item, &ei_icep_batch_requests, "too many batch requests (%d)", num_reqs);
col_append_fstr(pinfo->cinfo, COL_INFO, " (too many batch requests, %d)", num_reqs);
return;
}
if ( num_reqs == 0 ) {
proto_tree_add_expert(icep_tree, pinfo, &ei_icep_empty_batch, tvb, offset, -1);
col_append_str(pinfo->cinfo, COL_INFO, " (empty batch requests sequence)");
return;
}
col_append_str(pinfo->cinfo, COL_INFO, ":");
/*
* process requests
*/
for ( i = 0; i < num_reqs; i++ ) {
DBG("looping through sequence of batch requests, loop #%d\n", i);
/* create display subtree for this message type */
icep_sub_tree = proto_tree_add_subtree_format(icep_tree, tvb, offset, -1,
ett_icep_msg, &ti, "Batch Request Message Body: #%d", i);
if (i != 0) {
col_append_str(pinfo->cinfo, COL_INFO, ",");
}
dissect_icep_request_common(tvb, offset, pinfo, icep_sub_tree, ti, &consumed);
if ( consumed == -1 )
return;
if ( icep_tree && ti )
proto_item_set_len(ti, consumed);
offset += consumed;
DBG("consumed --> %d\n", consumed);
}
}
static void dissect_icep_reply(tvbuff_t *tvb, guint32 offset,
packet_info *pinfo, proto_tree *icep_tree, proto_item* icep_item)
{
/* p. 614, chapter 23.3.4:
*
* struct ReplyData {
* int requestId;
* byte replyStatus;
* [... messageSize - 19 bytes ... ]
* }
*/
gint32 messageSize = 0;
guint32 tvb_data_remained = 0;
guint32 reported_reply_data = 0;
proto_item *ti = NULL;
proto_tree *icep_sub_tree = NULL;
DBG("dissect reply\n");
/* get at least a full reply message header */
if ( !tvb_bytes_exist(tvb, offset, ICEP_MIN_REPLY_SIZE) ) {
expert_add_info_format(pinfo, icep_item, &ei_icep_length, "too short header");
col_append_str(pinfo->cinfo, COL_INFO, " (too short header)");
return;
}
/* got 5 bytes, then data */
/* create display subtree for this message type */
icep_sub_tree = proto_tree_add_subtree(icep_tree, tvb, offset, -1,
ett_icep_msg, &ti, "Reply Message Body");
proto_tree_add_item(icep_sub_tree, hf_icep_request_id, tvb, offset, 4, ENC_LITTLE_ENDIAN);
col_append_fstr(pinfo->cinfo, COL_INFO, "(%d):", tvb_get_letohl(tvb, offset));
offset += 4;
proto_tree_add_item(icep_sub_tree, hf_icep_reply_status, tvb, offset, 1, ENC_LITTLE_ENDIAN);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s",
val_to_str_const(tvb_get_guint8(tvb, offset),
icep_replystatus_vals,
"unknown reply status"));
offset++;
DBG("consumed --> %d\n", 5);
/* check if I got all reply data */
tvb_data_remained = tvb_reported_length_remaining(tvb, offset);
messageSize = tvb_get_letohl(tvb, 10);
reported_reply_data = messageSize - (ICEP_HEADER_SIZE + ICEP_MIN_REPLY_SIZE);
/* no */
if ( tvb_data_remained < reported_reply_data ) {
expert_add_info_format(pinfo, ti, &ei_icep_reply_data, "Reply Data (missing %d bytes out of %d)", reported_reply_data - tvb_data_remained, reported_reply_data);
col_append_fstr(pinfo->cinfo, COL_INFO,
" (missing reply data, %d bytes)",
reported_reply_data - tvb_data_remained);
/*offset += tvb_data_remained;*/
DBG("consumed --> %d\n", tvb_data_remained);
return;
}
/* yes (reported_reply_data can be 0) */
proto_tree_add_item(icep_sub_tree, hf_icep_reply_data, tvb, offset, reported_reply_data, ENC_NA);
/*offset += reported_reply_data;*/
DBG("consumed --> %d\n", reported_reply_data);
}
static guint get_icep_pdu_len(packet_info *pinfo _U_, tvbuff_t *tvb,
int offset, void *data _U_)
{
return tvb_get_letohl(tvb, offset + 10);
}
static int dissect_icep_pdu(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data _U_)
{
/* p. 611, chapter 23.3.1:
*
* struct HeaderData {
