/* -*- Mode: C; tab-width: 4; indent-tabs-mode: t; c-basic-offset: 4 -*- */ /* nm-platform.c - Handle runtime kernel networking configuration * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * * Copyright (C) 2012 Red Hat, Inc. */ #include "nm-default.h" #include #include #include #include #include #include #include #include #include #include #include #include "NetworkManagerUtils.h" #include "nm-utils.h" #include "nm-platform.h" #include "nm-platform-utils.h" #include "nmp-object.h" #include "nmp-netns-utils.h" #include "NetworkManagerUtils.h" #include "nm-enum-types.h" #include "nm-core-internal.h" /*****************************************************************************/ const NMIPAddr nm_ip_addr_zero = NMIPAddrInit; /*****************************************************************************/ #define ADDRESS_LIFETIME_PADDING 5 G_STATIC_ASSERT (sizeof ( ((NMPlatformLink *) NULL)->addr.data ) == NM_UTILS_HWADDR_LEN_MAX); 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)); #define _NMLOG_DOMAIN LOGD_PLATFORM #define _NMLOG_PREFIX_NAME "platform" #define _NMLOG(level, ...) \ G_STMT_START { \ const NMLogLevel __level = (level); \ \ if (nm_logging_enabled (__level, _NMLOG_DOMAIN)) { \ char __prefix[32]; \ const char *__p_prefix = _NMLOG_PREFIX_NAME; \ const void *const __self = (self); \ \ if (__self && __self != nm_platform_try_get ()) { \ g_snprintf (__prefix, sizeof (__prefix), "%s[%p]", _NMLOG_PREFIX_NAME, __self); \ __p_prefix = __prefix; \ } \ _nm_log (__level, _NMLOG_DOMAIN, 0, \ "%s: " _NM_UTILS_MACRO_FIRST (__VA_ARGS__), \ __p_prefix _NM_UTILS_MACRO_REST (__VA_ARGS__)); \ } \ } G_STMT_END #define LOG_FMT_IP_TUNNEL "adding %s '%s' parent %u local %s remote %s" /*****************************************************************************/ #define NM_PLATFORM_GET_PRIVATE(o) (G_TYPE_INSTANCE_GET_PRIVATE ((o), NM_TYPE_PLATFORM, NMPlatformPrivate)) G_DEFINE_TYPE (NMPlatform, nm_platform, G_TYPE_OBJECT) static guint signals[_NM_PLATFORM_SIGNAL_ID_LAST] = { 0 }; enum { PROP_0, PROP_REGISTER_SINGLETON, LAST_PROP, }; typedef struct { gboolean register_singleton; } NMPlatformPrivate; /******************************************************************/ 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) /** * 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 (%p, %s)", "NMPlatform", singleton_instance, G_OBJECT_TYPE_NAME (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; } NMPlatform * nm_platform_try_get (void) { return singleton_instance; } /******************************************************************/ /** * _nm_platform_error_to_string: * @error_code: the error code to stringify. * * Returns: A string representation of the error. * For negative numbers, this function interprets * the code as -errno. * For invalid (positive) numbers it returns NULL. */ NM_UTILS_LOOKUP_STR_DEFINE (_nm_platform_error_to_string, NMPlatformError, NM_UTILS_LOOKUP_DEFAULT ( val < 0 ? g_strerror (- ((int) val)) : NULL ), NM_UTILS_LOOKUP_STR_ITEM (NM_PLATFORM_ERROR_SUCCESS, "success"), NM_UTILS_LOOKUP_STR_ITEM (NM_PLATFORM_ERROR_BUG, "bug"), NM_UTILS_LOOKUP_STR_ITEM (NM_PLATFORM_ERROR_UNSPECIFIED, "unspecified"), NM_UTILS_LOOKUP_STR_ITEM (NM_PLATFORM_ERROR_NOT_FOUND, "not-found"), NM_UTILS_LOOKUP_STR_ITEM (NM_PLATFORM_ERROR_EXISTS, "exists"), NM_UTILS_LOOKUP_STR_ITEM (NM_PLATFORM_ERROR_WRONG_TYPE, "wrong-type"), NM_UTILS_LOOKUP_STR_ITEM (NM_PLATFORM_ERROR_NOT_SLAVE, "not-slave"), NM_UTILS_LOOKUP_STR_ITEM (NM_PLATFORM_ERROR_NO_FIRMWARE, "no-firmware"), NM_UTILS_LOOKUP_ITEM_IGNORE (_NM_PLATFORM_ERROR_MININT), ); /******************************************************************/ gboolean nm_platform_check_support_kernel_extended_ifa_flags (NMPlatform *self) { _CHECK_SELF (self, klass, FALSE); if (!klass->check_support_kernel_extended_ifa_flags) return FALSE; return klass->check_support_kernel_extended_ifa_flags (self); } gboolean nm_platform_check_support_user_ipv6ll (NMPlatform *self) { static int supported = -1; _CHECK_SELF (self, klass, FALSE); if (!klass->check_support_user_ipv6ll) return FALSE; if (supported < 0) supported = klass->check_support_user_ipv6ll (self) ? 1 : 0; return !!supported; } /** * 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); } /******************************************************************/ /** * nm_platform_sysctl_set: * @self: platform instance * @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 *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, path, value); } gboolean nm_platform_sysctl_set_ip6_hop_limit_safe (NMPlatform *self, const char *iface, int value) { const char *path; gint64 cur; _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_ip6_property_path (iface, "hop_limit"); cur = nm_platform_sysctl_get_int_checked (self, 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, path, svalue); } return TRUE; } /** * nm_platform_sysctl_get: * @self: platform instance * @path: Absolute path to sysctl * * Returns: (transfer full): Contents of the virtual sysctl file. */ char * nm_platform_sysctl_get (NMPlatform *self, const char *path) { _CHECK_SELF (self, klass, NULL); g_return_val_if_fail (path, NULL); return klass->sysctl_get (self, path); } /** * nm_platform_sysctl_get_int32: * @self: platform instance * @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 *path, gint32 fallback) { return nm_platform_sysctl_get_int_checked (self, path, 10, G_MININT32, G_MAXINT32, fallback); } /** * nm_platform_sysctl_get_int_checked: * @self: platform instance * @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. */ gint64 nm_platform_sysctl_get_int_checked (NMPlatform *self, const char *path, guint base, gint64 min, gint64 max, gint64 fallback) { char *value = NULL; gint32 ret; _CHECK_SELF (self, klass, fallback); g_return_val_if_fail (path, fallback); if (path) value = nm_platform_sysctl_get (self, path); if (!value) { errno = EINVAL; return fallback; } ret = _nm_utils_ascii_str_to_int64 (value, base, min, max, fallback); g_free (value); return ret; } /******************************************************************/ /** * nm_platform_link_get_all: * self: platform instance * * Retrieve a snapshot of configuration for all links at once. The result is * owned by the caller and should be freed with g_array_unref(). */ GArray * nm_platform_link_get_all (NMPlatform *self) { GArray *links, *result; guint i, j, nresult; GHashTable *unseen; NMPlatformLink *item; _CHECK_SELF (self, klass, NULL); links = klass->link_get_all (self); if (!links || links->len == 0) return links; unseen = g_hash_table_new (g_direct_hash, g_direct_equal); for (i = 0; i < links->len; i++) { item = &g_array_index (links, NMPlatformLink, i); _LOGt ("link-get: %3d: %s", i, nm_platform_link_to_string (item, NULL, 0)); nm_assert (item->ifindex > 0 && !g_hash_table_contains (unseen, GINT_TO_POINTER (item->ifindex))); g_hash_table_insert (unseen, GINT_TO_POINTER (item->ifindex), NULL); } #ifndef G_DISABLE_ASSERT /* Ensure that link_get_all returns a consistent and valid result. */ for (i = 0; i < links->len; i++) { item = &g_array_index (links, NMPlatformLink, 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 */ nresult = g_hash_table_size (unseen); result = g_array_sized_new (TRUE, TRUE, sizeof (NMPlatformLink), nresult); g_array_set_size (result, nresult); j = 0; do { gboolean found_something = FALSE; guint first_idx = G_MAXUINT; for (i = 0; i < links->len; i++) { item = &g_array_index (links, NMPlatformLink, i); if (!item->ifindex) continue; if (first_idx == G_MAXUINT) first_idx = i; 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))) continue; if (item->parent > 0 && g_hash_table_contains (unseen, GINT_TO_POINTER (item->parent))) continue; _LOGt ("link-get: add %3d -> %3d: %s", i, j, nm_platform_link_to_string (item, NULL, 0)); g_hash_table_remove (unseen, GINT_TO_POINTER (item->ifindex)); g_array_index (result, NMPlatformLink, j++) = *item; item->ifindex = 0; found_something = TRUE; } if (!found_something) { /* 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 = &g_array_index (links, NMPlatformLink, first_idx); _LOGt ("link-get: add (loop) %3d -> %3d: %s", first_idx, j, nm_platform_link_to_string (item, NULL, 0)); g_hash_table_remove (unseen, GINT_TO_POINTER (item->ifindex)); g_array_index (result, NMPlatformLink, j++) = *item; item->ifindex = 0; } } while (j < nresult); g_hash_table_destroy (unseen); g_array_free (links, TRUE); return result; } /** * 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 * invalidated/modify the returned instance. **/ const NMPlatformLink * nm_platform_link_get (NMPlatform *self, int ifindex) { _CHECK_SELF (self, klass, NULL); if (ifindex > 0) return klass->link_get (self, ifindex); return NULL; } /** * 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) { _CHECK_SELF (self, klass, NULL); if (ifname && *ifname) return klass->link_get_by_ifname (self, ifname); return NULL; } /** * 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, gconstpointer address, size_t length) { _CHECK_SELF (self, klass, NULL); g_return_val_if_fail (length == 0 || address, NULL); if (length > 0) { if (length > NM_UTILS_HWADDR_LEN_MAX) g_return_val_if_reached (NULL); return klass->link_get_by_address (self, address, length); } return NULL; } static NMPlatformError _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; _LOGD ("link: skip adding link due to existing interface '%s' of type %s%s%s", name, 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 NM_PLATFORM_ERROR_WRONG_TYPE; return NM_PLATFORM_ERROR_EXISTS; } if (out_link) *out_link = NULL; return NM_PLATFORM_ERROR_SUCCESS; } /** * nm_platform_link_add: * @self: platform instance * @name: Interface name * @type: Interface type * @address: (allow-none): set the mac address of the link * @address_len: the length of the @address * @out_link: on success, the link object * * Add a software interface. If the interface already exists and is of type * @type, return NM_PLATFORM_ERROR_EXISTS and returns the link * in @out_link. If the interface already exists and is not of type @type, * return NM_PLATFORM_ERROR_WRONG_TYPE. * * Any link-changed ADDED signal will be emitted directly, before this * function finishes. * * Returns: the error reason or NM_PLATFORM_ERROR_SUCCESS. */ static NMPlatformError nm_platform_link_add (NMPlatform *self, const char *name, NMLinkType type, const void *address, size_t address_len, const NMPlatformLink **out_link) { NMPlatformError plerr; _CHECK_SELF (self, klass, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (name, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail ( (address != NULL) ^ (address_len == 0) , NM_PLATFORM_ERROR_BUG); plerr = _link_add_check_existing (self, name, type, out_link); if (plerr != NM_PLATFORM_ERROR_SUCCESS) return plerr; _LOGD ("link: adding %s '%s'", nm_link_type_to_string (type), name); if (!klass->link_add (self, name, type, address, address_len, out_link)) return NM_PLATFORM_ERROR_UNSPECIFIED; return NM_PLATFORM_ERROR_SUCCESS; } /** * nm_platform_link_dummy_add: * @self: platform instance * @name: New interface name * @out_link: on success, the link object * * Create a software ethernet-like interface */ NMPlatformError nm_platform_link_dummy_add (NMPlatform *self, const char *name, const NMPlatformLink **out_link) { return nm_platform_link_add (self, name, NM_LINK_TYPE_DUMMY, NULL, 0, out_link); } /** * nm_platform_link_delete: * @self: platform instance * @ifindex: Interface index */ gboolean nm_platform_link_delete (NMPlatform *self, int ifindex) { const NMPlatformLink *pllink; _CHECK_SELF (self, klass, FALSE); pllink = nm_platform_link_get (self, ifindex); if (!pllink) return FALSE; _LOGD ("link: deleting '%s' (%d)", pllink->name, ifindex); return klass->link_delete (self, ifindex); } /** * nm_platform_link_get_index: * @self: platform instance * @name: Interface name * * Returns: The interface index corresponding to the given interface name * or 0. Inteface 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; } /** * 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; _CHECK_SELF (self, klass, NULL); 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; _CHECK_SELF (self, klass, NM_LINK_TYPE_NONE); 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) { _CHECK_SELF (self, klass, NULL); return klass->link_get_type_name (self, ifindex); } /** * 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) { _CHECK_SELF (self, klass, FALSE); if (klass->link_get_unmanaged) return klass->link_get_unmanaged (self, ifindex, unmanaged); 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_platform_link_get_type (self, ifindex) & 0x10000); } /** * 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_platform_link_get_type (self, ifindex) & 0x20000); } /** * 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; } static guint32 _link_get_flags (NMPlatform *self, int ifindex) { const NMPlatformLink *pllink; pllink = nm_platform_link_get (self, ifindex); return pllink ? pllink->flags : IFF_NOARP; } /** * 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) { _CHECK_SELF (self, klass, FALSE); return NM_FLAGS_HAS (_link_get_flags (self, ifindex), 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; _CHECK_SELF (self, klass, FALSE); 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) { _CHECK_SELF (self, klass, FALSE); return !NM_FLAGS_HAS (_link_get_flags (self, ifindex), IFF_NOARP); } /** * nm_platform_link_get_ipv6_token: * @self: platform instance * @ifindex: Interface index * @iid: Tokenized interface identifier * * Returns IPv6 tokenized interface identifier. If the platform or OS doesn't * support IPv6 tokenized interface identifiers, or the token is not set * this call will fail and return %FALSE. * * Returns: %TRUE a tokenized identifier was available */ gboolean nm_platform_link_get_ipv6_token (NMPlatform *self, int ifindex, NMUtilsIPv6IfaceId *iid) { const NMPlatformLink *pllink; _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (ifindex >= 0, FALSE); g_return_val_if_fail (iid, FALSE); pllink = nm_platform_link_get (self, ifindex); if (pllink && pllink->inet6_token.is_valid) { *iid = pllink->inet6_token.iid; return TRUE; } return FALSE; } const char * nm_platform_link_get_udi (NMPlatform *self, int ifindex) { _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (ifindex >= 0, NULL); if (klass->link_get_udi) return klass->link_get_udi (self, ifindex); return NULL; } GObject * nm_platform_link_get_udev_device (NMPlatform *self, int ifindex) { _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (ifindex >= 0, NULL); if (klass->link_get_udev_device) return klass->link_get_udev_device (self, ifindex); return 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; _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (ifindex >= 0, FALSE); 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: %TRUE if the operation was successful, %FALSE if it failed. */ gboolean nm_platform_link_set_user_ipv6ll_enabled (NMPlatform *self, int ifindex, gboolean enabled) { _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (ifindex >= 0, FALSE); if (klass->link_set_user_ipv6ll_enabled) return klass->link_set_user_ipv6ll_enabled (self, ifindex, enabled); return FALSE; } /** * nm_platform_link_set_address: * @self: platform instance * @ifindex: Interface index * @address: The new MAC address * * Set interface MAC address. */ gboolean nm_platform_link_set_address (NMPlatform *self, int ifindex, gconstpointer address, size_t length) { _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (ifindex > 0, FALSE); g_return_val_if_fail (address, FALSE); g_return_val_if_fail (length > 0, FALSE); _LOGD ("link: setting '%s' (%d) hardware address", nm_platform_link_get_name (self, ifindex), ifindex); 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; gconstpointer a = NULL; guint8 l = 0; _CHECK_SELF (self, klass, NULL); if (length) *length = 0; g_return_val_if_fail (ifindex > 0, NULL); pllink = nm_platform_link_get (self, ifindex); if (pllink && pllink->addr.len > 0) { if (pllink->addr.len > NM_UTILS_HWADDR_LEN_MAX) { if (length) *length = 0; g_return_val_if_reached (NULL); } a = pllink->addr.data; l = pllink->addr.len; } if (length) *length = l; return a; } /** * 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); } /** * 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); _LOGD ("link: setting up '%s' (%d)", nm_platform_link_get_name (self, ifindex), ifindex); 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); _LOGD ("link: setting down '%s' (%d)", nm_platform_link_get_name (self, ifindex), ifindex); 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); _LOGD ("link: setting arp '%s' (%d)", nm_platform_link_get_name (self, ifindex), ifindex); 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); _LOGD ("link: setting noarp '%s' (%d)", nm_platform_link_get_name (self, ifindex), ifindex); 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. */ gboolean 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); _LOGD ("link: setting '%s' (%d) mtu %"G_GUINT32_FORMAT, nm_platform_link_get_name (self, ifindex), ifindex, 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; _CHECK_SELF (self, klass, 0); pllink = nm_platform_link_get (self, ifindex); return pllink ? pllink->mtu : 0; } /** * 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 * @slave: Interface index of the slave * * Enslave @slave to @master. */ gboolean nm_platform_link_enslave (NMPlatform *self, int master, int slave) { _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (master > 0, FALSE); g_return_val_if_fail (slave> 0, FALSE); _LOGD ("link: enslaving '%s' (%d) to master '%s' (%d)", nm_platform_link_get_name (self, slave), slave, nm_platform_link_get_name (self, master), master); return klass->link_enslave (self, master, slave); } /** * nm_platform_link_release: * @self: platform instance * @master: Interface index of the master * @slave: Interface index of the slave * * Release @slave from @master. */ gboolean nm_platform_link_release (NMPlatform *self, int master, int slave) { _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (master > 0, FALSE); g_return_val_if_fail (slave > 0, FALSE); if (nm_platform_link_get_master (self, slave) != master) return FALSE; _LOGD ("link: releasing '%s' (%d) from master '%s' (%d)", nm_platform_link_get_name (self, slave), slave, nm_platform_link_get_name (self, master), master); return klass->link_release (self, master, slave); } /** * nm_platform_link_get_master: * @self: platform instance * @slave: Interface index of the slave. * * Returns: Interfase index of the slave's master. */ int nm_platform_link_get_master (NMPlatform *self, int slave) { const NMPlatformLink *pllink; _CHECK_SELF (self, klass, 0); g_return_val_if_fail (slave >= 0, FALSE); pllink = nm_platform_link_get (self, slave); return pllink ? pllink->master : 0; } /*****************************************************************************/ /** * 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 savely 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) { _CHECK_SELF (self, klass, FALSE); NM_SET_OUT (out_link, NULL); g_return_val_if_fail (ifindex > 0, NULL); return klass->link_get_lnk (self, ifindex, link_type, out_link); } 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 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 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 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 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 NMPlatformLnkMacvtap * 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 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 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); } /*****************************************************************************/ /** * nm_platform_link_bridge_add: * @self: platform instance * @name: New interface name * @address: (allow-none): set the mac address of the new bridge * @address_len: the length of the @address * @out_link: on success, the link object * * Create a software bridge. */ NMPlatformError nm_platform_link_bridge_add (NMPlatform *self, const char *name, const void *address, size_t address_len, const NMPlatformLink **out_link) { return nm_platform_link_add (self, name, NM_LINK_TYPE_BRIDGE, address, address_len, out_link); } /** * nm_platform_link_bond_add: * @self: platform instance * @name: New interface name * @out_link: on success, the link object * * Create a software bonding device. */ NMPlatformError nm_platform_link_bond_add (NMPlatform *self, const char *name, const NMPlatformLink **out_link) { return nm_platform_link_add (self, name, NM_LINK_TYPE_BOND, NULL, 0, out_link); } /** * nm_platform_link_team_add: * @self: platform instance * @name: New interface name * @out_link: on success, the link object * * Create a software teaming device. */ NMPlatformError nm_platform_link_team_add (NMPlatform *self, const char *name, const NMPlatformLink **out_link) { return nm_platform_link_add (self, name, NM_LINK_TYPE_TEAM, NULL, 0, out_link); } /** * nm_platform_link_vlan_add: * @self: platform instance * @name: New interface name * @vlanid: VLAN identifier * @vlanflags: VLAN flags from libnm * @out_link: on success, the link object * * Create a software VLAN device. */ NMPlatformError nm_platform_link_vlan_add (NMPlatform *self, const char *name, int parent, int vlanid, guint32 vlanflags, const NMPlatformLink **out_link) { NMPlatformError plerr; _CHECK_SELF (self, klass, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (parent >= 0, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (vlanid >= 0, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (name, NM_PLATFORM_ERROR_BUG); plerr = _link_add_check_existing (self, name, NM_LINK_TYPE_VLAN, out_link); if (plerr != NM_PLATFORM_ERROR_SUCCESS) return plerr; _LOGD ("link: adding vlan '%s' parent %d vlanid %d vlanflags %x", name, parent, vlanid, vlanflags); if (!klass->vlan_add (self, name, parent, vlanid, vlanflags, out_link)) return NM_PLATFORM_ERROR_UNSPECIFIED; return NM_PLATFORM_ERROR_SUCCESS; } /** * nm_platform_link_vxlan_add: * @self: platform instance * @name: New interface name * @props: properties of the new link * @out_link: on success, the link object * * Create a VXLAN device. */ NMPlatformError nm_platform_link_vxlan_add (NMPlatform *self, const char *name, const NMPlatformLnkVxlan *props, const NMPlatformLink **out_link) { NMPlatformError plerr; _CHECK_SELF (self, klass, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (props, NM_PLATFORM_ERROR_BUG); plerr = _link_add_check_existing (self, name, NM_LINK_TYPE_VXLAN, out_link); if (plerr != NM_PLATFORM_ERROR_SUCCESS) return plerr; _LOGD ("link: adding vxlan '%s' parent %d id %d", name, props->parent_ifindex, props->id); if (!klass->link_vxlan_add (self, name, props, out_link)) return NM_PLATFORM_ERROR_UNSPECIFIED; return NM_PLATFORM_ERROR_SUCCESS; } /** * 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 * * Create a TUN or TAP interface. */ NMPlatformError nm_platform_link_tun_add (NMPlatform *self, const char *name, gboolean tap, gint64 owner, gint64 group, gboolean pi, gboolean vnet_hdr, gboolean multi_queue, const NMPlatformLink **out_link) { NMPlatformError plerr; _CHECK_SELF (self, klass, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (name, NM_PLATFORM_ERROR_BUG); plerr = _link_add_check_existing (self, name, tap ? NM_LINK_TYPE_TAP : NM_LINK_TYPE_TUN, out_link); if (plerr != NM_PLATFORM_ERROR_SUCCESS) return plerr; _LOGD ("link: adding %s '%s' owner %" G_GINT64_FORMAT " group %" G_GINT64_FORMAT, tap ? "tap" : "tun", name, owner, group); if (!klass->tun_add (self, name, tap, owner, group, pi, vnet_hdr, multi_queue, out_link)) return NM_PLATFORM_ERROR_UNSPECIFIED; return NM_PLATFORM_ERROR_SUCCESS; } /*****************************************************************************/ static char * link_option_path (NMPlatform *self, int master, const char *category, const char *option) { const char *name = nm_platform_link_get_name (self, master); if (!name || !category || !option) return NULL; return g_strdup_printf ("/sys/class/net/%s/%s/%s", ASSERT_VALID_PATH_COMPONENT (name), ASSERT_VALID_PATH_COMPONENT (category), ASSERT_VALID_PATH_COMPONENT (option)); } static gboolean link_set_option (NMPlatform *self, int master, const char *category, const char *option, const char *value) { gs_free char *path = link_option_path (self, master, category, option); return path && nm_platform_sysctl_set (self, path, value); } static char * link_get_option (NMPlatform *self, int master, const char *category, const char *option) { gs_free char *path = link_option_path (self, master, category, option); return path ? nm_platform_sysctl_get (self, path) : NULL; } 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)"); } _LOGD ("link: change vlan %d:%s", ifindex, 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); } /** * nm_platform_link_gre_add: * @self: platform