/* SPDX-License-Identifier: GPL-2.0-or-later */
/*
* Copyright (C) 2004 - 2016 Red Hat, Inc.
* Copyright (C) 2005 - 2008 Novell, Inc.
*/
#include "src/core/nm-default-daemon.h"
#include "NetworkManagerUtils.h"
#include <linux/fib_rules.h>
#include <linux/pkt_sched.h>
#include <linux/if_ether.h>
#include "nm-glib-aux/nm-c-list.h"
#include "nm-libnm-core-intern/nm-common-macros.h"
#include "nm-utils.h"
#include "nm-setting-connection.h"
#include "nm-setting-ip4-config.h"
#include "nm-setting-ip6-config.h"
#include "nm-core-internal.h"
#include "platform/nmp-object.h"
#include "platform/nm-platform.h"
#include "nm-auth-utils.h"
#include "systemd/nm-sd-utils-shared.h"
/*****************************************************************************/
/**
* nm_utils_get_shared_wifi_permission:
* @connection: the NMConnection to lookup the permission.
*
* Returns: a static string of the wifi-permission (if any) or %NULL.
*/
const char *
nm_utils_get_shared_wifi_permission(NMConnection *connection)
{
NMSettingWireless * s_wifi;
NMSettingWirelessSecurity *s_wsec;
const char * method;
method = nm_utils_get_ip_config_method(connection, AF_INET);
if (!nm_streq(method, NM_SETTING_IP4_CONFIG_METHOD_SHARED))
return NULL;
s_wifi = nm_connection_get_setting_wireless(connection);
if (s_wifi) {
s_wsec = nm_connection_get_setting_wireless_security(connection);
if (s_wsec)
return NM_AUTH_PERMISSION_WIFI_SHARE_PROTECTED;
else
return NM_AUTH_PERMISSION_WIFI_SHARE_OPEN;
}
return NULL;
}
/*****************************************************************************/
static char *
get_new_connection_name(NMConnection *const *existing_connections,
const char * preferred,
const char * fallback_prefix)
{
gs_free const char **existing_names = NULL;
guint i, existing_len = 0;
g_assert(fallback_prefix);
if (existing_connections) {
existing_len = NM_PTRARRAY_LEN(existing_connections);
existing_names = g_new(const char *, existing_len);
for (i = 0; i < existing_len; i++) {
NMConnection *candidate;
const char * id;
candidate = existing_connections[i];
nm_assert(NM_IS_CONNECTION(candidate));
id = nm_connection_get_id(candidate);
nm_assert(id);
existing_names[i] = id;
if (preferred && nm_streq(preferred, id)) {
/* the preferred name is already taken. Forget about it. */
preferred = NULL;
}
}
nm_assert(!existing_connections[i]);
}
/* Return the preferred name if it was unique */
if (preferred)
return g_strdup(preferred);
/* Otherwise, find the next available unique connection name using the given
* connection name template.
*/
for (i = 1; TRUE; i++) {
char *temp;
/* TRANSLATORS: the first %s is a prefix for the connection id, such
* as "Wired Connection" or "VPN Connection". The %d is a number
* that is combined with the first argument to create a unique
* connection id. */
temp = g_strdup_printf(C_("connection id fallback", "%s %u"), fallback_prefix, i);
if (nm_utils_strv_find_first((char **) existing_names, existing_len, temp) < 0)
return temp;
g_free(temp);
}
}
static char *
get_new_connection_ifname(NMPlatform * platform,
NMConnection *const *existing_connections,
const char * prefix)
{
guint i, j;
for (i = 0; TRUE; i++) {
char *name;
name = g_strdup_printf("%s%d", prefix, i);
if (nm_platform_link_get_by_ifname(platform, name))
goto next;
if (existing_connections) {
for (j = 0; existing_connections[j]; j++) {
if (nm_streq0(nm_connection_get_interface_name(existing_connections[j]), name))
goto next;
}
}
return name;
next:
g_free(name);
}
}
const char *
nm_utils_get_ip_config_method(NMConnection *connection, int addr_family)
{
NMSettingConnection *s_con;
NMSettingIPConfig * s_ip;
const char * method;
s_con = nm_connection_get_setting_connection(connection);
if (NM_IS_IPv4(addr_family)) {
g_return_val_if_fail(s_con != NULL, NM_SETTING_IP4_CONFIG_METHOD_AUTO);
s_ip = nm_connection_get_setting_ip4_config(connection);
if (!s_ip)
return NM_SETTING_IP4_CONFIG_METHOD_DISABLED;
method = nm_setting_ip_config_get_method(s_ip);
g_return_val_if_fail(method != NULL, NM_SETTING_IP4_CONFIG_METHOD_AUTO);
return method;
}
g_return_val_if_fail(s_con != NULL, NM_SETTING_IP6_CONFIG_METHOD_AUTO);
s_ip = nm_connection_get_setting_ip6_config(connection);
if (!s_ip)
return NM_SETTING_IP6_CONFIG_METHOD_IGNORE;
method = nm_setting_ip_config_get_method(s_ip);
g_return_val_if_fail(method != NULL, NM_SETTING_IP6_CONFIG_METHOD_AUTO);
return method;
}
gboolean
nm_utils_connection_has_default_route(NMConnection *connection,
int addr_family,
gboolean * out_is_never_default)
{
const char * method;
NMSettingIPConfig *s_ip;
gboolean is_never_default = FALSE;
gboolean has_default_route = FALSE;
g_return_val_if_fail(NM_IS_CONNECTION(connection), FALSE);
g_return_val_if_fail(NM_IN_SET(addr_family, AF_INET, AF_INET6), FALSE);
if (!connection)
goto out;
s_ip = nm_connection_get_setting_ip_config(connection, addr_family);
if (!s_ip)
goto out;
if (nm_setting_ip_config_get_never_default(s_ip)) {
is_never_default = TRUE;
goto out;
}
method = nm_utils_get_ip_config_method(connection, addr_family);
if (NM_IS_IPv4(addr_family)) {
if (NM_IN_STRSET(method,
NM_SETTING_IP4_CONFIG_METHOD_DISABLED,
NM_SETTING_IP4_CONFIG_METHOD_LINK_LOCAL))
goto out;
} else {
if (NM_IN_STRSET(method,
NM_SETTING_IP6_CONFIG_METHOD_IGNORE,
NM_SETTING_IP6_CONFIG_METHOD_DISABLED,
NM_SETTING_IP6_CONFIG_METHOD_LINK_LOCAL))
goto out;
}
has_default_route = TRUE;
out:
NM_SET_OUT(out_is_never_default, is_never_default);
return has_default_route;
}
/*****************************************************************************/
void
nm_utils_complete_generic(NMPlatform * platform,
NMConnection * connection,
const char * ctype,
NMConnection *const *existing_connections,
const char * preferred_id,
const char * fallback_id_prefix,
const char * ifname_prefix,
const char * ifname,
gboolean default_enable_ipv6)
{
NMSettingConnection *s_con;
char * id, *generated_ifname;
GHashTable * parameters;
g_assert(fallback_id_prefix);
g_return_if_fail(ifname_prefix == NULL || ifname == NULL);
s_con = nm_connection_get_setting_connection(connection);
if (!s_con) {
s_con = (NMSettingConnection *) nm_setting_connection_new();
nm_connection_add_setting(connection, NM_SETTING(s_con));
}
g_object_set(G_OBJECT(s_con), NM_SETTING_CONNECTION_TYPE, ctype, NULL);
if (!nm_setting_connection_get_uuid(s_con)) {
char uuid[37];
g_object_set(G_OBJECT(s_con),
