// SPDX-License-Identifier: GPL-2.0+ /* * Copyright (C) 2011 Red Hat, Inc. * Copyright (C) 2013 Thomas Bechtold */ #include "nm-default.h" #include "nm-config.h" #include #include "nm-utils.h" #include "devices/nm-device.h" #include "NetworkManagerUtils.h" #include "nm-core-internal.h" #include "nm-keyfile/nm-keyfile-internal.h" #include "nm-keyfile/nm-keyfile-utils.h" #define DEFAULT_CONFIG_MAIN_FILE NMCONFDIR "/NetworkManager.conf" #define DEFAULT_CONFIG_DIR NMCONFDIR "/conf.d" #define DEFAULT_CONFIG_MAIN_FILE_OLD NMCONFDIR "/nm-system-settings.conf" #define DEFAULT_SYSTEM_CONFIG_DIR NMLIBDIR "/conf.d" #define RUN_CONFIG_DIR NMRUNDIR "/conf.d" #define DEFAULT_NO_AUTO_DEFAULT_FILE NMSTATEDIR "/no-auto-default.state" #define DEFAULT_INTERN_CONFIG_FILE NMSTATEDIR "/NetworkManager-intern.conf" #define DEFAULT_STATE_FILE NMSTATEDIR "/NetworkManager.state" /*****************************************************************************/ struct NMConfigCmdLineOptions { char *config_main_file; char *intern_config_file; char *config_dir; char *system_config_dir; char *state_file; char *no_auto_default_file; char *plugins; NMConfigConfigureAndQuitType configure_and_quit; gboolean is_debug; char *connectivity_uri; /* We store interval as signed internally to track whether it's * set or not via GOptionEntry */ int connectivity_interval; char *connectivity_response; /* @first_start is not provided by command line. It is a convenient hack * to pass in an argument to NMConfig. This makes NMConfigCmdLineOptions a * misnomer. * * It is true, if NM is started the first time -- contrary to a restart * during the same boot up. That is determined by the content of the * /run/NetworManager state directory. */ bool first_start; }; typedef struct { NMConfigState p; } State; /*****************************************************************************/ NM_GOBJECT_PROPERTIES_DEFINE_BASE ( PROP_CMD_LINE_OPTIONS, PROP_ATOMIC_SECTION_PREFIXES, ); enum { SIGNAL_CONFIG_CHANGED, LAST_SIGNAL, }; static guint signals[LAST_SIGNAL] = { 0 }; typedef struct { NMConfigCmdLineOptions cli; NMConfigData *config_data; NMConfigData *config_data_orig; char *config_dir; char *system_config_dir; char *no_auto_default_file; char *intern_config_file; char *log_level; char *log_domains; NMConfigConfigureAndQuitType configure_and_quit; char **atomic_section_prefixes; /* The state. This is actually a mutable data member and it makes sense: * The regular config is immutable (NMConfigData) and can old be swapped * as a whole (via nm_config_set_values() or during reload). Thus, it can * be changed, but it is still immutable and is swapped atomically as a * whole. Also, we emit a config-changed signal on that occasion. * * For state, there are no events. You can query it and set it. * It only gets read *once* at startup, and later is cached and only * written out to disk. Hence, no need for the immutable dance here * because the state changes only on explicit actions from the daemon * itself. */ State *state; /* the hash table of device states. It is only loaded from disk * once and kept immutable afterwards. * * We also read all state file at once. We don't want to support * that they are changed outside of NM (at least not while NM is running). * Hence, we read them once, that's it. */ GHashTable *device_states; char **warnings; } NMConfigPrivate; struct _NMConfig { GObject parent; NMConfigPrivate _priv; }; struct _NMConfigClass { GObjectClass parent; }; static void nm_config_initable_iface_init (GInitableIface *iface); G_DEFINE_TYPE_WITH_CODE (NMConfig, nm_config, G_TYPE_OBJECT, G_IMPLEMENT_INTERFACE (G_TYPE_INITABLE, nm_config_initable_iface_init); ) #define NM_CONFIG_GET_PRIVATE(self) _NM_GET_PRIVATE (self, NMConfig, NM_IS_CONFIG) /*****************************************************************************/ #define _NMLOG_DOMAIN LOGD_CORE #define _NMLOG(level, ...) __NMLOG_DEFAULT (level, _NMLOG_DOMAIN, "config", __VA_ARGS__) /*****************************************************************************/ static void _set_config_data (NMConfig *self, NMConfigData *new_data, NMConfigChangeFlags reload_flags); /*****************************************************************************/ int nm_config_parse_boolean (const char *str, int default_value) { return _nm_utils_ascii_str_to_bool (str, default_value); } int nm_config_keyfile_get_boolean (const GKeyFile *keyfile, const char *section, const char *key, int default_value) { gs_free char *str = NULL; g_return_val_if_fail (keyfile != NULL, default_value); g_return_val_if_fail (section != NULL, default_value); g_return_val_if_fail (key != NULL, default_value); str = g_key_file_get_value ((GKeyFile *) keyfile, section, key, NULL); return nm_config_parse_boolean (str, default_value); } gint64 nm_config_keyfile_get_int64 (const GKeyFile *keyfile, const char *section, const char *key, guint base, gint64 min, gint64 max, gint64 fallback) { gint64 v; int errsv; char *str; g_return_val_if_fail (keyfile, fallback); g_return_val_if_fail (section, fallback); g_return_val_if_fail (key, fallback); str = g_key_file_get_value ((GKeyFile *) keyfile, section, key, NULL); v = _nm_utils_ascii_str_to_int64 (str, base, min, max, fallback); if (str) { errsv = errno; g_free (str); errno = errsv; } return v; } char * nm_config_keyfile_get_value (const GKeyFile *keyfile, const char *section, const char *key, NMConfigGetValueFlags flags) { char *value; if (NM_FLAGS_HAS (flags, NM_CONFIG_GET_VALUE_RAW)) value = g_key_file_get_value ((GKeyFile *) keyfile, section, key, NULL); else value = g_key_file_get_string ((GKeyFile *) keyfile, section, key, NULL); if (!value) return NULL; if (NM_FLAGS_HAS (flags, NM_CONFIG_GET_VALUE_STRIP)) g_strstrip (value); if ( NM_FLAGS_HAS (flags, NM_CONFIG_GET_VALUE_NO_EMPTY) && !*value) { g_free (value); return NULL; } return value; } void nm_config_keyfile_set_string_list (GKeyFile *keyfile, const char *group, const char *key, const char *const* strv, gssize len) { gsize l; char *new_value; if (len < 0) len = strv ? g_strv_length ((char **) strv) : 0; g_key_file_set_string_list (keyfile, group, key, strv, len); /* g_key_file_set_string_list() appends a trailing separator to the value. * We don't like that, get rid of it. */ new_value = g_key_file_get_value (keyfile, group, key, NULL); if (!new_value) return; l = strlen (new_value); if (l > 0 && new_value[l - 1] == NM_CONFIG_KEYFILE_LIST_SEPARATOR) { /* Maybe we should check that value doesn't end with "\\,", i.e. * with an escaped separator. But the way g_key_file_set_string_list() * is implemented (currently), it always adds a trailing separator. */ new_value[l - 1] = '\0'; g_key_file_set_value (keyfile, group, key, new_value); } g_free (new_value); } /*****************************************************************************/ const char *const* nm_config_get_warnings (NMConfig *config) { return (const char *const *) NM_CONFIG_GET_PRIVATE (config)->warnings; } void nm_config_clear_warnings (NMConfig *config) { nm_clear_pointer (&NM_CONFIG_GET_PRIVATE (config)->warnings, g_strfreev); } NMConfigData * nm_config_get_data (NMConfig *config) { g_return_val_if_fail (config != NULL, NULL); return NM_CONFIG_GET_PRIVATE (config)->config_data; } /* The NMConfigData instance is reloadable and will be swapped on reload. * nm_config_get_data_orig() returns the original configuration, when the NMConfig * instance was created. */ NMConfigData * nm_config_get_data_orig (NMConfig *config) { g_return_val_if_fail (config != NULL, NULL); return NM_CONFIG_GET_PRIVATE (config)->config_data_orig; } const char * nm_config_get_log_level (NMConfig *config) { g_return_val_if_fail (config != NULL, NULL); return NM_CONFIG_GET_PRIVATE (config)->log_level; } const char * nm_config_get_log_domains (NMConfig *config) { g_return_val_if_fail (config != NULL, NULL); return NM_CONFIG_GET_PRIVATE (config)->log_domains; } NMConfigConfigureAndQuitType nm_config_get_configure_and_quit (NMConfig *config) { return NM_CONFIG_GET_PRIVATE (config)->configure_and_quit; } gboolean nm_config_get_is_debug (NMConfig *config) { return NM_CONFIG_GET_PRIVATE (config)->cli.is_debug; } gboolean nm_config_get_first_start (NMConfig *config) { return NM_CONFIG_GET_PRIVATE (config)->cli.first_start; } const char * nm_config_get_no_auto_default_file (NMConfig *config) { return NM_CONFIG_GET_PRIVATE (config)->no_auto_default_file; } /*****************************************************************************/ static char ** no_auto_default_from_file (const char *no_auto_default_file) { gs_free char *data = NULL; const char **list = NULL; gsize i; if ( no_auto_default_file && g_file_get_contents (no_auto_default_file, &data, NULL, NULL)) list = nm_utils_strsplit_set (data, "\n"); if (list) { for (i = 0; list[i]; i++) list[i] = nm_utils_str_utf8safe_unescape_cp (list[i], NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); } /* The returned buffer here is not at all compact. That means, it has additional * memory allocations and is larger than needed. That means, you should not keep * this result around, only process it further and free it. */ return (char **) list; } static gboolean no_auto_default_to_file (const char *no_auto_default_file, const char *const*no_auto_default, GError **error) { nm_auto_free_gstring GString *data = NULL; gsize i; data = g_string_new (""); for (i = 0; no_auto_default && no_auto_default[i]; i++) { gs_free char *s_to_free = NULL; const char *s = no_auto_default[i]; s = nm_utils_str_utf8safe_escape (s, NM_UTILS_STR_UTF8_SAFE_FLAG_ESCAPE_CTRL | NM_UTILS_STR_UTF8_SAFE_FLAG_ESCAPE_NON_ASCII, &s_to_free); g_string_append (data, s); g_string_append_c (data, '\n'); } return g_file_set_contents (no_auto_default_file, data->str, data->len, error); } gboolean nm_config_get_no_auto_default_for_device (NMConfig *self, NMDevice *device) { NMConfigPrivate *priv; g_return_val_if_fail (NM_IS_CONFIG (self), FALSE); priv = NM_CONFIG_GET_PRIVATE (self); if (priv->configure_and_quit == NM_CONFIG_CONFIGURE_AND_QUIT_INITRD) return TRUE; return nm_config_data_get_no_auto_default_for_device (priv->config_data, device); } void nm_config_set_no_auto_default_for_device (NMConfig *self, NMDevice *device) { NMConfigPrivate *priv; GError *error = NULL; NMConfigData *new_data = NULL; gs_free char *spec_to_free = NULL; const char *ifname; const char *hw_address; const char *spec; const char *const*no_auto_default_current; gs_free const char **no_auto_default_new = NULL; gboolean is_fake; gsize len; gssize idx; g_return_if_fail (NM_IS_CONFIG (self)); g_return_if_fail (NM_IS_DEVICE (device)); priv = NM_CONFIG_GET_PRIVATE (self); hw_address = nm_device_get_permanent_hw_address_full (device, TRUE, &is_fake); if (!hw_address) { /* No MAC address, not even a fake one. We don't do anything for this device. */ return; } if (is_fake) { /* A fake MAC address, no point in storing it to the file. * Also, nm_match_spec_device() would ignore fake MAC addresses. * * Instead, try the interface-name... */ ifname = nm_device_get_ip_iface (device); if (!nm_utils_ifname_valid_kernel (ifname, NULL)) return; spec_to_free = g_strdup_printf (NM_MATCH_SPEC_INTERFACE_NAME_TAG"=%s", ifname); spec = spec_to_free; } else