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wireshark/epan/wslua/wslua_tree.c

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/*
* wslua_tree.c
*
* Wireshark's interface to the Lua Programming Language
*
* (c) 2006, Luis E. Garcia Ontanon <luis@ontanon.org>
* (c) 2008, Balint Reczey <balint.reczey@ericsson.com>
*
* Wireshark - Network traffic analyzer
* By Gerald Combs <gerald@wireshark.org>
* Copyright 1998 Gerald Combs
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "config.h"
#include <epan/emem.h>
/* WSLUA_MODULE Tree Adding information to the dissection tree */
#include "wslua.h"
#include <epan/exceptions.h>
#include <epan/show_exception.h>
static gint wslua_ett = -1;
static GPtrArray* outstanding_TreeItem = NULL;
#define PUSH_TREEITEM(L,i) {g_ptr_array_add(outstanding_TreeItem,i);pushTreeItem(L,i);}
TreeItem* push_TreeItem(lua_State*L, TreeItem t) {
g_ptr_array_add(outstanding_TreeItem,t);
return pushTreeItem(L,t);
}
CLEAR_OUTSTANDING(TreeItem, expired, TRUE)
WSLUA_CLASS_DEFINE(TreeItem,FAIL_ON_NULL_OR_EXPIRED("TreeItem"),NOP);
/* ++TreeItem++s represent information in the packet-details pane.
A root +TreeItem+ is passed to dissectors as the third argument. */
/* the following is used by TreeItem_add_packet_field() - this can THROW errors */
static proto_item *
try_add_packet_field(lua_State *L, TreeItem tree_item, TvbRange tvbr, const int hfid,
const ftenum_t type, const guint encoding, gint *ret_err)
{
gint err = 0;
proto_item* item = NULL;
gint endoff = 0;
switch(type) {
/* these all generate ByteArrays */
case FT_BYTES:
case FT_UINT_BYTES:
case FT_OID:
case FT_REL_OID:
case FT_SYSTEM_ID:
{
/* GByteArray and its data will be g_free'd by Lua */
GByteArray *gba = g_byte_array_new();
item = proto_tree_add_bytes_item(tree_item->tree, hfid, tvbr->tvb->ws_tvb,
tvbr->offset, tvbr->len, encoding,
gba, &endoff, &err);
if (err == 0) {
pushByteArray(L, gba);
lua_pushinteger(L, endoff);
}
}
break;
case FT_ABSOLUTE_TIME:
case FT_RELATIVE_TIME:
{
/* nstime_t will be g_free'd by Lua */
nstime_t *nstime = (nstime_t *) g_malloc0(sizeof(nstime_t));
item = proto_tree_add_time_item(tree_item->tree, hfid, tvbr->tvb->ws_tvb,
tvbr->offset, tvbr->len, encoding,
nstime, &endoff, &err);
if (err == 0) {
pushNSTime(L,nstime);
lua_pushinteger(L, endoff);
}
}
break;
/* XXX: what about these? */
case FT_NONE:
case FT_PROTOCOL:
/* anything else just needs to be done the old fashioned way */
default:
item = proto_tree_add_item(tree_item->tree, hfid, tvbr->tvb->ws_tvb, tvbr->offset, tvbr->len, encoding);
lua_pushnil(L);
lua_pushnil(L);
break;
}
if (ret_err) *ret_err = err;
return item;
}
WSLUA_METHOD TreeItem_add_packet_field(lua_State *L) {
/*
Adds a new child tree for the given `ProtoField` object to this tree item,
returning the new child `TreeItem`.
Unlike `TreeItem:add()` and `TreeItem:add_le()`, the `ProtoField` argument
is not optional, and cannot be a `Proto` object. Instead, this function always
uses the `ProtoField` to determine the type of field to extract from the
passed-in `TvbRange`, highlighting the relevant bytes in the Packet Bytes pane
of the GUI (if there is a GUI), etc. If no `TvbRange` is given, no bytes are
highlighted and the field's value cannot be determined; the `ProtoField` must
have been defined/created not to have a length in such a case, or an error will
occur. For backwards-compatibility reasons the `encoding` argument, however,
must still be given.