NM_SETTING_CONNECTION_UUID,
nm_utils_uuid_generate_buf(uuid),
NULL);
}
/* Add a connection ID if absent */
if (!nm_setting_connection_get_id(s_con)) {
id = get_new_connection_name(existing_connections, preferred_id, fallback_id_prefix);
g_object_set(G_OBJECT(s_con), NM_SETTING_CONNECTION_ID, id, NULL);
g_free(id);
}
/* Add an interface name, if requested */
if (ifname) {
g_object_set(G_OBJECT(s_con), NM_SETTING_CONNECTION_INTERFACE_NAME, ifname, NULL);
} else if (ifname_prefix && !nm_setting_connection_get_interface_name(s_con)) {
generated_ifname = get_new_connection_ifname(platform, existing_connections, ifname_prefix);
g_object_set(G_OBJECT(s_con), NM_SETTING_CONNECTION_INTERFACE_NAME, generated_ifname, NULL);
g_free(generated_ifname);
}
/* Normalize */
parameters = g_hash_table_new(nm_str_hash, g_str_equal);
g_hash_table_insert(parameters,
NM_CONNECTION_NORMALIZE_PARAM_IP6_CONFIG_METHOD,
default_enable_ipv6 ? NM_SETTING_IP6_CONFIG_METHOD_AUTO
: NM_SETTING_IP6_CONFIG_METHOD_IGNORE);
nm_connection_normalize(connection, parameters, NULL, NULL);
g_hash_table_destroy(parameters);
}
/*****************************************************************************/
static GHashTable *
check_property_in_hash(GHashTable *hash, const char *s_name, const char *p_name)
{
GHashTable *props;
props = g_hash_table_lookup(hash, s_name);
if (!props || !g_hash_table_lookup(props, p_name)) {
return NULL;
}
return props;
}
static void
remove_from_hash(GHashTable *s_hash, GHashTable *p_hash, const char *s_name, const char *p_name)
{
if (!p_hash)
return;
g_hash_table_remove(p_hash, p_name);
if (g_hash_table_size(p_hash) == 0)
g_hash_table_remove(s_hash, s_name);
}
static gboolean
check_ip6_method(NMConnection *orig, NMConnection *candidate, GHashTable *settings)
{
GHashTable * props;
const char * orig_ip6_method, *candidate_ip6_method;
NMSettingIPConfig *candidate_ip6;
gboolean allow = FALSE;
props = check_property_in_hash(settings,
NM_SETTING_IP6_CONFIG_SETTING_NAME,
NM_SETTING_IP_CONFIG_METHOD);
if (!props)
return TRUE;
orig_ip6_method = nm_utils_get_ip_config_method(orig, AF_INET6);
candidate_ip6_method = nm_utils_get_ip_config_method(candidate, AF_INET6);
candidate_ip6 = nm_connection_get_setting_ip6_config(candidate);
if (nm_streq(orig_ip6_method, NM_SETTING_IP6_CONFIG_METHOD_LINK_LOCAL)
&& nm_streq(candidate_ip6_method, NM_SETTING_IP6_CONFIG_METHOD_AUTO)
&& (!candidate_ip6 || nm_setting_ip_config_get_may_fail(candidate_ip6))) {
/* If the generated connection is 'link-local' and the candidate is both 'auto'
* and may-fail=TRUE, then the candidate is OK to use. may-fail is included
* in the decision because if the candidate is 'auto' but may-fail=FALSE, then
* the connection could not possibly have been previously activated on the
* device if the device has no non-link-local IPv6 address.
*/
allow = TRUE;
} else if (NM_IN_STRSET(orig_ip6_method,
NM_SETTING_IP6_CONFIG_METHOD_LINK_LOCAL,
NM_SETTING_IP6_CONFIG_METHOD_DISABLED,
NM_SETTING_IP6_CONFIG_METHOD_AUTO)
&& nm_streq0(candidate_ip6_method, NM_SETTING_IP6_CONFIG_METHOD_IGNORE)) {
/* If the generated connection method is 'link-local', disabled' or 'auto' and
* the candidate method is 'ignore' we can take the connection, because NM didn't
* simply take care of IPv6.
*/
allow = TRUE;
}
if (allow) {
remove_from_hash(settings,
props,
NM_SETTING_IP6_CONFIG_SETTING_NAME,
NM_SETTING_IP_CONFIG_METHOD);
}
return allow;
}
static int
route_compare(NMIPRoute *route1, NMIPRoute *route2, gint64 default_metric)
{
NMIPAddr a1;
NMIPAddr a2;
guint64 m1;
guint64 m2;
int family;
guint plen;
family = nm_ip_route_get_family(route1);
NM_CMP_DIRECT(family, nm_ip_route_get_family(route2));
nm_assert_addr_family(family);
plen = nm_ip_route_get_prefix(route1);
NM_CMP_DIRECT(plen, nm_ip_route_get_prefix(route2));
m1 = nm_ip_route_get_metric(route1);
m2 = nm_ip_route_get_metric(route2);
NM_CMP_DIRECT(m1 == -1 ? default_metric : m1, m2 == -1 ? default_metric : m2);
NM_CMP_DIRECT_STRCMP0(nm_ip_route_get_next_hop(route1), nm_ip_route_get_next_hop(route2));
if (!inet_pton(family, nm_ip_route_get_dest(route1), &a1))
nm_assert_not_reached();
if (!inet_pton(family, nm_ip_route_get_dest(route2), &a2))
nm_assert_not_reached();
nm_utils_ipx_address_clear_host_address(family, &a1, NULL, plen);
nm_utils_ipx_address_clear_host_address(family, &a2, NULL, plen);
NM_CMP_DIRECT_MEMCMP(&a1, &a2, nm_utils_addr_family_to_size(family));
return 0;
}
static int
route_ptr_compare(const void *a, const void *b, gpointer metric)
{
return route_compare(*(NMIPRoute **) a, *(NMIPRoute **) b, *((gint64 *) metric));
}
static gboolean
check_ip_routes(NMConnection *orig,
NMConnection *candidate,
GHashTable * settings,
gint64 default_metric,
gboolean v4)
{
gs_free NMIPRoute **routes1 = NULL;
NMIPRoute ** routes2;
NMSettingIPConfig * s_ip1, *s_ip2;
gint64 m;
const char * s_name;
GHashTable * props;
guint i, i1, i2, num1, num2;
const guint8 PLEN = v4 ? 32 : 128;
s_name = v4 ? NM_SETTING_IP4_CONFIG_SETTING_NAME : NM_SETTING_IP6_CONFIG_SETTING_NAME;
props = check_property_in_hash(settings, s_name, NM_SETTING_IP_CONFIG_ROUTES);
if (!props)
return TRUE;
s_ip1 = (NMSettingIPConfig *) nm_connection_get_setting_by_name(orig, s_name);
s_ip2 = (NMSettingIPConfig *) nm_connection_get_setting_by_name(candidate, s_name);
if (!s_ip1 || !s_ip2)
return FALSE;
num1 = nm_setting_ip_config_get_num_routes(s_ip1);
num2 = nm_setting_ip_config_get_num_routes(s_ip2);
routes1 = g_new(NMIPRoute *, (gsize) num1 + num2);
routes2 = &routes1[num1];
for (i = 0; i < num1; i++)
routes1[i] = nm_setting_ip_config_get_route(s_ip1, i);
for (i = 0; i < num2; i++)
routes2[i] = nm_setting_ip_config_get_route(s_ip2, i);
m = nm_setting_ip_config_get_route_metric(s_ip2);
if (m != -1)
default_metric = m;
g_qsort_with_data(routes1, num1, sizeof(NMIPRoute *), route_ptr_compare, &default_metric);
g_qsort_with_data(routes2, num2, sizeof(NMIPRoute *), route_ptr_compare, &default_metric);
for (i1 = 0, i2 = 0; i2 < num2; i1++) {
if (i1 >= num1)
return FALSE;
if (route_compare(routes1[i1], routes2[i2], default_metric) == 0) {
i2++;
continue;
}
/* if @orig (@routes1) contains /32 routes that are missing in @candidate,
* we accept that.
*
* A /32 may have been added automatically, as a direct-route to the gateway.
* The generated connection (@orig) would contain that route, so we shall ignore
* it.