instance * @name: name of the new interface * @props: interface properties * @out_link: on success, the link object * * Create a software GRE device. */ NMPlatformError nm_platform_link_gre_add (NMPlatform *self, const char *name, const NMPlatformLnkGre *props, const NMPlatformLink **out_link) { NMPlatformError plerr; char buffer[INET_ADDRSTRLEN]; _CHECK_SELF (self, klass, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (props, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (name, NM_PLATFORM_ERROR_BUG); plerr = _link_add_check_existing (self, name, NM_LINK_TYPE_GRE, out_link); if (plerr != NM_PLATFORM_ERROR_SUCCESS) return plerr; _LOGD (LOG_FMT_IP_TUNNEL, "gre", name, props->parent_ifindex, nm_utils_inet4_ntop (props->local, NULL), nm_utils_inet4_ntop (props->remote, buffer)); if (!klass->link_gre_add (self, name, props, out_link)) return NM_PLATFORM_ERROR_UNSPECIFIED; return NM_PLATFORM_ERROR_SUCCESS; } NMPlatformError nm_platform_link_infiniband_add (NMPlatform *self, int parent, int p_key, const NMPlatformLink **out_link) { gs_free char *parent_name = NULL; gs_free char *name = NULL; NMPlatformError plerr; _CHECK_SELF (self, klass, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (parent >= 0, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (p_key >= 0, NM_PLATFORM_ERROR_BUG); parent_name = g_strdup (nm_platform_link_get_name (self, parent)); if ( !parent_name || nm_platform_link_get_type (self, parent) != NM_LINK_TYPE_INFINIBAND) return NM_PLATFORM_ERROR_WRONG_TYPE; name = g_strdup_printf ("%s.%04x", parent_name, p_key); plerr = _link_add_check_existing (self, name, NM_LINK_TYPE_INFINIBAND, out_link); if (plerr != NM_PLATFORM_ERROR_SUCCESS) return plerr; _LOGD ("link: adding infiniband partition %s for parent '%s' (%d), key %d", name, parent_name, parent, p_key); if (!klass->infiniband_partition_add (self, parent, p_key, out_link)) return NM_PLATFORM_ERROR_UNSPECIFIED; return NM_PLATFORM_ERROR_SUCCESS; } gboolean nm_platform_link_infiniband_get_properties (NMPlatform *self, int ifindex, int *out_parent, int *out_p_key, const char **out_mode) { const NMPlatformLnkInfiniband *plnk; const NMPlatformLink *plink; const char *iface; char *path, *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. */ iface = ASSERT_VALID_PATH_COMPONENT (plink->name); /* Fall back to reading sysfs */ path = g_strdup_printf ("/sys/class/net/%s/mode", iface); contents = nm_platform_sysctl_get (self, path); g_free (path); if (!contents) return FALSE; if (strstr (contents, "datagram")) mode = "datagram"; else if (strstr (contents, "connected")) mode = "connected"; else mode = NULL; g_free (contents); path = g_strdup_printf ("/sys/class/net/%s/pkey", iface); contents = nm_platform_sysctl_get (self, path); g_free (path); if (!contents) return FALSE; p_key = (int) _nm_utils_ascii_str_to_int64 (contents, 16, 0, 0xFFFF, -1); g_free (contents); 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; } /** * nm_platform_ip6tnl_add: * @self: platform instance * @name: name of the new interface * @props: interface properties * @out_link: on success, the link object * * Create an IPv6 tunnel. */ NMPlatformError nm_platform_link_ip6tnl_add (NMPlatform *self, const char *name, const NMPlatformLnkIp6Tnl *props, const NMPlatformLink **out_link) { NMPlatformError plerr; char buffer[INET6_ADDRSTRLEN]; _CHECK_SELF (self, klass, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (props, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (name, NM_PLATFORM_ERROR_BUG); plerr = _link_add_check_existing (self, name, NM_LINK_TYPE_IP6TNL, out_link); if (plerr != NM_PLATFORM_ERROR_SUCCESS) return plerr; _LOGD (LOG_FMT_IP_TUNNEL, "ip6tnl", name, props->parent_ifindex, nm_utils_inet6_ntop (&props->local, NULL), nm_utils_inet6_ntop (&props->remote, buffer)); if (!klass->link_ip6tnl_add (self, name, props, out_link)) return NM_PLATFORM_ERROR_UNSPECIFIED; return NM_PLATFORM_ERROR_SUCCESS; } /** * nm_platform_ipip_add: * @self: platform instance * @name: name of the new interface * @props: interface properties * @out_link: on success, the link object * * Create an IPIP tunnel. */ NMPlatformError nm_platform_link_ipip_add (NMPlatform *self, const char *name, const NMPlatformLnkIpIp *props, const NMPlatformLink **out_link) { NMPlatformError plerr; char buffer[INET_ADDRSTRLEN]; _CHECK_SELF (self, klass, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (props, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (name, NM_PLATFORM_ERROR_BUG); plerr = _link_add_check_existing (self, name, NM_LINK_TYPE_IPIP, out_link); if (plerr != NM_PLATFORM_ERROR_SUCCESS) return plerr; _LOGD (LOG_FMT_IP_TUNNEL, "ipip", name, props->parent_ifindex, nm_utils_inet4_ntop (props->local, NULL), nm_utils_inet4_ntop (props->remote, buffer)); if (!klass->link_ipip_add (self, name, props, out_link)) return NM_PLATFORM_ERROR_UNSPECIFIED; return NM_PLATFORM_ERROR_SUCCESS; } /** * nm_platform_macvlan_add: * @self: platform instance * @name: name of the new interface * @props: interface properties * @out_link: on success, the link object * * Create a MACVLAN or MACVTAP device. */ NMPlatformError nm_platform_link_macvlan_add (NMPlatform *self, const char *name, int parent, const NMPlatformLnkMacvlan *props, const NMPlatformLink **out_link) { NMPlatformError plerr; NMLinkType type; _CHECK_SELF (self, klass, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (props, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (name, NM_PLATFORM_ERROR_BUG); type = props->tap ? NM_LINK_TYPE_MACVTAP : NM_LINK_TYPE_MACVLAN; plerr = _link_add_check_existing (self, name, type, out_link); if (plerr != NM_PLATFORM_ERROR_SUCCESS) return plerr; _LOGD ("adding %s '%s' parent %u mode %u", props->tap ? "macvtap" : "macvlan", name, parent, props->mode); if (!klass->link_macvlan_add (self, name, parent, props, out_link)) return NM_PLATFORM_ERROR_UNSPECIFIED; return NM_PLATFORM_ERROR_SUCCESS; } /** * nm_platform_sit_add: * @self: platform instance * @name: name of the new interface * @props: interface properties * @out_link: on success, the link object * * Create a software SIT device. */ NMPlatformError nm_platform_link_sit_add (NMPlatform *self, const char *name, const NMPlatformLnkSit *props, const NMPlatformLink **out_link) { NMPlatformError plerr; char buffer[INET_ADDRSTRLEN]; _CHECK_SELF (self, klass, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (props, NM_PLATFORM_ERROR_BUG); g_return_val_if_fail (name, NM_PLATFORM_ERROR_BUG); plerr = _link_add_check_existing (self, name, NM_LINK_TYPE_SIT, out_link); if (plerr != NM_PLATFORM_ERROR_SUCCESS) return plerr; _LOGD (LOG_FMT_IP_TUNNEL, "sit", name, props->parent_ifindex, nm_utils_inet4_ntop (props->local, NULL), nm_utils_inet4_ntop (props->remote, buffer)); if (!klass->link_sit_add (self, name, props, out_link)) return NM_PLATFORM_ERROR_UNSPECIFIED; return NM_PLATFORM_ERROR_SUCCESS; } gboolean nm_platform_link_veth_get_properties (NMPlatform *self, int ifindex, int *out_peer_ifindex) { const NMPlatformLink *plink; int peer_ifindex; _CHECK_SELF (self, klass, FALSE); 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->name); if (peer_ifindex <= 0) return FALSE; *out_peer_ifindex = peer_ifindex; } return TRUE; } gboolean nm_platform_link_tun_get_properties_ifname (NMPlatform *self, const char *ifname, NMPlatformTunProperties *props) { char path[256]; char *val; gboolean success = TRUE; _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (props, FALSE); memset (props, 0, sizeof (*props)); props->owner = -1; props->group = -1; if (!ifname || !nm_utils_iface_valid_name (ifname)) return FALSE; nm_sprintf_buf (path, "/sys/class/net/%s/owner", ifname); val = nm_platform_sysctl_get (self, path); if (val) { props->owner = _nm_utils_ascii_str_to_int64 (val, 10, -1, G_MAXINT64, -1); if (errno) success = FALSE; g_free (val); } else success = FALSE; nm_sprintf_buf (path, "/sys/class/net/%s/group", ifname); val = nm_platform_sysctl_get (self, path); if (val) { props->group = _nm_utils_ascii_str_to_int64 (val, 10, -1, G_MAXINT64, -1); if (errno) success = FALSE; g_free (val); } else success = FALSE; nm_sprintf_buf (path, "/sys/class/net/%s/tun_flags", ifname); val = nm_platform_sysctl_get (self, path); if (val) { gint64 flags; flags = _nm_utils_ascii_str_to_int64 (val, 16, 0, G_MAXINT64, 0); if (!errno) { props->mode = ((flags & (IFF_TUN | IFF_TAP)) == IFF_TUN) ? "tun" : "tap"; props->no_pi = !!