/* SPDX-License-Identifier: GPL-2.0-or-later */ /* * Copyright (C) 2004 - 2016 Red Hat, Inc. * Copyright (C) 2005 - 2008 Novell, Inc. */ #ifndef __NM_CORE_UTILS_H__ #define __NM_CORE_UTILS_H__ #include #include #include "nm-connection.h" #include "nm-glib-aux/nm-time-utils.h" /*****************************************************************************/ #define NM_PLATFORM_LIFETIME_PERMANENT G_MAXUINT32 #define NM_DEFINE_SINGLETON_INSTANCE(TYPE) static TYPE *singleton_instance #define NM_DEFINE_SINGLETON_REGISTER(TYPE) \ NM_DEFINE_SINGLETON_INSTANCE(TYPE); \ static void _singleton_instance_weak_ref_cb(gpointer data, GObject *where_the_object_was) \ { \ nm_log_dbg(LOGD_CORE, \ "disposing %s singleton (" NM_HASH_OBFUSCATE_PTR_FMT ")", \ G_STRINGIFY(TYPE), \ NM_HASH_OBFUSCATE_PTR(singleton_instance)); \ singleton_instance = NULL; \ } \ static inline void nm_singleton_instance_register(void) \ { \ g_object_weak_ref(G_OBJECT(singleton_instance), _singleton_instance_weak_ref_cb, NULL); \ _nm_singleton_instance_register_destruction(G_OBJECT(singleton_instance)); \ } \ _NM_DUMMY_STRUCT_FOR_TRAILING_SEMICOLON void _nm_singleton_instance_register_destruction(GObject *instance); /* By default, the getter will assert that the singleton will be created only once. You can * change this by redefining NM_DEFINE_SINGLETON_ALLOW_MULTIPLE. */ #ifndef NM_DEFINE_SINGLETON_ALLOW_MULTIPLE #define NM_DEFINE_SINGLETON_ALLOW_MULTIPLE FALSE #endif #define NM_DEFINE_SINGLETON_GETTER(TYPE, GETTER, GTYPE, ...) \ NM_DEFINE_SINGLETON_INSTANCE(TYPE); \ NM_DEFINE_SINGLETON_REGISTER(TYPE); \ static char _already_created_##GETTER = FALSE; \ TYPE * GETTER(void) \ { \ if (G_UNLIKELY(!singleton_instance)) { \ g_assert(!(_already_created_##GETTER) || (NM_DEFINE_SINGLETON_ALLOW_MULTIPLE)); \ (_already_created_##GETTER) = TRUE; \ singleton_instance = (g_object_new(GTYPE, ##__VA_ARGS__, NULL)); \ g_assert(singleton_instance); \ nm_singleton_instance_register(); \ nm_log_dbg(LOGD_CORE, \ "create %s singleton (" NM_HASH_OBFUSCATE_PTR_FMT ")", \ G_STRINGIFY(TYPE), \ NM_HASH_OBFUSCATE_PTR(singleton_instance)); \ } \ return singleton_instance; \ } \ _nm_unused static void _nmtst_##GETTER##_reset(TYPE *instance) \ { \ /* usually, the singleton can only be created once (and further instantiations * are guarded by an assert). For testing, we need to reset the singleton to * allow multiple instantiations. */ \ g_assert(G_IS_OBJECT(instance)); \ g_assert(instance == singleton_instance); \ g_assert(_already_created_##GETTER); \ g_object_unref(instance); \ \ /* require that the last unref also destroyed the singleton. If this fails, * somebody still keeps a reference. Fix your test! */ \ g_assert(!singleton_instance); \ _already_created_##GETTER = FALSE; \ } /* attach @instance to the data or @owner. @owner owns a reference * to @instance thus the lifetime of @instance is at least as long * as that of @owner. Use this when @owner depends on @instance. */ #define NM_UTILS_KEEP_ALIVE(owner, instance, unique_token) \ G_STMT_START \ { \ g_object_set_data_full(G_OBJECT(owner), \ ".nm-utils-keep-alive-" unique_token "", \ g_object_ref(instance), \ g_object_unref); \ } \ G_STMT_END /*****************************************************************************/ gboolean nm_ether_addr_is_valid(const NMEtherAddr *addr); gboolean nm_ether_addr_is_valid_str(const char *str); gconstpointer nm_utils_ipx_address_clear_host_address(int family, gpointer dst, gconstpointer src, guint8 plen); in_addr_t nm_utils_ip4_address_clear_host_address(in_addr_t addr, guint8 plen); const struct in6_addr *nm_utils_ip6_address_clear_host_address(struct in6_addr * dst, const struct in6_addr *src, guint8 plen); static inline int nm_utils_ip4_address_same_prefix_cmp(in_addr_t addr_a, in_addr_t addr_b, guint8 