*
* Likeweise for /128 for IPv6. */
if (nm_ip_route_get_prefix(routes1[i1]) == PLEN)
continue;
return FALSE;
}
/* check that @orig has no left-over (except host routes that we ignore). */
for (; i1 < num1; i1++) {
if (nm_ip_route_get_prefix(routes1[i1]) != PLEN)
return FALSE;
}
remove_from_hash(settings, props, s_name, NM_SETTING_IP_CONFIG_ROUTES);
return TRUE;
}
static gboolean
check_ip4_method(NMConnection *orig,
NMConnection *candidate,
GHashTable * settings,
gboolean device_has_carrier)
{
GHashTable * props;
const char * orig_ip4_method, *candidate_ip4_method;
NMSettingIPConfig *candidate_ip4;
props = check_property_in_hash(settings,
NM_SETTING_IP4_CONFIG_SETTING_NAME,
NM_SETTING_IP_CONFIG_METHOD);
if (!props)
return TRUE;
orig_ip4_method = nm_utils_get_ip_config_method(orig, AF_INET);
candidate_ip4_method = nm_utils_get_ip_config_method(candidate, AF_INET);
candidate_ip4 = nm_connection_get_setting_ip4_config(candidate);
if (nm_streq(orig_ip4_method, NM_SETTING_IP4_CONFIG_METHOD_DISABLED)
&& nm_streq(candidate_ip4_method, NM_SETTING_IP4_CONFIG_METHOD_AUTO)
&& (!candidate_ip4 || nm_setting_ip_config_get_may_fail(candidate_ip4))
&& !device_has_carrier) {
/* If the generated connection is 'disabled' (device had no IP addresses)
* but it has no carrier, that most likely means that IP addressing could
* not complete and thus no IP addresses were assigned. In that case, allow
* matching to the "auto" method.
*/
remove_from_hash(settings,
props,
NM_SETTING_IP4_CONFIG_SETTING_NAME,
NM_SETTING_IP_CONFIG_METHOD);
return TRUE;
}
return FALSE;
}
static gboolean
check_connection_interface_name(NMConnection *orig, NMConnection *candidate, GHashTable *settings)
{
GHashTable * props;
const char * orig_ifname, *cand_ifname;
NMSettingConnection *s_con_orig, *s_con_cand;
props = check_property_in_hash(settings,
NM_SETTING_CONNECTION_SETTING_NAME,
NM_SETTING_CONNECTION_INTERFACE_NAME);
if (!props)
return TRUE;
/* If one of the interface names is NULL, we accept that connection */
s_con_orig = nm_connection_get_setting_connection(orig);
s_con_cand = nm_connection_get_setting_connection(candidate);
orig_ifname = nm_setting_connection_get_interface_name(s_con_orig);
cand_ifname = nm_setting_connection_get_interface_name(s_con_cand);
if (!orig_ifname || !cand_ifname) {
remove_from_hash(settings,
props,
NM_SETTING_CONNECTION_SETTING_NAME,
NM_SETTING_CONNECTION_INTERFACE_NAME);
return TRUE;
}
return FALSE;
}
static gboolean
check_connection_mac_address(NMConnection *orig, NMConnection *candidate, GHashTable *settings)
{
GHashTable * props;
const char * orig_mac = NULL, *cand_mac = NULL;
NMSettingWired *s_wired_orig, *s_wired_cand;
props = check_property_in_hash(settings,
NM_SETTING_WIRED_SETTING_NAME,
NM_SETTING_WIRED_MAC_ADDRESS);
if (!props)
return TRUE;
/* If one of the MAC addresses is NULL, we accept that connection */
s_wired_orig = nm_connection_get_setting_wired(orig);
if (s_wired_orig)
orig_mac = nm_setting_wired_get_mac_address(s_wired_orig);
s_wired_cand = nm_connection_get_setting_wired(candidate);
if (s_wired_cand)
cand_mac = nm_setting_wired_get_mac_address(s_wired_cand);
if (!orig_mac || !cand_mac) {
remove_from_hash(settings,
props,
NM_SETTING_WIRED_SETTING_NAME,
NM_SETTING_WIRED_MAC_ADDRESS);
return TRUE;
}
return FALSE;
}
static gboolean
check_connection_infiniband_mac_address(NMConnection *orig,
NMConnection *candidate,
GHashTable * settings)
{
GHashTable * props;
const char * orig_mac = NULL, *cand_mac = NULL;
NMSettingInfiniband *s_infiniband_orig, *s_infiniband_cand;
props = check_property_in_hash(settings,
NM_SETTING_INFINIBAND_SETTING_NAME,
NM_SETTING_INFINIBAND_MAC_ADDRESS);
if (!props)
return TRUE;
/* If one of the MAC addresses is NULL, we accept that connection */
s_infiniband_orig = nm_connection_get_setting_infiniband(orig);
if (s_infiniband_orig)
orig_mac = nm_setting_infiniband_get_mac_address(s_infiniband_orig);
s_infiniband_cand = nm_connection_get_setting_infiniband(candidate);
if (s_infiniband_cand)
cand_mac = nm_setting_infiniband_get_mac_address(s_infiniband_cand);
if (!orig_mac || !cand_mac) {
remove_from_hash(settings,
props,
NM_SETTING_INFINIBAND_SETTING_NAME,
NM_SETTING_INFINIBAND_MAC_ADDRESS);
return TRUE;
}
return FALSE;
}
static gboolean
check_connection_cloned_mac_address(NMConnection *orig,
NMConnection *candidate,
GHashTable * settings)
{
GHashTable * props;
const char * orig_mac = NULL, *cand_mac = NULL;
NMSettingWired *s_wired_orig, *s_wired_cand;
props = check_property_in_hash(settings,
NM_SETTING_WIRED_SETTING_NAME,
NM_SETTING_WIRED_CLONED_MAC_ADDRESS);
if (!props)
return TRUE;
/* If one of the MAC addresses is NULL, we accept that connection */
s_wired_orig = nm_connection_get_setting_wired(orig);
if (s_wired_orig)
orig_mac = nm_setting_wired_get_cloned_mac_address(s_wired_orig);
s_wired_cand = nm_connection_get_setting_wired(candidate);
if (s_wired_cand)
cand_mac = nm_setting_wired_get_cloned_mac_address(s_wired_cand);
/* special cloned mac address entries are accepted. */
if (NM_CLONED_MAC_IS_SPECIAL(orig_mac))
orig_mac = NULL;
if (NM_CLONED_MAC_IS_SPECIAL(cand_mac))
cand_mac = NULL;
if (!orig_mac || !cand_mac) {
remove_from_hash(settings,
props,
NM_SETTING_WIRED_SETTING_NAME,
NM_SETTING_WIRED_CLONED_MAC_ADDRESS);
return TRUE;
}
return FALSE;
}
static gboolean
check_connection_s390_props(NMConnection *orig, NMConnection *candidate, GHashTable *settings)
{
GHashTable * props1, *props2, *props3;
NMSettingWired *s_wired_orig, *s_wired_cand;
props1 = check_property_in_hash(settings,
NM_SETTING_WIRED_SETTING_NAME,
NM_SETTING_WIRED_S390_SUBCHANNELS);
props2 = check_property_in_hash(settings,
NM_SETTING_WIRED_SETTING_NAME,
NM_SETTING_WIRED_S390_NETTYPE);
props3 = check_property_in_hash(settings,
NM_SETTING_WIRED_SETTING_NAME,
NM_SETTING_WIRED_S390_OPTIONS);
if (!props1 && !props2 && !props3)
return TRUE;
/* If the generated connection did not contain wired setting,
* allow it to match to a connection with a wired setting,
* but default (empty) s390-* properties */
s_wired_orig = nm_connection_get_setting_wired(orig);
s_wired_cand = nm_connection_get_setting_wired(candidate);
if (!s_wired_orig && s_wired_cand) {
const char *const *subchans = nm_setting_wired_get_s390_subchannels(s_wired_cand);
const char * nettype = nm_setting_wired_get_s390_nettype(s_wired_cand);
guint32 num_options = nm_setting_wired_get_num_s390_options(s_wired_cand);
if ((!subchans || !*subchans) && !nettype && num_options == 0) {
remove_from_hash(settings,
props1,
NM_SETTING_WIRED_SETTING_NAME,
NM_SETTING_WIRED_S390_SUBCHANNELS);
remove_from_hash(settings,
props2,
NM_SETTING_WIRED_SETTING_NAME,
NM_SETTING_WIRED_S390_NETTYPE);
remove_from_hash(settings,
props3,
NM_SETTING_WIRED_SETTING_NAME,
NM_SETTING_WIRED_S390_OPTIONS);
return TRUE;
}
}
return FALSE;
}
static NMConnection *
check_possible_match(NMConnection *orig,
NMConnection *candidate,
GHashTable * settings,
gboolean device_has_carrier,
gint64 default_v4_metric,
gint64 default_v6_metric)
{
g_return_val_if_fail(settings != NULL, NULL);
if (!check_ip6_method(orig, candidate, settings))
return NULL;
if (!check_ip4_method(orig, candidate, settings, device_has_carrier))
return NULL;
if (!check_ip_routes(orig, candidate, settings, default_v4_metric, TRUE))
return NULL;
if (!check_ip_routes(orig, candidate, settings, default_v6_metric, FALSE))
return NULL;
if (!check_connection_interface_name(orig, candidate, settings))
return NULL;
if (!check_connection_mac_address(orig, candidate, settings))
return NULL;
if (!check_connection_infiniband_mac_address(orig, candidate, settings))
return NULL;
if (!check_connection_cloned_mac_address(orig, candidate, settings))
return NULL;
if (!check_connection_s390_props(orig, candidate, settings))
return NULL;
if (g_hash_table_size(settings) == 0)
return candidate;
else
return NULL;
}
/**
* nm_utils_match_connection:
* @connections: a (optionally pre-sorted) list of connections from which to
* find a matching connection to @original based on "inferrable" properties
* @original: the #NMConnection to find a match for from @connections
* @indicated: whether the match is already hinted/indicated. That is the
* case when we found the connection in the state file from a previous run.