Unlike `TreeItem:add()` and `TreeItem:add_le()`, this function performs both
big-endian and little-endian decoding, by setting the `encoding` argument to
be `ENC_BIG_ENDIAN` or `ENC_LITTLE_ENDIAN`.
The signature of this function:
@code
tree_item:add_packet_field(proto_field [,tvbrange], encoding, ...)
@endcode
In Wireshark version 1.11.3, this function was changed to return more than
just the new child `TreeItem`. The child is the first return value, so that
function chaining will still work as before; but it now also returns the value
of the extracted field (i.e., a number, `UInt64`, `Address`, etc.). If the
value could not be extracted from the `TvbRange`, the child `TreeItem` is still
returned, but the second returned value is `nil`.
Another new feature added to this function in Wireshark version 1.11.3 is the
ability to extract native number `ProtoField`s from string encoding in the
`TvbRange`, for ASCII-based and similar string encodings. For example, a
`ProtoField` of as `ftypes.UINT32` type can be extracted from a `TvbRange`
containing the ASCII string "123", and it will correctly decode the ASCII to
the number `123`, both in the tree as well as for the second return value of
this function. To do so, you must set the `encoding` argument of this function
to the appropriate string `ENC_*` value, bitwise-or'd with the `ENC_STRING`
value (see `init.lua`). `ENC_STRING` is guaranteed to be a unique bit flag, and
thus it can added instead of bitwise-or'ed as well. Only single-byte ASCII digit
string encoding types can be used for this, such as `ENC_ASCII` and `ENC_UTF_8`.
For example, assuming the `Tvb` named "`tvb`" contains the string "123":
@code
-- this is done earlier in the script
local myfield = ProtoField.new("Transaction ID", "myproto.trans_id", ftypes.UINT16)
-- this is done inside a dissector, post-dissector, or heuristic function
-- child will be the created child tree, and value will be the number 123 or nil on failure
local child, value = tree:add_packet_field(myfield, tvb:range(0,3), ENC_UTF_8 + ENC_STRING)
@endcode
*/
#define WSLUA_ARG_TreeItem_add_packet_field_PROTOFIELD 2 /* The ProtoField field object to add to the tree. */
#define WSLUA_OPTARG_TreeItem_add_packet_field_TVBRANGE 3 /* The `TvbRange` of bytes in the packet this tree item covers/represents. */
#define WSLUA_ARG_TreeItem_add_packet_field_ENCODING 4 /* The field's encoding in the `TvbRange`. */
#define WSLUA_OPTARG_TreeItem_add_packet_field_LABEL 5 /* One or more strings to append to the created `TreeItem`. */
volatile TvbRange tvbr;
ProtoField field;
int hfid;
volatile int ett;
ftenum_t type;
TreeItem tree_item = shiftTreeItem(L,1);
guint encoding;
proto_item* item = NULL;
volatile int nargs;
volatile gint err = 0;
const char *volatile error = NULL;
if (!tree_item) {
return luaL_error(L,"not a TreeItem!");
}
if (tree_item->expired) {
luaL_error(L,"expired TreeItem");
return 0;
}
if (! ( field = shiftProtoField(L,1) ) ) {
luaL_error(L,"TreeField:add_packet_field not passed a ProtoField");
return 0;
}
hfid = field->hfid;
type = field->type;
ett = field->ett;
tvbr = shiftTvbRange(L,1);
if (!tvbr) {
/* No TvbRange specified */
tvbr = ep_new(struct _wslua_tvbrange);
tvbr->tvb = ep_new(struct _wslua_tvb);
tvbr->tvb->ws_tvb = lua_tvb;
tvbr->offset = 0;
tvbr->len = 0;
}
encoding = wslua_checkguint(L,1);
lua_remove(L,1);
/* get the number of additional args before we add more to the stack */
nargs = lua_gettop(L);
/* XXX: why is this being done? If the length was -1, FT_STRINGZ figures out
* the right length in tvb_get_stringz_enc(); if it was 0, it should remain zero;
* if it was greater than zero, then it's the length the caller wanted.