(flags & IFF_NO_PI); props->vnet_hdr = !!(flags & IFF_VNET_HDR); props->multi_queue = !!(flags & NM_IFF_MULTI_QUEUE); } else success = FALSE; g_free (val); } else success = FALSE; return success; } gboolean nm_platform_link_tun_get_properties (NMPlatform *self, int ifindex, NMPlatformTunProperties *props) { _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (ifindex > 0, FALSE); g_return_val_if_fail (props != NULL, FALSE); return nm_platform_link_tun_get_properties_ifname (self, nm_platform_link_get_name (self, ifindex), props); } 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); } gboolean nm_platform_wifi_get_bssid (NMPlatform *self, int ifindex, guint8 *bssid) { _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (ifindex > 0, FALSE); return klass->wifi_get_bssid (self, ifindex, bssid); } 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); } int nm_platform_wifi_get_quality (NMPlatform *self, int ifindex) { _CHECK_SELF (self, klass, 0); g_return_val_if_fail (ifindex > 0, 0); return klass->wifi_get_quality (self, ifindex); } guint32 nm_platform_wifi_get_rate (NMPlatform *self, int ifindex) { _CHECK_SELF (self, klass, 0); g_return_val_if_fail (ifindex > 0, 0); return klass->wifi_get_rate (self, ifindex); } 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); } 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); } #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; } /******************************************************************/ gboolean nm_platform_ethtool_set_wake_on_lan (NMPlatform *self, const char *ifname, NMSettingWiredWakeOnLan wol, const char *wol_password) { nm_auto_pop_netns NMPNetns *netns = NULL; _CHECK_SELF (self, klass, FALSE); if (!nm_platform_netns_push (self, &netns)) return FALSE; return nmp_utils_ethtool_set_wake_on_lan (ifname, wol, wol_password); } gboolean nm_platform_ethtool_get_link_speed (NMPlatform *self, const char *ifname, guint32 *out_speed) { nm_auto_pop_netns NMPNetns *netns = NULL; _CHECK_SELF (self, klass, FALSE); if (!nm_platform_netns_push (self, &netns)) return FALSE; return nmp_utils_ethtool_get_link_speed (ifname, out_speed); } /******************************************************************/ void nm_platform_ip4_address_set_addr (NMPlatformIP4Address *addr, in_addr_t address, int plen) { 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; } GArray * nm_platform_ip4_address_get_all (NMPlatform *self, int ifindex) { _CHECK_SELF (self, klass, NULL); g_return_val_if_fail (ifindex > 0, NULL); return klass->ip4_address_get_all (self, ifindex); } GArray * nm_platform_ip6_address_get_all (NMPlatform *self, int ifindex) { _CHECK_SELF (self, klass, NULL); g_return_val_if_fail (ifindex > 0, NULL); return klass->ip6_address_get_all (self, ifindex); } gboolean nm_platform_ip4_address_add (NMPlatform *self, int ifindex, in_addr_t address, int plen, in_addr_t peer_address, guint32 lifetime, guint32 preferred, const char *label) { _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (ifindex > 0, FALSE); g_return_val_if_fail (plen > 0, 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 = { 0 }; addr.ifindex = ifindex; addr.address = address; addr.peer_address = peer_address; addr.plen = plen; addr.timestamp = 0; /* set it at zero, which to_string will treat as *now* */ addr.lifetime = lifetime; addr.preferred = preferred; if (label) g_strlcpy (addr.label, label, sizeof (addr.label)); _LOGD ("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, lifetime, preferred, label); } gboolean nm_platform_ip6_address_add (NMPlatform *self, int ifindex, struct in6_addr address, int plen, struct in6_addr peer_address, guint32 lifetime, guint32 preferred, guint flags) { _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (ifindex > 0, FALSE); g_return_val_if_fail (plen > 0, 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.flags = flags; _LOGD ("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, int plen, in_addr_t peer_address) { char str_dev[TO_STRING_DEV_BUF_SIZE]; char str_peer2[NM_UTILS_INET_ADDRSTRLEN]; char str_peer[100]; _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (ifindex > 0, FALSE); g_return_val_if_fail (plen > 0, FALSE); _LOGD ("address: deleting IPv4 address %s/%d, %sifindex %d%s", nm_utils_inet4_ntop (address, NULL), plen, peer_address != address ? nm_sprintf_buf (str_peer, "peer %s, ", nm_utils_inet4_ntop (peer_address, str_peer2)) : "", ifindex, _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, int plen) { char str_dev[TO_STRING_DEV_BUF_SIZE]; _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (ifindex > 0, FALSE); g_return_val_if_fail (plen > 0, FALSE); _LOGD ("address: deleting IPv6 address %s/%d, ifindex %d%s", nm_utils_inet6_ntop (&address, NULL), plen, ifindex, _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, int plen, guint32 peer_address) { _CHECK_SELF (self, klass, NULL); g_return_val_if_fail (plen > 0, NULL); return klass->ip4_address_get (self, ifindex, address, plen, peer_address); } const NMPlatformIP6Address * nm_platform_ip6_address_get (NMPlatform *self, int ifindex, struct in6_addr address, int plen) { _CHECK_SELF (self, klass, NULL); g_return_val_if_fail (plen > 0, NULL); return klass->ip6_address_get (self, ifindex, address, plen); } static gboolean array_contains_ip4_address (const GArray *addresses, const NMPlatformIP4Address *address, gint64 now, guint32 padding) { guint len = addresses ? addresses->len : 0; guint i; for (i = 0; i < len; i++) { NMPlatformIP4Address *candidate = &g_array_index (addresses, NMPlatformIP4Address, i); if ( candidate->address == address->address && candidate->plen == address->plen && ((candidate->peer_address ^ address->peer_address) & nm_utils_ip4_prefix_to_netmask (address->plen)) == 0) { guint32 lifetime, preferred; if (nmp_utils_lifetime_get (candidate->timestamp, candidate->lifetime, candidate->preferred, now, padding, &lifetime, &preferred)) return TRUE; } } return FALSE; } static gboolean array_contains_ip6_address (const GArray *addresses, const NMPlatformIP6Address *address, gint64 now, guint32 padding) { guint len = addresses ? addresses->len : 0; guint i; for (i = 0; i < len; i++) { NMPlatformIP6Address *candidate = &g_array_index (addresses, NMPlatformIP6Address, i); if (IN6_ARE_ADDR_EQUAL (&candidate->address, &address->address) && candidate->plen == address->plen) { guint32 lifetime, preferred; if (nmp_utils_lifetime_get (candidate->timestamp, candidate->lifetime, candidate->preferred, now, padding, &lifetime, &preferred)) return TRUE; } } return FALSE; } /** * nm_platform_ip4_address_sync: * @self: platform instance * @ifindex: Interface index * @known_addresses: List of addresses * @out_added_addresses: (out): (allow-none): if not %NULL, return a #GPtrArray * with the addresses added. The pointers point into @known_addresses. * It possibly does not contain all addresses from @known_address because * some addresses might be expired. * * 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_ip4_address_sync (NMPlatform *self, int ifindex, const GArray *known_addresses, GPtrArray **out_added_addresses) { GArray *addresses; NMPlatformIP4Address *address; guint32 now = nm_utils_get_monotonic_timestamp_s (); int i; _CHECK_SELF (self, klass, FALSE); /* Delete unknown addresses */ addresses = nm_platform_ip4_address_get_all (self, ifindex); for (i = 0; i < addresses->len; i++) { address = &g_array_index (addresses, NMPlatformIP4Address, i); if (!array_contains_ip4_address (known_addresses, address, now, ADDRESS_LIFETIME_PADDING)) nm_platform_ip4_address_delete (self, ifindex, address->address, address->plen, address->peer_address); } g_array_free (addresses, TRUE); if (out_added_addresses) *out_added_addresses = NULL; if (!known_addresses) return TRUE; /* Add missing addresses */ for (i = 0; i < known_addresses->len; i++) { const NMPlatformIP4Address *known_address = &g_array_index (known_addresses, NMPlatformIP4Address, i); guint32 lifetime, preferred; if (!nmp_utils_lifetime_get (known_address->timestamp, known_address->lifetime, known_address->preferred, now, ADDRESS_LIFETIME_PADDING, &lifetime, &preferred)) continue; if (!nm_platform_ip4_address_add (self, ifindex, known_address->address, known_address->plen, known_address->peer_address, lifetime, preferred, known_address->label)) return FALSE; if (out_added_addresses) { if (!