* In this case, we perform a relexed check, as we have a good hint
* that the connection actually matches.
* @device_has_carrier: pass %TRUE if the device that generated @original has
* a carrier, %FALSE if not
* @match_filter_func: a function to check whether each connection from @connections
* should be considered for matching. This function should return %TRUE if the
* connection should be considered, %FALSE if the connection should be ignored
* @match_compat_data: data pointer passed to @match_filter_func
*
* Checks each connection from @connections until a matching connection is found
* considering only setting properties marked with %NM_SETTING_PARAM_INFERRABLE
* and checking a few other characteristics like IPv6 method. If the caller
* desires some priority order of the connections, @connections should be
* sorted before calling this function.
*
* Returns: the best #NMConnection matching @original, or %NULL if no connection
* matches well enough.
*/
NMConnection *
nm_utils_match_connection(NMConnection *const * connections,
NMConnection * original,
gboolean indicated,
gboolean device_has_carrier,
gint64 default_v4_metric,
gint64 default_v6_metric,
NMUtilsMatchFilterFunc match_filter_func,
gpointer match_filter_data)
{
NMConnection *best_match = NULL;
if (!connections)
return NULL;
for (; *connections; connections++) {
NMConnection *candidate = *connections;
GHashTable * diffs = NULL;
nm_assert(NM_IS_CONNECTION(candidate));
if (match_filter_func) {
if (!match_filter_func(candidate, match_filter_data))
continue;
}
if (indicated) {
NMSettingConnection *s_orig, *s_cand;
s_orig = nm_connection_get_setting_connection(original);
s_cand = nm_connection_get_setting_connection(candidate);
/* It is indicated that this connection matches. Assume we have
* a match, but check for particular differences that let us
* reject the candidate. */
if (!nm_streq0(nm_setting_connection_get_connection_type(s_orig),
nm_setting_connection_get_connection_type(s_cand)))
continue;
if (!nm_streq0(nm_setting_connection_get_slave_type(s_orig),
nm_setting_connection_get_slave_type(s_cand)))
continue;
/* this is good enough for a match */
} else if (!nm_connection_diff(original,
candidate,
NM_SETTING_COMPARE_FLAG_INFERRABLE,
&diffs)) {
if (!best_match) {
best_match = check_possible_match(original,
candidate,
diffs,
device_has_carrier,
default_v4_metric,
default_v6_metric);
}
if (!best_match && nm_logging_enabled(LOGL_DEBUG, LOGD_CORE)) {
GString * diff_string;
GHashTableIter s_iter, p_iter;
gpointer setting_name, setting;
gpointer property_name, value;
diff_string = g_string_new(NULL);
g_hash_table_iter_init(&s_iter, diffs);
while (g_hash_table_iter_next(&s_iter, &setting_name, &setting)) {
g_hash_table_iter_init(&p_iter, setting);
while (g_hash_table_iter_next(&p_iter, &property_name, &value)) {
if (diff_string->len)
g_string_append(diff_string, ", ");
g_string_append_printf(diff_string,
"%s.%s",
(char *) setting_name,
(char *) property_name);
}
}
nm_log_dbg(LOGD_CORE,
"Connection '%s' differs from candidate '%s' in %s",
nm_connection_get_id(original),
nm_connection_get_id(candidate),
diff_string->str);
g_string_free(diff_string, TRUE);
}
g_hash_table_unref(diffs);
continue;
}
/* Exact match */
return candidate;
}
/* Best match (if any) */
return best_match;
}
/*****************************************************************************/
int
nm_match_spec_device_by_pllink(const NMPlatformLink *pllink,
const char * match_device_type,
const char * match_dhcp_plugin,
const GSList * specs,
int no_match_value)
{
NMMatchSpecMatchType m;
/* we can only match by certain properties that are available on the
* platform link (and even @pllink might be missing.
*
* It's still useful because of specs like "*" and "except:interface-name:eth0",
* which match even in that case. */
m = nm_match_spec_device(specs,
pllink ? pllink->name : NULL,
match_device_type,
pllink ? pllink->driver : NULL,
NULL,
NULL,
NULL,
match_dhcp_plugin);
switch (m) {
case NM_MATCH_SPEC_MATCH:
return TRUE;
case NM_MATCH_SPEC_NEG_MATCH:
return FALSE;
case NM_MATCH_SPEC_NO_MATCH:
return no_match_value;
}
nm_assert_not_reached();
return no_match_value;
}
/*****************************************************************************/
NMPlatformRoutingRule *
nm_ip_routing_rule_to_platform(const NMIPRoutingRule *rule, NMPlatformRoutingRule *out_pl)
{
nm_assert(rule);
nm_assert(nm_ip_routing_rule_validate(rule, NULL));
nm_assert(out_pl);
*out_pl = (NMPlatformRoutingRule){
.addr_family = nm_ip_routing_rule_get_addr_family(rule),
.flags = (nm_ip_routing_rule_get_invert(rule) ? FIB_RULE_INVERT : 0),
.priority = nm_ip_routing_rule_get_priority(rule),
.tos = nm_ip_routing_rule_get_tos(rule),
.ip_proto = nm_ip_routing_rule_get_ipproto(rule),
.fwmark = nm_ip_routing_rule_get_fwmark(rule),
.fwmask = nm_ip_routing_rule_get_fwmask(rule),
.sport_range =
{
.start = nm_ip_routing_rule_get_source_port_start(rule),
.end = nm_ip_routing_rule_get_source_port_end(rule),
},
.dport_range =
{
.start = nm_ip_routing_rule_get_destination_port_start(rule),
.end = nm_ip_routing_rule_get_destination_port_end(rule),
},
.src = *(nm_ip_routing_rule_get_from_bin(rule) ?: &nm_ip_addr_zero),
.dst = *(nm_ip_routing_rule_get_to_bin(rule) ?: &nm_ip_addr_zero),
.src_len = nm_ip_routing_rule_get_from_len(rule),
.dst_len = nm_ip_routing_rule_get_to_len(rule),
.action = nm_ip_routing_rule_get_action(rule),
.table = nm_ip_routing_rule_get_table(rule),
.suppress_prefixlen_inverse =
~((guint32) nm_ip_routing_rule_get_suppress_prefixlength(rule)),
};
nm_ip_routing_rule_get_xifname_bin(rule, TRUE, out_pl->iifname);
nm_ip_routing_rule_get_xifname_bin(rule, FALSE, out_pl->oifname);
return out_pl;
}
/*****************************************************************************/
struct _NMShutdownWaitObjHandle {
CList lst;
gpointer watched_obj;
char * msg_reason;
bool free_msg_reason : 1;
bool is_cancellable : 1;
};
static CList _shutdown_waitobj_lst_head;
static void
_shutdown_waitobj_unregister(NMShutdownWaitObjHandle *handle)
{
c_list_unlink_stale(&handle->lst);
if (handle->free_msg_reason)
g_free(handle->msg_reason);
g_slice_free(NMShutdownWaitObjHandle, handle);
/* FIXME(shutdown): check whether the object list is empty, and
* signal shutdown-complete */
}
static void
_shutdown_waitobj_cb(gpointer user_data, GObject *where_the_object_was)
{
NMShutdownWaitObjHandle *handle = user_data;
nm_assert(handle);
nm_assert(handle->watched_obj == where_the_object_was);
_shutdown_waitobj_unregister(handle);
}
/**
* nm_shutdown_wait_obj_register_full:
* @watched_obj: the object to watch. Takes a weak reference on the object
* to be notified when it gets destroyed.