spec = hw_address; no_auto_default_current = nm_config_data_get_no_auto_default (priv->config_data); len = NM_PTRARRAY_LEN (no_auto_default_current); idx = nm_utils_ptrarray_find_binary_search ((gconstpointer *) no_auto_default_current, len, spec, nm_strcmp_with_data, NULL, NULL, NULL); if (idx >= 0) { /* @spec is already blocked. We don't have to update our in-memory representation. * Maybe we should write to no_auto_default_file anew, but let's save that too. */ return; } idx = ~idx; no_auto_default_new = g_new (const char *, len + 2); if (idx > 0) memcpy (no_auto_default_new, no_auto_default_current, sizeof (const char *) * idx); no_auto_default_new[idx] = spec; if (idx < len) memcpy (&no_auto_default_new[idx + 1], &no_auto_default_current[idx], sizeof (const char *) * (len - idx)); no_auto_default_new[len + 1] = NULL; if (!no_auto_default_to_file (priv->no_auto_default_file, no_auto_default_new, &error)) { _LOGW ("Could not update no-auto-default.state file: %s", error->message); g_error_free (error); } new_data = nm_config_data_new_update_no_auto_default (priv->config_data, no_auto_default_new); _set_config_data (self, new_data, NM_CONFIG_CHANGE_CAUSE_NO_AUTO_DEFAULT); } /*****************************************************************************/ static void _nm_config_cmd_line_options_clear (NMConfigCmdLineOptions *cli) { nm_clear_g_free (&cli->config_main_file); nm_clear_g_free (&cli->config_dir); nm_clear_g_free (&cli->system_config_dir); nm_clear_g_free (&cli->no_auto_default_file); nm_clear_g_free (&cli->intern_config_file); nm_clear_g_free (&cli->state_file); nm_clear_g_free (&cli->plugins); cli->configure_and_quit = NM_CONFIG_CONFIGURE_AND_QUIT_DISABLED; cli->is_debug = FALSE; nm_clear_g_free (&cli->connectivity_uri); nm_clear_g_free (&cli->connectivity_response); cli->connectivity_interval = -1; cli->first_start = FALSE; } static void _nm_config_cmd_line_options_copy (const NMConfigCmdLineOptions *cli, NMConfigCmdLineOptions *dst) { g_return_if_fail (cli); g_return_if_fail (dst); g_return_if_fail (cli != dst); _nm_config_cmd_line_options_clear (dst); dst->config_dir = g_strdup (cli->config_dir); dst->system_config_dir = g_strdup (cli->system_config_dir); dst->config_main_file = g_strdup (cli->config_main_file); dst->no_auto_default_file = g_strdup (cli->no_auto_default_file); dst->intern_config_file = g_strdup (cli->intern_config_file); dst->state_file = g_strdup (cli->state_file); dst->plugins = g_strdup (cli->plugins); dst->configure_and_quit = cli->configure_and_quit; dst->is_debug = cli->is_debug; dst->connectivity_uri = g_strdup (cli->connectivity_uri); dst->connectivity_response = g_strdup (cli->connectivity_response); dst->connectivity_interval = cli->connectivity_interval; dst->first_start = cli->first_start; } NMConfigCmdLineOptions * nm_config_cmd_line_options_new (gboolean first_start) { NMConfigCmdLineOptions *cli = g_new0 (NMConfigCmdLineOptions, 1); _nm_config_cmd_line_options_clear (cli); cli->first_start = first_start; return cli; } void nm_config_cmd_line_options_free (NMConfigCmdLineOptions *cli) { g_return_if_fail (cli); _nm_config_cmd_line_options_clear (cli); g_free (cli); } static NMConfigConfigureAndQuitType string_to_configure_and_quit (const char *value, GError **error) { NMConfigConfigureAndQuitType ret; if (value == NULL) return NM_CONFIG_CONFIGURE_AND_QUIT_DISABLED; if (nm_streq (value, "initrd")) return NM_CONFIG_CONFIGURE_AND_QUIT_INITRD; ret = nm_config_parse_boolean (value, NM_CONFIG_CONFIGURE_AND_QUIT_INVALID); if (ret == NM_CONFIG_CONFIGURE_AND_QUIT_INVALID) g_set_error (error, 1, 0, N_("'%s' is not valid"), value); return ret; } static gboolean parse_configure_and_quit (const char *option_name, const char *value, gpointer user_data, GError **error) { NMConfigCmdLineOptions *cli = user_data; if (value == NULL) cli->configure_and_quit = NM_CONFIG_CONFIGURE_AND_QUIT_ENABLED; else cli->configure_and_quit = string_to_configure_and_quit (value, error); if (cli->configure_and_quit == NM_CONFIG_CONFIGURE_AND_QUIT_INVALID) { g_prefix_error (error, N_("Bad '%s' option: "), option_name); return FALSE; } return TRUE; } void nm_config_cmd_line_options_add_to_entries (NMConfigCmdLineOptions *cli, GOptionContext *opt_ctx) { GOptionGroup *group; GOptionEntry config_options[] = { { "config", 0, 0, G_OPTION_ARG_FILENAME, &cli->config_main_file, N_("Config file location"), DEFAULT_CONFIG_MAIN_FILE }, { "config-dir", 0, 0, G_OPTION_ARG_FILENAME, &cli->config_dir, N_("Config directory location"), DEFAULT_CONFIG_DIR }, { "system-config-dir", 0, 0, G_OPTION_ARG_FILENAME, &cli->system_config_dir, N_("System config directory location"), DEFAULT_SYSTEM_CONFIG_DIR }, { "intern-config", 0, 0, G_OPTION_ARG_FILENAME, &cli->intern_config_file, N_("Internal config file location"), DEFAULT_INTERN_CONFIG_FILE }, { "state-file", 0, 0, G_OPTION_ARG_FILENAME, &cli->state_file, N_("State file location"), DEFAULT_STATE_FILE }, { "no-auto-default", 0, G_OPTION_FLAG_HIDDEN, G_OPTION_ARG_FILENAME, &cli->no_auto_default_file, N_("State file for no-auto-default devices"), DEFAULT_NO_AUTO_DEFAULT_FILE }, { "plugins", 0, 0, G_OPTION_ARG_STRING, &cli->plugins, N_("List of plugins separated by ','"), NM_CONFIG_DEFAULT_MAIN_PLUGINS }, { "configure-and-quit", 0, G_OPTION_FLAG_OPTIONAL_ARG, G_OPTION_ARG_CALLBACK, parse_configure_and_quit, N_("Quit after initial configuration"), NULL }, { "debug", 'd', 0, G_OPTION_ARG_NONE, &cli->is_debug, N_("Don't become a daemon, and log to stderr"), NULL }, /* These three are hidden for now, and should eventually just go away. */ { "connectivity-uri", 0, G_OPTION_FLAG_HIDDEN, G_OPTION_ARG_STRING, &cli->connectivity_uri, N_("An http(s) address for checking internet connectivity"), "http://example.com" }, { "connectivity-interval", 0, G_OPTION_FLAG_HIDDEN, G_OPTION_ARG_INT, &cli->connectivity_interval, N_("The interval between connectivity checks (in seconds)"), G_STRINGIFY (NM_CONFIG_DEFAULT_CONNECTIVITY_INTERVAL) }, { "connectivity-response", 0, G_OPTION_FLAG_HIDDEN, G_OPTION_ARG_STRING, &cli->connectivity_response, N_("The expected start of the response"), NM_CONFIG_DEFAULT_CONNECTIVITY_RESPONSE }, { 0 }, }; g_return_if_fail (opt_ctx); g_return_if_fail (cli); group = g_option_group_new ("nm", N_("NetworkManager options" ), N_("Show NetworkManager options"), cli, NULL); g_option_group_add_entries (group, config_options); g_option_context_add_group (opt_ctx, group); } /*****************************************************************************/ GKeyFile * nm_config_create_keyfile () { GKeyFile *keyfile; keyfile = g_key_file_new (); g_key_file_set_list_separator (keyfile, NM_CONFIG_KEYFILE_LIST_SEPARATOR); return keyfile; } /* this is an external variable, to make loading testable. Other then that, * no code is supposed to change this. */ guint _nm_config_match_nm_version = NM_VERSION; char *_nm_config_match_env = NULL; static gboolean ignore_config_snippet (GKeyFile *keyfile, gboolean is_base_config) { GSList *specs; gboolean as_bool; NMMatchSpecMatchType match_type; if (is_base_config) return FALSE; if (!g_key_file_has_key (keyfile, NM_CONFIG_KEYFILE_GROUP_CONFIG, NM_CONFIG_KEYFILE_KEY_CONFIG_ENABLE, NULL)) return FALSE; /* first, let's try to parse the value as plain boolean. If that is possible, we don't treat * the value as match-spec. */ as_bool = nm_config_keyfile_get_boolean (keyfile, NM_CONFIG_KEYFILE_GROUP_CONFIG, NM_CONFIG_KEYFILE_KEY_CONFIG_ENABLE, -1); if (as_bool != -1) return !as_bool; if (G_UNLIKELY (!_nm_config_match_env)) { const char *e; e = g_getenv ("NM_CONFIG_ENABLE_TAG"); _nm_config_match_env = g_strdup (e ?: ""); } /* second, interpret the value as match-spec. */ specs = nm_config_get_match_spec (keyfile, NM_CONFIG_KEYFILE_GROUP_CONFIG, NM_CONFIG_KEYFILE_KEY_CONFIG_ENABLE, NULL); match_type = nm_match_spec_config (specs, _nm_config_match_nm_version, _nm_config_match_env); g_slist_free_full (specs, g_free); return match_type != NM_MATCH_SPEC_MATCH; } static int _sort_groups_cmp (const char **pa, const char **pb, gpointer dummy) { const char *a = *pa; const char *b = *pb; gboolean a_is_connection, b_is_connection; gboolean a_is_device, b_is_device; a_is_connection = NM_STR_HAS_PREFIX (a, NM_CONFIG_KEYFILE_GROUPPREFIX_CONNECTION); b_is_connection = NM_STR_HAS_PREFIX (b, NM_CONFIG_KEYFILE_GROUPPREFIX_CONNECTION); if (a_is_connection != b_is_connection) { /* one is a [connection*] entry, the other not. We sort [connection*] entries * after. */ if (a_is_connection) return 1; return -1; } if (a_is_connection) { /* both are [connection.\+] entries. Reverse their order. * One of the sections might be literally [connection]. That section * is special and its order will be fixed later. It doesn't actually * matter here how it compares with [connection.\+] sections. */ return pa > pb ? -1 : 1; } a_is_device = NM_STR_HAS_PREFIX (a, NM_CONFIG_KEYFILE_GROUPPREFIX_DEVICE); b_is_device = NM_STR_HAS_PREFIX (b, NM_CONFIG_KEYFILE_GROUPPREFIX_DEVICE); if (a_is_device != b_is_device) { /* one is a [device*] entry, the other not. We sort [device*] entries * after. */ if (a_is_device) return 1; return -1; } if (a_is_device) { /* both are [device.\+] entries. Reverse their order. * One of the sections might be literally [device]. That section * is special and its order will be fixed later. It doesn't actually * matter here how it compares with [device.\+] sections. */ return pa > pb ? -1 : 1; } /* don't reorder the rest. */ return 0; } void _nm_config_sort_groups (char **groups, gsize ngroups) { if (ngroups > 1) { g_qsort_with_data (groups, ngroups, sizeof (char *), (GCompareDataFunc) _sort_groups_cmp, NULL); } } static gboolean _setting_is_device_spec (const char *group, const char *key) { #define _IS(group_v, key_v) (nm_streq (group, ""group_v"") && nm_streq (key, ""key_v"")) return _IS (NM_CONFIG_KEYFILE_GROUP_MAIN, NM_CONFIG_KEYFILE_KEY_MAIN_NO_AUTO_DEFAULT) || _IS (NM_CONFIG_KEYFILE_GROUP_MAIN, NM_CONFIG_KEYFILE_KEY_MAIN_IGNORE_CARRIER) || _IS (NM_CONFIG_KEYFILE_GROUP_MAIN, NM_CONFIG_KEYFILE_KEY_MAIN_ASSUME_IPV6LL_ONLY) || _IS (NM_CONFIG_KEYFILE_GROUP_KEYFILE, NM_CONFIG_KEYFILE_KEY_KEYFILE_UNMANAGED_DEVICES) || (NM_STR_HAS_PREFIX (group, NM_CONFIG_KEYFILE_GROUPPREFIX_CONNECTION) && nm_streq (key, NM_CONFIG_KEYFILE_KEY_MATCH_DEVICE)) || (NM_STR_HAS_PREFIX (group, NM_CONFIG_KEYFILE_GROUPPREFIX_DEVICE ) && nm_streq (key, NM_CONFIG_KEYFILE_KEY_MATCH_DEVICE)); } static gboolean _setting_is_string_list (const char *group, const char *key) { return _IS (NM_CONFIG_KEYFILE_GROUP_MAIN, NM_CONFIG_KEYFILE_KEY_MAIN_PLUGINS) || _IS (NM_CONFIG_KEYFILE_GROUP_MAIN, NM_CONFIG_KEYFILE_KEY_MAIN_DEBUG) || _IS (NM_CONFIG_KEYFILE_GROUP_LOGGING, NM_CONFIG_KEYFILE_KEY_LOGGING_DOMAINS) || NM_STR_HAS_PREFIX (group, NM_CONFIG_KEYFILE_GROUPPREFIX_TEST_APPEND_STRINGLIST); #undef _IS } typedef struct { char *group; const char *const *keys; bool is_prefix:1; bool is_connection:1; } ConfigGroup; /* The following comment is used by check-config-options.sh, don't remove it. */ /* START OPTION LIST */ static const ConfigGroup config_groups[] = { { .group = NM_CONFIG_KEYFILE_GROUP_MAIN, .keys = NM_MAKE_STRV ( NM_CONFIG_KEYFILE_KEY_MAIN_ASSUME_IPV6LL_ONLY, NM_CONFIG_KEYFILE_KEY_MAIN_AUTH_POLKIT, NM_CONFIG_KEYFILE_KEY_MAIN_AUTOCONNECT_RETRIES_DEFAULT, NM_CONFIG_KEYFILE_KEY_MAIN_CONFIGURE_AND_QUIT, NM_CONFIG_KEYFILE_KEY_MAIN_DEBUG, NM_CONFIG_KEYFILE_KEY_MAIN_DHCP, NM_CONFIG_KEYFILE_KEY_MAIN_DNS, NM_CONFIG_KEYFILE_KEY_MAIN_HOSTNAME_MODE, NM_CONFIG_KEYFILE_KEY_MAIN_IGNORE_CARRIER, NM_CONFIG_KEYFILE_KEY_MAIN_MONITOR_CONNECTION_FILES, NM_CONFIG_KEYFILE_KEY_MAIN_NO_AUTO_DEFAULT, NM_CONFIG_KEYFILE_KEY_MAIN_PLUGINS, NM_CONFIG_KEYFILE_KEY_MAIN_RC_MANAGER, NM_CONFIG_KEYFILE_KEY_MAIN_SLAVES_ORDER, NM_CONFIG_KEYFILE_KEY_MAIN_SYSTEMD_RESOLVED, ), }, { .group = NM_CONFIG_KEYFILE_GROUP_LOGGING, .keys = NM_MAKE_STRV ( NM_CONFIG_KEYFILE_KEY_LOGGING_AUDIT, NM_CONFIG_KEYFILE_KEY_LOGGING_BACKEND, NM_CONFIG_KEYFILE_KEY_LOGGING_DOMAINS, NM_CONFIG_KEYFILE_KEY_LOGGING_LEVEL, ), }, { .group = NM_CONFIG_KEYFILE_GROUP_CONNECTIVITY, .keys = NM_MAKE_STRV ( NM_CONFIG_KEYFILE_KEY_CONNECTIVITY_ENABLED, NM_CONFIG_KEYFILE_KEY_CONNECTIVITY_INTERVAL, NM_CONFIG_KEYFILE_KEY_CONNECTIVITY_RESPONSE, NM_CONFIG_KEYFILE_KEY_CONNECTIVITY_URI, ), }, { .group = NM_CONFIG_KEYFILE_GROUP_KEYFILE, .keys = NM_MAKE_STRV ( NM_CONFIG_KEYFILE_KEY_KEYFILE_HOSTNAME, NM_CONFIG_KEYFILE_KEY_KEYFILE_PATH, NM_CONFIG_KEYFILE_KEY_KEYFILE_UNMANAGED_DEVICES, ), }, { .group = NM_CONFIG_KEYFILE_GROUP_IFUPDOWN, .keys = NM_MAKE_STRV ( NM_CONFIG_KEYFILE_KEY_IFUPDOWN_MANAGED, ), }, { .group = NM_CONFIG_KEYFILE_GROUPPREFIX_DEVICE, .is_prefix = TRUE, .keys = NM_MAKE_STRV ( NM_CONFIG_KEYFILE_KEY_DEVICE_CARRIER_WAIT_TIMEOUT, NM_CONFIG_KEYFILE_KEY_DEVICE_IGNORE_CARRIER, NM_CONFIG_KEYFILE_KEY_DEVICE_MANAGED, NM_CONFIG_KEYFILE_KEY_DEVICE_SRIOV_NUM_VFS, NM_CONFIG_KEYFILE_KEY_DEVICE_WIFI_BACKEND, NM_CONFIG_KEYFILE_KEY_DEVICE_WIFI_SCAN_RAND_MAC_ADDRESS, NM_CONFIG_KEYFILE_KEY_MATCH_DEVICE, NM_CONFIG_KEYFILE_KEY_STOP_MATCH, ), }, { .group = NM_CONFIG_KEYFILE_GROUP_GLOBAL_DNS, .keys = NM_MAKE_STRV ( NM_CONFIG_KEYFILE_KEY_GLOBAL_DNS_OPTIONS, NM_CONFIG_KEYFILE_KEY_GLOBAL_DNS_SEARCHES, ), }, { .group = NM_CONFIG_KEYFILE_GROUPPREFIX_GLOBAL_DNS_DOMAIN, .is_prefix = TRUE, .keys = NM_MAKE_STRV ( NM_CONFIG_KEYFILE_KEY_GLOBAL_DNS_DOMAIN_SERVERS, NM_CONFIG_KEYFILE_KEY_GLOBAL_DNS_DOMAIN_OPTIONS, ), }, { .group = NM_CONFIG_KEYFILE_GROUPPREFIX_CONNECTION, .is_prefix = TRUE, .is_connection = TRUE, .keys = NM_MAKE_STRV ( NM_CONFIG_KEYFILE_KEY_MATCH_DEVICE, NM_CONFIG_KEYFILE_KEY_STOP_MATCH, ), }, { } /* sentinel */ }; /* The following comment is used by check-config-options.sh, don't remove it. */ /* END OPTION LIST */ static gboolean check_config_key (const char *group, const char *key) { const ConfigGroup *g; const char *const *k; const char **ptr; #if NM_MORE_ASSERTS > 10 { static gboolean checked = FALSE; const char **ptr1, **ptr2; /* check for duplicate elements in the static list */ if (!checked) { for (ptr1 = __start_connection_defaults; ptr1 < __stop_connection_defaults; ptr1++) { for (ptr2 = ptr1 + 1; ptr2 < __stop_connection_defaults; ptr2++) nm_assert (!nm_streq (*ptr1, *ptr2)); } checked = TRUE; } } #endif for (g = config_groups; g->group; g++) { if ( (!g->is_prefix && nm_streq (group, g->group)) || (g->is_prefix && g_str_has_prefix (group, g->group))) break; } if (!g->group) return FALSE; for (k = g->keys; *k; k++) { if (nm_streq (key, *k)) return TRUE; } if (g->is_connection) { for (ptr = __start_connection_defaults; ptr < __stop_connection_defaults; ptr++) { if (nm_streq (key, *ptr)) return TRUE; } return FALSE; } return FALSE; } static gboolean read_config (GKeyFile *keyfile, gboolean is_base_config, const char *dirname, const char *path, GPtrArray *warnings, GError **error) { gs_unref_keyfile GKeyFile *kf = NULL; gs_strfreev char **groups = NULL; gs_free char *path_free = NULL; gsize ngroups; gsize nkeys; int g; int k; g_return_val_if_fail (keyfile, FALSE); g_return_val_if_fail (path, FALSE); g_return_val_if_fail (!error || !*error, FALSE); if (dirname) { path_free = g_build_filename (dirname, path, NULL); path = path_free; } if (g_file_test (path, G_FILE_TEST_EXISTS) == FALSE) { g_set_error (error, G_KEY_FILE_ERROR, G_KEY_FILE_ERROR_NOT_FOUND, "file %s not found", path); return FALSE; } _LOGD ("Reading config file '%s'", path); kf = nm_config_create_keyfile (); if (!g_key_file_load_from_file (kf, path, G_KEY_FILE_NONE, error)) { g_prefix_error (error, "%s: ", path); return FALSE; } if (ignore_config_snippet (kf, is_base_config)) return TRUE; /* the config-group is internal to every configuration snippets. It doesn't make sense * to merge it into the global configuration, and it doesn't make sense to preserve the * group beyond this point. */ g_key_file_remove_group (kf, NM_CONFIG_KEYFILE_GROUP_CONFIG, NULL); /* Override the current settings with the new ones */ groups = g_key_file_get_groups (kf, &ngroups); if (!groups) ngroups = 0; /* Within one file we reverse the order of the '[connection.\+] sections. * Here we merge the current file (@kf) into @keyfile. As we merge multiple * files, earlier sections (with lower priority) will be added first. * But within one file, we want a top-to-bottom order. This means we * must reverse the order within each file. * At the very end, we will revert the order of all sections again and * get thus the right behavior. This final reversing is done in * NMConfigData:_get_connection_infos(). */ _nm_config_sort_groups (groups, ngroups); for (g = 0; groups && groups[g]; g++) { const char *group = groups[g]; gs_strfreev char **keys = NULL; if (NM_STR_HAS_PREFIX (group, NM_CONFIG_KEYFILE_GROUPPREFIX_INTERN)) { /* internal groups cannot be set by user configuration. */ continue; } keys = g_key_file_get_keys (kf, group, &nkeys, NULL); if (!keys) continue; for (k = 0; keys[k]; k++) { gs_free char *new_value = NULL; const char *key; char last_char; gsize key_len; key = keys[k]; nm_assert (key && *key); if ( NM_STR_HAS_PREFIX_WITH_MORE (key, NM_CONFIG_KEYFILE_KEYPREFIX_WAS) || NM_STR_HAS_PREFIX_WITH_MORE (key, NM_CONFIG_KEYFILE_KEYPREFIX_SET)) { /* these keys are protected. We ignore them if the user sets them. */ continue; } if (nm_streq (key, NM_CONFIG_KEYFILE_KEY_ATOMIC_SECTION_WAS)) { /* the "was" key is protected and it cannot be set by user configuration. */ continue; } key_len = strlen (key); last_char = key[key_len - 1]; if ( key_len > 1 && (last_char == '+' || last_char == '-')) { gs_free char *base_key = g_strndup (key, key_len - 1); gboolean is_string_list; gboolean old_val_was_set = FALSE; is_string_list = _setting_is_string_list (group, base_key); if ( is_string_list || _setting_is_device_spec (group, base_key)) { gs_unref_ptrarray GPtrArray *new = g_ptr_array_new_with_free_func (g_free); char **iter_val; gs_strfreev char **old_val = NULL; gs_free char **new_val = NULL; if (is_string_list) { gs_free_error GError *old_error = NULL; old_val = g_key_file_get_string_list (keyfile, group, base_key, NULL, &old_error); new_val = g_key_file_get_string_list (kf, group, key, NULL, NULL); if ( nm_streq (group, NM_CONFIG_KEYFILE_GROUP_MAIN) && nm_streq (base_key, "plugins")) { old_val_was_set = !nm_keyfile_error_is_not_found (old_error); if ( !old_val && !old_val_was_set) { /* we must fill the unspecified value with the compile-time default. */ g_key_file_set_value (keyfile, group, base_key, NM_CONFIG_DEFAULT_MAIN_PLUGINS); old_val = g_key_file_get_string_list (keyfile, group, base_key, NULL, NULL); old_val_was_set = TRUE; } } } else { gs_free char *old_sval = nm_config_keyfile_get_value (keyfile, group, base_key, NM_CONFIG_GET_VALUE_TYPE_SPEC); gs_free char *new_sval = nm_config_keyfile_get_value (kf, group, key, NM_CONFIG_GET_VALUE_TYPE_SPEC); gs_free_slist GSList *old_specs = nm_match_spec_split (old_sval); gs_free_slist GSList *new_specs = nm_match_spec_split (new_sval); /* the key is a device spec. This is a special kind of string-list, that * we must split differently. */ old_val = _nm_utils_slist_to_strv (old_specs, FALSE); new_val = _nm_utils_slist_to_strv (new_specs, FALSE); } /* merge the string lists, by omitting duplicates. */ for (iter_val = old_val; iter_val && *iter_val; iter_val++) { if ( last_char != '-' || nm_utils_strv_find_first (new_val, -1, *iter_val) < 0) g_ptr_array_add (new, g_strdup (*iter_val)); } for (iter_val = new_val; iter_val && *iter_val; iter_val++) { /* don't add duplicates. That means an "option=a,b"; "option+=a,c" results in "option=a,b,c" */ if ( last_char == '+' && nm_utils_strv_find_first (old_val, -1, *iter_val) < 0) g_ptr_array_add (new, *iter_val); else g_free (*iter_val); } if (new->len > 0) { if (is_string_list) nm_config_keyfile_set_string_list (keyfile, group, base_key, (const char *const*) new->pdata, new->len); else { gs_free_slist GSList *specs = NULL; gs_free char *specs_joined = NULL; g_ptr_array_add (new, NULL); specs = _nm_utils_strv_to_slist ((char **) new->pdata, FALSE); specs_joined = nm_match_spec_join (specs); g_key_file_set_value (keyfile, group, base_key, specs_joined); } } else { if (is_string_list && !old_val_was_set) g_key_file_remove_key (keyfile, group, base_key, NULL); else g_key_file_set_value (keyfile, group, base_key, ""); } } else { /* For any other settings we don't support extending the option with +/-. * Just drop the key. */ } continue; } new_value = g_key_file_get_value (kf, group, key, NULL); g_key_file_set_value (keyfile, group, key, new_value); if (!check_config_key (group, key)) { g_ptr_array_add (warnings, g_strdup_printf ("unknown key '%s' in section [%s] of file '%s'", key, group, path)); } } } return TRUE; } static gboolean read_base_config (GKeyFile *keyfile, const char *cli_config_main_file, char **out_config_main_file, GPtrArray *warnings, GError **error) { GError *my_error = NULL; g_return_val_if_fail (keyfile, FALSE); g_return_val_if_fail (out_config_main_file && !*out_config_main_file, FALSE); g_return_val_if_fail (!error || !*error, FALSE); /* Try a user-specified config file first */ if (cli_config_main_file) { /* Bad user-specific config file path is a hard error */ if (read_config (keyfile, TRUE, NULL, cli_config_main_file, warnings, error)) { *out_config_main_file = g_strdup (cli_config_main_file); return TRUE; } else return FALSE; } /* Even though we prefer NetworkManager.conf, we need to check the * old nm-system-settings.conf first to preserve compat with older * setups. In package managed systems dropping a NetworkManager.conf * onto the system would make NM use it instead of nm-system-settings.conf, * changing behavior during an upgrade. We don't want that. */ /* Try deprecated nm-system-settings.conf first */ if (read_config (keyfile, TRUE, NULL, DEFAULT_CONFIG_MAIN_FILE_OLD, warnings, &my_error)) { *out_config_main_file = g_strdup (DEFAULT_CONFIG_MAIN_FILE_OLD); return TRUE; } if (!g_error_matches (my_error, G_KEY_FILE_ERROR, G_KEY_FILE_ERROR_NOT_FOUND)) { _LOGW ("Old default config file invalid: %s", my_error->message); } g_clear_error (&my_error); /* Try the standard config file location next */ if (read_config (keyfile, TRUE, NULL, DEFAULT_CONFIG_MAIN_FILE, warnings, &my_error)) { *out_config_main_file = g_strdup (DEFAULT_CONFIG_MAIN_FILE); return TRUE; } if (!g_error_matches (my_error, G_KEY_FILE_ERROR, G_KEY_FILE_ERROR_NOT_FOUND)) { _LOGW ("Default config file invalid: %s", my_error->message); g_propagate_error (error, my_error); return FALSE; } g_clear_error (&my_error); /* If for some reason no config file exists, use the default * config file path. */ *out_config_main_file = g_strdup (DEFAULT_CONFIG_MAIN_FILE); _LOGI ("No config file found or given; using %s", DEFAULT_CONFIG_MAIN_FILE); return TRUE; } static GPtrArray * _get_config_dir_files (const char *config_dir) { GFile *dir; GFileEnumerator *direnum; GFileInfo *info; GPtrArray *confs; const char *name; g_return_val_if_fail (config_dir, NULL); confs = g_ptr_array_new_with_free_func (g_free); if (!