plen) { NM_CMP_DIRECT(htonl(nm_utils_ip4_address_clear_host_address(addr_a, plen)), htonl(nm_utils_ip4_address_clear_host_address(addr_b, plen))); return 0; } int nm_utils_ip6_address_same_prefix_cmp(const struct in6_addr *addr_a, const struct in6_addr *addr_b, guint8 plen); static inline int nm_utils_ip_address_same_prefix_cmp(int addr_family, gconstpointer addr_a, gconstpointer addr_b, guint8 plen) { nm_assert_addr_family(addr_family); NM_CMP_SELF(addr_a, addr_b); if (NM_IS_IPv4(addr_family)) { return nm_utils_ip4_address_same_prefix_cmp(*((const in_addr_t *) addr_a), *((const in_addr_t *) addr_b), plen); } return nm_utils_ip6_address_same_prefix_cmp(addr_a, addr_b, plen); } static inline gboolean nm_utils_ip4_address_same_prefix(in_addr_t addr_a, in_addr_t addr_b, guint8 plen) { return nm_utils_ip4_address_same_prefix_cmp(addr_a, addr_b, plen) == 0; } static inline gboolean nm_utils_ip6_address_same_prefix(const struct in6_addr *addr_a, const struct in6_addr *addr_b, guint8 plen) { return nm_utils_ip6_address_same_prefix_cmp(addr_a, addr_b, plen) == 0; } static inline gboolean nm_utils_ip_address_same_prefix(int addr_family, gconstpointer addr_a, gconstpointer addr_b, guint8 plen) { return nm_utils_ip_address_same_prefix_cmp(addr_family, addr_a, addr_b, plen) == 0; } #define NM_CMP_DIRECT_IN4ADDR_SAME_PREFIX(a, b, plen) \ NM_CMP_RETURN(nm_utils_ip4_address_same_prefix_cmp((a), (b), (plen))) #define NM_CMP_DIRECT_IN6ADDR_SAME_PREFIX(a, b, plen) \ NM_CMP_RETURN(nm_utils_ip6_address_same_prefix_cmp((a), (b), (plen))) static inline void nm_hash_update_in6addr(NMHashState *h, const struct in6_addr *addr) { nm_assert(addr); nm_hash_update(h, addr, sizeof(*addr)); } static inline void nm_hash_update_in6addr_prefix(NMHashState *h, const struct in6_addr *addr, guint8 plen) { struct in6_addr a; nm_assert(addr); nm_utils_ip6_address_clear_host_address(&a, addr, plen); /* we don't hash plen itself. The caller may want to do that.*/ nm_hash_update_in6addr(h, &a); } double nm_utils_exp10(gint16 e); /** * nm_utils_ip6_route_metric_normalize: * @metric: the route metric * * For IPv6 route, when adding a route via netlink, kernel treats the value 0 as IP6_RT_PRIO_USER (1024). * So, user space cannot add routes with such a metric, and 0 gets "normalized" * to NM_PLATFORM_ROUTE_METRIC_DEFAULT_IP6. * * Note that kernel itself can add IPv6 routes with metric zero. Also, you can delete * them, but mostly because with `ip -6 route delete ... metric 0` the 0 acts as a wildcard * and kills the first matching route. * * Returns: @metric, if @metric is not zero, otherwise 1024. */ static inline guint32 nm_utils_ip6_route_metric_normalize(guint32 metric) { return metric ?: 1024 /*NM_PLATFORM_ROUTE_METRIC_DEFAULT_IP6*/; } static inline guint32 nm_utils_ip_route_metric_normalize(int addr_family, guint32 metric) { return NM_IS_IPv4(addr_family) ? metric : nm_utils_ip6_route_metric_normalize(metric); } static inline guint32 nm_utils_ip_route_metric_penalize(guint32 metric, guint32 penalty) { if (metric < G_MAXUINT32 - penalty) return metric + penalty; return G_MAXUINT32; } int nm_utils_modprobe(GError **error, gboolean suppress_error_loggin, const char *arg1, ...) G_GNUC_NULL_TERMINATED; void nm_utils_kill_process_sync(pid_t pid, guint64 start_time, int sig, guint64 log_domain, const char *log_name, guint32 wait_before_kill_msec, guint32 sleep_duration_msec, guint32 max_wait_msec); typedef void (*NMUtilsKillChildAsyncCb)(pid_t pid, gboolean success, int child_status, void * user_data); void nm_utils_kill_child_async(pid_t pid, int sig, guint64 log_domain, const char * log_name, guint32 wait_before_kill_msec, NMUtilsKillChildAsyncCb callback, void * user_data); gboolean nm_utils_kill_child_sync(pid_t pid, int sig, guint64 log_domain, const