* int magic;
* byte protocolMajor;
* byte protocolMinor;
* byte encodingMajor;
* byte encodingMinor;
* byte messageType;
* byte compressionStatus;
* int messageSize;
* }
*/
proto_item *ti, *msg_item = NULL;
proto_tree *icep_tree;
guint32 offset = 0;
/* Make entries in Protocol column and Info column on summary display */
col_set_str(pinfo->cinfo, COL_PROTOCOL, "ICEP");
col_add_str(pinfo->cinfo, COL_INFO,
val_to_str(tvb_get_guint8(tvb, 8),
icep_msgtype_vals,
"Unknown Message Type: 0x%02x"));
DBG("got an icep msg, start analysis\n");
/* create display subtree for the protocol */
ti = proto_tree_add_item(tree, proto_icep, tvb, 0, -1, ENC_NA);
icep_tree = proto_item_add_subtree(ti, ett_icep);
if (icep_tree) {
/* add items to the subtree */
/* message header */
proto_tree_add_item(icep_tree, hf_icep_magic_number, tvb, offset, 4, ENC_ASCII);
offset += 4;
proto_tree_add_item(icep_tree, hf_icep_protocol_major,
tvb, offset, 1, ENC_LITTLE_ENDIAN);
offset++;
proto_tree_add_item(icep_tree, hf_icep_protocol_minor,
tvb, offset, 1, ENC_LITTLE_ENDIAN);
offset++;
proto_tree_add_item(icep_tree, hf_icep_encoding_major,
tvb, offset, 1, ENC_LITTLE_ENDIAN);
offset++;
proto_tree_add_item(icep_tree, hf_icep_encoding_minor,
tvb, offset, 1, ENC_LITTLE_ENDIAN);
offset++;
msg_item = proto_tree_add_item(icep_tree, hf_icep_message_type,
tvb, offset, 1, ENC_LITTLE_ENDIAN);
offset++;
proto_tree_add_item(icep_tree, hf_icep_compression_status,
tvb, offset, 1, ENC_LITTLE_ENDIAN);
offset++;
proto_tree_add_item(icep_tree, hf_icep_message_size,
tvb, offset, 4, ENC_LITTLE_ENDIAN);
offset += 4;
} else {
offset += ICEP_HEADER_SIZE;
}
switch(tvb_get_guint8(tvb, 8)) {
case 0x0:
DBG("request message body: parsing %d bytes\n",
tvb_captured_length_remaining(tvb, offset));
dissect_icep_request(tvb, offset, pinfo, icep_tree, ti);
break;
case 0x1:
DBG("batch request message body: parsing %d bytes\n",
tvb_captured_length_remaining(tvb, offset));
dissect_icep_batch_request(tvb, offset, pinfo, icep_tree, ti);
break;
case 0x2:
DBG("reply message body: parsing %d bytes\n",
tvb_captured_length_remaining(tvb, offset));
dissect_icep_reply(tvb, offset, pinfo, icep_tree, ti);
break;
case 0x3:
case 0x4:
/* messages already dissected */
break;
default:
expert_add_info_format(pinfo, msg_item, &ei_icep_message_type, "Unknown Message Type: 0x%02x", tvb_get_guint8(tvb, 8));
break;
}
return tvb_captured_length(tvb);
}
/* entry point */
static gboolean dissect_icep_tcp(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data)
{
DBG("triggered\n");
if ( tvb_memeql(tvb, 0, icep_magic, 4) == -1 ) {
/* Not a ICEP packet. */
return FALSE;
}
/* start dissecting */
tcp_dissect_pdus(tvb, pinfo, tree, TRUE, ICEP_HEADER_SIZE,
get_icep_pdu_len, dissect_icep_pdu, data);
return TRUE;
}
static gboolean dissect_icep_udp(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data)
{
DBG("triggered\n");
if ( tvb_memeql(tvb, 0, icep_magic, 4) == -1 ) {
/* Not a ICEP packet. */
return FALSE;
}
/* start dissecting */
dissect_icep_pdu(tvb, pinfo, tree, data);
return TRUE;
}
/* Register the protocol with Wireshark */
void proto_register_icep(void)
{
module_t *icep_module;
expert_module_t* expert_icep;
/* Setup list of header fields */
static hf_register_info hf[] = {
{ &hf_icep_protocol_major,
{
"Protocol Major", "icep.protocol_major",
FT_INT8, BASE_DEC, NULL, 0x0,
"The protocol major version number", HFILL
}
},
{ &hf_icep_protocol_minor,
{
"Protocol Minor", "icep.protocol_minor",
FT_INT8, BASE_DEC, NULL, 0x0,