* If wait_type is %NM_SHUTDOWN_WAIT_TYPE_HANDLE, this must be %NULL.
* @wait_type: whether @watched_obj is just a plain GObject or a GCancellable
* that should be cancelled.
* @msg_reason: a reason message, for debugging and logging purposes.
* @free_msg_reason: if %TRUE, then ownership of @msg_reason will be taken
* and the string will be freed with g_free() afterwards. If %FALSE,
* the caller must ensure that @msg_reason string outlives the watched
* objects (e.g. being a static strings).
*
* Keep track of @watched_obj until it gets destroyed. During shutdown,
* we wait until all watched objects are destroyed. This is useful, if
* this object still conducts some asynchronous action, which needs to
* complete before NetworkManager is allowed to terminate. We re-use
* the reference-counter of @watched_obj as signal, that the object
* is still used.
*
* If @wait_type is %NM_SHUTDOWN_WAIT_TYPE_CANCELLABLE, then during shutdown
* (after %NM_SHUTDOWN_TIMEOUT_MS), the cancellable will be cancelled to notify
* the source of the shutdown. Note that otherwise, in this mode also @watched_obj
* is only tracked with a weak-pointer. Especially, it does not register to the
* "cancelled" signal to automatically unregister (otherwise, you would never
* know whether the returned NMShutdownWaitObjHandle is still valid.
*
* FIXME(shutdown): proper shutdown is not yet implemented, and registering
* an object (currently) has no effect.
*
* FIXME(shutdown): during shutdown, after %NM_SHUTDOWN_TIMEOUT_MS timeout, cancel
* all remaining %NM_SHUTDOWN_WAIT_TYPE_CANCELLABLE instances. Also, when somebody
* enqueues a cancellable after that point, cancel it right away on an idle handler.
*
* Returns: a handle to unregister the object. The caller may choose to ignore
* the handle, in which case, the object will be automatically unregistered,
* once it gets destroyed.
* Note that the handle is only valid as long as @watched_obj exists. If
* you plan to use it, ensure that you take care of not using it after
* destroying @watched_obj.
*/
NMShutdownWaitObjHandle *
nm_shutdown_wait_obj_register_full(gpointer watched_obj,
NMShutdownWaitType wait_type,
char * msg_reason,
gboolean free_msg_reason)
{
NMShutdownWaitObjHandle *handle;
if (wait_type == NM_SHUTDOWN_WAIT_TYPE_OBJECT)
g_return_val_if_fail(G_IS_OBJECT(watched_obj), NULL);
else if (wait_type == NM_SHUTDOWN_WAIT_TYPE_CANCELLABLE)
g_return_val_if_fail(G_IS_CANCELLABLE(watched_obj), NULL);
else if (wait_type == NM_SHUTDOWN_WAIT_TYPE_HANDLE)
g_return_val_if_fail(!watched_obj, NULL);
else
g_return_val_if_reached(NULL);
if (G_UNLIKELY(!_shutdown_waitobj_lst_head.next))
c_list_init(&_shutdown_waitobj_lst_head);
handle = g_slice_new(NMShutdownWaitObjHandle);
*handle = (NMShutdownWaitObjHandle){
/* depending on @free_msg_reason, we take ownership of @msg_reason.
* In either case, we just reference the string without cloning
* it. */
.watched_obj = watched_obj,
.msg_reason = msg_reason,
.free_msg_reason = free_msg_reason,
.is_cancellable = (wait_type == NM_SHUTDOWN_WAIT_TYPE_CANCELLABLE),
};
c_list_link_tail(&_shutdown_waitobj_lst_head, &handle->lst);
if (watched_obj)
g_object_weak_ref(watched_obj, _shutdown_waitobj_cb, handle);
return handle;
}
void
nm_shutdown_wait_obj_unregister(NMShutdownWaitObjHandle *handle)
{
g_return_if_fail(handle);
nm_assert(!handle->watched_obj || G_IS_OBJECT(handle->watched_obj));
nm_assert(nm_c_list_contains_entry(&_shutdown_waitobj_lst_head, handle, lst));
if (handle->watched_obj)
g_object_weak_unref(handle->watched_obj, _shutdown_waitobj_cb, handle);
_shutdown_waitobj_unregister(handle);
}
/*****************************************************************************/
/**
* nm_utils_file_is_in_path:
* @abs_filename: the absolute filename to test
* @abs_path: the absolute path, to check whether filename is in.
*
* This tests, whether @abs_filename is a file which lies inside @abs_path.
* Basically, this checks whether @abs_filename is the same as @abs_path +
* basename(@abs_filename). It allows simple normalizations, like coalescing
* multiple "//".
*
* However, beware that this function is purely filename based. That means,
* it will reject files that reference the same file (i.e. inode) via
* symlinks or bind mounts. Maybe one would like to check for file (inode)
* identity, but that is not really possible based on the file name alone.
*
* This means, that nm_utils_file_is_in_path("/var/run/some-file", "/var/run")
* will succeed, but nm_utils_file_is_in_path("/run/some-file", "/var/run")
* will not (although, it's well known that they reference the same path).
*
* Also, note that @abs_filename must not have trailing slashes itself.
* So, this will reject nm_utils_file_is_in_path("/usr/lib/", "/usr") as
* invalid, because the function searches for file names (and "lib/" is
* clearly a directory).
*
* Returns: if @abs_filename is a file inside @abs_path, returns the
* trailing part of @abs_filename which is the filename. Otherwise,
* %NULL.
*/
const char *
nm_utils_file_is_in_path(const char *abs_filename, const char *abs_path)
{
const char *path;
g_return_val_if_fail(abs_filename && abs_filename[0] == '/', NULL);
g_return_val_if_fail(abs_path && abs_path[0] == '/', NULL);
path = nm_sd_utils_path_startswith(abs_filename, abs_path);
if (!path)
return NULL;
nm_assert(path[0] != '/');
nm_assert(path > abs_filename);
nm_assert(path <= &abs_filename[strlen(abs_filename)]);
/* we require a non-empty remainder with no slashes. That is, only a filename.
*
* Note this will reject "/var/run/" as not being in "/var",
* while "/var/run" would pass. The function searches for files
* only, so a trailing slash (indicating a directory) is not allowed).