char *log_name, int * child_status, guint32 wait_before_kill_msec, guint32 sleep_duration_msec); const char *nm_utils_find_helper(const char *progname, const char *try_first, GError **error); char *nm_utils_read_link_absolute(const char *link_file, GError **error); #define NM_MATCH_SPEC_MAC_TAG "mac:" #define NM_MATCH_SPEC_S390_SUBCHANNELS_TAG "s390-subchannels:" #define NM_MATCH_SPEC_INTERFACE_NAME_TAG "interface-name:" typedef enum { NM_MATCH_SPEC_NO_MATCH = 0, NM_MATCH_SPEC_MATCH = 1, NM_MATCH_SPEC_NEG_MATCH = 2, } NMMatchSpecMatchType; NMMatchSpecMatchType nm_match_spec_device(const GSList *specs, const char * interface_name, const char * device_type, const char * driver, const char * driver_version, const char * hwaddr, const char * s390_subchannels, const char * dhcp_plugin); NMMatchSpecMatchType nm_match_spec_config(const GSList *specs, guint nm_version, const char *env); GSList * nm_match_spec_split(const char *value); char * nm_match_spec_join(GSList *specs); gboolean nm_wildcard_match_check(const char *str, const char *const *patterns, guint num_patterns); gboolean nm_utils_kernel_cmdline_match_check(const char *const *proc_cmdline, const char *const *patterns, guint num_patterns, GError ** error); /*****************************************************************************/ gboolean nm_utils_connection_has_default_route(NMConnection *connection, int addr_family, gboolean * out_is_never_default); char * nm_utils_new_vlan_name(const char *parent_iface, guint32 vlan_id); const char *nm_utils_new_infiniband_name(char *name, const char *parent_name, int p_key); int nm_utils_cmp_connection_by_autoconnect_priority(NMConnection *a, NMConnection *b); void nm_utils_log_connection_diff(NMConnection *connection, NMConnection *diff_base, guint32 level, guint64 domain, const char * name, const char * prefix, const char * dbus_path); gboolean nm_utils_is_valid_path_component(const char *name); const char *NM_ASSERT_VALID_PATH_COMPONENT(const char *name); #define NM_UTILS_SYSCTL_IP_CONF_PATH_BUFSIZE 100 const char * nm_utils_sysctl_ip_conf_path(int addr_family, char *buf, const char *ifname, const char *property); gboolean nm_utils_sysctl_ip_conf_is_path(int addr_family, const char *path, const char *ifname, const char *property); gboolean nm_utils_is_specific_hostname(const char *name); struct _NMUuid; const char * nm_utils_machine_id_str(void); const struct _NMUuid *nm_utils_machine_id_bin(void); gboolean nm_utils_machine_id_is_fake(void); const char * nm_utils_boot_id_str(void); const struct _NMUuid *nm_utils_boot_id_bin(void); const char * nm_utils_proc_cmdline(void); const char *const * nm_utils_proc_cmdline_split(void); gboolean nm_utils_host_id_get(const guint8 **out_host_id, gsize *out_host_id_len); gint64 nm_utils_host_id_get_timestamp_ns(void); /*****************************************************************************/ int nm_utils_arp_type_detect_from_hwaddrlen(gsize hwaddr_len); gboolean nm_utils_arp_type_validate_hwaddr(int arp_type, const guint8 *hwaddr, gsize hwaddr_len); gboolean nm_utils_arp_type_get_hwaddr_relevant_part(int arp_type, const guint8 **hwaddr, gsize *hwaddr_len); /*****************************************************************************/ /* IPv6 Interface Identifier helpers */ /** * NMUtilsIPv6IfaceId: * @id: convenience member for validity checking; never use directly * @id_u8: the 64-bit Interface Identifier * * Holds a 64-bit IPv6 Interface Identifier. The IID is a sequence of bytes * and should not normally be treated as a %guint64, but this is done for * convenience of validity checking and initialization. */ struct _NMUtilsIPv6IfaceId { union { guint64 id; guint8 id_u8[8]; }; }; #define NM_UTILS_IPV6_IFACE_ID_INIT \ { \ { \ .id = 0 \ } \ } void nm_utils_ipv6_addr_set_interface_identifier(struct