*config_dir) return confs; dir = g_file_new_for_path (config_dir); direnum = g_file_enumerate_children (dir, G_FILE_ATTRIBUTE_STANDARD_NAME, 0, NULL, NULL); if (direnum) { while ((info = g_file_enumerator_next_file (direnum, NULL, NULL))) { name = g_file_info_get_name (info); if (NM_STR_HAS_SUFFIX (name, ".conf")) g_ptr_array_add (confs, g_strdup (name)); g_object_unref (info); } g_object_unref (direnum); } g_object_unref (dir); g_ptr_array_sort (confs, nm_strcmp_p); return confs; } static void _confs_to_description (GString *str, const GPtrArray *confs, const char *name) { guint i; if (!confs->len) return; for (i = 0; i < confs->len; i++) { if (i == 0) g_string_append_printf (str, " (%s: ", name); else g_string_append (str, ", "); g_string_append (str, confs->pdata[i]); } g_string_append (str, ")"); } static GKeyFile * read_entire_config (const NMConfigCmdLineOptions *cli, const char *config_dir, const char *system_config_dir, char **out_config_main_file, char **out_config_description, GPtrArray *warnings, GError **error) { gs_unref_keyfile GKeyFile *keyfile = NULL; gs_unref_ptrarray GPtrArray *system_confs = NULL; gs_unref_ptrarray GPtrArray *confs = NULL; gs_unref_ptrarray GPtrArray *run_confs = NULL; guint i; gs_free char *o_config_main_file = NULL; const char *run_config_dir = ""; nm_assert (config_dir); nm_assert (system_config_dir); nm_assert (!out_config_main_file || !*out_config_main_file); nm_assert (!out_config_description || !*out_config_description); nm_assert (!error || !*error); nm_assert (warnings); if ( (""RUN_CONFIG_DIR)[0] == '/' && !nm_streq (RUN_CONFIG_DIR, system_config_dir) && !nm_streq (RUN_CONFIG_DIR, config_dir)) run_config_dir = RUN_CONFIG_DIR; /* create a default configuration file. */ keyfile = nm_config_create_keyfile (); system_confs = _get_config_dir_files (system_config_dir); confs = _get_config_dir_files (config_dir); run_confs = _get_config_dir_files (run_config_dir); for (i = 0; i < system_confs->len; ) { const char *filename = system_confs->pdata[i]; /* if a same named file exists in config_dir or run_config_dir, skip it. */ if (nm_utils_strv_find_first ((char **) confs->pdata, confs->len, filename) >= 0 || nm_utils_strv_find_first ((char **) run_confs->pdata, run_confs->len, filename) >= 0) { g_ptr_array_remove_index (system_confs, i); continue; } if (!read_config (keyfile, FALSE, system_config_dir, filename, warnings, error)) return NULL; i++; } for (i = 0; i < run_confs->len; ) { const char *filename = run_confs->pdata[i]; /* if a same named file exists in config_dir, skip it. */ if (nm_utils_strv_find_first ((char **) confs->pdata, confs->len, filename) >= 0) { g_ptr_array_remove_index (run_confs, i); continue; } if (!read_config (keyfile, FALSE, run_config_dir, filename, warnings, error)) return NULL; i++; } /* First read the base config file */ if (!read_base_config (keyfile, cli ? cli->config_main_file : NULL, &o_config_main_file, warnings, error)) return NULL; g_assert (o_config_main_file); for (i = 0; i < confs->len; i++) { if (!read_config (keyfile, FALSE, config_dir, confs->pdata[i], warnings, error)) return NULL; } /* Merge settings from command line. They overwrite everything read from * config files. */ if (cli) { if (cli->plugins) { /* plugins is a string list. Set the value directly, so the user has to do proper escaping * on the command line. */ g_key_file_set_value (keyfile, NM_CONFIG_KEYFILE_GROUP_MAIN, "plugins", cli->plugins); } switch (cli->configure_and_quit) { case NM_CONFIG_CONFIGURE_AND_QUIT_INVALID: g_assert_not_reached (); break; case NM_CONFIG_CONFIGURE_AND_QUIT_DISABLED: /* do nothing */ break; case NM_CONFIG_CONFIGURE_AND_QUIT_ENABLED: g_key_file_set_boolean (keyfile, NM_CONFIG_KEYFILE_GROUP_MAIN, "configure-and-quit", TRUE); break; case NM_CONFIG_CONFIGURE_AND_QUIT_INITRD: g_key_file_set_string (keyfile, NM_CONFIG_KEYFILE_GROUP_MAIN, "configure-and-quit", "initrd"); break; } if (cli->connectivity_uri && cli->connectivity_uri[0]) g_key_file_set_string (keyfile, NM_CONFIG_KEYFILE_GROUP_CONNECTIVITY, "uri", cli->connectivity_uri); if (cli->connectivity_interval >= 0) g_key_file_set_integer (keyfile, NM_CONFIG_KEYFILE_GROUP_CONNECTIVITY, "interval", cli->connectivity_interval); if (cli->connectivity_response && cli->connectivity_response[0]) g_key_file_set_string (keyfile, NM_CONFIG_KEYFILE_GROUP_CONNECTIVITY, "response", cli->connectivity_response); } if (out_config_description) { GString *str; str = g_string_new (o_config_main_file); _confs_to_description (str, system_confs, "lib"); _confs_to_description (str, run_confs, "run"); _confs_to_description (str, confs, "etc"); *out_config_description = g_string_free (str, FALSE); } NM_SET_OUT (out_config_main_file, g_steal_pointer (&o_config_main_file)); return g_steal_pointer (&keyfile); } static gboolean _is_atomic_section (const char *const*atomic_section_prefixes, const char *group) { if (atomic_section_prefixes) { for (; *atomic_section_prefixes; atomic_section_prefixes++) { if ( **atomic_section_prefixes && g_str_has_prefix (group, *atomic_section_prefixes)) return TRUE; } } return FALSE; } static void _string_append_val (GString *str, const char *value) { if (!value) return; g_string_append_c (str, '+'); while (TRUE) { switch (*value) { case '\0': return; case '\\': case '+': case '#': case ':': g_string_append_c (str, '+'); /* fall-through */ default: g_string_append_c (str, *value); } value++; } } static char * _keyfile_serialize_section (GKeyFile *keyfile, const char *group) { gs_strfreev char **keys = NULL; GString *str; guint k; if (keyfile) keys = g_key_file_get_keys (keyfile, group, NULL, NULL); if (!keys) return g_strdup ("0#"); /* prepend a version. */ str = g_string_new ("1#"); for (k = 0; keys[k]; k++) { const char *key = keys[k]; gs_free char *value = NULL; _string_append_val (str, key); g_string_append_c (str, ':'); value = g_key_file_get_value (keyfile, group, key, NULL); _string_append_val (str, value); g_string_append_c (str, '#'); } return g_string_free (str, FALSE); } gboolean nm_config_keyfile_has_global_dns_config (GKeyFile *keyfile, gboolean internal) { gs_strfreev char **groups = NULL; guint g; const char *prefix; if (!keyfile) return FALSE; if (g_key_file_has_group (keyfile, internal ? NM_CONFIG_KEYFILE_GROUP_GLOBAL_DNS : NM_CONFIG_KEYFILE_GROUP_INTERN_GLOBAL_DNS)) return TRUE; groups = g_key_file_get_groups (keyfile, NULL); if (!groups) return FALSE; prefix = internal ? NM_CONFIG_KEYFILE_GROUPPREFIX_INTERN_GLOBAL_DNS_DOMAIN : NM_CONFIG_KEYFILE_GROUPPREFIX_GLOBAL_DNS_DOMAIN; for (g = 0; groups[g]; g++) { if (g_str_has_prefix (groups[g], prefix)) return TRUE; } return FALSE; } /** * intern_config_read: * @filename: the filename where to store the internal config * @keyfile_conf: the merged configuration from user (/etc/NM/NetworkManager.conf). * @out_needs_rewrite: (allow-none): whether the read keyfile contains inconsistent * data (compared to @keyfile_conf). If %TRUE, you might want to rewrite * the file. * * Does the opposite of intern_config_write(). It reads the internal configuration. * Note that the actual format of how the configuration is saved in @filename * is different then what we return here. NMConfig manages what is written internally * by having it inside a keyfile_intern. But we don't write that to disk as is. * Especially, we also store parts of @keyfile_conf as ".was" and on read we compare * what we have, with what ".was". * * Returns: a #GKeyFile instance with the internal configuration. */ static GKeyFile * intern_config_read (const char *filename, GKeyFile *keyfile_conf, const char *const*atomic_section_prefixes, gboolean *out_needs_rewrite) { GKeyFile *keyfile_intern; GKeyFile *keyfile; gboolean needs_rewrite = FALSE; gs_strfreev char **groups = NULL; guint g, k; gboolean has_intern = FALSE; g_return_val_if_fail (filename, NULL); if (!*filename) { if (out_needs_rewrite) *out_needs_rewrite = FALSE; return NULL; } keyfile_intern = nm_config_create_keyfile (); keyfile = nm_config_create_keyfile (); if (!g_key_file_load_from_file (keyfile, filename, G_KEY_FILE_NONE, NULL)) { needs_rewrite = TRUE; goto out; } groups = g_key_file_get_groups (keyfile, NULL); for (g = 0; groups && groups[g]; g++) { gs_strfreev char **keys = NULL; const char *group = groups[g]; gboolean is_intern, is_atomic; if (nm_streq (group, NM_CONFIG_KEYFILE_GROUP_CONFIG)) continue; keys = g_key_file_get_keys (keyfile, group, NULL, NULL); if (!keys) continue; is_intern = NM_STR_HAS_PREFIX (group, NM_CONFIG_KEYFILE_GROUPPREFIX_INTERN); is_atomic = !is_intern && _is_atomic_section (atomic_section_prefixes, group); if (is_atomic) { gs_free char *conf_section_was = NULL; gs_free char *conf_section_is = NULL; conf_section_is = _keyfile_serialize_section (keyfile_conf, group); conf_section_was = g_key_file_get_string (keyfile, group, NM_CONFIG_KEYFILE_KEY_ATOMIC_SECTION_WAS, NULL); if (!nm_streq0 (conf_section_was, conf_section_is)) { /* the section no longer matches. Skip it entirely. */ needs_rewrite = TRUE; continue; } /* we must set the "was" marker in our keyfile, so that we know that the section * from user config is overwritten. The value doesn't matter, it's just a marker * that this section is present. */ g_key_file_set_value (keyfile_intern, group, NM_CONFIG_KEYFILE_KEY_ATOMIC_SECTION_WAS, ""); } for (k = 0; keys[k]; k++) { gs_free char *value_set = NULL; const char *key = keys[k]; value_set = g_key_file_get_value (keyfile, group, key, NULL); if (is_intern) { has_intern = TRUE; g_key_file_set_value (keyfile_intern, group, key, value_set); } else if (is_atomic) { if (nm_streq (key, NM_CONFIG_KEYFILE_KEY_ATOMIC_SECTION_WAS)) continue; g_key_file_set_value (keyfile_intern, group, key, value_set); } else if (NM_STR_HAS_PREFIX_WITH_MORE (key, NM_CONFIG_KEYFILE_KEYPREFIX_SET)) { const char *key_base = &key[NM_STRLEN (NM_CONFIG_KEYFILE_KEYPREFIX_SET)]; gs_free char *value_was = NULL; gs_free char *value_conf = NULL; gs_free char *key_was = g_strdup_printf (NM_CONFIG_KEYFILE_KEYPREFIX_WAS"%s", key_base); if (keyfile_conf) value_conf = g_key_file_get_value (keyfile_conf, group, key_base, NULL); value_was = g_key_file_get_value (keyfile, group, key_was, NULL); if (!nm_streq0 (value_conf, value_was)) { /* if value_was is no longer the same as @value_conf, it means the user * changed the configuration since the last write. In this case, we * drop the value. It also means our file is out-of-date, and we should * rewrite it. */ needs_rewrite = TRUE; continue; } has_intern = TRUE; g_key_file_set_value (keyfile_intern, group, key_base, value_set); } else if (NM_STR_HAS_PREFIX_WITH_MORE (key, NM_CONFIG_KEYFILE_KEYPREFIX_WAS)) { const