*out_added_addresses) *out_added_addresses = g_ptr_array_new (); g_ptr_array_add (*out_added_addresses, (gpointer) known_address); } } return TRUE; } /** * nm_platform_ip6_address_sync: * @self: platform instance * @ifindex: Interface index * @known_addresses: List of addresses * @keep_link_local: Don't remove link-local address * * 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_ip6_address_sync (NMPlatform *self, int ifindex, const GArray *known_addresses, gboolean keep_link_local) { GArray *addresses; NMPlatformIP6Address *address; guint32 now = nm_utils_get_monotonic_timestamp_s (); int i; /* Delete unknown addresses */ addresses = nm_platform_ip6_address_get_all (self, ifindex); for (i = 0; i < addresses->len; i++) { address = &g_array_index (addresses, NMPlatformIP6Address, i); /* Leave link local address management to the kernel */ if (keep_link_local && IN6_IS_ADDR_LINKLOCAL (&address->address)) continue; if (!array_contains_ip6_address (known_addresses, address, now, ADDRESS_LIFETIME_PADDING)) nm_platform_ip6_address_delete (self, ifindex, address->address, address->plen); } g_array_free (addresses, TRUE); if (!known_addresses) return TRUE; /* Add missing addresses */ for (i = 0; i < known_addresses->len; i++) { const NMPlatformIP6Address *known_address = &g_array_index (known_addresses, NMPlatformIP6Address, i); guint32 lifetime, preferred; if (!nmp_utils_lifetime_get (known_address->timestamp, known_address->lifetime, known_address->preferred, now, ADDRESS_LIFETIME_PADDING, &lifetime, &preferred)) continue; if (!nm_platform_ip6_address_add (self, ifindex, known_address->address, known_address->plen, known_address->peer_address, lifetime, preferred, known_address->flags)) return FALSE; } return TRUE; } gboolean nm_platform_address_flush (NMPlatform *self, int ifindex) { _CHECK_SELF (self, klass, FALSE); return nm_platform_ip4_address_sync (self, ifindex, NULL, NULL) && nm_platform_ip6_address_sync (self, ifindex, NULL, FALSE); } /******************************************************************/ GArray * nm_platform_ip4_route_get_all (NMPlatform *self, int ifindex, NMPlatformGetRouteFlags flags) { _CHECK_SELF (self, klass, NULL); g_return_val_if_fail (ifindex >= 0, NULL); return klass->ip4_route_get_all (self, ifindex, flags); } GArray * nm_platform_ip6_route_get_all (NMPlatform *self, int ifindex, NMPlatformGetRouteFlags flags) { _CHECK_SELF (self, klass, NULL); g_return_val_if_fail (ifindex >= 0, NULL); return klass->ip6_route_get_all (self, ifindex, flags); } /** * nm_platform_ip4_route_add: * @self: * @ifindex: * @source: * network: * plen: * gateway: * pref_src: * metric: * mss: * * For kernel, a gateway can be either explicitly set or left * at zero (0.0.0.0). In addition, there is the scope of the IPv4 * route. * When adding a route with * $ ip route add default dev $IFNAME * the resulting route will have gateway 0.0.0.0 and scope "link". * Contrary to * $ ip route add default via 0.0.0.0 dev $IFNAME * which adds the route with scope "global". * * NetworkManager's Platform can currently only add on-link-routes with scope * "link" (and gateway 0.0.0.0) or gateway-routes with scope "global" (and * gateway not 0.0.0.0). * * It does not support adding globally scoped routes via 0.0.0.0. * * Returns: %TRUE in case of success. */ gboolean nm_platform_ip4_route_add (NMPlatform *self, int ifindex, NMIPConfigSource source, in_addr_t network, int plen, in_addr_t gateway, in_addr_t pref_src, guint32 metric, guint32 mss) { _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (0 <= plen && plen <= 32, FALSE); if (_LOGD_ENABLED ()) { NMPlatformIP4Route route = { 0 }; route.ifindex = ifindex; route.source = source; route.network = network; route.plen = plen; route.gateway = gateway; route.metric = metric; route.mss = mss; route.pref_src = pref_src; _LOGD ("route: adding or updating IPv4 route: %s", nm_platform_ip4_route_to_string (&route, NULL, 0)); } return klass->ip4_route_add (self, ifindex, source, network, plen, gateway, pref_src, metric, mss); } gboolean nm_platform_ip6_route_add (NMPlatform *self, int ifindex, NMIPConfigSource source, struct in6_addr network, int plen, struct in6_addr gateway, guint32 metric, guint32 mss) { _CHECK_SELF (self, klass, FALSE); g_return_val_if_fail (0 <= plen && plen <= 128, FALSE); if (_LOGD_ENABLED ()) { NMPlatformIP6Route route = { 0 }; route.ifindex = ifindex; route.source = source; route.network = network; route.plen = plen; route.gateway = gateway; route.metric = metric; route.mss = mss; _LOGD ("route: adding or updating IPv6 route: %s", nm_platform_ip6_route_to_string (&route, NULL, 0)); } return klass->ip6_route_add (self, ifindex, source, network, plen, gateway, metric, mss); } gboolean nm_platform_ip4_route_delete (NMPlatform *self, int ifindex, in_addr_t network, int plen, guint32 metric) { char str_dev[TO_STRING_DEV_BUF_SIZE]; _CHECK_SELF (self, klass, FALSE); _LOGD ("route: deleting IPv4 route %s/%d, metric=%"G_GUINT32_FORMAT", ifindex %d%s", nm_utils_inet4_ntop (network, NULL), plen, metric, ifindex, _to_string_dev (self, ifindex, str_dev, sizeof (str_dev))); return klass->ip4_route_delete (self, ifindex, network, plen, metric); } gboolean nm_platform_ip6_route_delete (NMPlatform *self, int ifindex, struct in6_addr network, int plen, guint32 metric) { char str_dev[TO_STRING_DEV_BUF_SIZE]; _CHECK_SELF (self, klass, FALSE); _LOGD ("route: deleting IPv6 route %s/%d, metric=%"G_GUINT32_FORMAT", ifindex %d%s", nm_utils_inet6_ntop (&network, NULL), plen, metric, ifindex, _to_string_dev (self, ifindex, str_dev, sizeof (str_dev))); return klass->ip6_route_delete (self, ifindex, network, plen, metric); } const NMPlatformIP4Route * nm_platform_ip4_route_get (NMPlatform *self, int ifindex, in_addr_t network, int plen, guint32 metric) { _CHECK_SELF (self, klass, FALSE); return klass->ip4_route_get (self ,ifindex, network, plen, metric); } const NMPlatformIP6Route * nm_platform_ip6_route_get (NMPlatform *self, int ifindex, struct in6_addr network, int plen, guint32 metric) { _CHECK_SELF (self, klass, FALSE); return klass->ip6_route_get (self, ifindex, network, plen, metric); } /******************************************************************/ 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 * source_to_string (NMIPConfigSource source) { switch (source) { case NM_IP_CONFIG_SOURCE_RTPROT_KERNEL: return "rtprot-kernel"; case _NM_IP_CONFIG_SOURCE_RTM_F_CLONED: return "rtm-f-cloned"; case NM_IP_CONFIG_SOURCE_KERNEL: return "kernel"; case NM_IP_CONFIG_SOURCE_SHARED: return "shared"; case NM_IP_CONFIG_SOURCE_IP4LL: return "ipv4ll"; case NM_IP_CONFIG_SOURCE_PPP: return "ppp"; case NM_IP_CONFIG_SOURCE_WWAN: return "wwan"; case NM_IP_CONFIG_SOURCE_VPN: return "vpn"; case NM_IP_CONFIG_SOURCE_DHCP: return "dhcp"; case NM_IP_CONFIG_SOURCE_RDISC: return "rdisc"; case NM_IP_CONFIG_SOURCE_USER: return "user"; default: break; } return "unknown"; } 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", nmp_utils_lifetime_rebase_relative_time_on_now (timestamp, lifetime, now, 0)); 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]; GString *str_flags; char str_addrmode[30]; gs_free char *str_addr = NULL; gs_free char *str_inet6_token = NULL; const char *str_link_type; if (!nm_utils_to_string_buffer_init_null (link, &buf, &len)) return buf; str_flags = g_string_new (NULL); if (NM_FLAGS_HAS (link->flags, IFF_NOARP)) g_string_append (str_flags, "NOARP,"); if (NM_FLAGS_HAS (link->flags, IFF_UP)) g_string_append (str_flags, "UP"); else g_string_append (str_flags, "DOWN"); if (link->connected) g_string_append (str_flags, ",LOWER_UP"); if (link->flags) { char str_flags_buf[64]; nm_platform_link_flags2str (link->flags, str_flags_buf, sizeof (str_flags_buf)); g_string_append_printf (str_flags, ";%s", str_flags_buf); } 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; if (link->addr.len) str_addr = nm_utils_hwaddr_ntoa (link->addr.data, MIN (link->addr.len, sizeof (link->addr.data))); if (link->inet6_token.is_valid) str_inet6_token = nm_utils_hwaddr_ntoa (&link->inet6_token.iid, sizeof (link->inet6_token.iid)); str_link_type = nm_link_type_to_string (link->type); g_snprintf (buf, len, "%d: " /* ifindex */ "%s" /* name */ "%s" /* parent */ " <%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" /* addr */ "%s%s" /* inet6_token */ "%s%s" /* driver */ , link->ifindex, link->name, parent, str_flags->str, link->mtu, master, link->arptype, str_if_set (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_addr ? " addr " : "", str_addr ? str_addr : "", str_inet6_token ? " inet6token " : "", str_inet6_token ? str_inet6_token : "", link->driver ? " driver " : "", link->driver ? link->driver : ""); g_string_free (str_flags, TRUE); 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" /* remote */ "%s" /* local */ "%s" /* parent_ifindex */ "%s" /* ttl */ "%s" /* tos */ "%s" /* path_mtu_discovery */ "%s" /* iflags */ "%s" /* oflags */ "%s" /* ikey */ "%s" /* okey */ "", 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]; if (!nm_utils_to_string_buffer_init_null (lnk, &buf, &len)) return buf; g_snprintf (buf, len, "ip6tnl" "%s" /* remote */ "%s" /* local */ "%s" /* parent_ifindex */ "%s" /* ttl */ "%s" /* tclass */ "%s" /* encap limit */ "%s" /* flow label */ "%s" /* proto */ "", 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)); 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_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, "macvlan mode %u %s", 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_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_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]; 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, NULL)); } 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, NULL)); } if (lnk->local == 0) str_local[0] = '\0'; else { g_snprintf (str_local, sizeof (str_local), " local %s", nm_utils_inet4_ntop (lnk->local, NULL)); } 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, NULL)); } 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; } /** * 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_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]; char *str_peer = NULL; const char *str_lft_p, *str_pref_p, *str_time_p; gint32 now = nm_utils_get_monotonic_timestamp_s (); 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 ? 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_address, address->plen, str_lft_p, str_pref_p, str_time_p, str_peer ? str_peer : "", str_dev, str_label, source_to_string (address->source)); 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_TENTATIVE, "tentative"), NM_UTILS_FLAGS2STR (IFA_F_PERMANENT, "permanent"), NM_UTILS_FLAGS2STR (IFA_F_MANAGETEMPADDR, "mngtmpaddr"), NM_UTILS_FLAGS2STR (IFA_F_NOPREFIXROUTE, "noprefixroute"), ); 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) { #define S_FLAGS_PREFIX " flags " char s_flags[256]; char s_address[INET6_ADDRSTRLEN]; char s_peer[INET6_ADDRSTRLEN]; char str_lft[30], str_pref[30], str_time[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_s (); 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)); nm_platform_addr_flags2str (address->flags, &s_flags[NM_STRLEN (S_FLAGS_PREFIX)], sizeof (s_flags) - NM_STRLEN (S_FLAGS_PREFIX)); if (s_flags[NM_STRLEN (S_FLAGS_PREFIX)] == '\0') s_flags[0] = '\0'; else memcpy (s_flags, S_FLAGS_PREFIX, NM_STRLEN (S_FLAGS_PREFIX)); str_lft_p = _lifetime_to_string (address->timestamp, address->lifetime ? 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_address, address->plen, str_lft_p, str_pref_p, str_time_p, str_peer ? str_peer : "", str_dev, s_flags, source_to_string (address->source)); g_free (str_peer); return buf; } /** * 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_scope[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, "%s/%d" " via %s" "%s" " metric %"G_GUINT32_FORMAT " mss %"G_GUINT32_FORMAT " src %s" /* source */ "%s%s" /* scope */ "%s%s" /* pref-src */ "", s_network, route->plen, s_gateway, str_dev, route->metric, route->mss, source_to_string (route->source), 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)) : ""); 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], s_gateway[INET6_ADDRSTRLEN]; char str_dev[TO_STRING_DEV_BUF_SIZE]; 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)); _to_string_dev (NULL, route->ifindex, str_dev, sizeof (str_dev)); g_snprintf (buf, len, "%s/%d" " via %s" "%s" " metric %"G_GUINT32_FORMAT " mss %"G_GUINT32_FORMAT " src %s" /* source */ "", s_network, route->plen, s_gateway, str_dev, route->metric, route->mss, source_to_string (route->source)); return buf; } #define _CMP_SELF(a, b) \ G_STMT_START { \ if ((a) == (b)) \ return 0; \ if (!(a)) \ return -1; \ if (!(b)) \ return 1; \ } G_STMT_END #define _CMP_DIRECT(a, b) \ G_STMT_START { \ if ((a) != (b)) \ return ((a) < (b)) ? -1 : 1; \ } G_STMT_END #define _CMP_DIRECT_MEMCMP(a, b, size) \ G_STMT_START { \ int c = memcmp ((a), (b), (size)); \ if (c != 0) \ return c < 0 ? -1 : 1; \ } G_STMT_END #define _CMP_FIELD(a, b, field) \ G_STMT_START { \ if (((a)->field) != ((b)->field)) \ return (((a)->field) < ((b)->field)) ? -1 : 1; \ } G_STMT_END #define _CMP_FIELD_BOOL(a, b, field) \ G_STMT_START { \ if ((!((a)->field)) != (!((b)->field))) \ return ((!((a)->field)) < (!((b)->field))) ? -1 : 1; \ } G_STMT_END #define _CMP_FIELD_STR(a, b, field) \ G_STMT_START { \ int c = strcmp ((a)->field, (b)->field); \ if (c != 0) \ return c < 0 ? -1 : 1; \ } G_STMT_END #define _CMP_FIELD_STR_INTERNED(a, b, field) \ G_STMT_START { \ if (((a)->field) != ((b)->field)) { \ /* just to be sure, also do a strcmp() if the pointers don't match */ \ int c = g_strcmp0 ((a)->field, (b)->field); \ if (c != 0) \ return c < 0 ? -1 : 1; \ } \ } G_STMT_END #define _CMP_FIELD_STR0(a, b, field) \ G_STMT_START { \ int c = g_strcmp0 ((a)->field, (b)->field); \ if (c != 0) \ return c < 0 ? -1 : 1; \ } G_STMT_END #define _CMP_FIELD_MEMCMP_LEN(a, b, field, len) \ G_STMT_START { \ int c = memcmp (&((a)->field), &((b)->field), \ MIN (len, sizeof ((a)->field))); \ if (c != 0) \ return c < 0 ? -1 : 1; \ } G_STMT_END #define _CMP_FIELD_MEMCMP(a, b, field) \ G_STMT_START { \ int c = memcmp (&((a)->field), &((b)->field), \ sizeof ((a)->field)); \ if (c != 0) \ return c < 0 ? -1 : 1; \ } G_STMT_END int nm_platform_link_cmp (const NMPlatformLink *a, const NMPlatformLink *b) { _CMP_SELF (a, b); _CMP_FIELD (a, b, ifindex); _CMP_FIELD (a, b, type); _CMP_FIELD_STR (a, b, name); _CMP_FIELD (a, b, master); _CMP_FIELD (a, b, parent); _CMP_FIELD (a, b, flags); _CMP_FIELD (a, b, connected); _CMP_FIELD (a, b, mtu); _CMP_FIELD_BOOL (a, b, initialized); _CMP_FIELD (a, b, arptype); _CMP_FIELD (a, b, addr.len); _CMP_FIELD (a, b, inet6_addr_gen_mode_inv); _CMP_FIELD (a, b, inet6_token.is_valid); _CMP_FIELD_STR_INTERNED (a, b, kind); _CMP_FIELD_STR_INTERNED (a, b, driver); if (a->addr.len) _CMP_FIELD_MEMCMP_LEN (a, b, addr.data, a->addr.len); if (a->inet6_token.is_valid) _CMP_FIELD_MEMCMP (a, b, inet6_token.iid); return 0; } int nm_platform_lnk_gre_cmp (const NMPlatformLnkGre *a, const NMPlatformLnkGre *b) { _CMP_SELF (a, b); _CMP_FIELD (a, b, parent_ifindex); _CMP_FIELD (a, b, input_flags); _CMP_FIELD (a, b, output_flags); _CMP_FIELD (a, b, input_key); _CMP_FIELD (a, b, output_key); _CMP_FIELD (a, b, local); _CMP_FIELD (a, b, remote); _CMP_FIELD (a, b, ttl); _CMP_FIELD (a, b, tos); _CMP_FIELD_BOOL (a, b, path_mtu_discovery); return 0; } int nm_platform_lnk_infiniband_cmp (const NMPlatformLnkInfiniband *a, const NMPlatformLnkInfiniband *b) { _CMP_SELF (a, b); _CMP_FIELD (a, b, p_key); _CMP_FIELD_STR_INTERNED (a, b, mode); return 0; } int nm_platform_lnk_ip6tnl_cmp (const NMPlatformLnkIp6Tnl *a, const NMPlatformLnkIp6Tnl *b) { _CMP_SELF (a, b); _CMP_FIELD (a, b, parent_ifindex); _CMP_FIELD_MEMCMP (a, b, local); _CMP_FIELD_MEMCMP (a, b, remote); _CMP_FIELD (a, b, ttl); _CMP_FIELD (a, b, tclass); _CMP_FIELD (a, b, encap_limit); _CMP_FIELD (a, b, flow_label); _CMP_FIELD (a, b, proto); return 0; } int nm_platform_lnk_ipip_cmp (const NMPlatformLnkIpIp *a, const NMPlatformLnkIpIp *b) { _CMP_SELF (a, b); _CMP_FIELD (a, b, parent_ifindex); _CMP_FIELD (a, b, local); _CMP_FIELD (a, b, remote); _CMP_FIELD (a, b, ttl); _CMP_FIELD (a, b, tos); _CMP_FIELD_BOOL (a, b, path_mtu_discovery); return 0; } int nm_platform_lnk_macvlan_cmp (const NMPlatformLnkMacvlan *a, const NMPlatformLnkMacvlan *b) { _CMP_SELF (a, b); _CMP_FIELD (a, b, mode); _CMP_FIELD_BOOL (a, b, no_promisc); return 0; } int nm_platform_lnk_sit_cmp (const NMPlatformLnkSit *a, const NMPlatformLnkSit *b) { _CMP_SELF (a, b); _CMP_FIELD (a, b, parent_ifindex); _CMP_FIELD (a, b, local); _CMP_FIELD (a, b, remote); _CMP_FIELD (a, b, ttl); _CMP_FIELD (a, b, tos); _CMP_FIELD_BOOL (a, b, path_mtu_discovery); _CMP_FIELD (a, b, flags); _CMP_FIELD (a, b, proto); return 0; } int nm_platform_lnk_vlan_cmp (const NMPlatformLnkVlan *a, const NMPlatformLnkVlan *b) { _CMP_SELF (a, b); _CMP_FIELD (a, b, id); _CMP_FIELD (a, b, flags); return 0; } int nm_platform_lnk_vxlan_cmp (const NMPlatformLnkVxlan *a, const NMPlatformLnkVxlan *b) { _CMP_SELF (a, b); _CMP_FIELD (a, b, parent_ifindex); _CMP_FIELD (a, b, id); _CMP_FIELD (a, b, group); _CMP_FIELD (a, b, local); _CMP_FIELD_MEMCMP (a, b, group6); _CMP_FIELD_MEMCMP (a, b, local6); _CMP_FIELD (a, b, tos); _CMP_FIELD (a, b, ttl); _CMP_FIELD_BOOL (a, b, learning); _CMP_FIELD (a, b, ageing); _CMP_FIELD (a, b, limit); _CMP_FIELD (a, b, dst_port); _CMP_FIELD (a, b, src_port_min); _CMP_FIELD (a, b, src_port_max); _CMP_FIELD_BOOL (a, b, proxy); _CMP_FIELD_BOOL (a, b, rsc); _CMP_FIELD_BOOL (a, b, l2miss); _CMP_FIELD_BOOL (a, b, l3miss); return 0; } int nm_platform_ip4_address_cmp (const NMPlatformIP4Address *a, const NMPlatformIP4Address *b) { _CMP_SELF (a, b); _CMP_FIELD (a, b, ifindex); _CMP_FIELD (a, b, source); _CMP_FIELD (a, b, address); _CMP_FIELD (a, b, plen); _CMP_FIELD (a, b, peer_address); _CMP_FIELD (a, b, timestamp); _CMP_FIELD (a, b, lifetime); _CMP_FIELD (a, b, preferred); _CMP_FIELD_STR (a, b, label); return 0; } int nm_platform_ip6_address_cmp (const NMPlatformIP6Address *a, const NMPlatformIP6Address *b) { const struct in6_addr *p_a, *p_b; _CMP_SELF (a, b); _CMP_FIELD (a, b, ifindex); _CMP_FIELD (a, b, source); _CMP_FIELD_MEMCMP (a, b, address); p_a = nm_platform_ip6_address_get_peer (a); p_b = nm_platform_ip6_address_get_peer (b); _CMP_DIRECT_MEMCMP (p_a, p_b, sizeof (*p_a)); _CMP_FIELD (a, b, plen); _CMP_FIELD (a, b, timestamp); _CMP_FIELD (a, b, lifetime); _CMP_FIELD (a, b, preferred); _CMP_FIELD (a, b, flags); return 0; } int nm_platform_ip4_route_cmp (const NMPlatformIP4Route *a, const NMPlatformIP4Route *b) { _CMP_SELF (a, b); _CMP_FIELD (a, b, ifindex); _CMP_FIELD (a, b, source); _CMP_FIELD (a, b, network); _CMP_FIELD (a, b, plen); _CMP_FIELD (a, b, gateway); _CMP_FIELD (a, b, metric); _CMP_FIELD (a, b, mss); _CMP_FIELD (a, b, scope_inv); _CMP_FIELD (a, b, pref_src); return 0; } int nm_platform_ip6_route_cmp (const NMPlatformIP6Route *a, const NMPlatformIP6Route *b) { _CMP_SELF (a, b); _CMP_FIELD (a, b, ifindex); _CMP_FIELD (a, b, source); _CMP_FIELD_MEMCMP (a, b, network); _CMP_FIELD (a, b, plen); _CMP_FIELD_MEMCMP (a, b, gateway); _CMP_FIELD (a, b, metric); _CMP_FIELD (a, b, mss); 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; _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 /* liftime==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; } 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) { _LOGD ("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) { _LOGD ("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) { _LOGD ("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) { _LOGD ("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) { _LOGD ("signal: route 6 %7s: %s", nm_platform_signal_change_type_to_string (change_type), nm_platform_ip6_route_to_string (route, NULL, 0)); } /******************************************************************/ NMPNetns * nm_platform_netns_get (NMPlatform *self) { _CHECK_SELF (self, klass, NULL); return self->_netns; } gboolean nm_platform_netns_push (NMPlatform *platform, NMPNetns **netns) { g_return_val_if_fail (NM_IS_PLATFORM (platform), FALSE); g_return_val_if_fail (!netns || !*netns, FALSE); if ( platform->_netns && !nmp_netns_push (platform->_netns)) return FALSE; NM_SET_OUT (netns, platform->_netns); return TRUE; } /******************************************************************/ static gboolean _vtr_v4_route_add (NMPlatform *self, int ifindex, const NMPlatformIPXRoute *route, gint64 metric) { return nm_platform_ip4_route_add (self, ifindex > 0 ? ifindex : route->rx.ifindex, route->rx.source, route->r4.network, route->rx.plen, route->r4.gateway, route->r4.pref_src, metric >= 0 ? (guint32) metric : route->rx.metric, route->rx.mss); } static gboolean _vtr_v6_route_add (NMPlatform *self, int ifindex, const NMPlatformIPXRoute *route, gint64 metric) { return nm_platform_ip6_route_add (self, ifindex > 0 ? ifindex : route->rx.ifindex, route->rx.source, route->r6.network, route->rx.plen, route->r6.gateway, metric >= 0 ? (guint32) metric : route->rx.metric, route->rx.mss); } static gboolean _vtr_v4_route_delete (NMPlatform *self, int ifindex, const NMPlatformIPXRoute *route) { return nm_platform_ip4_route_delete (self, ifindex > 0 ? ifindex : route->rx.ifindex, route->r4.network, route->rx.plen, route->rx.metric); } static gboolean _vtr_v6_route_delete (NMPlatform *self, int ifindex, const NMPlatformIPXRoute *route) { return nm_platform_ip6_route_delete (self, ifindex > 0 ? ifindex : route->rx.ifindex, route->r6.network, route->rx.plen, route->rx.metric); } static guint32 _vtr_v4_metric_normalize (guint32 metric) { return metric; } static gboolean _vtr_v4_route_delete_default (NMPlatform *self, int ifindex, guint32 metric) { return nm_platform_ip4_route_delete (self, ifindex, 0, 0, metric); } static gboolean _vtr_v6_route_delete_default (NMPlatform *self, int ifindex, guint32 metric) { return nm_platform_ip6_route_delete (self, ifindex, in6addr_any, 0, metric); } /******************************************************************/ const NMPlatformVTableRoute nm_platform_vtable_route_v4 = { .is_ip4 = TRUE, .addr_family = AF_INET, .sizeof_route = sizeof (NMPlatformIP4Route), .route_cmp = (int (*) (const NMPlatformIPXRoute *a, const NMPlatformIPXRoute *b)) nm_platform_ip4_route_cmp, .route_to_string = (const char *(*) (const NMPlatformIPXRoute *route, char *buf, gsize len)) nm_platform_ip4_route_to_string, .route_get_all = nm_platform_ip4_route_get_all, .route_add = _vtr_v4_route_add, .route_delete = _vtr_v4_route_delete, .route_delete_default = _vtr_v4_route_delete_default, .metric_normalize = _vtr_v4_metric_normalize, }; const NMPlatformVTableRoute nm_platform_vtable_route_v6 = { .is_ip4 = FALSE, .addr_family = AF_INET6, .sizeof_route = sizeof (NMPlatformIP6Route), .route_cmp = (int (*) (const NMPlatformIPXRoute *a, const NMPlatformIPXRoute *b)) nm_platform_ip6_route_cmp, .route_to_string = (const char *(*) (const NMPlatformIPXRoute *route, char *buf, gsize len)) nm_platform_ip6_route_to_string, .route_get_all = nm_platform_ip6_route_get_all, .route_add = _vtr_v6_route_add, .route_delete = _vtr_v6_route_delete, .route_delete_default = _vtr_v6_route_delete_default, .metric_normalize = nm_utils_ip6_route_metric_normalize, }; /******************************************************************/ static void set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { NMPlatformPrivate *priv = NM_PLATFORM_GET_PRIVATE (object); switch (prop_id) { case PROP_REGISTER_SINGLETON: /* construct-only */ priv->register_singleton = g_value_get_boolean (value); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); break; } } static void constructed (GObject *object) { NMPlatform *self = NM_PLATFORM (object); NMPlatformPrivate *priv = NM_PLATFORM_GET_PRIVATE (self); G_OBJECT_CLASS (nm_platform_parent_class)->constructed (object); if (priv->register_singleton) nm_platform_setup (self); } static void nm_platform_init (NMPlatform *object) { NMPlatform *self = NM_PLATFORM (object); NMPNetns *netns; netns = nmp_netns_get_current (); if (netns) self->_netns = nmp_netns_ref (netns); } static void finalize (GObject *object) { NMPlatform *self = NM_PLATFORM (object); nmp_netns_unref (self->_netns); } 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->set_property = set_property; object_class->constructed = constructed; object_class->finalize = finalize; platform_class->wifi_set_powersave = wifi_set_powersave; g_object_class_install_property (object_class, PROP_REGISTER_SINGLETON, g_param_spec_boolean (NM_PLATFORM_REGISTER_SINGLETON, "", "", FALSE, 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, NM_TYPE_POBJECT_TYPE, G_TYPE_INT, G_TYPE_POINTER, NM_TYPE_PLATFORM_SIGNAL_CHANGE_TYPE); \ } 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); }