in6_addr * addr, const NMUtilsIPv6IfaceId iid); void nm_utils_ipv6_interface_identifier_get_from_addr(NMUtilsIPv6IfaceId * iid, const struct in6_addr *addr); gboolean nm_utils_ipv6_interface_identifier_get_from_token(NMUtilsIPv6IfaceId *iid, const char * token); const char *nm_utils_inet6_interface_identifier_to_token(NMUtilsIPv6IfaceId iid, char buf[static INET6_ADDRSTRLEN]); gboolean nm_utils_get_ipv6_interface_identifier(NMLinkType link_type, const guint8 * hwaddr, guint len, guint dev_id, NMUtilsIPv6IfaceId *out_iid); typedef enum { /* The stable type. Note that this value is encoded in the * generated addresses, thus the numbers MUST not change. * * Also note, if we ever allocate ID 255, we must take care * that nm_utils_ipv6_addr_set_stable_privacy() extends the * uint8 encoding of this value. */ NM_UTILS_STABLE_TYPE_UUID = 0, NM_UTILS_STABLE_TYPE_STABLE_ID = 1, NM_UTILS_STABLE_TYPE_GENERATED = 2, NM_UTILS_STABLE_TYPE_RANDOM = 3, } NMUtilsStableType; NMUtilsStableType nm_utils_stable_id_parse(const char *stable_id, const char *deviceid, const char *hwaddr, const char *bootid, const char *uuid, char ** out_generated); char *nm_utils_stable_id_random(void); char *nm_utils_stable_id_generated_complete(const char *msg); gboolean nm_utils_ipv6_addr_set_stable_privacy_impl(NMUtilsStableType stable_type, struct in6_addr * addr, const char * ifname, const char * network_id, guint32 dad_counter, guint8 * host_id, gsize host_id_len, GError ** error); gboolean nm_utils_ipv6_addr_set_stable_privacy(NMUtilsStableType id_type, struct in6_addr * addr, const char * ifname, const char * network_id, guint32 dad_counter, GError ** error); char *nm_utils_hw_addr_gen_random_eth(const char *current_mac_address, const char *generate_mac_address_mask); char *nm_utils_hw_addr_gen_stable_eth_impl(NMUtilsStableType stable_type, const char * stable_id, const guint8 * host_id, gsize host_id_len, const char * ifname, const char * current_mac_address, const char * generate_mac_address_mask); char *nm_utils_hw_addr_gen_stable_eth(NMUtilsStableType stable_type, const char * stable_id, const char * ifname, const char * current_mac_address, const char * generate_mac_address_mask); /*****************************************************************************/ GBytes *nm_utils_dhcp_client_id_mac(int arp_type, const guint8 *hwaddr, gsize hwaddr_len); guint32 nm_utils_create_dhcp_iaid(gboolean legacy_unstable_byteorder, const guint8 *interface_id, gsize interface_id_len); GBytes *nm_utils_dhcp_client_id_systemd_node_specific_full(guint32 iaid, const guint8 *machine_id, gsize machine_id_len); GBytes *nm_utils_dhcp_client_id_systemd_node_specific(guint32 iaid); /*****************************************************************************/ /* RFC 3315 defines the epoch for the DUID-LLT time field on Jan 1st 2000. */ #define NM_UTILS_EPOCH_DATETIME_200001010000 946684800 struct _NMUuid; GBytes * nm_utils_generate_duid_llt(int arp_type, const guint8 *hwaddr, gsize hwaddr_len, gint64 time); GBytes *nm_utils_generate_duid_ll(int arp_type, const guint8 *hwaddr, gsize hwaddr_len); GBytes *nm_utils_generate_duid_uuid(const struct _NMUuid *uuid); GBytes *nm_utils_generate_duid_from_machine_id(void); /*****************************************************************************/ void nm_utils_array_remove_at_indexes(GArray *array, const guint *indexes_to_delete, gsize len); void nm_utils_setpgid(gpointer unused); typedef enum { NM_UTILS_TEST_NONE = 0, /* Internal flag, marking that either nm_utils_get_testing() or _nm_utils_set_testing() was called. */ _NM_UTILS_TEST_INITIALIZED = (1LL << 0), /* Indicate that test mode is enabled in general. Explicitly calling _nm_utils_set_testing() will always set this flag. */ _NM_UTILS_TEST_GENERAL = (1LL << 1), /* Don't check the owner of keyfiles during testing. */ NM_UTILS_TEST_NO_KEYFILE_OWNER_CHECK = (1LL << 2), _NM_UTILS_TEST_LAST, NM_UTILS_TEST_ALL = (((_NM_UTILS_TEST_LAST - 1) << 1) - 1) & ~(_NM_UTILS_TEST_INITIALIZED), } NMUtilsTestFlags; gboolean nm_utils_get_testing_initialized(void); NMUtilsTestFlags nm_utils_get_testing(void); void _nm_utils_set_testing(NMUtilsTestFlags flags); void nm_utils_g_value_set_strv(GValue *value, GPtrArray *strings); void nm_utils_ifname_cpy(char *dst, const char *name); guint32 nm_utils_lifetime_rebase_relative_time_on_now(guint32 timestamp, guint32 duration, gint32 now); guint32 nm_utils_lifetime_get(guint32 timestamp, guint32 lifetime, guint32 preferred, gint32 now, guint32 *out_preferred); /*****************************************************************************/ #define NM_IPV4LL_NETWORK ((in_addr_t)(htonl(0xA9FE0000lu))) #define NM_IPV4LL_NETMASK ((in_addr_t)(htonl(0xFFFF0000lu))) static inline gboolean nm_utils_ip4_address_is_link_local(in_addr_t addr) { return (addr & NM_IPV4LL_NETMASK) == NM_IPV4LL_NETWORK; } static inline gboolean nm_utils_ip4_address_is_zeronet(in_addr_t network) { /* Same as ipv4_is_zeronet() from kernel's include/linux/in.h. */ return (network & htonl(0xFF000000u)) == htonl(0x00000000u); } /*****************************************************************************/ const char *nm_utils_dnsmasq_status_to_string(int status, char *dest, gsize size); void nm_utils_get_reverse_dns_domains_ip_4(guint32 ip, guint8 plen, GPtrArray *domains); void nm_utils_get_reverse_dns_domains_ip_6(const struct in6_addr *ip, guint8 plen, GPtrArray *domains); static inline void nm_utils_get_reverse_dns_domains_ip(int addr_family, gconstpointer addr, guint8 plen, GPtrArray * domains) { if (NM_IS_IPv4(addr_family)) nm_utils_get_reverse_dns_domains_ip_4(*((const in_addr_t *) addr), plen, domains); else nm_utils_get_reverse_dns_domains_ip_6(addr, plen, domains); } struct stat; gboolean nm_utils_validate_plugin(const char *path, struct stat *stat, GError **error); char ** nm_utils_read_plugin_paths(const char *dirname, const char *prefix); char * nm_utils_format_con_diff_for_audit(GHashTable *diff); /*****************************************************************************/ /* this enum is compatible with ICMPV6_ROUTER_PREF_* (from , * the values for netlink attribute RTA_PREF) and "enum ndp_route_preference" * from . */ typedef enum { NM_ICMPV6_ROUTER_PREF_MEDIUM = 0x0, /* ICMPV6_ROUTER_PREF_MEDIUM */ NM_ICMPV6_ROUTER_PREF_LOW = 0x3, /* ICMPV6_ROUTER_PREF_LOW */ NM_ICMPV6_ROUTER_PREF_HIGH = 0x1, /* ICMPV6_ROUTER_PREF_HIGH */ NM_ICMPV6_ROUTER_PREF_INVALID = 0x2, /* ICMPV6_ROUTER_PREF_INVALID */ } NMIcmpv6RouterPref; const char *nm_icmpv6_router_pref_to_string(NMIcmpv6RouterPref pref, char *buf, gsize len); /*****************************************************************************/ const char *nm_activation_type_to_string(NMActivationType activation_type); /*****************************************************************************/ const char *nm_utils_parse_dns_domain(const char *domain, gboolean *is_routing); /*****************************************************************************/ void nm_wifi_utils_parse_ies(const guint8 *bytes, gsize len, guint32 * out_max_rate, gboolean * out_metered, gboolean * out_owe_transition_mode); guint8 nm_wifi_utils_level_to_quality(int val); /*****************************************************************************/ #define NM_VPN_ROUTE_METRIC_DEFAULT 50 #define NM_UTILS_ERROR_MSG_REQ_AUTH_FAILED "Unable to authenticate the request" #define NM_UTILS_ERROR_MSG_REQ_UID_UKNOWN "Unable to determine UID of the request" #define NM_UTILS_ERROR_MSG_INSUFF_PRIV "Insufficient privileges" #endif /* __NM_CORE_UTILS_H__ */