*/
if (type == FT_STRINGZ) {
switch (encoding & ENC_CHARENCODING_MASK) {
case ENC_UTF_16:
case ENC_UCS_2:
tvbr->len = tvb_unicode_strsize (tvbr->tvb->ws_tvb, tvbr->offset);
break;
default:
tvbr->len = tvb_strsize (tvbr->tvb->ws_tvb, tvbr->offset);
break;
}
}
TRY {
gint errx = 0;
item = try_add_packet_field(L, tree_item, tvbr, hfid, type, encoding, &errx);
err = errx;
} CATCH_ALL {
show_exception(tvbr->tvb->ws_tvb, lua_pinfo, tree_item->tree, EXCEPT_CODE, GET_MESSAGE);
error = "Lua programming error";
} ENDTRY;
if (error) { WSLUA_ERROR(TreeItem_add_packet_field,error); }
if (err != 0) {
lua_pushnil(L);
lua_pushnil(L);
}
while(nargs) {
const gchar* s;
s = lua_tostring(L,1);
if (s) proto_item_append_text(item, " %s", s);
lua_remove(L,1);
nargs--;
}
tree_item = (TreeItem)g_malloc(sizeof(struct _wslua_treeitem));
tree_item->item = item;
tree_item->tree = proto_item_add_subtree(item,ett > 0 ? ett : wslua_ett);
tree_item->expired = FALSE;
PUSH_TREEITEM(L,tree_item);
/* move the tree object before the field value */
lua_insert(L, 1);
WSLUA_RETURN(3); /* The new child `TreeItem`, the field's extracted value or nil, and offset or nil. */
}
static int TreeItem_add_item_any(lua_State *L, gboolean little_endian) {
TvbRange tvbr;
Proto proto;
ProtoField field;
int hfid = -1;
int ett = -1;
ftenum_t type = FT_NONE;
TreeItem tree_item = shiftTreeItem(L,1);
proto_item* item = NULL;
if (!tree_item) {
return luaL_error(L,"not a TreeItem!");
}
if (tree_item->expired) {
luaL_error(L,"expired TreeItem");
return 0;
}
if (! ( field = shiftProtoField(L,1) ) ) {
if (( proto = shiftProto(L,1) )) {
hfid = proto->hfid;
type = FT_PROTOCOL;
ett = proto->ett;
}
} else {
hfid = field->hfid;
type = field->type;
ett = field->ett;
}
tvbr = shiftTvbRange(L,1);
if (!tvbr) {
tvbr = ep_new(struct _wslua_tvbrange);
tvbr->tvb = ep_new(struct _wslua_tvb);
tvbr->tvb->ws_tvb = lua_tvb;
tvbr->offset = 0;
tvbr->len = 0;
}
if (hfid > 0 ) {
if (lua_gettop(L)) {
switch(type) {
case FT_PROTOCOL:
item = proto_tree_add_item(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvbr->len,ENC_NA);
lua_pushnumber(L,0);
lua_insert(L,1);
break;
case FT_BOOLEAN:
{
/* this needs to use checkinteger so that it can accept a Lua boolean and coerce it to an int */
guint32 val = (guint32) (wslua_tointeger(L,1));
item = proto_tree_add_boolean(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvbr->len,val);
}
break;
case FT_UINT8:
case FT_UINT16:
case FT_UINT24:
case FT_UINT32:
case FT_FRAMENUM:
item = proto_tree_add_uint(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvbr->len,wslua_checkguint32(L,1));
break;
case FT_INT8:
case FT_INT16:
case FT_INT24:
case FT_INT32:
item = proto_tree_add_int(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvbr->len,wslua_checkguint32(L,1));
break;
case FT_FLOAT:
item = proto_tree_add_float(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvbr->len,(float)luaL_checknumber(L,1));
break;
case FT_DOUBLE:
item = proto_tree_add_double(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvbr->len,(double)luaL_checknumber(L,1));
break;
case FT_ABSOLUTE_TIME:
case FT_RELATIVE_TIME:
item = proto_tree_add_time(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvbr->len,checkNSTime(L,1));
break;
case FT_STRING:
item = proto_tree_add_string(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvbr->len,luaL_checkstring(L,1));
break;
case FT_STRINGZ:
item = proto_tree_add_string(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvb_strsize (tvbr->tvb->ws_tvb, tvbr->offset),luaL_checkstring(L,1));