char *key_base = &key[NM_STRLEN (NM_CONFIG_KEYFILE_KEYPREFIX_WAS)]; gs_free char *key_set = g_strdup_printf (NM_CONFIG_KEYFILE_KEYPREFIX_SET"%s", key_base); gs_free char *value_was = NULL; gs_free char *value_conf = NULL; if (g_key_file_has_key (keyfile, group, key_set, NULL)) { /* we have a matching "set" key too. Handle the "was" key there. */ continue; } if (keyfile_conf) value_conf = g_key_file_get_value (keyfile_conf, group, key_base, NULL); value_was = g_key_file_get_value (keyfile, group, key, NULL); if (!nm_streq0 (value_conf, value_was)) { /* if value_was is no longer the same as @value_conf, it means the user * changed the configuration since the last write. In this case, we * don't overwrite the user-provided value. It also means our file is * out-of-date, and we should rewrite it. */ needs_rewrite = TRUE; continue; } has_intern = TRUE; /* signal the absence of the value. That means, we must propagate the * "was" key to NMConfigData, so that it knows to hide the corresponding * user key. */ g_key_file_set_value (keyfile_intern, group, key, ""); } else needs_rewrite = TRUE; } } out: /* * If user configuration specifies global DNS options, the DNS * options in internal configuration must be deleted. Otherwise a * deletion of options from user configuration may cause the * internal options to appear again. */ if (nm_config_keyfile_has_global_dns_config (keyfile_conf, FALSE)) { if (g_key_file_remove_group (keyfile_intern, NM_CONFIG_KEYFILE_GROUP_INTERN_GLOBAL_DNS, NULL)) needs_rewrite = TRUE; for (g = 0; groups && groups[g]; g++) { if ( NM_STR_HAS_PREFIX (groups[g], NM_CONFIG_KEYFILE_GROUPPREFIX_INTERN_GLOBAL_DNS_DOMAIN) && groups[g][NM_STRLEN (NM_CONFIG_KEYFILE_GROUPPREFIX_INTERN_GLOBAL_DNS_DOMAIN)]) { g_key_file_remove_group (keyfile_intern, groups[g], NULL); needs_rewrite = TRUE; } } } g_key_file_unref (keyfile); if (out_needs_rewrite) *out_needs_rewrite = needs_rewrite; _LOGD ("intern config file \"%s\"", filename); if (!has_intern) { g_key_file_unref (keyfile_intern); return NULL; } return keyfile_intern; } static int _intern_config_write_sort_fcn (const char **a, const char **b, const char *const*atomic_section_prefixes) { const char *g_a = *a; const char *g_b = *b; gboolean a_is, b_is; a_is = NM_STR_HAS_PREFIX (g_a, NM_CONFIG_KEYFILE_GROUPPREFIX_INTERN); b_is = NM_STR_HAS_PREFIX (g_b, NM_CONFIG_KEYFILE_GROUPPREFIX_INTERN); if (a_is != b_is) { if (a_is) return 1; return -1; } if (!a_is) { a_is = _is_atomic_section (atomic_section_prefixes, g_a); b_is = _is_atomic_section (atomic_section_prefixes, g_b); if (a_is != b_is) { if (a_is) return 1; return -1; } } return g_strcmp0 (g_a, g_b); } static gboolean intern_config_write (const char *filename, GKeyFile *keyfile_intern, GKeyFile *keyfile_conf, const char *const*atomic_section_prefixes, GError **error) { GKeyFile *keyfile; gs_strfreev char **groups = NULL; guint g, k; gboolean success = FALSE; GError *local = NULL; g_return_val_if_fail (filename, FALSE); if (!*filename) { g_set_error (error, G_KEY_FILE_ERROR, G_KEY_FILE_ERROR_NOT_FOUND, "no filename to write (use --intern-config?)"); return FALSE; } keyfile = nm_config_create_keyfile (); if (keyfile_intern) { groups = g_key_file_get_groups (keyfile_intern, NULL); if (groups && groups[0]) { g_qsort_with_data (groups, g_strv_length (groups), sizeof (char *), (GCompareDataFunc) _intern_config_write_sort_fcn, (gpointer) atomic_section_prefixes); } } for (g = 0; groups && groups[g]; g++) { gs_strfreev char **keys = NULL; const char *group = groups[g]; gboolean is_intern, is_atomic; keys = g_key_file_get_keys (keyfile_intern, group, NULL, NULL); if (!keys) continue; is_intern = NM_STR_HAS_PREFIX (group, NM_CONFIG_KEYFILE_GROUPPREFIX_INTERN); is_atomic = !is_intern && _is_atomic_section (atomic_section_prefixes, group); if (is_atomic) { if ( (!keys[0] || (!keys[1] && strcmp (keys[0], NM_CONFIG_KEYFILE_KEY_ATOMIC_SECTION_WAS) == 0)) && !g_key_file_has_group (keyfile_conf, group)) { /* we are about to save an atomic section. However, we don't have any additional * keys on our own and there is no user-provided (overlapping) section either. * We don't have to write an empty section (i.e. skip the useless ".was=0#"). */ continue; } else { gs_free char *conf_section_is = NULL; conf_section_is = _keyfile_serialize_section (keyfile_conf, group); g_key_file_set_string (keyfile, group, NM_CONFIG_KEYFILE_KEY_ATOMIC_SECTION_WAS, conf_section_is); g_key_file_set_comment (keyfile, group, NULL, " Overwrites entire section from 'NetworkManager.conf'", NULL); } } for (k = 0; keys[k]; k++) { const char *key = keys[k]; gs_free char *value_set = NULL; gs_free char *key_set = NULL; if ( !is_intern && strcmp (key, NM_CONFIG_KEYFILE_KEY_ATOMIC_SECTION_WAS) == 0) { g_warn_if_fail (is_atomic); continue; } value_set = g_key_file_get_value (keyfile_intern, group, key, NULL); if (is_intern || is_atomic) g_key_file_set_value (keyfile, group, key, value_set); else { gs_free char *value_was = NULL; if (NM_STR_HAS_PREFIX_WITH_MORE (key, NM_CONFIG_KEYFILE_KEYPREFIX_SET)) { /* Setting a key with .set prefix has no meaning, as these keys * are protected. Just set the value you want to set instead. * Why did this happen?? */ g_warn_if_reached (); } else if (NM_STR_HAS_PREFIX_WITH_MORE (key, NM_CONFIG_KEYFILE_KEYPREFIX_WAS)) { const char *key_base = &key[NM_STRLEN (NM_CONFIG_KEYFILE_KEYPREFIX_WAS)]; if ( NM_STR_HAS_PREFIX_WITH_MORE (key_base, NM_CONFIG_KEYFILE_KEYPREFIX_SET) || NM_STR_HAS_PREFIX_WITH_MORE (key_base, NM_CONFIG_KEYFILE_KEYPREFIX_WAS)) { g_warn_if_reached (); continue; } if (g_key_file_has_key (keyfile_intern, group, key_base, NULL)) { /* There is also a matching key_base entry. Skip processing * the .was. key ad handle the key_base in the other else branch. */ continue; } if (keyfile_conf) { value_was = g_key_file_get_value (keyfile_conf, group, key_base, NULL); if (value_was) g_key_file_set_value (keyfile, group, key, value_was); } } else { if (keyfile_conf) { value_was = g_key_file_get_value (keyfile_conf, group, key, NULL); if (nm_streq0 (value_set, value_was)) { /* there is no point in storing the identical value as we have via * user configuration. Skip it. */ continue; } if (value_was) { gs_free char *key_was = NULL; key_was = g_strdup_printf (NM_CONFIG_KEYFILE_KEYPREFIX_WAS"%s", key); g_key_file_set_value (keyfile, group, key_was, value_was); } } key = key_set = g_strdup_printf (NM_CONFIG_KEYFILE_KEYPREFIX_SET"%s", key); g_key_file_set_value (keyfile, group, key, value_set); } } } if ( is_intern && g_key_file_has_group (keyfile, group)) { g_key_file_set_comment (keyfile, group, NULL, " Internal section. Not overwritable via user configuration in 'NetworkManager.conf'", NULL); } } g_key_file_set_comment (keyfile, NULL, NULL, " Internal configuration file. This file is written and read\n" " by NetworkManager and its configuration values are merged\n" " with the configuration from 'NetworkManager.conf'.\n" "\n" " Keys with a \""NM_CONFIG_KEYFILE_KEYPREFIX_SET"\" prefix specify the value to set.\n" " A corresponding key with a \""NM_CONFIG_KEYFILE_KEYPREFIX_WAS"\" prefix records the value\n" " of the user configuration at the time of storing the file.\n" " The value from internal configuration is rejected if the corresponding\n" " \""NM_CONFIG_KEYFILE_KEYPREFIX_WAS"\" key no longer matches the configuration from 'NetworkManager.conf'.\n" " That means, if you modify a value in 'NetworkManager.conf', the internal\n" " overwrite no longer matches and is ignored.\n" "\n" " Certain sections can only be overwritten whole, not on a per key basis.\n" " Such sections are marked with a \""NM_CONFIG_KEYFILE_KEY_ATOMIC_SECTION_WAS"\" key that records the user configuration\n" " at the time of writing.\n" "\n" " Internal sections of the form [" NM_CONFIG_KEYFILE_GROUPPREFIX_INTERN "*] cannot\n" " be set by user configuration.\n" "\n" " CHANGES TO THIS FILE WILL BE OVERWRITTEN", NULL); success = g_key_file_save_to_file (keyfile, filename, &local); _LOGD ("write intern config file \"%s\"%s%s", filename, success ? "" : ": ", success ? "" : local->message); g_key_file_unref (keyfile); if (!success) g_propagate_error (error, local); return success; } /*****************************************************************************/ GSList * nm_config_get_match_spec (const GKeyFile *keyfile, const char *group, const char *key, gboolean *out_has_key) { gs_free char *value = NULL; /* nm_match_spec_split() already supports full escaping and is basically * a modified version of g_key_file_parse_value_as_string(). So we first read * the raw value (g_key_file_get_value()), and do the parsing ourselves. */ value = g_key_file_get_value ((GKeyFile *) keyfile, group, key, NULL); if (out_has_key) *out_has_key = !!value; return nm_match_spec_split (value); } /*****************************************************************************/ gboolean nm_config_set_global_dns (NMConfig *self, NMGlobalDnsConfig *global_dns, GError **error) { NMConfigPrivate *priv; GKeyFile *keyfile; char **groups; const NMGlobalDnsConfig *old_global_dns; guint i; g_return_val_if_fail (NM_IS_CONFIG (self), FALSE); priv = NM_CONFIG_GET_PRIVATE (self); g_return_val_if_fail (priv->config_data, FALSE); old_global_dns = nm_config_data_get_global_dns_config (priv->config_data); if (old_global_dns && !nm_global_dns_config_is_internal (old_global_dns)) { g_set_error_literal (error, 1, 0, "Global DNS configuration already set via configuration file"); return FALSE; } keyfile = nm_config_data_clone_keyfile_intern (priv->config_data); /* Remove existing groups */ g_key_file_remove_group (keyfile, NM_CONFIG_KEYFILE_GROUP_INTERN_GLOBAL_DNS, NULL); groups = g_key_file_get_groups (keyfile, NULL); for (i = 0; groups[i]; i++) { if (NM_STR_HAS_PREFIX (groups[i], NM_CONFIG_KEYFILE_GROUPPREFIX_INTERN_GLOBAL_DNS_DOMAIN)) g_key_file_remove_group (keyfile, groups[i], NULL); } g_strfreev (groups); /* An empty configuration removes everything from internal configuration file */ if (nm_global_dns_config_is_empty (global_dns)) goto done; /* Set new values */ nm_config_keyfile_set_string_list (keyfile, NM_CONFIG_KEYFILE_GROUP_INTERN_GLOBAL_DNS, NM_CONFIG_KEYFILE_KEY_GLOBAL_DNS_SEARCHES, nm_global_dns_config_get_searches (global_dns), -1); nm_config_keyfile_set_string_list (keyfile, NM_CONFIG_KEYFILE_GROUP_INTERN_GLOBAL_DNS, NM_CONFIG_KEYFILE_KEY_GLOBAL_DNS_OPTIONS, nm_global_dns_config_get_options (global_dns), -1); for (i = 0; i < nm_global_dns_config_get_num_domains (global_dns); i++) { NMGlobalDnsDomain *domain = nm_global_dns_config_get_domain (global_dns, i); gs_free char *group_name = NULL; group_name = g_strdup_printf (NM_CONFIG_KEYFILE_GROUPPREFIX_INTERN_GLOBAL_DNS_DOMAIN "%s", nm_global_dns_domain_get_name (domain)); nm_config_keyfile_set_string_list (keyfile, group_name, NM_CONFIG_KEYFILE_KEY_GLOBAL_DNS_DOMAIN_SERVERS, nm_global_dns_domain_get_servers (domain), -1); nm_config_keyfile_set_string_list (keyfile, group_name, NM_CONFIG_KEYFILE_KEY_GLOBAL_DNS_DOMAIN_OPTIONS, nm_global_dns_domain_get_options (domain), -1); } done: nm_config_set_values (self, keyfile, TRUE, FALSE); g_key_file_unref (keyfile); return TRUE; } /*****************************************************************************/ void nm_config_set_connectivity_check_enabled (NMConfig *self, gboolean enabled) { NMConfigPrivate *priv; GKeyFile *keyfile; g_return_if_fail (NM_IS_CONFIG (self)); priv = NM_CONFIG_GET_PRIVATE (self); g_return_if_fail (priv->config_data); keyfile = nm_config_data_clone_keyfile_intern (priv->config_data); /* Remove existing groups */ g_key_file_remove_group (keyfile, NM_CONFIG_KEYFILE_GROUP_CONNECTIVITY, NULL); g_key_file_set_value (keyfile, NM_CONFIG_KEYFILE_GROUP_CONNECTIVITY, "enabled", enabled ? "true" : "false"); nm_config_set_values (self, keyfile, TRUE, FALSE); g_key_file_unref (keyfile); } /** * nm_config_set_values: * @self: the NMConfig instance * @keyfile_intern_new: (allow-none): the new internal settings to set. * If %NULL, it is equal to an empty keyfile. * @allow_write: only if %TRUE, allow writing the changes to file. Otherwise, * do the changes in-memory only. * @force_rewrite: if @allow_write is %FALSE, this has no effect. If %FALSE, * only write the configuration to file, if there are any actual changes. * If %TRUE, always write the configuration to file, even if tere are seemingly * no changes. * * This is the most flexible function to set values. It all depends on the * keys and values you set in @keyfile_intern_new. You basically reset all * internal configuration values to what is in @keyfile_intern_new. * * There are 3 types of settings: * - all groups/sections with a prefix [.intern.