* This is despite that the function cannot determine whether "/var/run"
* is itself a file or a directory. "*/
return path[0] && !strchr(path, '/') ? path : NULL;
}
/* The returned qdisc array is valid as long as s_tc is not modified */
GPtrArray *
nm_utils_qdiscs_from_tc_setting(NMPlatform *platform, NMSettingTCConfig *s_tc, int ip_ifindex)
{
GPtrArray *qdiscs;
guint nqdiscs;
guint i;
nqdiscs = nm_setting_tc_config_get_num_qdiscs(s_tc);
qdiscs = g_ptr_array_new_full(nqdiscs, (GDestroyNotify) nmp_object_unref);
for (i = 0; i < nqdiscs; i++) {
NMTCQdisc * s_qdisc = nm_setting_tc_config_get_qdisc(s_tc, i);
NMPObject * q = nmp_object_new(NMP_OBJECT_TYPE_QDISC, NULL);
NMPlatformQdisc *qdisc = NMP_OBJECT_CAST_QDISC(q);
qdisc->ifindex = ip_ifindex;
qdisc->kind = nm_tc_qdisc_get_kind(s_qdisc);
qdisc->addr_family = AF_UNSPEC;
qdisc->handle = nm_tc_qdisc_get_handle(s_qdisc);
qdisc->parent = nm_tc_qdisc_get_parent(s_qdisc);
qdisc->info = 0;
#define GET_ATTR(name, dst, variant_type, type, dflt) \
G_STMT_START \
{ \
GVariant *_variant = nm_tc_qdisc_get_attribute(s_qdisc, "" name ""); \
\
if (_variant && g_variant_is_of_type(_variant, G_VARIANT_TYPE_##variant_type)) \
(dst) = g_variant_get_##type(_variant); \
else \
(dst) = (dflt); \
} \
G_STMT_END
if (strcmp(qdisc->kind, "fq_codel") == 0) {
GET_ATTR("limit", qdisc->fq_codel.limit, UINT32, uint32, 0);
GET_ATTR("flows", qdisc->fq_codel.flows, UINT32, uint32, 0);
GET_ATTR("target", qdisc->fq_codel.target, UINT32, uint32, 0);
GET_ATTR("interval", qdisc->fq_codel.interval, UINT32, uint32, 0);
GET_ATTR("quantum", qdisc->fq_codel.quantum, UINT32, uint32, 0);
GET_ATTR("ce_threshold",
qdisc->fq_codel.ce_threshold,
UINT32,
uint32,
NM_PLATFORM_FQ_CODEL_CE_THRESHOLD_DISABLED);
GET_ATTR("memory_limit",
qdisc->fq_codel.memory_limit,
UINT32,
uint32,
NM_PLATFORM_FQ_CODEL_MEMORY_LIMIT_UNSET);
GET_ATTR("ecn", qdisc->fq_codel.ecn, BOOLEAN, boolean, FALSE);
} else if (nm_streq(qdisc->kind, "sfq")) {
GET_ATTR("limit", qdisc->sfq.limit, UINT32, uint32, 0);
GET_ATTR("flows", qdisc->sfq.flows, UINT32, uint32, 0);
GET_ATTR("divisor", qdisc->sfq.divisor, UINT32, uint32, 0);
GET_ATTR("perturb", qdisc->sfq.perturb_period, INT32, int32, 0);
GET_ATTR("quantum", qdisc->sfq.quantum, UINT32, uint32, 0);
GET_ATTR("depth", qdisc->sfq.depth, UINT32, uint32, 0);
} else if (nm_streq(qdisc->kind, "tbf")) {
GET_ATTR("rate", qdisc->tbf.rate, UINT64, uint64, 0);
GET_ATTR("burst", qdisc->tbf.burst, UINT32, uint32, 0);
GET_ATTR("limit", qdisc->tbf.limit, UINT32, uint32, 0);
GET_ATTR("latency", qdisc->tbf.latency, UINT32, uint32, 0);
}
#undef GET_ATTR
g_ptr_array_add(qdiscs, q);
}
return qdiscs;
}
/* The returned tfilter array is valid as long as s_tc is not modified */
GPtrArray *
nm_utils_tfilters_from_tc_setting(NMPlatform *platform, NMSettingTCConfig *s_tc, int ip_ifindex)
{
GPtrArray *tfilters;
guint ntfilters;
guint i;
ntfilters = nm_setting_tc_config_get_num_tfilters(s_tc);
tfilters = g_ptr_array_new_full(ntfilters, (GDestroyNotify) nmp_object_unref);
for (i = 0; i < ntfilters; i++) {
NMTCTfilter * s_tfilter = nm_setting_tc_config_get_tfilter(s_tc, i);
NMTCAction * action;
NMPObject * t = nmp_object_new(NMP_OBJECT_TYPE_TFILTER, NULL);
NMPlatformTfilter *tfilter = NMP_OBJECT_CAST_TFILTER(t);
tfilter->ifindex = ip_ifindex;
tfilter->kind = nm_tc_tfilter_get_kind(s_tfilter);
tfilter->addr_family = AF_UNSPEC;
tfilter->handle = nm_tc_tfilter_get_handle(s_tfilter);
tfilter->parent = nm_tc_tfilter_get_parent(s_tfilter);
tfilter->info = TC_H_MAKE(0, htons(ETH_P_ALL));
action = nm_tc_tfilter_get_action(s_tfilter);
if (action) {
GVariant *var;
tfilter->action.kind = nm_tc_action_get_kind(action);
if (strcmp(tfilter->action.kind, "simple") == 0) {
var = nm_tc_action_get_attribute(action, "sdata");
if (var && g_variant_is_of_type(var, G_VARIANT_TYPE_BYTESTRING)) {
g_strlcpy(tfilter->action.simple.sdata,
g_variant_get_bytestring(var),
sizeof(tfilter->action.simple.sdata));
}
} else if (strcmp(tfilter->action.kind, "mirred") == 0) {
if (nm_tc_action_get_attribute(action, "egress"))
tfilter->action.mirred.egress = TRUE;
if (nm_tc_action_get_attribute(action, "ingress"))
tfilter->action.mirred.ingress = TRUE;
if (nm_tc_action_get_attribute(action, "mirror"))
tfilter->action.mirred.mirror = TRUE;
if (nm_tc_action_get_attribute(action, "redirect"))
tfilter->action.mirred.redirect = TRUE;
var = nm_tc_action_get_attribute(action, "dev");
if (var && g_variant_is_of_type(var, G_VARIANT_TYPE_STRING)) {
int ifindex;
ifindex =
nm_platform_link_get_ifindex(platform, g_variant_get_string(var, NULL));
if (ifindex > 0)
tfilter->action.mirred.ifindex = ifindex;
}
}
}
g_ptr_array_add(tfilters, t);
}
return tfilters;
}
void
nm_utils_ip_route_attribute_to_platform(int addr_family,
NMIPRoute * s_route,
NMPlatformIPRoute *r,
guint32 route_table)
{
GVariant * variant;
guint32 table;
NMIPAddr addr;
NMPlatformIP4Route *r4 = (NMPlatformIP4Route *) r;
NMPlatformIP6Route *r6 = (NMPlatformIP6Route *) r;
gboolean onlink;
nm_assert(s_route);
nm_assert_addr_family(addr_family);
nm_assert(r);
#define GET_ATTR(name, dst, variant_type, type, dflt) \
G_STMT_START \
{ \
GVariant *_variant = nm_ip_route_get_attribute(s_route, "" name ""); \
\
if (_variant && g_variant_is_of_type(_variant, G_VARIANT_TYPE_##variant_type)) \
(dst) = g_variant_get_##type(_variant); \
else \
(dst) = (dflt); \
} \
G_STMT_END
if ((variant = nm_ip_route_get_attribute(s_route, NM_IP_ROUTE_ATTRIBUTE_TYPE))
&& g_variant_is_of_type(variant, G_VARIANT_TYPE_STRING)) {
guint8 type;
type = nm_utils_route_type_by_name(g_variant_get_string(variant, NULL));
nm_assert(NM_IN_SET(type, RTN_UNICAST, RTN_LOCAL));
r->type_coerced = nm_platform_route_type_coerce(type);
} else
r->type_coerced = nm_platform_route_type_coerce(RTN_UNICAST);
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_TABLE, table, UINT32, uint32, 0);
if (!table && r->type_coerced == nm_platform_route_type_coerce(RTN_LOCAL))
r->table_coerced = nm_platform_route_table_coerce(RT_TABLE_LOCAL);
else
r->table_coerced = nm_platform_route_table_coerce(table ?: (route_table ?: RT_TABLE_MAIN));
if (NM_IS_IPv4(addr_family)) {
guint8 scope;
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_TOS, r4->tos, BYTE, byte, 0);
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_SCOPE, scope, BYTE, byte, RT_SCOPE_NOWHERE);