break;
case FT_BYTES:
item = proto_tree_add_bytes(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvbr->len, (const guint8*) luaL_checkstring(L,1));
break;
case FT_UINT64:
item = proto_tree_add_uint64(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvbr->len,checkUInt64(L,1));
break;
case FT_INT64:
item = proto_tree_add_int64(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvbr->len,checkInt64(L,1));
break;
case FT_IPv4:
item = proto_tree_add_ipv4(tree_item->tree,hfid,tvbr->tvb->ws_tvb,tvbr->offset,tvbr->len,*((const guint32*)(checkAddress(L,1)->data)));
break;
case FT_ETHER:
case FT_UINT_BYTES:
case FT_IPv6:
case FT_IPXNET:
case FT_GUID:
case FT_OID:
case FT_REL_OID:
case FT_SYSTEM_ID:
case FT_VINES:
case FT_FCWWN:
default:
luaL_error(L,"FT_ not yet supported");
return 0;
}
lua_remove(L,1);
} else {
if (type == FT_STRINGZ) tvbr->len = tvb_strsize (tvbr->tvb->ws_tvb, tvbr->offset);
item = proto_tree_add_item(tree_item->tree, hfid, tvbr->tvb->ws_tvb, tvbr->offset, tvbr->len, little_endian ? ENC_LITTLE_ENDIAN : ENC_BIG_ENDIAN);
}
if ( lua_gettop(L) ) {
const gchar* s = lua_tostring(L,1);
if (s) proto_item_set_text(item,"%s",s);
lua_remove(L,1);
}
} else {
if (lua_gettop(L)) {
const gchar* s = lua_tostring(L,1);
item = proto_tree_add_text(tree_item->tree, tvbr->tvb->ws_tvb, tvbr->offset, tvbr->len,"%s",s);
lua_remove(L,1);
} else {
luaL_error(L,"Tree item ProtoField/Protocol handle is invalid (ProtoField/Proto not registered?)");
}
}
while(lua_gettop(L)) {
const gchar* s = lua_tostring(L,1);
if (s) proto_item_append_text(item, " %s", s);
lua_remove(L,1);
}
tree_item = (TreeItem)g_malloc(sizeof(struct _wslua_treeitem));
tree_item->item = item;
tree_item->tree = proto_item_add_subtree(item,ett > 0 ? ett : wslua_ett);
tree_item->expired = FALSE;
PUSH_TREEITEM(L,tree_item);
return 1;
}
WSLUA_METHOD TreeItem_add(lua_State *L) {
/*
Adds a child item to this tree item, returning the new child `TreeItem`.
If the `ProtoField` represents a numeric value (int, uint or float), then it's treated as a Big Endian (network order) value.
This function has a complicated form: 'treeitem:add([protofield,] [tvbrange,] [[value], label]])', such that if the first
argument is a `ProtoField` or a `Proto`, the second argument is a `TvbRange`, and a third argument is given, it's a value;
but if the second argument is a non-`TvbRange`, then it's the value (as opposed to filling that argument with 'nil',
which is invalid for this function). If the first argument is a non-`ProtoField` and a non-`Proto` then this argument can
be either a `TvbRange` or a label, and the value is not in use.
*/
#define WSLUA_OPTARG_TreeItem_add_PROTOFIELD 2 /* The ProtoField field or Proto protocol object to add to the tree. */
#define WSLUA_OPTARG_TreeItem_add_TVBRANGE 3 /* The TvbRange of bytes in the packet this tree item covers/represents. */
#define WSLUA_OPTARG_TreeItem_add_VALUE 4 /* The field's value, instead of the ProtoField/Proto one. */
#define WSLUA_OPTARG_TreeItem_add_LABEL 5 /* One or more strings to use for the tree item label, instead of the ProtoField/Proto one. */
WSLUA_RETURN(TreeItem_add_item_any(L,FALSE)); /* The new child TreeItem. */
}
WSLUA_METHOD TreeItem_add_le(lua_State *L) {
/*
Adds a child item to this tree item, returning the new child `TreeItem`.
If the `ProtoField` represents a numeric value (int, uint or float), then it's treated as a Little Endian value.
