/* disabled_protos.c * Declarations of routines for reading and writing protocols file that determine * enabling and disabling of protocols. * * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * SPDX-License-Identifier: GPL-2.0-or-later */ #include "config.h" #define WS_LOG_DOMAIN LOG_DOMAIN_EPAN #include #include #include #include #include #include #include #include "disabled_protos.h" #include #include #include #define ENABLED_PROTOCOLS_FILE_NAME "enabled_protos" #define DISABLED_PROTOCOLS_FILE_NAME "disabled_protos" #define HEURISTICS_FILE_NAME "heuristic_protos" /* * Item in a list of disabled protocols. */ typedef struct { char *name; /* protocol name */ } protocol_def; /* * Item in a list of heuristic dissectors and their enabled state. */ typedef struct { char *name; /* heuristic short name */ bool enabled; /* heuristic enabled */ } heur_protocol_def; /* * List of disabled protocols */ static GList *global_disabled_protos; static GList *disabled_protos; /* * List of enabled protocols (that are disabled by default) */ static GList *global_enabled_protos; static GList *enabled_protos; /* * List of disabled heuristics */ static GList *global_disabled_heuristics; static GList *disabled_heuristics; static bool unsaved_changes; #define INIT_BUF_SIZE 128 bool enabled_protos_unsaved_changes(void) { return unsaved_changes; } static void discard_existing_list (GList **flp) { GList *fl_ent; protocol_def *prot; if (*flp != NULL) { fl_ent = g_list_first(*flp); while (fl_ent != NULL) { prot = (protocol_def *) fl_ent->data; g_free(prot->name); g_free(prot); fl_ent = fl_ent->next; } g_list_free(*flp); *flp = NULL; } } static void heur_discard_existing_list (GList **flp) { GList *fl_ent; heur_protocol_def *prot; if (*flp != NULL) { fl_ent = g_list_first(*flp); while (fl_ent != NULL) { prot = (heur_protocol_def *) fl_ent->data; g_free(prot->name); g_free(prot); fl_ent = fl_ent->next; } g_list_free(*flp); *flp = NULL; } } /* * Enable/Disable protocols as per the stored configuration */ static void set_protos_list(GList *protos_list, GList *global_protos_list, bool enable) { int i; GList *fl_ent; protocol_def *prot; /* * Assume no protocols disabled by default wants to be enabled */ if (protos_list == NULL) goto skip; fl_ent = g_list_first(protos_list); while (fl_ent != NULL) { prot = (protocol_def *) fl_ent->data; i = proto_get_id_by_filter_name(prot->name); if (i == -1) { /* XXX - complain here? */ } else { if (proto_can_toggle_protocol(i)) proto_set_decoding(i, enable); } fl_ent = fl_ent->next; } skip: if (global_protos_list == NULL) return; fl_ent = g_list_first(global_protos_list); while (fl_ent != NULL) { prot = (protocol_def *) fl_ent->data; i = proto_get_id_by_filter_name(prot->name); if (i == -1) { /* XXX - complain here? */ } else { if (proto_can_toggle_protocol(i)) { proto_set_decoding(i, enable); proto_set_cant_toggle(i); } } fl_ent = fl_ent->next; } } /* * Write out a list of protocols based on condition * * On success, "*pref_path_return" is set to NULL. * On error, "*pref_path_return" is set to point to the pathname of * the file we tried to read - it should be freed by our caller - * and "*errno_return" is set to the error. */ static void save_protos_list(char **pref_path_return, int *errno_return, const char* filename, const char* header_comment, bool (*protocol_check)(protocol_t *protocol)) { char *ff_path, *ff_path_new; FILE *ff; int i; protocol_t *protocol; void *cookie; bool first = true; *pref_path_return = NULL; /* assume no error */ ff_path = get_persconffile_path(filename, true); /* Write to "XXX.new", and rename if that succeeds. That means we don't trash the file if we fail to write it out completely. */ ff_path_new = ws_strdup_printf("%s.new", ff_path); if ((ff = ws_fopen(ff_path_new, "w")) == NULL) { *pref_path_return = ff_path; *errno_return = errno; g_free(ff_path_new); return; } /* Iterate over all the protocols */ for (i = proto_get_first_protocol(&cookie); i != -1; i = proto_get_next_protocol(&cookie)) { if (!proto_can_toggle_protocol(i)) { continue; } protocol = find_protocol_by_id(i); if (protocol_check(protocol) == false) continue; if (first) { if (header_comment != NULL) { /* Write out a comment explaining what the file is */ fprintf(ff, "%s\n", header_comment); } first = false; } /* Write out the protocol name. */ fprintf(ff, "%s\n", proto_get_protocol_filter_name(i)); } if (fclose(ff) == EOF) { *pref_path_return = ff_path; *errno_return = errno; ws_unlink(ff_path_new); g_free(ff_path_new); return; } #ifdef _WIN32 /* ANSI C doesn't say whether "rename()" removes the target if it exists; the Win32 call to rename files doesn't do so, which I infer is the reason why the MSVC++ "rename()" doesn't do so. We must therefore remove the target file first, on Windows. XXX - ws_rename() should be ws_stdio_rename() on Windows, and ws_stdio_rename() uses MoveFileEx() with MOVEFILE_REPLACE_EXISTING, so it should remove the target if it exists, so this stuff shouldn't be necessary. Perhaps it dates back to when we were calling rename(), with that being a wrapper around Microsoft's _rename(), which didn't remove the target. */ if (ws_remove(ff_path) < 0 && errno != ENOENT) { /* It failed for some reason other than "it's not there"; if it's not there, we don't need to remove it, so we just drive on. */ *pref_path_return = ff_path; *errno_return = errno; ws_unlink(ff_path_new); g_free(ff_path_new); return; } #endif if (ws_rename(ff_path_new, ff_path) < 0) { *pref_path_return = ff_path; *errno_return = errno; ws_unlink(ff_path_new); g_free(ff_path_new); return; } g_free(ff_path_new); g_free(ff_path); } static int read_protos_list_file(const char *ff_path, FILE *ff, GList **flp) { protocol_def *prot; int c; char *prot_name; int prot_name_len; int prot_name_index; int line = 1; bool in_comment = false; /* Allocate the protocol name buffer. */ prot_name_len = INIT_BUF_SIZE; prot_name = (char *)g_malloc(prot_name_len + 1); for (line = 1; ; line++) { /* Lines in a protocol file contain the "filter name" of a protocol to be enabled or disabled. */ /* Skip over leading white space, if any. */ while ((c = ws_getc_unlocked(ff)) != EOF && g_ascii_isspace(c)) { if (c == '\n') { /* Blank line. */ continue; } } if (c == EOF) { if (ferror(ff)) goto error; /* I/O error */ else break; /* Nothing more to read */ } ungetc(c, ff); /* Unread the non-white-space character. */ /* Get the name of the protocol. */ prot_name_index = 0; for (;;) { c = ws_getc_unlocked(ff); if (c == EOF) break; /* End of file, or I/O error */ if (g_ascii_isspace(c)) break; /* Trailing white space, or end of line. */ if (c == '#') { in_comment = true; break; /* Start of comment, running to end of line. */ } /* Add this character to the protocol name string. */ if (prot_name_index >= prot_name_len) { /* protocol name buffer isn't long enough; double its length. */ prot_name_len *= 2; prot_name = (char *)g_realloc(prot_name, prot_name_len + 1); } prot_name[prot_name_index] = c; prot_name_index++; } if (g_ascii_isspace(c) && c != '\n') { /* Skip over trailing white space. */ while ((c = ws_getc_unlocked(ff)) != EOF && c != '\n' && g_ascii_isspace(c)) ; if (c != EOF && c != '\n' && c != '#') { /* Non-white-space after the protocol name; warn about it, in case we come up with a reason to use it. */ ws_warning("'%s' line %d has extra stuff after the protocol name.", ff_path, line); } } if (c != EOF && c != '\n' && in_comment == true) { /* Skip to end of line. */ while ((c = ws_getc_unlocked(ff)) != EOF && c != '\n') ; } if (c == EOF) { if (ferror(ff)) goto error; /* I/O error */ else { /* EOF, not error; no newline seen before EOF */ ws_warning("'%s' line %d doesn't have a newline.", ff_path, line); } break; /* nothing more to read */ } if (in_comment) { in_comment = false; continue; } /* Null-terminate the protocol name. */ if (prot_name_index >= prot_name_len) { /* protocol name buffer isn't long enough; double its length. */ prot_name_len *= 