/* SPDX-License-Identifier: GPL-2.0-or-later */ /* * Copyright (C) 2012 - 2018 Red Hat, Inc. */ #include "src/core/nm-default-daemon.h" #include "nm-platform.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "nm-utils.h" #include "nm-core-internal.h" #include "nm-glib-aux/nm-dedup-multi.h" #include "nm-udev-aux/nm-udev-utils.h" #include "nm-glib-aux/nm-secret-utils.h" #include "nm-core-utils.h" #include "nm-platform/nm-platform-utils.h" #include "nm-platform-private.h" #include "nmp-object.h" #include "nm-platform/nmp-netns.h" /*****************************************************************************/ G_STATIC_ASSERT(G_STRUCT_OFFSET(NMPlatformIPAddress, address_ptr) == G_STRUCT_OFFSET(NMPlatformIP4Address, address)); G_STATIC_ASSERT(G_STRUCT_OFFSET(NMPlatformIPAddress, address_ptr) == G_STRUCT_OFFSET(NMPlatformIP6Address, address)); G_STATIC_ASSERT(G_STRUCT_OFFSET(NMPlatformIPRoute, network_ptr) == G_STRUCT_OFFSET(NMPlatformIP4Route, network)); G_STATIC_ASSERT(G_STRUCT_OFFSET(NMPlatformIPRoute, network_ptr) == G_STRUCT_OFFSET(NMPlatformIP6Route, network)); G_STATIC_ASSERT(_nm_alignof(NMPlatformIPRoute) == _nm_alignof(NMPlatformIP4Route)); G_STATIC_ASSERT(_nm_alignof(NMPlatformIPRoute) == _nm_alignof(NMPlatformIP6Route)); G_STATIC_ASSERT(_nm_alignof(NMPlatformIPRoute) == _nm_alignof(NMPlatformIPXRoute)); G_STATIC_ASSERT(_nm_alignof(NMPlatformIPAddress) == _nm_alignof(NMPlatformIP4Address)); G_STATIC_ASSERT(_nm_alignof(NMPlatformIPAddress) == _nm_alignof(NMPlatformIP6Address)); G_STATIC_ASSERT(_nm_alignof(NMPlatformIPAddress) == _nm_alignof(NMPlatformIPXAddress)); /*****************************************************************************/ G_STATIC_ASSERT(sizeof(((NMPLinkAddress *) NULL)->data) == NM_UTILS_HWADDR_LEN_MAX); G_STATIC_ASSERT(sizeof(((NMPlatformLink *) NULL)->l_address.data) == NM_UTILS_HWADDR_LEN_MAX); G_STATIC_ASSERT(sizeof(((NMPlatformLink *) NULL)->l_broadcast.data) == NM_UTILS_HWADDR_LEN_MAX); static const char * _nmp_link_address_to_string(const NMPLinkAddress *addr, char buf[static(NM_UTILS_HWADDR_LEN_MAX * 3)]) { nm_assert(addr); if (addr->len > 0) { if (!_nm_utils_hwaddr_ntoa(addr->data, addr->len, TRUE, buf, NM_UTILS_HWADDR_LEN_MAX * 3)) { buf[0] = '\0'; g_return_val_if_reached(buf); } } else buf[0] = '\0'; return buf; } gconstpointer nmp_link_address_get(const NMPLinkAddress *addr, size_t *length) { if (!addr || addr->len <= 0) { NM_SET_OUT(length, 0); return NULL; } if (addr->len > NM_UTILS_HWADDR_LEN_MAX) { NM_SET_OUT(length, 0); g_return_val_if_reached(NULL); } NM_SET_OUT(length, addr->len); return addr->data; } GBytes * nmp_link_address_get_as_bytes(const NMPLinkAddress *addr) { gconstpointer data; size_t length; data = nmp_link_address_get(addr, &length); return length > 0 ? g_bytes_new(data, length) : NULL; } /*****************************************************************************/ #define _NMLOG_DOMAIN LOGD_PLATFORM #define _NMLOG_PREFIX_NAME "platform" #define NMLOG_COMMON(level, name, ...) \ char __prefix[32]; \ const char * __p_prefix = _NMLOG_PREFIX_NAME; \ const NMPlatform *const __self = (self); \ const char * __name = name; \ \ if (__self && NM_PLATFORM_GET_PRIVATE(__self)->log_with_ptr) { \ g_snprintf(__prefix, sizeof(__prefix), "%s[%p]", _NMLOG_PREFIX_NAME, __self); \ __p_prefix = __prefix; \ } \ _nm_log(__level, \ _NMLOG_DOMAIN, \ 0, \ __name, \ NULL, \ "%s: %s%s%s" _NM_UTILS_MACRO_FIRST(__VA_ARGS__), \ __p_prefix, \ NM_PRINT_FMT_QUOTED(__name, "(", __name, ") ", "") _NM_UTILS_MACRO_REST(__VA_ARGS__)); #define _NMLOG(level, ...) \ G_STMT_START \ { \ const NMLogLevel __level = (level); \ \ if (nm_logging_enabled(__level, _NMLOG_DOMAIN)) { \ NMLOG_COMMON(level, NULL, __VA_ARGS__); \ } \ } \ G_STMT_END #define _NMLOG2(level, ...) \ G_STMT_START \ { \ const NMLogLevel __level = (level); \ \ if (nm_logging_enabled(__level, _NMLOG_DOMAIN)) { \ NMLOG_COMMON(level, name, __VA_ARGS__); \ } \ } \ G_STMT_END #define _NMLOG3(level, ...) \ G_STMT_START \ { \ const NMLogLevel __level = (level); \ \ if (nm_logging_enabled(__level, _NMLOG_DOMAIN)) { \ NMLOG_COMMON(level, \ ifindex > 0 ? nm_platform_link_get_name(self, ifindex) : NULL, \ __VA_ARGS__); \ } \ } \ G_STMT_END /*****************************************************************************/ static guint signals[_NM_PLATFORM_SIGNAL_ID_LAST] = {0}; enum { PROP_0, PROP_NETNS_SUPPORT, PROP_USE_UDEV, PROP_LOG_WITH_PTR, LAST_PROP, }; typedef struct _NMPlatformPrivate { bool use_udev : 1; bool log_with_ptr : 1; guint ip4_dev_route_blacklist_check_id; guint ip4_dev_route_blacklist_gc_timeout_id; GHashTable * ip4_dev_route_blacklist_hash; NMDedupMultiIndex *multi_idx; NMPCache * cache; } NMPlatformPrivate; G_DEFINE_TYPE(NMPlatform, nm_platform, G_TYPE_OBJECT) #define NM_PLATFORM_GET_PRIVATE(self) _NM_GET_PRIVATE_PTR(self, NMPlatform, NM_IS_PLATFORM) /*****************************************************************************/ static void _ip4_dev_route_blacklist_schedule(NMPlatform *self); /*****************************************************************************/ gboolean nm_platform_get_use_udev(NMPlatform *self) { return NM_PLATFORM_GET_PRIVATE(self)->use_udev; } gboolean nm_platform_get_log_with_ptr(NMPlatform *self) { return NM_PLATFORM_GET_PRIVATE(self)->log_with_ptr; } /*****************************************************************************/ guint _nm_platform_signal_id_get(NMPlatformSignalIdType signal_type) { nm_assert(signal_type > 0 && signal_type != NM_PLATFORM_SIGNAL_ID_NONE && signal_type < _NM_PLATFORM_SIGNAL_ID_LAST); return signals[signal_type]; } /*****************************************************************************/ /* Singleton NMPlatform subclass instance and cached class object */ NM_DEFINE_SINGLETON_INSTANCE(NMPlatform); NM_DEFINE_SINGLETON_REGISTER(NMPlatform); /* Just always initialize a @klass instance. NM_PLATFORM_GET_CLASS() * is only a plain read on the self instance, which the compiler * like can optimize out. */ #define _CHECK_SELF_VOID(self, klass) \ NMPlatformClass *klass; \ do { \ g_return_if_fail(NM_IS_PLATFORM(self)); \ klass = NM_PLATFORM_GET_CLASS(self); \ (void) klass; \ } while (0) #define _CHECK_SELF(self, klass, err_val) \ NMPlatformClass *klass; \ do { \ g_return_val_if_fail(NM_IS_PLATFORM(self), err_val); \ klass = NM_PLATFORM_GET_CLASS(self); \ (void) klass; \ } while (0) #define _CHECK_SELF_NETNS(self, klass, netns, err_val) \ nm_auto_pop_netns NMPNetns *netns = NULL; \ NMPlatformClass * klass; \ do { \ g_return_val_if_fail(NM_IS_PLATFORM(self), err_val); \ klass = NM_PLATFORM_GET_CLASS(self); \ (void) klass; \ if (!nm_platform_netns_push(self, &netns)) \ return (err_val); \ } while (0) /** * nm_platform_setup: * @instance: the #NMPlatform instance * * Failing to set up #NMPlatform singleton results in a fatal error, * as well as trying to initialize it multiple times without freeing * it. * * NetworkManager will typically use only one platform object during * its run. Test programs might want to switch platform implementations, * though. */ void nm_platform_setup(NMPlatform *instance) { g_return_if_fail(NM_IS_PLATFORM(instance)); g_return_if_fail(!singleton_instance); singleton_instance = instance; nm_singleton_instance_register(); nm_log_dbg(LOGD_CORE, "setup %s singleton (" NM_HASH_OBFUSCATE_PTR_FMT ")", "NMPlatform", NM_HASH_OBFUSCATE_PTR(instance)); } /** * nm_platform_get: * @self: platform instance * * Retrieve #NMPlatform singleton. Use this whenever you want to connect to * #NMPlatform signals. It is an error to call it before nm_platform_setup(). * * Returns: (transfer none): The #NMPlatform singleton reference. */ NMPlatform * nm_platform_get() { g_assert(singleton_instance); return singleton_instance; } /*****************************************************************************/ NMDedupMultiIndex * nm_platform_get_multi_idx(NMPlatform *self) { g_return_val_if_fail(NM_IS_PLATFORM(self), NULL); return NM_PLATFORM_GET_PRIVATE(self)->multi_idx; } /*****************************************************************************/ static NM_UTILS_LOOKUP_STR_DEFINE( _nmp_nlm_flag_to_string_lookup, NMPNlmFlags, NM_UTILS_LOOKUP_DEFAULT(NULL), NM_UTILS_LOOKUP_ITEM(NMP_NLM_FLAG_ADD, "add"), NM_UTILS_LOOKUP_ITEM(NMP_NLM_FLAG_CHANGE, "change"), NM_UTILS_LOOKUP_ITEM(NMP_NLM_FLAG_REPLACE, "replace"), NM_UTILS_LOOKUP_ITEM(NMP_NLM_FLAG_PREPEND, "prepend"), NM_UTILS_LOOKUP_ITEM(NMP_NLM_FLAG_APPEND, "append"), NM_UTILS_LOOKUP_ITEM(NMP_NLM_FLAG_TEST, "test"), NM_UTILS_LOOKUP_ITEM_IGNORE(NMP_NLM_FLAG_F_APPEND), NM_UTILS_LOOKUP_ITEM_IGNORE(NMP_NLM_FLAG_FMASK), NM_UTILS_LOOKUP_ITEM_IGNORE(NMP_NLM_FLAG_SUPPRESS_NETLINK_FAILURE), NM_UTILS_LOOKUP_ITEM_IGNORE(NMP_NLM_FLAG_F_ECHO), ); #define _nmp_nlm_flag_to_string(flags) \ ({ \ NMPNlmFlags _flags = (flags); \ \ _nmp_nlm_flag_to_string_lookup(flags) \ ?: nm_sprintf_bufa(100, "new[0x%x]", (unsigned) _flags); \ }) /*****************************************************************************/ volatile int _nm_platform_kernel_support_state[_NM_PLATFORM_KERNEL_SUPPORT_NUM] = {}; static const struct { bool compile_time_default; const char *name; const char *desc; } _nm_platform_kernel_support_info[_NM_PLATFORM_KERNEL_SUPPORT_NUM] = { [NM_PLATFORM_KERNEL_SUPPORT_TYPE_EXTENDED_IFA_FLAGS] = { .compile_time_default = TRUE, .name = "EXTENDED_IFA_FLAGS", .desc = "IPv6 temporary addresses support", }, [NM_PLATFORM_KERNEL_SUPPORT_TYPE_USER_IPV6LL] = { .compile_time_default = TRUE, .name = "USER_IPV6LL", .desc = "IFLA_INET6_ADDR_GEN_MODE support", }, [NM_PLATFORM_KERNEL_SUPPORT_TYPE_RTA_PREF] = { .compile_time_default = (RTA_MAX >= 20 /* RTA_PREF */), .name = "RTA_PREF", .desc = "ability to set router preference for IPv6 routes", }, [NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_L3MDEV] = { .compile_time_default = (FRA_MAX >= 19 /* FRA_L3MDEV */), .name = "FRA_L3MDEV", .desc = "FRA_L3MDEV attribute for policy routing rules", }, [NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_UID_RANGE] = { .compile_time_default = (FRA_MAX >= 20 /* FRA_UID_RANGE */), .name = "FRA_UID_RANGE", .desc = "FRA_UID_RANGE attribute for policy routing rules", }, [NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_PROTOCOL] = { .compile_time_default = (FRA_MAX >= 21 /* FRA_PROTOCOL */), .name = "FRA_PROTOCOL", .desc = "FRA_PROTOCOL attribute for policy routing rules", }, [NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_IP_PROTO] = { .compile_time_default = (FRA_MAX >= 22 /* FRA_IP_PROTO */), .name = "FRA_IP_PROTO", .desc = "FRA_IP_PROTO, FRA_SPORT_RANGE, FRA_DPORT_RANGE attributes for policy routing " "rules", }, [NM_PLATFORM_KERNEL_SUPPORT_TYPE_IFLA_BR_VLAN_STATS_ENABLED] = { .compile_time_default = (IFLA_BR_MAX >= 41 /* IFLA_BR_VLAN_STATS_ENABLED */), .name = "IFLA_BR_VLAN_STATS_ENABLE", .desc = "IFLA_BR_VLAN_STATS_ENABLE bridge link attribute", }, }; int _nm_platform_kernel_support_init(NMPlatformKernelSupportType type, int value) { volatile int *p_state; gboolean set_default = FALSE; nm_assert(_NM_INT_NOT_NEGATIVE(type) && type < G_N_ELEMENTS(_nm_platform_kernel_support_state)); p_state = &_nm_platform_kernel_support_state[type]; if (value == 0) { set_default = TRUE; value = _nm_platform_kernel_support_info[type].compile_time_default ? 1 : -1; } nm_assert(NM_IN_SET(value, -1, 1)); if (!g_atomic_int_compare_and_exchange(p_state, 0, value)) { value = g_atomic_int_get(p_state); nm_assert(NM_IN_SET(value, -1, 1)); return value; } #undef NM_THREAD_SAFE_ON_MAIN_THREAD #define NM_THREAD_SAFE_ON_MAIN_THREAD 0 if (set_default) { nm_log_dbg(LOGD_PLATFORM, "platform: kernel-support for %s (%s) not detected: assume %ssupported", _nm_platform_kernel_support_info[type].name, _nm_platform_kernel_support_info[type].desc, value >= 0 ? "" : "not "); } else { nm_log_dbg(LOGD_PLATFORM, "platform: kernel-support for %s (%s) detected: %ssupported", _nm_platform_kernel_support_info[type].name, _nm_platform_kernel_support_info[type].desc, value >= 0 ? "" : "not "); } #undef NM_THREAD_SAFE_ON_MAIN_THREAD #define NM_THREAD_SAFE_ON_MAIN_THREAD 1 return value; } /*****************************************************************************/ /** * nm_platform_process_events: * @self: platform instance * * Process pending events or handle pending delayed-actions. * Effectively, this reads the netlink socket and processes * new netlink messages. Possibly it will raise change signals. */ void nm_platform_process_events(NMPlatform *self) { _CHECK_SELF_VOID(self, klass); if (klass->process_events) klass->process_events(self); } const NMPlatformLink * nm_platform_process_events_ensure_link(NMPlatform *self, int ifindex, const char *ifname) { const NMPObject *obj; gboolean refreshed = FALSE; g_return_val_if_fail(NM_IS_PLATFORM(self), NULL); if (ifindex <= 0 && !ifname) return NULL; /* we look into the cache, whether a link for given ifindex/ifname * exits. If not, we poll the netlink socket, maybe the event * with the link is waiting. * * Then we try again to find the object. * * If the link is already cached the first time, we avoid polling * the netlink socket. */ again: obj = nmp_cache_lookup_link_full( nm_platform_get_cache(self), ifindex, ifname, FALSE, /* also invisible. We don't care here whether udev is ready */ NM_LINK_TYPE_NONE, NULL, NULL); if (obj) return NMP_OBJECT_CAST_LINK(obj); if (!refreshed) { refreshed = TRUE; nm_platform_process_events(self); goto again; } return NULL; } /*****************************************************************************/ /** * nm_platform_sysctl_open_netdir: * @self: platform instance * @ifindex: the ifindex for which to open /sys/class/net/%s * @out_ifname: optional output argument of the found ifname. * * Wraps nmp_utils_sysctl_open_netdir() by first changing into the right * network-namespace. * * Returns: on success, the open file descriptor to the /sys/class/net/%s * directory. */ int nm_platform_sysctl_open_netdir(NMPlatform *self, int ifindex, char *out_ifname) { const char *ifname_guess; _CHECK_SELF_NETNS(self, klass, netns, -1); g_return_val_if_fail(ifindex > 0, -1); /* we don't have an @ifname_guess argument to make the API nicer. * But still do a cache-lookup first. Chances are good that we have * the right ifname cached and save if_indextoname() */ ifname_guess = nm_platform_link_get_name(self, ifindex); return nmp_utils_sysctl_open_netdir(ifindex, ifname_guess, out_ifname); } /** * nm_platform_sysctl_set: * @self: platform instance * @pathid: if @dirfd is present, this must be the full path that is looked up. * It is required for logging. * @dirfd: optional file descriptor for parent directory for openat() * @path: Absolute option path * @value: Value to write * * This function is intended to be used for writing values to sysctl-style * virtual runtime configuration files. This includes not only /proc/sys * but also for example /sys/class. * * Returns: %TRUE on success. */ gboolean nm_platform_sysctl_set(NMPlatform *self, const char *pathid, int dirfd, const char *path, const char *value) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(path, FALSE); g_return_val_if_fail(value, FALSE); return klass->sysctl_set(self, pathid, dirfd, path, value); } /** * nm_platform_sysctl_set_async: * @self: platform instance * @pathid: if @dirfd is present, this must be the full path that is looked up * @dirfd: optional file descriptor for parent directory for openat() * @path: absolute option path * @values: NULL-terminated array of strings to be written * @callback: function called on termination * @data: data passed to callback function * @cancellable: to cancel the operation * * This function is intended to be used for writing values to sysctl-style * virtual runtime configuration files. This includes not only /proc/sys * but also for example /sys/class. The function does not block and returns * immediately. The callback is always invoked, and asynchronously. The file * is closed after writing each value and reopened to write the next one so * that the function can be used safely on all /proc and /sys files, * independently of how /proc/sys/kernel/sysctl_writes_strict is configured. */ void nm_platform_sysctl_set_async(NMPlatform * self, const char * pathid, int dirfd, const char * path, const char *const * values, NMPlatformAsyncCallback callback, gpointer data, GCancellable * cancellable) { _CHECK_SELF_VOID(self, klass); klass->sysctl_set_async(self, pathid, dirfd, path, values, callback, data, cancellable); } gboolean nm_platform_sysctl_ip_conf_set_ipv6_hop_limit_safe(NMPlatform *self, const char *iface, int value) { const char *path; gint64 cur; char buf[NM_UTILS_SYSCTL_IP_CONF_PATH_BUFSIZE]; _CHECK_SELF(self, klass, FALSE); /* the hop-limit provided via RA is uint8. */ if (value > 0xFF) return FALSE; /* don't allow unreasonable small values */ if (value < 10) return FALSE; path = nm_utils_sysctl_ip_conf_path(AF_INET6, buf, iface, "hop_limit"); cur = nm_platform_sysctl_get_int_checked(self, NMP_SYSCTL_PATHID_ABSOLUTE(path), 10, 1, G_MAXINT32, -1); /* only allow increasing the hop-limit to avoid DOS by an attacker * setting a low hop-limit (CVE-2015-2924, rh#1209902) */ if (value < cur) return FALSE; if (value != cur) { char svalue[20]; sprintf(svalue, "%d", value); nm_platform_sysctl_set(self, NMP_SYSCTL_PATHID_ABSOLUTE(path), svalue); } return TRUE; } gboolean nm_platform_sysctl_ip_neigh_set_ipv6_reachable_time(NMPlatform *self, const char *iface, guint value_ms) { char path[NM_UTILS_SYSCTL_IP_CONF_PATH_BUFSIZE]; char str[128]; guint clamped; _CHECK_SELF(self, klass, FALSE); if (!value_ms) return TRUE; /* RFC 4861 says the value can't be greater than one hour. * Also use a reasonable lower threshold. */ clamped = NM_CLAMP(value_ms, 100, 3600000); nm_sprintf_buf(path, "/proc/sys/net/ipv6/neigh/%s/base_reachable_time_ms", iface); nm_sprintf_buf(str, "%u", clamped); if (!nm_platform_sysctl_set(self, NMP_SYSCTL_PATHID_ABSOLUTE(path), str)) return FALSE; /* Set stale time in the same way as kernel */ nm_sprintf_buf(path, "/proc/sys/net/ipv6/neigh/%s/gc_stale_time", iface); nm_sprintf_buf(str, "%u", clamped * 3 / 1000); return nm_platform_sysctl_set(self, NMP_SYSCTL_PATHID_ABSOLUTE(path), str); } gboolean nm_platform_sysctl_ip_neigh_set_ipv6_retrans_time(NMPlatform *self, const char *iface, guint value_ms) { char path[NM_UTILS_SYSCTL_IP_CONF_PATH_BUFSIZE]; char str[128]; _CHECK_SELF(self, klass, FALSE); if (!value_ms) return TRUE; nm_sprintf_buf(path, "/proc/sys/net/ipv6/neigh/%s/retrans_time_ms", iface); nm_sprintf_buf(str, "%u", NM_CLAMP(value_ms, 10, 3600000)); return nm_platform_sysctl_set(self, NMP_SYSCTL_PATHID_ABSOLUTE(path), str); } /** * nm_platform_sysctl_get: * @self: platform instance * @dirfd: if non-negative, used to lookup the path via openat(). * @pathid: if @dirfd is present, this must be the full path that is looked up. * It is required for logging. * @path: Absolute path to sysctl * * Returns: (transfer full): Contents of the virtual sysctl file. * * If the path does not exist, %NULL is returned and %errno set to %ENOENT. */ char * nm_platform_sysctl_get(NMPlatform *self, const char *pathid, int dirfd, const char *path) { _CHECK_SELF(self, klass, NULL); g_return_val_if_fail(path, NULL); return klass->sysctl_get(self, pathid, dirfd, path); } /** * nm_platform_sysctl_get_int32: * @self: platform instance * @pathid: if @dirfd is present, this must be the full path that is looked up. * It is required for logging. * @dirfd: if non-negative, used to lookup the path via openat(). * @path: Absolute path to sysctl * @fallback: default value, if the content of path could not be read * as decimal integer. * * Returns: contents of the sysctl file parsed as s32 integer, or * @fallback on error. On error, %errno will be set to a non-zero * value, on success %errno will be set to zero. */ gint32 nm_platform_sysctl_get_int32(NMPlatform *self, const char *pathid, int dirfd, const char *path, gint32 fallback) { return nm_platform_sysctl_get_int_checked(self, pathid, dirfd, path, 10, G_MININT32, G_MAXINT32, fallback); } /** * nm_platform_sysctl_get_int_checked: * @self: platform instance * @pathid: if @dirfd is present, this must be the full path that is looked up. * It is required for logging. * @dirfd: if non-negative, used to lookup the path via openat(). * @path: Absolute path to sysctl * @base: base of numeric conversion * @min: minimal value that is still valid * @max: maximal value that is still valid * @fallback: default value, if the content of path could not be read * as valid integer. * * Returns: contents of the sysctl file parsed as s64 integer, or * @fallback on error. On error, %errno will be set to a non-zero * value. On success, %errno will be set to zero. The returned value * will always be in the range between @min and @max * (inclusive) or @fallback. * If the file does not exist, the fallback is returned and %errno * is set to ENOENT. */ gint64 nm_platform_sysctl_get_int_checked(NMPlatform *self, const char *pathid, int dirfd, const char *path, guint base, gint64 min, gint64 max, gint64 fallback) { char * value = NULL; gint32 ret; int errsv; _CHECK_SELF(self, klass, fallback); g_return_val_if_fail(path, fallback); if (!path) { errno = EINVAL; return fallback; } value = nm_platform_sysctl_get(self, pathid, dirfd, path); if (!value) { /* nm_platform_sysctl_get() set errno to ENOENT if the file does not exist. * Propagate/preserve that. */ if (errno != ENOENT) errno = EINVAL; return fallback; } ret = _nm_utils_ascii_str_to_int64(value, base, min, max, fallback); errsv = errno; g_free(value); errno = errsv; return ret; } /*****************************************************************************/ char * nm_platform_sysctl_ip_conf_get(NMPlatform *self, int addr_family, const char *ifname, const char *property) { char buf[NM_UTILS_SYSCTL_IP_CONF_PATH_BUFSIZE]; return nm_platform_sysctl_get( self, NMP_SYSCTL_PATHID_ABSOLUTE( nm_utils_sysctl_ip_conf_path(addr_family, buf, ifname, property))); } gint64 nm_platform_sysctl_ip_conf_get_int_checked(NMPlatform *self, int addr_family, const char *ifname, const char *property, guint base, gint64 min, gint64 max, gint64 fallback) { char buf[NM_UTILS_SYSCTL_IP_CONF_PATH_BUFSIZE]; return nm_platform_sysctl_get_int_checked( self, NMP_SYSCTL_PATHID_ABSOLUTE( nm_utils_sysctl_ip_conf_path(addr_family, buf, ifname, property)), base, min, max, fallback); } gboolean nm_platform_sysctl_ip_conf_set(NMPlatform *self, int addr_family, const char *ifname, const char *property, const char *value) { char buf[NM_UTILS_SYSCTL_IP_CONF_PATH_BUFSIZE]; return nm_platform_sysctl_set( self, NMP_SYSCTL_PATHID_ABSOLUTE( nm_utils_sysctl_ip_conf_path(addr_family, buf, ifname, property)), value); } gboolean nm_platform_sysctl_ip_conf_set_int64(NMPlatform *self, int addr_family, const char *ifname, const char *property, gint64 value) { char buf[NM_UTILS_SYSCTL_IP_CONF_PATH_BUFSIZE]; char s[64]; return nm_platform_sysctl_set( self, NMP_SYSCTL_PATHID_ABSOLUTE( nm_utils_sysctl_ip_conf_path(addr_family, buf, ifname, property)), nm_sprintf_buf(s, "%" G_GINT64_FORMAT, value)); } int nm_platform_sysctl_ip_conf_get_rp_filter_ipv4(NMPlatform *self, const char *ifname, gboolean consider_all, gboolean * out_due_to_all) { int val, val_all; NM_SET_OUT(out_due_to_all, FALSE); if (!ifname) return -1; val = nm_platform_sysctl_ip_conf_get_int_checked(self, AF_INET, ifname, "rp_filter", 10, 0, 2, -1); if (val == -1) return -1; /* the effectively used value is the rp_filter sysctl value of MAX(all,ifname). * Note that this is the numerical MAX(), despite rp_filter "1" being more strict * than "2". */ if (val < 2 && consider_all && !nm_streq(ifname, "all")) { val_all = nm_platform_sysctl_ip_conf_get_int_checked(self, AF_INET, "all", "rp_filter", 10, 0, 2, val); if (val_all > val) { val = val_all; NM_SET_OUT(out_due_to_all, TRUE); } } return val; } /*****************************************************************************/ static int _link_get_all_presort(gconstpointer p_a, gconstpointer p_b, gpointer sort_by_name) { const NMPlatformLink *a = NMP_OBJECT_CAST_LINK(*((const NMPObject **) p_a)); const NMPlatformLink *b = NMP_OBJECT_CAST_LINK(*((const NMPObject **) p_b)); /* Loopback always first */ if (a->ifindex == 1) return -1; if (b->ifindex == 1) return 1; if (GPOINTER_TO_INT(sort_by_name)) { /* Initialized links first */ if (a->initialized > b->initialized) return -1; if (a->initialized < b->initialized) return 1; return strcmp(a->name, b->name); } else return a->ifindex - b->ifindex; } /** * nm_platform_link_get_all: * @self: platform instance * @sort_by_name: whether to sort by name or ifindex. * * Retrieve a snapshot of configuration for all links at once. The result is * owned by the caller and should be freed with g_ptr_array_unref(). */ GPtrArray * nm_platform_link_get_all(NMPlatform *self, gboolean sort_by_name) { gs_unref_ptrarray GPtrArray *links = NULL; GPtrArray * result; guint i, nresult; gs_unref_hashtable GHashTable *unseen = NULL; const NMPlatformLink * item; NMPLookup lookup; _CHECK_SELF(self, klass, NULL); nmp_lookup_init_obj_type(&lookup, NMP_OBJECT_TYPE_LINK); links = nm_dedup_multi_objs_to_ptr_array_head(nm_platform_lookup(self, &lookup), NULL, NULL); if (!links) return NULL; for (i = 0; i < links->len;) { if (!nmp_object_is_visible(links->pdata[i])) g_ptr_array_remove_index_fast(links, i); else i++; } if (links->len == 0) return NULL; /* first sort the links by their ifindex or name. Below we will sort * further by moving children/slaves to the end. */ g_ptr_array_sort_with_data(links, _link_get_all_presort, GINT_TO_POINTER(sort_by_name)); unseen = g_hash_table_new(nm_direct_hash, NULL); for (i = 0; i < links->len; i++) { item = NMP_OBJECT_CAST_LINK(links->pdata[i]); nm_assert(item->ifindex > 0); if (!g_hash_table_insert(unseen, GINT_TO_POINTER(item->ifindex), NULL)) nm_assert_not_reached(); } #if NM_MORE_ASSERTS /* Ensure that link_get_all returns a consistent and valid result. */ for (i = 0; i < links->len; i++) { item = NMP_OBJECT_CAST_LINK(links->pdata[i]); if (!item->ifindex) continue; if (item->master != 0) { g_warn_if_fail(item->master > 0); g_warn_if_fail(item->master != item->ifindex); g_warn_if_fail(g_hash_table_contains(unseen, GINT_TO_POINTER(item->master))); } if (item->parent != 0) { if (item->parent != NM_PLATFORM_LINK_OTHER_NETNS) { g_warn_if_fail(item->parent > 0); g_warn_if_fail(item->parent != item->ifindex); g_warn_if_fail(g_hash_table_contains(unseen, GINT_TO_POINTER(item->parent))); } } } #endif /* Re-order the links list such that children/slaves come after all ancestors */ nm_assert(g_hash_table_size(unseen) == links->len); nresult = links->len; result = g_ptr_array_new_full(nresult, (GDestroyNotify) nmp_object_unref); while (TRUE) { gboolean found_something = FALSE; guint first_idx = G_MAXUINT; for (i = 0; i < links->len; i++) { item = NMP_OBJECT_CAST_LINK(links->pdata[i]); if (!item) continue; g_assert(g_hash_table_contains(unseen, GINT_TO_POINTER(item->ifindex))); if (item->master > 0 && g_hash_table_contains(unseen, GINT_TO_POINTER(item->master))) goto skip; if (item->parent > 0 && g_hash_table_contains(unseen, GINT_TO_POINTER(item->parent))) goto skip; g_hash_table_remove(unseen, GINT_TO_POINTER(item->ifindex)); g_ptr_array_add(result, links->pdata[i]); links->pdata[i] = NULL; found_something = TRUE; continue; skip: if (first_idx == G_MAXUINT) first_idx = i; } if (found_something) { if (first_idx == G_MAXUINT) break; } else { nm_assert(first_idx != G_MAXUINT); /* There is a loop, pop the first (remaining) element from the list. * This can happen for veth pairs where each peer is parent of the other end. */ item = NMP_OBJECT_CAST_LINK(links->pdata[first_idx]); nm_assert(item); g_hash_table_remove(unseen, GINT_TO_POINTER(item->ifindex)); g_ptr_array_add(result, links->pdata[first_idx]); links->pdata[first_idx] = NULL; } nm_assert(result->len < nresult); } nm_assert(result->len == nresult); return result; } /*****************************************************************************/ const NMPObject * nm_platform_link_get_obj(NMPlatform *self, int ifindex, gboolean visible_only) { const NMPObject *obj_cache; _CHECK_SELF(self, klass, NULL); obj_cache = nmp_cache_lookup_link(nm_platform_get_cache(self), ifindex); if (!obj_cache || (visible_only && !nmp_object_is_visible(obj_cache))) return NULL; return obj_cache; } /*****************************************************************************/ /** * nm_platform_link_get: * @self: platform instance * @ifindex: ifindex of the link * * Lookup the internal NMPlatformLink object. * * Returns: %NULL, if such a link exists or the internal * platform link object. Do not modify the returned value. * Also, be aware that any subsequent platform call might * invalidate/modify the returned instance. **/ const NMPlatformLink * nm_platform_link_get(NMPlatform *self, int ifindex) { return NMP_OBJECT_CAST_LINK(nm_platform_link_get_obj(self, ifindex, TRUE)); } /** * nm_platform_link_get_by_ifname: * @self: platform instance * @ifname: the ifname * * Returns: the first #NMPlatformLink instance with the given name. **/ const NMPlatformLink * nm_platform_link_get_by_ifname(NMPlatform *self, const char *ifname) { const NMPObject *obj; _CHECK_SELF(self, klass, NULL); if (!ifname || !