r4->scope_inv = nm_platform_route_scope_inv(scope);
}
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_ONLINK, onlink, BOOLEAN, boolean, FALSE);
r->r_rtm_flags = ((onlink) ? (unsigned) RTNH_F_ONLINK : 0u);
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_WINDOW, r->window, UINT32, uint32, 0);
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_CWND, r->cwnd, UINT32, uint32, 0);
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_INITCWND, r->initcwnd, UINT32, uint32, 0);
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_INITRWND, r->initrwnd, UINT32, uint32, 0);
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_MTU, r->mtu, UINT32, uint32, 0);
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_LOCK_WINDOW, r->lock_window, BOOLEAN, boolean, FALSE);
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_LOCK_CWND, r->lock_cwnd, BOOLEAN, boolean, FALSE);
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_LOCK_INITCWND, r->lock_initcwnd, BOOLEAN, boolean, FALSE);
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_LOCK_INITRWND, r->lock_initrwnd, BOOLEAN, boolean, FALSE);
GET_ATTR(NM_IP_ROUTE_ATTRIBUTE_LOCK_MTU, r->lock_mtu, BOOLEAN, boolean, FALSE);
if ((variant = nm_ip_route_get_attribute(s_route, NM_IP_ROUTE_ATTRIBUTE_SRC))
&& g_variant_is_of_type(variant, G_VARIANT_TYPE_STRING)) {
if (inet_pton(addr_family, g_variant_get_string(variant, NULL), &addr) == 1) {
if (NM_IS_IPv4(addr_family))
r4->pref_src = addr.addr4;
else
r6->pref_src = addr.addr6;
}
}
if (!NM_IS_IPv4(addr_family)
&& (variant = nm_ip_route_get_attribute(s_route, NM_IP_ROUTE_ATTRIBUTE_FROM))
&& g_variant_is_of_type(variant, G_VARIANT_TYPE_STRING)) {
int prefix;
if (nm_utils_parse_inaddr_prefix_bin(addr_family,
g_variant_get_string(variant, NULL),
NULL,
&addr,
&prefix)) {
if (prefix < 0)
prefix = 128;
r6->src = addr.addr6;
r6->src_plen = prefix;
}
}
#undef GET_ATTR
}
/*****************************************************************************/
static int
_addresses_sort_cmp_4(gconstpointer a, gconstpointer b, gpointer user_data)
{
return nm_platform_ip4_address_pretty_sort_cmp(
NMP_OBJECT_CAST_IP4_ADDRESS(*((const NMPObject **) a)),
NMP_OBJECT_CAST_IP4_ADDRESS(*((const NMPObject **) b)));
}
static int
_addresses_sort_cmp_6(gconstpointer a, gconstpointer b, gpointer user_data)
{
return nm_platform_ip6_address_pretty_sort_cmp(
NMP_OBJECT_CAST_IP6_ADDRESS(*((const NMPObject **) a)),
NMP_OBJECT_CAST_IP6_ADDRESS(*((const NMPObject **) b)),
(((NMSettingIP6ConfigPrivacy) GPOINTER_TO_INT(user_data))
== NM_SETTING_IP6_CONFIG_PRIVACY_PREFER_TEMP_ADDR));
}
void
nm_utils_ip_addresses_to_dbus(int addr_family,
const NMDedupMultiHeadEntry *head_entry,
const NMPObject * best_default_route,
NMSettingIP6ConfigPrivacy ipv6_privacy,
GVariant ** out_address_data,
GVariant ** out_addresses)
{
const int IS_IPv4 = NM_IS_IPv4(addr_family);
GVariantBuilder builder_data;
GVariantBuilder builder_legacy;
char addr_str[NM_UTILS_INET_ADDRSTRLEN];
gs_free const NMPObject **addresses = NULL;
guint naddr;
guint i;
nm_assert_addr_family(addr_family);
if (out_address_data)
g_variant_builder_init(&builder_data, G_VARIANT_TYPE("aa{sv}"));
if (out_addresses) {
if (IS_IPv4)
g_variant_builder_init(&builder_legacy, G_VARIANT_TYPE("aau"));
else
g_variant_builder_init(&builder_legacy, G_VARIANT_TYPE("a(ayuay)"));
}
if (!head_entry)
goto out;
addresses =
(const NMPObject **) nm_dedup_multi_objs_to_array_head(head_entry, NULL, NULL, &naddr);
nm_assert(addresses && naddr);
g_qsort_with_data(addresses,
naddr,
sizeof(addresses[0]),
IS_IPv4 ? _addresses_sort_cmp_4 : _addresses_sort_cmp_6,
GINT_TO_POINTER(ipv6_privacy));
for (i = 0; i < naddr; i++) {
const NMPlatformIPXAddress *address = NMP_OBJECT_CAST_IPX_ADDRESS(addresses[i]);
if (out_address_data) {
GVariantBuilder addr_builder;
gconstpointer p;
g_variant_builder_init(&addr_builder, G_VARIANT_TYPE("a{sv}"));
g_variant_builder_add(
&addr_builder,
"{sv}",
"address",
g_variant_new_string(
nm_utils_inet_ntop(addr_family, address->ax.address_ptr, addr_str)));
g_variant_builder_add(&addr_builder,
"{sv}",
"prefix",
g_variant_new_uint32(address->ax.plen));
p = NULL;
if (IS_IPv4) {
if (address->a4.peer_address != address->a4.address)
p = &address->a4.peer_address;
} else {
if (!IN6_IS_ADDR_UNSPECIFIED(&address->a6.peer_address)
&& !IN6_ARE_ADDR_EQUAL(&address->a6.peer_address, &address->a6.address))
p = &address->a6.peer_address;
}
if (p) {
g_variant_builder_add(
&addr_builder,
"{sv}",
"peer",
g_variant_new_string(nm_utils_inet_ntop(addr_family, p, addr_str)));
}
if (IS_IPv4) {
if (*address->a4.label) {
g_variant_builder_add(&addr_builder,
"{sv}",
NM_IP_ADDRESS_ATTRIBUTE_LABEL,
g_variant_new_string(address->a4.label));
}
}
g_variant_builder_add(&builder_data, "a{sv}", &addr_builder);
}
if (out_addresses) {
if (IS_IPv4) {
const guint32 dbus_addr[3] = {
address->a4.address,
address->a4.plen,
(i == 0 && best_default_route)
? NMP_OBJECT_CAST_IP4_ROUTE(best_default_route)->gateway
: (guint32) 0,
};
g_variant_builder_add(&builder_legacy,
"@au",
g_variant_new_fixed_array(G_VARIANT_TYPE_UINT32,
dbus_addr,
3,
sizeof(guint32)));
} else {
g_variant_builder_add(
&builder_legacy,
"(@ayu@ay)",
nm_g_variant_new_ay_in6addr(&address->a6.address),
address->a6.plen,
nm_g_variant_new_ay_in6addr(
(i == 0 && best_default_route)
? &NMP_OBJECT_CAST_IP6_ROUTE(best_default_route)->gateway
: &in6addr_any));
}
}
}
out:
NM_SET_OUT(out_address_data, g_variant_builder_end(&builder_data));
NM_SET_OUT(out_addresses, g_variant_builder_end(&builder_legacy));
}
void
nm_utils_ip_routes_to_dbus(int addr_family,
const NMDedupMultiHeadEntry *head_entry,
GVariant ** out_route_data,
GVariant ** out_routes)
{
const int IS_IPv4 = NM_IS_IPv4(addr_family);
NMDedupMultiIter iter;
const NMPObject *obj;
GVariantBuilder builder_data;
GVariantBuilder builder_legacy;
char addr_str[NM_UTILS_INET_ADDRSTRLEN];
nm_assert_addr_family(addr_family);
if (out_route_data)
g_variant_builder_init(&builder_data, G_VARIANT_TYPE("aa{sv}"));
if (out_routes) {
if (IS_IPv4)
g_variant_builder_init(&builder_legacy, G_VARIANT_TYPE("aau"));
else
g_variant_builder_init(&builder_legacy, G_VARIANT_TYPE("a(ayuayu)"));
}
nm_dedup_multi_iter_init(&iter, head_entry);
while (nm_platform_dedup_multi_iter_next_obj(&iter, &obj, NMP_OBJECT_TYPE_IP_ROUTE(IS_IPv4))) {