This function has a complicated form: 'treeitem:add_le([protofield,] [tvbrange,] [[value], label]])', such that if the first
argument is a `ProtoField` or a `Proto`, the second argument is a `TvbRange`, and a third argument is given, it's a value;
but if the second argument is a non-`TvbRange`, then it's the value (as opposed to filling that argument with 'nil',
which is invalid for this function). If the first argument is a non-`ProtoField` and a non-`Proto` then this argument can
be either a `TvbRange` or a label, and the value is not in use.
*/
#define WSLUA_OPTARG_TreeItem_add_le_PROTOFIELD 2 /* The ProtoField field or Proto protocol object to add to the tree. */
#define WSLUA_OPTARG_TreeItem_add_le_TVBRANGE 3 /* The TvbRange of bytes in the packet this tree item covers/represents. */
#define WSLUA_OPTARG_TreeItem_add_le_VALUE 4 /* The field's value, instead of the ProtoField/Proto one. */
#define WSLUA_OPTARG_TreeItem_add_le_LABEL 5 /* One or more strings to use for the tree item label, instead of the ProtoField/Proto one. */
WSLUA_RETURN(TreeItem_add_item_any(L,TRUE)); /* The new child TreeItem. */
}
WSLUA_METHOD TreeItem_set_text(lua_State *L) {
/* Sets the text of the label.
This used to return nothing, but as of 1.11.3 it returns the same tree item to allow chained calls.
*/
#define WSLUA_ARG_TreeItem_set_text_TEXT 2 /* The text to be used. */
TreeItem ti = checkTreeItem(L,1);
const gchar* s = luaL_checkstring(L,WSLUA_ARG_TreeItem_set_text_TEXT);
proto_item_set_text(ti->item,"%s",s);
/* copy the TreeItem userdata so we give it back */
lua_pushvalue(L, 1);
WSLUA_RETURN(1); /* The same TreeItem. */
}
WSLUA_METHOD TreeItem_append_text(lua_State *L) {
/* Appends text to the label.
This used to return nothing, but as of 1.11.3 it returns the same tree item to allow chained calls.
*/
#define WSLUA_ARG_TreeItem_append_text_TEXT 2 /* The text to be appended. */
TreeItem ti = checkTreeItem(L,1);
const gchar* s = luaL_checkstring(L,WSLUA_ARG_TreeItem_append_text_TEXT);
proto_item_append_text(ti->item,"%s",s);
/* copy the TreeItem userdata so we give it back */
lua_pushvalue(L, 1);
WSLUA_RETURN(1); /* The same TreeItem. */
}
WSLUA_METHOD TreeItem_prepend_text(lua_State *L) {
/* Prepends text to the label.
This used to return nothing, but as of 1.11.3 it returns the same tree item to allow chained calls.
*/
#define WSLUA_ARG_TreeItem_prepend_text_TEXT 2 /* The text to be prepended. */
TreeItem ti = checkTreeItem(L,1);
const gchar* s = luaL_checkstring(L,WSLUA_ARG_TreeItem_prepend_text_TEXT);
proto_item_prepend_text(ti->item,"%s",s);
/* copy the TreeItem userdata so we give it back */
lua_pushvalue(L, 1);
WSLUA_RETURN(1); /* The same TreeItem. */
}
WSLUA_METHOD TreeItem_add_expert_info(lua_State *L) {
/* Sets the expert flags of the item and adds expert info to the packet.
This function does *not* create a truly filterable expert info for a protocol.
Instead you should use `TreeItem.add_proto_expert_info()`.
Note: This function is provided for backwards compatibility only, and should not
be used in new Lua code. It may be removed in the future. You should only
use `TreeItem.add_proto_expert_info()`.