2; prot_name = (char *)g_realloc(prot_name, prot_name_len + 1); } prot_name[prot_name_index] = '\0'; /* Add the new protocol to the list of disabled protocols */ prot = g_new(protocol_def, 1); prot->name = g_strdup(prot_name); *flp = g_list_append(*flp, prot); } g_free(prot_name); return 0; error: g_free(prot_name); return errno; } /* * Read in global and personal versions of a list of protocols. * * If we can open and read the global version, *gpath_return is set to * NULL. Otherwise, *gpath_return is set to point to the pathname of * the file we tried to read - it should be freed by our caller - and * *gopen_errno_return is set to the error if an open failed or * *gread_errno_return is set to the error if a read failed. * * If we can open and read the personal version, *path_return is set to * NULL. Otherwise, *path_return is set to point to the pathname of * the file we tried to read - it should be freed by our caller - and * *open_errno_return is set to the error if an open failed or * *read_errno_return is set to the error if a read failed. */ static void read_protos_list(char **gpath_return, int *gopen_errno_return, int *gread_errno_return, char **path_return, int *open_errno_return, int *read_errno_return, const char* filename, GList **global_protos_list, GList **protos_list) { int err; char *gff_path, *ff_path; FILE *ff; /* Construct the pathname of the global disabled protocols file. */ gff_path = get_datafile_path(filename); /* If we already have a list of protocols, discard it. */ discard_existing_list (global_protos_list); /* Read the global disabled protocols file, if it exists. */ *gpath_return = NULL; if ((ff = ws_fopen(gff_path, "r")) != NULL) { /* We succeeded in opening it; read it. */ err = read_protos_list_file(gff_path, ff, global_protos_list); if (err != 0) { /* We had an error reading the file; return the errno and the pathname, so our caller can report the error. */ *gopen_errno_return = 0; *gread_errno_return = err; *gpath_return = gff_path; } else g_free(gff_path); fclose(ff); } else { /* We failed to open it. If we failed for some reason other than "it doesn't exist", return the errno and the pathname, so our caller can report the error. */ if (errno != ENOENT) { *gopen_errno_return = errno; *gread_errno_return = 0; *gpath_return = gff_path; } else g_free(gff_path); } /* Construct the pathname of the user's disabled protocols file. */ ff_path = get_persconffile_path(filename, true); /* If we already have a list of protocols, discard it. */ discard_existing_list (protos_list); /* Read the user's disabled protocols file, if it exists. */ *path_return = NULL; if ((ff = ws_fopen(ff_path, "r")) != NULL) { /* We succeeded in opening it; read it. */ err = read_protos_list_file(ff_path, ff, protos_list); if (err != 0) { /* We had an error reading the file; return the errno and the pathname, so our caller can report the error. */ *open_errno_return = 0; *read_errno_return = err; *path_return = ff_path; } else g_free(ff_path); fclose(ff); } else { /* We failed to open it. If we failed for some reason other than "it doesn't exist", return the errno and the pathname, so our caller can report the error. */ if (errno != ENOENT) { *open_errno_return = errno; *read_errno_return = 0; *path_return = ff_path; } else g_free(ff_path); } } /************************************************************************ * Disabling dissectors ************************************************************************/ /* * Disable a particular protocol by name */ bool proto_disable_proto_by_name(const char *name) { protocol_t *protocol; int proto_id; proto_id = proto_get_id_by_filter_name(name); if (proto_id >= 0 ) { protocol = find_protocol_by_id(proto_id); if (proto_is_protocol_enabled(protocol) == true) { if (proto_can_toggle_protocol(proto_id) == true) { unsaved_changes = true; proto_set_decoding(proto_id, false); } } return true; } else if (!strcmp(name, "ALL")) { unsaved_changes = true; proto_disable_all(); return