/* * Wireshark - Network traffic analyzer * * Copyright 2006 Gilbert Ramirez * * 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 #include "dfunctions.h" #include "dfilter-int.h" #include #include #include #include #include #include /* lowercase an ASCII character. * (thanks to Guy Harris for the function) */ static gchar string_ascii_to_lower(gchar c) { return ((c & 0x80) ? c : tolower(c)); } /* uppercase an ASCII character. */ static gchar string_ascii_to_upper(gchar c) { return ((c & 0x80) ? c : toupper(c)); } /* Convert an FT_STRING using a callback function */ static gboolean string_walk(GList* arg1list, GList **retval, gchar(*conv_func)(gchar)) { GList *arg1; fvalue_t *arg_fvalue; fvalue_t *new_ft_string; char *s, *c; arg1 = arg1list; while (arg1) { arg_fvalue = (fvalue_t *)arg1->data; /* XXX - it would be nice to handle FT_TVBUFF, too */ if (IS_FT_STRING(fvalue_type_ftenum(arg_fvalue))) { s = (char *)ep_strdup((gchar *)fvalue_get(arg_fvalue)); for (c = s; *c; c++) { /**c = string_ascii_to_lower(*c);*/ *c = conv_func(*c); } new_ft_string = fvalue_new(FT_STRING); fvalue_set_string(new_ft_string, s); *retval = g_list_append(*retval, new_ft_string); } arg1 = arg1->next; } return TRUE; } /* dfilter function: lower() */ static gboolean df_func_lower(GList* arg1list, GList *arg2junk _U_, GList **retval) { return string_walk(arg1list, retval, string_ascii_to_lower); } /* dfilter function: upper() */ static gboolean df_func_upper(GList* arg1list, GList *arg2junk _U_, GList **retval) { return string_walk(arg1list, retval, string_ascii_to_upper); } /* dfilter function: len() */ static gboolean df_func_len(GList* arg1list, GList *arg2junk _U_, GList **retval) { GList *arg1; fvalue_t *arg_fvalue; fvalue_t *ft_len; arg1 = arg1list; while (arg1) { arg_fvalue = (fvalue_t *)arg1->data; /* XXX - it would be nice to handle other types */ if (IS_FT_STRING(fvalue_type_ftenum(arg_fvalue))) { ft_len = fvalue_new(FT_UINT32); fvalue_set_uinteger(ft_len, (guint) strlen((char *)fvalue_get(arg_fvalue))); *retval = g_list_append(*retval, ft_len); } arg1 = arg1->next; } return TRUE; } /* dfilter function: size() */ static gboolean df_func_size(GList* arg1list, GList *arg2junk _U_, GList **retval) { GList *arg1; fvalue_t *arg_fvalue; fvalue_t *ft_len; arg1 = arg1list; while (arg1) { arg_fvalue = (fvalue_t *)arg1->data; ft_len = fvalue_new(FT_UINT32); fvalue_set_uinteger(ft_len, fvalue_length(arg_fvalue)); *retval = g_list_append(*retval, ft_len); arg1 = arg1->next; } return TRUE; } /* dfilter function: count() */ static gboolean df_func_count(GList* arg1list, GList *arg2junk _U_, GList **retval) { fvalue_t *ft_ret; guint32 num_items; num_items = (guint32)g_list_length(arg1list); ft_ret = fvalue_new(FT_UINT32); fvalue_set_uinteger(ft_ret, num_items); *retval = g_list_append(*retval, ft_ret); return TRUE; } /* For upper(), lower() and len(), checks that the parameter passed to * it is an FT_STRING */ static void ul_semcheck_params(int param_num, stnode_t *st_node) { sttype_id_t type; ftenum_t ftype; header_field_info *hfinfo; type = stnode_type_id(st_node); if (param_num == 0) { switch(type) { case STTYPE_FIELD: hfinfo = (header_field_info *)stnode_data(st_node); ftype = hfinfo->type; if (IS_FT_STRING(ftype)) { dfilter_fail("Only strings can be used in upper() or lower() or len()"); THROW(TypeError); } break; default: dfilter_fail("Only string-type fields can be used in upper() or lower() or len()"); THROW(TypeError); } } else { g_assert_not_reached(); } } static void ul_semcheck_field_param(int param_num, stnode_t *st_node) { sttype_id_t type; type = stnode_type_id(st_node); if (param_num == 0) { switch(type) { case STTYPE_FIELD: break; default: dfilter_fail("Only type fields can be used as parameter " "for size() or count()"); THROW(TypeError); } } else { g_assert_not_reached(); } } /* The table of all display-filter functions */ static df_func_def_t df_functions[] = { { "lower", df_func_lower, FT_STRING, 1, 1, ul_semcheck_params }, { "upper", df_func_upper, FT_STRING, 1, 1, ul_semcheck_params }, { "len", df_func_len, FT_UINT32, 1, 1, ul_semcheck_params }, { "size", df_func_size, FT_UINT32, 1, 1, ul_semcheck_field_param }, { "count", df_func_count, FT_UINT32, 1, 1, ul_semcheck_field_param }, { NULL, NULL, FT_NONE, 0, 0, NULL } }; /* Lookup a display filter function record by name */ df_func_def_t* df_func_lookup(char *name) { df_func_def_t *func_def; func_def = df_functions; while (func_def->function != NULL) { if (strcmp(func_def->name, name) == 0) { return func_def; } func_def++; } return NULL; }