"The protocol minor version number", HFILL
}
},
{ &hf_icep_encoding_major,
{
"Encoding Major", "icep.encoding_major",
FT_INT8, BASE_DEC, NULL, 0x0,
"The encoding major version number", HFILL
}
},
{ &hf_icep_encoding_minor,
{
"Encoding Minor", "icep.encoding_minor",
FT_INT8, BASE_DEC, NULL, 0x0,
"The encoding minor version number", HFILL
}
},
{ &hf_icep_message_type,
{
"Message Type", "icep.message_type",
FT_INT8, BASE_DEC, VALS(icep_msgtype_vals), 0x0,
"The message type", HFILL
}
},
{ &hf_icep_magic_number,
{
"Magic Number", "icep.magic_number",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL
}
},
{ &hf_icep_compression_status,
{
"Compression Status", "icep.compression_status",
FT_INT8, BASE_DEC, VALS(icep_zipstatus_vals), 0x0,
"The compression status of the message", HFILL
}
},
{ &hf_icep_message_size,
{
"Message Size", "icep.message_status",
FT_INT32, BASE_DEC, NULL, 0x0,
"The size of the message in bytes, including the header",
HFILL
}
},
{ &hf_icep_request_id,
{
"Request Identifier", "icep.request_id",
FT_INT32, BASE_DEC, NULL, 0x0,
"The request identifier",
HFILL
}
},
{ &hf_icep_reply_status,
{
"Reply Status", "icep.protocol_major",
FT_INT8, BASE_DEC, VALS(icep_replystatus_vals), 0x0,
"The reply status", HFILL
}
},
{ &hf_icep_id_name,
{
"Object Identity Name", "icep.id.name",
FT_STRINGZ, BASE_NONE, NULL, 0x0,
"The object identity name", HFILL
}
},
{ &hf_icep_id_category,
{
"Object Identity Content", "icep.id.content",
FT_STRINGZ, BASE_NONE, NULL, 0x0,
"The object identity content", HFILL
}
},
{ &hf_icep_facet,
{
"Facet Name", "icep.facet",
FT_STRINGZ, BASE_NONE, NULL, 0x0,
"The facet name", HFILL
}
},
{ &hf_icep_operation,
{
"Operation Name", "icep.operation",
FT_STRINGZ, BASE_NONE, NULL, 0x0,
"The operation name", HFILL
}
},
{ &hf_icep_mode,
{
"Ice::OperationMode", "icep.operation_mode",
FT_INT8, BASE_DEC, VALS(icep_mode_vals), 0x0,
"A byte representing Ice::OperationMode", HFILL
}
},
{ &hf_icep_context,
{
"Invocation Context", "icep.context",
FT_STRINGZ, BASE_NONE, NULL, 0x0,
"The invocation context", HFILL
}
},
{ &hf_icep_params_size,
{
"Input Parameters Size", "icep.params.size",
FT_INT32, BASE_DEC, NULL, 0x0,
"The encapsulated input parameters size",
HFILL
}
},
{ &hf_icep_params_major,
{
"Input Parameters Encoding Major",
"icep.params.major",
FT_INT8, BASE_DEC, NULL, 0x0,
"The major encoding version of encapsulated parameters",
HFILL
}
},
{ &hf_icep_params_minor,
{
"Input Parameters Encoding Minor",
"icep.params.minor",
FT_INT8, BASE_DEC, NULL, 0x0,
"The minor encoding version of encapsulated parameters",
HFILL
}
},
{ &hf_icep_params_encapsulated,
{
"Encapsulated parameters",
"icep.params.encapsulated",
FT_BYTES, BASE_NONE, NULL, 0x0,
"Remaining encapsulated parameters",
HFILL
}
},
{ &hf_icep_reply_data,
{
"Reported reply data",
"icep.params.reply_data",
FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL
}
},
{ &hf_icep_invocation_key,
{
"Key",
"icep.invocation_key",
FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL
}
},
{ &hf_icep_invocation_value,
{
"Value",
"icep.invocation_value",
FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL
}
},
};
/* Setup protocol subtree array */
static gint *ett[] = {
&ett_icep,
&ett_icep_msg,
&ett_icep_invocation_context,
};
static ei_register_info ei[] = {
{ &ei_icep_string_malformed, { "icep.string.malformed", PI_MALFORMED, PI_ERROR, "String malformed", EXPFILL }},
{ &ei_icep_string_too_long, { "icep.string.too_long", PI_PROTOCOL, PI_WARN, "string too long", EXPFILL }},