true; } else { return false; } } static bool disable_proto_list_check(protocol_t *protocol) { if (proto_is_protocol_enabled(protocol) == false) return true; return false; } /************************************************************************ * Enabling dissectors (that are disabled by default) ************************************************************************/ bool proto_enable_proto_by_name(const char *name) { protocol_t *protocol; int proto_id; proto_id = proto_get_id_by_filter_name(name); if (proto_id >= 0 ) { protocol = find_protocol_by_id(proto_id); if ((proto_is_protocol_enabled(protocol) == false)) { if (proto_can_toggle_protocol(proto_id) == true) { unsaved_changes = true; proto_set_decoding(proto_id, true); } } return true; } else if (!strcmp(name, "ALL")) { unsaved_changes = true; proto_reenable_all(); return true; } else { return false; } } static bool enable_proto_list_check(protocol_t *protocol) { if ((proto_is_protocol_enabled_by_default(protocol) == false) && (proto_is_protocol_enabled(protocol) == true)) return true; return false; } /************************************************************************ * Heuristic dissectors ************************************************************************/ static void set_disabled_heur_dissector_list(void) { GList *fl_ent; heur_protocol_def *heur; heur_dtbl_entry_t* h; if (disabled_heuristics == NULL) goto skip; fl_ent = g_list_first(disabled_heuristics); while (fl_ent != NULL) { heur = (heur_protocol_def *) fl_ent->data; h = find_heur_dissector_by_unique_short_name(heur->name); if (h != NULL) { h->enabled = heur->enabled; } fl_ent = fl_ent->next; } skip: if (global_disabled_heuristics == NULL) return; fl_ent = g_list_first(global_disabled_heuristics); while (fl_ent != NULL) { heur = (heur_protocol_def *) fl_ent->data; h = find_heur_dissector_by_unique_short_name(heur->name); if (h != NULL) { h->enabled = heur->enabled; } fl_ent = fl_ent->next; } } static int read_heur_dissector_list_file(const char *ff_path, FILE *ff, GList **flp) { heur_protocol_def *heur; int c; char *heuristic_name; int heuristic_name_len; int name_index; bool parse_enabled; bool enabled; int line = 1; /* Allocate the protocol name buffer. */ heuristic_name_len = INIT_BUF_SIZE; heuristic_name = (char *)g_malloc(heuristic_name_len + 1); for (line = 1; ; line++) { /* Lines in a disabled protocol file contain the "filter name" of a protocol to be disabled. */ /* Skip over leading white space, if any. */ while ((c = ws_getc_unlocked(ff)) != EOF && g_ascii_isspace(c)) { if (c == '\n') { /* Blank line. */ continue; } } if (c == EOF) { if (ferror(ff)) goto error; /* I/O error */ else break; /* Nothing more to read */ } ungetc(c, ff); /* Unread the non-white-space character. */ /* Get the name of the protocol. */ name_index = 0; enabled = false; parse_enabled = false; for (;;) { c = ws_getc_unlocked(ff); if (c == EOF) break; /* End of file, or I/O error */ if (g_ascii_isspace(c)) break; /* Trailing white space, or end of line. */ if (c == ',') {/* Separator for enable/disable */ parse_enabled = true; continue; } if (c == '#') break; /* Start of comment, running to end of line. */ if (parse_enabled) { enabled = ((c == '1') ? true : false); break; } /* Add this character to the protocol name string. */ if (name_index >= heuristic_name_len) { /* protocol name buffer isn't long enough; double its length. */ heuristic_name_len *= 2; heuristic_name = (char *)g_realloc(heuristic_name, heuristic_name_len + 1); } heuristic_name[name_index] = c; name_index++; } if (g_ascii_isspace(c) && c != '\n') { /* Skip over trailing white space. */ while ((c = ws_getc_unlocked(ff)) != EOF && c != '\n' && g_ascii_isspace(c)) ; if (c != EOF && c != '\n' && c != '#') { /* Non-white-space after the protocol name; warn about it, in case we come up with a reason to use it. */ ws_warning("'%s' line %d has extra stuff after the protocol name.", ff_path, line); } } if (c != EOF && c != '\n') { /* Skip to