const NMPlatformIPXRoute *r = NMP_OBJECT_CAST_IPX_ROUTE(obj);
struct in6_addr n;
nm_assert(r);
nm_assert(r->rx.plen <= 8u * nm_utils_addr_family_to_size(addr_family));
nm_assert(!IS_IPv4
|| r->r4.network
== nm_utils_ip4_address_clear_host_address(r->r4.network, r->r4.plen));
nm_assert(
IS_IPv4
|| (memcmp(&r->r6.network,
nm_utils_ip6_address_clear_host_address(&n, &r->r6.network, r->r6.plen),
sizeof(n))
== 0));
if (r->rx.type_coerced != nm_platform_route_type_coerce(RTN_UNICAST))
continue;
if (out_route_data) {
GVariantBuilder route_builder;
gconstpointer gateway;
g_variant_builder_init(&route_builder, G_VARIANT_TYPE("a{sv}"));
g_variant_builder_add(
&route_builder,
"{sv}",
"dest",
g_variant_new_string(nm_utils_inet_ntop(addr_family, r->rx.network_ptr, addr_str)));
g_variant_builder_add(&route_builder,
"{sv}",
"prefix",
g_variant_new_uint32(r->rx.plen));
gateway = nm_platform_ip_route_get_gateway(addr_family, &r->rx);
if (!nm_ip_addr_is_null(addr_family, gateway)) {
g_variant_builder_add(
&route_builder,
"{sv}",
"next-hop",
g_variant_new_string(nm_utils_inet_ntop(addr_family, gateway, addr_str)));
}
g_variant_builder_add(&route_builder,
"{sv}",
"metric",
g_variant_new_uint32(r->rx.metric));
if (!nm_platform_route_table_is_main(r->rx.table_coerced)) {
g_variant_builder_add(
&route_builder,
"{sv}",
"table",
g_variant_new_uint32(
nm_platform_route_table_uncoerce(r->rx.table_coerced, TRUE)));
}
g_variant_builder_add(&builder_data, "a{sv}", &route_builder);
}
if (out_routes) {
/* legacy versions of nm_ip[46]_route_set_prefix() in libnm-util assert that the
* plen is positive. Skip the default routes not to break older clients. */
if (!nm_platform_route_table_is_main(r->rx.table_coerced)
|| NM_PLATFORM_IP_ROUTE_IS_DEFAULT(r))
continue;
if (IS_IPv4) {
const guint32 dbus_route[4] = {
r->r4.network,
r->r4.plen,
r->r4.gateway,
r->r4.metric,
};
g_variant_builder_add(&builder_legacy,
"@au",
g_variant_new_fixed_array(G_VARIANT_TYPE_UINT32,
dbus_route,
4,
sizeof(guint32)));
} else {
g_variant_builder_add(&builder_legacy,
"(@ayu@ayu)",
nm_g_variant_new_ay_in6addr(&r->r6.network),
(guint32) r->r6.plen,
nm_g_variant_new_ay_in6addr(&r->r6.gateway),
(guint32) r->r6.metric);
}
}
}
NM_SET_OUT(out_route_data, g_variant_builder_end(&builder_data));
NM_SET_OUT(out_routes, g_variant_builder_end(&builder_legacy));
}
/*****************************************************************************/
typedef struct {
char *table;
char *rule;
} ShareRule;
struct _NMUtilsShareRules {
GArray *rules;
};
static void
_share_rule_clear(gpointer data)
{
ShareRule *rule = data;
g_free(rule->table);
g_free(rule->rule);
}
NMUtilsShareRules *
nm_utils_share_rules_new(void)
{
NMUtilsShareRules *self;
self = g_slice_new(NMUtilsShareRules);
*self = (NMUtilsShareRules){
.rules = g_array_sized_new(FALSE, FALSE, sizeof(ShareRule), 10),
};
g_array_set_clear_func(self->rules, _share_rule_clear);
return self;
}
void
nm_utils_share_rules_free(NMUtilsShareRules *self)
{
if (!self)
return;
g_array_unref(self->rules);
nm_g_slice_free(self);
}
void
nm_utils_share_rules_add_rule_take(NMUtilsShareRules *self, const char *table, char *rule_take)
{
ShareRule *rule;
g_return_if_fail(self);
g_return_if_fail(table);
g_return_if_fail(rule_take);
rule = nm_g_array_append_new(self->rules, ShareRule);
*rule = (ShareRule){
.table = g_strdup(table),
.rule = g_steal_pointer(&rule_take),
};
}
void
nm_utils_share_rules_apply(NMUtilsShareRules *self, gboolean shared)
{
guint i;
g_return_if_fail(self);
if (self->rules->len == 0)
return;
/* depending on whether we share or unshare, we add/remote the rules
* in opposite order. */
if (shared)
i = self->rules->len - 1;
else
i = 0;
for (;;) {
gs_free_error GError *error = NULL;
ShareRule * rule;
gs_free const char ** argv = NULL;
gs_free char * cmd = NULL;
int status;
rule = &g_array_index(self->rules, ShareRule, i);
cmd = g_strdup_printf("%s --table %s %s %s",
IPTABLES_PATH,
rule->table,
shared ? "--insert" : "--delete",
rule->rule);
argv = nm_utils_strsplit_set(cmd, " ");
nm_log_info(LOGD_SHARING, "Executing: %s", cmd);
if (!g_spawn_sync("/",
(char **) argv,
(char **) NM_PTRARRAY_EMPTY(const char *),
G_SPAWN_STDOUT_TO_DEV_NULL | G_SPAWN_STDERR_TO_DEV_NULL,
NULL,
NULL,
NULL,
NULL,
&status,
&error)) {
nm_log_warn(LOGD_SHARING, "Error executing command: %s", error->message);
goto next;
}
if (WEXITSTATUS(status)) {
nm_log_warn(LOGD_SHARING, "** Command returned exit status %d.", WEXITSTATUS(status));
}
next:
if (shared) {
if (i == 0)
break;
i--;
} else {
i++;
if (i >= self->rules->len)
break;
}
}
}
void
nm_utils_share_rules_add_all_rules(NMUtilsShareRules *self,
const char * ip_iface,
in_addr_t addr,
guint plen)
{
in_addr_t netmask;
in_addr_t network;
char str_mask[NM_UTILS_INET_ADDRSTRLEN];
char str_addr[NM_UTILS_INET_ADDRSTRLEN];
nm_assert(self);
netmask = _nm_utils_ip4_prefix_to_netmask(plen);
_nm_utils_inet4_ntop(netmask, str_mask);
network = addr & netmask;
_nm_utils_inet4_ntop(network, str_addr);
nm_utils_share_rules_add_rule_v(
self,
"nat",
"POSTROUTING --source %s/%s ! --destination %s/%s --jump MASQUERADE",
str_addr,
str_mask,
str_addr,
str_mask);
nm_utils_share_rules_add_rule_v(
self,
"filter",
"FORWARD --destination %s/%s --out-interface %s --match state --state "
"ESTABLISHED,RELATED --jump ACCEPT",
str_addr,
str_mask,
ip_iface);
nm_utils_share_rules_add_rule_v(self,
"filter",
"FORWARD --source %s/%s --in-interface %s --jump ACCEPT",
str_addr,
str_mask,
ip_iface);
nm_utils_share_rules_add_rule_v(self,
"filter",
"FORWARD --in-interface %s --out-interface %s --jump ACCEPT",
ip_iface,
ip_iface);
nm_utils_share_rules_add_rule_v(self,
"filter",
"FORWARD --out-interface %s --jump REJECT",
ip_iface);
nm_utils_share_rules_add_rule_v(self,
"filter",
"FORWARD --in-interface %s --jump REJECT",
ip_iface);
nm_utils_share_rules_add_rule_v(
self,
"filter",
"INPUT --in-interface %s --protocol udp --destination-port 67 --jump ACCEPT",
ip_iface);
nm_utils_share_rules_add_rule_v(
self,
"filter",
"INPUT --in-interface %s --protocol tcp --destination-port 67 --jump ACCEPT",
ip_iface);
nm_utils_share_rules_add_rule_v(
self,
"filter",
"INPUT --in-interface %s --protocol udp --destination-port 53 --jump ACCEPT",
ip_iface);
nm_utils_share_rules_add_rule_v(
self,
"filter",
"INPUT --in-interface %s --protocol tcp --destination-port 53 --jump ACCEPT",
ip_iface);
}