*/
#define WSLUA_OPTARG_TreeItem_add_expert_info_GROUP 2 /* One of `PI_CHECKSUM`, `PI_SEQUENCE`,
`PI_RESPONSE_CODE`, `PI_REQUEST_CODE`,
`PI_UNDECODED`, `PI_REASSEMBLE`,
`PI_MALFORMED` or `PI_DEBUG`. */
#define WSLUA_OPTARG_TreeItem_add_expert_info_SEVERITY 3 /* One of `PI_CHAT`, `PI_NOTE`,
`PI_WARN`, or `PI_ERROR`. */
#define WSLUA_OPTARG_TreeItem_add_expert_info_TEXT 4 /* The text for the expert info display. */
TreeItem ti = checkTreeItem(L,1);
int group = luaL_optint(L,WSLUA_OPTARG_TreeItem_add_expert_info_GROUP,PI_DEBUG);
int severity = luaL_optint(L,WSLUA_OPTARG_TreeItem_add_expert_info_SEVERITY,PI_CHAT);
expert_field* ei_info = wslua_get_expert_field(group, severity);
const gchar* str;
if (lua_gettop(L) >= WSLUA_OPTARG_TreeItem_add_expert_info_TEXT) {
str = wslua_checkstring_only(L, WSLUA_OPTARG_TreeItem_add_expert_info_TEXT);
expert_add_info_format(lua_pinfo, ti->item, ei_info, "%s", str);
} else {
expert_add_info(lua_pinfo, ti->item, ei_info);
}
/* copy the TreeItem userdata so we give it back */
lua_pushvalue(L, 1);
WSLUA_RETURN(1); /* The same TreeItem. */
}
WSLUA_METHOD TreeItem_add_proto_expert_info(lua_State *L) {
/* Sets the expert flags of the tree item and adds expert info to the packet.
@since 1.11.3
*/
#define WSLUA_ARG_TreeItem_add_proto_expert_info_EXPERT 2 /* The `ProtoExpert` object to add to the tree. */
#define WSLUA_OPTARG_TreeItem_add_proto_expert_info_TEXT 3 /* Text for the expert info display
(default is to use the registered
text). */
TreeItem ti = checkTreeItem(L,1);
ProtoExpert expert = checkProtoExpert(L,WSLUA_ARG_TreeItem_add_proto_expert_info_EXPERT);
const gchar* str;
if (expert->ids.ei == EI_INIT_EI || expert->ids.hf == EI_INIT_HF) {
luaL_error(L, "ProtoExpert is not registered");
return 0;
}
if (lua_gettop(L) >= WSLUA_OPTARG_TreeItem_add_proto_expert_info_TEXT) {
str = wslua_checkstring_only(L, WSLUA_OPTARG_TreeItem_add_proto_expert_info_TEXT);
expert_add_info_format(lua_pinfo, ti->item, &expert->ids, "%s", str);
} else {
expert_add_info(lua_pinfo, ti->item, &expert->ids);
}
/* copy the TreeItem userdata so we give it back */
lua_pushvalue(L, 1);
WSLUA_RETURN(1); /* The same TreeItem. */
}
WSLUA_METHOD TreeItem_add_tvb_expert_info(lua_State *L) {
/* Sets the expert flags of the tree item and adds expert info to the packet
associated with the `Tvb` or `TvbRange` bytes in the packet.
@since 1.11.3
*/
#define WSLUA_ARG_TreeItem_add_tvb_expert_info_EXPERT 2 /* The `ProtoExpert` object to add to the tree. */
#define WSLUA_ARG_TreeItem_add_tvb_expert_info_TVB 3 /* The `Tvb` or `TvbRange` object bytes to associate
the expert info with. */
#define WSLUA_OPTARG_TreeItem_add_tvb_expert_info_TEXT 4 /* Text for the expert info display
(default is to use the registered
text). */
TreeItem ti = checkTreeItem(L,1);
ProtoExpert expert = checkProtoExpert(L,WSLUA_ARG_TreeItem_add_proto_expert_info_EXPERT);
TvbRange tvbr;
const gchar* str;
if (expert->ids.ei == EI_INIT_EI || expert->ids.hf == EI_INIT_HF) {
luaL_error(L, "ProtoExpert is not registered");
return 0;
}
tvbr = shiftTvbRange(L,WSLUA_ARG_TreeItem_add_tvb_expert_info_TVB);
if (!tvbr) {
tvbr = ep_new(struct _wslua_tvbrange);
tvbr->tvb = shiftTvb(L,WSLUA_ARG_TreeItem_add_tvb_expert_info_TVB);
if (!tvbr->tvb) {
tvbr->tvb = ep_new(struct _wslua_tvb);
}
tvbr->tvb->ws_tvb = lua_tvb;
tvbr->offset = 0;
tvbr->len = 0;
}
if (lua_gettop(L) >= WSLUA_OPTARG_TreeItem_add_proto_expert_info_TEXT) {
str = wslua_checkstring_only(L, WSLUA_OPTARG_TreeItem_add_proto_expert_info_TEXT);
proto_tree_add_expert_format(ti->tree, lua_pinfo, &expert->ids,
tvbr->tvb->ws_tvb, tvbr->offset, tvbr->len,
"%s", str);
} else {
proto_tree_add_expert(ti->tree, lua_pinfo, &expert->ids,
tvbr->tvb->ws_tvb, tvbr->offset, tvbr->len);
}
/* copy the TreeItem userdata so we give it back */
lua_pushvalue(L, 1);
WSLUA_RETURN(1); /* The same TreeItem. */
}
WSLUA_METHOD TreeItem_set_generated(lua_State *L) {
/* Marks the `TreeItem` as a generated field (with data inferred but not contained in the packet).