*ifname) return NULL; obj = nmp_cache_lookup_link_full(nm_platform_get_cache(self), 0, ifname, TRUE, NM_LINK_TYPE_NONE, NULL, NULL); return NMP_OBJECT_CAST_LINK(obj); } struct _nm_platform_link_get_by_address_data { gconstpointer data; guint8 len; }; static gboolean _nm_platform_link_get_by_address_match_link(const NMPObject * obj, struct _nm_platform_link_get_by_address_data *d) { return obj->link.l_address.len == d->len && !memcmp(obj->link.l_address.data, d->data, d->len); } /** * nm_platform_link_get_by_address: * @self: platform instance * @address: a pointer to the binary hardware address * @length: the size of @address in bytes * * Returns: the first #NMPlatformLink object with a matching * address. **/ const NMPlatformLink * nm_platform_link_get_by_address(NMPlatform * self, NMLinkType link_type, gconstpointer address, size_t length) { const NMPObject * obj; struct _nm_platform_link_get_by_address_data d = { .data = address, .len = length, }; _CHECK_SELF(self, klass, NULL); if (length == 0) return NULL; if (length > NM_UTILS_HWADDR_LEN_MAX) g_return_val_if_reached(NULL); if (!address) g_return_val_if_reached(NULL); obj = nmp_cache_lookup_link_full(nm_platform_get_cache(self), 0, NULL, TRUE, link_type, (NMPObjectMatchFn) _nm_platform_link_get_by_address_match_link, &d); return NMP_OBJECT_CAST_LINK(obj); } static int _link_add_check_existing(NMPlatform * self, const char * name, NMLinkType type, const NMPlatformLink **out_link) { const NMPlatformLink *pllink; pllink = nm_platform_link_get_by_ifname(self, name); if (pllink) { gboolean wrong_type; wrong_type = type != NM_LINK_TYPE_NONE && pllink->type != type; _LOG2D("link: skip adding link due to existing interface of type %s%s%s", nm_link_type_to_string(pllink->type), wrong_type ? ", expected " : "", wrong_type ? nm_link_type_to_string(type) : ""); if (out_link) *out_link = pllink; if (wrong_type) return -NME_PL_WRONG_TYPE; return -NME_PL_EXISTS; } if (out_link) *out_link = NULL; return 0; } /** * nm_platform_link_add: * @self: platform instance * @type: Interface type * @name: Interface name * @parent: the IFLA_LINK parameter or 0. * @address: (allow-none): set the mac address of the link * @address_len: the length of the @address * @extra_data: depending on @type, additional data. * @out_link: on success, the link object * * Add a software interface. If the interface already exists and is of type * @type, return -NME_PL_EXISTS and returns the link * in @out_link. If the interface already exists and is not of type @type, * return -NME_PL_WRONG_TYPE. * * Any link-changed ADDED signal will be emitted directly, before this * function finishes. * * Returns: the negative nm-error on failure. */ int nm_platform_link_add(NMPlatform * self, NMLinkType type, const char * name, int parent, const void * address, size_t address_len, guint32 mtu, gconstpointer extra_data, const NMPlatformLink **out_link) { int r; char addr_buf[NM_UTILS_HWADDR_LEN_MAX * 3]; char mtu_buf[16]; char parent_buf[64]; char buf[512]; _CHECK_SELF(self, klass, -NME_BUG); g_return_val_if_fail(name, -NME_BUG); g_return_val_if_fail((address != NULL) ^ (address_len == 0), -NME_BUG); g_return_val_if_fail(address_len <= NM_UTILS_HWADDR_LEN_MAX, -NME_BUG); g_return_val_if_fail(parent >= 0, -NME_BUG); r = _link_add_check_existing(self, name, type, out_link); if (r < 0) return r; _LOG2D("link: adding link: " "%s " /* type */ "\"%s\"" /* name */ "%s%s" /* parent */ "%s%s" /* address */ "%s%s" /* mtu */ "%s" /* extra_data */ "", nm_link_type_to_string(type), name, parent > 0 ? ", parent " : "", parent > 0 ? nm_sprintf_buf(parent_buf, "%d", parent) : "", address ? ", address: " : "", address ? _nm_utils_hwaddr_ntoa(address, address_len, FALSE, addr_buf, sizeof(addr_buf)) : "", mtu ? ", mtu: " : "", mtu ? nm_sprintf_buf(mtu_buf, "%u", mtu) : "", ({ char *buf_p = buf; gsize buf_len = sizeof(buf); buf[0] = '\0'; switch (type) { case NM_LINK_TYPE_BRIDGE: nm_utils_strbuf_append_str(&buf_p, &buf_len, ", "); nm_platform_lnk_bridge_to_string((const NMPlatformLnkBridge *) extra_data, buf_p, buf_len); break; case NM_LINK_TYPE_VLAN: nm_utils_strbuf_append_str(&buf_p, &buf_len, ", "); nm_platform_lnk_vlan_to_string((const NMPlatformLnkVlan *) extra_data, buf_p, buf_len); break; case NM_LINK_TYPE_VRF: nm_utils_strbuf_append_str(&buf_p, &buf_len, ", "); nm_platform_lnk_vrf_to_string((const NMPlatformLnkVrf *) extra_data, buf_p, buf_len); break; case NM_LINK_TYPE_VXLAN: nm_utils_strbuf_append_str(&buf_p, &buf_len, ", "); nm_platform_lnk_vxlan_to_string((const NMPlatformLnkVxlan *) extra_data, buf_p, buf_len); break; case NM_LINK_TYPE_VETH: nm_sprintf_buf(buf, ", veth-peer \"%s\"", (const char *) extra_data); break; case NM_LINK_TYPE_GRE: case NM_LINK_TYPE_GRETAP: nm_utils_strbuf_append_str(&buf_p, &buf_len, ", "); nm_platform_lnk_gre_to_string((const NMPlatformLnkGre *) extra_data, buf_p, buf_len); break; case NM_LINK_TYPE_SIT: nm_utils_strbuf_append_str(&buf_p, &buf_len, ", "); nm_platform_lnk_sit_to_string((const NMPlatformLnkSit *) extra_data, buf_p, buf_len); break; case NM_LINK_TYPE_IP6TNL: case NM_LINK_TYPE_IP6GRE: case NM_LINK_TYPE_IP6GRETAP: nm_utils_strbuf_append_str(&buf_p, &buf_len, ", "); nm_platform_lnk_ip6tnl_to_string((const NMPlatformLnkIp6Tnl *) extra_data, buf_p, buf_len); break; case NM_LINK_TYPE_IPIP: nm_utils_strbuf_append_str(&buf_p, &buf_len, ", "); nm_platform_lnk_ipip_to_string((const NMPlatformLnkIpIp *) extra_data, buf_p, buf_len); break; case NM_LINK_TYPE_MACSEC: nm_utils_strbuf_append_str(&buf_p, &buf_len, ", "); nm_platform_lnk_macsec_to_string((const NMPlatformLnkMacsec *) extra_data, buf_p, buf_len); break; case NM_LINK_TYPE_MACVLAN: case NM_LINK_TYPE_MACVTAP: nm_utils_strbuf_append_str(&buf_p, &buf_len, ", "); nm_platform_lnk_macvlan_to_string((const NMPlatformLnkMacvlan *) extra_data, buf_p, buf_len); break; default: nm_assert(!extra_data); break; } buf; })); return klass ->link_add(self, type, name, parent, address, address_len, mtu, extra_data, out_link); } /** * nm_platform_link_delete: * @self: platform instance * @ifindex: Interface index */ gboolean nm_platform_link_delete(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); _LOG3D("link: deleting"); return klass->link_delete(self, ifindex); } /** * nm_platform_link_set_netns: * @self: platform instance * @ifindex: Interface index * @netns_fd: the file descriptor for the new netns. * * Returns: %TRUE on success. */ gboolean nm_platform_link_set_netns(NMPlatform *self, int ifindex, int netns_fd) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(netns_fd > 0, FALSE); _LOG3D("link: move link to network namespace with fd %d", netns_fd); return klass->link_set_netns(self, ifindex, netns_fd); } /** * nm_platform_link_get_index: * @self: platform instance * @name: Interface name * * Returns: The interface index corresponding to the given interface name * or 0. Interface name is owned by #NMPlatform, don't free it. */ int nm_platform_link_get_ifindex(NMPlatform *self, const char *name) { const NMPlatformLink *pllink; pllink = nm_platform_link_get_by_ifname(self, name); return pllink ? pllink->ifindex : 0; } const char * nm_platform_if_indextoname(NMPlatform *self, int ifindex, char out_ifname[static 16 /* IFNAMSIZ */]) { _CHECK_SELF_NETNS(self, klass, netns, FALSE); return nmp_utils_if_indextoname(ifindex, out_ifname); } int nm_platform_if_nametoindex(NMPlatform *self, const char *ifname) { _CHECK_SELF_NETNS(self, klass, netns, FALSE); return nmp_utils_if_nametoindex(ifname); } /** * nm_platform_link_get_name: * @self: platform instance * @name: Interface name * * Returns: The interface name corresponding to the given interface index * or %NULL. */ const char * nm_platform_link_get_name(NMPlatform *self, int ifindex) { const NMPlatformLink *pllink; pllink = nm_platform_link_get(self, ifindex); return pllink ? pllink->name : NULL; } /** * nm_platform_link_get_type: * @self: platform instance * @ifindex: Interface index. * * Returns: Link type constant as defined in nm-platform.h. On error, * NM_LINK_TYPE_NONE is returned. */ NMLinkType nm_platform_link_get_type(NMPlatform *self, int ifindex) { const NMPlatformLink *pllink; pllink = nm_platform_link_get(self, ifindex); return pllink ? pllink->type : NM_LINK_TYPE_NONE; } /** * nm_platform_link_get_type_name: * @self: platform instance * @ifindex: Interface index. * * Returns: A string describing the type of link. In some cases this * may be more specific than nm_platform_link_get_type(), but in * other cases it may not. On error, %NULL is returned. */ const char * nm_platform_link_get_type_name(NMPlatform *self, int ifindex) { const NMPObject *obj; obj = nm_platform_link_get_obj(self, ifindex, TRUE); if (!obj) return NULL; if (obj->link.type != NM_LINK_TYPE_UNKNOWN) { /* We could detect the @link_type. In this case the function returns * our internal module names, which differs from rtnl_link_get_type(): * - NM_LINK_TYPE_INFINIBAND (gives "infiniband", instead of "ipoib") * - NM_LINK_TYPE_TAP (gives "tap", instead of "tun"). * Note that this functions is only used by NMDeviceGeneric to * set type_description. */ return nm_link_type_to_string(obj->link.type); } /* Link type not detected. Fallback to rtnl_link_get_type()/IFLA_INFO_KIND. */ return obj->link.kind ?: "unknown"; } static gboolean link_get_udev_property(NMPlatform *self, int ifindex, const char *name, const char **out_value) { struct udev_device *udevice = NULL; const char * uproperty; udevice = nm_platform_link_get_udev_device(self, ifindex); if (!udevice) return FALSE; uproperty = udev_device_get_property_value(udevice, name); if (!uproperty) return FALSE; NM_SET_OUT(out_value, uproperty); return TRUE; } /** * nm_platform_link_get_unmanaged: * @self: platform instance * @ifindex: interface index * @unmanaged: management status (in case %TRUE is returned) * * Returns: %TRUE if platform overrides NM default-unmanaged status, * %FALSE otherwise (with @unmanaged unmodified). */ gboolean nm_platform_link_get_unmanaged(NMPlatform *self, int ifindex, gboolean *unmanaged) { const char *value; if (link_get_udev_property(self, ifindex, "NM_UNMANAGED", &value)) { NM_SET_OUT(unmanaged, nm_udev_utils_property_as_boolean(value)); return TRUE; } return FALSE; } /** * nm_platform_link_is_software: * @self: platform instance * @ifindex: Interface index. * * Returns: %TRUE if ifindex belongs to a software interface, not backed by * a physical device. */ gboolean nm_platform_link_is_software(NMPlatform *self, int ifindex) { return nm_link_type_is_software(nm_platform_link_get_type(self, ifindex)); } /** * nm_platform_link_supports_slaves: * @self: platform instance * @ifindex: Interface index. * * Returns: %TRUE if ifindex belongs to an interface capable of enslaving * other interfaces. */ gboolean nm_platform_link_supports_slaves(NMPlatform *self, int ifindex) { return nm_link_type_supports_slaves(nm_platform_link_get_type(self, ifindex)); } /** * nm_platform_link_refresh: * @self: platform instance * @ifindex: Interface index * * Reload the cache for ifindex synchronously. */ gboolean nm_platform_link_refresh(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); if (klass->link_refresh) return klass->link_refresh(self, ifindex); return TRUE; } int nm_platform_link_get_ifi_flags(NMPlatform *self, int ifindex, guint requested_flags) { const NMPlatformLink *pllink; /* include invisible links (only in netlink, not udev). */ pllink = NMP_OBJECT_CAST_LINK(nm_platform_link_get_obj(self, ifindex, FALSE)); if (!pllink) return -ENODEV; /* Errors are signaled as negative values. That means, you cannot request * the most significant bit (2^31) with this API. Assert against that. */ nm_assert((int) requested_flags >= 0); nm_assert(requested_flags < (guint) G_MAXINT); return (int) (pllink->n_ifi_flags & requested_flags); } /** * nm_platform_link_is_up: * @self: platform instance * @ifindex: Interface index * * Check if the interface is up. */ gboolean nm_platform_link_is_up(NMPlatform *self, int ifindex) { return nm_platform_link_get_ifi_flags(self, ifindex, IFF_UP) == IFF_UP; } /** * nm_platform_link_is_connected: * @self: platform instance * @ifindex: Interface index * * Check if the interface is connected. */ gboolean nm_platform_link_is_connected(NMPlatform *self, int ifindex) { const NMPlatformLink *pllink; pllink = nm_platform_link_get(self, ifindex); return pllink ? pllink->connected : FALSE; } /** * nm_platform_link_uses_arp: * @self: platform instance * @ifindex: Interface index * * Check if the interface is configured to use ARP. */ gboolean nm_platform_link_uses_arp(NMPlatform *self, int ifindex) { int f; f = nm_platform_link_get_ifi_flags(self, ifindex, IFF_NOARP); if (f < 0) return FALSE; if (f == IFF_NOARP) return FALSE; return TRUE; } /** * nm_platform_link_set_ipv6_token: * @self: platform instance * @ifindex: Interface index * @iid: Tokenized interface identifier * * Sets then IPv6 tokenized interface identifier. * * Returns: %TRUE a tokenized identifier was available */ gboolean nm_platform_link_set_ipv6_token(NMPlatform *self, int ifindex, NMUtilsIPv6IfaceId iid) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex >= 0, FALSE); if (klass->link_set_token) return klass->link_set_token(self, ifindex, iid); return FALSE; } const char * nm_platform_link_get_udi(NMPlatform *self, int ifindex) { struct udev_device *device; device = nm_platform_link_get_udev_device(self, ifindex); return device ? udev_device_get_syspath(device) : NULL; } const char * nm_platform_link_get_path(NMPlatform *self, int ifindex) { const char *value = NULL; link_get_udev_property(self, ifindex, "ID_PATH", &value); return value; } struct udev_device * nm_platform_link_get_udev_device(NMPlatform *self, int ifindex) { const NMPObject *obj_cache; obj_cache = nm_platform_link_get_obj(self, ifindex, FALSE); return obj_cache ? obj_cache->_link.udev.device : NULL; } /** * nm_platform_link_get_user_ip6vll_enabled: * @self: platform instance * @ifindex: Interface index * * Check whether NM handles IPv6LL address creation for the link. If the * platform or OS doesn't support changing the IPv6LL address mode, this call * will fail and return %FALSE. * * Returns: %TRUE if NM handles the IPv6LL address for @ifindex */ gboolean nm_platform_link_get_user_ipv6ll_enabled(NMPlatform *self, int ifindex) { const NMPlatformLink *pllink; pllink = nm_platform_link_get(self, ifindex); if (pllink && pllink->inet6_addr_gen_mode_inv) return _nm_platform_uint8_inv(pllink->inet6_addr_gen_mode_inv) == NM_IN6_ADDR_GEN_MODE_NONE; return FALSE; } /** * nm_platform_link_set_user_ip6vll_enabled: * @self: platform instance * @ifindex: Interface index * * Set whether NM handles IPv6LL address creation for the link. If the * platform or OS doesn't support changing the IPv6LL address mode, this call * will fail and return %FALSE. * * Returns: the negative nm-error on failure. */ int nm_platform_link_set_user_ipv6ll_enabled(NMPlatform *self, int ifindex, gboolean enabled) { _CHECK_SELF(self, klass, -NME_BUG); g_return_val_if_fail(ifindex > 0, -NME_BUG); return klass->link_set_user_ipv6ll_enabled(self, ifindex, enabled); } /** * nm_platform_link_set_address: * @self: platform instance * @ifindex: Interface index * @address: The new MAC address * * Set interface MAC address. */ int nm_platform_link_set_address(NMPlatform *self, int ifindex, gconstpointer address, size_t length) { gs_free char *mac = NULL; _CHECK_SELF(self, klass, -NME_BUG); g_return_val_if_fail(ifindex > 0, -NME_BUG); g_return_val_if_fail(address, -NME_BUG); g_return_val_if_fail(length > 0, -NME_BUG); _LOG3D("link: setting hardware address to %s", (mac = nm_utils_hwaddr_ntoa(address, length))); return klass->link_set_address(self, ifindex, address, length); } /** * nm_platform_link_get_address: * @self: platform instance * @ifindex: Interface index * @length: Pointer to a variable to store address length * * Returns: the interface hardware address as an array of bytes of * length @length. */ gconstpointer nm_platform_link_get_address(NMPlatform *self, int ifindex, size_t *length) { const NMPlatformLink *pllink; pllink = nm_platform_link_get(self, ifindex); return nmp_link_address_get(pllink ? &pllink->l_address : NULL, length); } /** * nm_platform_link_get_permanent_address: * @self: platform instance * @ifindex: Interface index * @buf: buffer of at least %NM_UTILS_HWADDR_LEN_MAX bytes, on success * the permanent hardware address * @length: Pointer to a variable to store address length * * Returns: %TRUE on success, %FALSE on failure to read the permanent hardware * address. */ gboolean nm_platform_link_get_permanent_address(NMPlatform *self, int ifindex, guint8 *buf, size_t *length) { _CHECK_SELF(self, klass, FALSE); if (length) *length = 0; g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(buf, FALSE); g_return_val_if_fail(length, FALSE); if (klass->link_get_permanent_address) return klass->link_get_permanent_address(self, ifindex, buf, length); return FALSE; } gboolean nm_platform_link_supports_carrier_detect(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex >= 0, FALSE); return klass->link_supports_carrier_detect(self, ifindex); } gboolean nm_platform_link_supports_vlans(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex >= 0, FALSE); return klass->link_supports_vlans(self, ifindex); } gboolean nm_platform_link_supports_sriov(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex >= 0, FALSE); return klass->link_supports_sriov(self, ifindex); } /** * nm_platform_link_set_sriov_params: * @self: platform instance * @ifindex: the index of the interface to change * @num_vfs: the number of VFs to create * @autoprobe: the new autoprobe-drivers value (pass * %NM_OPTION_BOOL_DEFAULT to keep current value) * @callback: called when the operation finishes * @callback_data: data passed to @callback * @cancellable: cancellable to abort the operation * * Sets SR-IOV parameters asynchronously without * blocking the main thread. The callback function is * always invoked, and asynchronously. */ void nm_platform_link_set_sriov_params_async(NMPlatform * self, int ifindex, guint num_vfs, NMOptionBool autoprobe, NMPlatformAsyncCallback callback, gpointer callback_data, GCancellable * cancellable) { _CHECK_SELF_VOID(self, klass); g_return_if_fail(ifindex > 0); _LOG3D("link: setting %u total VFs and autoprobe %d", num_vfs, (int) autoprobe); klass->link_set_sriov_params_async(self, ifindex, num_vfs, autoprobe, callback, callback_data, cancellable); } gboolean nm_platform_link_set_sriov_vfs(NMPlatform *self, int ifindex, const NMPlatformVF *const *vfs) { guint i; _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); _LOG3D("link: setting VFs"); for (i = 0; vfs[i]; i++) { const NMPlatformVF *vf = vfs[i]; _LOG3D("link: VF %s", nm_platform_vf_to_string(vf, NULL, 0)); } return klass->link_set_sriov_vfs(self, ifindex, vfs); } gboolean nm_platform_link_set_bridge_vlans(NMPlatform * self, int ifindex, gboolean on_master, const NMPlatformBridgeVlan *const *vlans) { guint i; _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); _LOG3D("link: %s bridge VLANs on %s", vlans ? "setting" : "clearing", on_master ? "master" : "self"); if (vlans) { for (i = 0; vlans[i]; i++) { const NMPlatformBridgeVlan *vlan = vlans[i]; _LOG3D("link: bridge VLAN %s", nm_platform_bridge_vlan_to_string(vlan, NULL, 0)); } } return klass->link_set_bridge_vlans(self, ifindex, on_master, vlans); } /** * nm_platform_link_set_up: * @self: platform instance * @ifindex: Interface index * @out_no_firmware: (allow-none): if the failure reason is due to missing firmware. * * Bring the interface up. */ gboolean nm_platform_link_set_up(NMPlatform *self, int ifindex, gboolean *out_no_firmware) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); _LOG3D("link: setting up"); return klass->link_set_up(self, ifindex, out_no_firmware); } /** * nm_platform_link_set_down: * @self: platform instance * @ifindex: Interface index * * Take the interface down. */ gboolean nm_platform_link_set_down(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); _LOG3D("link: setting down"); return klass->link_set_down(self, ifindex); } /** * nm_platform_link_set_arp: * @self: platform instance * @ifindex: Interface index * * Enable ARP on the interface. */ gboolean nm_platform_link_set_arp(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex >= 0, FALSE); _LOG3D("link: setting arp"); return klass->link_set_arp(self, ifindex); } /** * nm_platform_link_set_noarp: * @self: platform instance * @ifindex: Interface index * * Disable ARP on the interface. */ gboolean nm_platform_link_set_noarp(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex >= 0, FALSE); _LOG3D("link: setting noarp"); return klass->link_set_noarp(self, ifindex); } /** * nm_platform_link_set_mtu: * @self: platform instance * @ifindex: Interface index * @mtu: The new MTU value * * Set interface MTU. */ int nm_platform_link_set_mtu(NMPlatform *self, int ifindex, guint32 mtu) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex >= 0, FALSE); g_return_val_if_fail(mtu > 0, FALSE); _LOG3D("link: setting mtu %" G_GUINT32_FORMAT, mtu); return klass->link_set_mtu(self, ifindex, mtu); } /** * nm_platform_link_get_mtu: * @self: platform instance * @ifindex: Interface index * * Returns: MTU value for the interface or 0 on error. */ guint32 nm_platform_link_get_mtu(NMPlatform *self, int ifindex) { const NMPlatformLink *pllink; pllink = nm_platform_link_get(self, ifindex); return pllink ? pllink->mtu : 0; } /** * nm_platform_link_set_name: * @self: platform instance * @ifindex: Interface index * @name: The new interface name * * Set interface name. */ gboolean nm_platform_link_set_name(NMPlatform *self, int ifindex, const char *name) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex >= 0, FALSE); g_return_val_if_fail(name, FALSE); _LOG3D("link: setting name %s", name); if (strlen(name) + 1 > IFNAMSIZ) return FALSE; return klass->link_set_name(self, ifindex, name); } /** * nm_platform_link_get_physical_port_id: * @self: platform instance * @ifindex: Interface index * * The physical port ID, if present, indicates some unique identifier of * the parent interface (eg, the physical port of which this link is a child). * Two links that report the same physical port ID can be assumed to be * children of the same physical port and may share resources that limit * their abilities. * * Returns: physical port ID for the interface, or %NULL on error * or if the interface has no physical port ID. */ char * nm_platform_link_get_physical_port_id(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, NULL); g_return_val_if_fail(ifindex >= 0, NULL); if (klass->link_get_physical_port_id) return klass->link_get_physical_port_id(self, ifindex); return NULL; } /** * nm_platform_link_get_dev_id: * @self: platform instance * @ifindex: Interface index * * In contrast to the physical device ID (which indicates which parent a * child has) the device ID differentiates sibling devices that may share * the same MAC address. * * Returns: device ID for the interface, or 0 on error or if the * interface has no device ID. */ guint nm_platform_link_get_dev_id(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, 0); g_return_val_if_fail(ifindex >= 0, 0); if (klass->link_get_dev_id) return klass->link_get_dev_id(self, ifindex); return 0; } /** * nm_platform_link_get_wake_onlan: * @self: platform instance * @ifindex: Interface index * * Returns: the "Wake-on-LAN" status for @ifindex. */ gboolean nm_platform_link_get_wake_on_lan(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex >= 0, FALSE); if (klass->link_get_wake_on_lan) return klass->link_get_wake_on_lan(self, ifindex); return FALSE; } /** * nm_platform_link_get_driver_info: * @self: platform instance * @ifindex: Interface index * @out_driver_name: (transfer full): on success, the driver name if available * @out_driver_version: (transfer full): on success, the driver version if available * @out_fw_version: (transfer full): on success, the firmware version if available * * Returns: %TRUE on success (though @out_driver_name, @out_driver_version and * @out_fw_version can be %NULL if no information was available), %FALSE on * failure. */ gboolean nm_platform_link_get_driver_info(NMPlatform *self, int ifindex, char ** out_driver_name, char ** out_driver_version, char ** out_fw_version) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex >= 0, FALSE); return klass->link_get_driver_info(self, ifindex, out_driver_name, out_driver_version, out_fw_version); } /** * nm_platform_link_enslave: * @self: platform instance * @master: Interface index of the master * @ifindex: Interface index of the slave * * Enslave @ifindex to @master. */ gboolean nm_platform_link_enslave(NMPlatform *self, int master, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(master > 0, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); _LOG3D("link: enslaving to master '%s'", nm_platform_link_get_name(self, master)); return klass->link_enslave(self, master, ifindex); } /** * nm_platform_link_release: * @self: platform instance * @master: Interface index of the master * @ifindex: Interface index of the slave * * Release @slave from @master. */ gboolean nm_platform_link_release(NMPlatform *self, int master, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(master > 0, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); if (nm_platform_link_get_master(self, ifindex) != master) return FALSE; _LOG3D("link: releasing from master '%s'", nm_platform_link_get_name(self, master)); return klass->link_release(self, master, ifindex); } /** * nm_platform_link_get_master: * @self: platform instance * @slave: Interface index of the slave. * * Returns: Interface index of the slave's master. */ int nm_platform_link_get_master(NMPlatform *self, int slave) { const NMPlatformLink *pllink; pllink = nm_platform_link_get(self, slave); return pllink ? pllink->master : 0; } /*****************************************************************************/ gboolean nm_platform_link_can_assume(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); if (klass->link_can_assume) return klass->link_can_assume(self, ifindex); g_return_val_if_reached(FALSE); } /*****************************************************************************/ /** * nm_platform_link_get_lnk: * @self: the platform instance * @ifindex: the link ifindex to lookup * @link_type: filter by link-type. * @out_link: (allow-none): returns the platform link instance * * If the function returns %NULL, that could mean that no such ifindex * exists, of that the link has no lnk data. You can find that out * by checking @out_link. @out_link will always be set if a link * with @ifindex exists. * * If @link_type is %NM_LINK_TYPE_NONE, the function returns the lnk * object if it is present. If you set link-type, you can be sure * that only a link type of the matching type is returned (or %NULL). * * Returns: the internal link lnk object. The returned object * is owned by the platform cache and must not be modified. Note * however, that the object is guaranteed to be immutable, so * you can safely take a reference and keep it for yourself * (but don't modify it). */ const NMPObject * nm_platform_link_get_lnk(NMPlatform * self, int ifindex, NMLinkType link_type, const NMPlatformLink **out_link) { const NMPObject *obj; obj = nm_platform_link_get_obj(self, ifindex, TRUE); if (!obj) { NM_SET_OUT(out_link, NULL); return NULL; } NM_SET_OUT(out_link, &obj->link); if (!obj->_link.netlink.lnk) return NULL; if (link_type != NM_LINK_TYPE_NONE && (link_type != obj->link.type || link_type != NMP_OBJECT_GET_CLASS(obj->_link.netlink.lnk)->lnk_link_type)) return NULL; return obj->_link.netlink.lnk; } static gconstpointer _link_get_lnk(NMPlatform *self, int ifindex, NMLinkType link_type, const NMPlatformLink **out_link) { const NMPObject *lnk; lnk = nm_platform_link_get_lnk(self, ifindex, link_type, out_link); return lnk ? &lnk->object : NULL; } const NMPlatformLnkBridge * nm_platform_link_get_lnk_bridge(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_BRIDGE, out_link); } const NMPlatformLnkGre * nm_platform_link_get_lnk_gre(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_GRE, out_link); } const NMPlatformLnkGre * nm_platform_link_get_lnk_gretap(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_GRETAP, out_link); } const NMPlatformLnkInfiniband * nm_platform_link_get_lnk_infiniband(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_INFINIBAND, out_link); } const NMPlatformLnkIp6Tnl * nm_platform_link_get_lnk_ip6tnl(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_IP6TNL, out_link); } const NMPlatformLnkIp6Tnl * nm_platform_link_get_lnk_ip6gre(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_IP6GRE, out_link); } const NMPlatformLnkIp6Tnl * nm_platform_link_get_lnk_ip6gretap(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_IP6GRETAP, out_link); } const NMPlatformLnkIpIp * nm_platform_link_get_lnk_ipip(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_IPIP, out_link); } const NMPlatformLnkMacsec * nm_platform_link_get_lnk_macsec(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_MACSEC, out_link); } const NMPlatformLnkMacvlan * nm_platform_link_get_lnk_macvlan(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_MACVLAN, out_link); } const NMPlatformLnkMacvlan * nm_platform_link_get_lnk_macvtap(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_MACVTAP, out_link); } const NMPlatformLnkSit * nm_platform_link_get_lnk_sit(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_SIT, out_link); } const NMPlatformLnkTun * nm_platform_link_get_lnk_tun(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_TUN, out_link); } const NMPlatformLnkVlan * nm_platform_link_get_lnk_vlan(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_VLAN, out_link); } const NMPlatformLnkVrf * nm_platform_link_get_lnk_vrf(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_VRF, out_link); } const NMPlatformLnkVxlan * nm_platform_link_get_lnk_vxlan(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_VXLAN, out_link); } const NMPlatformLnkWireGuard * nm_platform_link_get_lnk_wireguard(NMPlatform *self, int ifindex, const NMPlatformLink **out_link) { return _link_get_lnk(self, ifindex, NM_LINK_TYPE_WIREGUARD, out_link); } /*****************************************************************************/ static NM_UTILS_FLAGS2STR_DEFINE( _wireguard_change_flags_to_string, NMPlatformWireGuardChangeFlags, NM_UTILS_FLAGS2STR(NM_PLATFORM_WIREGUARD_CHANGE_FLAG_NONE, "none"), NM_UTILS_FLAGS2STR(NM_PLATFORM_WIREGUARD_CHANGE_FLAG_REPLACE_PEERS, "replace-peers"), NM_UTILS_FLAGS2STR(NM_PLATFORM_WIREGUARD_CHANGE_FLAG_HAS_PRIVATE_KEY, "has-private-key"), NM_UTILS_FLAGS2STR(NM_PLATFORM_WIREGUARD_CHANGE_FLAG_HAS_LISTEN_PORT, "has-listen-port"), NM_UTILS_FLAGS2STR(NM_PLATFORM_WIREGUARD_CHANGE_FLAG_HAS_FWMARK, "has-fwmark"), ); static NM_UTILS_FLAGS2STR_DEFINE( _wireguard_change_peer_flags_to_string, NMPlatformWireGuardChangePeerFlags, NM_UTILS_FLAGS2STR(NM_PLATFORM_WIREGUARD_CHANGE_PEER_FLAG_NONE, "none"), NM_UTILS_FLAGS2STR(NM_PLATFORM_WIREGUARD_CHANGE_PEER_FLAG_REMOVE_ME, "remove"), NM_UTILS_FLAGS2STR(NM_PLATFORM_WIREGUARD_CHANGE_PEER_FLAG_HAS_PRESHARED_KEY, "psk"), NM_UTILS_FLAGS2STR(NM_PLATFORM_WIREGUARD_CHANGE_PEER_FLAG_HAS_KEEPALIVE_INTERVAL, "ka"), NM_UTILS_FLAGS2STR(NM_PLATFORM_WIREGUARD_CHANGE_PEER_FLAG_HAS_ENDPOINT, "ep"), NM_UTILS_FLAGS2STR(NM_PLATFORM_WIREGUARD_CHANGE_PEER_FLAG_HAS_ALLOWEDIPS, "aips"), NM_UTILS_FLAGS2STR(NM_PLATFORM_WIREGUARD_CHANGE_PEER_FLAG_REPLACE_ALLOWEDIPS, "remove-aips"), ); int nm_platform_link_wireguard_change(NMPlatform * self, int ifindex, const NMPlatformLnkWireGuard * lnk_wireguard, const NMPWireGuardPeer * peers, const NMPlatformWireGuardChangePeerFlags *peer_flags, guint peers_len, NMPlatformWireGuardChangeFlags change_flags) { _CHECK_SELF(self, klass, -NME_BUG); nm_assert(klass->link_wireguard_change); if (_LOGD_ENABLED()) { char buf_lnk[256]; char buf_peers[512]; char buf_change_flags[100]; buf_peers[0] = '\0'; if (peers_len > 0) { char *b = buf_peers; gsize len = sizeof(buf_peers); guint i; nm_utils_strbuf_append_str(&b, &len, " { "); for (i = 0; i < peers_len; i++) { nm_utils_strbuf_append_str(&b, &len, " { "); nm_platform_wireguard_peer_to_string(&peers[i], b, len); nm_utils_strbuf_seek_end(&b, &len); if (peer_flags) { nm_utils_strbuf_append( &b, &len, " (%s)", _wireguard_change_peer_flags_to_string(peer_flags[i], buf_change_flags, sizeof(buf_change_flags))); } nm_utils_strbuf_append_str(&b, &len, " } "); } nm_utils_strbuf_append_str(&b, &len, "}"); } _LOG3D("link: change wireguard ifindex %d, %s, (%s), %u peers%s", ifindex, nm_platform_lnk_wireguard_to_string(lnk_wireguard, buf_lnk, sizeof(buf_lnk)), _wireguard_change_flags_to_string(change_flags, buf_change_flags, sizeof(buf_change_flags)), peers_len, buf_peers); } return klass->link_wireguard_change(self, ifindex, lnk_wireguard, peers, peer_flags, peers_len, change_flags); } /*****************************************************************************/ /** * nm_platform_link_tun_add: * @self: platform instance * @name: new interface name * @tap: whether the interface is a TAP * @owner: interface owner or -1 * @group: interface group or -1 * @pi: whether to clear the IFF_NO_PI flag * @vnet_hdr: whether to set the IFF_VNET_HDR flag * @multi_queue: whether to set the IFF_MULTI_QUEUE flag * @out_link: on success, the link object * @out_fd: (allow-none): if give, return the file descriptor for the * created device. Note that when creating a non-persistent device, * this argument is mandatory, otherwise it makes no sense * to create such an interface. * The caller is responsible for closing this file descriptor. * * Create a TUN or TAP interface. */ int nm_platform_link_tun_add(NMPlatform * self, const char * name, const NMPlatformLnkTun *props, const NMPlatformLink ** out_link, int * out_fd) { char b[255]; int r; _CHECK_SELF(self, klass, -NME_BUG); g_return_val_if_fail(name, -NME_BUG); g_return_val_if_fail(props, -NME_BUG); g_return_val_if_fail(NM_IN_SET(props->type, IFF_TUN, IFF_TAP), -NME_BUG); /* creating a non-persistent device requires that the caller handles * the file descriptor. */ g_return_val_if_fail(props->persist || out_fd, -NME_BUG); NM_SET_OUT(out_fd, -1); r = _link_add_check_existing(self, name, NM_LINK_TYPE_TUN, out_link); if (r < 0) return r; _LOG2D("link: adding link %s", nm_platform_lnk_tun_to_string(props, b, sizeof(b))); if (!klass->link_tun_add(self, name, props, out_link, out_fd)) return -NME_UNSPEC; return 0; } gboolean nm_platform_link_6lowpan_get_properties(NMPlatform *self, int ifindex, int *out_parent) { const NMPlatformLink *plink; plink = nm_platform_link_get(self, ifindex); if (!plink) return FALSE; if (plink->type != NM_LINK_TYPE_6LOWPAN) return FALSE; if (plink->parent != 0) { NM_SET_OUT(out_parent, plink->parent); return TRUE; } /* As of 4.16 kernel does not expose the peer_ifindex as IFA_LINK. * Find the WPAN device with the same MAC address. */ if (out_parent) { const NMPlatformLink *parent_plink; parent_plink = nm_platform_link_get_by_address(self, NM_LINK_TYPE_WPAN, plink->l_address.data, plink->l_address.len); NM_SET_OUT(out_parent, parent_plink ? parent_plink->ifindex : -1); } return TRUE; } /*****************************************************************************/ static gboolean link_set_option(NMPlatform *self, int ifindex, const char *category, const char *option, const char *value) { nm_auto_close int dirfd = -1; char ifname_verified[IFNAMSIZ]; const char * path; if (!category || !option) return FALSE; dirfd = nm_platform_sysctl_open_netdir(self, ifindex, ifname_verified); if (dirfd < 0) return FALSE; path = nm_sprintf_buf_unsafe_a(strlen(category) + strlen(option) + 2, "%s/%s", category, option); return nm_platform_sysctl_set(self, NMP_SYSCTL_PATHID_NETDIR_unsafe(dirfd, ifname_verified, path), value); } static char * link_get_option(NMPlatform *self, int ifindex, const char *category, const char *option) { nm_auto_close int dirfd = -1; char ifname_verified[IFNAMSIZ]; const char * path; if (!category || !option) return NULL; dirfd = nm_platform_sysctl_open_netdir(self, ifindex, ifname_verified); if (dirfd < 0) return NULL; path = nm_sprintf_buf_unsafe_a(strlen(category) + strlen(option) + 2, "%s/%s", category, option); return nm_platform_sysctl_get(self, NMP_SYSCTL_PATHID_NETDIR_unsafe(dirfd, ifname_verified, path)); } static const char * master_category(NMPlatform *self, int master) { switch (nm_platform_link_get_type(self, master)) { case NM_LINK_TYPE_BRIDGE: return "bridge"; case NM_LINK_TYPE_BOND: return "bonding"; default: return NULL; } } static const char * slave_category(NMPlatform *self, int slave) { int master = nm_platform_link_get_master(self, slave); if (master <= 0) return NULL; switch (nm_platform_link_get_type(self, master)) { case NM_LINK_TYPE_BRIDGE: return "brport"; default: return NULL; } } gboolean nm_platform_sysctl_master_set_option(NMPlatform *self, int ifindex, const char *option, const char *value) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(option, FALSE); g_return_val_if_fail(value, FALSE); return link_set_option(self, ifindex, master_category(self, ifindex), option, value); } char * nm_platform_sysctl_master_get_option(NMPlatform *self, int ifindex, const char *option) { _CHECK_SELF(self, klass, NULL); g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(option, FALSE); return link_get_option(self, ifindex, master_category(self, ifindex), option); } gboolean nm_platform_sysctl_slave_set_option(NMPlatform *self, int ifindex, const char *option, const char *value) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(option, FALSE); g_return_val_if_fail(value, FALSE); return link_set_option(self, ifindex, slave_category(self, ifindex), option, value); } char * nm_platform_sysctl_slave_get_option(NMPlatform *self, int ifindex, const char *option) { _CHECK_SELF(self, klass, NULL); g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(option, FALSE); return link_get_option(self, ifindex, slave_category(self, ifindex), option); } /*****************************************************************************/ gboolean nm_platform_link_vlan_change(NMPlatform * self, int ifindex, NMVlanFlags flags_mask, NMVlanFlags flags_set, gboolean ingress_reset_all, const NMVlanQosMapping *ingress_map, gsize n_ingress_map, gboolean egress_reset_all, const NMVlanQosMapping *egress_map, gsize n_egress_map) { _CHECK_SELF(self, klass, FALSE); nm_assert(klass->link_vlan_change); g_return_val_if_fail(!n_ingress_map || ingress_map, FALSE); g_return_val_if_fail(!n_egress_map || egress_map, FALSE); flags_set &= flags_mask; if (_LOGD_ENABLED()) { char buf[512]; char *b = buf; gsize len, i; b[0] = '\0'; len = sizeof(buf); if (flags_mask) nm_utils_strbuf_append(&b, &len, " flags 0x%x/0x%x", (unsigned) flags_set, (unsigned) flags_mask); if (ingress_reset_all || n_ingress_map) { nm_utils_strbuf_append_str(&b, &len, " ingress-qos-map"); nm_platform_vlan_qos_mapping_to_string("", ingress_map, n_ingress_map, b, len); i = strlen(b); b += i; len -= i; if (ingress_reset_all) nm_utils_strbuf_append_str(&b, &len, " (reset-all)"); } if (egress_reset_all || n_egress_map) { nm_utils_strbuf_append_str(&b, &len, " egress-qos-map"); nm_platform_vlan_qos_mapping_to_string("", egress_map, n_egress_map, b, len); i = strlen(b); b += i; len -= i; if (egress_reset_all) nm_utils_strbuf_append_str(&b, &len, " (reset-all)"); } _LOG3D("link: change vlan %s", buf); } return klass->link_vlan_change(self, ifindex, flags_mask, flags_set, ingress_reset_all, ingress_map, n_ingress_map, egress_reset_all, egress_map, n_egress_map); } gboolean nm_platform_link_vlan_set_ingress_map(NMPlatform *self, int ifindex, int from, int to) { NMVlanQosMapping map = { .from = from, .to = to, }; return nm_platform_link_vlan_change(self, ifindex, 0, 0, FALSE, &map, 1, FALSE, NULL, 0); } gboolean nm_platform_link_vlan_set_egress_map(NMPlatform *self, int ifindex, int from, int to) { NMVlanQosMapping map = { .from = from, .to = to, }; return nm_platform_link_vlan_change(self, ifindex, 0, 0, FALSE, NULL, 0, FALSE, &map, 1); } static int _infiniband_add_add_or_delete(NMPlatform * self, int ifindex, int p_key, gboolean add, const NMPlatformLink **out_link) { char name[IFNAMSIZ]; const NMPlatformLink *parent_link; int r; _CHECK_SELF(self, klass, -NME_BUG); g_return_val_if_fail(ifindex >= 0, -NME_BUG); g_return_val_if_fail(p_key >= 0 && p_key <= 0xffff, -NME_BUG); /* the special keys 0x0000 and 0x8000 are not allowed. */ if (NM_IN_SET(p_key, 0, 0x8000)) return -NME_UNSPEC; parent_link = nm_platform_link_get(self, ifindex); if (!parent_link) return -NME_PL_NOT_FOUND; if (parent_link->type != NM_LINK_TYPE_INFINIBAND) return -NME_PL_WRONG_TYPE; nm_utils_new_infiniband_name(name, parent_link->name, p_key); if (add) { r = _link_add_check_existing(self, name, NM_LINK_TYPE_INFINIBAND, out_link); if (r < 0) return r; _LOG3D("link: adding infiniband partition %s, key %d", name, p_key); if (!klass->infiniband_partition_add(self, ifindex, p_key, out_link)) return -NME_UNSPEC; } else { _LOG3D("link: deleting infiniband partition %s, key %d", name, p_key); if (!klass->infiniband_partition_delete(self, ifindex, p_key)) return -NME_UNSPEC; } return 0; } int nm_platform_link_infiniband_add(NMPlatform * self, int parent, int p_key, const NMPlatformLink **out_link) { return _infiniband_add_add_or_delete(self, parent, p_key, TRUE, out_link); } int nm_platform_link_infiniband_delete(NMPlatform *self, int parent, int p_key) { return _infiniband_add_add_or_delete(self, parent, p_key, FALSE, NULL); } gboolean nm_platform_link_infiniband_get_properties(NMPlatform * self, int ifindex, int * out_parent, int * out_p_key, const char **out_mode) { nm_auto_close int dirfd = -1; char ifname_verified[IFNAMSIZ]; const NMPlatformLnkInfiniband *plnk; const NMPlatformLink * plink; char * contents; const char * mode; int p_key = 0; _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); plnk = nm_platform_link_get_lnk_infiniband(self, ifindex, &plink); if (!plink || plink->type != NM_LINK_TYPE_INFINIBAND) return FALSE; if (plnk) { NM_SET_OUT(out_parent, plink->parent); NM_SET_OUT(out_p_key, plnk->p_key); NM_SET_OUT(out_mode, plnk->mode); return TRUE; } /* Could not get the link information via netlink. To support older kernels, * fallback to reading sysfs. */ dirfd = nm_platform_sysctl_open_netdir(self, ifindex, ifname_verified); if (dirfd < 0) return FALSE; contents = nm_platform_sysctl_get(self, NMP_SYSCTL_PATHID_NETDIR(dirfd, ifname_verified, "mode")); if (!contents) return FALSE; if (strstr(contents, "datagram")) mode = "datagram"; else if (strstr(contents, "connected")) mode = "connected"; else mode = NULL; g_free(contents); p_key = nm_platform_sysctl_get_int_checked(self, NMP_SYSCTL_PATHID_NETDIR(dirfd, ifname_verified, "pkey"), 16, 0, 0xFFFF, -1); if (p_key < 0) return FALSE; NM_SET_OUT(out_parent, plink->parent); NM_SET_OUT(out_p_key, p_key); NM_SET_OUT(out_mode, mode); return TRUE; } gboolean nm_platform_link_veth_get_properties(NMPlatform *self, int ifindex, int *out_peer_ifindex) { const NMPlatformLink *plink; int peer_ifindex; plink = nm_platform_link_get(self, ifindex); if (!plink) return FALSE; if (plink->type != NM_LINK_TYPE_VETH) return FALSE; if (plink->parent != 0) { NM_SET_OUT(out_peer_ifindex, plink->parent); return TRUE; } /* Pre-4.1 kernel did not expose the peer_ifindex as IFA_LINK. Lookup via ethtool. */ if (out_peer_ifindex) { nm_auto_pop_netns NMPNetns *netns = NULL; if (!nm_platform_netns_push(self, &netns)) return FALSE; peer_ifindex = nmp_utils_ethtool_get_peer_ifindex(plink->ifindex); if (peer_ifindex <= 0) return FALSE; *out_peer_ifindex = peer_ifindex; } return TRUE; } /** * nm_platform_link_tun_get_properties: * @self: the #NMPlatform instance * @ifindex: the ifindex to look up * @out_properties: (out) (allow-none): return the read properties * * Only recent versions of kernel export tun properties via netlink. * So, if that's the case, then we have the NMPlatformLnkTun instance * in the platform cache ready to return. Otherwise, this function * falls back reading sysctl to obtain the tun properties. That * is racy, because querying sysctl means that the object might * be already removed from cache (while NM didn't yet process the * netlink message). * * Hence, to lookup the tun properties, you always need to use this * function, and use it with care knowing that it might obtain its * data by reading sysctl. Note that we don't want to add this workaround * to the platform cache itself, because the cache should (mainly) * contain data from netlink. To access the sysctl side channel, the * user needs to do explicitly. * * Returns: #TRUE, if the properties could be read. */ gboolean nm_platform_link_tun_get_properties(NMPlatform *self, int ifindex, NMPlatformLnkTun *out_properties) { const NMPObject *plobj; const NMPObject *pllnk; char ifname[IFNAMSIZ]; gint64 owner; gint64 group; gint64 flags; /* we consider also invisible links (those that are not yet in udev). */ plobj = nm_platform_link_get_obj(self, ifindex, FALSE); if (!plobj) return FALSE; if (NMP_OBJECT_CAST_LINK(plobj)->type != NM_LINK_TYPE_TUN) return FALSE; pllnk = plobj->_link.netlink.lnk; if (pllnk) { nm_assert(NMP_OBJECT_GET_TYPE(pllnk) == NMP_OBJECT_TYPE_LNK_TUN); nm_assert(NMP_OBJECT_GET_CLASS(pllnk)->lnk_link_type == NM_LINK_TYPE_TUN); /* recent kernels expose tun properties via netlink and thus we have them * in the platform cache. */ NM_SET_OUT(out_properties, pllnk->lnk_tun); return TRUE; } /* fallback to reading sysctl. */ { nm_auto_close int dirfd = -1; dirfd = nm_platform_sysctl_open_netdir(self, ifindex, ifname); if (dirfd < 0) return FALSE; owner = nm_platform_sysctl_get_int_checked(self, NMP_SYSCTL_PATHID_NETDIR(dirfd, ifname, "owner"), 10, -1, G_MAXUINT32, -2); if (owner == -2) return FALSE; group = nm_platform_sysctl_get_int_checked(self, NMP_SYSCTL_PATHID_NETDIR(dirfd, ifname, "group"), 10, -1, G_MAXUINT32, -2); if (group == -2) return FALSE; flags = nm_platform_sysctl_get_int_checked(self, NMP_SYSCTL_PATHID_NETDIR(dirfd, ifname, "tun_flags"), 16, 0, G_MAXINT64, -1); if (flags == -1) return FALSE; } if (out_properties) { memset(out_properties, 0, sizeof(*out_properties)); if (owner != -1) { out_properties->owner_valid = TRUE; out_properties->owner = owner; } if (group != -1) { out_properties->group_valid = TRUE; out_properties->group = group; } out_properties->type = (flags & TUN_TYPE_MASK); out_properties->pi = !(flags & IFF_NO_PI); out_properties->vnet_hdr = !!(flags & IFF_VNET_HDR); out_properties->multi_queue = !!(flags & NM_IFF_MULTI_QUEUE); out_properties->persist = !!(flags & IFF_PERSIST); } return TRUE; } gboolean nm_platform_wifi_get_capabilities(NMPlatform *self, int ifindex, NMDeviceWifiCapabilities *caps) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return klass->wifi_get_capabilities(self, ifindex, caps); } guint32 nm_platform_wifi_get_frequency(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, 0); g_return_val_if_fail(ifindex > 0, 0); return klass->wifi_get_frequency(self, ifindex); } gboolean nm_platform_wifi_get_station(NMPlatform * self, int ifindex, NMEtherAddr *out_bssid, int * out_quality, guint32 * out_rate) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return klass->wifi_get_station(self, ifindex, out_bssid, out_quality, out_rate); } NM80211Mode nm_platform_wifi_get_mode(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, NM_802_11_MODE_UNKNOWN); g_return_val_if_fail(ifindex > 0, NM_802_11_MODE_UNKNOWN); return klass->wifi_get_mode(self, ifindex); } void nm_platform_wifi_set_mode(NMPlatform *self, int ifindex, NM80211Mode mode) { _CHECK_SELF_VOID(self, klass); g_return_if_fail(ifindex > 0); klass->wifi_set_mode(self, ifindex, mode); } static void wifi_set_powersave(NMPlatform *p, int ifindex, guint32 powersave) { /* empty */ } void nm_platform_wifi_set_powersave(NMPlatform *self, int ifindex, guint32 powersave) { _CHECK_SELF_VOID(self, klass); g_return_if_fail(ifindex > 0); klass->wifi_set_powersave(self, ifindex, powersave); } guint32 nm_platform_wifi_find_frequency(NMPlatform *self, int ifindex, const guint32 *freqs) { _CHECK_SELF(self, klass, 0); g_return_val_if_fail(ifindex > 0, 0); g_return_val_if_fail(freqs != NULL, 0); return klass->wifi_find_frequency(self, ifindex, freqs); } void nm_platform_wifi_indicate_addressing_running(NMPlatform *self, int ifindex, gboolean running) { _CHECK_SELF_VOID(self, klass); g_return_if_fail(ifindex > 0); klass->wifi_indicate_addressing_running(self, ifindex, running); } NMSettingWirelessWakeOnWLan nm_platform_wifi_get_wake_on_wlan(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return klass->wifi_get_wake_on_wlan(self, ifindex); } gboolean nm_platform_wifi_set_wake_on_wlan(NMPlatform *self, int ifindex, NMSettingWirelessWakeOnWLan wowl) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return klass->wifi_set_wake_on_wlan(self, ifindex, wowl); } guint32 nm_platform_mesh_get_channel(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, 0); g_return_val_if_fail(ifindex > 0, 0); return klass->mesh_get_channel(self, ifindex); } gboolean nm_platform_mesh_set_channel(NMPlatform *self, int ifindex, guint32 channel) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return klass->mesh_set_channel(self, ifindex, channel); } gboolean nm_platform_mesh_set_ssid(NMPlatform *self, int ifindex, const guint8 *ssid, gsize len) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(ssid != NULL, FALSE); return klass->mesh_set_ssid(self, ifindex, ssid, len); } guint16 nm_platform_wpan_get_pan_id(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return klass->wpan_get_pan_id(self, ifindex); } gboolean nm_platform_wpan_set_pan_id(NMPlatform *self, int ifindex, guint16 pan_id) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return klass->wpan_set_pan_id(self, ifindex, pan_id); } guint16 nm_platform_wpan_get_short_addr(NMPlatform *self, int ifindex) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return klass->wpan_get_short_addr(self, ifindex); } gboolean nm_platform_wpan_set_short_addr(NMPlatform *self, int ifindex, guint16 short_addr) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return klass->wpan_set_short_addr(self, ifindex, short_addr); } gboolean nm_platform_wpan_set_channel(NMPlatform *self, int ifindex, guint8 page, guint8 channel) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return klass->wpan_set_channel(self, ifindex, page, channel); } #define TO_STRING_DEV_BUF_SIZE (5 + 15 + 1) static const char * _to_string_dev(NMPlatform *self, int ifindex, char *buf, size_t size) { g_assert(buf && size >= TO_STRING_DEV_BUF_SIZE); if (ifindex) { const char *name = ifindex > 0 && self ? nm_platform_link_get_name(self, ifindex) : NULL; char * buf2; strcpy(buf, " dev "); buf2 = buf + 5; size -= 5; if (name) g_strlcpy(buf2, name, size); else g_snprintf(buf2, size, "%d", ifindex); } else buf[0] = 0; return buf; } #define TO_STRING_IFA_FLAGS_BUF_SIZE 256 static const char * _to_string_ifa_flags(guint32 ifa_flags, char *buf, gsize size) { #define S_FLAGS_PREFIX " flags " nm_assert(buf && size >= TO_STRING_IFA_FLAGS_BUF_SIZE && size > NM_STRLEN(S_FLAGS_PREFIX)); if (!ifa_flags) buf[0] = '\0'; else { nm_platform_addr_flags2str(ifa_flags, &buf[NM_STRLEN(S_FLAGS_PREFIX)], size - NM_STRLEN(S_FLAGS_PREFIX)); if (buf[NM_STRLEN(S_FLAGS_PREFIX)] == '\0') buf[0] = '\0'; else memcpy(buf, S_FLAGS_PREFIX, NM_STRLEN(S_FLAGS_PREFIX)); } return buf; } /*****************************************************************************/ gboolean nm_platform_ethtool_set_wake_on_lan(NMPlatform * self, int ifindex, _NMSettingWiredWakeOnLan wol, const char * wol_password) { _CHECK_SELF_NETNS(self, klass, netns, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return nmp_utils_ethtool_set_wake_on_lan(ifindex, wol, wol_password); } gboolean nm_platform_ethtool_set_link_settings(NMPlatform * self, int ifindex, gboolean autoneg, guint32 speed, NMPlatformLinkDuplexType duplex) { _CHECK_SELF_NETNS(self, klass, netns, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return nmp_utils_ethtool_set_link_settings(ifindex, autoneg, speed, duplex); } gboolean nm_platform_ethtool_get_link_settings(NMPlatform * self, int ifindex, gboolean * out_autoneg, guint32 * out_speed, NMPlatformLinkDuplexType *out_duplex) { _CHECK_SELF_NETNS(self, klass, netns, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return nmp_utils_ethtool_get_link_settings(ifindex, out_autoneg, out_speed, out_duplex); } /*****************************************************************************/ NMEthtoolFeatureStates * nm_platform_ethtool_get_link_features(NMPlatform *self, int ifindex) { _CHECK_SELF_NETNS(self, klass, netns, NULL); g_return_val_if_fail(ifindex > 0, NULL); return nmp_utils_ethtool_get_features(ifindex); } gboolean nm_platform_ethtool_set_features( NMPlatform * self, int ifindex, const NMEthtoolFeatureStates *features, const NMOptionBool *requested /* indexed by NMEthtoolID - _NM_ETHTOOL_ID_FEATURE_FIRST */, gboolean do_set /* or reset */) { _CHECK_SELF_NETNS(self, klass, netns, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return nmp_utils_ethtool_set_features(ifindex, features, requested, do_set); } gboolean nm_platform_ethtool_get_link_coalesce(NMPlatform * self, int ifindex, NMEthtoolCoalesceState *coalesce) { _CHECK_SELF_NETNS(self, klass, netns, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(coalesce, FALSE); return nmp_utils_ethtool_get_coalesce(ifindex, coalesce); } gboolean nm_platform_ethtool_set_coalesce(NMPlatform * self, int ifindex, const NMEthtoolCoalesceState *coalesce) { _CHECK_SELF_NETNS(self, klass, netns, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return nmp_utils_ethtool_set_coalesce(ifindex, coalesce); } gboolean nm_platform_ethtool_get_link_ring(NMPlatform *self, int ifindex, NMEthtoolRingState *ring) { _CHECK_SELF_NETNS(self, klass, netns, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(ring, FALSE); return nmp_utils_ethtool_get_ring(ifindex, ring); } gboolean nm_platform_ethtool_set_ring(NMPlatform *self, int ifindex, const NMEthtoolRingState *ring) { _CHECK_SELF_NETNS(self, klass, netns, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); return nmp_utils_ethtool_set_ring(ifindex, ring); } /*****************************************************************************/ const NMDedupMultiHeadEntry * nm_platform_lookup_all(NMPlatform *self, NMPCacheIdType cache_id_type, const NMPObject *obj) { return nmp_cache_lookup_all(nm_platform_get_cache(self), cache_id_type, obj); } const NMDedupMultiEntry * nm_platform_lookup_entry(NMPlatform *self, NMPCacheIdType cache_id_type, const NMPObject *obj) { return nmp_cache_lookup_entry_with_idx_type(nm_platform_get_cache(self), cache_id_type, obj); } const NMDedupMultiHeadEntry * nm_platform_lookup(NMPlatform *self, const NMPLookup *lookup) { return nmp_cache_lookup(nm_platform_get_cache(self), lookup); } gboolean nm_platform_lookup_predicate_routes_main(const NMPObject *obj, gpointer user_data) { nm_assert( NM_IN_SET(NMP_OBJECT_GET_TYPE(obj), NMP_OBJECT_TYPE_IP4_ROUTE, NMP_OBJECT_TYPE_IP6_ROUTE)); return nm_platform_route_table_is_main( nm_platform_ip_route_get_effective_table(&obj->ip_route)); } gboolean nm_platform_lookup_predicate_routes_main_skip_rtprot_kernel(const NMPObject *obj, gpointer user_data) { nm_assert( NM_IN_SET(NMP_OBJECT_GET_TYPE(obj), NMP_OBJECT_TYPE_IP4_ROUTE, NMP_OBJECT_TYPE_IP6_ROUTE)); return nm_platform_route_table_is_main(nm_platform_ip_route_get_effective_table(&obj->ip_route)) && obj->ip_route.rt_source != NM_IP_CONFIG_SOURCE_RTPROT_KERNEL; } /** * nm_platform_lookup_clone: * @self: * @lookup: * @predicate: if given, only objects for which @predicate returns %TRUE are included * in the result. * @user_data: user data for @predicate * * Returns the result of lookup in a GPtrArray. The result array contains * references objects from the cache, its destroy function will unref them. * * The user must unref the GPtrArray, which will also unref the NMPObject * elements. * * The elements in the array *must* not be modified. * * Returns: the result of the lookup. */ GPtrArray * nm_platform_lookup_clone(NMPlatform * self, const NMPLookup * lookup, NMPObjectPredicateFunc predicate, gpointer user_data) { return nm_dedup_multi_objs_to_ptr_array_head(nm_platform_lookup(self, lookup), (NMDedupMultiFcnSelectPredicate) predicate, user_data); } void nm_platform_ip4_address_set_addr(NMPlatformIP4Address *addr, in_addr_t address, guint8 plen) { nm_assert(plen <= 32); addr->address = address; addr->peer_address = address; addr->plen = plen; } const struct in6_addr * nm_platform_ip6_address_get_peer(const NMPlatformIP6Address *addr) { if (IN6_IS_ADDR_UNSPECIFIED(&addr->peer_address) || IN6_ARE_ADDR_EQUAL(&addr->peer_address, &addr->address)) return &addr->address; return &addr->peer_address; } gboolean nm_platform_ip6_address_match(const NMPlatformIP6Address *addr, NMPlatformMatchFlags match_flag) { nm_assert(!NM_FLAGS_ANY( match_flag, ~(NM_PLATFORM_MATCH_WITH_ADDRTYPE__ANY | NM_PLATFORM_MATCH_WITH_ADDRSTATE__ANY))); nm_assert(NM_FLAGS_ANY(match_flag, NM_PLATFORM_MATCH_WITH_ADDRTYPE__ANY)); nm_assert(NM_FLAGS_ANY(match_flag, NM_PLATFORM_MATCH_WITH_ADDRSTATE__ANY)); if (IN6_IS_ADDR_LINKLOCAL(&addr->address)) { if (!NM_FLAGS_HAS(match_flag, NM_PLATFORM_MATCH_WITH_ADDRTYPE_LINKLOCAL)) return FALSE; } else { if (!NM_FLAGS_HAS(match_flag, NM_PLATFORM_MATCH_WITH_ADDRTYPE_NORMAL)) return FALSE; } if (NM_FLAGS_HAS(addr->n_ifa_flags, IFA_F_DADFAILED)) { if (!NM_FLAGS_HAS(match_flag, NM_PLATFORM_MATCH_WITH_ADDRSTATE_DADFAILED)) return FALSE; } else if (NM_FLAGS_HAS(addr->n_ifa_flags, IFA_F_TENTATIVE) && !NM_FLAGS_HAS(addr->n_ifa_flags, IFA_F_OPTIMISTIC)) { if (!NM_FLAGS_HAS(match_flag, NM_PLATFORM_MATCH_WITH_ADDRSTATE_TENTATIVE)) return FALSE; } else { if (!NM_FLAGS_HAS(match_flag, NM_PLATFORM_MATCH_WITH_ADDRSTATE_NORMAL)) return FALSE; } return TRUE; } gboolean nm_platform_ip4_address_add(NMPlatform *self, int ifindex, in_addr_t address, guint8 plen, in_addr_t peer_address, in_addr_t broadcast_address, guint32 lifetime, guint32 preferred, guint32 flags, const char *label) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(plen <= 32, FALSE); g_return_val_if_fail(lifetime > 0, FALSE); g_return_val_if_fail(preferred <= lifetime, FALSE); g_return_val_if_fail(!label || strlen(label) < sizeof(((NMPlatformIP4Address *) NULL)->label), FALSE); if (_LOGD_ENABLED()) { NMPlatformIP4Address addr; addr = (NMPlatformIP4Address){ .ifindex = ifindex, .address = address, .peer_address = peer_address, .plen = plen, .timestamp = 0, /* set it at zero, which to_string will treat as *now* */ .lifetime = lifetime, .preferred = preferred, .n_ifa_flags = flags, .broadcast_address = broadcast_address, .use_ip4_broadcast_address = TRUE, }; if (label) g_strlcpy(addr.label, label, sizeof(addr.label)); _LOG3D("address: adding or updating IPv4 address: %s", nm_platform_ip4_address_to_string(&addr, NULL, 0)); } return klass->ip4_address_add(self, ifindex, address, plen, peer_address, broadcast_address, lifetime, preferred, flags, label); } gboolean nm_platform_ip6_address_add(NMPlatform * self, int ifindex, struct in6_addr address, guint8 plen, struct in6_addr peer_address, guint32 lifetime, guint32 preferred, guint32 flags) { _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(plen <= 128, FALSE); g_return_val_if_fail(lifetime > 0, FALSE); g_return_val_if_fail(preferred <= lifetime, FALSE); if (_LOGD_ENABLED()) { NMPlatformIP6Address addr = {0}; addr.ifindex = ifindex; addr.address = address; addr.peer_address = peer_address; addr.plen = plen; addr.timestamp = 0; /* set it to zero, which to_string will treat as *now* */ addr.lifetime = lifetime; addr.preferred = preferred; addr.n_ifa_flags = flags; _LOG3D("address: adding or updating IPv6 address: %s", nm_platform_ip6_address_to_string(&addr, NULL, 0)); } return klass ->ip6_address_add(self, ifindex, address, plen, peer_address, lifetime, preferred, flags); } gboolean nm_platform_ip4_address_delete(NMPlatform *self, int ifindex, in_addr_t address, guint8 plen, in_addr_t peer_address) { char str_dev[TO_STRING_DEV_BUF_SIZE]; char b1[NM_UTILS_INET_ADDRSTRLEN]; char b2[NM_UTILS_INET_ADDRSTRLEN]; char str_peer[INET_ADDRSTRLEN + 50]; _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(plen <= 32, FALSE); _LOG3D("address: deleting IPv4 address %s/%d, %s%s", _nm_utils_inet4_ntop(address, b1), plen, peer_address != address ? nm_sprintf_buf(str_peer, "peer %s, ", _nm_utils_inet4_ntop(peer_address, b2)) : "", _to_string_dev(self, ifindex, str_dev, sizeof(str_dev))); return klass->ip4_address_delete(self, ifindex, address, plen, peer_address); } gboolean nm_platform_ip6_address_delete(NMPlatform *self, int ifindex, struct in6_addr address, guint8 plen) { char str_dev[TO_STRING_DEV_BUF_SIZE]; char sbuf[NM_UTILS_INET_ADDRSTRLEN]; _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(ifindex > 0, FALSE); g_return_val_if_fail(plen <= 128, FALSE); _LOG3D("address: deleting IPv6 address %s/%d, %s", _nm_utils_inet6_ntop(&address, sbuf), plen, _to_string_dev(self, ifindex, str_dev, sizeof(str_dev))); return klass->ip6_address_delete(self, ifindex, address, plen); } const NMPlatformIP4Address * nm_platform_ip4_address_get(NMPlatform *self, int ifindex, in_addr_t address, guint8 plen, in_addr_t peer_address) { NMPObject obj_id; const NMPObject *obj; _CHECK_SELF(self, klass, NULL); g_return_val_if_fail(plen <= 32, NULL); nmp_object_stackinit_id_ip4_address(&obj_id, ifindex, address, plen, peer_address); obj = nmp_cache_lookup_obj(nm_platform_get_cache(self), &obj_id); nm_assert(!obj || nmp_object_is_visible(obj)); return NMP_OBJECT_CAST_IP4_ADDRESS(obj); } const NMPlatformIP6Address * nm_platform_ip6_address_get(NMPlatform *self, int ifindex, const struct in6_addr *address) { NMPObject obj_id; const NMPObject *obj; _CHECK_SELF(self, klass, NULL); nm_assert(address); nmp_object_stackinit_id_ip6_address(&obj_id, ifindex, address); obj = nmp_cache_lookup_obj(nm_platform_get_cache(self), &obj_id); nm_assert(!obj || nmp_object_is_visible(obj)); return NMP_OBJECT_CAST_IP6_ADDRESS(obj); } static gboolean _addr_array_clean_expired(int addr_family, int ifindex, GPtrArray * array, guint32 now, GHashTable **idx) { guint i; gboolean any_addrs = FALSE; nm_assert_addr_family(addr_family); nm_assert(ifindex > 0); nm_assert(now > 0); if (!array) return FALSE; /* remove all addresses that are already expired. */ for (i = 0; i < array->len; i++) { const NMPlatformIPAddress *a = NMP_OBJECT_CAST_IP_ADDRESS(array->pdata[i]); #if NM_MORE_ASSERTS > 10 nm_assert(a); nm_assert(a->ifindex == ifindex); { const NMPObject *o = NMP_OBJECT_UP_CAST(a); guint j; nm_assert(NMP_OBJECT_GET_CLASS(o)->addr_family == addr_family); for (j = i + 1; j < array->len; j++) { const NMPObject *o2 = array->pdata[j]; nm_assert(NMP_OBJECT_GET_TYPE(o) == NMP_OBJECT_GET_TYPE(o2)); nm_assert(!nmp_object_id_equal(o, o2)); } } #endif if (!NM_IS_IPv4(addr_family) && NM_FLAGS_HAS(a->n_ifa_flags, IFA_F_TEMPORARY)) { /* temporary addresses are never added explicitly by NetworkManager but * kernel adds them via mngtempaddr flag. * * We drop them from this list. */ goto clear_and_next; } if (!nm_utils_lifetime_get(a->timestamp, a->lifetime, a->preferred, now, NULL)) goto clear_and_next; if (idx) { if (G_UNLIKELY(!