end of line. */ while ((c = ws_getc_unlocked(ff)) != EOF && c != '\n') ; } if (c == EOF) { if (ferror(ff)) goto error; /* I/O error */ else { /* EOF, not error; no newline seen before EOF */ ws_warning("'%s' line %d doesn't have a newline.", ff_path, line); } break; /* nothing more to read */ } /* Null-terminate the protocol name. */ if (name_index >= heuristic_name_len) { /* protocol name buffer isn't long enough; double its length. */ heuristic_name_len *= 2; heuristic_name = (char *)g_realloc(heuristic_name, heuristic_name_len + 1); } heuristic_name[name_index] = '\0'; /* Add the new protocol to the list of protocols */ heur = g_new(heur_protocol_def, 1); heur->name = g_strdup(heuristic_name); heur->enabled = enabled; *flp = g_list_append(*flp, heur); } g_free(heuristic_name); return 0; error: g_free(heuristic_name); return errno; } static void read_heur_dissector_list(char **gpath_return, int *gopen_errno_return, int *gread_errno_return, char **path_return, int *open_errno_return, int *read_errno_return) { int err; char *gff_path, *ff_path; FILE *ff; /* If we already have a list of protocols, discard it. */ heur_discard_existing_list(&global_disabled_heuristics); /* Construct the pathname of the global disabled heuristic dissectors file. */ gff_path = get_datafile_path(HEURISTICS_FILE_NAME); /* Read the global disabled protocols file, if it exists. */ *gpath_return = NULL; if ((ff = ws_fopen(gff_path, "r")) != NULL) { /* We succeeded in opening it; read it. */ err = read_heur_dissector_list_file(gff_path, ff, &global_disabled_heuristics); if (err != 0) { /* We had an error reading the file; return the errno and the pathname, so our caller can report the error. */ *gopen_errno_return = 0; *gread_errno_return = err; *gpath_return = gff_path; } else g_free(gff_path); fclose(ff); } else { /* We failed to open it. If we failed for some reason other than "it doesn't exist", return the errno and the pathname, so our caller can report the error. */ if (errno != ENOENT) { *gopen_errno_return = errno; *gread_errno_return = 0; *gpath_return = gff_path; } else g_free(gff_path); } /* Construct the pathname of the user's disabled protocols file. */ ff_path = get_persconffile_path(HEURISTICS_FILE_NAME, true); /* If we already have a list of protocols, discard it. */ heur_discard_existing_list (&disabled_heuristics); /* Read the user's disabled protocols file, if it exists. */ *path_return = NULL; if ((ff = ws_fopen(ff_path, "r")) != NULL) { /* We succeeded in opening it; read it. */ err = read_heur_dissector_list_file(ff_path, ff, &disabled_heuristics); if (err != 0) { /* We had an error reading the file; return the errno and the pathname, so our caller can report the error. */ *open_errno_return = 0; *read_errno_return = err; *path_return = ff_path; } else g_free(ff_path); fclose(ff); } else { /* We failed to open it. If we failed for some reason other than "it doesn't exist", return the errno and the pathname, so our caller can report the error. */ if (errno != ENOENT) { *open_errno_return = errno; *read_errno_return = 0; *path_return = ff_path; } else g_free(ff_path); } } static int heur_compare(const void *a, const void *b) { return strcmp(((const heur_dtbl_entry_t *)a)->short_name, ((const heur_dtbl_entry_t *)b)->short_name); } static void write_heur_dissector(void *data, void *user_data) { heur_dtbl_entry_t* dtbl_entry = (heur_dtbl_entry_t*)data; FILE *ff = (FILE*)user_data; /* Write out the heuristic short name and its enabled state */ fprintf(ff, "%s,%d\n", dtbl_entry->short_name, dtbl_entry->enabled ? 