This used to return nothing, but as of 1.11.3 it returns the same tree item to allow chained calls.
*/
TreeItem ti = checkTreeItem(L,1);
PROTO_ITEM_SET_GENERATED(ti->item);
/* copy the TreeItem userdata so we give it back */
lua_pushvalue(L, 1);
WSLUA_RETURN(1); /* The same TreeItem. */
}
WSLUA_METHOD TreeItem_set_hidden(lua_State *L) {
/* This function should not be used, and is provided for backwards-compatibility only. */
TreeItem ti = checkTreeItem(L,1);
PROTO_ITEM_SET_HIDDEN(ti->item);
/* copy the TreeItem userdata so we give it back */
lua_pushvalue(L, 1);
WSLUA_RETURN(1); /* The same TreeItem. */
}
WSLUA_METHOD TreeItem_set_len(lua_State *L) {
/* Set `TreeItem`'s length inside tvb, after it has already been created.
This used to return nothing, but as of 1.11.3 it returns the same tree item to allow chained calls.
*/
#define WSLUA_ARG_TreeItem_set_len_LEN 2 /* The length to be used. */
TreeItem ti = checkTreeItem(L,1);
gint len = luaL_checkint(L,WSLUA_ARG_TreeItem_set_len_LEN);
proto_item_set_len(ti->item, len);
/* copy the TreeItem userdata so we give it back */
lua_pushvalue(L, 1);
WSLUA_RETURN(1); /* The same TreeItem. */
}
/* Gets registered as metamethod automatically by WSLUA_REGISTER_CLASS/META */
static int TreeItem__gc(lua_State* L) {
TreeItem ti = toTreeItem(L,1);
if (!ti) return 0;
if (!ti->expired)
ti->expired = TRUE;
else
g_free(ti);
return 0;
}
WSLUA_METHODS TreeItem_methods[] = {
WSLUA_CLASS_FNREG(TreeItem,add_packet_field),
WSLUA_CLASS_FNREG(TreeItem,add),
WSLUA_CLASS_FNREG(TreeItem,add_le),
WSLUA_CLASS_FNREG(TreeItem,set_text),
WSLUA_CLASS_FNREG(TreeItem,append_text),
WSLUA_CLASS_FNREG(TreeItem,prepend_text),
WSLUA_CLASS_FNREG(TreeItem,add_expert_info),
WSLUA_CLASS_FNREG(TreeItem,add_proto_expert_info),
WSLUA_CLASS_FNREG(TreeItem,add_tvb_expert_info),
WSLUA_CLASS_FNREG(TreeItem,set_generated),
WSLUA_CLASS_FNREG(TreeItem,set_hidden),
WSLUA_CLASS_FNREG(TreeItem,set_len),
{ NULL, NULL }
};
WSLUA_META TreeItem_meta[] = {
{ NULL, NULL }
};
int TreeItem_register(lua_State *L) {
gint* etts[] = { &wslua_ett };
WSLUA_REGISTER_CLASS(TreeItem);
outstanding_TreeItem = g_ptr_array_new();
proto_register_subtree_array(etts,1);
return 0;
}
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