*idx)) { *idx = g_hash_table_new((GHashFunc) nmp_object_id_hash, (GEqualFunc) nmp_object_id_equal); } if (!g_hash_table_add(*idx, (gpointer) NMP_OBJECT_UP_CAST(a))) nm_assert_not_reached(); } any_addrs = TRUE; continue; clear_and_next: nmp_object_unref(g_steal_pointer(&array->pdata[i])); } return any_addrs; } static gboolean ip4_addr_subnets_is_plain_address(const GPtrArray *addresses, gconstpointer needle) { return needle >= (gconstpointer) &addresses->pdata[0] && needle < (gconstpointer) &addresses->pdata[addresses->len]; } static const NMPObject ** ip4_addr_subnets_addr_list_get(const GPtrArray *addr_list, guint idx) { nm_assert(addr_list); nm_assert(addr_list->len > 1); nm_assert(idx < addr_list->len); nm_assert(addr_list->pdata[idx]); nm_assert(!(*((gpointer *) addr_list->pdata[idx])) || NMP_OBJECT_CAST_IP4_ADDRESS(*((gpointer *) addr_list->pdata[idx]))); nm_assert(idx == 0 || ip4_addr_subnets_addr_list_get(addr_list, idx - 1)); return addr_list->pdata[idx]; } static void ip4_addr_subnets_destroy_index(GHashTable *subnets, const GPtrArray *addresses) { GHashTableIter iter; gpointer p; if (!subnets) return; g_hash_table_iter_init(&iter, subnets); while (g_hash_table_iter_next(&iter, NULL, &p)) { if (!ip4_addr_subnets_is_plain_address(addresses, p)) g_ptr_array_free((GPtrArray *) p, TRUE); } g_hash_table_unref(subnets); } static GHashTable * ip4_addr_subnets_build_index(const GPtrArray *addresses, gboolean consider_flags, gboolean full_index) { GHashTable *subnets; guint i; nm_assert(addresses && addresses->len); subnets = g_hash_table_new(nm_direct_hash, NULL); /* Build a hash table of all addresses per subnet */ for (i = 0; i < addresses->len; i++) { const NMPlatformIP4Address *address; gpointer p_address; GPtrArray * addr_list; guint32 net; int position; gpointer p; if (!addresses->pdata[i]) continue; p_address = &addresses->pdata[i]; address = NMP_OBJECT_CAST_IP4_ADDRESS(addresses->pdata[i]); net = address->address & _nm_utils_ip4_prefix_to_netmask(address->plen); if (!g_hash_table_lookup_extended(subnets, GUINT_TO_POINTER(net), NULL, &p)) { g_hash_table_insert(subnets, GUINT_TO_POINTER(net), p_address); continue; } nm_assert(p); if (full_index) { if (ip4_addr_subnets_is_plain_address(addresses, p)) { addr_list = g_ptr_array_new(); g_hash_table_insert(subnets, GUINT_TO_POINTER(net), addr_list); g_ptr_array_add(addr_list, p); } else addr_list = p; if (!consider_flags || NM_FLAGS_HAS(address->n_ifa_flags, IFA_F_SECONDARY)) position = -1; /* append */ else position = 0; /* prepend */ g_ptr_array_insert(addr_list, position, p_address); } else { /* we only care about the primary. No need to track the secondaries * as a GPtrArray. */ nm_assert(ip4_addr_subnets_is_plain_address(addresses, p)); if (consider_flags && !NM_FLAGS_HAS(address->n_ifa_flags, IFA_F_SECONDARY)) { g_hash_table_insert(subnets, GUINT_TO_POINTER(net), p_address); } } } return subnets; } /** * ip4_addr_subnets_is_secondary: * @address: an address * @subnets: the hash table mapping subnets to addresses * @addresses: array of addresses in the hash table * @out_addr_list: array of addresses belonging to the same subnet * * Checks whether @address is secondary and returns in @out_addr_list the list of addresses * belonging to the same subnet, if it contains other elements. * * Returns: %TRUE if the address is secondary, %FALSE otherwise */ static gboolean ip4_addr_subnets_is_secondary(const NMPObject * address, GHashTable * subnets, const GPtrArray * addresses, const GPtrArray **out_addr_list) { const NMPlatformIP4Address *a; const GPtrArray * addr_list; gconstpointer p; guint32 net; const NMPObject ** o; a = NMP_OBJECT_CAST_IP4_ADDRESS(address); net = a->address & _nm_utils_ip4_prefix_to_netmask(a->plen); p = g_hash_table_lookup(subnets, GUINT_TO_POINTER(net)); nm_assert(p); if (!ip4_addr_subnets_is_plain_address(addresses, p)) { addr_list = p; nm_assert(addr_list->len > 1); NM_SET_OUT(out_addr_list, addr_list); o = ip4_addr_subnets_addr_list_get(addr_list, 0); nm_assert(o && *o); if (*o != address) return TRUE; } else { NM_SET_OUT(out_addr_list, NULL); return address != *((gconstpointer *) p); } return FALSE; } typedef enum { IP6_ADDR_SCOPE_LOOPBACK, IP6_ADDR_SCOPE_LINKLOCAL, IP6_ADDR_SCOPE_SITELOCAL, IP6_ADDR_SCOPE_OTHER, } IP6AddrScope; static IP6AddrScope ip6_address_scope(const NMPlatformIP6Address *a) { if (IN6_IS_ADDR_LOOPBACK(&a->address)) return IP6_ADDR_SCOPE_LOOPBACK; if (IN6_IS_ADDR_LINKLOCAL(&a->address)) return IP6_ADDR_SCOPE_LINKLOCAL; if (IN6_IS_ADDR_SITELOCAL(&a->address)) return IP6_ADDR_SCOPE_SITELOCAL; return IP6_ADDR_SCOPE_OTHER; } static int ip6_address_scope_cmp(gconstpointer p_a, gconstpointer p_b, gpointer increasing) { const NMPlatformIP6Address *a; const NMPlatformIP6Address *b; if (!increasing) NM_SWAP(&p_a, &p_b); a = NMP_OBJECT_CAST_IP6_ADDRESS(*(const NMPObject *const *) p_a); b = NMP_OBJECT_CAST_IP6_ADDRESS(*(const NMPObject *const *) p_b); NM_CMP_DIRECT(ip6_address_scope(a), ip6_address_scope(b)); return 0; } /** * nm_platform_ip_address_sync: * @self: platform instance * @addr_family: the address family AF_INET or AF_INET6. * @ifindex: Interface index * @known_addresses: List of addresses. The list will be modified and only * addresses that were successfully added will be kept in the list. * That means, expired addresses and addresses that could not be added * will be dropped. * Hence, the input argument @known_addresses is also an output argument * telling which addresses were successfully added. * Addresses are removed by unrefing the instance via nmp_object_unref() * and leaving a NULL tombstone. * @addresses_prune: (allow-none): the list of addresses to delete. * If platform has such an address configured, it will be deleted * at the beginning of the sync. Note that the array will be modified * by the function. * Note that the addresses must be properly sorted, by their priority. * Create this list with nm_platform_ip_address_get_prune_list() which * gets the sorting right. * * A convenience function to synchronize addresses for a specific interface * with the least possible disturbance. It simply removes addresses that are * not listed and adds addresses that are. * * Returns: %TRUE on success. */ gboolean nm_platform_ip_address_sync(NMPlatform *self, int addr_family, int ifindex, GPtrArray * known_addresses, GPtrArray * addresses_prune) { const gint32 now = nm_utils_get_monotonic_timestamp_sec(); const int IS_IPv4 = NM_IS_IPv4(addr_family); gs_unref_hashtable GHashTable *known_addresses_idx = NULL; GPtrArray * plat_addresses; GHashTable * known_subnets = NULL; guint32 ifa_flags; guint i_plat; guint i_know; guint i; guint j; _CHECK_SELF(self, klass, FALSE); /* The order we want to enforce is only among addresses with the same * scope, as the kernel keeps addresses sorted by scope. Therefore, * apply the same sorting to known addresses, so that we don't try to * unnecessary change the order of addresses with different scopes. */ if (!IS_IPv4) { if (known_addresses) g_ptr_array_sort_with_data(known_addresses, ip6_address_scope_cmp, GINT_TO_POINTER(TRUE)); } if (!_addr_array_clean_expired(addr_family, ifindex, known_addresses, now, &known_addresses_idx)) known_addresses = NULL; /* @plat_addresses must be sorted in decreasing priority order (highest priority addresses first), contrary to * @known_addresses which is in increasing priority order (lowest priority addresses first). */ plat_addresses = addresses_prune; if (nm_g_ptr_array_len(plat_addresses) > 0) { /* Delete unknown addresses */ if (IS_IPv4) { GHashTable *plat_subnets; plat_subnets = ip4_addr_subnets_build_index(plat_addresses, TRUE, TRUE); for (i = 0; i < plat_addresses->len; i++) { const NMPObject * plat_obj; const NMPlatformIP4Address *plat_address; const GPtrArray * addr_list; plat_obj = plat_addresses->pdata[i]; if (!plat_obj) { /* Already deleted */ continue; } plat_address = NMP_OBJECT_CAST_IP4_ADDRESS(plat_obj); if (known_addresses) { const NMPObject *o; o = g_hash_table_lookup(known_addresses_idx, plat_obj); if (o) { gboolean secondary; if (!known_subnets) known_subnets = ip4_addr_subnets_build_index(known_addresses, FALSE, FALSE); secondary = ip4_addr_subnets_is_secondary(o, known_subnets, known_addresses, NULL); if (secondary == NM_FLAGS_HAS(plat_address->n_ifa_flags, IFA_F_SECONDARY)) { /* if we have an existing known-address, with matching secondary role, * do not delete the platform-address. */ continue; } } } nm_platform_ip4_address_delete(self, ifindex, plat_address->address, plat_address->plen, plat_address->peer_address); if (!ip4_addr_subnets_is_secondary(plat_obj, plat_subnets, plat_addresses, &addr_list) && addr_list) { /* If we just deleted a primary addresses and there were * secondary ones the kernel can do two things, depending on * version and sysctl setting: delete also secondary addresses * or promote a secondary to primary. Ensure that secondary * addresses are deleted, so that we can start with a clean * slate and add addresses in the right order. */ for (j = 1; j < addr_list->len; j++) { const NMPObject **o; o = ip4_addr_subnets_addr_list_get(addr_list, j); nm_assert(o); if (*o) { const NMPlatformIP4Address *a; a = NMP_OBJECT_CAST_IP4_ADDRESS(*o); nm_platform_ip4_address_delete(self, ifindex, a->address, a->plen, a->peer_address); nmp_object_unref(*o); *o = NULL; } } } } ip4_addr_subnets_destroy_index(plat_subnets, plat_addresses); } else { guint known_addresses_len; IP6AddrScope cur_scope; gboolean delete_remaining_addrs; g_ptr_array_sort_with_data(plat_addresses, ip6_address_scope_cmp, GINT_TO_POINTER(FALSE)); known_addresses_len = known_addresses ? known_addresses->len : 0; /* First, compare every address whether it is still a "known address", that is, whether * to keep it or to delete it. * * If we don't find a matching valid address in @known_addresses, we will delete * plat_addr. * * Certain addresses, like temporary addresses, are ignored by this function * if not run with full_sync. These addresses are usually not managed by NetworkManager * directly, or at least, they are not managed via nm_platform_ip6_address_sync(). * Only in full_sync mode, we really want to get rid of them (usually, when we take * the interface down). * * Note that we mark handled addresses by setting it to %NULL in @plat_addresses array. */ for (i_plat = 0; i_plat < plat_addresses->len; i_plat++) { const NMPObject * plat_obj = plat_addresses->pdata[i_plat]; const NMPObject * know_obj; const NMPlatformIP6Address *plat_addr = NMP_OBJECT_CAST_IP6_ADDRESS(plat_obj); if (known_addresses_idx) { know_obj = g_hash_table_lookup(known_addresses_idx, plat_obj); if (know_obj && plat_addr->plen == NMP_OBJECT_CAST_IP6_ADDRESS(know_obj)->plen) { /* technically, plen is not part of the ID for IPv6 addresses and thus * @plat_addr is essentially the same address as @know_addr (regrading * its identity, not its other attributes). * However, we cannot modify an existing addresses' plen without * removing and readding it. Thus, only keep plat_addr, if the plen * matches. * * keep this one, and continue */ continue; } } nm_platform_ip6_address_delete(self, ifindex, plat_addr->address, plat_addr->plen); nmp_object_unref(g_steal_pointer(&plat_addresses->pdata[i_plat])); } /* Next, we must preserve the priority of the routes. That is, source address * selection will choose addresses in the order as they are reported by kernel. * Note that the order in @plat_addresses of the remaining matches is highest * priority first. * We need to compare this to the order of addresses with same scope in * @known_addresses (which has lowest priority first). * * If we find a first discrepancy, we need to delete all remaining addresses * with same scope from that point on, because below we must re-add all the * addresses in the right order to get their priority right. */ cur_scope = IP6_ADDR_SCOPE_LOOPBACK; delete_remaining_addrs = FALSE; i_plat = plat_addresses->len; i_know = 0; while (i_plat > 0) { const NMPlatformIP6Address *plat_addr = NMP_OBJECT_CAST_IP6_ADDRESS(plat_addresses->pdata[--i_plat]); IP6AddrScope plat_scope; if (!plat_addr) continue; plat_scope = ip6_address_scope(plat_addr); if (cur_scope != plat_scope) { nm_assert(cur_scope < plat_scope); delete_remaining_addrs = FALSE; cur_scope = plat_scope; } if (!delete_remaining_addrs) { delete_remaining_addrs = TRUE; for (; i_know < known_addresses_len; i_know++) { const NMPlatformIP6Address *know_addr = NMP_OBJECT_CAST_IP6_ADDRESS(known_addresses->pdata[i_know]); IP6AddrScope know_scope; if (!know_addr) continue; know_scope = ip6_address_scope(know_addr); if (know_scope < plat_scope) continue; if (IN6_ARE_ADDR_EQUAL(&plat_addr->address, &know_addr->address)) { /* we have a match. Mark address as handled. */ i_know++; delete_remaining_addrs = FALSE; goto next_plat; } /* plat_address has no match. Now delete_remaining_addrs is TRUE and we will * delete all the remaining addresses with cur_scope. */ break; } } nm_platform_ip6_address_delete(self, ifindex, plat_addr->address, plat_addr->plen); next_plat:; } } } if (!known_addresses) return TRUE; if (IS_IPv4) ip4_addr_subnets_destroy_index(known_subnets, known_addresses); ifa_flags = nm_platform_kernel_support_get(NM_PLATFORM_KERNEL_SUPPORT_TYPE_EXTENDED_IFA_FLAGS) ? IFA_F_NOPREFIXROUTE : 0; /* Add missing addresses. New addresses are added by kernel with top * priority. */ for (i_know = 0; i_know < known_addresses->len; i_know++) { const NMPlatformIPXAddress *known_address; const NMPObject * o; guint32 lifetime; guint32 preferred; o = known_addresses->pdata[i_know]; if (!o) continue; nm_assert(NMP_OBJECT_GET_TYPE(o) == NMP_OBJECT_TYPE_IP_ADDRESS(IS_IPv4)); known_address = NMP_OBJECT_CAST_IPX_ADDRESS(o); lifetime = nm_utils_lifetime_get(known_address->ax.timestamp, known_address->ax.lifetime, known_address->ax.preferred, now, &preferred); nm_assert(lifetime > 0); if (IS_IPv4) { if (!nm_platform_ip4_address_add( self, ifindex, known_address->a4.address, known_address->a4.plen, known_address->a4.peer_address, nm_platform_ip4_broadcast_address_from_addr(&known_address->a4), lifetime, preferred, ifa_flags, known_address->a4.label)) { /* ignore error, for unclear reasons. */ } } else { if (!nm_platform_ip6_address_add(self, ifindex, known_address->a6.address, known_address->a6.plen, known_address->a6.peer_address, lifetime, preferred, ifa_flags | known_address->a6.n_ifa_flags)) return FALSE; } } return TRUE; } gboolean nm_platform_ip_address_flush(NMPlatform *self, int addr_family, int ifindex) { gboolean success = TRUE; _CHECK_SELF(self, klass, FALSE); nm_assert(NM_IN_SET(addr_family, AF_UNSPEC, AF_INET, AF_INET6)); if (NM_IN_SET(addr_family, AF_UNSPEC, AF_INET)) success &= nm_platform_ip4_address_sync(self, ifindex, NULL); if (NM_IN_SET(addr_family, AF_UNSPEC, AF_INET6)) success &= nm_platform_ip6_address_sync(self, ifindex, NULL, TRUE); return success; } /*****************************************************************************/ static gboolean _err_inval_due_to_ipv6_tentative_pref_src(NMPlatform *self, const NMPObject *obj) { const NMPlatformIP6Route * r; const NMPlatformIP6Address *a; nm_assert(NM_IS_PLATFORM(self)); nm_assert(NMP_OBJECT_IS_VALID(obj)); /* trying to add an IPv6 route with pref-src fails, if the address is * still tentative (rh#1452684). We need to hack around that. * * Detect it, by guessing whether that's the case. */ if (NMP_OBJECT_GET_TYPE(obj) != NMP_OBJECT_TYPE_IP6_ROUTE) return FALSE; r = NMP_OBJECT_CAST_IP6_ROUTE(obj); /* we only allow this workaround for routes added manually by the user. */ if (r->rt_source != NM_IP_CONFIG_SOURCE_USER) return FALSE; if (IN6_IS_ADDR_UNSPECIFIED(&r->pref_src)) return FALSE; a = nm_platform_ip6_address_get(self, r->ifindex, &r->pref_src); if (!a) return FALSE; if (!NM_FLAGS_HAS(a->n_ifa_flags, IFA_F_TENTATIVE) || NM_FLAGS_HAS(a->n_ifa_flags, IFA_F_DADFAILED)) return FALSE; return TRUE; } GPtrArray * nm_platform_ip_address_get_prune_list(NMPlatform *self, int addr_family, int ifindex, gboolean exclude_ipv6_temporary_addrs) { const int IS_IPv4 = NM_IS_IPv4(addr_family); const NMDedupMultiHeadEntry *head_entry; NMPLookup lookup; GPtrArray * result; CList * iter; nmp_lookup_init_object(&lookup, NMP_OBJECT_TYPE_IP_ADDRESS(NM_IS_IPv4(addr_family)), ifindex); head_entry = nm_platform_lookup(self, &lookup); if (!head_entry) return NULL; result = g_ptr_array_new_full(head_entry->len, (GDestroyNotify) nmp_object_unref); c_list_for_each (iter, &head_entry->lst_entries_head) { const NMPObject *obj = c_list_entry(iter, NMDedupMultiEntry, lst_entries)->obj; if (!IS_IPv4) { if (exclude_ipv6_temporary_addrs && NM_FLAGS_HAS(NMP_OBJECT_CAST_IP_ADDRESS(obj)->n_ifa_flags, IFA_F_TEMPORARY)) continue; } g_ptr_array_add(result, (gpointer) nmp_object_ref(obj)); } if (result->len == 0) { g_ptr_array_unref(result); return NULL; } return result; } GPtrArray * nm_platform_ip_route_get_prune_list(NMPlatform * self, int addr_family, int ifindex, NMIPRouteTableSyncMode route_table_sync) { NMPLookup lookup; GPtrArray * routes_prune; const NMDedupMultiHeadEntry *head_entry; CList * iter; nm_assert(NM_IS_PLATFORM(self)); nm_assert(NM_IN_SET(addr_family, AF_INET, AF_INET6)); nm_assert(NM_IN_SET(route_table_sync, NM_IP_ROUTE_TABLE_SYNC_MODE_MAIN, NM_IP_ROUTE_TABLE_SYNC_MODE_FULL, NM_IP_ROUTE_TABLE_SYNC_MODE_ALL)); nmp_lookup_init_object(&lookup, NMP_OBJECT_TYPE_IP_ROUTE(NM_IS_IPv4(addr_family)), ifindex); head_entry = nm_platform_lookup(self, &lookup); if (!head_entry) return NULL; routes_prune = g_ptr_array_new_full(head_entry->len, (GDestroyNotify) nm_dedup_multi_obj_unref); c_list_for_each (iter, &head_entry->lst_entries_head) { const NMPObject *obj = c_list_entry(iter, NMDedupMultiEntry, lst_entries)->obj; if (route_table_sync == NM_IP_ROUTE_TABLE_SYNC_MODE_FULL) { if (nm_platform_ip_route_get_effective_table(NMP_OBJECT_CAST_IP_ROUTE(obj)) == RT_TABLE_LOCAL) continue; } else if (route_table_sync == NM_IP_ROUTE_TABLE_SYNC_MODE_MAIN) { if (!nm_platform_route_table_is_main( nm_platform_ip_route_get_effective_table(NMP_OBJECT_CAST_IP_ROUTE(obj)))) continue; } else nm_assert(route_table_sync == NM_IP_ROUTE_TABLE_SYNC_MODE_ALL); g_ptr_array_add(routes_prune, (gpointer) nmp_object_ref(obj)); } if (routes_prune->len == 0) { g_ptr_array_unref(routes_prune); return NULL; } return routes_prune; } /** * nm_platform_ip_route_sync: * @self: the #NMPlatform instance. * @addr_family: AF_INET or AF_INET6. * @ifindex: the @ifindex for which the routes are to be added. * @routes: (allow-none): a list of routes to configure. Must contain * NMPObject instances of routes, according to @addr_family. * @routes_prune: (allow-none): the list of routes to delete. * If platform has such a route configured, it will be deleted * at the end of the operation. Note that if @routes contains * the same route, then it will not be deleted. @routes overrules * @routes_prune list. * @out_temporary_not_available: (allow-none) (out): routes that could * currently not be synced. The caller shall keep them and try later again. * * Returns: %TRUE on success. */ gboolean nm_platform_ip_route_sync(NMPlatform *self, int addr_family, int ifindex, GPtrArray * routes, GPtrArray * routes_prune, GPtrArray **out_temporary_not_available) { const int IS_IPv4 = NM_IS_IPv4(addr_family); const NMPlatformVTableRoute *vt; gs_unref_hashtable GHashTable *routes_idx = NULL; const NMPObject * conf_o; const NMDedupMultiEntry * plat_entry; guint i; int i_type; gboolean success = TRUE; char sbuf1[sizeof(_nm_utils_to_string_buffer)]; char sbuf2[sizeof(_nm_utils_to_string_buffer)]; nm_assert(NM_IS_PLATFORM(self)); nm_assert(ifindex > 0); vt = &nm_platform_vtable_route.vx[IS_IPv4]; for (i_type = 0; routes && i_type < 2; i_type++) { for (i = 0; i < routes->len; i++) { int r, r2; gboolean gateway_route_added = FALSE; conf_o = routes->pdata[i]; #define VTABLE_IS_DEVICE_ROUTE(vt, o) \ (vt->is_ip4 ? (NMP_OBJECT_CAST_IP4_ROUTE(o)->gateway == 0) \ : IN6_IS_ADDR_UNSPECIFIED(&NMP_OBJECT_CAST_IP6_ROUTE(o)->gateway)) if ((i_type == 0 && !VTABLE_IS_DEVICE_ROUTE(vt, conf_o)) || (i_type == 1 && VTABLE_IS_DEVICE_ROUTE(vt, conf_o))) { /* we add routes in two runs over @i_type. * * First device routes, then gateway routes. */ continue; } if (!routes_idx) { routes_idx = g_hash_table_new((GHashFunc) nmp_object_id_hash, (GEqualFunc) nmp_object_id_equal); } if (!g_hash_table_insert(routes_idx, (gpointer) conf_o, (gpointer) conf_o)) { _LOG3D("route-sync: skip adding duplicate route %s", nmp_object_to_string(conf_o, NMP_OBJECT_TO_STRING_PUBLIC, sbuf1, sizeof(sbuf1))); continue; } if (!IS_IPv4 && nm_platform_ip6_route_get_effective_metric(NMP_OBJECT_CAST_IP6_ROUTE(conf_o)) == 0) { /* User space cannot add routes with metric 0. However, kernel can, and we might track such * routes in @route as they are present external. Skip them silently. */ continue; } plat_entry = nm_platform_lookup_entry(self, NMP_CACHE_ID_TYPE_OBJECT_TYPE, conf_o); if (plat_entry) { const NMPObject *plat_o; plat_o = plat_entry->obj; if (vt->route_cmp(NMP_OBJECT_CAST_IPX_ROUTE(conf_o), NMP_OBJECT_CAST_IPX_ROUTE(plat_o), NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY) == 0) continue; /* we need to replace the existing route with a (slightly) different * one. Delete it first. */ if (!nm_platform_object_delete(self, plat_o)) { /* ignore error. */ } } sync_route_add: r = nm_platform_ip_route_add(self, NMP_NLM_FLAG_APPEND | NMP_NLM_FLAG_SUPPRESS_NETLINK_FAILURE, conf_o); if (r < 0) { if (r == -EEXIST) { /* Don't fail for EEXIST. It's not clear that the existing route * is identical to the one that we were about to add. However, * above we should have deleted conflicting (non-identical) routes. */ if (_LOGD_ENABLED()) { plat_entry = nm_platform_lookup_entry(self, NMP_CACHE_ID_TYPE_OBJECT_TYPE, conf_o); if (!plat_entry) { _LOG3D("route-sync: adding route %s failed with EEXIST, however we " "cannot find such a route", nmp_object_to_string(conf_o, NMP_OBJECT_TO_STRING_PUBLIC, sbuf1, sizeof(sbuf1))); } else if (vt->route_cmp(NMP_OBJECT_CAST_IPX_ROUTE(conf_o), NMP_OBJECT_CAST_IPX_ROUTE(plat_entry->obj), NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY) != 0) { _LOG3D("route-sync: adding route %s failed due to existing " "(different!) route %s", nmp_object_to_string(conf_o, NMP_OBJECT_TO_STRING_PUBLIC, sbuf1, sizeof(sbuf1)), nmp_object_to_string(plat_entry->obj, NMP_OBJECT_TO_STRING_PUBLIC, sbuf2, sizeof(sbuf2))); } } } else if (NMP_OBJECT_CAST_IP_ROUTE(conf_o)->rt_source < NM_IP_CONFIG_SOURCE_USER) { _LOG3D("route-sync: ignore failure to add IPv%c route: %s: %s", vt->is_ip4 ? '4' : '6', nmp_object_to_string(conf_o, NMP_OBJECT_TO_STRING_PUBLIC, sbuf1, sizeof(sbuf1)), nm_strerror(r)); } else if (r == -EINVAL && out_temporary_not_available && _err_inval_due_to_ipv6_tentative_pref_src(self, conf_o)) { _LOG3D("route-sync: ignore failure to add IPv6 route with tentative IPv6 " "pref-src: %s: %s", nmp_object_to_string(conf_o, NMP_OBJECT_TO_STRING_PUBLIC, sbuf1, sizeof(sbuf1)), nm_strerror(r)); if (!