1 : 0); } static void sort_dissector_table_entries(const char *table_name _U_, heur_dtbl_entry_t *dtbl_entry, void *user_data) { GSList **list = (GSList**)user_data; *list = g_slist_insert_sorted(*list, dtbl_entry, heur_compare); } static void sort_heur_dissector_tables(const char *table_name, struct heur_dissector_list *list, void *w) { if (list) { heur_dissector_table_foreach(table_name, sort_dissector_table_entries, w); } } static void save_disabled_heur_dissector_list(char **pref_path_return, int *errno_return) { char *ff_path, *ff_path_new; GSList *sorted_heur_list = NULL; FILE *ff; *pref_path_return = NULL; /* assume no error */ ff_path = get_persconffile_path(HEURISTICS_FILE_NAME, true); /* Write to "XXX.new", and rename if that succeeds. That means we don't trash the file if we fail to write it out completely. */ ff_path_new = ws_strdup_printf("%s.new", ff_path); if ((ff = ws_fopen(ff_path_new, "w")) == NULL) { *pref_path_return = ff_path; *errno_return = errno; g_free(ff_path_new); return; } /* Iterate over all the heuristic dissectors to sort them in alphabetical order by short name */ dissector_all_heur_tables_foreach_table(sort_heur_dissector_tables, &sorted_heur_list, NULL); /* Write the list */ g_slist_foreach(sorted_heur_list, write_heur_dissector, ff); g_slist_free(sorted_heur_list); if (fclose(ff) == EOF) { *pref_path_return = ff_path; *errno_return = errno; ws_unlink(ff_path_new); g_free(ff_path_new); return; } #ifdef _WIN32 /* ANSI C doesn't say whether "rename()" removes the target if it exists; the Win32 call to rename files doesn't do so, which I infer is the reason why the MSVC++ "rename()" doesn't do so. We must therefore remove the target file first, on Windows. XXX - ws_rename() should be ws_stdio_rename() on Windows, and ws_stdio_rename() uses MoveFileEx() with MOVEFILE_REPLACE_EXISTING, so it should remove the target if it exists, so this stuff shouldn't be necessary. Perhaps it dates back to when we were calling rename(), with that being a wrapper around Microsoft's _rename(), which didn't remove the target. */ if (ws_remove(ff_path) < 0 && errno != ENOENT) { /* It failed for some reason other than "it's not there"; if it's not there, we don't need to remove it, so we just drive on. */ *pref_path_return = ff_path; *errno_return = errno; ws_unlink(ff_path_new); g_free(ff_path_new); return; } #endif if (ws_rename(ff_path_new, ff_path) < 0) { *pref_path_return = ff_path; *errno_return = errno; ws_unlink(ff_path_new); g_free(ff_path_new); return; } g_free(ff_path_new); g_free(ff_path); } static bool proto_set_heuristic_by_name(const char *name, bool enable) { heur_dtbl_entry_t* heur = find_heur_dissector_by_unique_short_name(name); if (heur != NULL) { unsaved_changes |= (heur->enabled != enable); heur->enabled = enable; return true; } else { return false; } } bool proto_enable_heuristic_by_name(const char *name) { return proto_set_heuristic_by_name(name, true); } bool proto_disable_heuristic_by_name(const char *name) { return proto_set_heuristic_by_name(name, false); } static void disabled_protos_free(void *p, void *user_data _U_) { protocol_def* pd = (protocol_def*)p; g_free(pd->name); g_free(p); } /* * Read the files that enable and disable protocols and heuristic * dissectors. Report errors through the UI. */ void read_enabled_and_disabled_lists(void) { char *gpath, *path; int gopen_errno, gread_errno; int open_errno, read_errno; /* * Read the global and personal disabled protocols files. */ read_protos_list(&gpath, &gopen_errno, &gread_errno, &path, &open_errno, &read_errno, DISABLED_PROTOCOLS_FILE_NAME, &global_disabled_protos, &disabled_protos); if (gpath != NULL) { if (gopen_errno != 0) { report_warning("Could not open global disabled protocols file\n\"%s\": %s.", gpath, g_strerror(gopen_errno)); } if (gread_errno != 0) { report_warning("I/O error reading global disabled protocols file\n\"%s\": %s.", gpath, g_strerror(gread_errno)); } g_free(gpath); gpath = NULL; } if (path != NULL) { if (open_errno != 0) { report_warning("Could not open your disabled protocols file\n\"%s\": %s.", path, g_strerror(open_errno)); } if (read_errno != 0) { report_warning("I/O error reading your disabled protocols file\n\"%s\": %s.", path, g_strerror(read_errno)); } g_free(path); path = NULL; } /* * Read the global and personal enabled protocols files. */ read_protos_list(&gpath, &gopen_errno, &gread_errno, &path, &open_errno, &read_errno, ENABLED_PROTOCOLS_FILE_NAME, &global_enabled_protos, &enabled_protos); if (gpath != NULL) { if (gopen_errno != 0) { report_warning("Could not open global enabled protocols file\n\"%s\": %s.", gpath, g_strerror(gopen_errno)); } if (gread_errno != 0) { report_warning("I/O error reading global enabled protocols file\n\"%s\": %s.", gpath, g_strerror(gread_errno)); } g_free(gpath); gpath = NULL; } if (path != NULL) { if (open_errno != 0) { report_warning("Could not open your enabled protocols file\n\"%s\": %s.", path, g_strerror(open_errno)); } if (read_errno != 0) { report_warning("I/O error reading your enabled protocols file\n\"%s\": %s.", path, g_strerror(read_errno)); } g_free(path); path = NULL; } /* * Read the global and personal heuristic dissector list files. */ read_heur_dissector_list(&gpath, &gopen_errno, &gread_errno, &path, &open_errno, &read_errno); if (gpath != NULL) { if (gopen_errno != 0) { report_warning("Could not open global heuristic dissectors file\n\"%s\": %s.", gpath, g_strerror(gopen_errno)); } if (gread_errno != 0) { report_warning("I/O error reading global heuristic dissectors file\n\"%s\": %s.", gpath, g_strerror(gread_errno)); } g_free(gpath); gpath = NULL; } if (path != NULL) { if (open_errno != 0) { report_warning("Could not open your heuristic dissectors file\n\"%s\": %s.", path, g_strerror(open_errno)); } if (read_errno != 0) { report_warning("I/O error reading your heuristic dissectors file\n\"%s\": %s.", path, g_strerror(read_errno)); } g_free(path); path = NULL; } /* * Enable/disable protocols and heuristic dissectors as per the * contents of the files we just read. */ set_protos_list(disabled_protos, global_disabled_protos, false); set_protos_list(enabled_protos, global_enabled_protos, true); set_disabled_heur_dissector_list(); unsaved_changes = false; } /* * Write out the lists of enabled and disabled protocols and heuristic * dissectors to the corresponding files. Report errors through the UI. */ void save_enabled_and_disabled_lists(void) { char *pf_dir_path; char *pf_path; int pf_save_errno; bool ok = true; /* Create the directory that holds personal configuration files, if necessary. */ if (create_persconffile_dir(&pf_dir_path) == -1) { report_failure("Can't create directory\n\"%s\"\nfor disabled protocols file: %s.", pf_dir_path, g_strerror(errno)); g_free(pf_dir_path); return; } save_protos_list(&pf_path, &pf_save_errno, DISABLED_PROTOCOLS_FILE_NAME, NULL, disable_proto_list_check); if (pf_path != NULL) { report_failure("Could not save to your disabled protocols file\n\"%s\": %s.", pf_path, g_strerror(pf_save_errno)); g_free(pf_path); ok = false; } save_protos_list(&pf_path, &pf_save_errno, ENABLED_PROTOCOLS_FILE_NAME, "#This file is for enabling protocols that are disabled by default", enable_proto_list_check); if (pf_path != NULL) { report_failure("Could not save to your enabled protocols file\n\"%s\": %s.", pf_path, g_strerror(pf_save_errno)); g_free(pf_path); ok = false; } save_disabled_heur_dissector_list(&pf_path, &pf_save_errno); if (pf_path != NULL) { report_failure("Could not save to your disabled heuristic protocol file\n\"%s\": %s.", pf_path, g_strerror(pf_save_errno)); g_free(pf_path); ok = false; } if (ok) unsaved_changes = false; } void cleanup_enabled_and_disabled_lists(void) { g_list_foreach(global_disabled_heuristics, disabled_protos_free, NULL); g_list_free(global_disabled_heuristics); g_list_foreach(disabled_heuristics, disabled_protos_free, NULL); g_list_free(disabled_heuristics); g_list_foreach(global_disabled_protos, disabled_protos_free, NULL); g_list_free(global_disabled_protos); g_list_foreach(disabled_protos, disabled_protos_free, NULL); g_list_free(disabled_protos); } /* * Editor modelines - https://www.wireshark.org/tools/modelines.html * * Local Variables: * c-basic-offset: 2 * tab-width: 8 * indent-tabs-mode: nil * End: * * ex: set shiftwidth=2 tabstop=8 expandtab: * :indentSize=2:tabSize=8:noTabs=true: */