*] are taken as is. As these * groups are separate from user configuration, there is no conflict. You set * them, that's it. * - there are atomic sections, i.e. sections whose name start with one of * NM_CONFIG_ATOMIC_SECTION_PREFIXES. If you put values in these sections, * it means you completely replace the section from user configuration. * You can also hide a user provided section by only putting the special * key NM_CONFIG_KEYFILE_KEY_ATOMIC_SECTION_WAS into that section. * - otherwise you can overwrite individual values from user-configuration. * Just set the value. Keys with a prefix NM_CONFIG_KEYFILE_KEYPREFIX_* * are protected -- as they are not value user keys. * You can also hide a certain user setting by putting only a key * NM_CONFIG_KEYFILE_KEYPREFIX_WAS"keyname" into the keyfile. */ void nm_config_set_values (NMConfig *self, GKeyFile *keyfile_intern_new, gboolean allow_write, gboolean force_rewrite) { NMConfigPrivate *priv; GKeyFile *keyfile_intern_current; GKeyFile *keyfile_user; GKeyFile *keyfile_new; GError *local = NULL; NMConfigData *new_data = NULL; gs_strfreev char **groups = NULL; int g; g_return_if_fail (NM_IS_CONFIG (self)); priv = NM_CONFIG_GET_PRIVATE (self); keyfile_intern_current = _nm_config_data_get_keyfile_intern (priv->config_data); keyfile_new = nm_config_create_keyfile (); if (keyfile_intern_new) _nm_keyfile_copy (keyfile_new, keyfile_intern_new); /* ensure that every atomic section has a .was entry. */ groups = g_key_file_get_groups (keyfile_new, NULL); for (g = 0; groups && groups[g]; g++) { if (_is_atomic_section ((const char *const*) priv->atomic_section_prefixes, groups[g])) g_key_file_set_value (keyfile_new, groups[g], NM_CONFIG_KEYFILE_KEY_ATOMIC_SECTION_WAS, ""); } if (!_nm_keyfile_equals (keyfile_intern_current, keyfile_new, TRUE)) new_data = nm_config_data_new_update_keyfile_intern (priv->config_data, keyfile_new); _LOGD ("set values(): %s", new_data ? "has changes" : "no changes"); if (allow_write && (new_data || force_rewrite)) { /* We write the internal config file based on the user configuration from * the last load/reload. That is correct, because the intern properties might * be in accordance to what NM thinks is currently configured. Even if the files * on disk changed in the meantime. * But if they changed, on the next reload with might throw away our just * written data. That is correct, because from NM's point of view, those * changes on disk happened in any case *after* now. */ if (*priv->intern_config_file) { keyfile_user = _nm_config_data_get_keyfile_user (priv->config_data); if (!intern_config_write (priv->intern_config_file, keyfile_new, keyfile_user, (const char *const*) priv->atomic_section_prefixes, &local)) { _LOGW ("error saving internal configuration \"%s\": %s", priv->intern_config_file, local->message); g_clear_error (&local); } } else _LOGD ("don't persist internal configuration (no file set, use --intern-config?)"); } if (new_data) _set_config_data (self, new_data, NM_CONFIG_CHANGE_CAUSE_SET_VALUES); g_key_file_unref (keyfile_new); } /****************************************************************************** * State ******************************************************************************/ static const char * state_get_filename (const NMConfigCmdLineOptions *cli) { /* For an empty filename, we assume the user wants to disable * state. NMConfig will not try to read it nor write it out. */ if (!cli->state_file) return DEFAULT_STATE_FILE; return cli->state_file[0] ? cli->state_file : NULL; } static State * state_new (void) { State *state; state = g_slice_new0 (State); state->p.net_enabled = TRUE; state->p.wifi_enabled = TRUE; state->p.wwan_enabled = TRUE; return state; } static void state_free (State *state) { if (!state) return; g_slice_free (State, state); } static State * state_new_from_file (const char *filename) { GKeyFile *keyfile; gs_free_error GError *error = NULL; State *state; state = state_new (); if (!filename) return state; keyfile = g_key_file_new (); g_key_file_set_list_separator (keyfile, ','); if (!g_key_file_load_from_file (keyfile, filename, G_KEY_FILE_NONE, &error)) { if (g_error_matches (error, G_FILE_ERROR, G_FILE_ERROR_NOENT)) _LOGD ("state: missing state file \"%s\": %s", filename, error->message); else _LOGW ("state: error reading state file \"%s\": %s", filename, error->message); goto out; } _LOGD ("state: successfully read state file \"%s\"", filename); state->p.net_enabled = nm_config_keyfile_get_boolean (keyfile, "main", "NetworkingEnabled", state->p.net_enabled); state->p.wifi_enabled = nm_config_keyfile_get_boolean (keyfile, "main", "WirelessEnabled", state->p.wifi_enabled); state->p.wwan_enabled = nm_config_keyfile_get_boolean (keyfile, "main", "WWANEnabled", state->p.wwan_enabled); out: g_key_file_unref (keyfile); return state; } const NMConfigState * nm_config_state_get (NMConfig *self) { NMConfigPrivate *priv; g_return_val_if_fail (NM_IS_CONFIG (self), NULL); priv = NM_CONFIG_GET_PRIVATE (self); if (G_UNLIKELY (!priv->state)) { /* read the state from file lazy on first access. The reason is that * we want to log a failure to read the file via nm-logging. * * So we cannot read the state during construction of NMConfig, * because at that time nm-logging is not yet configured. */ priv->state = state_new_from_file (state_get_filename (&priv->cli)); } return &priv->state->p; } static void state_write (NMConfig *self) { NMConfigPrivate *priv = NM_CONFIG_GET_PRIVATE (self); const char *filename; GString *str; GError *error = NULL; if (priv->configure_and_quit != NM_CONFIG_CONFIGURE_AND_QUIT_DISABLED) return; filename = state_get_filename (&priv->cli); if (!filename) { priv->state->p.dirty = FALSE; return; } str = g_string_sized_new (256); /* Let's construct the keyfile data by hand. */ g_string_append (str, "[main]\n"); g_string_append_printf (str, "NetworkingEnabled=%s\n", priv->state->p.net_enabled ? "true" : "false"); g_string_append_printf (str, "WirelessEnabled=%s\n", priv->state->p.wifi_enabled ? "true" : "false"); g_string_append_printf (str, "WWANEnabled=%s\n", priv->state->p.wwan_enabled ? "true" : "false"); if (!g_file_set_contents (filename, str->str, str->len, &error)) { _LOGD ("state: error writing state file \"%s\": %s", filename, error->message); g_clear_error (&error); /* we leave the state dirty. That potentially means, that we try to * write the file over and over again, although it isn't possible. */ priv->state->p.dirty = TRUE; } else priv->state->p.dirty = FALSE; _LOGT ("state: success writing state file \"%s\"", filename); g_string_free (str, TRUE); } void _nm_config_state_set (NMConfig *self, gboolean allow_persist, gboolean force_persist, ...) { NMConfigPrivate *priv; va_list ap; NMConfigRunStatePropertyType property_type; g_return_if_fail (NM_IS_CONFIG (self)); priv = NM_CONFIG_GET_PRIVATE (self); va_start (ap, force_persist); /* We expect that the NMConfigRunStatePropertyType is an integer type <= sizeof (int). * Smaller would be fine, since the variadic arguments get promoted to int. * Larger would be a problem, also, because we want that "0" is a valid sentinel. */ G_STATIC_ASSERT_EXPR (sizeof (NMConfigRunStatePropertyType) <= sizeof (int)); while ((property_type = va_arg (ap, int)) != NM_CONFIG_STATE_PROPERTY_NONE) { bool *p_bool, v_bool; switch (property_type) { case NM_CONFIG_STATE_PROPERTY_NETWORKING_ENABLED: p_bool = &priv->state->p.net_enabled; break; case NM_CONFIG_STATE_PROPERTY_WIFI_ENABLED: p_bool = &priv->state->p.wifi_enabled; break; case NM_CONFIG_STATE_PROPERTY_WWAN_ENABLED: p_bool = &priv->state->p.wwan_enabled; break; default: va_end (ap); g_return_if_reached (); } v_bool = va_arg (ap, gboolean); if (*p_bool == v_bool) continue; *p_bool = v_bool; priv->state->p.dirty = TRUE; } va_end (ap); if ( allow_persist && (force_persist || priv->state->p.dirty)) state_write (self); } /*****************************************************************************/ #define DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE "device" #define DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_MANAGED "managed" #define DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_PERM_HW_ADDR_FAKE "perm-hw-addr-fake" #define DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_CONNECTION_UUID "connection-uuid" #define DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_NM_OWNED "nm-owned" #define DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_ROUTE_METRIC_DEFAULT_ASPIRED "route-metric-default-aspired" #define DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_ROUTE_METRIC_DEFAULT_EFFECTIVE "route-metric-default-effective" #define DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_ROOT_PATH "root-path" #define DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_NEXT_SERVER "next-server" static NM_UTILS_LOOKUP_STR_DEFINE (_device_state_managed_type_to_str, NMConfigDeviceStateManagedType, NM_UTILS_LOOKUP_DEFAULT_NM_ASSERT ("unknown"), NM_UTILS_LOOKUP_STR_ITEM (NM_CONFIG_DEVICE_STATE_MANAGED_TYPE_UNKNOWN, "unknown"), NM_UTILS_LOOKUP_STR_ITEM (NM_CONFIG_DEVICE_STATE_MANAGED_TYPE_UNMANAGED, "unmanaged"), NM_UTILS_LOOKUP_STR_ITEM (NM_CONFIG_DEVICE_STATE_MANAGED_TYPE_MANAGED, "managed"), ); static NMConfigDeviceStateData * _config_device_state_data_new (int ifindex, GKeyFile *kf) { NMConfigDeviceStateData *device_state; NMConfigDeviceStateManagedType managed_type = NM_CONFIG_DEVICE_STATE_MANAGED_TYPE_UNKNOWN; gs_free char *connection_uuid = NULL; gs_free char *perm_hw_addr_fake = NULL; gsize connection_uuid_len; gsize perm_hw_addr_fake_len; NMTernary nm_owned; char *p; guint32 route_metric_default_effective; guint32 route_metric_default_aspired; nm_assert (kf); nm_assert (ifindex > 0); switch (nm_config_keyfile_get_boolean (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_MANAGED, -1)) { case TRUE: managed_type = NM_CONFIG_DEVICE_STATE_MANAGED_TYPE_MANAGED; connection_uuid = nm_config_keyfile_get_value (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_CONNECTION_UUID, NM_CONFIG_GET_VALUE_STRIP | NM_CONFIG_GET_VALUE_NO_EMPTY); break; case FALSE: managed_type = NM_CONFIG_DEVICE_STATE_MANAGED_TYPE_UNMANAGED; break; case -1: /* missing property in keyfile. */ break; } perm_hw_addr_fake = nm_config_keyfile_get_value (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_PERM_HW_ADDR_FAKE, NM_CONFIG_GET_VALUE_STRIP | NM_CONFIG_GET_VALUE_NO_EMPTY); if (perm_hw_addr_fake) { char *normalized; normalized = nm_utils_hwaddr_canonical (perm_hw_addr_fake, -1); g_free (perm_hw_addr_fake); perm_hw_addr_fake = normalized; } nm_owned = nm_config_keyfile_get_boolean (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_NM_OWNED, NM_TERNARY_DEFAULT); /* metric zero is not a valid metric. While zero valid for IPv4, for IPv6 it is an alias * for 1024. Since we handle here IPv4 and IPv6 the same, we cannot allow zero. */ route_metric_default_effective = nm_config_keyfile_get_int64 (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_ROUTE_METRIC_DEFAULT_EFFECTIVE, 10, 1, G_MAXUINT32, 0); if (route_metric_default_effective) { route_metric_default_aspired = nm_config_keyfile_get_int64 (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_ROUTE_METRIC_DEFAULT_EFFECTIVE, 10, 1, route_metric_default_effective, route_metric_default_effective); } else route_metric_default_aspired = 0; connection_uuid_len = connection_uuid ? strlen (connection_uuid) + 1 : 0; perm_hw_addr_fake_len = perm_hw_addr_fake ? strlen (perm_hw_addr_fake) + 1 : 0; device_state = g_malloc (sizeof (NMConfigDeviceStateData) + connection_uuid_len + perm_hw_addr_fake_len); device_state->ifindex = ifindex; device_state->managed = managed_type; device_state->connection_uuid = NULL; device_state->perm_hw_addr_fake = NULL; device_state->nm_owned = nm_owned; device_state->route_metric_default_aspired = route_metric_default_aspired; device_state->route_metric_default_effective = route_metric_default_effective; p = (char *) (&device_state[1]); if (connection_uuid) { memcpy (p, connection_uuid, connection_uuid_len); device_state->connection_uuid = p; p += connection_uuid_len; } if (perm_hw_addr_fake) { memcpy (p, perm_hw_addr_fake, perm_hw_addr_fake_len); device_state->perm_hw_addr_fake = p; p += perm_hw_addr_fake_len; } return device_state; } #define DEVICE_STATE_FILENAME_LEN_MAX 60 /** * nm_config_device_state_load: * @ifindex: the ifindex for which the state is to load * * Returns: (transfer full): a run state object. * Must be freed with g_free(). */ NMConfigDeviceStateData * nm_config_device_state_load (int ifindex) { NMConfigDeviceStateData *device_state; char path[NM_STRLEN (NM_CONFIG_DEVICE_STATE_DIR"/") + DEVICE_STATE_FILENAME_LEN_MAX + 1]; gs_unref_keyfile GKeyFile *kf = NULL; const char *nm_owned_str; g_return_val_if_fail (ifindex > 0, NULL); nm_sprintf_buf (path, "%s/%d", NM_CONFIG_DEVICE_STATE_DIR, ifindex); kf = nm_config_create_keyfile (); if (!g_key_file_load_from_file (kf, path, G_KEY_FILE_NONE, NULL)) return NULL; device_state = _config_device_state_data_new (ifindex, kf); nm_owned_str = device_state->nm_owned == NM_TERNARY_TRUE ? ", nm-owned=1" : ( device_state->nm_owned == NM_TERNARY_FALSE ? ", nm-owned=0" : ""); _LOGT ("device-state: %s #%d (%s); managed=%s%s%s%s%s%s%s%s, route-metric-default=%"G_GUINT32_FORMAT"-%"G_GUINT32_FORMAT"", kf ? "read" : "miss", ifindex, path, _device_state_managed_type_to_str (device_state->managed), NM_PRINT_FMT_QUOTED (device_state->connection_uuid, ", connection-uuid=", device_state->connection_uuid, "", ""), NM_PRINT_FMT_QUOTED (device_state->perm_hw_addr_fake, ", perm-hw-addr-fake=", device_state->perm_hw_addr_fake, "", ""), nm_owned_str, device_state->route_metric_default_aspired, device_state->route_metric_default_effective); return device_state; } static int _device_state_parse_filename (const char *filename) { if (!filename || !filename[0]) return 0; if (!NM_STRCHAR_ALL (filename, ch, g_ascii_isdigit (ch))) return 0; return _nm_utils_ascii_str_to_int64 (filename, 10, 1, G_MAXINT, 0); } GHashTable * nm_config_device_state_load_all (void) { GHashTable *states; GDir *dir; const char *fn; int ifindex; states = g_hash_table_new_full (nm_direct_hash, NULL, NULL, g_free); dir = g_dir_open (NM_CONFIG_DEVICE_STATE_DIR, 0, NULL); if (!dir) return states; while ((fn = g_dir_read_name (dir))) { NMConfigDeviceStateData *state; ifindex = _device_state_parse_filename (fn); if (ifindex <= 0) continue; state = nm_config_device_state_load (ifindex); if (!state) continue; if (!g_hash_table_insert (states, GINT_TO_POINTER (ifindex), state)) nm_assert_not_reached (); } g_dir_close (dir); return states; } gboolean nm_config_device_state_write (int ifindex, NMConfigDeviceStateManagedType managed, const char *perm_hw_addr_fake, const char *connection_uuid, NMTernary nm_owned, guint32 route_metric_default_aspired, guint32 route_metric_default_effective, const char *next_server, const char *root_path) { char path[NM_STRLEN (NM_CONFIG_DEVICE_STATE_DIR"/") + DEVICE_STATE_FILENAME_LEN_MAX + 1]; GError *local = NULL; gs_unref_keyfile GKeyFile *kf = NULL; g_return_val_if_fail (ifindex > 0, FALSE); g_return_val_if_fail (!connection_uuid || *connection_uuid, FALSE); g_return_val_if_fail (managed == NM_CONFIG_DEVICE_STATE_MANAGED_TYPE_MANAGED || !connection_uuid, FALSE); nm_assert (!perm_hw_addr_fake || nm_utils_hwaddr_valid (perm_hw_addr_fake, -1)); nm_sprintf_buf (path, "%s/%d", NM_CONFIG_DEVICE_STATE_DIR, ifindex); kf = nm_config_create_keyfile (); if (NM_IN_SET (managed, NM_CONFIG_DEVICE_STATE_MANAGED_TYPE_MANAGED, NM_CONFIG_DEVICE_STATE_MANAGED_TYPE_UNMANAGED)) { g_key_file_set_boolean (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_MANAGED, managed == NM_CONFIG_DEVICE_STATE_MANAGED_TYPE_MANAGED); } if (perm_hw_addr_fake) { g_key_file_set_string (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_PERM_HW_ADDR_FAKE, perm_hw_addr_fake); } if (connection_uuid) { g_key_file_set_string (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_CONNECTION_UUID, connection_uuid); } if (nm_owned != NM_TERNARY_DEFAULT) { g_key_file_set_boolean (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_NM_OWNED, nm_owned); } if (route_metric_default_effective != 0) { g_key_file_set_int64 (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_ROUTE_METRIC_DEFAULT_EFFECTIVE, route_metric_default_effective); if (route_metric_default_aspired != route_metric_default_effective) { g_key_file_set_int64 (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_ROUTE_METRIC_DEFAULT_ASPIRED, route_metric_default_aspired); } } if (next_server) { g_key_file_set_string (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_NEXT_SERVER, next_server); } if (root_path) { g_key_file_set_string (kf, DEVICE_RUN_STATE_KEYFILE_GROUP_DEVICE, DEVICE_RUN_STATE_KEYFILE_KEY_DEVICE_ROOT_PATH, root_path); } if (!g_key_file_save_to_file (kf, path, &local)) { _LOGW ("device-state: write #%d (%s) failed: %s", ifindex, path, local->message); g_error_free (local); return FALSE; } _LOGT ("device-state: write #%d (%s); managed=%s%s%s%s%s%s%s, route-metric-default=%"G_GUINT32_FORMAT"-%"G_GUINT32_FORMAT"%s%s%s%s%s%s", ifindex, path, _device_state_managed_type_to_str (managed), NM_PRINT_FMT_QUOTED (connection_uuid, ", connection-uuid=", connection_uuid, "", ""), NM_PRINT_FMT_QUOTED (perm_hw_addr_fake, ", perm-hw-addr-fake=", perm_hw_addr_fake, "", ""), route_metric_default_aspired, route_metric_default_effective, NM_PRINT_FMT_QUOTED (next_server, ", next-server=", next_server, "", ""), NM_PRINT_FMT_QUOTED (root_path, ", root-path=", root_path, "", "")); return TRUE; } void nm_config_device_state_prune_stale (GHashTable *preserve_ifindexes, NMPlatform *preserve_in_platform) { GDir *dir; const char *fn; char buf[NM_STRLEN (NM_CONFIG_DEVICE_STATE_DIR"/") + DEVICE_STATE_FILENAME_LEN_MAX + 1] = NM_CONFIG_DEVICE_STATE_DIR"/"; char *buf_p = &buf[NM_STRLEN (NM_CONFIG_DEVICE_STATE_DIR"/")]; dir = g_dir_open (NM_CONFIG_DEVICE_STATE_DIR, 0, NULL); if (!dir) return; while ((fn = g_dir_read_name (dir))) { int ifindex; gsize fn_len; ifindex = _device_state_parse_filename (fn); if (ifindex <= 0) continue; if ( preserve_ifindexes && g_hash_table_contains (preserve_ifindexes, GINT_TO_POINTER (ifindex))) continue; if ( preserve_in_platform && nm_platform_link_get (preserve_in_platform, ifindex)) continue; fn_len = strlen (fn); nm_assert (fn_len > 0); nm_assert (&buf_p[fn_len] < &buf[G_N_ELEMENTS (buf)]); memcpy (buf_p, fn, fn_len + 1u); nm_assert (({ char bb[30]; nm_streq0 (nm_sprintf_buf (bb, "%d", ifindex), buf_p); })); _LOGT ("device-state: prune #%d (%s)", ifindex, buf); (void) unlink (buf); } g_dir_close (dir); } /*****************************************************************************/ static GHashTable * _device_state_get_all (NMConfig *self) { NMConfigPrivate *priv = NM_CONFIG_GET_PRIVATE (self); if (G_UNLIKELY (!priv->device_states)) priv->device_states = nm_config_device_state_load_all (); return priv->device_states; } /** * nm_config_device_state_get_all: * @self: the #NMConfig * * This function exists to give convenient access to all * device states. Do not ever try to modify the returned * hash, it's supposed to be immutable. * * Returns: the internal #GHashTable object with all device states. */ const GHashTable * nm_config_device_state_get_all (NMConfig *self) { g_return_val_if_fail (NM_IS_CONFIG (self), NULL); return _device_state_get_all (self); } const NMConfigDeviceStateData * nm_config_device_state_get (NMConfig *self, int ifindex) { g_return_val_if_fail (NM_IS_CONFIG (self), NULL); g_return_val_if_fail (ifindex > 0 , NULL); return g_hash_table_lookup (_device_state_get_all (self), GINT_TO_POINTER (ifindex)); } /*****************************************************************************/ void nm_config_reload (NMConfig *self, NMConfigChangeFlags reload_flags, gboolean emit_warnings) { NMConfigPrivate *priv; GError *error = NULL; GKeyFile *keyfile, *keyfile_intern; NMConfigData *new_data = NULL; char *config_main_file = NULL; char *config_description = NULL; gs_strfreev char **no_auto_default = NULL; gboolean intern_config_needs_rewrite; gs_unref_ptrarray GPtrArray *warnings = NULL; guint i; g_return_if_fail (NM_IS_CONFIG (self)); g_return_if_fail ( reload_flags && !NM_FLAGS_ANY (reload_flags, ~NM_CONFIG_CHANGE_CAUSES) && !NM_FLAGS_ANY (reload_flags, NM_CONFIG_CHANGE_CAUSE_NO_AUTO_DEFAULT | NM_CONFIG_CHANGE_CAUSE_SET_VALUES)); priv = NM_CONFIG_GET_PRIVATE (self); if (!NM_FLAGS_ANY (reload_flags, NM_CONFIG_CHANGE_CAUSE_SIGHUP | NM_CONFIG_CHANGE_CAUSE_CONF)) { /* unless SIGHUP is specified, we don't reload the configuration from disc. */ _set_config_data (self, NULL, reload_flags); return; } warnings = g_ptr_array_new_with_free_func (g_free); /* pass on the original command line options. This means, that * options specified at command line cannot ever be reloaded from * file. That seems desirable. */ keyfile = read_entire_config (&priv->cli, priv->config_dir, priv->system_config_dir, &config_main_file, &config_description, warnings, &error); if (!keyfile) { _LOGE ("Failed to reload the configuration: %s", error->message); g_clear_error (&error); _set_config_data (self, NULL, reload_flags); return; } no_auto_default = no_auto_default_from_file (priv->no_auto_default_file); keyfile_intern = intern_config_read (priv->intern_config_file, keyfile, (const char *const*) priv->atomic_section_prefixes, &intern_config_needs_rewrite); if (intern_config_needs_rewrite) { intern_config_write (priv->intern_config_file, keyfile_intern, keyfile, (const char *const*) priv->atomic_section_prefixes, NULL); } new_data = nm_config_data_new (config_main_file, config_description, (const char *const*) no_auto_default, keyfile, keyfile_intern); if (emit_warnings) { nm_config_data_get_warnings (priv->config_data_orig, warnings); for (i = 0; i < warnings->len; i++) _LOGW ("%s", (const char *) warnings->pdata[i]); } g_free (config_main_file); g_free (config_description); g_key_file_unref (keyfile); if (keyfile_intern) g_key_file_unref (keyfile_intern); _set_config_data (self, new_data, reload_flags); } NM_UTILS_FLAGS2STR_DEFINE (nm_config_change_flags_to_string, NMConfigChangeFlags, NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_CAUSE_CONF, "CONF"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_CAUSE_DNS_RC, "DNS_RC"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_CAUSE_DNS_FULL, "DNS_FULL"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_CAUSE_SIGHUP, "SIGHUP"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_CAUSE_SIGUSR1, "SIGUSR1"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_CAUSE_SIGUSR2, "SIGUSR2"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_CAUSE_NO_AUTO_DEFAULT, "NO_AUTO_DEFAULT"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_CAUSE_SET_VALUES, "SET_VALUES"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_CONFIG_FILES, "config-files"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_VALUES, "values"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_VALUES_USER, "values-user"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_VALUES_INTERN, "values-intern"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_CONNECTIVITY, "connectivity"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_NO_AUTO_DEFAULT, "no-auto-default"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_DNS_MODE, "dns-mode"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_RC_MANAGER, "rc-manager"), NM_UTILS_FLAGS2STR (NM_CONFIG_CHANGE_GLOBAL_DNS_CONFIG, "global-dns-config"), ); static void _set_config_data (NMConfig *self, NMConfigData *new_data, NMConfigChangeFlags reload_flags) { NMConfigPrivate *priv = NM_CONFIG_GET_PRIVATE (self); NMConfigData *old_data = priv->config_data; NMConfigChangeFlags changes, changes_diff; gboolean had_new_data = !!new_data; nm_assert (reload_flags); nm_assert (!NM_FLAGS_ANY (reload_flags, ~NM_CONFIG_CHANGE_CAUSES)); nm_assert ( NM_IN_SET (reload_flags, NM_CONFIG_CHANGE_CAUSE_NO_AUTO_DEFAULT, NM_CONFIG_CHANGE_CAUSE_SET_VALUES) || !NM_FLAGS_ANY (reload_flags, NM_CONFIG_CHANGE_CAUSE_NO_AUTO_DEFAULT | NM_CONFIG_CHANGE_CAUSE_SET_VALUES)); changes = reload_flags; if (new_data) { changes_diff = nm_config_data_diff (old_data, new_data); if (changes_diff == NM_CONFIG_CHANGE_NONE) g_clear_object (&new_data); else changes |= changes_diff; } if ( NM_IN_SET (reload_flags, NM_CONFIG_CHANGE_CAUSE_NO_AUTO_DEFAULT, NM_CONFIG_CHANGE_CAUSE_SET_VALUES, NM_CONFIG_CHANGE_CAUSE_CONF) && !new_data) { /* no relevant changes that should be propagated. Return silently. */ return; } if (new_data) { _LOGI ("signal: %s (%s)", nm_config_change_flags_to_string (changes, NULL, 0), nm_config_data_get_config_description (new_data)); nm_config_data_log (new_data, "CONFIG: ", " ", priv->no_auto_default_file, NULL); priv->config_data = new_data; } else if (had_new_data) _LOGI ("signal: %s (no changes from disk)", nm_config_change_flags_to_string (changes, NULL, 0)); else _LOGI ("signal: %s", nm_config_change_flags_to_string (changes, NULL, 0)); g_signal_emit (self, signals[SIGNAL_CONFIG_CHANGED], 0, new_data ?: old_data, changes, old_data); if (new_data) g_object_unref (old_data); } NM_DEFINE_SINGLETON_REGISTER (NMConfig); NMConfig * nm_config_get (void) { g_assert (singleton_instance); return singleton_instance; } NMConfig * nm_config_setup (const NMConfigCmdLineOptions *cli, char **atomic_section_prefixes, GError **error) { g_assert (!singleton_instance); singleton_instance = nm_config_new (cli, atomic_section_prefixes, error); if (singleton_instance) { nm_singleton_instance_register (); /* usually, you would not see this logging line because when creating the * NMConfig instance, the logging is not yet set up to print debug message. */ nm_log_dbg (LOGD_CORE, "setup %s singleton ("NM_HASH_OBFUSCATE_PTR_FMT")", "NMConfig", NM_HASH_OBFUSCATE_PTR (singleton_instance)); } return singleton_instance; } /*****************************************************************************/ static void set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { NMConfig *self = NM_CONFIG (object); NMConfigPrivate *priv = NM_CONFIG_GET_PRIVATE (self); NMConfigCmdLineOptions *cli; char **strv; switch (prop_id) { case PROP_CMD_LINE_OPTIONS: /* construct-only */ cli = g_value_get_pointer (value); if (!cli) _nm_config_cmd_line_options_clear (&priv->cli); else _nm_config_cmd_line_options_copy (cli, &priv->cli); break; case PROP_ATOMIC_SECTION_PREFIXES: /* construct-only */ strv = g_value_get_boxed (value); if (strv && !strv[0]) strv = NULL; priv->atomic_section_prefixes = g_strdupv (strv); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); break; } } /*****************************************************************************/ static gboolean init_sync (GInitable *initable, GCancellable *cancellable, GError **error) { NMConfig *self = NM_CONFIG (initable); NMConfigPrivate *priv = NM_CONFIG_GET_PRIVATE (self); gs_unref_keyfile GKeyFile *keyfile = NULL; gs_unref_keyfile GKeyFile *keyfile_intern = NULL; gs_free char *config_main_file = NULL; gs_free char *config_description = NULL; gs_strfreev char **no_auto_default = NULL; gs_unref_ptrarray GPtrArray *warnings = NULL; gs_free char *configure_and_quit = NULL; gboolean intern_config_needs_rewrite; const char *s; if (priv->config_dir) { /* Object is already initialized. */ if (priv->config_data) return TRUE; g_set_error (error, G_KEY_FILE_ERROR, G_KEY_FILE_ERROR_NOT_FOUND, "unspecified error"); g_return_val_if_reached (FALSE); } s = priv->cli.config_dir ?: ""DEFAULT_CONFIG_DIR; priv->config_dir = g_strdup (s[0] == '/' ? s : ""); s = priv->cli.system_config_dir ?: ""DEFAULT_SYSTEM_CONFIG_DIR; if ( s[0] != '/' || nm_streq (s, priv->config_dir)) s = ""; priv->system_config_dir = g_strdup (s); if (priv->cli.intern_config_file) priv->intern_config_file = g_strdup (priv->cli.intern_config_file); else priv->intern_config_file = g_strdup (DEFAULT_INTERN_CONFIG_FILE); warnings = g_ptr_array_new_with_free_func (g_free); keyfile = read_entire_config (&priv->cli, priv->config_dir, priv->system_config_dir, &config_main_file, &config_description, warnings, error); if (!keyfile) return FALSE; /* Initialize read-only private members */ if (priv->cli.no_auto_default_file) priv->no_auto_default_file = g_strdup (priv->cli.no_auto_default_file); else priv->no_auto_default_file = g_strdup (DEFAULT_NO_AUTO_DEFAULT_FILE); priv->log_level = nm_strstrip (g_key_file_get_string (keyfile, NM_CONFIG_KEYFILE_GROUP_LOGGING, NM_CONFIG_KEYFILE_KEY_LOGGING_LEVEL, NULL)); priv->log_domains = nm_strstrip (g_key_file_get_string (keyfile, NM_CONFIG_KEYFILE_GROUP_LOGGING, NM_CONFIG_KEYFILE_KEY_LOGGING_DOMAINS, NULL)); configure_and_quit = nm_strstrip (g_key_file_get_string (keyfile, NM_CONFIG_KEYFILE_GROUP_MAIN, NM_CONFIG_KEYFILE_KEY_MAIN_CONFIGURE_AND_QUIT, NULL)); priv->configure_and_quit = string_to_configure_and_quit (configure_and_quit, error); if (priv->configure_and_quit == NM_CONFIG_CONFIGURE_AND_QUIT_INVALID) return FALSE; no_auto_default = no_auto_default_from_file (priv->no_auto_default_file); keyfile_intern = intern_config_read (priv->intern_config_file, keyfile, (const char *const*) priv->atomic_section_prefixes, &intern_config_needs_rewrite); if ( intern_config_needs_rewrite && priv->configure_and_quit == NM_CONFIG_CONFIGURE_AND_QUIT_DISABLED) { intern_config_write (priv->intern_config_file, keyfile_intern, keyfile, (const char *const*) priv->atomic_section_prefixes, NULL); } priv->config_data_orig = nm_config_data_new (config_main_file, config_description, (const char *const*) no_auto_default, keyfile, keyfile_intern); nm_config_data_get_warnings (priv->config_data_orig, warnings); priv->config_data = g_object_ref (priv->config_data_orig); if (warnings->len > 0) { g_ptr_array_add (warnings, NULL); priv->warnings = (char **) g_ptr_array_free (g_steal_pointer (&warnings), FALSE); } return TRUE; } /*****************************************************************************/ static void nm_config_init (NMConfig *config) { } NMConfig * nm_config_new (const NMConfigCmdLineOptions *cli, char **atomic_section_prefixes, GError **error) { return NM_CONFIG (g_initable_new (NM_TYPE_CONFIG, NULL, error, NM_CONFIG_CMD_LINE_OPTIONS, cli, NM_CONFIG_ATOMIC_SECTION_PREFIXES, atomic_section_prefixes, NULL)); } static void finalize (GObject *gobject) { NMConfigPrivate *priv = NM_CONFIG_GET_PRIVATE (gobject); state_free (priv->state); g_free (priv->config_dir); g_free (priv->system_config_dir); g_free (priv->no_auto_default_file); g_free (priv->intern_config_file); g_free (priv->log_level); g_free (priv->log_domains); g_strfreev (priv->atomic_section_prefixes); g_strfreev (priv->warnings); _nm_config_cmd_line_options_clear (&priv->cli); g_clear_object (&priv->config_data); g_clear_object (&priv->config_data_orig); G_OBJECT_CLASS (nm_config_parent_class)->finalize (gobject); } static void nm_config_class_init (NMConfigClass *config_class) { GObjectClass *object_class = G_OBJECT_CLASS (config_class); object_class->finalize = finalize; object_class->set_property = set_property; obj_properties[PROP_CMD_LINE_OPTIONS] = g_param_spec_pointer (NM_CONFIG_CMD_LINE_OPTIONS, "", "", G_PARAM_WRITABLE | G_PARAM_CONSTRUCT_ONLY | G_PARAM_STATIC_STRINGS); obj_properties[PROP_ATOMIC_SECTION_PREFIXES] = g_param_spec_boxed (NM_CONFIG_ATOMIC_SECTION_PREFIXES, "", "", G_TYPE_STRV, G_PARAM_WRITABLE | G_PARAM_CONSTRUCT_ONLY | G_PARAM_STATIC_STRINGS); g_object_class_install_properties (object_class, _PROPERTY_ENUMS_LAST, obj_properties); signals[SIGNAL_CONFIG_CHANGED] = g_signal_new (NM_CONFIG_SIGNAL_CONFIG_CHANGED, G_OBJECT_CLASS_TYPE (object_class), G_SIGNAL_RUN_FIRST, 0, NULL, NULL, NULL, G_TYPE_NONE, 3, NM_TYPE_CONFIG_DATA, /* Use plain guint type for changes argument. This avoids * glib/ffi bug https://bugzilla.redhat.com/show_bug.cgi?id=1260577 */ /* NM_TYPE_CONFIG_CHANGE_FLAGS, */ G_TYPE_UINT, NM_TYPE_CONFIG_DATA); G_STATIC_ASSERT_EXPR (sizeof (guint) == sizeof (NMConfigChangeFlags)); G_STATIC_ASSERT_EXPR (((gint64) ((NMConfigChangeFlags) -1)) > ((gint64) 0)); } static void nm_config_initable_iface_init (GInitableIface *iface) { iface->init = init_sync; }