*out_temporary_not_available) *out_temporary_not_available = g_ptr_array_new_full(0, (GDestroyNotify) nmp_object_unref); g_ptr_array_add(*out_temporary_not_available, (gpointer) nmp_object_ref(conf_o)); } else if (!gateway_route_added && ((r == -ENETUNREACH && vt->is_ip4 && !!NMP_OBJECT_CAST_IP4_ROUTE(conf_o)->gateway) || (r == -EHOSTUNREACH && !vt->is_ip4 && !IN6_IS_ADDR_UNSPECIFIED( &NMP_OBJECT_CAST_IP6_ROUTE(conf_o)->gateway)))) { NMPObject oo; if (vt->is_ip4) { const NMPlatformIP4Route *rt = NMP_OBJECT_CAST_IP4_ROUTE(conf_o); nmp_object_stackinit( &oo, NMP_OBJECT_TYPE_IP4_ROUTE, &((NMPlatformIP4Route){ .ifindex = rt->ifindex, .network = rt->gateway, .plen = 32, .metric = nm_platform_ip4_route_get_effective_metric(rt), .rt_source = rt->rt_source, .table_coerced = nm_platform_ip_route_get_effective_table( NM_PLATFORM_IP_ROUTE_CAST(rt)), })); } else { const NMPlatformIP6Route *rt = NMP_OBJECT_CAST_IP6_ROUTE(conf_o); nmp_object_stackinit( &oo, NMP_OBJECT_TYPE_IP6_ROUTE, &((NMPlatformIP6Route){ .ifindex = rt->ifindex, .network = rt->gateway, .plen = 128, .metric = nm_platform_ip6_route_get_effective_metric(rt), .rt_source = rt->rt_source, .table_coerced = nm_platform_ip_route_get_effective_table( NM_PLATFORM_IP_ROUTE_CAST(rt)), })); } _LOG3D("route-sync: failure to add IPv%c route: %s: %s; try adding direct " "route to gateway %s", vt->is_ip4 ? '4' : '6', nmp_object_to_string(conf_o, NMP_OBJECT_TO_STRING_PUBLIC, sbuf1, sizeof(sbuf1)), nm_strerror(r), nmp_object_to_string(&oo, NMP_OBJECT_TO_STRING_PUBLIC, sbuf2, sizeof(sbuf2))); r2 = nm_platform_ip_route_add(self, NMP_NLM_FLAG_APPEND | NMP_NLM_FLAG_SUPPRESS_NETLINK_FAILURE, &oo); if (r2 < 0) { _LOG3D("route-sync: failure to add gateway IPv%c route: %s: %s", vt->is_ip4 ? '4' : '6', nmp_object_to_string(conf_o, NMP_OBJECT_TO_STRING_PUBLIC, sbuf1, sizeof(sbuf1)), nm_strerror(r2)); } gateway_route_added = TRUE; goto sync_route_add; } else { _LOG3W("route-sync: failure to add IPv%c route: %s: %s", vt->is_ip4 ? '4' : '6', nmp_object_to_string(conf_o, NMP_OBJECT_TO_STRING_PUBLIC, sbuf1, sizeof(sbuf1)), nm_strerror(r)); success = FALSE; } } } } if (routes_prune) { for (i = 0; i < routes_prune->len; i++) { const NMPObject *prune_o; prune_o = routes_prune->pdata[i]; nm_assert((NM_IS_IPv4(addr_family) && NMP_OBJECT_GET_TYPE(prune_o) == NMP_OBJECT_TYPE_IP4_ROUTE) || (!NM_IS_IPv4(addr_family) && NMP_OBJECT_GET_TYPE(prune_o) == NMP_OBJECT_TYPE_IP6_ROUTE)); if (routes_idx && g_hash_table_lookup(routes_idx, prune_o)) continue; if (!nm_platform_lookup_entry(self, NMP_CACHE_ID_TYPE_OBJECT_TYPE, prune_o)) continue; if (!nm_platform_object_delete(self, prune_o)) { /* ignore error... */ } } } return success; } gboolean nm_platform_ip_route_flush(NMPlatform *self, int addr_family, int ifindex) { gboolean success = TRUE; _CHECK_SELF(self, klass, FALSE); nm_assert(NM_IN_SET(addr_family, AF_UNSPEC, AF_INET, AF_INET6)); if (NM_IN_SET(addr_family, AF_UNSPEC, AF_INET)) { gs_unref_ptrarray GPtrArray *routes_prune = NULL; routes_prune = nm_platform_ip_route_get_prune_list(self, AF_INET, ifindex, NM_IP_ROUTE_TABLE_SYNC_MODE_ALL); success &= nm_platform_ip_route_sync(self, AF_INET, ifindex, NULL, routes_prune, NULL); } if (NM_IN_SET(addr_family, AF_UNSPEC, AF_INET6)) { gs_unref_ptrarray GPtrArray *routes_prune = NULL; routes_prune = nm_platform_ip_route_get_prune_list(self, AF_INET6, ifindex, NM_IP_ROUTE_TABLE_SYNC_MODE_ALL); success &= nm_platform_ip_route_sync(self, AF_INET6, ifindex, NULL, routes_prune, NULL); } return success; } /*****************************************************************************/ static guint8 _ip_route_scope_inv_get_normalized(const NMPlatformIP4Route *route) { /* in kernel, you cannot set scope to RT_SCOPE_NOWHERE (255). * That means, in NM, we treat RT_SCOPE_NOWHERE as unset, and detect * it based on the presence of the gateway. In other words, when adding * a route with scope RT_SCOPE_NOWHERE (in NetworkManager) to kernel, * the resulting scope will be either "link" or "universe" (depending * on the gateway). * * Note that internally, we track @scope_inv is the inverse of scope, * so that the default equals zero (~(RT_SCOPE_NOWHERE)). **/ if (route->scope_inv == 0) { if (route->type_coerced == nm_platform_route_type_coerce(RTN_LOCAL)) return nm_platform_route_scope_inv(RT_SCOPE_HOST); else { return nm_platform_route_scope_inv(!route->gateway ? RT_SCOPE_LINK : RT_SCOPE_UNIVERSE); } } return route->scope_inv; } static guint8 _route_pref_normalize(guint8 pref) { /* for kernel (and ICMPv6) pref can only have one of 3 values. Normalize. */ return NM_IN_SET(pref, NM_ICMPV6_ROUTER_PREF_LOW, NM_ICMPV6_ROUTER_PREF_HIGH) ? pref : NM_ICMPV6_ROUTER_PREF_MEDIUM; } /** * nm_platform_ip_route_normalize: * @addr_family: AF_INET or AF_INET6 * @route: an NMPlatformIP4Route or NMPlatformIP6Route instance, depending on @addr_family. * * Adding a route to kernel via nm_platform_ip_route_add() will normalize/coerce some * properties of the route. This function modifies (normalizes) the route like it * would be done by adding the route in kernel. * * Note that this function is related to NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY * in that if two routes compare semantically equal, after normalizing they also shall * compare equal with NM_PLATFORM_IP_ROUTE_CMP_TYPE_FULL. */ void nm_platform_ip_route_normalize(int addr_family, NMPlatformIPRoute *route) { NMPlatformIP4Route *r4; NMPlatformIP6Route *r6; route->table_coerced = nm_platform_route_table_coerce(nm_platform_ip_route_get_effective_table(route)); route->table_any = FALSE; route->rt_source = nmp_utils_ip_config_source_round_trip_rtprot(route->rt_source); switch (addr_family) { case AF_INET: r4 = (NMPlatformIP4Route *) route; route->metric = nm_platform_ip4_route_get_effective_metric(r4); route->metric_any = FALSE; r4->network = nm_utils_ip4_address_clear_host_address(r4->network, r4->plen); r4->scope_inv = _ip_route_scope_inv_get_normalized(r4); break; case AF_INET6: r6 = (NMPlatformIP6Route *) route; route->metric = nm_platform_ip6_route_get_effective_metric(r6); route->metric_any = FALSE; nm_utils_ip6_address_clear_host_address(&r6->network, &r6->network, r6->plen); nm_utils_ip6_address_clear_host_address(&r6->src, &r6->src, r6->src_plen); break; default: nm_assert_not_reached(); break; } } static int _ip_route_add(NMPlatform *self, NMPNlmFlags flags, int addr_family, gconstpointer route) { char sbuf[sizeof(_nm_utils_to_string_buffer)]; int ifindex; _CHECK_SELF(self, klass, FALSE); nm_assert(route); nm_assert(NM_IN_SET(addr_family, AF_INET, AF_INET6)); ifindex = ((const NMPlatformIPRoute *) route)->ifindex; _LOG3D("route: %-10s IPv%c route: %s", _nmp_nlm_flag_to_string(flags & NMP_NLM_FLAG_FMASK), nm_utils_addr_family_to_char(addr_family), NM_IS_IPv4(addr_family) ? nm_platform_ip4_route_to_string(route, sbuf, sizeof(sbuf)) : nm_platform_ip6_route_to_string(route, sbuf, sizeof(sbuf))); return klass->ip_route_add(self, flags, addr_family, route); } int nm_platform_ip_route_add(NMPlatform *self, NMPNlmFlags flags, const NMPObject *route) { int addr_family; switch (NMP_OBJECT_GET_TYPE(route)) { case NMP_OBJECT_TYPE_IP4_ROUTE: addr_family = AF_INET; break; case NMP_OBJECT_TYPE_IP6_ROUTE: addr_family = AF_INET6; break; default: g_return_val_if_reached(FALSE); } return _ip_route_add(self, flags, addr_family, NMP_OBJECT_CAST_IP_ROUTE(route)); } int nm_platform_ip4_route_add(NMPlatform *self, NMPNlmFlags flags, const NMPlatformIP4Route *route) { return _ip_route_add(self, flags, AF_INET, route); } int nm_platform_ip6_route_add(NMPlatform *self, NMPNlmFlags flags, const NMPlatformIP6Route *route) { return _ip_route_add(self, flags, AF_INET6, route); } gboolean nm_platform_object_delete(NMPlatform *self, const NMPObject *obj) { int ifindex; _CHECK_SELF(self, klass, FALSE); switch (NMP_OBJECT_GET_TYPE(obj)) { case NMP_OBJECT_TYPE_ROUTING_RULE: _LOGD("%s: delete %s", NMP_OBJECT_GET_CLASS(obj)->obj_type_name, nmp_object_to_string(obj, NMP_OBJECT_TO_STRING_PUBLIC, NULL, 0)); break; case NMP_OBJECT_TYPE_IP4_ROUTE: case NMP_OBJECT_TYPE_IP6_ROUTE: case NMP_OBJECT_TYPE_QDISC: case NMP_OBJECT_TYPE_TFILTER: ifindex = NMP_OBJECT_CAST_OBJ_WITH_IFINDEX(obj)->ifindex; _LOG3D("%s: delete %s", NMP_OBJECT_GET_CLASS(obj)->obj_type_name, nmp_object_to_string(obj, NMP_OBJECT_TO_STRING_PUBLIC, NULL, 0)); break; default: g_return_val_if_reached(FALSE); } return klass->object_delete(self, obj); } /*****************************************************************************/ int nm_platform_ip_route_get(NMPlatform * self, int addr_family, gconstpointer address /* in_addr_t or struct in6_addr */, int oif_ifindex, NMPObject ** out_route) { nm_auto_nmpobj NMPObject *route = NULL; int result; char buf[NM_UTILS_INET_ADDRSTRLEN]; char buf_oif[64]; _CHECK_SELF(self, klass, FALSE); g_return_val_if_fail(address, -NME_BUG); g_return_val_if_fail(NM_IN_SET(addr_family, AF_INET, AF_INET6), -NME_BUG); _LOGT("route: get IPv%c route for: %s%s", nm_utils_addr_family_to_char(addr_family), inet_ntop(addr_family, address, buf, sizeof(buf)), oif_ifindex > 0 ? nm_sprintf_buf(buf_oif, " oif %d", oif_ifindex) : ""); if (!klass->ip_route_get) result = -NME_PL_OPNOTSUPP; else { result = klass->ip_route_get(self, addr_family, address, oif_ifindex, &route); } if (result < 0) { nm_assert(!route); _LOGW("route: get IPv%c route for: %s failed with %s", nm_utils_addr_family_to_char(addr_family), inet_ntop(addr_family, address, buf, sizeof(buf)), nm_strerror(result)); } else { nm_assert(NM_IN_SET(NMP_OBJECT_GET_TYPE(route), NMP_OBJECT_TYPE_IP4_ROUTE, NMP_OBJECT_TYPE_IP6_ROUTE)); nm_assert(!NMP_OBJECT_IS_STACKINIT(route)); nm_assert(route->parent._ref_count == 1); _LOGD("route: get IPv%c route for: %s succeeded: %s", nm_utils_addr_family_to_char(addr_family), inet_ntop(addr_family, address, buf, sizeof(buf)), nmp_object_to_string(route, NMP_OBJECT_TO_STRING_PUBLIC, NULL, 0)); NM_SET_OUT(out_route, g_steal_pointer(&route)); } return result; } /*****************************************************************************/ #define IP4_DEV_ROUTE_BLACKLIST_TIMEOUT_MS ((int) 1500) #define IP4_DEV_ROUTE_BLACKLIST_GC_TIMEOUT_S \ ((int) (((IP4_DEV_ROUTE_BLACKLIST_TIMEOUT_MS + 999) * 3) / 1000)) static gint64 _ip4_dev_route_blacklist_timeout_ms_get(gint64 timeout_msec) { return timeout_msec >> 1; } static gint64 _ip4_dev_route_blacklist_timeout_ms_marked(gint64 timeout_msec) { return !!(timeout_msec & ((gint64) 1)); } static gboolean _ip4_dev_route_blacklist_check_cb(gpointer user_data) { NMPlatform * self = user_data; NMPlatformPrivate *priv = NM_PLATFORM_GET_PRIVATE(self); GHashTableIter iter; const NMPObject * p_obj; gint64 * p_timeout_ms; gint64 now_ms; priv->ip4_dev_route_blacklist_check_id = 0; again: if (!priv->ip4_dev_route_blacklist_hash) goto out; now_ms = nm_utils_get_monotonic_timestamp_msec(); g_hash_table_iter_init(&iter, priv->ip4_dev_route_blacklist_hash); while (g_hash_table_iter_next(&iter, (gpointer *) &p_obj, (gpointer *) &p_timeout_ms)) { if (!_ip4_dev_route_blacklist_timeout_ms_marked(*p_timeout_ms)) continue; /* unmark because we checked it. */ *p_timeout_ms = *p_timeout_ms & ~((gint64) 1); if (now_ms > _ip4_dev_route_blacklist_timeout_ms_get(*p_timeout_ms)) continue; if (!nm_platform_lookup_entry(self, NMP_CACHE_ID_TYPE_OBJECT_TYPE, p_obj)) continue; _LOGT("ip4-dev-route: delete %s", nmp_object_to_string(p_obj, NMP_OBJECT_TO_STRING_PUBLIC, NULL, 0)); nm_platform_object_delete(self, p_obj); goto again; } out: return G_SOURCE_REMOVE; } static void _ip4_dev_route_blacklist_check_schedule(NMPlatform *self) { NMPlatformPrivate *priv = NM_PLATFORM_GET_PRIVATE(self); if (!priv->ip4_dev_route_blacklist_check_id) { priv->ip4_dev_route_blacklist_check_id = g_idle_add_full(G_PRIORITY_HIGH, _ip4_dev_route_blacklist_check_cb, self, NULL); } } static void _ip4_dev_route_blacklist_notify_route(NMPlatform *self, const NMPObject *obj) { NMPlatformPrivate *priv; const NMPObject * p_obj; gint64 * p_timeout_ms; gint64 now_ms; nm_assert(NM_IS_PLATFORM(self)); nm_assert(NMP_OBJECT_GET_TYPE(obj) == NMP_OBJECT_TYPE_IP4_ROUTE); priv = NM_PLATFORM_GET_PRIVATE(self); nm_assert(priv->ip4_dev_route_blacklist_gc_timeout_id); if (!g_hash_table_lookup_extended(priv->ip4_dev_route_blacklist_hash, obj, (gpointer *) &p_obj, (gpointer *) &p_timeout_ms)) return; now_ms = nm_utils_get_monotonic_timestamp_msec(); if (now_ms > _ip4_dev_route_blacklist_timeout_ms_get(*p_timeout_ms)) { /* already expired. Wait for gc. */ return; } if (_ip4_dev_route_blacklist_timeout_ms_marked(*p_timeout_ms)) { nm_assert(priv->ip4_dev_route_blacklist_check_id); return; } /* We cannot delete it right away because we are in the process of receiving netlink messages. * It may be possible to do so, but complicated and error prone. * * Instead, we mark the entry and schedule an idle action (with high priority). */ *p_timeout_ms = (*p_timeout_ms) | ((gint64) 1); _ip4_dev_route_blacklist_check_schedule(self); } static gboolean _ip4_dev_route_blacklist_gc_timeout_handle(gpointer user_data) { NMPlatform * self = user_data; NMPlatformPrivate *priv = NM_PLATFORM_GET_PRIVATE(self); GHashTableIter iter; const NMPObject * p_obj; gint64 * p_timeout_ms; gint64 now_ms; nm_assert(priv->ip4_dev_route_blacklist_gc_timeout_id); now_ms = nm_utils_get_monotonic_timestamp_msec(); g_hash_table_iter_init(&iter, priv->ip4_dev_route_blacklist_hash); while (g_hash_table_iter_next(&iter, (gpointer *) &p_obj, (gpointer *) &p_timeout_ms)) { if (now_ms > _ip4_dev_route_blacklist_timeout_ms_get(*p_timeout_ms)) { _LOGT("ip4-dev-route: cleanup %s", nmp_object_to_string(p_obj, NMP_OBJECT_TO_STRING_PUBLIC, NULL, 0)); g_hash_table_iter_remove(&iter); } } _ip4_dev_route_blacklist_schedule(self); return G_SOURCE_CONTINUE; } static void _ip4_dev_route_blacklist_schedule(NMPlatform *self) { NMPlatformPrivate *priv = NM_PLATFORM_GET_PRIVATE(self); if (!priv->ip4_dev_route_blacklist_hash || g_hash_table_size(priv->ip4_dev_route_blacklist_hash) == 0) { nm_clear_pointer(&priv->ip4_dev_route_blacklist_hash, g_hash_table_unref); nm_clear_g_source(&priv->ip4_dev_route_blacklist_gc_timeout_id); } else { if (!priv->ip4_dev_route_blacklist_gc_timeout_id) { /* this timeout is only to garbage collect the expired entries from priv->ip4_dev_route_blacklist_hash. * It can run infrequently, and it doesn't hurt if expired entries linger around a bit * longer then necessary. */ priv->ip4_dev_route_blacklist_gc_timeout_id = g_timeout_add_seconds(IP4_DEV_ROUTE_BLACKLIST_GC_TIMEOUT_S, _ip4_dev_route_blacklist_gc_timeout_handle, self); } } } /** * nm_platform_ip4_dev_route_blacklist_set: * @self: * @ifindex: * @ip4_dev_route_blacklist: * * When adding an IP address, kernel automatically adds a device route. * This can be suppressed via the IFA_F_NOPREFIXROUTE address flag. For proper * IPv6 support, we require kernel support for IFA_F_NOPREFIXROUTE and always * add the device route manually. * * For IPv4, this flag is rather new and we don't rely on it yet. We want to use * it (but currently still don't). So, for IPv4, kernel possibly adds a device * route, however it has a wrong metric of zero. We add our own device route (with * proper metric), but need to delete the route that kernel adds. * * The problem is, that kernel does not immediately add the route, when adding * the address. It only shows up some time later. So, we register here a list * of blacklisted routes, and when they show up within a time out, we assume it's * the kernel generated one, and we delete it. * * Eventually, we want to get rid of this and use IFA_F_NOPREFIXROUTE for IPv4 * routes as well. */ void nm_platform_ip4_dev_route_blacklist_set(NMPlatform *self, int ifindex, GPtrArray * ip4_dev_route_blacklist) { NMPlatformPrivate *priv; GHashTableIter iter; const NMPObject * p_obj; guint i; gint64 timeout_msec; gint64 timeout_msec_val; gint64 * p_timeout_ms; gboolean needs_check = FALSE; nm_assert(NM_IS_PLATFORM(self)); nm_assert(ifindex > 0); /* TODO: the blacklist should be maintained by NML3Cfg. */ priv = NM_PLATFORM_GET_PRIVATE(self); /* first, expire all for current ifindex... */ if (priv->ip4_dev_route_blacklist_hash) { g_hash_table_iter_init(&iter, priv->ip4_dev_route_blacklist_hash); while (g_hash_table_iter_next(&iter, (gpointer *) &p_obj, (gpointer *) &p_timeout_ms)) { if (NMP_OBJECT_CAST_IP4_ROUTE(p_obj)->ifindex == ifindex) { /* we could g_hash_table_iter_remove(&iter) the current entry. * Instead, just expire it and let _ip4_dev_route_blacklist_gc_timeout_handle() * handle it. * * The assumption is, that ip4_dev_route_blacklist contains the very same entry * again, with a new timeout. So, we can un-expire it below. */ *p_timeout_ms = 0; } } } if (ip4_dev_route_blacklist && ip4_dev_route_blacklist->len > 0) { if (!priv->ip4_dev_route_blacklist_hash) { priv->ip4_dev_route_blacklist_hash = g_hash_table_new_full((GHashFunc) nmp_object_id_hash, (GEqualFunc) nmp_object_id_equal, (GDestroyNotify) nmp_object_unref, nm_g_slice_free_fcn_gint64); } timeout_msec = nm_utils_get_monotonic_timestamp_msec() + IP4_DEV_ROUTE_BLACKLIST_TIMEOUT_MS; timeout_msec_val = (timeout_msec << 1) | ((gint64) 1); for (i = 0; i < ip4_dev_route_blacklist->len; i++) { const NMPObject *o; needs_check = TRUE; o = ip4_dev_route_blacklist->pdata[i]; if (g_hash_table_lookup_extended(priv->ip4_dev_route_blacklist_hash, o, (gpointer *) &p_obj, (gpointer *) &p_timeout_ms)) { if (nmp_object_equal(p_obj, o)) { /* un-expire and reuse the entry. */ _LOGT("ip4-dev-route: register %s (update)", nmp_object_to_string(p_obj, NMP_OBJECT_TO_STRING_PUBLIC, NULL, 0)); *p_timeout_ms = timeout_msec_val; continue; } } _LOGT("ip4-dev-route: register %s", nmp_object_to_string(o, NMP_OBJECT_TO_STRING_PUBLIC, NULL, 0)); p_timeout_ms = g_slice_new(gint64); *p_timeout_ms = timeout_msec_val; g_hash_table_replace(priv->ip4_dev_route_blacklist_hash, (gpointer) nmp_object_ref(o), p_timeout_ms); } } _ip4_dev_route_blacklist_schedule(self); if (needs_check) _ip4_dev_route_blacklist_check_schedule(self); } /*****************************************************************************/ int nm_platform_routing_rule_add(NMPlatform * self, NMPNlmFlags flags, const NMPlatformRoutingRule *routing_rule) { _CHECK_SELF(self, klass, -NME_BUG); g_return_val_if_fail(routing_rule, -NME_BUG); _LOGD("routing-rule: adding or updating: %s", nm_platform_routing_rule_to_string(routing_rule, NULL, 0)); return klass->routing_rule_add(self, flags, routing_rule); } /*****************************************************************************/ int nm_platform_qdisc_add(NMPlatform *self, NMPNlmFlags flags, const NMPlatformQdisc *qdisc) { int ifindex = qdisc->ifindex; _CHECK_SELF(self, klass, -NME_BUG); /* Note: @qdisc must not be copied or kept alive because the lifetime of qdisc.kind * is undefined. */ _LOG3D("adding or updating a qdisc: %s", nm_platform_qdisc_to_string(qdisc, NULL, 0)); return klass->qdisc_add(self, flags, qdisc); } /** * nm_platform_qdisc_sync: * @self: the #NMPlatform instance * @ifindex: the ifindex where to configure the qdiscs. * @known_qdiscs: the list of qdiscs (#NMPObject). * * The function promises not to take any reference to the qdisc * instances from @known_qdiscs, nor to keep them around after * the function returns. This is important, because it allows the * caller to pass NMPlatformQdisc instances which "kind" string * have a limited lifetime. * * Returns: %TRUE on success. */ gboolean nm_platform_qdisc_sync(NMPlatform *self, int ifindex, GPtrArray *known_qdiscs) { gs_unref_ptrarray GPtrArray *plat_qdiscs = NULL; NMPLookup lookup; guint i; gboolean success = TRUE; gs_unref_hashtable GHashTable *known_qdiscs_idx = NULL; nm_assert(NM_IS_PLATFORM(self)); nm_assert(ifindex > 0); known_qdiscs_idx = g_hash_table_new((GHashFunc) nmp_object_id_hash, (GEqualFunc) nmp_object_id_equal); if (known_qdiscs) { for (i = 0; i < known_qdiscs->len; i++) { const NMPObject *q = g_ptr_array_index(known_qdiscs, i); if (!g_hash_table_insert(known_qdiscs_idx, (gpointer) q, (gpointer) q)) { _LOGW("duplicate qdisc %s", nm_platform_qdisc_to_string(&q->qdisc, NULL, 0)); return FALSE; } } } plat_qdiscs = nm_platform_lookup_clone(self, nmp_lookup_init_object(&lookup, NMP_OBJECT_TYPE_QDISC, ifindex), NULL, NULL); if (plat_qdiscs) { for (i = 0; i < plat_qdiscs->len; i++) { const NMPObject *p = g_ptr_array_index(plat_qdiscs, i); const NMPObject *k; /* look up known qdisc with same parent */ k = g_hash_table_lookup(known_qdiscs_idx, p); if (k) { const NMPlatformQdisc *qdisc_k = NMP_OBJECT_CAST_QDISC(k); const NMPlatformQdisc *qdisc_p = NMP_OBJECT_CAST_QDISC(p); /* check other fields */ if (nm_platform_qdisc_cmp_full(qdisc_k, qdisc_p, FALSE) != 0 || (qdisc_k->handle != qdisc_p->handle && qdisc_k != 0)) { k = NULL; } } if (k) { g_hash_table_remove(known_qdiscs_idx, k); } else { /* can't delete qdisc with zero handle */ if (TC_H_MAJ(p->qdisc.handle) != 0) { success &= nm_platform_object_delete(self, p); } } } } if (known_qdiscs) { for (i = 0; i < known_qdiscs->len; i++) { const NMPObject *q = g_ptr_array_index(known_qdiscs, i); if (g_hash_table_contains(known_qdiscs_idx, q)) { success &= (nm_platform_qdisc_add(self, NMP_NLM_FLAG_ADD, NMP_OBJECT_CAST_QDISC(q)) >= 0); } } } return success; } /*****************************************************************************/ int nm_platform_tfilter_add(NMPlatform *self, NMPNlmFlags flags, const NMPlatformTfilter *tfilter) { int ifindex = tfilter->ifindex; _CHECK_SELF(self, klass, -NME_BUG); /* Note: @tfilter must not be copied or kept alive because the lifetime of tfilter.kind * and tfilter.action.kind is undefined. */ _LOG3D("adding or updating a tfilter: %s", nm_platform_tfilter_to_string(tfilter, NULL, 0)); return klass->tfilter_add(self, flags, tfilter); } /** * nm_platform_qdisc_sync: * @self: the #NMPlatform instance * @ifindex: the ifindex where to configure the qdiscs. * @known_tfilters: the list of tfilters (#NMPObject). * * The function promises not to take any reference to the tfilter * instances from @known_tfilters, nor to keep them around after * the function returns. This is important, because it allows the * caller to pass NMPlatformTfilter instances which "kind" string * have a limited lifetime. * * Returns: %TRUE on success. */ gboolean nm_platform_tfilter_sync(NMPlatform *self, int ifindex, GPtrArray *known_tfilters) { gs_unref_ptrarray GPtrArray *plat_tfilters = NULL; NMPLookup lookup; guint i; gboolean success = TRUE; gs_unref_hashtable GHashTable *known_tfilters_idx = NULL; nm_assert(NM_IS_PLATFORM(self)); nm_assert(ifindex > 0); known_tfilters_idx = g_hash_table_new((GHashFunc) nmp_object_id_hash, (GEqualFunc) nmp_object_id_equal); if (known_tfilters) { for (i = 0; i < known_tfilters->len; i++) { const NMPObject *q = g_ptr_array_index(known_tfilters, i); g_hash_table_insert(known_tfilters_idx, (gpointer) q, (gpointer) q); } } plat_tfilters = nm_platform_lookup_clone(self, nmp_lookup_init_object(&lookup, NMP_OBJECT_TYPE_TFILTER, ifindex), NULL, NULL); if (plat_tfilters) { for (i = 0; i < plat_tfilters->len; i++) { const NMPObject *q = g_ptr_array_index(plat_tfilters, i); if (!g_hash_table_lookup(known_tfilters_idx, q)) success &= nm_platform_object_delete(self, q); } } if (known_tfilters) { for (i = 0; i < known_tfilters->len; i++) { const NMPObject *q = g_ptr_array_index(known_tfilters, i); success &= (nm_platform_tfilter_add(self, NMP_NLM_FLAG_ADD, NMP_OBJECT_CAST_TFILTER(q)) >= 0); } } return success; } /*****************************************************************************/ const char * nm_platform_vlan_qos_mapping_to_string(const char * name, const NMVlanQosMapping *map, gsize n_map, char * buf, gsize len) { gsize i; char *b; nm_utils_to_string_buffer_init(&buf, &len); if (!n_map) { nm_utils_strbuf_append_str(&buf, &len, ""); return buf; } if (!map) g_return_val_if_reached(""); b = buf; if (name) { nm_utils_strbuf_append_str(&b, &len, name); nm_utils_strbuf_append_str(&b, &len, " {"); } else nm_utils_strbuf_append_c(&b, &len, '{'); for (i = 0; i < n_map; i++) nm_utils_strbuf_append(&b, &len, " %u:%u", map[i].from, map[i].to); nm_utils_strbuf_append_str(&b, &len, " }"); return buf; } static const char * _lifetime_to_string(guint32 timestamp, guint32 lifetime, gint32 now, char *buf, size_t buf_size) { if (lifetime == NM_PLATFORM_LIFETIME_PERMANENT) return "forever"; g_snprintf(buf, buf_size, "%usec", nm_utils_lifetime_rebase_relative_time_on_now(timestamp, lifetime, now)); return buf; } static const char * _lifetime_summary_to_string(gint32 now, guint32 timestamp, guint32 preferred, guint32 lifetime, char * buf, size_t buf_size) { g_snprintf(buf, buf_size, " lifetime %d-%u[%u,%u]", (signed) now, (unsigned) timestamp, (unsigned) preferred, (unsigned) lifetime); return buf; } /** * nm_platform_link_to_string: * @route: pointer to NMPlatformLink address structure * @buf: (allow-none): an optional buffer. If %NULL, a static buffer is used. * @len: the size of the @buf. If @buf is %NULL, this argument is ignored. * * A method for converting an link struct into a string representation. * * Returns: a string representation of the link. */ const char * nm_platform_link_to_string(const NMPlatformLink *link, char *buf, gsize len) { char master[20]; char parent[20]; char str_flags[1 + NM_PLATFORM_LINK_FLAGS2STR_MAX_LEN + 1]; char str_highlighted_flags[50]; char * s; gsize l; char str_addrmode[30]; char str_address[NM_UTILS_HWADDR_LEN_MAX * 3]; char str_broadcast[NM_UTILS_HWADDR_LEN_MAX * 3]; char str_inet6_token[NM_UTILS_INET_ADDRSTRLEN]; const char *str_link_type; if (!nm_utils_to_string_buffer_init_null(link, &buf, &len)) return buf; s = str_highlighted_flags; l = sizeof(str_highlighted_flags); if (NM_FLAGS_HAS(link->n_ifi_flags, IFF_NOARP)) nm_utils_strbuf_append_str(&s, &l, "NOARP,"); if (NM_FLAGS_HAS(link->n_ifi_flags, IFF_UP)) nm_utils_strbuf_append_str(&s, &l, "UP"); else nm_utils_strbuf_append_str(&s, &l, "DOWN"); if (link->connected) nm_utils_strbuf_append_str(&s, &l, ",LOWER_UP"); nm_assert(s > str_highlighted_flags && l > 0); if (link->n_ifi_flags) { str_flags[0] = ';'; nm_platform_link_flags2str(link->n_ifi_flags, &str_flags[1], sizeof(str_flags) - 1); } else str_flags[0] = '\0'; if (link->master) g_snprintf(master, sizeof(master), " master %d", link->master); else master[0] = 0; if (link->parent > 0) g_snprintf(parent, sizeof(parent), "@%d", link->parent); else if (link->parent == NM_PLATFORM_LINK_OTHER_NETNS) g_strlcpy(parent, "@other-netns", sizeof(parent)); else parent[0] = 0; _nmp_link_address_to_string(&link->l_address, str_address); _nmp_link_address_to_string(&link->l_broadcast, str_broadcast); str_link_type = nm_link_type_to_string(link->type); g_snprintf( buf, len, "%d: " /* ifindex */ "%s" /* name */ "%s" /* parent */ " <%s%s>" /* flags */ " mtu %d" "%s" /* master */ " arp %u" /* arptype */ " %s" /* link->type */ "%s%s" /* kind */ "%s" /* is-in-udev */ "%s%s" /* addr-gen-mode */ "%s%s" /* l_address */ "%s%s" /* l_broadcast */ "%s%s" /* inet6_token */ "%s%s" /* driver */ " rx:%" G_GUINT64_FORMAT ",%" G_GUINT64_FORMAT " tx:%" G_GUINT64_FORMAT ",%" G_GUINT64_FORMAT, link->ifindex, link->name, parent, str_highlighted_flags, str_flags, link->mtu, master, link->arptype, str_link_type ?: "???", link->kind ? (g_strcmp0(str_link_type, link->kind) ? "/" : "*") : "?", link->kind && g_strcmp0(str_link_type, link->kind) ? link->kind : "", link->initialized ? " init" : " not-init", link->inet6_addr_gen_mode_inv ? " addrgenmode " : "", link->inet6_addr_gen_mode_inv ? nm_platform_link_inet6_addrgenmode2str( _nm_platform_uint8_inv(link->inet6_addr_gen_mode_inv), str_addrmode, sizeof(str_addrmode)) : "", str_address[0] ? " addr " : "", str_address[0] ? str_address : "", str_broadcast[0] ? " brd " : "", str_broadcast[0] ? str_broadcast : "", link->inet6_token.id ? " inet6token " : "", link->inet6_token.id ? nm_utils_inet6_interface_identifier_to_token(link->inet6_token, str_inet6_token) : "", link->driver ? " driver " : "", link->driver ?: "", link->rx_packets, link->rx_bytes, link->tx_packets, link->tx_bytes); return buf; } const NMPlatformLnkBridge nm_platform_lnk_bridge_default = { .forward_delay = NM_BRIDGE_FORWARD_DELAY_DEF_SYS, .hello_time = NM_BRIDGE_HELLO_TIME_DEF_SYS, .max_age = NM_BRIDGE_MAX_AGE_DEF_SYS, .ageing_time = NM_BRIDGE_AGEING_TIME_DEF_SYS, .stp_state = FALSE, .priority = NM_BRIDGE_PRIORITY_DEF, .vlan_protocol = 0x8100, .vlan_stats_enabled = NM_BRIDGE_VLAN_STATS_ENABLED_DEF, .group_fwd_mask = 0, .group_addr = NM_ETHER_ADDR_INIT(NM_BRIDGE_GROUP_ADDRESS_DEF_BIN), .mcast_snooping = NM_BRIDGE_MULTICAST_SNOOPING_DEF, .mcast_router = 1, .mcast_query_use_ifaddr = NM_BRIDGE_MULTICAST_QUERY_USE_IFADDR_DEF, .mcast_querier = NM_BRIDGE_MULTICAST_QUERIER_DEF, .mcast_hash_max = NM_BRIDGE_MULTICAST_HASH_MAX_DEF, .mcast_last_member_count = NM_BRIDGE_MULTICAST_LAST_MEMBER_COUNT_DEF, .mcast_startup_query_count = NM_BRIDGE_MULTICAST_STARTUP_QUERY_COUNT_DEF, .mcast_last_member_interval = NM_BRIDGE_MULTICAST_LAST_MEMBER_INTERVAL_DEF, .mcast_membership_interval = NM_BRIDGE_MULTICAST_MEMBERSHIP_INTERVAL_DEF, .mcast_querier_interval = NM_BRIDGE_MULTICAST_QUERIER_INTERVAL_DEF, .mcast_query_interval = NM_BRIDGE_MULTICAST_QUERY_INTERVAL_DEF, .mcast_query_response_interval = NM_BRIDGE_MULTICAST_QUERY_RESPONSE_INTERVAL_DEF, .mcast_startup_query_interval = NM_BRIDGE_MULTICAST_STARTUP_QUERY_INTERVAL_DEF, }; const char * nm_platform_lnk_bridge_to_string(const NMPlatformLnkBridge *lnk, char *buf, gsize len) { if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; g_snprintf(buf, len, "forward_delay %u" " hello_time %u" " max_age %u" " ageing_time %u" " stp_state %d" " priority %u" " vlan_protocol %u" " vlan_stats_enabled %d" " group_fwd_mask %#x" " group_address " NM_ETHER_ADDR_FORMAT_STR " mcast_snooping %d" " mcast_router %u" " mcast_query_use_ifaddr %d" " mcast_querier %d" " mcast_hash_max %u" " mcast_last_member_count %u" " mcast_startup_query_count %u" " mcast_last_member_interval %" G_GUINT64_FORMAT " mcast_membership_interval %" G_GUINT64_FORMAT " mcast_querier_interval %" G_GUINT64_FORMAT " mcast_query_interval %" G_GUINT64_FORMAT " mcast_query_response_interval %" G_GUINT64_FORMAT " mcast_startup_query_interval %" G_GUINT64_FORMAT "", lnk->forward_delay, lnk->hello_time, lnk->max_age, lnk->ageing_time, (int) lnk->stp_state, lnk->priority, lnk->vlan_protocol, (int) lnk->vlan_stats_enabled, lnk->group_fwd_mask, NM_ETHER_ADDR_FORMAT_VAL(&lnk->group_addr), (int) lnk->mcast_snooping, lnk->mcast_router, (int) lnk->mcast_query_use_ifaddr, (int) lnk->mcast_querier, lnk->mcast_hash_max, lnk->mcast_last_member_count, lnk->mcast_startup_query_count, lnk->mcast_last_member_interval, lnk->mcast_membership_interval, lnk->mcast_querier_interval, lnk->mcast_query_interval, lnk->mcast_query_response_interval, lnk->mcast_startup_query_interval); return buf; } const char * nm_platform_lnk_gre_to_string(const NMPlatformLnkGre *lnk, char *buf, gsize len) { char str_local[30]; char str_local1[NM_UTILS_INET_ADDRSTRLEN]; char str_remote[30]; char str_remote1[NM_UTILS_INET_ADDRSTRLEN]; char str_ttl[30]; char str_tos[30]; char str_parent_ifindex[30]; char str_input_flags[30]; char str_output_flags[30]; char str_input_key[30]; char str_input_key1[NM_UTILS_INET_ADDRSTRLEN]; char str_output_key[30]; char str_output_key1[NM_UTILS_INET_ADDRSTRLEN]; if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; g_snprintf( buf, len, "gre%s" /* is_tap */ "%s" /* remote */ "%s" /* local */ "%s" /* parent_ifindex */ "%s" /* ttl */ "%s" /* tos */ "%s" /* path_mtu_discovery */ "%s" /* iflags */ "%s" /* oflags */ "%s" /* ikey */ "%s" /* okey */ "", lnk->is_tap ? "tap" : "", lnk->remote ? nm_sprintf_buf(str_remote, " remote %s", _nm_utils_inet4_ntop(lnk->remote, str_remote1)) : "", lnk->local ? nm_sprintf_buf(str_local, " local %s", _nm_utils_inet4_ntop(lnk->local, str_local1)) : "", lnk->parent_ifindex ? nm_sprintf_buf(str_parent_ifindex, " dev %d", lnk->parent_ifindex) : "", lnk->ttl ? nm_sprintf_buf(str_ttl, " ttl %u", lnk->ttl) : " ttl inherit", lnk->tos ? (lnk->tos == 1 ? " tos inherit" : nm_sprintf_buf(str_tos, " tos 0x%x", lnk->tos)) : "", lnk->path_mtu_discovery ? "" : " nopmtudisc", lnk->input_flags ? nm_sprintf_buf(str_input_flags, " iflags 0x%x", lnk->input_flags) : "", lnk->output_flags ? nm_sprintf_buf(str_output_flags, " oflags 0x%x", lnk->output_flags) : "", NM_FLAGS_HAS(lnk->input_flags, GRE_KEY) || lnk->input_key ? nm_sprintf_buf(str_input_key, " ikey %s", _nm_utils_inet4_ntop(lnk->input_key, str_input_key1)) : "", NM_FLAGS_HAS(lnk->output_flags, GRE_KEY) || lnk->output_key ? nm_sprintf_buf(str_output_key, " okey %s", _nm_utils_inet4_ntop(lnk->output_key, str_output_key1)) : ""); return buf; } const char * nm_platform_lnk_infiniband_to_string(const NMPlatformLnkInfiniband *lnk, char *buf, gsize len) { char str_p_key[64]; if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; g_snprintf(buf, len, "infiniband" "%s" /* p_key */ "%s%s" /* mode */ "", lnk->p_key ? nm_sprintf_buf(str_p_key, " pkey %d", lnk->p_key) : "", lnk->mode ? " mode " : "", lnk->mode ?: ""); return buf; } const char * nm_platform_lnk_ip6tnl_to_string(const NMPlatformLnkIp6Tnl *lnk, char *buf, gsize len) { char str_local[30]; char str_local1[NM_UTILS_INET_ADDRSTRLEN]; char str_remote[30]; char str_remote1[NM_UTILS_INET_ADDRSTRLEN]; char str_ttl[30]; char str_tclass[30]; char str_flow[30]; char str_encap[30]; char str_proto[30]; char str_parent_ifindex[30]; char *str_type; if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; if (lnk->is_gre) str_type = lnk->is_tap ? "ip6gretap" : "ip6gre"; else str_type = "ip6tnl"; g_snprintf( buf, len, "%s" /* type */ "%s" /* remote */ "%s" /* local */ "%s" /* parent_ifindex */ "%s" /* ttl */ "%s" /* tclass */ "%s" /* encap limit */ "%s" /* flow label */ "%s" /* proto */ " flags 0x%x" "", str_type, nm_sprintf_buf(str_remote, " remote %s", _nm_utils_inet6_ntop(&lnk->remote, str_remote1)), nm_sprintf_buf(str_local, " local %s", _nm_utils_inet6_ntop(&lnk->local, str_local1)), lnk->parent_ifindex ? nm_sprintf_buf(str_parent_ifindex, " dev %d", lnk->parent_ifindex) : "", lnk->ttl ? nm_sprintf_buf(str_ttl, " ttl %u", lnk->ttl) : " ttl inherit", lnk->tclass == 1 ? " tclass inherit" : nm_sprintf_buf(str_tclass, " tclass 0x%x", lnk->tclass), nm_sprintf_buf(str_encap, " encap-limit %u", lnk->encap_limit), nm_sprintf_buf(str_flow, " flow-label 0x05%x", lnk->flow_label), nm_sprintf_buf(str_proto, " proto %u", lnk->proto), (guint) lnk->flags); return buf; } const char * nm_platform_lnk_ipip_to_string(const NMPlatformLnkIpIp *lnk, char *buf, gsize len) { char str_local[30]; char str_local1[NM_UTILS_INET_ADDRSTRLEN]; char str_remote[30]; char str_remote1[NM_UTILS_INET_ADDRSTRLEN]; char str_ttl[30]; char str_tos[30]; char str_parent_ifindex[30]; if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; g_snprintf( buf, len, "ipip" "%s" /* remote */ "%s" /* local */ "%s" /* parent_ifindex */ "%s" /* ttl */ "%s" /* tos */ "%s" /* path_mtu_discovery */ "", lnk->remote ? nm_sprintf_buf(str_remote, " remote %s", _nm_utils_inet4_ntop(lnk->remote, str_remote1)) : "", lnk->local ? nm_sprintf_buf(str_local, " local %s", _nm_utils_inet4_ntop(lnk->local, str_local1)) : "", lnk->parent_ifindex ? nm_sprintf_buf(str_parent_ifindex, " dev %d", lnk->parent_ifindex) : "", lnk->ttl ? nm_sprintf_buf(str_ttl, " ttl %u", lnk->ttl) : " ttl inherit", lnk->tos ? (lnk->tos == 1 ? " tos inherit" : nm_sprintf_buf(str_tos, " tos 0x%x", lnk->tos)) : "", lnk->path_mtu_discovery ? "" : " nopmtudisc"); return buf; } const char * nm_platform_lnk_macsec_to_string(const NMPlatformLnkMacsec *lnk, char *buf, gsize len) { if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; g_snprintf(buf, len, "macsec " "sci %016llx " "protect %s " "cipher %016llx " "icvlen %u " "encodingsa %u " "validate %u " "encrypt %s " "send_sci %s " "end_station %s " "scb %s " "replay %s", (unsigned long long) lnk->sci, lnk->protect ? "on" : "off", (unsigned long long) lnk->cipher_suite, lnk->icv_length, lnk->encoding_sa, lnk->validation, lnk->encrypt ? "on" : "off", lnk->include_sci ? "on" : "off", lnk->es ? "on" : "off", lnk->scb ? "on" : "off", lnk->replay_protect ? "on" : "off"); return buf; } const char * nm_platform_lnk_macvlan_to_string(const NMPlatformLnkMacvlan *lnk, char *buf, gsize len) { if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; g_snprintf(buf, len, "%s mode %u %s", lnk->tap ? "macvtap" : "macvlan", lnk->mode, lnk->no_promisc ? "not-promisc" : "promisc"); return buf; } const char * nm_platform_lnk_sit_to_string(const NMPlatformLnkSit *lnk, char *buf, gsize len) { char str_local[30]; char str_local1[NM_UTILS_INET_ADDRSTRLEN]; char str_remote[30]; char str_remote1[NM_UTILS_INET_ADDRSTRLEN]; char str_ttl[30]; char str_tos[30]; char str_flags[30]; char str_proto[30]; char str_parent_ifindex[30]; if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; g_snprintf( buf, len, "sit" "%s" /* remote */ "%s" /* local */ "%s" /* parent_ifindex */ "%s" /* ttl */ "%s" /* tos */ "%s" /* path_mtu_discovery */ "%s" /* flags */ "%s" /* proto */ "", lnk->remote ? nm_sprintf_buf(str_remote, " remote %s", _nm_utils_inet4_ntop(lnk->remote, str_remote1)) : "", lnk->local ? nm_sprintf_buf(str_local, " local %s", _nm_utils_inet4_ntop(lnk->local, str_local1)) : "", lnk->parent_ifindex ? nm_sprintf_buf(str_parent_ifindex, " dev %d", lnk->parent_ifindex) : "", lnk->ttl ? nm_sprintf_buf(str_ttl, " ttl %u", lnk->ttl) : " ttl inherit", lnk->tos ? (lnk->tos == 1 ? " tos inherit" : nm_sprintf_buf(str_tos, " tos 0x%x", lnk->tos)) : "", lnk->path_mtu_discovery ? "" : " nopmtudisc", lnk->flags ? nm_sprintf_buf(str_flags, " flags 0x%x", lnk->flags) : "", lnk->proto ? nm_sprintf_buf(str_proto, " proto 0x%x", lnk->proto) : ""); return buf; } const char * nm_platform_lnk_tun_to_string(const NMPlatformLnkTun *lnk, char *buf, gsize len) { char str_owner[50]; char str_group[50]; char str_type[50]; const char *type; if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; if (lnk->type == IFF_TUN) type = "tun"; else if (lnk->type == IFF_TAP) type = "tap"; else type = nm_sprintf_buf(str_type, "tun type %u", (guint) lnk->type); g_snprintf(buf, len, "%s" /* type */ "%s" /* pi */ "%s" /* vnet_hdr */ "%s" /* multi_queue */ "%s" /* persist */ "%s" /* owner */ "%s" /* group */ "", type, lnk->pi ? " pi" : "", lnk->vnet_hdr ? " vnet_hdr" : "", lnk->multi_queue ? " multi_queue" : "", lnk->persist ? " persist" : "", lnk->owner_valid ? nm_sprintf_buf(str_owner, " owner %u", (guint) lnk->owner) : "", lnk->group_valid ? nm_sprintf_buf(str_group, " group %u", (guint) lnk->group) : ""); return buf; } const char * nm_platform_lnk_vlan_to_string(const NMPlatformLnkVlan *lnk, char *buf, gsize len) { char *b; if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; b = buf; nm_utils_strbuf_append(&b, &len, "vlan %u", lnk->id); if (lnk->flags) nm_utils_strbuf_append(&b, &len, " flags 0x%x", lnk->flags); return buf; } const char * nm_platform_lnk_vrf_to_string(const NMPlatformLnkVrf *lnk, char *buf, gsize len) { char *b; if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; b = buf; nm_utils_strbuf_append(&b, &len, "table %u", lnk->table); return buf; } const char * nm_platform_lnk_vxlan_to_string(const NMPlatformLnkVxlan *lnk, char *buf, gsize len) { char str_group[100]; char str_group6[100]; char str_local[100]; char str_local6[100]; char str_dev[25]; char str_limit[25]; char str_src_port[35]; char str_dst_port[25]; char str_tos[25]; char str_ttl[25]; char sbuf[NM_UTILS_INET_ADDRSTRLEN]; if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; if (lnk->group == 0) str_group[0] = '\0'; else { g_snprintf(str_group, sizeof(str_group), " %s %s", IN_MULTICAST(ntohl(lnk->group)) ? "group" : "remote", _nm_utils_inet4_ntop(lnk->group, sbuf)); } if (IN6_IS_ADDR_UNSPECIFIED(&lnk->group6)) str_group6[0] = '\0'; else { g_snprintf(str_group6, sizeof(str_group6), " %s%s %s", IN6_IS_ADDR_MULTICAST(&lnk->group6) ? "group" : "remote", str_group[0] ? "6" : "", /* usually, a vxlan has either v4 or v6 only. */ _nm_utils_inet6_ntop(&lnk->group6, sbuf)); } if (lnk->local == 0) str_local[0] = '\0'; else { g_snprintf(str_local, sizeof(str_local), " local %s", _nm_utils_inet4_ntop(lnk->local, sbuf)); } if (IN6_IS_ADDR_UNSPECIFIED(&lnk->local6)) str_local6[0] = '\0'; else { g_snprintf(str_local6, sizeof(str_local6), " local%s %s", str_local[0] ? "6" : "", /* usually, a vxlan has either v4 or v6 only. */ _nm_utils_inet6_ntop(&lnk->local6, sbuf)); } g_snprintf( buf, len, "vxlan" " id %u" /* id */ "%s%s" /* group/group6 */ "%s%s" /* local/local6 */ "%s" /* dev */ "%s" /* src_port_min/src_port_max */ "%s" /* dst_port */ "%s" /* learning */ "%s" /* proxy */ "%s" /* rsc */ "%s" /* l2miss */ "%s" /* l3miss */ "%s" /* tos */ "%s" /* ttl */ " ageing %u" /* ageing */ "%s" /* limit */ "", (guint) lnk->id, str_group, str_group6, str_local, str_local6, lnk->parent_ifindex ? nm_sprintf_buf(str_dev, " dev %d", lnk->parent_ifindex) : "", lnk->src_port_min || lnk->src_port_max ? nm_sprintf_buf(str_src_port, " srcport %u %u", lnk->src_port_min, lnk->src_port_max) : "", lnk->dst_port ? nm_sprintf_buf(str_dst_port, " dstport %u", lnk->dst_port) : "", !lnk->learning ? " nolearning" : "", lnk->proxy ? " proxy" : "", lnk->rsc ? " rsc" : "", lnk->l2miss ? " l2miss" : "", lnk->l3miss ? " l3miss" : "", lnk->tos == 1 ? " tos inherit" : nm_sprintf_buf(str_tos, " tos %#x", lnk->tos), lnk->ttl ? nm_sprintf_buf(str_ttl, " ttl %u", lnk->ttl) : "", lnk->ageing, lnk->limit ? nm_sprintf_buf(str_limit, " maxaddr %u", lnk->limit) : ""); return buf; } const char * nm_platform_wireguard_peer_to_string(const NMPWireGuardPeer *peer, char *buf, gsize len) { char * buf0 = buf; gs_free char *public_key_b64 = NULL; char s_sockaddr[NM_UTILS_INET_ADDRSTRLEN + 100]; char s_endpoint[20 + sizeof(s_sockaddr)]; char s_addr[NM_UTILS_INET_ADDRSTRLEN]; char s_keepalive[100]; guint i; nm_utils_to_string_buffer_init(&buf, &len); public_key_b64 = g_base64_encode(peer->public_key, sizeof(peer->public_key)); if (peer->endpoint.sa.sa_family != AF_UNSPEC) { nm_sprintf_buf( s_endpoint, " endpoint %s", nm_sock_addr_union_to_string(&peer->endpoint, s_sockaddr, sizeof(s_sockaddr))); } else s_endpoint[0] = '\0'; nm_utils_strbuf_append( &buf, &len, "public-key %s" "%s" /* preshared-key */ "%s" /* endpoint */ " rx %" G_GUINT64_FORMAT " tx %" G_GUINT64_FORMAT "%s" /* persistent-keepalive */ "%s", /* allowed-ips */ public_key_b64, nm_utils_memeqzero_secret(peer->preshared_key, sizeof(peer->preshared_key)) ? "" : " preshared-key (hidden)", s_endpoint, peer->rx_bytes, peer->tx_bytes, peer->persistent_keepalive_interval > 0 ? nm_sprintf_buf(s_keepalive, " keepalive %u", (guint) peer->persistent_keepalive_interval) : "", peer->allowed_ips_len > 0 ? " allowed-ips" : ""); for (i = 0; i < peer->allowed_ips_len; i++) { const NMPWireGuardAllowedIP *allowed_ip = &peer->allowed_ips[i]; nm_utils_strbuf_append(&buf, &len, " %s/%u", nm_utils_inet_ntop(allowed_ip->family, &allowed_ip->addr, s_addr), allowed_ip->mask); } return buf0; } const char * nm_platform_lnk_wireguard_to_string(const NMPlatformLnkWireGuard *lnk, char *buf, gsize len) { gs_free char *public_b64 = NULL; if (!nm_utils_to_string_buffer_init_null(lnk, &buf, &len)) return buf; if (!nm_utils_memeqzero(lnk->public_key, sizeof(lnk->public_key))) public_b64 = g_base64_encode(lnk->public_key, sizeof(lnk->public_key)); g_snprintf(buf, len, "wireguard" "%s%s" /* public-key */ "%s" /* private-key */ " listen-port %u" " fwmark 0x%x", public_b64 ? " public-key " : "", public_b64 ?: "", nm_utils_memeqzero_secret(lnk->private_key, sizeof(lnk->private_key)) ? "" : " private-key (hidden)", lnk->listen_port, lnk->fwmark); return buf; } /** * nm_platform_ip4_address_to_string: * @route: pointer to NMPlatformIP4Address address structure * @buf: (allow-none): an optional buffer. If %NULL, a static buffer is used. * @len: the size of the @buf. If @buf is %NULL, this argument is ignored. * * A method for converting an address struct into a string representation. * * Example output: "" * * Returns: a string representation of the address. */ const char * nm_platform_ip4_address_to_string(const NMPlatformIP4Address *address, char *buf, gsize len) { char s_flags[TO_STRING_IFA_FLAGS_BUF_SIZE]; char s_address[INET_ADDRSTRLEN]; char s_peer[INET_ADDRSTRLEN]; char str_dev[TO_STRING_DEV_BUF_SIZE]; char str_label[32]; char str_lft[30], str_pref[30], str_time[50], s_source[50]; char * str_peer = NULL; const char *str_lft_p, *str_pref_p, *str_time_p; gint32 now = nm_utils_get_monotonic_timestamp_sec(); in_addr_t broadcast_address; char str_broadcast[INET_ADDRSTRLEN]; if (!nm_utils_to_string_buffer_init_null(address, &buf, &len)) return buf; inet_ntop(AF_INET, &address->address, s_address, sizeof(s_address)); if (address->peer_address != address->address) { inet_ntop(AF_INET, &address->peer_address, s_peer, sizeof(s_peer)); str_peer = g_strconcat(" ptp ", s_peer, NULL); } _to_string_dev(NULL, address->ifindex, str_dev, sizeof(str_dev)); if (*address->label) g_snprintf(str_label, sizeof(str_label), " label %s", address->label); else str_label[0] = 0; str_lft_p = _lifetime_to_string(address->timestamp, address->lifetime ?: NM_PLATFORM_LIFETIME_PERMANENT, now, str_lft, sizeof(str_lft)), str_pref_p = (address->lifetime == address->preferred) ? str_lft_p : (_lifetime_to_string(address->timestamp, address->lifetime ? MIN(address->preferred, address->lifetime) : NM_PLATFORM_LIFETIME_PERMANENT, now, str_pref, sizeof(str_pref))); str_time_p = _lifetime_summary_to_string(now, address->timestamp, address->preferred, address->lifetime, str_time, sizeof(str_time)); broadcast_address = nm_platform_ip4_broadcast_address_from_addr(address); g_snprintf( buf, len, "%s/%d" "%s%s" /* broadcast */ " lft %s" " pref %s" "%s" /* time */ "%s" /* peer */ "%s" /* dev */ "%s" /* flags */ "%s" /* label */ " src %s" "%s" /* external */ "%s" /* ip4acd_not_ready */ "", s_address, address->plen, broadcast_address != 0u || address->use_ip4_broadcast_address ? (address->use_ip4_broadcast_address ? " brd " : " brd* ") : "", broadcast_address != 0u || address->use_ip4_broadcast_address ? _nm_utils_inet4_ntop(broadcast_address, str_broadcast) : "", str_lft_p, str_pref_p, str_time_p, str_peer ?: "", str_dev, _to_string_ifa_flags(address->n_ifa_flags, s_flags, sizeof(s_flags)), str_label, nmp_utils_ip_config_source_to_string(address->addr_source, s_source, sizeof(s_source)), address->external ? " ext" : "", address->ip4acd_not_ready ? " ip4acd-not-ready" : ""); g_free(str_peer); return buf; } NM_UTILS_FLAGS2STR_DEFINE(nm_platform_link_flags2str, unsigned, NM_UTILS_FLAGS2STR(IFF_LOOPBACK, "loopback"), NM_UTILS_FLAGS2STR(IFF_BROADCAST, "broadcast"), NM_UTILS_FLAGS2STR(IFF_POINTOPOINT, "pointopoint"), NM_UTILS_FLAGS2STR(IFF_MULTICAST, "multicast"), NM_UTILS_FLAGS2STR(IFF_NOARP, "noarp"), NM_UTILS_FLAGS2STR(IFF_ALLMULTI, "allmulti"), NM_UTILS_FLAGS2STR(IFF_PROMISC, "promisc"), NM_UTILS_FLAGS2STR(IFF_MASTER, "master"), NM_UTILS_FLAGS2STR(IFF_SLAVE, "slave"), NM_UTILS_FLAGS2STR(IFF_DEBUG, "debug"), NM_UTILS_FLAGS2STR(IFF_DYNAMIC, "dynamic"), NM_UTILS_FLAGS2STR(IFF_AUTOMEDIA, "automedia"), NM_UTILS_FLAGS2STR(IFF_PORTSEL, "portsel"), NM_UTILS_FLAGS2STR(IFF_NOTRAILERS, "notrailers"), NM_UTILS_FLAGS2STR(IFF_UP, "up"), NM_UTILS_FLAGS2STR(IFF_RUNNING, "running"), NM_UTILS_FLAGS2STR(IFF_LOWER_UP, "lowerup"), NM_UTILS_FLAGS2STR(IFF_DORMANT, "dormant"), NM_UTILS_FLAGS2STR(IFF_ECHO, "echo"), ); NM_UTILS_ENUM2STR_DEFINE(nm_platform_link_inet6_addrgenmode2str, guint8, NM_UTILS_ENUM2STR(NM_IN6_ADDR_GEN_MODE_NONE, "none"), NM_UTILS_ENUM2STR(NM_IN6_ADDR_GEN_MODE_EUI64, "eui64"), NM_UTILS_ENUM2STR(NM_IN6_ADDR_GEN_MODE_STABLE_PRIVACY, "stable-privacy"), NM_UTILS_ENUM2STR(NM_IN6_ADDR_GEN_MODE_RANDOM, "random"), ); NM_UTILS_FLAGS2STR_DEFINE(nm_platform_addr_flags2str, unsigned, NM_UTILS_FLAGS2STR(IFA_F_SECONDARY, "secondary"), NM_UTILS_FLAGS2STR(IFA_F_NODAD, "nodad"), NM_UTILS_FLAGS2STR(IFA_F_OPTIMISTIC, "optimistic"), NM_UTILS_FLAGS2STR(IFA_F_HOMEADDRESS, "homeaddress"), NM_UTILS_FLAGS2STR(IFA_F_DEPRECATED, "deprecated"), NM_UTILS_FLAGS2STR(IFA_F_PERMANENT, "permanent"), NM_UTILS_FLAGS2STR(IFA_F_MANAGETEMPADDR, "mngtmpaddr"), NM_UTILS_FLAGS2STR(IFA_F_NOPREFIXROUTE, "noprefixroute"), NM_UTILS_FLAGS2STR(IFA_F_TENTATIVE, "tentative"), ); NM_UTILS_ENUM2STR_DEFINE(nm_platform_route_scope2str, int, NM_UTILS_ENUM2STR(RT_SCOPE_NOWHERE, "nowhere"), NM_UTILS_ENUM2STR(RT_SCOPE_HOST, "host"), NM_UTILS_ENUM2STR(RT_SCOPE_LINK, "link"), NM_UTILS_ENUM2STR(RT_SCOPE_SITE, "site"), NM_UTILS_ENUM2STR(RT_SCOPE_UNIVERSE, "global"), ); /** * nm_platform_ip6_address_to_string: * @route: pointer to NMPlatformIP6Address address structure * @buf: (allow-none): an optional buffer. If %NULL, a static buffer is used. * @len: the size of the @buf. If @buf is %NULL, this argument is ignored. * * A method for converting an address struct into a string representation. * * Example output: "2001:db8:0:f101::1/64 lft 4294967295 pref 4294967295 time 16922666 on dev em1" * * Returns: a string representation of the address. */ const char * nm_platform_ip6_address_to_string(const NMPlatformIP6Address *address, char *buf, gsize len) { char s_flags[TO_STRING_IFA_FLAGS_BUF_SIZE]; char s_address[INET6_ADDRSTRLEN]; char s_peer[INET6_ADDRSTRLEN]; char str_lft[30], str_pref[30], str_time[50], s_source[50]; char str_dev[TO_STRING_DEV_BUF_SIZE]; char * str_peer = NULL; const char *str_lft_p, *str_pref_p, *str_time_p; gint32 now = nm_utils_get_monotonic_timestamp_sec(); if (!nm_utils_to_string_buffer_init_null(address, &buf, &len)) return buf; inet_ntop(AF_INET6, &address->address, s_address, sizeof(s_address)); if (!IN6_IS_ADDR_UNSPECIFIED(&address->peer_address)) { inet_ntop(AF_INET6, &address->peer_address, s_peer, sizeof(s_peer)); str_peer = g_strconcat(" ptp ", s_peer, NULL); } _to_string_dev(NULL, address->ifindex, str_dev, sizeof(str_dev)); str_lft_p = _lifetime_to_string(address->timestamp, address->lifetime ?: NM_PLATFORM_LIFETIME_PERMANENT, now, str_lft, sizeof(str_lft)), str_pref_p = (address->lifetime == address->preferred) ? str_lft_p : (_lifetime_to_string(address->timestamp, address->lifetime ? MIN(address->preferred, address->lifetime) : NM_PLATFORM_LIFETIME_PERMANENT, now, str_pref, sizeof(str_pref))); str_time_p = _lifetime_summary_to_string(now, address->timestamp, address->preferred, address->lifetime, str_time, sizeof(str_time)); g_snprintf( buf, len, "%s/%d lft %s pref %s%s%s%s%s src %s%s", s_address, address->plen, str_lft_p, str_pref_p, str_time_p, str_peer ?: "", str_dev, _to_string_ifa_flags(address->n_ifa_flags, s_flags, sizeof(s_flags)), nmp_utils_ip_config_source_to_string(address->addr_source, s_source, sizeof(s_source)), address->external ? " ext" : ""); g_free(str_peer); return buf; } static NM_UTILS_FLAGS2STR_DEFINE(_rtm_flags_to_string, unsigned, NM_UTILS_FLAGS2STR(RTNH_F_DEAD, "dead"), NM_UTILS_FLAGS2STR(RTNH_F_PERVASIVE, "pervasive"), NM_UTILS_FLAGS2STR(RTNH_F_ONLINK, "onlink"), NM_UTILS_FLAGS2STR(8 /*RTNH_F_OFFLOAD*/, "offload"), NM_UTILS_FLAGS2STR(16 /*RTNH_F_LINKDOWN*/, "linkdown"), NM_UTILS_FLAGS2STR(32 /*RTNH_F_UNRESOLVED*/, "unresolved"), NM_UTILS_FLAGS2STR(RTM_F_NOTIFY, "notify"), NM_UTILS_FLAGS2STR(RTM_F_CLONED, "cloned"), NM_UTILS_FLAGS2STR(RTM_F_EQUALIZE, "equalize"), NM_UTILS_FLAGS2STR(RTM_F_PREFIX, "prefix"), NM_UTILS_FLAGS2STR(0x1000 /*RTM_F_LOOKUP_TABLE*/, "lookup-table"), NM_UTILS_FLAGS2STR(0x2000 /*RTM_F_FIB_MATCH*/, "fib-match"), ); #define _RTM_FLAGS_TO_STRING_MAXLEN 200 static const char * _rtm_flags_to_string_full(char *buf, gsize buf_size, unsigned rtm_flags) { const char *buf0 = buf; nm_assert(buf_size >= _RTM_FLAGS_TO_STRING_MAXLEN); if (!rtm_flags) return ""; nm_utils_strbuf_append_str(&buf, &buf_size, " rtm_flags "); _rtm_flags_to_string(rtm_flags, buf, buf_size); nm_assert(strlen(buf) < buf_size); return buf0; } /** * nm_platform_ip4_route_to_string: * @route: pointer to NMPlatformIP4Route route structure * @buf: (allow-none): an optional buffer. If %NULL, a static buffer is used. * @len: the size of the @buf. If @buf is %NULL, this argument is ignored. * * A method for converting a route struct into a string representation. * * Example output: "192.168.1.0/24 via 0.0.0.0 dev em1 metric 0 mss 0" * * Returns: a string representation of the route. */ const char * nm_platform_ip4_route_to_string(const NMPlatformIP4Route *route, char *buf, gsize len) { char s_network[INET_ADDRSTRLEN], s_gateway[INET_ADDRSTRLEN]; char s_pref_src[INET_ADDRSTRLEN]; char str_dev[TO_STRING_DEV_BUF_SIZE]; char str_table[30]; char str_scope[30], s_source[50]; char str_tos[32], str_window[32], str_cwnd[32], str_initcwnd[32], str_initrwnd[32], str_mtu[32]; char str_rtm_flags[_RTM_FLAGS_TO_STRING_MAXLEN]; char str_type[30]; char str_metric[30]; if (!nm_utils_to_string_buffer_init_null(route, &buf, &len)) return buf; inet_ntop(AF_INET, &route->network, s_network, sizeof(s_network)); inet_ntop(AF_INET, &route->gateway, s_gateway, sizeof(s_gateway)); _to_string_dev(NULL, route->ifindex, str_dev, sizeof(str_dev)); g_snprintf( buf, len, "type %s " /* type */ "%s" /* table */ "%s/%d" " via %s" "%s" " metric %s" " mss %" G_GUINT32_FORMAT " rt-src %s" /* protocol */ "%s" /* rtm_flags */ "%s%s" /* scope */ "%s%s" /* pref-src */ "%s" /* tos */ "%s" /* window */ "%s" /* cwnd */ "%s" /* initcwnd */ "%s" /* initrwnd */ "%s" /* mtu */ "", nm_utils_route_type2str(nm_platform_route_type_uncoerce(route->type_coerced), str_type, sizeof(str_type)), route->table_any ? "table ?? " : (route->table_coerced ? nm_sprintf_buf(str_table, "table %u ", nm_platform_route_table_uncoerce(route->table_coerced, FALSE)) : ""), s_network, route->plen, s_gateway, str_dev, route->metric_any ? (route->metric ? nm_sprintf_buf(str_metric, "??+%u", route->metric) : "??") : nm_sprintf_buf(str_metric, "%u", route->metric), route->mss, nmp_utils_ip_config_source_to_string(route->rt_source, s_source, sizeof(s_source)), _rtm_flags_to_string_full(str_rtm_flags, sizeof(str_rtm_flags), route->r_rtm_flags), route->scope_inv ? " scope " : "", route->scope_inv ? (nm_platform_route_scope2str(nm_platform_route_scope_inv(route->scope_inv), str_scope, sizeof(str_scope))) : "", route->pref_src ? " pref-src " : "", route->pref_src ? inet_ntop(AF_INET, &route->pref_src, s_pref_src, sizeof(s_pref_src)) : "", route->tos ? nm_sprintf_buf(str_tos, " tos 0x%x", (unsigned) route->tos) : "", route->window || route->lock_window ? nm_sprintf_buf(str_window, " window %s%" G_GUINT32_FORMAT, route->lock_window ? "lock " : "", route->window) : "", route->cwnd || route->lock_cwnd ? nm_sprintf_buf(str_cwnd, " cwnd %s%" G_GUINT32_FORMAT, route->lock_cwnd ? "lock " : "", route->cwnd) : "", route->initcwnd || route->lock_initcwnd ? nm_sprintf_buf(str_initcwnd, " initcwnd %s%" G_GUINT32_FORMAT, route->lock_initcwnd ? "lock " : "", route->initcwnd) : "", route->initrwnd || route->lock_initrwnd ? nm_sprintf_buf(str_initrwnd, " initrwnd %s%" G_GUINT32_FORMAT, route->lock_initrwnd ? "lock " : "", route->initrwnd) : "", route->mtu || route->lock_mtu ? nm_sprintf_buf(str_mtu, " mtu %s%" G_GUINT32_FORMAT, route->lock_mtu ? "lock " : "", route->mtu) : ""); return buf; } /** * nm_platform_ip6_route_to_string: * @route: pointer to NMPlatformIP6Route route structure * @buf: (allow-none): an optional buffer. If %NULL, a static buffer is used. * @len: the size of the @buf. If @buf is %NULL, this argument is ignored. * * A method for converting a route struct into a string representation. * * Example output: "ff02::fb/128 via :: dev em1 metric 0" * * Returns: a string representation of the route. */ const char * nm_platform_ip6_route_to_string(const NMPlatformIP6Route *route, char *buf, gsize len) { char s_network[INET6_ADDRSTRLEN]; char s_gateway[INET6_ADDRSTRLEN]; char s_pref_src[INET6_ADDRSTRLEN]; char s_src_all[INET6_ADDRSTRLEN + 40]; char s_src[INET6_ADDRSTRLEN]; char str_type[30]; char str_table[30]; char str_pref[40]; char str_pref2[30]; char str_dev[TO_STRING_DEV_BUF_SIZE]; char s_source[50]; char str_window[32]; char str_cwnd[32]; char str_initcwnd[32]; char str_initrwnd[32]; char str_mtu[32]; char str_rtm_flags[_RTM_FLAGS_TO_STRING_MAXLEN]; char str_metric[30]; if (!nm_utils_to_string_buffer_init_null(route, &buf, &len)) return buf; inet_ntop(AF_INET6, &route->network, s_network, sizeof(s_network)); inet_ntop(AF_INET6, &route->gateway, s_gateway, sizeof(s_gateway)); if (IN6_IS_ADDR_UNSPECIFIED(&route->pref_src)) s_pref_src[0] = 0; else inet_ntop(AF_INET6, &route->pref_src, s_pref_src, sizeof(s_pref_src)); _to_string_dev(NULL, route->ifindex, str_dev, sizeof(str_dev)); g_snprintf( buf, len, "type %s " /* type */ "%s" /* table */ "%s/%d" " via %s" "%s" " metric %s" " mss %" G_GUINT32_FORMAT " rt-src %s" /* protocol */ "%s" /* source */ "%s" /* rtm_flags */ "%s%s" /* pref-src */ "%s" /* window */ "%s" /* cwnd */ "%s" /* initcwnd */ "%s" /* initrwnd */ "%s" /* mtu */ "%s" /* pref */ "", nm_utils_route_type2str(nm_platform_route_type_uncoerce(route->type_coerced), str_type, sizeof(str_type)), route->table_any ? "table ?? " : (route->table_coerced ? nm_sprintf_buf(str_table, "table %u ", nm_platform_route_table_uncoerce(route->table_coerced, FALSE)) : ""), s_network, route->plen, s_gateway, str_dev, route->metric_any ? (route->metric ? nm_sprintf_buf(str_metric, "??+%u", route->metric) : "??") : nm_sprintf_buf(str_metric, "%u", route->metric), route->mss, nmp_utils_ip_config_source_to_string(route->rt_source, s_source, sizeof(s_source)), route->src_plen || !IN6_IS_ADDR_UNSPECIFIED(&route->src) ? nm_sprintf_buf(s_src_all, " src %s/%u", _nm_utils_inet6_ntop(&route->src, s_src), (unsigned) route->src_plen) : "", _rtm_flags_to_string_full(str_rtm_flags, sizeof(str_rtm_flags), route->r_rtm_flags), s_pref_src[0] ? " pref-src " : "", s_pref_src[0] ? s_pref_src : "", route->window || route->lock_window ? nm_sprintf_buf(str_window, " window %s%" G_GUINT32_FORMAT, route->lock_window ? "lock " : "", route->window) : "", route->cwnd || route->lock_cwnd ? nm_sprintf_buf(str_cwnd, " cwnd %s%" G_GUINT32_FORMAT, route->lock_cwnd ? "lock " : "", route->cwnd) : "", route->initcwnd || route->lock_initcwnd ? nm_sprintf_buf(str_initcwnd, " initcwnd %s%" G_GUINT32_FORMAT, route->lock_initcwnd ? "lock " : "", route->initcwnd) : "", route->initrwnd || route->lock_initrwnd ? nm_sprintf_buf(str_initrwnd, " initrwnd %s%" G_GUINT32_FORMAT, route->lock_initrwnd ? "lock " : "", route->initrwnd) : "", route->mtu || route->lock_mtu ? nm_sprintf_buf(str_mtu, " mtu %s%" G_GUINT32_FORMAT, route->lock_mtu ? "lock " : "", route->mtu) : "", route->rt_pref ? nm_sprintf_buf( str_pref, " pref %s", nm_icmpv6_router_pref_to_string(route->rt_pref, str_pref2, sizeof(str_pref2))) : ""); return buf; } static void _routing_rule_addr_to_string(char ** buf, gsize * len, int addr_family, const NMIPAddr *addr, guint8 plen, gboolean is_src) { char s_addr[NM_UTILS_INET_ADDRSTRLEN]; gboolean is_zero; gsize addr_size; nm_assert_addr_family(addr_family); nm_assert(addr); addr_size = nm_utils_addr_family_to_size(addr_family); is_zero = nm_utils_memeqzero(addr, addr_size); if (plen == 0 && is_zero) { if (is_src) nm_utils_strbuf_append_str(buf, len, " from all"); else nm_utils_strbuf_append_str(buf, len, ""); return; } nm_utils_strbuf_append_str(buf, len, is_src ? " from " : " to "); nm_utils_strbuf_append_str(buf, len, nm_utils_inet_ntop(addr_family, addr, s_addr)); if (plen != (addr_size * 8)) nm_utils_strbuf_append(buf, len, "/%u", plen); } static void _routing_rule_port_range_to_string(char ** buf, gsize * len, const NMFibRulePortRange *port_range, const char * name) { if (port_range->start == 0 && port_range->end == 0) nm_utils_strbuf_append_str(buf, len, ""); else { nm_utils_strbuf_append(buf, len, " %s %u", name, port_range->start); if (port_range->start != port_range->end) nm_utils_strbuf_append(buf, len, "-%u", port_range->end); } } const char * nm_platform_routing_rule_to_string(const NMPlatformRoutingRule *routing_rule, char *buf, gsize len) { const char *buf0; guint32 rr_flags; if (!nm_utils_to_string_buffer_init_null(routing_rule, &buf, &len)) return buf; if (!NM_IN_SET(routing_rule->addr_family, AF_INET, AF_INET6)) { /* invalid addr-family. The other fields are undefined. */ if (routing_rule->addr_family == AF_UNSPEC) g_snprintf(buf, len, "[routing-rule]"); else g_snprintf(buf, len, "[routing-rule family:%u]", routing_rule->addr_family); return buf; } buf0 = buf; rr_flags = routing_rule->flags; rr_flags = NM_FLAGS_UNSET(rr_flags, FIB_RULE_INVERT); nm_utils_strbuf_append(&buf, &len, "[%c] " /* addr-family */ "%u:" /* priority */ "%s", /* not/FIB_RULE_INVERT */ nm_utils_addr_family_to_char(routing_rule->addr_family), routing_rule->priority, (NM_FLAGS_HAS(routing_rule->flags, FIB_RULE_INVERT) ? " not" : "")); _routing_rule_addr_to_string(&buf, &len, routing_rule->addr_family, &routing_rule->src, routing_rule->src_len, TRUE); _routing_rule_addr_to_string(&buf, &len, routing_rule->addr_family, &routing_rule->dst, routing_rule->dst_len, FALSE); if (routing_rule->tos) nm_utils_strbuf_append(&buf, &len, " tos 0x%02x", routing_rule->tos); if (routing_rule->fwmark != 0 || routing_rule->fwmask != 0) { nm_utils_strbuf_append(&buf, &len, " fwmark %#x", (unsigned) routing_rule->fwmark); if (routing_rule->fwmark != 0xFFFFFFFFu) nm_utils_strbuf_append(&buf, &len, "/%#x", (unsigned) routing_rule->fwmask); } if (routing_rule->iifname[0]) { nm_utils_strbuf_append(&buf, &len, " iif %s", routing_rule->iifname); rr_flags = NM_FLAGS_UNSET(rr_flags, FIB_RULE_IIF_DETACHED); if (NM_FLAGS_HAS(routing_rule->flags, FIB_RULE_IIF_DETACHED)) nm_utils_strbuf_append_str(&buf, &len, " [detached]"); } if (routing_rule->oifname[0]) { nm_utils_strbuf_append(&buf, &len, " oif %s", routing_rule->oifname); rr_flags = NM_FLAGS_UNSET(rr_flags, FIB_RULE_OIF_DETACHED); if (NM_FLAGS_HAS(routing_rule->flags, FIB_RULE_OIF_DETACHED)) nm_utils_strbuf_append_str(&buf, &len, " [detached]"); } if (routing_rule->l3mdev != 0) { if (routing_rule->l3mdev == 1) nm_utils_strbuf_append_str(&buf, &len, " lookup [l3mdev-table]"); else { nm_utils_strbuf_append(&buf, &len, " lookup [l3mdev-table/%u]", (unsigned) routing_rule->l3mdev); } } if (routing_rule->uid_range_has || routing_rule->uid_range.start || routing_rule->uid_range.end) { nm_utils_strbuf_append(&buf, &len, " uidrange %u-%u%s", routing_rule->uid_range.start, routing_rule->uid_range.end, routing_rule->uid_range_has ? "" : "(?)"); } if (routing_rule->ip_proto != 0) { /* we don't call getprotobynumber(), just print the numeric value. * This differs from what ip-rule prints. */ nm_utils_strbuf_append(&buf, &len, " ipproto %u", routing_rule->ip_proto); } _routing_rule_port_range_to_string(&buf, &len, &routing_rule->sport_range, "sport"); _routing_rule_port_range_to_string(&buf, &len, &routing_rule->dport_range, "dport"); if (routing_rule->tun_id != 0) { nm_utils_strbuf_append(&buf, &len, " tun_id %" G_GUINT64_FORMAT, routing_rule->tun_id); } if (routing_rule->table != 0) { nm_utils_strbuf_append(&buf, &len, " lookup %u", routing_rule->table); } if (routing_rule->suppress_prefixlen_inverse != 0) { nm_utils_strbuf_append(&buf, &len, " suppress_prefixlen %d", (int) (~routing_rule->suppress_prefixlen_inverse)); } if (routing_rule->suppress_ifgroup_inverse != 0) { nm_utils_strbuf_append(&buf, &len, " suppress_ifgroup %d", (int) (~routing_rule->suppress_ifgroup_inverse)); } if (routing_rule->flow) { /* FRA_FLOW is only for IPv4, but we want to print the value for all address-families, * to see when it is set. In practice, this should not be set except for IPv4. * * We don't follow the style how ip-rule prints flow/realms. It's confusing. Just * print the value hex. */ nm_utils_strbuf_append(&buf, &len, " realms 0x%08x", routing_rule->flow); } if (routing_rule->action == RTN_NAT) { G_STATIC_ASSERT_EXPR(RTN_NAT == 10); /* NAT is deprecated for many years. We don't support RTA_GATEWAY/FRA_UNUSED2 * for the gateway, and so do recent kernels ignore that parameter. */ nm_utils_strbuf_append_str(&buf, &len, " masquerade"); } else if (routing_rule->action == FR_ACT_GOTO) { if (routing_rule->goto_target != 0) nm_utils_strbuf_append(&buf, &len, " goto %u", routing_rule->goto_target); else nm_utils_strbuf_append_str(&buf, &len, " goto none"); rr_flags = NM_FLAGS_UNSET(rr_flags, FIB_RULE_UNRESOLVED); if (NM_FLAGS_HAS(routing_rule->flags, FIB_RULE_UNRESOLVED)) nm_utils_strbuf_append_str(&buf, &len, " unresolved"); } else if (routing_rule->action != FR_ACT_TO_TBL) { const char *ss; char ss_buf[60]; #define _V(v1, v2) ((sizeof(char[(((int) (v1)) == ((int) (v2))) ? 