{ &ei_icep_facet_missing, { "icep.facet.missing", PI_MALFORMED, PI_ERROR, "facet field missing", EXPFILL }},
{ &ei_icep_facet_max_one_element, { "icep.facet.max_one_element", PI_PROTOCOL, PI_WARN, "facet can be max one element", EXPFILL }},
{ &ei_icep_context_missing, { "icep.context.missing", PI_MALFORMED, PI_ERROR, "context missing", EXPFILL }},
{ &ei_icep_context_too_long, { "icep.context.too_long", PI_PROTOCOL, PI_WARN, "too long context", EXPFILL }},
{ &ei_icep_params_missing, { "icep.params.missing", PI_MALFORMED, PI_ERROR, "params missing", EXPFILL }},
{ &ei_icep_params_size, { "icep.params.size.invalid", PI_PROTOCOL, PI_WARN, "params size too small", EXPFILL }},
{ &ei_icep_params_encapsulated, { "icep.params.encapsulated.missing", PI_PROTOCOL, PI_WARN, "missing encapsulated data (%d bytes)", EXPFILL }},
{ &ei_icep_length, { "icep.length_invalid", PI_MALFORMED, PI_ERROR, "Invalid length", EXPFILL }},
{ &ei_icep_mode_missing, { "icep.mode.missing", PI_MALFORMED, PI_ERROR, "mode field missing", EXPFILL }},
{ &ei_icep_batch_requests, { "icep.batch_requests.invalid", PI_PROTOCOL, PI_WARN, "too many batch requests", EXPFILL }},
{ &ei_icep_empty_batch, { "icep.batch_requests.empty", PI_PROTOCOL, PI_WARN, "empty batch requests sequence", EXPFILL }},
{ &ei_icep_reply_data, { "icep.params.reply_data.missing", PI_MALFORMED, PI_ERROR, "Reply Data missing", EXPFILL }},
{ &ei_icep_message_type, { "icep.message_type.unknown", PI_PROTOCOL, PI_WARN, "Unknown Message Type", EXPFILL }},
};
/* Register the protocol name and description */
proto_icep =
proto_register_protocol("Internet Communications Engine Protocol", "ICEP", "icep");
/* Required function calls to register the header fields and subtrees used */
proto_register_field_array(proto_icep, hf, array_length(hf));
proto_register_subtree_array(ett, array_length(ett));
expert_icep = expert_register_protocol(proto_icep);
expert_register_field_array(expert_icep, ei, array_length(ei));
icep_module = prefs_register_protocol(proto_icep, NULL);
prefs_register_uint_preference(icep_module, "max_batch_requests",
"Maximum batch requests",
"Maximum number of batch requests allowed",
10, &icep_max_batch_requests);
prefs_register_uint_preference(icep_module, "max_ice_string_len",
"Maximum string length",
"Maximum length allowed of an ICEP string",
10, &icep_max_ice_string_len);
prefs_register_uint_preference(icep_module, "max_ice_context_pairs",
"Maximum context pairs",
"Maximum number of context pairs allowed",
10, &icep_max_ice_context_pairs);
icep_tcp_handle = register_dissector("iecp.tcp", dissect_icep_tcp, proto_icep);
icep_udp_handle = register_dissector("iecp.udp", dissect_icep_udp, proto_icep);
}
void proto_reg_handoff_icep(void)
{
/* Register as a heuristic TCP/UDP dissector */
heur_dissector_add("tcp", dissect_icep_tcp, "ICEP over TCP", "icep_tcp", proto_icep, HEURISTIC_ENABLE);
heur_dissector_add("udp", dissect_icep_udp, "ICEP over UDP", "icep_udp", proto_icep, HEURISTIC_ENABLE);
/* Register TCP port for dissection */
dissector_add_for_decode_as_with_preference("tcp.port", icep_tcp_handle);
/* Register UDP port for dissection */
dissector_add_for_decode_as_with_preference("udp.port", icep_udp_handle);
}
/*
* Editor modelines - https://www.wireshark.org/tools/modelines.html
*
* Local variables:
* c-basic-offset: 4
* tab-width: 8
* indent-tabs-mode: nil
* End:
*
* vi: set shiftwidth=4 tabstop=8 expandtab:
* :indentSize=4:tabSize=8:noTabs=true:
*/
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