1 : -1]) * 0) + (v1)) switch (routing_rule->action) { case _V(FR_ACT_UNSPEC, RTN_UNSPEC): ss = "none"; break; case _V(FR_ACT_TO_TBL, RTN_UNICAST): ss = "unicast"; break; case _V(FR_ACT_GOTO, RTN_LOCAL): ss = "local"; break; case _V(FR_ACT_NOP, RTN_BROADCAST): ss = "nop"; break; case _V(FR_ACT_RES3, RTN_ANYCAST): ss = "anycast"; break; case _V(FR_ACT_RES4, RTN_MULTICAST): ss = "multicast"; break; case _V(FR_ACT_BLACKHOLE, RTN_BLACKHOLE): ss = "blackhole"; break; case _V(FR_ACT_UNREACHABLE, RTN_UNREACHABLE): ss = "unreachable"; break; case _V(FR_ACT_PROHIBIT, RTN_PROHIBIT): ss = "prohibit"; break; case RTN_THROW: ss = "throw"; break; case RTN_NAT: ss = "nat"; break; case RTN_XRESOLVE: ss = "xresolve"; break; default: ss = nm_sprintf_buf(ss_buf, "action-%u", routing_rule->action); break; } #undef _V nm_utils_strbuf_append(&buf, &len, " %s", ss); } if (routing_rule->protocol != RTPROT_UNSPEC) nm_utils_strbuf_append(&buf, &len, " protocol %u", routing_rule->protocol); if (routing_rule->goto_target != 0 && routing_rule->action != FR_ACT_GOTO) { /* a trailing target is set for an unexpected action. Print it. */ nm_utils_strbuf_append(&buf, &len, " goto-target %u", routing_rule->goto_target); } if (rr_flags != 0) { /* we have some flags we didn't print about yet. */ nm_utils_strbuf_append(&buf, &len, " remaining-flags %x", rr_flags); } return buf0; } const char * nm_platform_qdisc_to_string(const NMPlatformQdisc *qdisc, char *buf, gsize len) { char str_dev[TO_STRING_DEV_BUF_SIZE]; const char *buf0; if (!nm_utils_to_string_buffer_init_null(qdisc, &buf, &len)) return buf; buf0 = buf; nm_utils_strbuf_append(&buf, &len, "%s%s family %u handle %x parent %x info %x", qdisc->kind, _to_string_dev(NULL, qdisc->ifindex, str_dev, sizeof(str_dev)), qdisc->addr_family, qdisc->handle, qdisc->parent, qdisc->info); if (nm_streq0(qdisc->kind, "fq_codel")) { if (qdisc->fq_codel.limit) nm_utils_strbuf_append(&buf, &len, " limit %u", qdisc->fq_codel.limit); if (qdisc->fq_codel.flows) nm_utils_strbuf_append(&buf, &len, " flows %u", qdisc->fq_codel.flows); if (qdisc->fq_codel.target) nm_utils_strbuf_append(&buf, &len, " target %u", qdisc->fq_codel.target); if (qdisc->fq_codel.interval) nm_utils_strbuf_append(&buf, &len, " interval %u", qdisc->fq_codel.interval); if (qdisc->fq_codel.quantum) nm_utils_strbuf_append(&buf, &len, " quantum %u", qdisc->fq_codel.quantum); if (qdisc->fq_codel.ce_threshold != NM_PLATFORM_FQ_CODEL_CE_THRESHOLD_DISABLED) nm_utils_strbuf_append(&buf, &len, " ce_threshold %u", qdisc->fq_codel.ce_threshold); if (qdisc->fq_codel.memory_limit != NM_PLATFORM_FQ_CODEL_MEMORY_LIMIT_UNSET) nm_utils_strbuf_append(&buf, &len, " memory_limit %u", qdisc->fq_codel.memory_limit); if (qdisc->fq_codel.ecn) nm_utils_strbuf_append(&buf, &len, " ecn"); } else if (nm_streq0(qdisc->kind, "sfq")) { if (qdisc->sfq.quantum) nm_utils_strbuf_append(&buf, &len, " quantum %u", qdisc->sfq.quantum); if (qdisc->sfq.perturb_period) nm_utils_strbuf_append(&buf, &len, " perturb %d", qdisc->sfq.perturb_period); if (qdisc->sfq.limit) nm_utils_strbuf_append(&buf, &len, " limit %u", (guint) qdisc->sfq.limit); if (qdisc->sfq.divisor) nm_utils_strbuf_append(&buf, &len, " divisor %u", qdisc->sfq.divisor); if (qdisc->sfq.flows) nm_utils_strbuf_append(&buf, &len, " flows %u", qdisc->sfq.flows); if (qdisc->sfq.depth) nm_utils_strbuf_append(&buf, &len, " depth %u", qdisc->sfq.depth); } else if (nm_streq0(qdisc->kind, "tbf")) { nm_utils_strbuf_append(&buf, &len, " rate %" G_GUINT64_FORMAT, qdisc->tbf.rate); nm_utils_strbuf_append(&buf, &len, " burst %u", qdisc->tbf.burst); if (qdisc->tbf.limit) nm_utils_strbuf_append(&buf, &len, " limit %u", qdisc->tbf.limit); if (qdisc->tbf.latency) nm_utils_strbuf_append(&buf, &len, " latency %uns", qdisc->tbf.latency); } return buf0; } void nm_platform_qdisc_hash_update(const NMPlatformQdisc *obj, NMHashState *h) { nm_hash_update_str0(h, obj->kind); nm_hash_update_vals(h, obj->ifindex, obj->addr_family, obj->handle, obj->parent, obj->info); if (nm_streq0(obj->kind, "fq_codel")) { nm_hash_update_vals(h, obj->fq_codel.limit, obj->fq_codel.flows, obj->fq_codel.target, obj->fq_codel.interval, obj->fq_codel.quantum, obj->fq_codel.ce_threshold, obj->fq_codel.memory_limit, NM_HASH_COMBINE_BOOLS(guint8, obj->fq_codel.ecn)); } else if (nm_streq0(obj->kind, "sfq")) { nm_hash_update_vals(h, obj->sfq.quantum, obj->sfq.perturb_period, obj->sfq.limit, obj->sfq.divisor, obj->sfq.flows, obj->sfq.depth); } else if (nm_streq0(obj->kind, "tbf")) { nm_hash_update_vals(h, obj->tbf.rate, obj->tbf.burst, obj->tbf.limit, obj->tbf.latency); } } int nm_platform_qdisc_cmp_full(const NMPlatformQdisc *a, const NMPlatformQdisc *b, gboolean compare_handle) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, ifindex); NM_CMP_FIELD(a, b, parent); NM_CMP_FIELD_STR_INTERNED(a, b, kind); NM_CMP_FIELD(a, b, addr_family); if (compare_handle) NM_CMP_FIELD(a, b, handle); NM_CMP_FIELD(a, b, info); if (nm_streq0(a->kind, "fq_codel")) { NM_CMP_FIELD(a, b, fq_codel.limit); NM_CMP_FIELD(a, b, fq_codel.flows); NM_CMP_FIELD(a, b, fq_codel.target); NM_CMP_FIELD(a, b, fq_codel.interval); NM_CMP_FIELD(a, b, fq_codel.quantum); NM_CMP_FIELD(a, b, fq_codel.ce_threshold); NM_CMP_FIELD(a, b, fq_codel.memory_limit); NM_CMP_FIELD_UNSAFE(a, b, fq_codel.ecn); } else if (nm_streq0(a->kind, "sfq")) { NM_CMP_FIELD(a, b, sfq.quantum); NM_CMP_FIELD(a, b, sfq.perturb_period); NM_CMP_FIELD(a, b, sfq.limit); NM_CMP_FIELD(a, b, sfq.flows); NM_CMP_FIELD(a, b, sfq.divisor); NM_CMP_FIELD(a, b, sfq.depth); } else if (nm_streq0(a->kind, "tbf")) { NM_CMP_FIELD(a, b, tbf.rate); NM_CMP_FIELD(a, b, tbf.burst); NM_CMP_FIELD(a, b, tbf.limit); NM_CMP_FIELD(a, b, tbf.latency); } return 0; } int nm_platform_qdisc_cmp(const NMPlatformQdisc *a, const NMPlatformQdisc *b) { return nm_platform_qdisc_cmp_full(a, b, TRUE); } const char * nm_platform_tfilter_to_string(const NMPlatformTfilter *tfilter, char *buf, gsize len) { char str_dev[TO_STRING_DEV_BUF_SIZE]; char act_buf[300]; char *p; gsize l; if (!nm_utils_to_string_buffer_init_null(tfilter, &buf, &len)) return buf; if (tfilter->action.kind) { p = act_buf; l = sizeof(act_buf); nm_utils_strbuf_append(&p, &l, " \"%s\"", tfilter->action.kind); if (nm_streq(tfilter->action.kind, NM_PLATFORM_ACTION_KIND_SIMPLE)) { gs_free char *t = NULL; nm_utils_strbuf_append( &p, &l, " (\"%s\")", nm_utils_str_utf8safe_escape(tfilter->action.kind, NM_UTILS_STR_UTF8_SAFE_FLAG_ESCAPE_CTRL | NM_UTILS_STR_UTF8_SAFE_FLAG_ESCAPE_NON_ASCII, &t)); } else if (nm_streq(tfilter->action.kind, NM_PLATFORM_ACTION_KIND_MIRRED)) { nm_utils_strbuf_append(&p, &l, "%s%s%s%s dev %d", tfilter->action.mirred.ingress ? " ingress" : "", tfilter->action.mirred.egress ? " egress" : "", tfilter->action.mirred.mirror ? " mirror" : "", tfilter->action.mirred.redirect ? " redirect" : "", tfilter->action.mirred.ifindex); } } else act_buf[0] = '\0'; g_snprintf(buf, len, "%s%s family %u handle %x parent %x info %x%s", tfilter->kind, _to_string_dev(NULL, tfilter->ifindex, str_dev, sizeof(str_dev)), tfilter->addr_family, tfilter->handle, tfilter->parent, tfilter->info, act_buf); return buf; } void nm_platform_tfilter_hash_update(const NMPlatformTfilter *obj, NMHashState *h) { nm_hash_update_str0(h, obj->kind); nm_hash_update_vals(h, obj->ifindex, obj->addr_family, obj->handle, obj->parent, obj->info); if (obj->action.kind) { nm_hash_update_str(h, obj->action.kind); if (nm_streq(obj->action.kind, NM_PLATFORM_ACTION_KIND_SIMPLE)) { nm_hash_update_strarr(h, obj->action.simple.sdata); } else if (nm_streq(obj->action.kind, NM_PLATFORM_ACTION_KIND_MIRRED)) { nm_hash_update_vals(h, obj->action.mirred.ifindex, NM_HASH_COMBINE_BOOLS(guint8, obj->action.mirred.ingress, obj->action.mirred.egress, obj->action.mirred.mirror, obj->action.mirred.redirect)); } } } int nm_platform_tfilter_cmp(const NMPlatformTfilter *a, const NMPlatformTfilter *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, ifindex); NM_CMP_FIELD(a, b, parent); NM_CMP_FIELD_STR_INTERNED(a, b, kind); NM_CMP_FIELD(a, b, addr_family); NM_CMP_FIELD(a, b, handle); NM_CMP_FIELD(a, b, info); NM_CMP_FIELD_STR_INTERNED(a, b, action.kind); if (a->action.kind) { if (nm_streq(a->action.kind, NM_PLATFORM_ACTION_KIND_SIMPLE)) { NM_CMP_FIELD_STR(a, b, action.simple.sdata); } else if (nm_streq(a->action.kind, NM_PLATFORM_ACTION_KIND_MIRRED)) { NM_CMP_FIELD(a, b, action.mirred.ifindex); NM_CMP_FIELD_UNSAFE(a, b, action.mirred.ingress); NM_CMP_FIELD_UNSAFE(a, b, action.mirred.egress); NM_CMP_FIELD_UNSAFE(a, b, action.mirred.mirror); NM_CMP_FIELD_UNSAFE(a, b, action.mirred.redirect); } } return 0; } const char * nm_platform_vf_to_string(const NMPlatformVF *vf, char *buf, gsize len) { char str_mac[128], mac[128]; char str_spoof_check[64]; char str_trust[64]; char str_min_tx_rate[64]; char str_max_tx_rate[64]; nm_auto_free_gstring GString *gstr_vlans = NULL; guint i; if (!nm_utils_to_string_buffer_init_null(vf, &buf, &len)) return buf; if (vf->mac.len) { _nm_utils_hwaddr_ntoa(vf->mac.data, vf->mac.len, TRUE, mac, sizeof(mac)); nm_sprintf_buf(str_mac, " mac %s", mac); } else str_mac[0] = '\0'; if (vf->num_vlans) { gstr_vlans = g_string_new(""); for (i = 0; i < vf->num_vlans; i++) { g_string_append_printf(gstr_vlans, " vlan %u", (unsigned) vf->vlans[i].id); if (vf->vlans[i].qos) g_string_append_printf(gstr_vlans, " qos %u", (unsigned) vf->vlans[i].qos); if (vf->vlans[i].proto_ad) g_string_append(gstr_vlans, " proto 802.1ad"); } } g_snprintf(buf, len, "%u" /* index */ "%s" /* MAC */ "%s" /* spoof check */ "%s" /* trust */ "%s" /* min tx rate */ "%s" /* max tx rate */ "%s", /* VLANs */ vf->index, str_mac, vf->spoofchk >= 0 ? nm_sprintf_buf(str_spoof_check, " spoofchk %d", vf->spoofchk) : "", vf->trust >= 0 ? nm_sprintf_buf(str_trust, " trust %d", vf->trust) : "", vf->min_tx_rate ? nm_sprintf_buf(str_min_tx_rate, " min_tx_rate %u", (unsigned) vf->min_tx_rate) : "", vf->max_tx_rate ? nm_sprintf_buf(str_max_tx_rate, " max_tx_rate %u", (unsigned) vf->max_tx_rate) : "", gstr_vlans ? gstr_vlans->str : ""); return buf; } const char * nm_platform_bridge_vlan_to_string(const NMPlatformBridgeVlan *vlan, char *buf, gsize len) { char str_vid_end[64]; if (!nm_utils_to_string_buffer_init_null(vlan, &buf, &len)) return buf; g_snprintf(buf, len, "%u" "%s" "%s" "%s", vlan->vid_start, vlan->vid_start != vlan->vid_end ? nm_sprintf_buf(str_vid_end, "-%u", vlan->vid_end) : "", vlan->pvid ? " PVID" : "", vlan->untagged ? " untagged" : ""); return buf; } void nm_platform_link_hash_update(const NMPlatformLink *obj, NMHashState *h) { nm_hash_update_vals(h, obj->ifindex, obj->master, obj->parent, obj->n_ifi_flags, obj->mtu, obj->type, obj->arptype, obj->inet6_addr_gen_mode_inv, obj->inet6_token, obj->rx_packets, obj->rx_bytes, obj->tx_packets, obj->tx_bytes, NM_HASH_COMBINE_BOOLS(guint8, obj->connected, obj->initialized)); nm_hash_update_strarr(h, obj->name); nm_hash_update_str0(h, obj->kind); nm_hash_update_str0(h, obj->driver); /* nm_hash_update_mem() also hashes the length obj->addr.len */ nm_hash_update_mem(h, obj->l_address.data, NM_MIN(obj->l_address.len, sizeof(obj->l_address.data))); nm_hash_update_mem(h, obj->l_broadcast.data, NM_MIN(obj->l_broadcast.len, sizeof(obj->l_broadcast.data))); } int nm_platform_link_cmp(const NMPlatformLink *a, const NMPlatformLink *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, ifindex); NM_CMP_FIELD(a, b, type); NM_CMP_FIELD_STR(a, b, name); NM_CMP_FIELD(a, b, master); NM_CMP_FIELD(a, b, parent); NM_CMP_FIELD(a, b, n_ifi_flags); NM_CMP_FIELD_UNSAFE(a, b, connected); NM_CMP_FIELD(a, b, mtu); NM_CMP_FIELD_BOOL(a, b, initialized); NM_CMP_FIELD(a, b, arptype); NM_CMP_FIELD(a, b, l_address.len); NM_CMP_FIELD(a, b, l_broadcast.len); NM_CMP_FIELD(a, b, inet6_addr_gen_mode_inv); NM_CMP_FIELD_STR_INTERNED(a, b, kind); NM_CMP_FIELD_STR_INTERNED(a, b, driver); if (a->l_address.len) NM_CMP_FIELD_MEMCMP_LEN(a, b, l_address.data, a->l_address.len); if (a->l_broadcast.len) NM_CMP_FIELD_MEMCMP_LEN(a, b, l_broadcast.data, a->l_broadcast.len); NM_CMP_FIELD_MEMCMP(a, b, inet6_token); NM_CMP_FIELD(a, b, rx_packets); NM_CMP_FIELD(a, b, rx_bytes); NM_CMP_FIELD(a, b, tx_packets); NM_CMP_FIELD(a, b, tx_bytes); return 0; } void nm_platform_lnk_bridge_hash_update(const NMPlatformLnkBridge *obj, NMHashState *h) { nm_hash_update_vals(h, obj->forward_delay, obj->hello_time, obj->max_age, obj->ageing_time, obj->priority, obj->vlan_protocol, obj->group_fwd_mask, obj->group_addr, obj->mcast_hash_max, obj->mcast_last_member_count, obj->mcast_startup_query_count, obj->mcast_last_member_interval, obj->mcast_membership_interval, obj->mcast_querier_interval, obj->mcast_query_interval, obj->mcast_router, obj->mcast_query_response_interval, obj->mcast_startup_query_interval, NM_HASH_COMBINE_BOOLS(guint8, obj->stp_state, obj->mcast_querier, obj->mcast_query_use_ifaddr, obj->mcast_snooping, obj->vlan_stats_enabled)); } int nm_platform_lnk_bridge_cmp(const NMPlatformLnkBridge *a, const NMPlatformLnkBridge *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, forward_delay); NM_CMP_FIELD(a, b, hello_time); NM_CMP_FIELD(a, b, max_age); NM_CMP_FIELD(a, b, ageing_time); NM_CMP_FIELD_BOOL(a, b, stp_state); NM_CMP_FIELD(a, b, priority); NM_CMP_FIELD(a, b, vlan_protocol); NM_CMP_FIELD_BOOL(a, b, vlan_stats_enabled); NM_CMP_FIELD(a, b, group_fwd_mask); NM_CMP_FIELD_MEMCMP(a, b, group_addr); NM_CMP_FIELD_BOOL(a, b, mcast_snooping); NM_CMP_FIELD(a, b, mcast_router); NM_CMP_FIELD_BOOL(a, b, mcast_query_use_ifaddr); NM_CMP_FIELD_BOOL(a, b, mcast_querier); NM_CMP_FIELD(a, b, mcast_hash_max); NM_CMP_FIELD(a, b, mcast_last_member_count); NM_CMP_FIELD(a, b, mcast_startup_query_count); NM_CMP_FIELD(a, b, mcast_last_member_interval); NM_CMP_FIELD(a, b, mcast_membership_interval); NM_CMP_FIELD(a, b, mcast_querier_interval); NM_CMP_FIELD(a, b, mcast_query_interval); NM_CMP_FIELD(a, b, mcast_query_response_interval); NM_CMP_FIELD(a, b, mcast_startup_query_interval); return 0; } void nm_platform_lnk_gre_hash_update(const NMPlatformLnkGre *obj, NMHashState *h) { nm_hash_update_vals(h, obj->local, obj->remote, obj->parent_ifindex, obj->input_flags, obj->output_flags, obj->input_key, obj->output_key, obj->ttl, obj->tos, (bool) obj->path_mtu_discovery, (bool) obj->is_tap); } int nm_platform_lnk_gre_cmp(const NMPlatformLnkGre *a, const NMPlatformLnkGre *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, parent_ifindex); NM_CMP_FIELD(a, b, input_flags); NM_CMP_FIELD(a, b, output_flags); NM_CMP_FIELD(a, b, input_key); NM_CMP_FIELD(a, b, output_key); NM_CMP_FIELD(a, b, local); NM_CMP_FIELD(a, b, remote); NM_CMP_FIELD(a, b, ttl); NM_CMP_FIELD(a, b, tos); NM_CMP_FIELD_BOOL(a, b, path_mtu_discovery); NM_CMP_FIELD_BOOL(a, b, is_tap); return 0; } void nm_platform_lnk_infiniband_hash_update(const NMPlatformLnkInfiniband *obj, NMHashState *h) { nm_hash_update_val(h, obj->p_key); nm_hash_update_str0(h, obj->mode); } int nm_platform_lnk_infiniband_cmp(const NMPlatformLnkInfiniband *a, const NMPlatformLnkInfiniband *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, p_key); NM_CMP_FIELD_STR_INTERNED(a, b, mode); return 0; } void nm_platform_lnk_ip6tnl_hash_update(const NMPlatformLnkIp6Tnl *obj, NMHashState *h) { nm_hash_update_vals(h, obj->local, obj->remote, obj->parent_ifindex, obj->ttl, obj->tclass, obj->encap_limit, obj->proto, obj->flow_label, obj->flags, obj->input_flags, obj->output_flags, obj->input_key, obj->output_key, (bool) obj->is_gre, (bool) obj->is_tap); } int nm_platform_lnk_ip6tnl_cmp(const NMPlatformLnkIp6Tnl *a, const NMPlatformLnkIp6Tnl *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, parent_ifindex); NM_CMP_FIELD_MEMCMP(a, b, local); NM_CMP_FIELD_MEMCMP(a, b, remote); NM_CMP_FIELD(a, b, ttl); NM_CMP_FIELD(a, b, tclass); NM_CMP_FIELD(a, b, encap_limit); NM_CMP_FIELD(a, b, flow_label); NM_CMP_FIELD(a, b, proto); NM_CMP_FIELD(a, b, flags); NM_CMP_FIELD(a, b, input_flags); NM_CMP_FIELD(a, b, output_flags); NM_CMP_FIELD(a, b, input_key); NM_CMP_FIELD(a, b, output_key); NM_CMP_FIELD_BOOL(a, b, is_gre); NM_CMP_FIELD_BOOL(a, b, is_tap); return 0; } void nm_platform_lnk_ipip_hash_update(const NMPlatformLnkIpIp *obj, NMHashState *h) { nm_hash_update_vals(h, obj->local, obj->remote, obj->parent_ifindex, obj->ttl, obj->tos, (bool) obj->path_mtu_discovery); } int nm_platform_lnk_ipip_cmp(const NMPlatformLnkIpIp *a, const NMPlatformLnkIpIp *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, parent_ifindex); NM_CMP_FIELD(a, b, local); NM_CMP_FIELD(a, b, remote); NM_CMP_FIELD(a, b, ttl); NM_CMP_FIELD(a, b, tos); NM_CMP_FIELD_BOOL(a, b, path_mtu_discovery); return 0; } void nm_platform_lnk_macsec_hash_update(const NMPlatformLnkMacsec *obj, NMHashState *h) { nm_hash_update_vals(h, obj->parent_ifindex, obj->sci, obj->cipher_suite, obj->window, obj->icv_length, obj->encoding_sa, obj->validation, NM_HASH_COMBINE_BOOLS(guint8, obj->encrypt, obj->protect, obj->include_sci, obj->es, obj->scb, obj->replay_protect)); } int nm_platform_lnk_macsec_cmp(const NMPlatformLnkMacsec *a, const NMPlatformLnkMacsec *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, parent_ifindex); NM_CMP_FIELD(a, b, sci); NM_CMP_FIELD(a, b, icv_length); NM_CMP_FIELD(a, b, cipher_suite); NM_CMP_FIELD(a, b, window); NM_CMP_FIELD(a, b, encoding_sa); NM_CMP_FIELD(a, b, validation); NM_CMP_FIELD_UNSAFE(a, b, encrypt); NM_CMP_FIELD_UNSAFE(a, b, protect); NM_CMP_FIELD_UNSAFE(a, b, include_sci); NM_CMP_FIELD_UNSAFE(a, b, es); NM_CMP_FIELD_UNSAFE(a, b, scb); NM_CMP_FIELD_UNSAFE(a, b, replay_protect); return 0; } void nm_platform_lnk_macvlan_hash_update(const NMPlatformLnkMacvlan *obj, NMHashState *h) { nm_hash_update_vals(h, obj->mode, NM_HASH_COMBINE_BOOLS(guint8, obj->no_promisc, obj->tap)); } int nm_platform_lnk_macvlan_cmp(const NMPlatformLnkMacvlan *a, const NMPlatformLnkMacvlan *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, mode); NM_CMP_FIELD_UNSAFE(a, b, no_promisc); NM_CMP_FIELD_UNSAFE(a, b, tap); return 0; } void nm_platform_lnk_sit_hash_update(const NMPlatformLnkSit *obj, NMHashState *h) { nm_hash_update_vals(h, obj->local, obj->remote, obj->parent_ifindex, obj->flags, obj->ttl, obj->tos, obj->proto, (bool) obj->path_mtu_discovery); } int nm_platform_lnk_sit_cmp(const NMPlatformLnkSit *a, const NMPlatformLnkSit *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, parent_ifindex); NM_CMP_FIELD(a, b, local); NM_CMP_FIELD(a, b, remote); NM_CMP_FIELD(a, b, ttl); NM_CMP_FIELD(a, b, tos); NM_CMP_FIELD_BOOL(a, b, path_mtu_discovery); NM_CMP_FIELD(a, b, flags); NM_CMP_FIELD(a, b, proto); return 0; } void nm_platform_lnk_tun_hash_update(const NMPlatformLnkTun *obj, NMHashState *h) { nm_hash_update_vals(h, obj->type, obj->owner, obj->group, NM_HASH_COMBINE_BOOLS(guint8, obj->owner_valid, obj->group_valid, obj->pi, obj->vnet_hdr, obj->multi_queue, obj->persist)); } int nm_platform_lnk_tun_cmp(const NMPlatformLnkTun *a, const NMPlatformLnkTun *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, type); NM_CMP_FIELD(a, b, owner); NM_CMP_FIELD(a, b, group); NM_CMP_FIELD_BOOL(a, b, owner_valid); NM_CMP_FIELD_BOOL(a, b, group_valid); NM_CMP_FIELD_BOOL(a, b, pi); NM_CMP_FIELD_BOOL(a, b, vnet_hdr); NM_CMP_FIELD_BOOL(a, b, multi_queue); NM_CMP_FIELD_BOOL(a, b, persist); return 0; } void nm_platform_lnk_vlan_hash_update(const NMPlatformLnkVlan *obj, NMHashState *h) { nm_hash_update_vals(h, obj->id, obj->flags); } int nm_platform_lnk_vlan_cmp(const NMPlatformLnkVlan *a, const NMPlatformLnkVlan *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, id); NM_CMP_FIELD(a, b, flags); return 0; } void nm_platform_lnk_vrf_hash_update(const NMPlatformLnkVrf *obj, NMHashState *h) { nm_hash_update_vals(h, obj->table); } int nm_platform_lnk_vrf_cmp(const NMPlatformLnkVrf *a, const NMPlatformLnkVrf *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, table); return 0; } void nm_platform_lnk_vxlan_hash_update(const NMPlatformLnkVxlan *obj, NMHashState *h) { nm_hash_update_vals(h, obj->group6, obj->local6, obj->group, obj->local, obj->parent_ifindex, obj->id, obj->ageing, obj->limit, obj->dst_port, obj->src_port_min, obj->src_port_max, obj->tos, obj->ttl, NM_HASH_COMBINE_BOOLS(guint8, obj->learning, obj->proxy, obj->rsc, obj->l2miss, obj->l3miss)); } int nm_platform_lnk_vxlan_cmp(const NMPlatformLnkVxlan *a, const NMPlatformLnkVxlan *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, parent_ifindex); NM_CMP_FIELD(a, b, id); NM_CMP_FIELD(a, b, group); NM_CMP_FIELD(a, b, local); NM_CMP_FIELD_MEMCMP(a, b, group6); NM_CMP_FIELD_MEMCMP(a, b, local6); NM_CMP_FIELD(a, b, tos); NM_CMP_FIELD(a, b, ttl); NM_CMP_FIELD_BOOL(a, b, learning); NM_CMP_FIELD(a, b, ageing); NM_CMP_FIELD(a, b, limit); NM_CMP_FIELD(a, b, dst_port); NM_CMP_FIELD(a, b, src_port_min); NM_CMP_FIELD(a, b, src_port_max); NM_CMP_FIELD_BOOL(a, b, proxy); NM_CMP_FIELD_BOOL(a, b, rsc); NM_CMP_FIELD_BOOL(a, b, l2miss); NM_CMP_FIELD_BOOL(a, b, l3miss); return 0; } void nm_platform_lnk_wireguard_hash_update(const NMPlatformLnkWireGuard *obj, NMHashState *h) { nm_hash_update_vals(h, obj->listen_port, obj->fwmark); nm_hash_update(h, obj->private_key, sizeof(obj->private_key)); nm_hash_update(h, obj->public_key, sizeof(obj->public_key)); } int nm_platform_lnk_wireguard_cmp(const NMPlatformLnkWireGuard *a, const NMPlatformLnkWireGuard *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, listen_port); NM_CMP_FIELD(a, b, fwmark); NM_CMP_FIELD_MEMCMP(a, b, private_key); NM_CMP_FIELD_MEMCMP(a, b, public_key); return 0; } static int _address_pretty_sort_get_prio_4(in_addr_t addr) { if (nm_utils_ip4_address_is_link_local(addr)) return 0; return 1; } int nm_platform_ip4_address_pretty_sort_cmp(const NMPlatformIP4Address *a1, const NMPlatformIP4Address *a2) { in_addr_t n1; in_addr_t n2; nm_assert(a1); nm_assert(a2); /* Sort by address type. For example link local will * be sorted *after* a global address. */ NM_CMP_DIRECT(_address_pretty_sort_get_prio_4(a2->address), _address_pretty_sort_get_prio_4(a1->address)); /* Sort the addresses based on their source. */ NM_CMP_DIRECT(a2->addr_source, a1->addr_source); NM_CMP_DIRECT((a2->label[0] == '\0'), (a1->label[0] == '\0')); /* Finally, sort addresses lexically. We compare only the * network part so that the order of addresses in the same * subnet (and thus also the primary/secondary role) is * preserved. */ n1 = a1->address & _nm_utils_ip4_prefix_to_netmask(a1->plen); n2 = a2->address & _nm_utils_ip4_prefix_to_netmask(a2->plen); NM_CMP_DIRECT_MEMCMP(&n1, &n2, sizeof(guint32)); return 0; } static int _address_pretty_sort_get_prio_6(const struct in6_addr *addr) { if (IN6_IS_ADDR_V4MAPPED(addr)) return 0; if (IN6_IS_ADDR_V4COMPAT(addr)) return 1; if (IN6_IS_ADDR_UNSPECIFIED(addr)) return 2; if (IN6_IS_ADDR_LOOPBACK(addr)) return 3; if (IN6_IS_ADDR_LINKLOCAL(addr)) return 4; if (IN6_IS_ADDR_SITELOCAL(addr)) return 5; return 6; } int nm_platform_ip6_address_pretty_sort_cmp(const NMPlatformIP6Address *a1, const NMPlatformIP6Address *a2, gboolean prefer_temp) { gboolean ipv6_privacy1; gboolean ipv6_privacy2; nm_assert(a1); nm_assert(a2); /* tentative addresses are always sorted back... */ /* sort tentative addresses after non-tentative. */ NM_CMP_DIRECT(NM_FLAGS_HAS(a1->n_ifa_flags, IFA_F_TENTATIVE), NM_FLAGS_HAS(a2->n_ifa_flags, IFA_F_TENTATIVE)); /* Sort by address type. For example link local will * be sorted *after* site local or global. */ NM_CMP_DIRECT(_address_pretty_sort_get_prio_6(&a2->address), _address_pretty_sort_get_prio_6(&a1->address)); ipv6_privacy1 = NM_FLAGS_ANY(a1->n_ifa_flags, IFA_F_MANAGETEMPADDR | IFA_F_TEMPORARY); ipv6_privacy2 = NM_FLAGS_ANY(a2->n_ifa_flags, IFA_F_MANAGETEMPADDR | IFA_F_TEMPORARY); if (ipv6_privacy1 || ipv6_privacy2) { gboolean public1 = TRUE; gboolean public2 = TRUE; if (ipv6_privacy1) { if (a1->n_ifa_flags & IFA_F_TEMPORARY) public1 = prefer_temp; else public1 = !prefer_temp; } if (ipv6_privacy2) { if (a2->n_ifa_flags & IFA_F_TEMPORARY) public2 = prefer_temp; else public2 = !prefer_temp; } NM_CMP_DIRECT(public2, public1); } /* Sort the addresses based on their source. */ NM_CMP_DIRECT(a2->addr_source, a1->addr_source); /* sort permanent addresses before non-permanent. */ NM_CMP_DIRECT(NM_FLAGS_HAS(a2->n_ifa_flags, IFA_F_PERMANENT), NM_FLAGS_HAS(a1->n_ifa_flags, IFA_F_PERMANENT)); /* finally sort addresses lexically */ NM_CMP_DIRECT_IN6ADDR(&a1->address, &a2->address); NM_CMP_DIRECT_MEMCMP(a1, a2, sizeof(*a1)); return 0; } void nm_platform_ip4_address_hash_update(const NMPlatformIP4Address *obj, NMHashState *h) { nm_hash_update_vals(h, obj->ifindex, obj->addr_source, obj->use_ip4_broadcast_address ? obj->broadcast_address : ((in_addr_t) 0u), obj->timestamp, obj->lifetime, obj->preferred, obj->n_ifa_flags, obj->plen, obj->address, obj->peer_address, NM_HASH_COMBINE_BOOLS(guint8, obj->external, obj->use_ip4_broadcast_address, obj->ip4acd_not_ready)); nm_hash_update_strarr(h, obj->label); } int nm_platform_ip4_address_cmp(const NMPlatformIP4Address *a, const NMPlatformIP4Address *b) { NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, ifindex); NM_CMP_FIELD(a, b, address); NM_CMP_FIELD(a, b, plen); NM_CMP_FIELD(a, b, peer_address); NM_CMP_FIELD_UNSAFE(a, b, use_ip4_broadcast_address); if (a->use_ip4_broadcast_address) NM_CMP_FIELD(a, b, broadcast_address); NM_CMP_FIELD(a, b, addr_source); NM_CMP_FIELD(a, b, timestamp); NM_CMP_FIELD(a, b, lifetime); NM_CMP_FIELD(a, b, preferred); NM_CMP_FIELD(a, b, n_ifa_flags); NM_CMP_FIELD_STR(a, b, label); NM_CMP_FIELD_UNSAFE(a, b, external); NM_CMP_FIELD_UNSAFE(a, b, ip4acd_not_ready); return 0; } void nm_platform_ip6_address_hash_update(const NMPlatformIP6Address *obj, NMHashState *h) { nm_hash_update_vals(h, obj->ifindex, obj->addr_source, obj->timestamp, obj->lifetime, obj->preferred, obj->n_ifa_flags, obj->plen, obj->address, obj->peer_address, NM_HASH_COMBINE_BOOLS(guint8, obj->external)); } int nm_platform_ip6_address_cmp(const NMPlatformIP6Address *a, const NMPlatformIP6Address *b) { const struct in6_addr *p_a, *p_b; NM_CMP_SELF(a, b); NM_CMP_FIELD(a, b, ifindex); NM_CMP_FIELD_MEMCMP(a, b, address); NM_CMP_FIELD(a, b, plen); p_a = nm_platform_ip6_address_get_peer(a); p_b = nm_platform_ip6_address_get_peer(b); NM_CMP_DIRECT_MEMCMP(p_a, p_b, sizeof(*p_a)); NM_CMP_FIELD(a, b, addr_source); NM_CMP_FIELD(a, b, timestamp); NM_CMP_FIELD(a, b, lifetime); NM_CMP_FIELD(a, b, preferred); NM_CMP_FIELD(a, b, n_ifa_flags); NM_CMP_FIELD_UNSAFE(a, b, external); return 0; } void nm_platform_ip4_route_hash_update(const NMPlatformIP4Route *obj, NMPlatformIPRouteCmpType cmp_type, NMHashState * h) { switch (cmp_type) { case NM_PLATFORM_IP_ROUTE_CMP_TYPE_WEAK_ID: nm_hash_update_vals( h, nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(obj)), nm_utils_ip4_address_clear_host_address(obj->network, obj->plen), obj->plen, obj->metric, obj->tos, NM_HASH_COMBINE_BOOLS(guint8, obj->metric_any, obj->table_any)); break; case NM_PLATFORM_IP_ROUTE_CMP_TYPE_ID: nm_hash_update_vals( h, obj->type_coerced, nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(obj)), nm_utils_ip4_address_clear_host_address(obj->network, obj->plen), obj->plen, obj->metric, obj->tos, /* on top of WEAK_ID: */ obj->ifindex, nmp_utils_ip_config_source_round_trip_rtprot(obj->rt_source), _ip_route_scope_inv_get_normalized(obj), obj->gateway, obj->mss, obj->pref_src, obj->window, obj->cwnd, obj->initcwnd, obj->initrwnd, obj->mtu, obj->r_rtm_flags & RTNH_F_ONLINK, NM_HASH_COMBINE_BOOLS(guint8, obj->metric_any, obj->table_any, obj->lock_window, obj->lock_cwnd, obj->lock_initcwnd, obj->lock_initrwnd, obj->lock_mtu)); break; case NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY: nm_hash_update_vals( h, obj->type_coerced, nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(obj)), obj->ifindex, nm_utils_ip4_address_clear_host_address(obj->network, obj->plen), obj->plen, obj->metric, obj->gateway, nmp_utils_ip_config_source_round_trip_rtprot(obj->rt_source), _ip_route_scope_inv_get_normalized(obj), obj->tos, obj->mss, obj->pref_src, obj->window, obj->cwnd, obj->initcwnd, obj->initrwnd, obj->mtu, obj->r_rtm_flags & (RTM_F_CLONED | RTNH_F_ONLINK), NM_HASH_COMBINE_BOOLS(guint8, obj->metric_any, obj->table_any, obj->lock_window, obj->lock_cwnd, obj->lock_initcwnd, obj->lock_initrwnd, obj->lock_mtu)); break; case NM_PLATFORM_IP_ROUTE_CMP_TYPE_FULL: nm_hash_update_vals(h, obj->type_coerced, obj->table_coerced, obj->ifindex, obj->network, obj->plen, obj->metric, obj->gateway, obj->rt_source, obj->scope_inv, obj->tos, obj->mss, obj->pref_src, obj->window, obj->cwnd, obj->initcwnd, obj->initrwnd, obj->mtu, obj->r_rtm_flags, NM_HASH_COMBINE_BOOLS(guint8, obj->metric_any, obj->table_any, obj->lock_window, obj->lock_cwnd, obj->lock_initcwnd, obj->lock_initrwnd, obj->lock_mtu)); break; } } int nm_platform_ip4_route_cmp(const NMPlatformIP4Route *a, const NMPlatformIP4Route *b, NMPlatformIPRouteCmpType cmp_type) { NM_CMP_SELF(a, b); switch (cmp_type) { case NM_PLATFORM_IP_ROUTE_CMP_TYPE_WEAK_ID: case NM_PLATFORM_IP_ROUTE_CMP_TYPE_ID: NM_CMP_FIELD_UNSAFE(a, b, table_any); NM_CMP_DIRECT(nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(a)), nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(b))); NM_CMP_DIRECT_IN4ADDR_SAME_PREFIX(a->network, b->network, MIN(a->plen, b->plen)); NM_CMP_FIELD(a, b, plen); NM_CMP_FIELD_UNSAFE(a, b, metric_any); NM_CMP_FIELD(a, b, metric); NM_CMP_FIELD(a, b, tos); if (cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_ID) { NM_CMP_FIELD(a, b, ifindex); NM_CMP_FIELD(a, b, type_coerced); NM_CMP_DIRECT(nmp_utils_ip_config_source_round_trip_rtprot(a->rt_source), nmp_utils_ip_config_source_round_trip_rtprot(b->rt_source)); NM_CMP_DIRECT(_ip_route_scope_inv_get_normalized(a), _ip_route_scope_inv_get_normalized(b)); NM_CMP_FIELD(a, b, gateway); NM_CMP_FIELD(a, b, mss); NM_CMP_FIELD(a, b, pref_src); NM_CMP_FIELD(a, b, window); NM_CMP_FIELD(a, b, cwnd); NM_CMP_FIELD(a, b, initcwnd); NM_CMP_FIELD(a, b, initrwnd); NM_CMP_FIELD(a, b, mtu); NM_CMP_DIRECT(a->r_rtm_flags & RTNH_F_ONLINK, b->r_rtm_flags & RTNH_F_ONLINK); NM_CMP_FIELD_UNSAFE(a, b, lock_window); NM_CMP_FIELD_UNSAFE(a, b, lock_cwnd); NM_CMP_FIELD_UNSAFE(a, b, lock_initcwnd); NM_CMP_FIELD_UNSAFE(a, b, lock_initrwnd); NM_CMP_FIELD_UNSAFE(a, b, lock_mtu); } break; case NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY: case NM_PLATFORM_IP_ROUTE_CMP_TYPE_FULL: NM_CMP_FIELD(a, b, type_coerced); NM_CMP_FIELD_UNSAFE(a, b, table_any); if (cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY) { NM_CMP_DIRECT(nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(a)), nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(b))); } else NM_CMP_FIELD(a, b, table_coerced); NM_CMP_FIELD(a, b, ifindex); if (cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY) NM_CMP_DIRECT_IN4ADDR_SAME_PREFIX(a->network, b->network, MIN(a->plen, b->plen)); else NM_CMP_FIELD(a, b, network); NM_CMP_FIELD(a, b, plen); NM_CMP_FIELD_UNSAFE(a, b, metric_any); NM_CMP_FIELD(a, b, metric); NM_CMP_FIELD(a, b, gateway); if (cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY) { NM_CMP_DIRECT(nmp_utils_ip_config_source_round_trip_rtprot(a->rt_source), nmp_utils_ip_config_source_round_trip_rtprot(b->rt_source)); NM_CMP_DIRECT(_ip_route_scope_inv_get_normalized(a), _ip_route_scope_inv_get_normalized(b)); } else { NM_CMP_FIELD(a, b, rt_source); NM_CMP_FIELD(a, b, scope_inv); } NM_CMP_FIELD(a, b, mss); NM_CMP_FIELD(a, b, pref_src); if (cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY) { NM_CMP_DIRECT(a->r_rtm_flags & (RTM_F_CLONED | RTNH_F_ONLINK), b->r_rtm_flags & (RTM_F_CLONED | RTNH_F_ONLINK)); } else NM_CMP_FIELD(a, b, r_rtm_flags); NM_CMP_FIELD(a, b, tos); NM_CMP_FIELD_UNSAFE(a, b, lock_window); NM_CMP_FIELD_UNSAFE(a, b, lock_cwnd); NM_CMP_FIELD_UNSAFE(a, b, lock_initcwnd); NM_CMP_FIELD_UNSAFE(a, b, lock_initrwnd); NM_CMP_FIELD_UNSAFE(a, b, lock_mtu); NM_CMP_FIELD(a, b, window); NM_CMP_FIELD(a, b, cwnd); NM_CMP_FIELD(a, b, initcwnd); NM_CMP_FIELD(a, b, initrwnd); NM_CMP_FIELD(a, b, mtu); break; } return 0; } void nm_platform_ip6_route_hash_update(const NMPlatformIP6Route *obj, NMPlatformIPRouteCmpType cmp_type, NMHashState * h) { struct in6_addr a1, a2; switch (cmp_type) { case NM_PLATFORM_IP_ROUTE_CMP_TYPE_WEAK_ID: nm_hash_update_vals( h, nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(obj)), *nm_utils_ip6_address_clear_host_address(&a1, &obj->network, obj->plen), obj->plen, obj->metric, *nm_utils_ip6_address_clear_host_address(&a2, &obj->src, obj->src_plen), obj->src_plen, NM_HASH_COMBINE_BOOLS(guint8, obj->metric_any, obj->table_any)); break; case NM_PLATFORM_IP_ROUTE_CMP_TYPE_ID: nm_hash_update_vals( h, obj->type_coerced, nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(obj)), *nm_utils_ip6_address_clear_host_address(&a1, &obj->network, obj->plen), obj->plen, obj->metric, *nm_utils_ip6_address_clear_host_address(&a2, &obj->src, obj->src_plen), obj->src_plen, NM_HASH_COMBINE_BOOLS(guint8, obj->metric_any, obj->table_any), /* on top of WEAK_ID: */ obj->ifindex, obj->gateway); break; case NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY: nm_hash_update_vals( h, obj->type_coerced, nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(obj)), obj->ifindex, *nm_utils_ip6_address_clear_host_address(&a1, &obj->network, obj->plen), obj->plen, obj->metric, obj->gateway, obj->pref_src, *nm_utils_ip6_address_clear_host_address(&a2, &obj->src, obj->src_plen), obj->src_plen, nmp_utils_ip_config_source_round_trip_rtprot(obj->rt_source), obj->mss, obj->r_rtm_flags & RTM_F_CLONED, NM_HASH_COMBINE_BOOLS(guint8, obj->metric_any, obj->table_any, obj->lock_window, obj->lock_cwnd, obj->lock_initcwnd, obj->lock_initrwnd, obj->lock_mtu), obj->window, obj->cwnd, obj->initcwnd, obj->initrwnd, obj->mtu, _route_pref_normalize(obj->rt_pref)); break; case NM_PLATFORM_IP_ROUTE_CMP_TYPE_FULL: nm_hash_update_vals(h, obj->type_coerced, obj->table_coerced, obj->ifindex, obj->network, obj->metric, obj->gateway, obj->pref_src, obj->src, obj->src_plen, obj->rt_source, obj->mss, obj->r_rtm_flags, NM_HASH_COMBINE_BOOLS(guint8, obj->metric_any, obj->table_any, obj->lock_window, obj->lock_cwnd, obj->lock_initcwnd, obj->lock_initrwnd, obj->lock_mtu), obj->window, obj->cwnd, obj->initcwnd, obj->initrwnd, obj->mtu, obj->rt_pref); break; } } int nm_platform_ip6_route_cmp(const NMPlatformIP6Route *a, const NMPlatformIP6Route *b, NMPlatformIPRouteCmpType cmp_type) { NM_CMP_SELF(a, b); switch (cmp_type) { case NM_PLATFORM_IP_ROUTE_CMP_TYPE_WEAK_ID: case NM_PLATFORM_IP_ROUTE_CMP_TYPE_ID: NM_CMP_FIELD_UNSAFE(a, b, table_any); NM_CMP_DIRECT(nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(a)), nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(b))); NM_CMP_DIRECT_IN6ADDR_SAME_PREFIX(&a->network, &b->network, MIN(a->plen, b->plen)); NM_CMP_FIELD(a, b, plen); NM_CMP_FIELD_UNSAFE(a, b, metric_any); NM_CMP_FIELD(a, b, metric); NM_CMP_DIRECT_IN6ADDR_SAME_PREFIX(&a->src, &b->src, MIN(a->src_plen, b->src_plen)); NM_CMP_FIELD(a, b, src_plen); if (cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_ID) { NM_CMP_FIELD(a, b, ifindex); NM_CMP_FIELD(a, b, type_coerced); NM_CMP_FIELD_IN6ADDR(a, b, gateway); } break; case NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY: case NM_PLATFORM_IP_ROUTE_CMP_TYPE_FULL: NM_CMP_FIELD(a, b, type_coerced); NM_CMP_FIELD_UNSAFE(a, b, table_any); if (cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY) { NM_CMP_DIRECT(nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(a)), nm_platform_ip_route_get_effective_table(NM_PLATFORM_IP_ROUTE_CAST(b))); } else NM_CMP_FIELD(a, b, table_coerced); NM_CMP_FIELD(a, b, ifindex); if (cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY) NM_CMP_DIRECT_IN6ADDR_SAME_PREFIX(&a->network, &b->network, MIN(a->plen, b->plen)); else NM_CMP_FIELD_IN6ADDR(a, b, network); NM_CMP_FIELD(a, b, plen); NM_CMP_FIELD_UNSAFE(a, b, metric_any); NM_CMP_FIELD(a, b, metric); NM_CMP_FIELD_IN6ADDR(a, b, gateway); NM_CMP_FIELD_IN6ADDR(a, b, pref_src); if (cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY) { NM_CMP_DIRECT_IN6ADDR_SAME_PREFIX(&a->src, &b->src, MIN(a->src_plen, b->src_plen)); NM_CMP_FIELD(a, b, src_plen); NM_CMP_DIRECT(nmp_utils_ip_config_source_round_trip_rtprot(a->rt_source), nmp_utils_ip_config_source_round_trip_rtprot(b->rt_source)); } else { NM_CMP_FIELD_IN6ADDR(a, b, src); NM_CMP_FIELD(a, b, src_plen); NM_CMP_FIELD(a, b, rt_source); } NM_CMP_FIELD(a, b, mss); if (cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY) { NM_CMP_DIRECT(a->r_rtm_flags & RTM_F_CLONED, b->r_rtm_flags & RTM_F_CLONED); } else NM_CMP_FIELD(a, b, r_rtm_flags); NM_CMP_FIELD_UNSAFE(a, b, lock_window); NM_CMP_FIELD_UNSAFE(a, b, lock_cwnd); NM_CMP_FIELD_UNSAFE(a, b, lock_initcwnd); NM_CMP_FIELD_UNSAFE(a, b, lock_initrwnd); NM_CMP_FIELD_UNSAFE(a, b, lock_mtu); NM_CMP_FIELD(a, b, window); NM_CMP_FIELD(a, b, cwnd); NM_CMP_FIELD(a, b, initcwnd); NM_CMP_FIELD(a, b, initrwnd); NM_CMP_FIELD(a, b, mtu); if (cmp_type == NM_PLATFORM_IP_ROUTE_CMP_TYPE_SEMANTICALLY) NM_CMP_DIRECT(_route_pref_normalize(a->rt_pref), _route_pref_normalize(b->rt_pref)); else NM_CMP_FIELD(a, b, rt_pref); break; } return 0; } #define _ROUTING_RULE_FLAGS_IGNORE \ (FIB_RULE_UNRESOLVED | FIB_RULE_IIF_DETACHED | FIB_RULE_OIF_DETACHED) #define _routing_rule_compare(cmp_type, kernel_support_type) \ ((cmp_type) == NM_PLATFORM_ROUTING_RULE_CMP_TYPE_FULL \ || nm_platform_kernel_support_get(kernel_support_type)) void nm_platform_routing_rule_hash_update(const NMPlatformRoutingRule *obj, NMPlatformRoutingRuleCmpType cmp_type, NMHashState * h) { gboolean cmp_full = TRUE; gsize addr_size; guint32 flags_mask = G_MAXUINT32; if (G_UNLIKELY(!NM_IN_SET(obj->addr_family, AF_INET, AF_INET6))) { /* the address family is not one of the supported ones. That means, the * instance will only compare equal to itself (pointer-equality). */ nm_hash_update_val(h, (gconstpointer) obj); return; } switch (cmp_type) { case NM_PLATFORM_ROUTING_RULE_CMP_TYPE_ID: flags_mask &= ~_ROUTING_RULE_FLAGS_IGNORE; /* fall-through */ case NM_PLATFORM_ROUTING_RULE_CMP_TYPE_SEMANTICALLY: cmp_full = FALSE; /* fall-through */ case NM_PLATFORM_ROUTING_RULE_CMP_TYPE_FULL: nm_hash_update_vals( h, obj->addr_family, obj->tun_id, obj->table, obj->flags & flags_mask, obj->priority, obj->fwmark, obj->fwmask, ((cmp_full || (cmp_type == NM_PLATFORM_ROUTING_RULE_CMP_TYPE_SEMANTICALLY && obj->action == FR_ACT_GOTO)) ? obj->goto_target : (guint32) 0u), ((cmp_full || obj->addr_family == AF_INET) ? obj->flow : (guint32) 0u), NM_HASH_COMBINE_BOOLS( guint8, (_routing_rule_compare(cmp_type, NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_UID_RANGE) ? obj->uid_range_has : FALSE)), obj->suppress_prefixlen_inverse, obj->suppress_ifgroup_inverse, (_routing_rule_compare(cmp_type, NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_L3MDEV) ? (cmp_full ? (guint16) obj->l3mdev : (guint16) !!obj->l3mdev) : G_MAXUINT16), obj->action, obj->tos, obj->src_len, obj->dst_len, (_routing_rule_compare(cmp_type, NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_PROTOCOL) ? (guint16) obj->protocol : G_MAXUINT16)); addr_size = nm_utils_addr_family_to_size(obj->addr_family); if (cmp_full || obj->src_len > 0) nm_hash_update(h, &obj->src, addr_size); if (cmp_full || obj->dst_len > 0) nm_hash_update(h, &obj->dst, addr_size); if (_routing_rule_compare(cmp_type, NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_UID_RANGE)) { if (cmp_full || obj->uid_range_has) nm_hash_update_valp(h, &obj->uid_range); } if (_routing_rule_compare(cmp_type, NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_IP_PROTO)) { nm_hash_update_val(h, obj->ip_proto); nm_hash_update_valp(h, &obj->sport_range); nm_hash_update_valp(h, &obj->dport_range); } nm_hash_update_str(h, obj->iifname); nm_hash_update_str(h, obj->oifname); return; } nm_assert_not_reached(); } int nm_platform_routing_rule_cmp(const NMPlatformRoutingRule *a, const NMPlatformRoutingRule *b, NMPlatformRoutingRuleCmpType cmp_type) { gboolean cmp_full = TRUE; gsize addr_size; bool valid; guint32 flags_mask = G_MAXUINT32; NM_CMP_SELF(a, b); valid = NM_IN_SET(a->addr_family, AF_INET, AF_INET6); NM_CMP_DIRECT(valid, (bool) NM_IN_SET(b->addr_family, AF_INET, AF_INET6)); if (G_UNLIKELY(!valid)) { /* the address family is not one of the supported ones. That means, the * instance will only compare equal to itself. */ NM_CMP_DIRECT((uintptr_t) a, (uintptr_t) b); nm_assert_not_reached(); return 0; } switch (cmp_type) { case NM_PLATFORM_ROUTING_RULE_CMP_TYPE_ID: flags_mask &= ~_ROUTING_RULE_FLAGS_IGNORE; /* fall-through */ case NM_PLATFORM_ROUTING_RULE_CMP_TYPE_SEMANTICALLY: cmp_full = FALSE; /* fall-through */ case NM_PLATFORM_ROUTING_RULE_CMP_TYPE_FULL: NM_CMP_FIELD(a, b, addr_family); NM_CMP_FIELD(a, b, action); NM_CMP_FIELD(a, b, priority); NM_CMP_FIELD(a, b, tun_id); if (_routing_rule_compare(cmp_type, NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_L3MDEV)) { if (cmp_full) NM_CMP_FIELD(a, b, l3mdev); else NM_CMP_FIELD_BOOL(a, b, l3mdev); } NM_CMP_FIELD(a, b, table); NM_CMP_DIRECT(a->flags & flags_mask, b->flags & flags_mask); NM_CMP_FIELD(a, b, fwmark); NM_CMP_FIELD(a, b, fwmask); if (cmp_full || (cmp_type == NM_PLATFORM_ROUTING_RULE_CMP_TYPE_SEMANTICALLY && a->action == FR_ACT_GOTO)) NM_CMP_FIELD(a, b, goto_target); NM_CMP_FIELD(a, b, suppress_prefixlen_inverse); NM_CMP_FIELD(a, b, suppress_ifgroup_inverse); NM_CMP_FIELD(a, b, tos); if (cmp_full || a->addr_family == AF_INET) NM_CMP_FIELD(a, b, flow); if (_routing_rule_compare(cmp_type, NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_PROTOCOL)) NM_CMP_FIELD(a, b, protocol); if (_routing_rule_compare(cmp_type, NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_IP_PROTO)) { NM_CMP_FIELD(a, b, ip_proto); NM_CMP_FIELD(a, b, sport_range.start); NM_CMP_FIELD(a, b, sport_range.end); NM_CMP_FIELD(a, b, dport_range.start); NM_CMP_FIELD(a, b, dport_range.end); } addr_size = nm_utils_addr_family_to_size(a->addr_family); NM_CMP_FIELD(a, b, src_len); if (cmp_full || a->src_len > 0) NM_CMP_FIELD_MEMCMP_LEN(a, b, src, addr_size); NM_CMP_FIELD(a, b, dst_len); if (cmp_full || a->dst_len > 0) NM_CMP_FIELD_MEMCMP_LEN(a, b, dst, addr_size); if (_routing_rule_compare(cmp_type, NM_PLATFORM_KERNEL_SUPPORT_TYPE_FRA_UID_RANGE)) { NM_CMP_FIELD_UNSAFE(a, b, uid_range_has); if (cmp_full || a->uid_range_has) { NM_CMP_FIELD(a, b, uid_range.start); NM_CMP_FIELD(a, b, uid_range.end); } } NM_CMP_FIELD_STR(a, b, iifname); NM_CMP_FIELD_STR(a, b, oifname); return 0; } nm_assert_not_reached(); return 0; } /** * nm_platform_ip_address_cmp_expiry: * @a: a NMPlatformIPAddress to compare * @b: the other NMPlatformIPAddress to compare * * Compares two addresses and returns which one has a longer remaining lifetime. * If both addresses have the same lifetime, look at the remaining preferred time. * * For comparison, only the timestamp, lifetime and preferred fields are considered. * If they compare equal (== 0), their other fields were not considered. * * Returns: -1, 0, or 1 according to the comparison **/ int nm_platform_ip_address_cmp_expiry(const NMPlatformIPAddress *a, const NMPlatformIPAddress *b) { gint64 ta = 0, tb = 0; NM_CMP_SELF(a, b); if (a->lifetime == NM_PLATFORM_LIFETIME_PERMANENT || a->lifetime == 0) ta = G_MAXINT64; else if (a->timestamp) ta = ((gint64) a->timestamp) + a->lifetime; if (b->lifetime == NM_PLATFORM_LIFETIME_PERMANENT || b->lifetime == 0) tb = G_MAXINT64; else if (b->timestamp) tb = ((gint64) b->timestamp) + b->lifetime; if (ta == tb) { /* if the lifetime is equal, compare the preferred time. */ ta = tb = 0; if (a->preferred == NM_PLATFORM_LIFETIME_PERMANENT || a->lifetime == 0 /* lifetime==0 means permanent! */) ta = G_MAXINT64; else if (a->timestamp) ta = ((gint64) a->timestamp) + a->preferred; if (b->preferred == NM_PLATFORM_LIFETIME_PERMANENT || b->lifetime == 0) tb = G_MAXINT64; else if (b->timestamp) tb = ((gint64) b->timestamp) + b->preferred; if (ta == tb) return 0; } return ta < tb ? -1 : 1; } /*****************************************************************************/ GHashTable * nm_platform_ip4_address_addr_to_hash(NMPlatform *self, int ifindex) { const NMDedupMultiHeadEntry *head_entry; NMDedupMultiIter iter; const NMPObject * obj; NMPLookup lookup; GHashTable * hash; g_return_val_if_fail(NM_IS_PLATFORM(self), NULL); g_return_val_if_fail(ifindex > 0, NULL); nmp_lookup_init_object(&lookup, NMP_OBJECT_TYPE_IP4_ADDRESS, ifindex); head_entry = nmp_cache_lookup(NM_PLATFORM_GET_PRIVATE(self)->cache, &lookup); if (!head_entry) return NULL; hash = g_hash_table_new(nm_direct_hash, NULL); nmp_cache_iter_for_each (&iter, head_entry, &obj) { const NMPlatformIP4Address *a = NMP_OBJECT_CAST_IP4_ADDRESS(obj); g_hash_table_add(hash, GUINT_TO_POINTER(a->address)); } return hash; } /*****************************************************************************/ const char * nm_platform_signal_change_type_to_string(NMPlatformSignalChangeType change_type) { switch (change_type) { case NM_PLATFORM_SIGNAL_ADDED: return "added"; case NM_PLATFORM_SIGNAL_CHANGED: return "changed"; case NM_PLATFORM_SIGNAL_REMOVED: return "removed"; default: g_return_val_if_reached("UNKNOWN"); } } static void log_link(NMPlatform * self, NMPObjectType obj_type, int ifindex, NMPlatformLink * device, NMPlatformSignalChangeType change_type, gpointer user_data) { _LOG3D("signal: link %7s: %s", nm_platform_signal_change_type_to_string(change_type), nm_platform_link_to_string(device, NULL, 0)); } static void log_ip4_address(NMPlatform * self, NMPObjectType obj_type, int ifindex, NMPlatformIP4Address * address, NMPlatformSignalChangeType change_type, gpointer user_data) { _LOG3D("signal: address 4 %7s: %s", nm_platform_signal_change_type_to_string(change_type), nm_platform_ip4_address_to_string(address, NULL, 0)); } static void log_ip6_address(NMPlatform * self, NMPObjectType obj_type, int ifindex, NMPlatformIP6Address * address, NMPlatformSignalChangeType change_type, gpointer user_data) { _LOG3D("signal: address 6 %7s: %s", nm_platform_signal_change_type_to_string(change_type), nm_platform_ip6_address_to_string(address, NULL, 0)); } static void log_ip4_route(NMPlatform * self, NMPObjectType obj_type, int ifindex, NMPlatformIP4Route * route, NMPlatformSignalChangeType change_type, gpointer user_data) { _LOG3D("signal: route 4 %7s: %s", nm_platform_signal_change_type_to_string(change_type), nm_platform_ip4_route_to_string(route, NULL, 0)); } static void log_ip6_route(NMPlatform * self, NMPObjectType obj_type, int ifindex, NMPlatformIP6Route * route, NMPlatformSignalChangeType change_type, gpointer user_data) { _LOG3D("signal: route 6 %7s: %s", nm_platform_signal_change_type_to_string(change_type), nm_platform_ip6_route_to_string(route, NULL, 0)); } static void log_routing_rule(NMPlatform * self, NMPObjectType obj_type, int ifindex, NMPlatformRoutingRule * routing_rule, NMPlatformSignalChangeType change_type, gpointer user_data) { /* routing rules don't have an ifindex. We probably should refactor the signals that are emitted for platform changes. */ _LOG3D("signal: rt-rule %7s: %s", nm_platform_signal_change_type_to_string(change_type), nm_platform_routing_rule_to_string(routing_rule, NULL, 0)); } static void log_qdisc(NMPlatform * self, NMPObjectType obj_type, int ifindex, NMPlatformQdisc * qdisc, NMPlatformSignalChangeType change_type, gpointer user_data) { _LOG3D("signal: qdisc %7s: %s", nm_platform_signal_change_type_to_string(change_type), nm_platform_qdisc_to_string(qdisc, NULL, 0)); } static void log_tfilter(NMPlatform * self, NMPObjectType obj_type, int ifindex, NMPlatformTfilter * tfilter, NMPlatformSignalChangeType change_type, gpointer user_data) { _LOG3D("signal: tfilter %7s: %s", nm_platform_signal_change_type_to_string(change_type), nm_platform_tfilter_to_string(tfilter, NULL, 0)); } /*****************************************************************************/ void nm_platform_cache_update_emit_signal(NMPlatform * self, NMPCacheOpsType cache_op, const NMPObject *obj_old, const NMPObject *obj_new) { gboolean visible_new; gboolean visible_old; const NMPObject *o; const NMPClass * klass; int ifindex; nm_assert(NM_IN_SET((NMPlatformSignalChangeType) cache_op, NM_PLATFORM_SIGNAL_NONE, NM_PLATFORM_SIGNAL_ADDED, NM_PLATFORM_SIGNAL_CHANGED, NM_PLATFORM_SIGNAL_REMOVED)); ASSERT_nmp_cache_ops(nm_platform_get_cache(self), cache_op, obj_old, obj_new); NMTST_ASSERT_PLATFORM_NETNS_CURRENT(self); switch (cache_op) { case NMP_CACHE_OPS_ADDED: if (!nmp_object_is_visible(obj_new)) return; o = obj_new; break; case NMP_CACHE_OPS_UPDATED: visible_old = nmp_object_is_visible(obj_old); visible_new = nmp_object_is_visible(obj_new); if (!visible_old && visible_new) { o = obj_new; cache_op = NMP_CACHE_OPS_ADDED; } else if (visible_old && !visible_new) { o = obj_old; cache_op = NMP_CACHE_OPS_REMOVED; } else if (!visible_new) { /* it was invisible and stayed invisible. Nothing to do. */ return; } else o = obj_new; break; case NMP_CACHE_OPS_REMOVED: if (!nmp_object_is_visible(obj_old)) return; o = obj_old; break; default: nm_assert(cache_op == NMP_CACHE_OPS_UNCHANGED); return; } klass = NMP_OBJECT_GET_CLASS(o); if (klass->obj_type == NMP_OBJECT_TYPE_ROUTING_RULE) ifindex = 0; else ifindex = NMP_OBJECT_CAST_OBJ_WITH_IFINDEX(o)->ifindex; if (klass->obj_type == NMP_OBJECT_TYPE_IP4_ROUTE && NM_PLATFORM_GET_PRIVATE(self)->ip4_dev_route_blacklist_gc_timeout_id && NM_IN_SET(cache_op, NMP_CACHE_OPS_ADDED, NMP_CACHE_OPS_UPDATED)) _ip4_dev_route_blacklist_notify_route(self, o); _LOG3t("emit signal %s %s: %s", klass->signal_type, nm_platform_signal_change_type_to_string((NMPlatformSignalChangeType) cache_op), nmp_object_to_string(o, NMP_OBJECT_TO_STRING_PUBLIC, NULL, 0)); nmp_object_ref(o); g_signal_emit(self, _nm_platform_signal_id_get(klass->signal_type_id), 0, (int) klass->obj_type, ifindex, &o->object, (int) cache_op); nmp_object_unref(o); } /*****************************************************************************/ NMPCache * nm_platform_get_cache(NMPlatform *self) { return NM_PLATFORM_GET_PRIVATE(self)->cache; } NMPNetns * nm_platform_netns_get(NMPlatform *self) { _CHECK_SELF(self, klass, NULL); return self->_netns; } gboolean nm_platform_netns_push(NMPlatform *self, NMPNetns **netns) { g_return_val_if_fail(NM_IS_PLATFORM(self), FALSE); if (self->_netns && !nmp_netns_push(self->_netns)) { NM_SET_OUT(netns, NULL); return FALSE; } NM_SET_OUT(netns, self->_netns); return TRUE; } /*****************************************************************************/ const _NMPlatformVTableRouteUnion nm_platform_vtable_route = { .v4 = { .is_ip4 = TRUE, .obj_type = NMP_OBJECT_TYPE_IP4_ROUTE, .addr_family = AF_INET, .sizeof_route = sizeof(NMPlatformIP4Route), .route_cmp = (int (*)(const NMPlatformIPXRoute *a, const NMPlatformIPXRoute *b, NMPlatformIPRouteCmpType cmp_type)) nm_platform_ip4_route_cmp, .route_to_string = (const char *(*) (const NMPlatformIPXRoute *route, char * buf, gsize len)) nm_platform_ip4_route_to_string, }, .v6 = { .is_ip4 = FALSE, .obj_type = NMP_OBJECT_TYPE_IP6_ROUTE, .addr_family = AF_INET6, .sizeof_route = sizeof(NMPlatformIP6Route), .route_cmp = (int (*)(const NMPlatformIPXRoute *a, const NMPlatformIPXRoute *b, NMPlatformIPRouteCmpType cmp_type)) nm_platform_ip6_route_cmp, .route_to_string = (const char *(*) (const NMPlatformIPXRoute *route, char * buf, gsize len)) nm_platform_ip6_route_to_string, }, }; /*****************************************************************************/ static void set_property(GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { NMPlatform * self = NM_PLATFORM(object); NMPlatformPrivate *priv = NM_PLATFORM_GET_PRIVATE(self); switch (prop_id) { case PROP_NETNS_SUPPORT: /* construct-only */ if (g_value_get_boolean(value)) { NMPNetns *netns; netns = nmp_netns_get_current(); if (netns) self->_netns = g_object_ref(netns); } break; case PROP_USE_UDEV: /* construct-only */ priv->use_udev = g_value_get_boolean(value); break; case PROP_LOG_WITH_PTR: /* construct-only */ priv->log_with_ptr = g_value_get_boolean(value); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID(object, prop_id, pspec); break; } } static void nm_platform_init(NMPlatform *self) { self->_priv = G_TYPE_INSTANCE_GET_PRIVATE(self, NM_TYPE_PLATFORM, NMPlatformPrivate); } static GObject * constructor(GType type, guint n_construct_params, GObjectConstructParam *construct_params) { GObject * object; NMPlatform * self; NMPlatformPrivate *priv; object = G_OBJECT_CLASS(nm_platform_parent_class) ->constructor(type, n_construct_params, construct_params); self = NM_PLATFORM(object); priv = NM_PLATFORM_GET_PRIVATE(self); priv->multi_idx = nm_dedup_multi_index_new(); priv->cache = nmp_cache_new(priv->multi_idx, priv->use_udev); return object; } static void finalize(GObject *object) { NMPlatform * self = NM_PLATFORM(object); NMPlatformPrivate *priv = NM_PLATFORM_GET_PRIVATE(self); nm_clear_g_source(&priv->ip4_dev_route_blacklist_check_id); nm_clear_g_source(&priv->ip4_dev_route_blacklist_gc_timeout_id); nm_clear_pointer(&priv->ip4_dev_route_blacklist_hash, g_hash_table_unref); g_clear_object(&self->_netns); nm_dedup_multi_index_unref(priv->multi_idx); nmp_cache_free(priv->cache); } static void nm_platform_class_init(NMPlatformClass *platform_class) { GObjectClass *object_class = G_OBJECT_CLASS(platform_class); g_type_class_add_private(object_class, sizeof(NMPlatformPrivate)); object_class->constructor = constructor; object_class->set_property = set_property; object_class->finalize = finalize; platform_class->wifi_set_powersave = wifi_set_powersave; g_object_class_install_property( object_class, PROP_NETNS_SUPPORT, g_param_spec_boolean(NM_PLATFORM_NETNS_SUPPORT, "", "", NM_PLATFORM_NETNS_SUPPORT_DEFAULT, G_PARAM_WRITABLE | G_PARAM_CONSTRUCT_ONLY | G_PARAM_STATIC_STRINGS)); g_object_class_install_property( object_class, PROP_USE_UDEV, g_param_spec_boolean(NM_PLATFORM_USE_UDEV, "", "", FALSE, G_PARAM_WRITABLE | G_PARAM_CONSTRUCT_ONLY | G_PARAM_STATIC_STRINGS)); g_object_class_install_property( object_class, PROP_LOG_WITH_PTR, g_param_spec_boolean(NM_PLATFORM_LOG_WITH_PTR, "", "", TRUE, G_PARAM_WRITABLE | G_PARAM_CONSTRUCT_ONLY | G_PARAM_STATIC_STRINGS)); #define SIGNAL(signal, signal_id, method) \ G_STMT_START \ { \ signals[signal] = \ g_signal_new_class_handler("" signal_id "", \ G_OBJECT_CLASS_TYPE(object_class), \ G_SIGNAL_RUN_FIRST, \ G_CALLBACK(method), \ NULL, \ NULL, \ NULL, \ G_TYPE_NONE, \ 4, \ G_TYPE_INT, /* (int) NMPObjectType */ \ G_TYPE_INT, /* ifindex */ \ G_TYPE_POINTER /* const NMPObject * */, \ G_TYPE_INT /* (int) NMPlatformSignalChangeType */ \ ); \ } \ G_STMT_END /* Signals */ SIGNAL(NM_PLATFORM_SIGNAL_ID_LINK, NM_PLATFORM_SIGNAL_LINK_CHANGED, log_link); SIGNAL(NM_PLATFORM_SIGNAL_ID_IP4_ADDRESS, NM_PLATFORM_SIGNAL_IP4_ADDRESS_CHANGED, log_ip4_address); SIGNAL(NM_PLATFORM_SIGNAL_ID_IP6_ADDRESS, NM_PLATFORM_SIGNAL_IP6_ADDRESS_CHANGED, log_ip6_address); SIGNAL(NM_PLATFORM_SIGNAL_ID_IP4_ROUTE, NM_PLATFORM_SIGNAL_IP4_ROUTE_CHANGED, log_ip4_route); SIGNAL(NM_PLATFORM_SIGNAL_ID_IP6_ROUTE, NM_PLATFORM_SIGNAL_IP6_ROUTE_CHANGED, log_ip6_route); SIGNAL(NM_PLATFORM_SIGNAL_ID_ROUTING_RULE, NM_PLATFORM_SIGNAL_ROUTING_RULE_CHANGED, log_routing_rule); SIGNAL(NM_PLATFORM_SIGNAL_ID_QDISC, NM_PLATFORM_SIGNAL_QDISC_CHANGED, log_qdisc); SIGNAL(NM_PLATFORM_SIGNAL_ID_TFILTER, NM_PLATFORM_SIGNAL_TFILTER_CHANGED, log_tfilter); }